Seb d 017208

SEBM017208

1

D475A-3 MACHINE MODEL

SERIAL No.

D475A-3

10601 and up

•

This shop manual may contain attachments and optional equipment that are not available in your area. Please consult your local Komatsu distributor for those items you may require. Materials and specifications are subject to change without notice.

•

D475A-3 mount the SDA12V140-1 engine. For details of the engine, see the 12V140-1 Series Engine Shop Manual.

© 2002 1 All Rights Reserved Printed in Japan 08-02(01)

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CONTENTS No. of page

01

GENERAL ........................................................................

01-1

10

STRUCTURE AND FUNCTION ......................................

10-1

20

TESTING AND ADJUSTING ..........................................

20-1

30

DISASSEMBLY AND ASSEMBLY .................................

30-1

40

MAINTENANCE STANDARD .........................................

40-1

90

OTHERS...........................................................................

90-1

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D475A-3

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D475A-3

SAFETY

SAFETY NOTICE

SAFETY SAFETY NOTICE IMPORTANT SAFETY NOTICE Proper service and repair is extremely important for safe machine operation. The service and repair techniques recommended by Komatsu and described in this manual are both effective and safe. Some of these techniques require the use of tools specially designed by Komatsu for the specific purpose. To prevent injury to workers, the symbol ¤ is used to mark safety precautions in this manual. The cautions accompanying these symbols should always be followed carefully. If any dangerous situation arises or may possibly arise, first consider safety, and take the necessary actions to deal with the situation.

GENERAL PRECAUTIONS Mistakes in operation are extremely dangerous. Read the Operation and Maintenance Manual carefully BEFORE operating the machine. 1. Before carrying out any greasing or repairs, read all the precautions given on the decals which are fixed to the machine. 2. When carrying out any operation, always wear safety shoes and helmet. Do not wear loose work clothes, or clothes with buttons missing. • Always wear safety glasses when hitting parts with a hammer. • Always wear safety glasses when grinding parts with a grinder, etc. 3. If welding repairs are needed, always have a trained, experienced welder carry out the work. When carrying out welding work, always wear welding gloves, apron, hand shield, cap and other clothes suited for welding work. 4. When carrying out any operation with two or more workers, always agree on the operating procedure before starting. Always inform your fellow workers before starting any step of the operation. Before starting work, hang UNDER REPAIR signs on the controls in the operator's compartment. 5. Keep all tools in good condition and learn the correct way to use them.

6. Decide a place in the repair workshop to keep tools and removed parts. Always keep the tools and parts in their correct places. Always keep the work area clean and make sure that there is no dirt or oil on the floor. Smoke only in the areas provided for smoking. Never smoke while working.

PREPARATIONS FOR WORK 7. Before adding oil or making any repairs, park the machine on hard, level ground, and block the wheels or tracks to prevent the machine from moving. 8. Before starting work, lower blade, ripper, bucket or any other work equipment to the ground. If this is not possible, insert the safety pin or use blocks to prevent the work equipment from falling. In addition, be sure to lock all the control levers and hang warning signs on them. 9. When disassembling or assembling, support the machine with blocks, jacks or stands before starting work. 10. Remove all mud and oil from the steps or other places used to get on and off the machine. Always use the handrails, ladders or steps when getting on or off the machine. Never jump on or off the machine. If it is impossible to use the handrails, ladders or steps, use a stand to provide safe footing.

00-3

SAFETY

PRECAUTIONS DURING WORK 11. When removing the oil filler cap, drain plug or hydraulic pressure measuring plugs, loosen them slowly to prevent the oil from spurting out. Before disconnecting or removing components of the oil, water or air circuits, first remove the pressure completely from the circuit. 12. The water and oil in the circuits are hot when the engine is stopped, so be careful not to get burned. Wait for the oil and water to cool before carrying out any work on the oil or water circuits. 13. Before starting work, remove the leads from the battery. Always remove the lead from the negative (–) terminal first. 14. When raising heavy components, use a hoist or crane. Check that the wire rope, chains and hooks are free from damage. Always use lifting equipment which has ample capacity. Install the lifting equipment at the correct places. Use a hoist or crane and operate slowly to prevent the component from hitting any other part. Do not work with any part still raised by the hoist or crane. 15. When removing covers which are under internal pressure or under pressure from a spring, always leave two bolts in position on opposite sides. Slowly release the pressure, then slowly loosen the bolts to remove. 16. When removing components, be careful not to break or damage the wiring. Damaged wiring may cause electrical fires. 17. When removing piping, stop the fuel or oil from spilling out. If any fuel or oil drips onto the floor, wipe it up immediately. Fuel or oil on the floor can cause you to slip, or can even start fires. 18. As a general rule, do not use gasoline to wash parts. In particular, use only the minimum of gasoline when washing electrical parts.

00-4

SAFETY NOTICE

19. Be sure to assemble all parts again in their original places. Replace any damaged parts with new parts. • When installing hoses and wires, be sure that they will not be damaged by contact with other parts when the machine is being operated. 20. When installing high pressure hoses, make sure that they are not twisted. Damaged tubes are dangerous, so be extremely careful when installing tubes for high pressure circuits. Also, check that connecting parts are correctly installed. 21. When assembling or installing parts, always use the specified tightening torques. When installing protective parts such as guards, or parts which vibrate violently or rotate at high speed, be particularly careful to check that they are installed correctly. 22. When aligning two holes, never insert your fingers or hand. Be careful not to get your fingers caught in a hole. 23. When measuring hydraulic pressure, check that the measuring tool is correctly assembled before taking any measurements. 24. Take care when removing or installing the tracks of track-type machines. When removing the track, the track separates suddenly, so never let anyone stand at either end of the track.

F O R EW OR D

GENERAL

F O R EWOR D GENERAL This shop manual has been prepared as an aid to improve the quality of repairs by giving the serviceman an accurate understanding of the product and by showing him the correct way to perform repairs and make judgements. Make sure you understand the contents of this manual and use it to full effect at every opportunity.

This shop manual mainly contains the necessary technical information for operations performed in a service workshop. For ease of understanding, the manual is divided into the following chapters; these chapters are further divided into the each main group of components.

STRUCTURE AND FUNCTION This section explains the structure and function of each component. It serves not only to give an understanding of the structure, but also serves as reference material for troubleshooting. In addition, this section may contain hydraulic circuit diagrams, electric circuit diagrams, and maintenance standards. TESTING AND ADJUSTING This section explains checks to be made before and after performing repairs, as well as adjustments to be made at completion of the checks and repairs. Troubleshooting charts correlating "Problems" with "Causes" are also included in this section. DISASSEMBLY AND ASSEMBLY This section explains the procedures for removing, installing, disassembling and assembling each component, as well as precautions for them. MAINTENANCE STANDARD This section gives the judgment standards for inspection of disassembled parts. The contents of this section may be described in STRUCTURE AND FUNCTION. OTHERS This section mainly gives hydraulic circuit diagrams and electric circuit diagrams. In addition, this section may give the specifications of attachments and options together.

NOTICE The specifications contained in this shop manual are subject to change at any time and without any advance notice. Use the specifications given in the book with the latest date.

00-5

F O R EW OR D

HOW TO READ THE SHOP MANUAL

HOW TO READ THE SHOP MANUAL VOLUMES

REVISED EDITION MARK

Shop manuals are issued as a guide to carrying out repairs. They are divided as follows:

When a manual is revised, an edition mark (123....) is recorded on the bottom of the pages.

Chassis volume: Issued for every machine model Engine volume: Issued for each engine series Each issued as one Electrical volume: volume to cover all Attachments volume: models

}

These various volumes are designed to avoid duplicating the same information. Therefore, to deal with all repairs for any model , it is necessary that chassis, engine, electrical and attachment volumes be available. DISTRIBUTION AND UPDATING Any additions, amendments or other changes will be sent to KOMATSU distributors. Get the most up-to-date information before you start any work.

REVISIONS Revised pages are shown in the LIST OF REVISED PAGES next to the CONTENTS page.

SYMBOLS So that the shop manual can be of ample practical use, important safety and quality portions are marked with the following symbols.

FILING METHOD 1. See the page number on the bottom of the page. File the pages in correct order. 2. Following examples show how to read the page number. Example 1 (Chassis volume):

Item

¤

Safety

Special safety precautions are necessary when performing the work.

Caution

Special technical precautions or other precautions for preserving standards are necessary when performing the work.

Weight

Weight of parts of systems. Caution necessary when selecting hoisting wire, or when working posture is important, etc.

10 - 3 Item number (10. Structure and Function) Consecutive page number for each item.

fl 4

Example 2 (Engine volume): 12 - 5 Unit number (1. Engine) Item number (2. Testing and Adjusting) Consecutive page number for each item. 3. Additional pages: Additional pages are indicated by a hyphen (-) and number after the page number. File as in the example. Example: 10-4 10-4-1 10-4-2 10-5

00-6

Added pages

12-203 12-203-1 12-203-2 12-204

Remarks

Symbol

3 2

5 6

Tightening Places that require special attention for the tightening torque torque during assembly. Coat

Places to be coated with adhesives and lubricants, etc.

Places where oil, water or fuel Oil, water must be added, and the capacity.

Drain

Places where oil or water must be drained, and quantity to be drained.

F O R EW OR D

HOISTING INSTRUCTIONS

HOISTING INSTRUCTIONS HOISTING



Heavy parts (25 kg or more) must be lifted with a hoist, etc. In the DISASSEMBLY AND ASSEMBLY section, every part weighing 25 kg or more is indicated clearly with the symbol 4

• If a part cannot be smoothly removed from the machine by hoisting, the following checks should be made: 1) Check for removal of all bolts fastening the part to the relative parts. 2) Check for existence of another part causing interference with the part to be removed.

WIRE ROPES 1) Use adequate ropes depending on the weight of parts to be hoisted, referring to the table below: Wire ropes (Standard "Z" or "S" twist ropes without galvanizing) Rope diameter

Allowable load

mm

kN

10

9.8

1.0

11.2

13.7

1.4

12.5

15.7

1.6

14

21.6

2.2

16

27.5

2.8

18

35.3

3.6

20

43.1

4.4

22.4

54.9

5.6

30

98.1

10.0

40

176.5

18.0

50

274.6

28.0

60

392.2

40.0

tons

Slinging near the edge of the hook may cause the rope to slip off the hook during hoisting, and a serious accident can result. Hooks have maximum strength at the middle portion.

100%

88%

79%

71%

41% SAD00479

3) Do not sling a heavy load with one rope alone, but sling with two or more ropes symmetrically wound onto the load. ¤ Slinging with one rope may cause turning of the load during hoisting, untwisting of the rope, or slipping of the rope from its original winding position on the load, which can result in a dangerous accident. 4) Do not sling a heavy load with ropes forming a wide hanging angle from the hook. When hoisting a load with two or more ropes, the force subjected to each rope will increase with the hanging angles. The table below shows the variation of allowable load kN {kg} when hoisting is made with two ropes, each of which is allowed to sling up to 9.8 kN {1000 kg} vertically, at various hanging angles. When two ropes sling a load vertically, up to 19.6 kN {2000 kg} of total weight can be suspended. This weight becomes 9.8 kN {1000 kg} when two ropes make a 120° hanging angle. On the other hand, two ropes are subjected to an excessive force as large as 39.2 kN {4000 kg} if they sling a 19.6 kN {2000 kg} load at a lifting angle of 150°.

°

fl The allowable load value is estimated to be one-sixth or one-seventh of the breaking strength of the rope used. 2) Sling wire ropes from the middle portion of the hook.

00-7

F O R EW OR D

METHOD OF DISASSEMBLING, CONNECTING PUSH-PULL TYPE COUPLER

METHOD OF DISASSEMBLING, CONNECTING PUSH-PULL TYPE COUPLER fl There are 2 types of push-pull type coupler. The method of disassembling and connecting is different, so see the table below when disassembling and connecting the coupler. Type 2

1) Hold the mouthpiece of the tightening portion and push body (2) in straight until sliding prevention ring (1) contacts contact surface a of the hexagonal portion at the male end.

1) Hold the mouthpiece of the tightening portion and push body (2) in straight until sliding prevention ring (1) contacts contact surface a of the hexagonal portion at the male end.

2) Hold in the condition in Step 1), and push until cover (3) contacts contact surface a of the hexagonal portion at the male end.

2) Hold in the condition in Step 1), and turn lever (4) to the right (clockwise).

3) Hold in the condition in Steps 1) and 2), and pull out whole body (2) to disconnect it.

3) Hold in the condition in Steps 1) and 2), and pull out whole body (2) to disconnect it.

Disassembly

Type 1

00-8

F O R EW OR D

METHOD OF DISASSEMBLING, CONNECTING PUSH-PULL TYPE COUPLER

Type 2

• Hold the mouthpiece of the tightening portion and push body (2) in straight until sliding prevention ring (1) contacts contact surface a of the hexagonal portion at the male end to connect it.

• Hold the mouthpiece of the tightening portion and push body (2) in straight until sliding prevention ring (1) contacts contact surface a of the hexagonal portion at the male end to connect it.

Connection

Type 1

00-9

F O R EW OR D

COATING MATERIALS

COATING MATERIALS fl The recommended coating materials such as adhesives, gasket sealants and greases used for disassembly and assembly are listed below. fl For coating materials not listed below, use the equivalent of products shown in this list.

Category

Komatsu code

Part No.

Q'ty

Container

Main applications, features

LT–1A

790–129–9030

150 g

Tube

• Used to prevent rubber gaskets, rubber cushions, and cock plug from coming out.

LT–1B

790–129–9050

20 g (2 pes.)

• Used in places requiring an immediately effective, strong adhesive. Used for plasPolyethylene tics (except polyethylene, polyprophylene, container tetrafluoroethlene and vinyl chloride), rubber, metal and non-metal.

50 g

• Features: Resistance to heat and chemiPolyethylene cals container • Used for anti-loosening and sealant purpose for bolts and plugs.

LT–2

09940–00030

LT–3

790–129–9060 Adhesive: 1 kg (Set of adheHardening sive and agent: hardening 500 g agent)

LT–4

790–129–9040

250 g

Holtz MH 705

790–126–9120

75 g

• Used as adhesive or sealant for metal, glass and plastic. Can

Adhesives

Three bond 1735

790–129–9140

Tube

• Used as heat-resisting sealant for repairing engine.

50 g

• Quick hardening type adhesive Polyethylene • Cure time: within 5 sec. to 3 min. container • Used mainly for adhesion of metals, rubbers, plastics and woods.

Aron-alpha 201

790–129–9130

2g

• Quick hardening type adhesive • Quick cure type (max. strength after 30 minPolyethylene utes) container • Used mainly for adhesion of rubbers, plastics and metals.

Loctite 648-50

79A–129–9110

50 cc

• Features: Resistance to heat, chemicals Polyethylene • Used at joint portions subject to high temcontainer peratures.

LG-1

790–129–9010

200 g

LG-5

790–129–9080

1 kg

Gasket sealant

LG-6

00-10

Polyethylene • Used as sealant for machined holes. container

790–129-9020

200 g

Tube

• Used as adhesive or sealant for gaskets and packing of power train case, etc.

• Used as sealant for various threads, pipe joints, flanges. Polyethylene container • Used as sealant for tapered plugs, elbows, nipples of hydraulic piping.

Tube

• Features: Silicon based, resistance to heat, cold • Used as sealant for flange surface, tread. • Used as sealant for oil pan, final drive case, etc.

F O R EW OR D

Category

COATING MATERIALS

Komatsu code

Part No.

Q'ty

Container

Main applications, features

LG-7

790-129-9070

1 kg

Tube

• Features: Silicon based, quick hardening type • Used as sealant for flywheel housing, intake manifold, oil an, thermostat housing, etc.

Three bond 1211

790–129–9090

100 g

Tube

• Used as heat-resisting sealant for repairing engine.

LM-G

09940-00051

60 g

Can

• Used as lubricant for sliding portion (to prevent from squeaking).

LM-P

09940-00040

200 g

Tube

• Used to prevent seizure or scuffling of the thread when press fitting or shrink fitting. • Used as lubricant for linkage, bearings, etc.

G2-LI

SYG2-400LI SYG2-350LI SYG2-400LI-A SYG2-160LI SYGA-160CNLI

G2-CA

SYG2-400CA SYG2-350CA SYG2-400CA-A Various SYG2-160CA SYGA-160CNCA

Gasket sealant

Molybdenum disulphide lubricant

Grease

Molybdenum disulphide lubricant

SYG2-400M

• General purpose type Various

400 g (10 per case)

Various

Various

Belows type

• Used for normal temperature, light load bearing at places in contact with water or steam.

• Used for places with heavy load

00-11

F O R EW OR D

STANDARD TIGHTENING TORQUE

STANDARD TIGHTENING TORQUE STANDARD TIGHTENING TORQUE TABLE (WHEN USING TORQUE WRENCH) fl In the case of metric nuts and bolts for which there is no special instruction, tighten to the torque given in the table below.

Thread diameter of bolt

Width across flats

mm

mm

6 8 10 12 14

10 13 17 19 22

16 18 20 22 24

24 27 30 32 36

279 ± 30 382 ± 39 549 ± 59 745 ± 83 927 ± 103

28.5 ± 3 39 ± 4 56 ± 6 76 ± 8.5 94.5 ± 10.5

27 30 33 36 39

41 46 50 55 60

1320 ± 140 1720 ± 190 2210 ± 240 2750 ± 290 3290 ± 340

135 ± 15 175 ± 20 225 ± 25 280 ± 30 335 ± 35


Width across flats

mm

mm

6 8 10 12

10 13 14 27

Nm

kgm 1.35 ± 0.15 3.2 ± 0.3 6.7 ± 0.7 11.5 ± 1 18 ± 2

13.2 ± 1.4 31 ± 3 66 ± 7 113 ± 10 177 ± 19

Nm

kgm 0.8 ± 0.2 1.9 ± 0.5 4.1 ± 0.6 8.4 ± 0.8

7.85 ± 1.95 18.6 ± 4.9 40.2 ± 5.9 82.35 ± 7.85

Sealing surface

TABLE OF TIGHTENING TORQUES FOR FLARED NUTS fl In the case of flared nuts for which there is no special instruction, tighten to the torque given in the table below. SAD00483

Thread diameter

Width across flat

mm

mm

14 18 22 24 30 33 36 42

19 24 27 32 36 41 46 55

00-12

Tightening torque Nm 24.5 ± 4.9 49 ± 19.6 78.5 ± 19.6 137.3 ± 29.4 176.5 ± 29.4 196.1 ± 49 245.2 ± 49 294.2 ± 49

kgm 2.5 ± 0.5 5±2 8±2 14 ± 3 18 ± 3 20 ± 5 25 ± 5 30 ± 5

F O R EW OR D


TABLE OF TIGHTENING TORQUES FOR SPLIT FLANGE BOLTS fl In the case of split flange bolts for which there is no special instruction, tighten to the torque given in the table below. Tightening torque

Thread diameter

Width across flat

mm

mm

Nm

10 12 16

14 17 22

65.7 ± 6.8 112 ± 9.8 279 ± 29

kgm 6.7 ± 0.7 11.5 ± 1 28.5 ± 3

TABLE OF TIGHTENING TORQUES FOR O-RING BOSS PIPING JOINTS fl Unless there are special instructions, tighten the O-ring boss piping joints to the torque below.

Nominal No.

Thread diameter mm

02 03, 04 05, 06 10, 12 14

14 20 24 33 42

Width across flat mm Varies depending on type of connector.

Tightening torque Nm

kgm

34.3 ± 4.9 93.1 ± 9.8 142.1 ± 19.6 421.4 ± 58.8 877.1 ± 132.3

3.5 ± 0.5 9.5 ± 1 14.5 ± 2 43 ± 6 89.5 ± 13.5

TABLE OF TIGHTENING TORQUES FOR O-RING BOSS PLUGS fl Unless there are special instructions, tighten the O-ring boss plugs to the torque below.

Nominal No. 08 10 12 14 16 18 20 24 30 33 36 42 52

Thread diameter mm 8 10 12 14 16 18 20 24 30 33 36 42 52

Tightening torque

Width across flat mm

Nm

kgm

14 17 19 22 24 27 30 32 32 — 36 — —

7.35 ± 1.47 11.27 ± 1.47 17.64 ± 1.96 22.54 ± 1.96 29.4 ± 4.9 39.2 ± 4.9 49 ± 4.9 68.6 ± 9.8 107.8 ± 14.7 127.4 ± 19.6 151.9 ± 24.5 210.7 ± 29.4 323.4 ± 44.1

0.75 ± 0.15 1.15 ± 0.15 1.8 ± 0.2 2.3 ± 0.2 3 ± 0.5 4 ± 0.5 5 ± 0.5 7± 1 11 ± 1.5 13 ± 2 15.5 ± 2.5 21.5 ± 3 33 ± 4.5

00-13

F O R EW OR D


TIGHTENING TORQUE FOR 102 ENGINE SERIIES (BOLT AND NUTS) Use these torques for bolts and nuts (unit: mm) of Cummins Engine. Thread diameter mm 6 8 10 12

Tightening torque Nm 10 24 43 77

± ± ± ±

kgm

2 4 6 12

1.02 2.45 4.38 7.85

± ± ± ±

0.20 0.41 0.61 1.22

TIGHTENING TORQUE FOR 102 ENGINE SERIIES (EYE JOINTS) Use these torques for eye joints (unit: mm) of Cummins Engine. Thread diameter mm 6 8 10 12 14

Tightening torque Nm 8 10 12 24 36

± ± ± ± ±

kgm 0.81 1.02 1.22 2.45 3.67

2 2 2 4 5

± ± ± ± ±

0.20 0.20 0.20 0.41 0.51

TIGHTENING TORQUE FOR 102 ENGINE SERIIES (TAPERED SCREWS) Use these torques for tapered screws (unit: inch) of Cummins Engine. Thread diameter inch 1 / 16 1/8 1/4 3/8 1/2 3/4 1

00-14

Tightening torque Nm 3 8 12 15 24 36 60

± ± ± ± ± ± ±

1 2 2 2 4 5 9

kgm 0.31 0.81 1.22 1.53 2.45 3.67 6.12

± ± ± ± ± ± ±

0.10 0.20 0.20 0.41 0.41 0.51 0.92

F O R EW OR D

ELECTRIC WIRE CODE

ELECTRIC WIRE CODE In the wiring diagrams, various colors and symbols are employed to indicate the thickness of wires. This wire code table will help you understand WIRING DIAGRAMS. Example: 5WB indicates a cable having a nominal number 5 and white coating with black stripe.

CLASSIFICATION BY THICKNESS Copper wire Nominal number

Number of Dia. of strands Cross section strands (mm) (mm2)

Cable O.D. (mm)

Current rating (A)

Applicable circuit

0.85

11

0.32

0.88

2.4

12

Starting, lighting, signal etc.

2

26

0.32

2.09

3.1

20

Lighting, signal etc.

5

65

0.32

5.23

4.6

37

Charging and signal

15

84

0.45

13.36

7.0

59

Starting (Glow plug)

40

85

0.80

42.73

11.4

135

Starting

60

127

0.80

63.84

13.6

178

Starting

100

217

0.80

17.6

230

Starting

109.1

CLASSIFICATION BY COLOR AND CODE Circuits Priority Classification 1

2

Pri- Code mary Color Code

Charging

Ground

Starting

Lighting

Instrument

Signal

Other

W

B

B

R

Y

G

L

White

Black

Black

Red

Yellow

Green

Blue

WR

—

BW

RW

YR

GW

LW

Color White & Red 3

4

5

Code

WB

—

Color White & Black

—

WL Auxi- Code liary Color White & Blue

—

Code

WG

Color White & Green 6

—

—

Black & White Red & White Yellow & Red Green & White Blue & White BY

RB

YB

GR

LR

Black & Yellow Red & Black Yellow & Black Green & Red Blue & Red BR

RY

YG

GY

LY

Black & Red Red & Yellow Yellow & Green Green & Yellow Blue & Yellow

—

—

—

—

Code

—

—

—

Color

—

—

—

RG

YL

GB

LB

Red & Green Yellow & Blue Green & Black Blue & Black RL

YW

GL

Red & Blue Yellow & White Green & Blue

— —

00-15

F O R EW OR D

CONVERSION TABLE

CONVERSION TABLE METHOD OF USING THE CONVERSION TABLE The Conversion Table in this section is provided to enable simple conversion of figures. details of the method of using the Conversion Table, see the example given below.

For

EXAMPLE • Method of using the Conversion Table to convert from millimeters to inches 1. Convert 55 mm into inches. (1) Locate the number 50 in the vertical column at the left side, take this as A, then draw a horizontal line from A. (2) Locate the number 5 in the row across the top, take this as B, then draw a perpendicular line down from B. (3) Take the point where the two lines cross as C. This point C gives the value when converting from millimeters to inches. Therefore, 55 mm = 2.165 inches. 2. Convert 550 mm into inches. (1) The number 550 does not appear in the table, so divide by 10 (move the decimal point one place to the left) to convert it to 55 mm. (2) Carry out the same procedure as above to convert 55 mm to 2.165 inches. (3) The original value (550 mm) was divided by 10, so multiply 2.165 inches by 10 (move the decimal point one place to the right) to return to the original value. This gives 550 mm = 21.65 inches.

0 10 20 30 40

0

1

2

3

4

0 0.394 0.787 1.181 1.575

0.039 0.433 0.827 1.220 1.614

0.079 0.472 0.866 1.260 1.654

0.118 0.512 0.906 1.299 1.693

0.157 0.551 0.945 1.339 1.732

5

..........................................

B Millimeters to inches

0.197 0.591 0.984 1.378 1.772 C 50 1.969 2.008 2.047 2.087 2.126 2.165 A ........................................................................................... 60 2.362 2.402 2.441 2.480 2.520 2.559 70 2.756 2.795 2.835 2.874 2.913 2.953 80 3.150 3.189 3.228 3.268 3.307 3.346 90 3.543 3.583 3.622 3.661 3.701 3.740

00-16

1 mm = 0.03937 in

6

7

8

9

0.236 0.630 1.024 1.417 1.811

0.276 0.669 1.063 1.457 1.850

0.315 0.709 1.102 1.496 1.890

0.354 0.748 1.142 1.536 1.929

2.205 2.598 2.992 3.386 3.780

2.244 2.638 3.032 3.425 3.819

2.283 2.677 3.071 3.465 3.858

2.323 2.717 3.110 3.504 3.898

F O R EW OR D

CONVERSION TABLE

Millimeters to Inches 1 mm = 0.03937 in

0

1

2

3

4

5

6

7

8

9

0

0.039

0.079

0.118

0.157

0.197

0.236

0.276

0.315

0.354

10

0.394

0.433

0.472

0.512

0.551

0.591

0.630

0.669

0.709

0.748

20

0.787

0.827

0.866

0.906

0.945

0.984

1.024

1.063

1.102

1.142

30

1.181

1.220

1.260

1.299

1.339

1.378

1.417

1.457

1.496

1.536

40

1.575

1.614

1.654

1.693

1.732

1.772

1.811

1.850

1.890

1.929

50

1.969

2.008

2.047

2.087

2.126

2.165

2.205

2.244

2.283

2.323

60

2.362

2.402

2.441

2.480

2.520

2.559

2.598

2.638

2.677

2.717

70

2.756

2.795

2.835

2.874

2.913

2.953

2.992

3.032

3.071

3.110

80

3.150

3.189

3.228

3.268

3.307

3.346

3.386

3.425

3.465

3.504

90

3.543

3.583

3.622

3.661

3.701

3.740

3.780

3.819

3.858

3.898

0

Kilogram to Pound 1 kg = 2.2046 lb

0

0

1

2

3

4

0

2.20

4.41

6.61

8.82

11.02

13.23

15.43

17.64

19.84

5

6

7

8

9

10

22.05

24.25

26.46

28.66

30.86

33.07

35.27

37.48

39.68

41.89

20

44.09

46.30

48.50

50.71

51.91

55.12

57.32

59.53

61.73

63.93

30

66.14

68.34

70.55

72.75

74.96

77.16

79.37

81.57

83.78

85.98

40

88.18

90.39

92.59

94.80

97.00

99.21

101.41

103.62

105.82

108.03

50

110.23

112.44

114.64

116.85

119.05

121.25

123.46

125.66

127.87

130.07

60

132.28

134.48

136.69

138.89

141.10

143.30

145.51

147.71

149.91

152.12

70

154.32

156.53

158.73

160.94

163.14

165.35

167.55

169.76

171.96

174.17

80

176.37

178.57

180.78

182.98

185.19

187.39

189.60

191.80

194.01

196.21

90

198.42

200.62

202.83

205.03

207.24

209.44

211.64

213.85

216.05

218.26

00-17

F O R EW OR D

CONVERSION TABLE

Liter to U.S. Gallon 1¶ = 0.2642 U.S. Gal

0

1

2

3

4

5

6

7

8

9

0

0.264

0.528

0.793

1.057

1.321

1.585

1.849

2.113

2.378

10

2.642

2.906

3.170

3.434

3.698

3.963

4.227

4.491

4.755

5.019

20

5.283

5.548

5.812

6.076

6.340

6.604

6.869

7.133

7.397

7.661

30

7.925

8.189

8.454

8.718

8.982

9.246

9.510

9.774

10.039

10.303

40

10.567

10.831

11.095

11.359

11.624

11.888

12.152

12.416

12.680

12.944

50

13.209

13.473

13.737

14.001

14.265

14.529

14.795

15.058

15.322

15.586

60

15.850

16.115

16.379

16.643

16.907

17.171

17.435

17.700

17.964

18.228

70

18.492

18.756

19.020

19.285

19.549

19.813

20.077

20.341

20.605

20.870

80

21.134

21.398

21.662

21.926

22.190

22.455

22.719

22.983

23.247

23.511

90

23.775

24.040

24.304

24.568

24.832

25.096

25.361

25.625

25.889

26.153

0

Liter to U.K. Gallon 1¶ = 0.21997 U.K. Gal

1

2

3

4

5

6

7

8

9

0

0.220

0.440

0.660

0.880

1.100

1.320

1.540

1.760

1.980

10

2.200

2.420

2.640

2.860

3.080

3.300

3.520

3.740

3.950

4.179

20

4.399

4.619

4.839

5.059

5.279

5.499

5.719

5.939

6.159

6.379

30

6.599

6.819

7.039

7.259

7.479

7.969

7.919

8.139

8.359

8.579

40

8.799

9.019

9.239

9.459

9.679

9.899

10.119

10.339

10.559

10.778

50

10.998

11.281

11.438

11.658

11.878

12.098

12.318

12.528

12.758

12.978

60

13.198

13.418

13.638

13.858

14.078

14.298

14.518

14.738

14.958

15.178

70

15.398

15.618

15.838

16.058

16.278

16.498

16.718

16.938

17.158

17.378

80

17.598

17.818

18.037

18.257

18.477

18.697

18.917

19.137

19.357

19.577

90

19.797

20.017

20.237

20.457

20.677

20.897

21.117

21.337

21.557

21.777

0

0

00-18

F O R EW OR D

CONVERSION TABLE

kgm to ft. lb 1 kgm = 7.233 ft. lb

0

1

2

3

4

5

6

7

8

9

0

0

7.2

14.5

21.7

28.9

36.2

43.4

50.6

57.9

65.1

10

72.3

79.6

86.8

94.0

101.3

108.5

115.7

123.0

130.2

137.4

20

144.7

151.9

159.1

166.4

173.6

180.8

188.1

195.3

202.5

209.8

30

217.0

224.2

231.5

238.7

245.9

253.2

260.4

267.6

274.9

282.1

40

289.3

296.6

303.8

311.0

318.3

325.5

332.7

340.0

347.2

354.4

50

361.7

368.9

376.1

383.4

390.6

397.8

405.1

412.3

419.5

426.8

60

434.0

441.2

448.5

455.7

462.9

470.2

477.4

484.6

491.8

499.1

70

506.3

513.5

520.8

528.0

535.2

542.5

549.7

556.9

564.2

571.4

80

578.6

585.9

593.1

600.3

607.6

614.8

622.0

629.3

636.5

643.7

90

651.0

658.2

665.4

672.7

679.9

687.1

694.4

701.6

708.8

716.1

100

723.3

730.5

737.8

745.0

752.2

759.5

766.7

773.9

781.2

788.4

110

795.6

802.9

810.1

817.3

824.6

831.8

839.0

846.3

853.5

860.7

120

868.0

875.2

882.4

889.7

896.9

904.1

911.4

918.6

925.8

933.1

130

940.3

947.5

954.8

962.0

969.2

976.5

983.7

990.9

998.2

1005.4

140

1012.6

1019.9

1027.1

1034.3

1041.5

1048.8

1056.0

1063.2

1070.5

1077.7

150

1084.9

1092.2

1099.4

1106.6

1113.9

1121.1

1128.3

1135.6

1142.8

1150.0

160

1157.3

1164.5

1171.7

1179.0

1186.2

1193.4

1200.7

1207.9

1215.1

1222.4

170

1129.6

1236.8

1244.1

1251.3

1258.5

1265.8

1273.0

1280.1

1287.5

1294.7

180

1301.9

1309.2

1316.4

1323.6

1330.9

1338.1

1345.3

1352.6

1359.8

1367.0

190

1374.3

1381.5

1388.7

1396.0

1403.2

1410.4

1417.7

1424.9

1432.1

1439.4

00-19

F O R EW OR D

CONVERSION TABLE

kg/cm2 to lb/in2 1kg/cm2 = 14.2233 lb/in2

0

1

2

3

4

5

6

7

8

9

0

0

14.2

28.4

42.7

56.9

71.1

85.3

99.6

113.8

128.0

10

142.2

156.5

170.7

184.9

199.1

213.4

227.6

241.8

256.0

270.2

20

284.5

298.7

312.9

327.1

341.4

355.6

369.8

384.0

398.3

412.5

30

426.7

440.9

455.1

469.4

483.6

497.8

512.0

526.3

540.5

554.7

40

568.9

583.2

597.4

611.6

625.8

640.1

654.3

668.5

682.7

696.9

50

711.2

725.4

739.6

753.8

768.1

782.3

796.5

810.7

825.0

839.2

60

853.4

867.6

881.8

896.1

910.3

924.5

938.7

953.0

967.2

981.4

70

995.6

1010

1024

1038

1053

1067

1081

1095

1109

1124

80

1138

1152

1166

1181

1195

1209

1223

1237

1252

1266

90

1280

1294

1309

1323

1337

1351

1365

1380

1394

1408

100

1422

1437

1451

1465

1479

1493

1508

1522

1536

1550

110

1565

1579

1593

1607

1621

1636

1650

1664

1678

1693

120

1707

1721

1735

1749

1764

1778

1792

1806

1821

1835

130

1849

1863

1877

1892

1906

1920

1934

1949

1963

1977

140

1991

2005

2020

2034

2048

2062

2077

2091

2105

2119

150

2134

2148

2162

2176

2190

2205

2219

2233

2247

2262

160

2276

2290

2304

2318

2333

2347

2361

2375

2389

2404

170

2418

2432

2446

2460

2475

2489

2503

2518

2532

2546

180

2560

2574

2589

2603

2617

2631

2646

2660

2674

2688

190

2702

2717

2731

2745

2759

2773

2788

2802

2816

2830

200

2845

2859

2873

2887

2901

2916

2930

2944

2958

2973

210

2987

3001

3015

3030

3044

3058

3072

3086

3101

3115

220

3129

3143

3158

3172

3186

3200

3214

3229

3243

3257

230

3271

3286

3300

3314

3328

3343

3357

3371

3385

3399

240

3414

3428

3442

3456

3470

3485

3499

3513

3527

3542

00-20

F O R EW OR D

CONVERSION TABLE

Temperature Fahrenheit-Centigrade Conversion ; a simple way to convert a Fahrenheit temperature reading into a Centigrade temperature reading or vice versa is to enter the accompanying table in the center or boldface column of figures. These figures refer to the temperature in either Fahrenheit or Centigrade degrees. If it is desired to convert from Fahrenheit to Centigrade degrees, consider the center column as a table of Fahrenheit temperatures and read the corresponding Centigrade temperature in the column at the left. If it is desired to convert from Centigrade to Fahrenheit degrees, consider the center column as a table of Centigrade values, and read the corresponding Fahrenheit temperature on the right.

1°C = 33.8°F

°C

°F

°C

°F

°C

°F

°C

°F

–40.4 –37.2 –34.4 –31.7 –28.9

–40 –35 –30 –25 –20

–40.0 –31.0 –22.0 –13.0 –4.0

–11.7 –11.1 –10.6 –10.0 –9.4

11 12 13 14 15

51.8 53.6 55.4 57.2 59.0

7.8 8.3 8.9 9.4 10.0

46 47 48 49 50

114.8 116.6 118.4 120.2 122.0

27.2 27.8 28.3 28.9 29.4

81 82 83 84 85

117.8 179.6 181.4 183.2 185.0

–28.3 –27.8 –27.2 –26.7 –26.1

–19 –18 –17 –16 –15

–2.2 –0.4 1.4 3.2 5.0

–8.9 –8.3 –7.8 –7.2 –6.7

16 17 18 19 20

60.8 62.6 64.4 66.2 68.0

10.6 11.1 11.7 12.2 12.8

51 52 53 54 55

123.8 125.6 127.4 129.2 131.0

30.0 30.6 31.1 31.7 32.2

86 87 88 89 90

186.8 188.6 190.4 192.2 194.0

–25.6 –25.0 –24.4 –23.9 –23.3

–14 –13 –12 –11 –10

6.8 8.6 10.4 12.2 14.0

–6.1 –5.6 –5.0 –4.4 –3.9

21 22 23 24 25

69.8 71.6 73.4 75.2 77.0

13.3 13.9 14.4 15.0 15.6

56 57 58 59 60

132.8 134.6 136.4 138.2 140.0

32.8 33.3 33.9 34.4 35.0

91 92 93 94 95

195.8 197.6 199.4 201.2 203.0

–22.8 –22.2 –21.7 –21.1 –20.6

–9 –8 –7 –6 –5

15.8 17.6 19.4 21.2 23.0

–3.3 –2.8 –2.2 –1.7 –1.1

26 27 28 29 30

78.8 80.6 82.4 84.2 86.0

16.1 16.7 17.2 17.8 18.3

61 62 63 64 65

141.8 143.6 145.4 147.2 149.0

35.6 36.1 36.7 37.2 37.8

96 97 98 99 100

204.8 206.6 208.4 210.2 212.0

–20.0 –19.4 –18.9 –18.3 –17.8

–4 –3 –2 –1 0

24.8 26.6 28.4 30.2 32.0

–0.6 0 0.6 1.1 1.7

31 32 33 34 35

87.8 89.6 91.4 93.2 95.0

18.9 19.4 20.0 20.6 21.1

66 67 68 69 70

150.8 152.6 154.4 156.2 158.0

40.6 43.3 46.1 48.9 51.7

105 110 115 120 125

221.0 230.0 239.0 248.0 257.0

–17.2 –16.7 –16.1 –15.6 –15.0

1 2 3 4 5

33.8 35.6 37.4 39.2 41.0

2.2 2.8 3.3 3.9 4.4

36 37 38 39 40

96.8 98.6 100.4 102.2 104.0

21.7 22.2 22.8 23.3 23.9

71 72 73 74 75

159.8 161.6 163.4 165.2 167.0

54.4 57.2 60.0 62.7 65.6

130 135 140 145 150

266.0 275.0 284.0 293.0 302.0

–14.4 –13.9 –13.3 –12.8 –12.2

6 7 8 9 10

42.8 44.6 46.4 48.2 50.0

5.0 5.6 6.1 6.7 7.2

41 42 43 44 45

105.8 107.6 109.4 111.2 113.0

24.4 25.0 25.6 26.1 26.7

76 77 78 79 80

168.8 170.6 172.4 174.2 176.0

68.3 71.1 73.9 76.7 79.4

155 160 165 170 175

311.0 320.0 329.0 338.0 347.0

00-21

F O R EW OR D

UNITS

UNITS In this manual, the measuring units are indicated with Internatinal System of units (SI). As for reference, conventionally used Gravitational System of units are indicated in parentheses { Example: N {kg} Nm {kgm} MPa {kg/cm2} kPa {mmH2O} kPa {mmHg} kw/rpm {HP/rpm} g/kwh {g/HPh}

00-22

}.

01

GENERAL

Specification dimension drawings.. ........... Specifications ............................................... Weight table ................................................ Table of fuel, coolant and lubricants.. ......

D475A-3

Ol- 2 Ol- 4 01-13 01-17

01-l 0

SPECIFICATION DIMENSION

GENERAL

SPECIFICATION .

DIMENSION

DRAWINGS

SEMI U-TILTDOZER + GIANT RIPPER

I-

DRAWINGS

Unit: mm

6120

-I

I

SVD02956

l

U-TILTDOZER + GIANT RIPPER

1 0

,

SVD02957

01-2 0

D475A-3

GENERAL

•

SUPER DOZER + COUNTERWEIGHT

D475A-3

SPECIFICATION DIMENSION DRAWINGS

Unit: mm

01-3 1 3

GENERAL

SPECIFICATIONS

SPECIFICATIONS •

SEMI U-TILTDOZER, U-TILTDOZER Machine model

D475A-3

Serial No.

10601 – 10684

10685 and up

75,200

75,700

91,350

91,850

• With above + variable giant ripper

98,650

99,150

• With above + ROPS cab + air conditioner • + perforated side cover

100,000

100,500

Operating weight

Weight

• Bare tractor • With above + semi U-dozer

Min. turning radius

kg

m

4.6

Gradeability

deg

30

Stability (front, rear, left, fight)

deg

35

Performance

Speed ranges

Forward 1st Forward 2nd

0 – 3.5 km/h

0 – 6.3

Forward 3rd

0 – 10.9

Reverse 1st

0 – 4.7

Reverse 2nd

km/h

0 – 8.4

119 {1.22}

144.16 {1.47}

145.2 {1.48}

155.93 {1.59}

156 {1.60}

157.89 {1.61}

159 {1.62}

Bare tractor

6,420

6,420

8,710

8,710

With semi U-dozer + variable giant ripper

11,560

11,570

With U-dozer + variable giant ripper

11,950

11,950

Bare tractor

3,600

3,610

5,265

5,265

6,205

6,205

Ground pressure

118.66 {1.21}

Overall length Dimensions

0 – 14.3

Overall height Overall Width

Reverse 3rd

01-4 1 5

Bare tractor With semi U-dozer With semi U-dozer + variable giant ripper

kPa {kg/cm2}

With above + ROPS cab + air conditioner + perforated side cover

With semi U-dozer mm

With semi U-dozer

mm

With U-dozer To top of ROPS To tip of exhaust pipe To top of intake duct

4,570 mm

4,420 3,760

D475A-3

GENERAL

SPECIFICATIONS

Machine model

D475A-3

Dimensions

Serial No. Track gauge

4,365 mm

Track shoe width

710

Min. ground clearance

655

Name

SDA12V140

Type

4-cycle, water-cooled, V-type, vertical type, direct injection, with turbocharger, aftercooler mm

12 – 140 x 165

¬ {cc}

30.48 (30,480)

kW/rpm {HP/rpm}

641/2,000 {860/2,000}

Nm/rpm {kgm/rpm}

3,825/1,400 {390/1,400}

Max. speed at no load

rpm

2,150

Min. speed at no load

rpm

600

g/kW·h {g/HP·h}

204 {152}

Piston displacement

Performance

Rated horsepower

Engine

10685 and up 2,770

Length of track on ground

No. of cylinders – bore x stroke

Max. torque

Min. fuel consumption ratio Starting motor Alternator Battery Radiator core type Torque coveter

Transmission

Power train system

10601 – 10684

24 V, 7.5 kW x 2 24 V, 75 A 12 V, 200 Ah x 4 D type 3-element, single stage, single phase (with lock up clutch) Planetary gear type, multiple disc clutch, hydraulically actuated, force-feed lubrication gear pump, forward 3 speed, reverse 3 speed

Bevel gear shaft

Spiral bevel gear, splash type lubrication

Steering clutch

Wet type, multiple clutch disc, spring boosted, hydraulically actuated (manual type), interconnected with brake

Steering brake

Wet type, multiple clutch disc, spring boosted, hydraulically actuated (pedal operated, manually operated), interconnected with clutch

Final drive

D475A-3

Spur gear 1-stage, planetary gear 1-stage reduction gear, splash type lubrication

01-5 1 5

GENERAL

SPECIFICATIONS

Machine model

D475A-3

Undercarriage

Serial No.

10601 – 10684

10685 and up

Suspension

Rigid, balancing beam type

Carrier roller

2 on each side

Track roller

7 on each side

Track shoe

Assembly type, single grouser, 40 each side, pitch: 317.5 mm, width: 710 mm

Power train + lubrication pump (tendem)

Gear type (BAL160 + 112 + 112)

Scavenging pump (tandem)

Gear type (BAR63 + 280)

PPC control pump (tandem with assist pump) MPa {kg/cm2}

Hydraulic pump

Max. pressure

Assist pump

Gear type (SAR(1)032) 20.6 {210}

Type

Gear type, tandem (SAL(4)140 + (3)100)

Discharge (at engine speed 2,000 rpm)

¬/min

465

Type

Gear type (SAR(3)100) (tandem with PPC control pump)


¬/min

193

Work equipment hydraulic system Main control Hydraulic cylinders valve Dimensions of blade Dimensions of blade tilt cylinder lift cylinder

Type For blade lift

1-spool pilot spool type, with demand spool

For blade tilt, ripper (Lo)

3-spool pilot spool type

For ripper (Hi)


Type Cylinder bore

180

Outside diameter of piston rod

110

Piston stroke

1 5

mm

1,781

Max. distance between pins

3,121 (3,121)

Min. distance between pins

1,340 (1,340)

Cylinder bore

250


140

Piston stroke

mm

285


1,983


1,698

fl The figures in (

01-6

Double acting, piston type

) show the dimensions for the U-blade.

D475A-3

GENERAL

SPECIFICATIONS

Machine model

D475A-3

Dimensions of blade dual tilt cylinder Hydraulic cylinders

Dimensions of ripper Dimensions of ripper lift cylinder tilt cylinder

Work equipment hydraulic system

Serial No.

10601 – 10684

Cylinder bore (both left and right)

250

Outside diameter of piston rod (both left and right)

140

Piston stroke (both left and right)

mm

1,983

Min. distance between pins (both left and right)

1,698

Cylinder bore

250


120

Piston stroke

mm

2,175


1,530

Cylinder bore

250


140

Piston stroke

mm

Performance Dimensions

540


2,020


1,480 Control valve assembled type (externally installed) Hydraulic semi U-tiltdozer, Hydraulic U-tiltdozer

Blade support method

Semi U-dozer

645


Type

Work equipment

285

Max. distance between pins (both left and right)

Hydraulic tank

D475A-3

10685 and up

Brace type

Max. blade lifting height (from ground level)

mm

1,620

Max. blade lowering depth (from ground level)

mm

800

Max. tilt

mm

1,250

Blade cutting angle variation

deg

±6

Blade capacity

m3

35.9

Blade width

mm

5,265

Blade height

mm

2,610

Blade cutting angle

deg

52

01-7 1 5

GENERAL

SPECIFICATIONS

Machine model

D475A-3

01-8 1 5

Performance Dimensions Performance Dimensions Performance Performance Performance Dimensions

Semi U-dozer + pitch U-dozer + pitch Giant ripper

Multi-shank ripper

Work equipment

U-dozer

Serial No.

10601 – 10684

10685 and up


mm

1,620


mm

800

Max. tilt

mm

1,345


deg

±6

Blade capacity

m3

42.3

Blade width

mm

6,205

Blade height

mm

2,610

Blade cutting angle

deg

52

Max. tilt

mm

1,410

Max. pitch angle

deg

6

Max. pitch-back angle

deg

6

Max. tilt

mm

1,660

Max. pitch angle

deg

6

Max. pitch-back angle

deg

6

Max. digging depth

mm

1,180

Max. lifting height

mm

1,140

Ripping angle of point (standard)

deg

45 (adjustable steplessly 32.5 – 54.0)

Max. width of beam

mm

3,080

No. of shanks

3

Max. digging depth

mm

1,800

Max. lifting height

mm

1,140

Ripping angle (standard)

deg

45 (adjustable steplessly 34 – 56)

Max. width of beam

mm

1,477

No. of shanks

1

D475A-3

GENERAL

•

SPECIFICATIONS

SUPER DOZER Machine model

D475A-3

Serial No.

10601 – 10684

10685 and up

75,200

75,700

104,500

105,000

Weight

Operating weight • Bare tractor

kg

• Super dozer + ROPS cab + air conditioner • + counterweight Min. turning radius

m

4.6

Gradeability

deg

30

Stability (front, rear, left, fight)

deg

35

Speed ranges

Performance

Forward 1st Forward 2nd

0 – 3.5 km/h

0 – 6.3

Forward 3rd

0 – 10.9

Reverse 1st

0 – 4.7

Reverse 2nd

km/h

0 – 8.4

Ground pressure

Bare tractor

Dimensions Overall Overall height Overall Width length

Reverse 3rd

Bare tractor

D475A-3

Super dozer + ROPS cab + air conditioner + counterweight

0 – 14.3

mm

103.95 {1.06}

104.25 {1.07}

145.14 {1.48}

146.19 {1.49} 6,420

mm Super dozer + counterweight

10,370

Bare tractor

3,600

3,610

6,465

6,465

mm With super dozer To top of ROPS To tip of exhaust pipe To top of intake duct

4,570 mm

4,420 3,760

01-9 1 5

GENERAL

SPECIFICATIONS

Machine model

D475A-3

Serial No.

10601 – 10684

Dimensions

Track gauge

10685 and up 2,770

Length of track on ground

4,365 mm

Track shoe width

810

Min. ground clearance

655

Name

SDA12V140

Type

4-cycle, water-cooled, V-type, vertical type, direct injection, with turbocharger, aftercooler

No. of cylinders – bore x stroke

mm

12 – 140 x 165

¬ {cc}

30.48 (30,480)

kW/rpm {HP/rpm}

632/2,000 {848/2,000}

Nm/rpm {kgm/rpm}

3,825/1,400 {390/1,400}

Max. speed at no load

rpm

2,150

Min. speed at no load

rpm

600

g/kW·h {g/HP·h}

204 {152}

Piston displacement

Performance

Engine

Rated horsepower Max. torque

Min. fuel consumption ratio Starting motor Alternator Battery Radiator core type Torque coveter

Power train system

Transmission

24 V, 75 A 12 V, 200 Ah x 4 D type 3-element, single stage, single phase (with lock up clutch) Planetary gear type, multiple disc clutch, hydraulically actuated, force-feed lubrication gear pump, forward 3 speed, reverse 3 speed

Bevel gear shaft

Spiral bevel gear, splash type lubrication

Steering clutch

Wet type, multiple clutch disc, spring boosted, hydraulically actuated (manual type), interconnected with brake

Steering brake

Wet type, multiple clutch disc, spring boosted, hydraulically actuated (pedal operated, manually operated), interconnected with clutch

Final drive

01-10 1 5

24 V, 7.5 kW x 2

Spur gear 1-stage, planetary gear 1-stage reduction gear, splash type lubrication

D475A-3

GENERAL

SPECIFICATIONS

Machine model

D475A-3

Undercarriage

Serial No.

10601 – 10684

10685 and up

Suspension

Rigid, balancing beam type

Carrier roller

2 on each side

Track roller

7 on each side

Track shoe

Assembly type, single grouser, 40 each side, pitch: 317.5 mm, width: 810 mm

Power train + lubrication pump (tendem)

Gear type (BAL160 + 112 + 112)

Scavenging pump (tandem)

Gear type (BAR63 + 280)

PPC control pump (tandem with assist pump) MPa {kg/cm2}

Type Discharge (at engine speed 2,000 rpm)


20.6 {210} Gear type, tandem (SAL(4)140 + (3)100)

¬/min

Type

Work equipment hydraulic system Main control Hydraulic cylinders valve Dimensions of blade Dimensions of blade pitch cylinder lift cylinder

Assist pump

Hydraulic pump

Max. pressure

Gear type (SAR(1)032)

465 Gear type (SAR(3)100) (tandem with PPC control pump)

¬/min

193

Type For blade lift

1-spool pilot spool type, with demand spool

For blade pitch


Type Cylinder bore

200


110

Piston stroke

mm

1,781


3,121 (3,121)


1,340 (1,340)

Cylinder bore

250


140

Piston stroke

mm

285


1,983


1,698

Hydraulic tank

D475A-3

Double acting, piston type

Control valve assembled type (externally installed)

01-11 1 5

GENERAL

SPECIFICATIONS

Machine model

D475A-3

Serial No.

10601 – 10684

Type

Hydraulic super dozer (pitch dozer)

Performance Dimensions

Super dozer

Work equipment

Blade support method

01-12 1 5

10685 and up

Cylinder type


mm

1,620


mm

800

Max. tilt

mm

1,660 (blade tip angle: 52°)


deg

±6

Blade capacity

m3

45.0

Blade width

mm

6,465

Blade height

mm

3,220

Blade cutting angle

deg

42 – 67

D475A-3

GENERAL

WEIGHT TABLE

WEIGHT TABLE ¤ This weight table is a guide for use when transporting or when handling components. •

SEMI U-TILTDOZER, U-TILTDOZER

Unit: kg

Machine model Serial No.

D475A-3 10601 – 10684

10685 and up

Engine, damper assembly

3,940

• Engine assembly

3,740

• Damper assembly

214

Main radiator assembly

528

Sub. radiator assembly

162

Oil cooler assembly

157

Fuel tank assembly (when full)

858 (2,330)

Power train unit

4,980

• Torque converter, PTO assembly

750

• Transmission assembly

1,350

• Transmission valve assembly

70

• Steering clutch, brake assembly

2,290

• Steering valve assembly

26

Final drive assembly (each side)

3,575

Main frame assembly

9,120

Track group assembly (each side)

11,050

11,180

• Track frame (each side)

2,988

2,996

664

708

• Track roller assembly (single, each)

—

222

• Track roller assembly (double, each)

214

237

• Carrier roller assembly (each)

102

106

12,940

13,220

Pivot shaft assembly (each side)

370

370

Equalizer bar

598

598

• Idler assembly (each side)

Track shoe assembly (710 mm width)

Hydraulic tank assembly

498

• Main control valve (blade lift)

69

• Main control valve (blade tilt, ripper)

46


D475A-3


01-13 1 5

GENERAL

WEIGHT TABLE

Unit: kg


D475A-3 10601 – 10684

10685 and up

Blade lift cylinder assembly (each side)

445

Blade tilt cylinder assembly

519

Tiltdozer assembly

14,500 (17,700)

• Blade

7,420 (10,750)

• Straight frame (L.H.)

1,817 (1,817)

• Straight frame (R.H.)

1,817 (1,817)

• Tilt cylinder assembly

519 (519)

Variable giant ripper assembly

5,698

• Shank assembly

1,040

• Ripper lift cylinder assembly

386

• Ripper tilt cylinder assembly

392

Radiator guard assembly

5,020

• Radiator guard

2,280

• Blade lift cylinder assembly (each side)

445

Radiator mask (with grille) (each side)

99

Engine underguard (front)

267

Engine underguard (rear)

324

Power train underguard (front)

340

Power train underguard (rear)

448

Hood

160

Fender (L.H.)

430

Fender (R.H.)

540

ROPS mount assembly

1,034

ROPS assembly

982

Floor frame assembly

291

Cab assembly

415

Operator’s seat assembly

52


01-14 1 5


D475A-3

GENERAL

•

WEIGHT TABLE

SUPER DOZER

Unit: kg


D475A-3 10601 – 10684

10685 and up

Engine, damper assembly

3,940

• Engine assembly

3,740

• Damper assembly

214

Main radiator assembly

528

Sub. radiator assembly

162

Oil cooler assembly

157

Fuel tank assembly (when full)

858 (2,330)

Power train unit

4,980

• Torque converter, PTO assembly

750

• Transmission assembly

1,350

• Transmission valve assembly

70

• Steering clutch, brake assembly

2,290

• Steering valve assembly

26

Final drive assembly (each side)

3,575

Main frame assembly

9,120

Track group assembly (each side)

11,050

11,180

• Track frame (each side)

2,988

2,996

• Idler assembly (each side)

664

708

• Track roller assembly (single, each)

195

222

• Track roller assembly (double, each)

214

237

• Carrier roller assembly (each)

102

100

13,780

14,060

Pivot shaft assembly (each side)

370

370

Equalizer bar

598

598

Track shoe assembly (810 mm width)

Hydraulic tank assembly

498

• Main control valve (blade lift)

69

• Main control valve (blade tilt, ripper)

46

D475A-3

01-15 1 5

GENERAL

WEIGHT TABLE

Unit: kg


D475A-3 10601 – 10684

10685 and up

Blade lift cylinder assembly (each side)

478

Blade pitch cylinder assembly (each side)

530

Super dozer assembly

19,700

• Blade

11,620

• Straight frame (L.H.)

1,818

• Straight frame (R.H.)

1,818

• Pitch cylinder assembly (each side)

530

Counterweight

6,040

Radiator guard assembly

5,020

• Radiator guard

2,280

• Blade lift cylinder assembly (each side)

478

Radiator mask (with grille) (each side)

99

Engine underguard (front)

267

Engine underguard (rear)

324

Power train underguard (front)

340

Power train underguard (rear)

448

Hood

160

Fender (L.H.)

430

Fender (R.H.)

540

ROPS mount assembly

1,034

ROPS assembly

982

Floor frame assembly

291

Cab assembly

415

Operator’s seat assembly

52

01-16 1 5

D475A-3

GENERAL

TABLE OF FUEL, COOLANT AND LUBRICANTS

TABLE OF FUEL, COOLANT AND LUBRICANTS Serial No.: 10601 – 10684 RESERVOIR

KIND OF FLUID

AMBIENT TEMPERATURE –22 –30

–4 –20

14 –10

32 0

50 10

68 20

86 30

CAPACITY (¬) 104°F 40°C

Specified

Refill

126

121

410

210

2.4

2.4

145

145

24

24

420

140

75

75

2.0 – 2.2

2.0 – 2.2

SAE 30 SAE 10W

Engine oil pan

SAE 10W-30 SAE 15W-40

Power train oil pan (incl. torque converter, transmission and bevel gear cases)

SAE 30 SAE 10W

Damper case Recoil spring

Engine oil

SAE 30

Pivot shaft (each) SAE 10W SAE 10W-30

Hydraulic system

SAE 15W-40 SAE 140 Final drive case (each)

SAE 85W-140 SAE 80W-90

Idler (each)

Gear oil

Track roller (each)

GO 140B

Carrier roller (each) Fuel tank Cooling system

D475A-3

2.25 – 2.45 2.25 – 2.45 1.120 – 1.225 1.120 – 1.225

Diesel fuel Coolant

ASTM D975 No. 2

1,670

—

Main circuit: 230 Sub circuit: 65

— —

ASTM D975 No. 1

Add antifreeze

01-17 1 5

GENERAL


Serial No.: 10685 and up RESERVOIR

KIND OF FLUID

AMBIENT TEMPERATURE –22 –30

–4 –20

14 –10

32 0

50 10

68 20

86 30

CAPACITY (¬) 104°F 40°C

Specified

Refill

126

121

410

210

2.4

2.4

145

145

24

24

420

140

75

75

1.4 – 1.5

1.4 – 1.5

1.4 – 1.5

1.4 – 1.5

1.25 – 1.35

1.25 – 135

1,670

—

Main circuit: 230 Sub circuit: 65

— —

SAE 30 SAE 10W

Engine oil pan

SAE 10W-30 SAE 15W-40

Power train oil pan (incl. torque converter, transmission and bevel gear cases)

SAE 30 SAE 10W

Damper case Recoil spring

Engine oil

SAE 30

Pivot shaft (each) SAE 10W SAE 10W-30

Hydraulic system

SAE 15W-40 SAE 140 Final drive case (each)

SAE 85W-140 SAE 80W-90

Idler (each)

Gear oil

Track roller (each)

GO 140B

Carrier roller (each) Fuel tank Cooling system

01-18 1 5

Diesel fuel Coolant

ASTM D975 No. 2 ASTM D975 No. 1

Add antifreeze

D475A-3

GENERAL


NOTE: (1) When fuel sulphur content is less than 0.5 %, change oil in the oil pan every periodic maintenance hours described in this manual. Change oil according to the following table if fuel sulphur content is above 0.5 %. Fuel sulphur content

Change interval of oil in engine oil pan

0.5 to 1.0 %

1/2 of regular interval

Above 1.0 %

1/4 of regular interval

ASTM: American Society of Testing and Material SAE: Society of Automotive Engineers API: American Petroleum Institute

(2) When starting the engine in an atmospheric temperature of lower than 0°C, be sure to use engine oil of SAE10W, SAE10W-30 and SAE15W-40, even though an atmospheric temperature goes up to 10°C more or less in the day time. (3) Use API classification CD as engine oil and if API classification CC, reduce the engine oil change interval to half. (4) There is no problem if single grade oil is mixed with multigrade oil (SAE10W-30, 15W40), but be sure to add single grade oil that matches the temperature in the table on the left. (5) We recommend Komatsu genuine oil which has been specifically formulated and approved for use in engine and hydraulic work equipment applications.

Specified capacity: Total amount of oil including oil for components and oil in piping. Refill capacity: Amount of oil needed to refill system during normal inspection and maintenance.

D475A-3

01-19 1 5

10

STRUCTURE AND FUNCTION

Engine, power train cooling system drawing ................................................... 10- 2 Power train ................................................... 10- 3 Power train skeleton .................................... 10- 4 Power train hydraulic piping diagram ....... 10- 5 Power train hydraulic circuit diagram ....... 10- 6 Torque converter and PTO ......................... 10- 9 Torque converter valve ............................... 10-16 Transmission ................................................ 10-25 Transmission control valve ......................... 10-32 Steering, brake control ................................ 10-48 Transfer, bevel gear shaft, steering ........... 10-52 Transfer, bevel pinion ................................. 10-53 Steering control valve ................................. 10-56 Final drive ..................................................... 10-64 Track frame ................................................... 10-68 Track roller bogie ......................................... 10-70

D475A-3

Hydraulic tank ............................................ 10- 71 PPC valve .................................................... 10- 72 Main control valve ..................................... 10- 84 Pin-puller hydraulic system drawing ....... 10- 92 Pin-puller hydraulic circuit drawing ......... 10- 92 Pin-puller solenoid valve ........................... 10- 93 Air conditioner ........................................... 10- 95 Engine control ............................................ 10- 96 Engine control system ............................... 10- 97 Engine control system with electronic engine throttle controller .................... 10-100 Machine monitor system .......................... 10-102 Mode selection system ............................. 10-111 Electrical equipment .................................. 10-117 Torque converter lock-up control system .................................................. 10-121

10-1 1 4


ENGINE, POWER TRAIN COOLING SYSTEM DRAWING

ENGINE, POWER TRAIN COOLING SYSTEM DRAWING

Slim02960

1. 2. 3. 4. 5. 6. 7. 8.

Main radiator Sub radiator Turbocharger Aftercooler Engine Power train oil cooler Water pump (for main radiator) Water pump (for sub radiator)

1o-2 0

Outline The radiator consists of two systems: The main radiator and sub radiator. The main radiator system carries out cooling for the engine and power train oil cooler; the sub radiator system carries out cooling for the aftercooler. There are water pumps for each system. l

l

l

D475A-3


POWER TRAIN

POWER TRAIN I

2

9. 14

SVD02961

Outline . The power

generated by engine (I) has its torsional vibration dampened by damper (21, and then passes through universal joint (31, and is transmitted to torque converter (7). The power from the engine is transmitted through oil by torque converter (7) to the input shaft (turbine shaft) of transmission (8) in accordance with the change in the load. There is a lock-up clutch assembled to the torque converter, and when the rotating speed beyond the torque converter becomes higher, the lock-up clutch is engaged. When this happens, the drive case and turbine form one unit, so the power from the engine is transmitted directly to the transmission input shaft. Transmission (8) uses a combination of a planetary gear system and hydraulic equipment to reduce the speed and shift the gears (forward: 3 gears, reverse: 3 gears). It connects two sets of clutches selected with the gear shift lever according to the change in the load, and transmits the power from the transmission to transfer (14) from output shaft. The power entering transfer (14) has its

D475A-3

speed reduced. Its speed is further reduced by the bevel pinion and bevel gear of the bevel gear shaft, and it is then divided at right angles to the left and right and transmitted to the respective steering clutches (9). The power transmitted from the bevel gear shaft to the final drive is used to steer the machine by engaging or disengaging steering clutch (9). The steering lever is operated to disengage the steering clutch on the side to which the machine is to be steered in order to change the direction of travel. The size of the turning radius is controlled by steering brake (IO) installed to the outside of the steering clutch. Steering brake (IO) uses the same disc system that is used for the steering clutch. The power output from the steering clutch enters final drive (1 I), where it is reduced, and rotates sprocket (12). Final drive is a double reduction type consisting of a single stage spur gear and single stage planetary gear system. It rotates the sprocket-to drive track shoe (13) and move the machine.

10-3 0

POWER TRAIN SKELETON


POWER TRAIN SKELETON

16

15 SVDO2962

1. Engine (SDA12V140)

2. 3. 4.

5.

Damper Universal joint Power train, hydraulic, lubricating pump (BAL160+112+112) Hydraulic pump (SAL1 40+100)

1o-4 0

6. Hydraulic pump (SAR100+32) 7. Torque converter 8. Transmission 9. Steering clutch 10. Steering brake

11. 12. 13. 14. 15. 16.

Final drive Sproket Track shoe Transfer Transfer drive gear Bevel pinion

17. Bevel gear 18. PTO 19. Scavenging pump

D475A-3

STRUCTURE

AND

FUNCTION

POWER TRAIN HYDRAULIC

POWER TRAIN

HYDRAULIC

PIPING

DIAGRAM

PIPING DIAGRAM

a

SVD02963

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11.

Torque converter oil filter Power train oil filter Power train lubricating oil filter Torque converter valve Transmission control valve Steering control valve Power train oil strainer Oil tank Power train pump (BAL160+112+112) Scavenging pump Power train oil cooler

D475A-3

a. b. c. d. e. f. g. h. i. j.

Torque converter inlet pressure pick-up port (IN) Torque converter lock-up pressure pick-up port (LU) Stator clutch pressure pick-up port (SC) Left clutch pressure pick-up port (LC) Left brake pressure pick-up port (LB) Right brake pressure pick-up port (RB) Right clutch pressure pick-up port (RC) Transmission reducing pressure pick-up port (Fl) Transmission relief pressure pick-up port (TM) Torque converter outlet pressure pick-up port (OUT)

1o-5 0

POWER TRAIN HYDRAULIC CIRCUIT DIAGRAM


POWER TRAIN HYDRAULIC

/.

fl

l ,f

CIRCUIT DIAGRAM

L_______j_________i

z

I L-_--_-______----------__---------___,

I

_-

:---

1

1 --I

‘I

1 L

zz :

Y

z

as

r;

z : s

SVD03079

1O-6 0

D475A-3

STRUCTURE

AND FUNCTION

1. Oil tank 2. Power train oil strainer 3. Power train pump 4. Torque converter charge pump 5. Power train lubrication pump 6. Power train oil filter 7. Torque converter oil filter 8. Power train lubrication oil filter 9. Main relief valve 10. Priority valve 11. Modulating valve 12. Quick return valve 13. Reducing valve 14. Pilot valve 15. Reverse spool 16. Forward spool 17. 3rd speed spool 18. 2nd speed spool 19. 1st speed spool 20. Transmission speed spool 21. Transmission F-R spool 22. Reverse clutch 23. Forward clutch 24. 3rd clutch 25. 2nd clutch 26. 1st clutch 27. Torque converter relief valve 28. Torque converter 29. Oil cooler 30. Steering clutch and brake lubrication 31. Torque converter case 32. Torque converter lock-up valve 33. Modulating valve 34. Torque converter lock-up clutch 35. Modulating valve 36. Stator clutch 37. Torque converter lock-up solenoid valve 38. Steering check valve 39. R.H. steering valve 40. R.H. brake valve 41. L.H. brake valve 42. L.H. steering valve 43. Steering clutch 44. Steering brake 45. Steering case 46. Transmission lubrication valve 47. Transmission lubrication 48. PTO Lubrication 49. Scavenging pump 50. Solenoid for pin puller

D475A-3

POWER TRAIN

A. B. C. D. E.

HYDRAULIC

CIRCUIT

DIAGRAM

Transmission main relief pressure pickup port Transmission reducing pressure pickup port Transmission pilot pressure pickup port Torque converter relief pressure pickup port Torque converter regulator pressure pickup

Port F. Torque converter lockup pressure pickup port G. Torque converter stator clutch pressure pickup port H. R.H. steering clutch pressure pickup port I. R.H. steering brake pressure pickup port J. L.H. steering brake pressure pickup port K. L.H. steering clutch pressure pickup port L. Reverse oil pressure switch M. Forward oil pressure switch N. 3rd speed oil pressure switch 0. 2nd speed oil pressure switch P. 1st speed oil pressure switch Q. Modulating oil pressure sensor

1o-7 0


TORQUE CONVERTER AND PTO

TORQUE CONVERTER AND PTO /n\

A. B. C. D.

Power train pump installed position Scavenging pump installed position Fan drive pump installed position Hydraulict pump installed position

D475A-3

n+

SJDO2965

1o-9 a



\ 3i

2$

2i1 2i 2’6 i5 i4

23 2b

Ill

A-A

SJD02966

10-10 0

D475A-3



1. Coupling 2. Seal cage 3. Input shaft (59 teeth) 4. Front housing 5. Idler gear (74 teeth) 6. Idler gear shaft 7. Clutch housing 8. Drive case 9. Turbine 10. Rear housing 11. Stator 12. Pump 13. Stator shaft 14. Bearing cage 15. Retainer 16. Shaft 17. Transmission input shaft 18. Stator shaft boss 19. Stator clutch housing 20. Return spring 21. Stator clutch plate 22. Stator clutch disc 23. Stator clutch piston 24. Turbine boss 25. Lock-up clutch disc 26. Lock-up clutch plate 27. Lock-up clutch piston 28. Scavenging pump gear (65 teeth) 29. Seal seat 30. Spacer 31. Cover 32. Hydraulic pump gear (61 teeth) 33. Power train pump drive gear (61 teeth) 34. Drive shaft 35. Cover

D475A-3

10-11 0

STRUCTURE

AND FUNCTION

Outline l The torque converter is a 3-element, single-stage, l-phase torque converter, and it forms a single structure with the transmission. To improve the fuel consumption and ease of operation and to reduce consumption of the engine horsepower, a wet-type, multiple-disc clutch type torque converter lock-up device and a wet-type, double-disc stator clutch device are assembled inside it. l When the machine is carrying out continuous low-load dozing or grading operations, it is more efficient if the power of the engine is transmitted directly to the transmission input shaft. To achieve this, a lock-up clutch actuated by hydraulic pressure is assembled inside the torque converter. When the torque converter is locked up (the pump and turbine form one unit), the oil supplied from the torque converter relief valve does not stop, so the oil leaving the turbine from the pump is given unneeded direction by the stator, and this resists the rotation of the pump and turbine (the oil is churned). To prevent this, a stator clutch similar to the lock-up clutch is built in. This allows the stator to rotate freely when the torque converter is locked up. The oil then moves together with rotation of the pump and turbine; it is discharged from the pump and turbine with little resistance, and is returned to the pump. * The condition for the torque converter to enter the lock-up range and torque converter range are as follows. l Lock-up range When both of the following conditions are fulfilled: Torque converter output shaft speed: Above 1,360 rpm Transmission set pressure: Above 1.96 MPa (20 kg/cm*} l Torque converter range When either of the following conditions are fulfilled. Torque converter output shaft speed: Below 1,330 rpm Transmission set pressure: Below 1.5 MPa (15 kg/cm*}

10-12 0

TORQUE

CONVERTER

AND

PTO

Structure Pump (12) forms one unit with coupling (I), shaft (31, clutch housing (71, and drive case (8), and is rotated by the power from the engine. Turbine (9) forms one unit with turbine boss (24) and transmission input shaft (turbine shaft) (171, and is rotated by oil from the pump. Stator (11) forms one unit with stator shaft (13) and stator shaft boss (181, and is locked to rear housing (IO) by the stator clutch. The lock-up clutch consists of three parts: clutch plate (26) (meshed with drive case (811, clutch disc (25) (meshed with turbine boss (2411, and clutch piston (27) (that slides inside housing (71, which forms one unit with the drive case). The stator clutch consists of three parts: clutch disc (22) (meshed with boss (18) that is connected by a spline to stator shaft (1311, clutch plate (21) (supported by a pin to clutch housing (19) and rear housing (IO)), and clutch piston (23) (that slides inside the rear housing). The PTO consists of input shaft (31, idler gear (5), scavenging pump drive gear (28). hydraulic pump drive gear (32), and power train pump drive gear (33).

D475A-3

STRUCTURE

AND FUNCTION

Path of transmission of motive force 1. Lock-up clutch OFF, stator clutch ON When lock-up clutch (25) is OFF, the connection between drive case (8) and turbine (9) is cut; and when stator clutch (22) is ON, rear housing (IO) and stator shaft (13) are connected, so stator (11) is locked and the torque converter provides the normal functions of a torque converter. The power generated by the engine passes through the damper and universal joint, and is transmitted to coupling (I). Input shaft (31, clutch housing (71, drive case (81, and pump (12) rotate as one unit. The motive force from the pump uses oil to rotate turbine (91, and is transmitted to transmission input shaft (171, which forms one unit with the turbine.

TORQUE

I

3

7

9

CONVERTER

10 II

AND PTO

12 13 17

SVDO2!l67

2.

Lock-up clutch ON, stator clutch OFF When lock-up clutch (25) is ON, drive case (8) and turbine (9) are connected to form one unit; and when stator clutch (22) is OFF, the connection between rear housing (IO) and stator shaft (13) is cut, so stator (II) follows the rotation of pump (12) and turbine (9). The power generated by the engine passes through the damper and universal joint, and is transmitted to coupling (I). Input shaft (3), clutch housing (71, drive case (81, and pump (12) rotate as one unit. In addition, the drive case and turbine (9) are connected by the clutch, so the oil is not used. The motive force is transmitted directly to the turbine and transmission input shaft (17).

SVDO2!368

D475A-3

10-13 0



Flow of oil Oil set to within 0.87 MPa (8.7 kg/cm*) by the torque converter relief valve flows from port A, passes through the oil hole inside rear housing (IO), and enters pump (12). The pump is always being rotated by the power from the engine, so the oil entering the pump is given centrifugal force, and enters turbine (9). The turbine is rotated by the centrifugal force of the oil. The turbine forms one unit with transmission input shaft (171, so the motive force received by the turbine is transmitted to the transmission. The oil leaving the turbine is sent to stator (11) and enters the pump again, but some of the oil passes from the stator through port B and is sent to the oil cooler.

l

SVD02969

10-14 0

D475A-3

TTORQUE CONVERTER VALVE


TORQUE CONVERTER

VALVE

A-A

Pl

1

P’3

b SJD02970

1. Valve body 2. Torque converter relief valve 3. Valve spring 4. Valve spring 5. Main relief valve 6. Cover 7. Piston 8. Piston spring 9. Piston 10. Stator clutch modulating valve 11. Lock-up clutch modulating valve 12. Cover 13. Piston 14. Piston spring (Small) 15. Piston

10-16 0

16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26.

Valve spring (Outer) Valve spring (Inner) Stopper Load piston Cover Cover Valve spring Valve body Lock-up selector valve Piston Cover

Lock-up solenoid valve assembly 27. Cover 28. 29. 30. 31.

Coil Spring Plunger Valve seat holder

32. 33. 34. 35.

Valve seat Spring Valve seat Cap

P.

Stator clutch pressure pickup port P3. Lock-up clutch pressure pickup port P8. Main relief pressure pickup port PIO. Lock-up clutch initial pressure pickup port Pll. Stator clutch initial pressure pickup port T. From torque converter pump

D475A-3

STRUCTURE

AND FUNCTION

1

2

3

T-TORQUE CONVERTER

4

5

6

21

22

23

24

25

VALVE

26

E-E

27

/ 20

19

18

17

16

15

14

D-D

SBD00662

Outline . The torque converter valve is installed at the top of the rear housing of the torque converter and consists of the following six types of valves. 1. Main relief valve Main relief valve (5) sets the hydraulic pressure to 2.7 - 3.0 MPa (27.0 - 30.4 kg/cm21 in the transmission, steering clutch, brake and torque converter lock-up clutch, and stator clutch circuits. 2. Torque converter relief valve Torque converter relief valve (2) sets the inlet pressure of the torque converter to within 0.87 MPa 18.7 kg/cm21 to protect the torque converter from abnormally high pressure. 3. Torque converter lock-up valve Lock-up selector valve (24) acts to switch the lock-up clutch and stator clutch ON t) OFF.

D475A-3

4.

5.

6.

Torque converter lock-up solenoid valve Solenoid valve receives an electrical signal from the lock-up controller and switches the pilot pressure to lock-up selector valve (24). It operates lock-up selector valve (24) and switches the two clutches ON t) OFF. Stator clutch modulating valve Modulating valve (IO) sets the clutch pressure to 2.7 MPa I27 kg/cm21 to protect the stator clutch from abnormally high pressure and acts to raise the pressure of oil from lock-up selector valve (24) gradually until it reaches the set pressure. Lock-up clutch modulating valve Modulating valve (I I) acts in the same way as stator clutch modulating valve (IO) and sets the clutch pressure to 1.3 MPa I13 kg/ cm”) to protect the stator clutch from abnormally high pressure.

10-17 0

STRUCTURE

AND

FUNCTION

TTORQUE

Operation of main relief valve l The oil from the power train pump passes through the oil filter, and enters port A of the main relief valve. It then passes through orifice a and enters port B. When the oil from the pump fills the circuit, the pressure starts to rise. l When the pressure in the circuit rises, the oil entering port B pushes piston (9). The reaction force compresses spring (41, moves main relief valve (5) to the left in the direction of the arrow, and opens ports A and C. When this happens, the oil from the pump is relieved from port A to port C, and flows port C to the torque converter. The pressure in the circuit at this point is 2.7 - 3.0 MPa (27.0 - 30.4 kg/cm*).

CONVERTER

From pump

VALVE

SBDO0663

Operation of torque converter relief valve l The oil relieved from the main relief valve and the oil from torque converter charge pump flows into the torque converter from port C, and at the same time passes through orifice b and enters port D. When the oil fills the torque converter, the pressure starts to rise.

From pump

.

If the pressure in the torque converter rises abnormally high, the oil entering port D pushes piston (9). The reaction force compresses spring (3), moves relief valve (2) to the right in the direction of the arrow, and opens ports C and E. When this happens, the oil at port C is relieved to port E, and is drained to the oil tank. The pressure in the circuit at this point is below 0.87 MPa (8.7 kg/cm*).

To

torque

converter

From pump

lo-18 0

SBDO0664

To oil tank

SBWO665

D475A-3


lTORQUE

CONVERTER VALVE

Operation of torque converter lock-up valve, solenoid valve The torque converter lock-up valve supplies oil to switch the lock-up and stator clutch built into the torque converter ON t) OFF. The lock-up valve is actuated by the pilot pressure from the solenoid valve that is actuated when it receives an electrical signal from the lock-up controller. When the lock-up switch on the panel at the front of the operator’s compartment is pressed ON (the indicator lamp inside the switch lights up), the auto-lock-up system is actuated, and when the torque converter reaches the lock-up range, the lock-up controller, which has received signals from the two sensors, connects the solenoid to the ground and current flows. The hydraulic circuit is switched and pilot pressure is sent to the lock-up valve to lock up the torque converter. l

l

D475A-3

10-19 0

STRUCTURE

1.

Travel

TTORQUE

AND FUNCTION

in torque 32

converter

CONVERTER

VALVE

drive

29 Deactivated

SBDO1285

When range, valves of the N and

the machine is in the torque converter the solenoid valve is DEACTIVATED, so (32) is pushed to the left in the direction arrow by the tension of spring (29). Ports P open.

32

29

I*

fib

The oil from the pump flows ports P and N into port L of the lock-up valve. When the pressure inside the circuit rises, piston (25) is pushed to the left in the direction of the arrow, and the piston pushes out lock-up selector valve (24) to the left.

Deactivated

ator utch

SBDOl287

1O-20 0

D475A-3


When lock-up selector valve (24) moves to the left in the direction of the arrow, ports F and G and ports H and K close, and ports F and H and ports G and J open. When this happens, the oil from the pump flows from port F to port H, and becomes the back

2.

lTORQUE

CONVERTER VALVE

pressure of the stator clutch piston. When the pressure in the circuit rises, the stator clutch is engaged. At the same time, the oil that is the back pressure of the lock-up clutch piston is drained from port G to port J, and the lock-up clutch is disengaged.

Travel in direct drive

When the machine is in the direct drive range, the solenoid valve is EXCITED, so plunger (30) is pushed to the right in the direction of the arrow and valve (32) is moved. Port P closes and ports N and M open. When this happens, oil from the pump stops at P. The high-pressure oil at port L is drained from port N to port M. When the pilot pressure at port L is lost, piston (25) and lock-up selector valve (24) are returned to the right in the direction of the arrow by the tension of spring (22).

D475A-3

Ports F and H and ports G and J close, and ports F and G and ports H and K open. When this happens, the oil from the pump flows from port F to port G, and becomes the back pressure of the lock-up clutch piston. When the pressure in the circuit rises, the lock-up clutch is engaged. At the same time, the oil that is the back pressure of the stator clutch piston is drained from port H to port K, and the stator clutch is disengaged.

1o-21 0

STRUCTURE

AND

FUNCTION

TTORQUE

CONVERTER

VALVE

Operation of stator clutch, lock-up clutch modulating valve . The modulating valves are in the circuit between the lock-up selector valve and the inlet ports of the two sets of clutches. When the clutch is switched ON, the modulating valve acts to raise the pressure on the piston gradually until it reaches the set pressure so that the clutch is engaged smoothly, thereby reducing any shock to the torque converter or transmission. * The following explanation of operation takes the stator clutch as the example, but the operation of the lock-up clutch is the same. However, the oil flow to the clutch during direct drive or torque converter drive is the reverse. 1.

Travel in direct drive When the machine enters the direct drive range, the oil at port L of lock-up selector valve (24) returns to the solenoid valve and is drained. When this happens, lock-up selector valve (24) is pushed to the right in the direction of the arrow by the tension of spring (22). Ports F and H close, and ports H and K open, and the oil at port H is drained from port K. When the hydraulic pressure at port H is lost, modulating valve (IO) is returned to the right in the direction of the arrow by the tension of spring (161, and ports H and Q open fully. At this point, the actuating pressure of the stator clutch is drained from port H to port K, and the clutch is disengaged.

From Pump

To solenoid valve

SBD01291

1o-22 0

D475A-3

TTORQUE CONVERTER VALVE


2.

Travel in torque converter drive

From Pump

When the machine is in the torque converter drive range, the oil from the solenoid valve enters port L of lock-up selector valve (24) and moves the lock-up selector valve to the left in the direction of the arrow. Ports F and G, and ports H and K close, and ports F and H open. A circuit is then formed from port F through modulating valve (IO) to the stator clutch. The oil from the pump flows from port F to the stator clutch, and the pressure in the circuit starts to rise.

I/I

As the hydraulic pressure in the circuit rises, the oil passing through orifice d in modulating valve (IO) pushes piston (131, and the reaction force moves the modulating valve to the left in the direction of the arrow to throttle ports 0 and H. Port Q is connected with port S that applies back pressure to load piston (191, and moves the load piston to the right in the direction of the arrow to compress spring (16). The tension of spring opens port Q and H. This operation is repeated intermittently to increase the load of spring (16). While this is happening, the hydraulic pressure gradually increases, and finally stops at the position where ports 0 and H are closed to complete the rise in hydraulic pressure. The hydraulic pressure at this point is 2.5 + 0.1 MPa (25 f 1 kg/cm*]. The hydraulic pressure of the lock-up clutch is 1.3’:’ MPa {13+: kg/cm?.

D475A-3

I

II

From Pump

From solenoid valve

SBD01293

From solenoid

1O-23

TRANSMISSION


TRANSMISSION

A4

SJD02971

1. 2. 3. 4.

Input shaft Transmission valve Front case Rear case

D475A-3

1o-25 0


TRANSMISSION

\,

SVD02972

1O-26 0

D475A-3


TRANSMISSION

5. Front cover Sun gear for REVERSE (32 teeth)

6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36. 37. 38. 39. 40. 41. 42. 43.

Ring gear for REVERSE (89 teeth) Pinion shaft Planet pinion for REVERSE (25 teeth) Ring gear for REVERSE (82 teeth) Pinion shaft Ring gear for FORWARD (89 teeth) Planet pinion for FORWARD (25 teeth) Sun gear for FORWARD (39 teeth) Ring gear for 3rd (89 teeth) Planet pinion for 3rd (25 teeth) Sun gear for 3rd (39 teeth) Ring gear for 2nd (89 teeth) Planet pinion for 2nd (21 teeth) Pinion shaft Sun gear for 2nd (47 teeth) Carrier for 2nd 1st clutch inner drum 1st clutch piston 1st clutch piston housing Output shaft Collar Drive shaft (for sensor) 2nd clutch piston Piston housing for 2nd Carrier for FORWARD, 3rd 3rd clutch piston Piston housing for FORWARD, 3rd Clutch piston for FORWARD Carrier for REVERSE Piston housing for REVERSE REVERSE clutch piston Tie rod pin Clutch spring Washer spring Clutch disc Tie bolt Clutch plate

D475A-3

1 O-27 a

STRUCTURE

AND

TRANSMISSION

FUNCTION

Outline l The transmission is a forward 3 gear, reverse 3 gear transmission that consists of a combination of a planetary gear system and disc clutches. l The transmission actuates the control valve to use hydraulic pressure to fix two of the clutches in the five sets of planetary gears and disc clutches to select one rotating direction and one gear speed. l The clutches are locked as follows: No. 1 clutch for REVERSE, No. 2 clutch for FORWARD, No. 3 clutch for 3rd, No. 4 clutch for 2nd and No. 5 clutch for 1st. No. of plates and discs used Clutch No. No. No. No. No. No.

1 2 3 4 5

clutch clutch clutch clutch clutch

No. of plates

No. of discs

6 6 4 3 5

7 7 5 4 6

Gear speed, clutch combination Gear speed FORWARD 1st 2nd 3rd

Clutch combination

No. 2 No. 2 No. 2

NEUTRAL

No.5

REVERSE 1st 2nd 3rd

No. 1 No. 1 No. 1

1O-28 a

l l l

l l l

(engaged)

No. 5 No. 4 No. 3

No. 5 No. 4 No. 3

D475A-3

STRUCTURE

AND FUNCTION

TRANSMISSION

Operation of disc clutch l To lock ring gear (7), a disc clutch is used. The clutch consists of piston (361, plates (38), discs (39), pins (42) and piston return springs (37). The internal teeth of the disc engage with the external teeth of the ring gear. The teeth on the outside diameter of the plate engage with pins (42) secured by housing (35). Clutch engaged (locked) . Oil from the control valve flows under pressure through the port in housing (35) to the back of piston (36). The piston presses plates (38) and discs (39) together, and the resulting frictional force stops the rotation of discs (391, so ring gear (7) meshing with the internal teeth of the disc is locked.

SVD02973

Clutch disengaged (free) When the supply of pressure oil from the control valve is shut off, piston (36) is returned to its original position by the force of piston return spring (37). This relieves the frictional force between plates (38) and discs (391, making ring gear (7) free. Washer spring (43) installed between the plates at the pin acts to speed up the return of the piston when the clutch is disengaged, and also to separate the plate and disc cleanly to prevent continued rotation.

.

SVD02974

D475A-3

1o-29 0


OPERATION FORWARD

TRANSMISSION

OF TRANSMISSION 1ST

No. 1

No. 2

No. 3

No. 4

No. 5

SVDO2975

For FORWARD Ist, No. 2 clutch and No. 5 clutch are engaged. The motive force transmitted from the torque converter to input shaft (I) is transmitted to output shaft (25). No. 2 clutch is actuated by the hydraulic pressure applied by the clutch piston and locks ring gear (13) in position. No. 5 clutch is actuated by hydraulic pressure applied by the clutch piston and engages No. 5 gear (22) and No. 4 ring gear (18). The motive force from the torque converter is transmitted to input shaft (I). The rotation of the input shaft is transmitted through sun gear (11) to planet pinion (12).

1O-30 a

.

.

Ring gear (13) is locked in position by No. 2 clutch, so planet pinion (12) rotates carrier (32), which is on the inside of ring gear (13). No. 5 clutch is also engaged, so the No. 5 gear (22), sun gears (17) and (21L planet pinions, ring gears (15) and (181, and No. 4 carrier (30) form one unit. In addition, carrier (32) rotates as one unit with the gears of No. 3, 4 and 5 clutches to rotate output shaft (25). Output shaft (25) rotates at the same speed as carrier (32).

D475A-3

TRANSMISSION


REVERSE 1ST

No. 1

No.‘2

No. 3

No. 4

No. 5

SVOO2976

For REVERSE Ist, No. 1 clutch and No. 5 clutch are engaged. The motive force transmitted from the torque converter to input shaft (I) is transmitted to output shaft (25). No. 1 clutch is actuated by the hydraulic pressure applied by the clutch piston and locks carrier (34) in position. No. 5 clutch is actuated by hydraulic pressure applied by the clutch piston and engages No. 5 gear (22) and No. 4 ring gear (18). The motive force from the torque converter is transmitted to input shaft (1). The rotation of the input shaft is transmitted through sun gear (6) to planet pinion (9).

D475A-3

Carrier (34) is locked in position by No. 1 clutch, so the rotation of planet pinion (9) rotates ring gear (IO). Ring gear (IO) rotates in the opposite direction from the input shaft, and it rotates carrier (32). No. 5 clutch is engaged, so No. 5 gear (221, sun gears (17) and (21), planet pinions, ring gears (15) and (181, and No. 4 carrier (30) form one unit. In addition, carrier (32) rotates as one unit with the gears of No. 3, 4 and 5 clutches to rotate output shaft (25).

10-31 0

STRUCTURE

AND

TRANSMISSION

FUNCTION

TRANSMISSION

CONTROL

VALVE

CONTROL VALVE

SJD02977

A. B. C.

Priority pressure pickup port Pilot pressure pickup port Load piston back pressure pickup port

1O-32 0

D. Lubrication E. F.

relief pressure pickup port Reducing pressure pickup port Modulating pressure pickup port

D475A-3

TRANSMISSION

STRUCTURE AND’ FUNCTION

CONTROL VALVE

.12

2d

is

II

i5

i4

i3

A-A I

J

32

M

\

B-0

D475A-3

34 SJDD2978

1o-33 0

TRANSMISSION


1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36. 37. 38. 39.

Valve body Priority valve Spring (small) Spring (large) Stopper Pilot reducing valve Spring Plug Modulating valve spring (large) Modulating valve spring (small) Modulating load piston Stopper Transmission lubrication valve Spring Stopper Piston Spring Piston Reducing valve Spring Quick return valve Stopper Modulating valve Piston Spring Piston Valve body Reverse valve spool Forward valve spool 3rd speed valve spool 2nd speed valve spool 1st speed valve spool Spring Stopper Pilot line filter Valve seat Lower valve Upper valve Speed and directional selector valve

G. H. I. J. K. L. M.

To reverse clutch To forward clutch To 3rd clutch From power train pump From lubrication pump To 1st clutch To 2nd clutch

1o-34 0

CONTROL VALVE

spool

D475A-3

STRUCTURE

AND

FUNCTION

TRANSMISSION

CONTROL

VALVE

PILOT REDUCING VALVE OUTLINE l The pilot reducing valve is in the circuit between the pump and the priority valve. It sets the pilot pressure to 1 .I MPa {II .O kg/ cm21 to actuate the 5 sets of speed valve spools. The pressure at the inlet port of the pilot reducing valve is always maintained at 1.96 MPa 120 kg/cm*} by the priority valve. This means that there is no effect from any momentary drop in the transmission circuit pressure when the transmission is shifted, and it can actuate the speed valve spool.

OPERATION The oil from the pump passes through the pilot line filter and enters port B from port A. It then flows to port C of the 5 sets of valves When the oil flow from the pump increases and the pressure rises, the oil passing through orifice a and entering port E pushes piston (23). The reaction force compresses spring (12) and moves valve (I 1) to the right in the direction of the arrow. When this happens, ports A and B close, and no more oil from the pump enters port B or beyond. The pressure at this point is 1.1 MPa 111.0 kg/cm?. In the pilot circuit, when the transmission is shifted, two of the speed valve spools are connected to the drain circuit, so the pressure beyond port B drops. When this happens, valve (11) is returned to the left in the direction of the arrow by the tension of spring (12). Ports A and B open, and the oil from the pump flows to port B and beyond to maintain the hydraulic pressure in the pilot circuit at a constant level.

Speed

valve spool

Speed

valve spool

l

D475A-3

SXD0308 I

1o-35 0

STRUCTURE

AND

FUNCTION

TRANSMISSION

CONTROL

VALVE

PRIORITY VALVE OUTLINE The priority valve is in the circuit between the pilot reducing valve and the modulating valve. When the transmission is shifted, even if the hydraulic pressure in the transmission suddenly drops, the priority valve closes the passage between the transmission circuit and the pilot circuit. This maintains the hydraulic pressure in the steering circuit and pilot circuit that operates the 5 valve spools, and prevents any problem when shifting the transmission. l

OPERATION 1. Start + completion of shifting of transmission The oil from the pump enters port A of pilot valve (11) and port F of priority valve (7). The oil entering port F, then passes through orifice d and enters port H. When the oil flow from the pump increases and the pressure rises, the oil entering port H pushes piston (23). The reaction force compresses springs (8) and (91, and moves valve (7) to the right in the direction of the arrow. When this happens, ports F and G open, and the oil from the pump flows from port G to the modulating valve. The hydraulic pressure at this point is 1.96 MPa I20 kg/cm*). After this, the oil entering the modulating valve from port G rises to the modulating valve set pressure of 2.55 MPa I26 kg/cm*). after shifting 2. Immediately When the transmission shift lever is operated, the hydraulic pressure in port G and beyond suddenly drops to close to 0 because of the movement of the modulating valve. When this happens, the hydraulic pressure at port F also drops, but when this pressure becomes 1.96 MPa {20 kg/cm*), valve (71, which is being pushed to the right in the direction of the arrow by the oil at port H, is returned to the left by the tension of springs (8) and (91, and the passage between port F and G is closed. As a result, the pressure at port F, that is, the pressure at the inlet port of the pilot valve, does not drop beyond this point, but is maintained at 1.96 MPa (20 kg/cm*) to ensure that the pilot pressure is kept at the set pressure.

lo-36 0

To modulatrne

valve

SXDO3082

To modulating

valve

SXD03083

G’@ To modulating

E valve

-0 SXDO3084

D475A-3

TRANSMISSION


MODULATING

CONTROL VALVE

VALVE

OUTLINE . The modulating

.

l

valve consists of the modulating valve and quick return valve, and acts to modulate the pressure. When the transmission shift lever is operated to change the speed range, the clutch is engaged by the piston, but if high pressure is suddenly applied, the piston will engage the clutch suddenly. This will cause the machine to start moving suddenly and will subject the machine to excessive shock. To avoid this, the modulating valve is installed. When the transmission shift lever is operated to shift the speed range, the modulating valve allows the pressure on the piston to rise slowly to the set pressure so that the clutch can be engaged smoothly and so that there will be no shock when starting. This improves the durability of the power train, and also gives a more comfortable ride. The diagram on the right shows the time intervals and the rise in pressure when using the modulating valve. For example, if the transmission is shifted from Fl to F2, the oil from the pump passes through the speed valve spool to the 2nd clutch and fills the circuit up to the clutch piston port. The time taken to fill the circuit up to the clutch piston port is called the FILLING TIME; the pressure is 0 - 0.3 MPa 10 - 3 kg/cm*). The time taken from the point where the hydraulic pressure starts to rise (after the oil fills the circuit up to the clutch piston port) to the point where it reaches the set pressure is called the BUILD-UP TIME. The total time for the filling time and buildup time is called the MODULATING TIME.

DA75A-3

MPa Modulating {ks/cm'i 2.9 _ (30)

~

6

Filling

time time

,

Build-up

time

2.5 _ (25)

1.0 _ (10)

0 0

0.5 Time

1.0 (Sec.) SXD03085

1o-37 0

STRUCTURE

AND

TRANSMISSION

FUNCTION

Operation Immediately after shifting When the transmission shift lever is switched and the clutch is engaged, the passage from the pump to the clutch piston port is opened and the oil flows to the clutch piston port. When this happens, the passage between ports B and D is restricted by orifice b, so a difference in pressure is generated, and quick return valve (22) is moved to the left in the direction of the arrow by the pressure at port B. This connects port E and drain port G, and removes the back pressure of load piston (I I). When this happens, modulating valve (24) is moved to the left in the direction of the arrow by the tension of springs (9) and (101, and load piston (11) is returned to the right. Pressure starting to rise, during rise When the oil sent under pressure from the pump fills the circuit from port A to the clutch piston port, the hydraulic pressure starts to rise. When this happens, the difference in pressure on the two sides of orifice b of quick return valve (22) is lost, and the quick return valve is moved to the right in the direction of the arrow to close the passage between port E and drain port G. The oil flows from orifice a of modulating valve (24) to port C, and pushes piston (27). Because of the reaction force, modulating valve compresses springs (9) and (IO), and moves to the right in the direction of the arrow to throttle the circuit from port A to port B. At the same time, the oil flowing from orifice c in quick return valve (22) through the central port passes through orifice d and enters port F from port E. It becomes the back pressure of load piston (I I), moves the load piston to the left in the direction of the arrow and compresses springs (9) and (IO).

From

To

’

D’,’ clutch

VALVE

priority

@‘b

8

cylinder

Drain

From

CONTROL

‘12 ‘d Drain

SXDO3066

Drinritv

21

From

priority

2!

3088

lo-38 0

D475A-3


3.

During rise in oil pressure, completion of rise As the pressure in the circuit rises, the back pressure of load piston (I I) increases. When the movement of the load piston to the left increases, modulating valve (24) opens the passage between ports A and B because of the tension of springs (9) and (IO). As the pressure at port C pushing piston (27) increases, modulating valve (24) moves to the right in the direction of the arrow due to the reaction force, compresses springs (9) and (IO), and closes ports A and B. By repeating this operation intermittently, the load of springs (9) and (IO) increases and the pressure rises gradually. Finally load piston (11) contacts the valve body and does not move any further. When this happens, modulating valve (24) stops at the position where the passage from port A to port B is closed, and the rise in hydraulic pressure at this point is 2.55 MPa (26 kg/cm?. The oil from the pump is relieved from the main relief valve assembled in the torque converter valve assembly

D475A-3

TRANSMISSION

From

priority

From

Priority

CONTROL VALVE

1o-39 0

STRUCTURE

AND FUNCTION

REDUCING

VALVE

Outline l The reducing valve is in the circuit between the modulating valve and the 1st speed valve spool. It reduces the pressure applied to the 1st clutch to 2.16 MPa 122 kg/cm*), and protects the seal ring of the 1st clutch circuit. The hydraulic pressure in the circuit as a whole is set to 2.55 MPa 126 kg/cm*) by the modulating valve. Operation l The oil from the modulating valve flows from port A and some passes through port B and flows to the 1st valve spool and clutch, and at the same time, passes through orifice a and enters port C. The remaining oil flows to the valve spools

for the other speeds. When the circuit up to the clutch that has been shifted becomes filled with oil and the pressure rises according to the operation of the modulating valve, the oil entering port C from port B through orifice a pushes piston (17). The reaction force compresses spring

TRANSMISSION

CONTROL

VALVE

From modulating valve

8 To FORWARD. REVERSE. 2nd. 3rd clutches

8 To 1st clutch SXD03091

From modulatlne

(21) and moves valve (20) to the left in the direction of the arrow. When this happens, ports A and B close, and the oil from the pump no longer enters beyond port B. The hydraulic pressure at this point is 2.16 MPa (22 kg/cm*). 8 To FORWARD. REVERSE. 2ndg3rd clutches

1O-40 0

Q To 1st clutch

SXD03092

D475A-3

TRANSMISSION


TRANSMISSION

CONTROL VALVE

LUBRICATION VALVE

Outline l

The transmission lubrication valve is assembled to the transmission control valve, and protects the transmission and PTO lubrication circuit from abnormally high pressure. The source of oil for the lubrication circuit is the lubrication pump; this is a different line from the hydraulic oil circuit for the power train.

Operation . The oil from the lubrication pump passes through port A and flows to the transmis-

From

modulating

sion and PTO lubrication circuit. The oil entering port A passes through orifice a and enters port B. In this condition, if there is any abnormally high pressure generated by clogging of the lubrication circuit or increase in the viscosity of the oil caused by a drop in the oil temperature, the oil entering port B compresses spring (15) and moves valve (14) to the left in the direction of the arrow. This opens ports A and C and relieves the oil in the lubrication circuit to port C. The hydraulic pressure at this point is 0.3 MPa I3 kg/cm*).

valve

To

@ Drain g

clutch

SXrJ03093

From

modulating

valve

To

D475A-3

1st

; g : ttt

1st

clutch

Drain

’

’ ’ SXD03094

10-41 0


TRANSMISSION

CONTROL VALVE

SPEED AND DIRECTIONAL SELECTOR VALVE SPOOL

\

“\

(’

“----

R

F-F F

2nd

D-D

3rd

G-G

1st

E-E

5

lo-42 0

A-A

SWD02994

D475A-3


TRANSMISSION

CONTROL VALVE

Functions The speed

and directional selector valves are installed between the five speed valve spools and the drain circuit. When the gearshift lever in the operator’s compartment is operated, the pilot pressure is switched to actuate two of the five speed valve spools. Oil from the modulating valve then flows to the clutch and selects the direction and speed.

1. 2. 3. 4. 5. 6. 7. 8. 9. IO.

Speed selector lever stopper Speed selector valve spool Directional selector valve spool Valve body Valve seat Detent spring Detent lever Directional lever Directional lever shaft Speed selector lever shaft

D475A-3

1o-43 0

STRUCTURE

TRANSMISSION

AND FUNCTION

Operation 1. Transmission

VALVE

shift lever at neutral

From valve

Drain

CONTROL

From Pilot reducing

modulating

From

reducing

When the transmission shift lever is at the neutral position, directional selector valve (3) is at neutral and speed selector valve (2) is at 1st. Ports G of each speed valve spool (IO) - (131, port H of the directional selector valve spool, and port J of the speed selector valve spool are closed. Port G of 1st spool (14) and port J of the speed range selector valve spool are connected through orifice f. In this condition, the oil from the pilot valve passes from port F through orifice a and enters ports G of each speed valve spool (IO) - (131, where it stops. When this happens, there is no differential pressure on the two sides of orifice a, that is, port F and port G, so speed valves (IO) - (13) are pushed to the right by the tension of spring (15). Port A and port B are closed, and port B

valve

valve

SXDO3095

and port C are kept open. 1st spool (14) is throttled by orifice a and enters port G. However, the oil is drained from port G to port J, so a pressure difference is generated on the two sides of orifice a, that is, at port F and port G. When the pressure at port F becomes greater than the total of the pressure at port G and the tension of spring (15L it pushes the FORWARD valve spool and 1st valve spool out to the left. The 1st valve spool opens the circuit between ports D and E, and the oil from the reducing valve passes from port D to port E and flows to the 1st clutch. When the hydraulic pressure rises, the clutch is engaged. Therefore, the oil from the modulating valve enters port A and stops. The oil entering each clutch is drained from port B to port C.

D475A-3

.


2.

When

gearshift

TRANSMISSION

lever is at FORWARD

From valve

1st

From Pilot reducing

modulating

CONTROL VALVE

valve REVERSE clutch

G

FORWARD clutch

Q Drain

I3

clutch

2nd

clutch

1st

clutch

B From

reducing

valve

When the gearshift lever is placed at FORWARD Ist, directional selector valve spool (3) moves “P. In addition, port G of FORWARD valve spool (III and drain port H are connected through orifice b. At this point, port G of 1st valve spool (14) and drain port J are connected through orifice f. In this condition, the oil from the pilot valve passes from port F of the FORWARD valve spool and 1st spool, is throttled by orifice a and enters port G. However, the oil is drained from port G to ports H and J, so a pressure difference is generated on the two sides of orifice a, that is, at port F and port G. When the pressure at port F becomes greater than the total of the pressure at port G and the tension of spring (151, it pushes the FORWARD valve spool and 1st valve spool out to the left.

D475A-3

3rd

SXD03096

The FORWARD valve spool closes the circuit between ports B and C, and opens the circuit between ports A and B. Therefore, the oil from the modulating valve flows from port A, enters port B, and flows into the FORWARD clutch. When the hydraulic pressure rises, the clutch is engaged. The 1st valve spool opens the circuit between ports D and E, and the oil from the reducing valve passes from port D to port E and flows to the 1st clutch. When the hydraulic pressure rises, the clutch is engaged.

1o-45 0

TRANSMISSION


3.

CONTROL VALVE

When gearshift lever is at FORWARD 2nd

From valve

From Pilot reducino valve

modulatine

FORWARD clutch

7

Drain

From

reducing

When the gearshift lever is placed at FORWARD 2nd from FORWARD Ist, only speed selector valve spool (2) moves up. When this happens, port G of 1st valve spool (14) and drain port J are closed, and port G of 2nd valve spool (13) and drain port J are connected through orifice e. In this condition, the oil from the pilot valve passes from port F of the 2nd valve spool, is throttled by orifice a and enters port G. However, the oil is drained from port G to port J, so a pressure difference is generated on the two sides of orifice a, that is at port F and port G. When the pressure at port F becomes greater than the total of the pressure at port G and the tension of spring (151, it pushes the 2nd valve spool to the left.

1 O-46 0

Irn,,,,,, <
valve

,.:,

r

@

3rd

clutch

2nd

clutch

1st

clutch

Drain

SXD03097

The 2nd valve spool closes the circuit between ports B and C, and opens the circuit between ports A and B and ports C and E. Therefore, the oil from the modulating valve flows from port A, enters port B, and flows into the 2nd clutch. When the hydraulic pressure rises, the clutch is engaged. The oil at the 1st clutch passes from port E, is drained to port C, and the 1st clutch is disengaged.

D475A-3


STEERING, BRAKE CONTROL


SVD02572

lo-48 0

D475A-3



1. 2. 3. 4. 5. 6. 7. 8. 9.

Brake pedal Safety lever Rod (from joystick) Joystick (steering) Limit switch Rod (from brake pedal) Steering control valve Rod (for left steering) Parking brake lever (from safety lever) 10. Cable 11. Rod (for right steering) 12. In-line servo valve

Lever, pedal positions 0: NEUTRAL 0: STRAIGHT TRAVEL FORWARD 0: STRAIGHT TRAVEL REVERSE 0: LEFT CLUTCH DISENGAGED 0: LEFT CLUTCH DISENGAGED, LEFT BRAKE APPLIED @: RIGHT CLUTCH DISENGAGED 0: RIGHT CLUTCH DISENGAGED, 8: 0: @: @I:

RIGHT BRAKE APPLIED BRAKE RELEASED BRAKE APPLIED FREE LOCK

Outline Joystick (4) moves rods (1 I) and (8) to operate the steering clutch and brake. (The steering clutch and brake are interconnected.) Brake pedal (1) moves rod (6) to operate only the brake. In this case, the brake is used for stopping the machine, so both the left and right brakes are applied at the same time. If joystick (4) is moved slightly to the left, the left steering clutch is partially disengaged and the machine turns gradually to the left. If joystick (4) is moved fully to the left, the left steering clutch is completely disengaged, and in addition, the left steering brake is applied, so the machine turns sharply to the left. Safety lever (2) is interconnected with parking brake lever (9), and also acts as a parking brake.

D475A-3

1o-49 0



Operation

-

wu

SVD02658

1O-50 0

D475A-3



Operation Turning left When the joystick is moved from the neutral position to LEFT, pilot spool (4) and input spool o&.0; servo valve move to the rear of the The oil from the power train pump always enters chamber A from port P, so orifice a of piston (3) opens, and the oil passes through passage c. As a result, the oil pressure in chamber B rises. When this happens, piston (3) is pushed to the rear of the machine by the oil pressure, and assists the operating effort of the steering valve through joint (I). Turning right When the joystick is moved from the neutral position to RIGHT, pilot spool (4) and input spool (2) of the servo valve move to the front of the machine. The oil from the power train pump always enters chamber A from port P, so orifice b of pilot spool (4) opens, and the oil pressure goes down. When this happens, piston (3) is pushed to the front of the machine, and assists the operating effort of the steering valve through joint (I).

D475A-3

10-51 0

STRUCTURE

AND

TRANSFER,

FUNCTION

TRANSFER,

BEVEL GEAR SHAFT,

BEVEL GEAR SHAFT, STEERING

‘C

1. 2. 3. 4. 5. 6.

Input shaft Transmission Steering control valve Steering case Breather Torque converter output shaft speed sensor

A.

Center of bevel gear shaft Center of crankshaft Center of bevel gear

B. C.

1 O-52 0

STEERING

SWD02998

D475A-3

STRUCTURE

AND FUNCTION

TRANSFER,

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.

TRANSFER,

BEVEL PINION

BEVEL PINION

Input shaft Drive shaft Drive gear (27 teeth) Rear cover support Torque converter output shaft speed sensor Bearing cage Drum Cover Bearing cage Driven gear (30 teeth) Bevel pinion (22 teeth)

D475A-3

1o-53 0

TRANSFER, BEVEL PINION


BEVEL GEAR SHAFT,

STEERING

CLUTCH, BRAKE

L..-__J \

1o-54 0

‘A

SWD03000

D475A-3

TRANSFER, BEVEL PINION


1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24.

Brake output shaft Bushing Pin Clutch piston Pin Clutch plate (8 each) Clutch disc (8 each) Stopper Inner drum Cylinder Bearing cage Bevel gear (37 teeth) Bearing cage Steering shaft Piston spring Outer drum Stopper Clutch plate (8 each) Clutch disc (9 each) Inner drum Cylinder Clutch piston Piston spring Housing

D475A-3

Outline l

.

The steering clutches are wet, multiple-disc clutches with a spring booster. They are interconnected with the brakes and are hydraulically actuated by a steering valve that is actuated when the joystick is operated. A forced lubrication system is employed in which the oil from the power train oil cooler passes through the passage inside the steering case, enters the housing and cage, and is then sent to the discs and plates. The steering brakes are wet, multiple-disc clutches with a spring booster. They are interconnected with the clutch and are hydraulically actuated by a steering valve that is actuated when the brake pedal and joystick are operated. A forced lubrication system is employed in which the oil from the power train oil cooler passes through the passage inside the steering case, enters the housing and cage, and is then sent to the discs and plates. The steering brakes are designed so that when the engine has stopped, the back pressure of the brake piston drops and the brakes are applied without the brake pedal being depressed. However, when the engine is started again, the brake is released as the hydraulic pressure inside the circuit rises, so the parking brake lever must always be locked.

1o-55 0

STEERING CONTROL VALVE



y--l 2

/ 4

6

6

I

I’ll---J-,‘-/

5

7 A

‘9

z-z

B

IO

Y-Y

G

F SAD01336

1O-56 0

D475A-3



/

/

27

26

I

i2

25

21

x-x

-20 SAD01337

A. To right clutch B. P port C. To right brake D. To left brake E. Clutch valve drain F. Brake valve drain G. To left clutch

1. 2. 3. 4. 5. 6. 7. 8. 9. 10.

Right steering lever Brake lever Left steering lever Parking brake lever Body Cover Cover Parking brake valve Check valve Roller (parking brake)

D475A-3

11. Right brake valve 12. Valve spring (clutch valve) 13. Piston (clutch valve) 14. Right clutch valve 15. Bolt (clutch valve) 16. Modulating spring (clutch valve) 17. Guide (clutch valve) 18. Roller (right steering) 19. Roller (brake)

20. Roller (left steering) 21. Guide (brake valve) 22. Modulating spring (brake valve) 23. Bolt (brake valve) 24. Left clutch valve 25. Left brake valve 26. Piston (brake valve) 27. Valve spring (brake valve)

1o-57 0



Outline . The steering

.

control valve is in the circuit between the power train pump (through the main relief valve) and the pistons of the steering clutch and brake. It consists of two sets of steering valves and brake valves. If the joystick (steering, directional) is moved to the right or left, the steering clutch is disengaged. If the joystick is moved further, the brake is also applied. It is possible to adjust between gradual and sharp turning by the amount the joystick is operated. If the brake pedal is depressed, both the left and right brakes are applied, and the machine will stop. The above operations are carried out by switching the steering control valve, which is interconnected with the lever and pedal. The steering control valve sends oil from the power train pump to the steering clutch and brake, and operates each disc clutch.

Valve control l

The steering control valve is operated by left and right steering levers (I) and (31, which are interconnected with the joystick, and parking brake lever (4) and brake lever (21, which are interconnected with the brake pedal. Left and right steering levers (I) and (3) use a cam to interconnect the steering valve and brake valve inside the steering control valve to carry out control.

1O-58 0

D475A-3

STRUCTURE

AND FUNCTION

STEERING

Operation 1. Joystick at neutral, brake pedal released (Clutch engaged, brake released, parking

Joust

ick

Brake

CONTROL

VALVE

brake OFF)

Pedal

Brake

Clutch

To main

relief

valve Clutch

Brake

Parkins

l

When the joystick is at the NEUTRAL position and the brake pedal is released, levers (I), (21, and (3) are also at the NEUTRAL position. The oil ports of each valve are opened or closed by the spring tension. The oil from the power train pump passes through the main relief valve and enters port A of check valve (9). Some of the oil entering port A flows to port B of left and right steering valves (24) and (I 41, and stops there. Then, the oil from the back pressure port of the clutch piston

D475A-3

l

brake

OFF

SAD01339

returns from port C to drain port H, and the clutch is engaged by the tension of the clutch spring. The rest of the oil pushes open check valve (91, enters port E of left and right brake valves (25) and (I I), and flows from port F to the back pressure port of the brake piston. When the oil pressure in the circuit rises, the piston moves to the left in the arrow direction, compresses the brake spring, and releases the brake.

1o-59 0

STRUCTURE

2.

AND FUNCTION

Joystick operated half way to left (left clutch disengaged, brake released,

STEERING

parking

CONTROL

VALVE

brake OFF)

“_fJJ ii

,‘: ON Parkins

.,

brake

OFF SAD01340

.

.

.

When the joystick is operated half way to the left, roller (20) of lever (3) pushes bolt (15) to the left in the arrow direction, and compresses modulating spring (16). The reaction moves steering valve (24) to the left in the arrow direction. Then, port C and drain port H are closed, and ports B and C are opened. The oil from the power train pump enters port C from port B. Some of it flows to the clutch piston port to form the back pressure, and the rest passes through orifice b and enters port D. The oil entering port D pushes piston (131, and the reaction compresses spring (16) and moves valve (24) to the right in the arrow direction. This closes ports B and C, so no oil goes beyond port C, and the oil pressure is maintained without rising any further. If the joystick is operated further to the left, the above operation is repeated, and when roller (20) of lever (3) reaches the position where it contacts bolt (23) of the brake valve,

1 O-60 a

.

the oil pressure beyond port C rises to the set pressure 2.5 + 0.1 MPa 125 f 1 kg/cm21 of the reducing valve and the clutch is completely disengaged. The oil pressure beyond port C is determined by the tension of modulating spring (161, which changes the load according to the amount the joystick is moved. Therefore, if the joystick is moved only slightly, the oil pressure beyond port C is set low and the clutch is partially disengaged. If the joystick is moved a greater distance, the oil pressure is set high and the clutch is completely disengaged. Port J is connected to port C and reduces the operating force of lever (31, pushing bolt (15) out to the left in the arrow direction. However, the oil pressure at port J (the booster pressure) follows the oil pressure of port C, which changes in accordance with the change in the amount of joystick movement, so the operating force of the joystick also changes.

D475A-3

STRUCTURE

3.

STEERING

AND FUNCTION

Joystick operated fully to left (clutch disengaged, left brake applied,

parking

CONTROL

VALVE

brake OFF)

utch L. H. clutch disengaged L. H. Brake IPP I

G C

,ake

Joust

ick

ON Parking

K .A

brake

OFF SAD01341

If the joystick is operated fully to the left from the condition in Item 2, roller (20) of lever (3) pushes bolt (23) to the left in the arrow direction, and compresses modulating spring (22). The reaction to this moves brake valve (25) to the left in the arrow direction. Then, ports E and F close, and port F and drain port H open. The oil from the power train pump goes from port A, pushes open check valve (91, and enters port E, where it stops. Some of the oil which flows to the brake piston port and acts as the back pressure is drained from port F to port H. The rest of the oil passes from port F through orifice c and enters port G. However, when the oil beyond port F is drained to port H, the oil pressure drops. The oil entering port G pushes piston (261, and the reaction force pushing valve (25) to the right in the arrow

D475A-3

l

l

direction becomes smaller, so valve (25) is moved to the left in the arrow direction by the tension of return spring (27). This closes ports F and H, and maintains the oil pressure beyond F so that it does not drop. If the joystick is operated further to the left, the above operation is repeated, and when it is operated fully, the brake is fully applied. The oil pressure beyond port F is determined by the tension of return spring (271, which changes the load according to the amount the joystick is moved. So, if the joystick is moved only slightly, the oil pressure beyond port F is set high and the brake is partially applied. If the joystick is moved a greater distance, the oil pressure is set low and the brake is fully applied. Port K is connected to port E and reduces the operating force of lever (3) pushing bolt (23) out to the left in the arrow direction.

lo-61 0



4.

Brake pedal depressed (clutch engaged, brake applied, parking brake OFF1

Joystick neutral

at

Brake

pedal

OFF

Y

H.

Brake

H.

Clutch

H.

Clutch

H.

Brake

I ::

l

ON_ Parking

brake

OFF

SAD01342

.

When the brake pedal is depressed, two rollers (19) of lever (2) push left and right bolts (23) to the left in the arrow direction, and left and right brake valves (25) and (11) are actuated in the same way as in Item 3. Therefore, the oil pressure is set according to the amount the brake pedal is operated, and it is possible to adjust the braking force. The left and right steering levers are not operated, so the clutch is engaged.

1 O-62 a

D475A-3

STRUCTURE

5.

STEERING

AND FUNCTION

Parking brake ON (clutch engaged, brake applied,

Joystick

at

Brake

joystick

at neutral,

CONTROL

VALVE

brake pedal released)

pedal

Brake

Clutch

Clutch

Brake

SAD01 343

l

When the joystick safety lever is placed at the LOCK position, roller (IO) of lever (4) pushes parking brake valve (8) to the left in the arrow direction. Check valve (9) is pushed by parking brake valve (8), and moves to the left in the arrow direction in the same way, so port A and port E are closed. The oil flowing to the brake piston port and forming the back pressure passes from port

D475A-3

.

F through port E, then passes through check valve (9) and parking brake valve (8) and is drained. Parking brake valve (8) remains pushed in by lever (4) and roller (IO), so the back pressure of the brake piston port continues to drop. As a result, the brake is fully applied and is held in this condition. Even if the engine is started again, check valve (9) remains closed, so the brake is kept applied.

1O-63 0


FINAL DRIVE

FINAL DRIVE

SJD03001

Outline l

The final drive is a single stage spur gear, single stage planetary gear reduction type. The lubrication is of splash type using the rotation of the gears. The final drive can be removed and installed as a single unit.

1O-64 0

l

Floating seal (I) is installed to the rotating sliding portion of the sprocket to prevent the entry of dirt or sand and to prevent leakage of lubricating oil.

D475A-3

FINAL DRIVE


I

A-A

1. 2. 3. 4. 5. 6. 7.

Floating seal Sun gear Carrier Hub Cover Sprocket boss Sprocket teeth

D475A-3

8. 9. 10. 11. 12. 13. 14.

Floating seal guard Cover Planetary pinion Ring gear Cover No. 1 gear No. 1 gear hub

SJD03002

15. 16. 17. 18. 19. 20.

No. 1 pinion Final drive case Bearing cage Boss Shaft Wear guard

1O-65 0

FINAL DRIVE


PATH OF POWER TRANSMISSION

9

IO

II

13

SJD03003

1O-66 0

D475A-3


l

FINAL DRIVE

The power from the bevel gear and steering clutch is transmitted to No. 1 pinion (15). It then passes through No. 1 gear (131, which is meshed with the No. 1 pinion, and is transmitted to sun gear (2) to rotate it. The rotation of sun gear (2) is transmitted to planet pinion (IO), but ring gear (II), which is meshed with the planet pinion, is fixed to cover (91, so the planet pinion rotates on its own axis and moves around the sun gear along the ring gear. Then, the rotating force of sun gear (2) forms the rotating force of carrier (31, which supports the planet pinion, and is transmitted to sprocket hub (4). The direction of rotation of carrier (3) is the same as that of sun gear (2). The rotating force transmitted to sprocket hub (4) is transmitted to sprocket teeth (7).

D475A-3

1 O-67 0


TRACK FRAME

TRACK FRAME Serial No.: 10601 – 10684

Outline • The track roller uses an X-shape bogie mount to increase the ground contact area between the track shoe and ground surface on rough surfaces, thereby increasing the drawbar pull. • The X-shape bogie is fitted with rubber pads to absorb the shock from the ground surface. Track roller, bogie Track roller flange type and bogie arrangement Bogie Track roller

10-68 1 5

Applicable

1st

Inner

Outer

Inner

Outer

Inner

Outer

D

D

D

D

D

D

D

Semi U, U specification

S

D

S

D

S

D

S

Superdozer specification

D475A-3

TRACK FRAME


_-12

13 __-___? I

A-A

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13.

_-__---

I

SWD02579

Idler Recoil spring assembly Carrier roller Track frame Sprocket Sprocket guard Track roller bogie Track roller Track roller support guard Cap Idler yoke Cylinder Guide

D475A-3

1O-69 0


TRACK FRAME

Serial No.: 10685 and up

Outline • The track roller uses an K-shape bogie mount to increase the ground contact area between the track shoe and ground surface on rough surfaces, thereby increasing the drawbar pull. • The K-shape bogie is fitted with rubber pads to absorb the shock from the ground surface. Track roller, bogie Track roller flange type arrangement Applicable 1st

2nd

3rd

4th

5th

6th

7th

S

D

D

D

D

D

S

10-69-1 5

Semi U, U specification

D475A-3


1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.

TRACK FRAME

Idler Recoil spring assembly Carrier roller Track frame Sprocket Sprocket guard Track roller bogie Track roller Cap Idler yoke Cylinder Guide

D475A-3

10-69-2 5


TRACK ROLLER BOGIE

TRACK ROLLER BOGIE Serial No.: 10601 – 10684

Outline • One track roller is mounted to each of inner bogie (3) and outer bogie (4) to ensure that the track roller and track shoe are always in contact. • Rubber mount (1) is used to absorb the machine vibration caused by contact with the ground.

10-70 1 5

1. 2. 3. 4. 5.

Cartridge pin Floating seal Bushing Inner bogie Outer bogie

6. 7. 8. 9.

Plug Bogie mount cap Rubber mount Track roller

D475A-3


TRACK ROLLER BOGIE


Outline • The track rollers are installed to small bogie (6). The track rollers and track shoes are always in contact. • The vibration of the machine from the ground surface is absorbed by rubber mount (5).

D475A-3

1. Guide 2. Cap 3. Track roller assembly (double) 4. Large bogie

5. Rubber mount 6. Small bogie 7. Track roller assembly 8. Cover 9. Cartridge pin

10-70-1 5

HYDRAULIC TANK


HYDRAULIC

TANK

A-A

SWD03004

1. 2. 3. 4. 5. 6. 7. 8.

Oil level gauge Blade lift valve Blade tilt, ripper low valve Oil filler Breather Bypass valve Filter Tube

D475A-3

PI: From large pump P2: From small pump A: To blade lift cylinder B: To blade lift cylinder Al:To blade tilt cylinder

head bottom head

Bl: A2: B2: A3: B3:

To To To To To

blade ripper ripper ripper ripper

tilt cylinder bottom lift cylinder head lift cylinder bottom tilt cylinder head tilt cylinder bottom

10-71 0


PPC VALVE

PPC VALVE FOR BLADE LIFT, TILT

P2

P4

P

P3

Pl

T

SJD03028

P. T. PI. P2. P3.

P4.

From PPC charge PPC lock valve) To hydraulic tank To blade lift valve To blade lift valve To blade tilt valve To blade tilt valve

1O-72 0

valve port P2 (through

(LOWER) port PA (RAISE) port PB (Left tilt) port PA1 (right tilt) port PBl

D475A-3

PPC VALVE


A-A

SJD03029

1. Spool Metering spring 3. Centering spring 4. Piston 5. Disc

2.

D475A-3

6. 7. 8. 9. 10.

Nut (for lever joint) Joint Plate Retainer Body

1o-73 0

STRUCTURE

AND

PPC VALUE

FUNCTION

Operation

11 At neutral (il PPC valve for blade lift Ports PA and PB of the blade lift control valve, and ports PI and P2 of the PPC valve are connected to drain chamber D through fine control notch f2 in spool (I).

(ii) PPC valve for blade tilt Ports PA1 and PBI of the blade tilt control valve, and ports P3 and P4 of the PPC valve are connected to drain chamber D through fine control notch f2 in spool (I).

;;;;,control

PBl

,,,,

,

SWD03030

SWD03031

1o-74 0

D475A-3

STRUCTURE

2)

During fine control (neutral + fine control) When piston (4) starts to be pushed by disc (51, retainer (9) is pushed; spool (I) is also pushed by metering spring (21, and moves down. When this happens, notch f2 for fine control is shut off from drain chamber D, and at almost the same time, it is connected to pump pressure chamber PP, so pilot pressure oil from the charging pump passes through notch fl for fine control and goes from port PI to port PA. When the pressure at port PI becomes higher, spool (I) is pushed back and notch fl for fine control is shut off from pump pressure chamber PP. At almost the same time, it is connected to drain chamber D to release the pressure at port PI. When this happens, spool (I) moves up or down so that the force of metering spring (2) is balanced with pressure at port PI. The relationship in the position of the spool (I) and body (IO) (notch fl, f2 for fine control is at a point midway between drain chamber D and pump pressure chamber PP) does not change until retainer (9) contacts spool (I). Therefore, metering spring (2) is compressed proportionally to the amount of movement of the control lever, so the pressure at port PI also rises in proportion to the travel in the control lever. In this way the control valve spool moves to a position where the pressure in chamber PA (the same as the pressure at port PI) and the force of the control valve spool return spring are balanced.

D475A-3

PPC VALVE

AND FUNCTION

IO,

P

SW003032

1o-75 0

STRUCTURE

31

AND

FUNCTION

PPC VALVE

During fine control (When control lever is returned) When disc (5) starts to be returned, spool (I) is pushed up to the force of centering spring (3) and the pressure at port PI. When this happens, notch f2 for fine control is connected to drain chamber D, and the pressure oil at port PI is released. If the pressure at port PI drops too far, spool (I) is pushed down by metering spring (2), and notch fl for fine control is shut off from drain chamber D. At almost the same time it is connected to pump pressure chamber PP, and the pump pressure is supplied until the pressure at port PI recovers to a pressure that corresponds to the lever position. When the spool of the control valve returns, oil in drain chamber D flows in from notch f2’ for fine control in the valve on the side that is not working. The oil passes through port P2 and enters chamber PB to fill the chamber with oil.

SWDO3033

4)

At full stroke When disc (5) pushes down piston (4), and retainer (9) pushes down spool (I), notch f2 for fine control is shut off from drain chamber D, and is connected with pump pressure chamber PP. Therefore, the pilot pressure oil from the charging pump passes through notch fl for fine control and flows to chamber PA from port PI, and pushes the control valve spool. The oil returning from chamber PB from port P2 through notch f2’ for fine control and flows to drain chamber D.

1 O-76 0

D475A-3


PPC VALVE

51 Blade operated to FLOAT When piston (4) at port PI (LOWER side) is pushed by disc (5) and moves down, protrusion a of the piston contacts ball (11) during the downward stroke. (The detent starts to be actuated.) If piston (4) is pushed further, ball (1 I) pushes up collar (12), which is being held by detent spring (131, and moves to the outside, so the ball passes over protrusion a of the piston. At this point, piston (4’) at the opposite side is pushed up by the spring (14). As a result, the oil inside chamber F flows through b and c and enters chamber E, and piston (4’) follows disc (5). Passage d is interconnected with port PI, so it is under more or less the same pressure as port PI. Chamber E is normally interconnected with drain chamber D, but when ball (11) passes over protrusion a of the piston, passage d and chamber E (which were shut off) are interconnected and pressurized oil flows. At the same time, the control valve also moves to the FLOAT position, so the blade circuit is set to the FLOAT condition. The pressurized oil inside chamber E pushes up piston (4’1, so even if the lever is released, it is held at the FLOAT position. 61

SWDO3035

Blade released from FLOAT When disc (5) is returned from the FLOAT position, it is pushed down by a force greater than the pressure of the oil in chamber E. For this reason, chamber E is shut off from passage d and is connected to the drain chamber. Therefore, the oil pressure inside chamber E is lost, and the FLOAT position is released.

D475A-3

1o-77 0

WC VALVE


FOR RIPPER

I

‘b

B---i

a

I

I

I

h-ia. b. c.

P port (from charge pump) T port (to hydraulic tank) P2 port (blade RIGHT TILT/ripper

lo-78 0

SYDoO313

d.

e. TILT IN)

f.

P4 port (blade LOWER/ripper RAISE) Pl port (blade LEFT TILT/ripper TILT BACK) P3 port (blade RAISE/ripper LOWER)

D475A-3

PPC VALVE


A-A

B-B

D-D

E-E SYD00314

1. 2. 3. 4. 5. 6.

D475A-3

Spool Metering spring Centering spring Piston Disc Nut (for lever joint)

7. 8. 9. 10. 11.

Joint Plate Retainer Body Filter

1o-79 0

PPC VALVE


Operation 1)

Blade

At neutral Ports A and B of the control valve and ports PI, P2, P3, and P4 of the PPC valve are connected to drain chamber trol hole f of spool (I).

D through

Lower

lift

Blade Left

Raise

tilt Right

fine conSVD03098

Ripper

Ripper

tilt

lift

-_-.-

SVDO3099

1 O-80 0

D475A-3

STRUCTURE

PPC VALVE

AND FUNCTION

21 During fine control (neutral + fine control) When piston (4) starts to be pushed by disc (51, retainer (9) is pushed; spool (I) is also pushed by metering spring (21, and moves down. When this happens, fine control hole f is shut off from drain chamber D, and at almost the same time, it is connected to pump pressure chamber PP, so pilot pressure oil from the charging pump passes through fine control hole f and goes from port PI to port A. When the pressure at port PI becomes higher, spool (I) is pushed back and fine control hole f is shut off from pump pressure chamber PP. At almost the same time, it is connected to drain chamber D to release the pressure at port PI. When this happens, spool (I) moves up or down so that the force of metering spring (2) is balanced with the pressure at port PI. The relationship in the position of the spool (I) and body (IO) (fine control hole f is at a point midway between drain hole D and pump pressure chamber PP) does not change until retainer (9) contacts spool (I). Therefore, metering spring (2) is compressed proportionally to the amount of movement of the control lever, so the pressure at port PI also rises in proportion to the travel in the control lever. In this way the control valve spool moves to a position where the pressure in chamber A (the same as the pressure at port PI) and the force of the control valve spool return spring are balanced.

D475A-3

I)

Control valve

(5

P&3 ,,,,

SVD03101

lo-81 0

PPC VALVE


3)

During fine control (when control lever is returned) When disc (5) starts to be returned, spool (1) is pushed up by the force of centering spring (3) and the pressure at port PI. When this happens, fine control hole f is connected to drain chamber D and the pressure oil at port PI is released. If the pressure at port PI drops too far, spool (I) is pushed down by metering spring (21, and fine control hole f is shut off from drain chamber D. At almost the same time, it is connected to pump pressure chamber PP, and the pump pressure is supplied until the pressure at port PI recovers to a pressure that corresponds to the lever position. When the spool of the control valve returns, oil in drain chamber D flows in from fine control hole f’ in the valve on the side that is not working. The oil passes through port P2 and enters chamber B to fill the chamber with oil. SVDO3102

41 At full stroke When disc (5) pushes down piston (41, and retainer (9) pushes down spool (I 1, fine control hole f is shut off from drain chamber D, and is connected with pump pressure chamber PP. Therefore, the pilot pressure oil from the charging pump passes through fine control hole f and flows to chamber A from port PI, and pushes the control valve spool. The oil returning from chamber B passes from port P2 through fine control hole f’ and flows to drain chamber D.

Control valve SVD03103

1 O-82 0

D475A-3


MAIN CONTROL VALVE

MAIN CONTROL VALVE BLADE LIFT VALVE

PL \

I

I

0 ii //

PA SJD03036

Outline . Demand valve is assembled to the blade lift valve, and the oil from the two hydraulic pumps is merged by check valve. With the demand valve, the oil from the large pump becomes the pilot pressure, and at the same time, the oil from the ripper circuit or the blade lift circuit through shuttle valve also becomes the pilot pressure, so the oil from the two hydraulic pumps is used efficiently.

lo-84 0

PI. P2. A. B. T. PA. PB. PL.

From large pump From small pump To blade lift cylinder head To blade lift cylinder bottom To hydraulic tank From blade lift PPC valve port P2 From blade lift PPC valve port PI From ripper Lo valve

D475A-3

MAIN CONTROL VALVE


c-c

D-D SJD03037

1. 2. 3. 4.

Check Small Check Check

5. 6. 7.

Valve body Return spring Blade lift valve

D475A-3

valve spring pump circuit check valve valve valve spring

8. 9. 10. 11. 12. 13. 14.

Shuttle valve seat (plug) Shuttle valve ball Shuttle valve seat (plug) Retainer Return spring (for FLOAT) Case Demand valve spring

15. 16. 17. 18. 19. 20 21.

Demand valve RAISE suction valve Suction valve spring LOWER suction valve Main relief valve Main relief, shuttle valve Shuttle valve

1 O-85 0

MAIN CONTROL VALVE


BLADE LIFT VALVE MAIN RELIEF, SHUTTLE

VALVE

PL

A4

IO

9

I T

8

2

7 PD

3 6 4 5’ A-A

1O-86 0

Z

SElD01368

D475A-3


1. 2. 3. 4. 5. 6. 7. 8. 9. 10.

Valve body Piston Shuttle valve Shuttle valve spring Plug Valve seat Main relief valve poppet Main relief valve spring Sleeve Main relief pressure adjustment screw

PL. From shuttle valve inside ripper valve PB. From shuttle valve inside blade lift valve PD.To demand valve pilot port T. To hydraulic tank

D475A-3

MAIN CONTROL VALVE

Outline The main relief valve is in the circuit between the hydraulic tank and the ripper circuit and blade lift circuit through shuttle valve (3). The oil pressure in the blade lift circuit, that is, the large pump circuit, is set at 20.6 MPa 1210 kg/cm*}. The shuttle valve is in the circuit between the demand valve through the main relief valve and the blade lift circuit and ripper circuit. It selects the two circuits to apply the pilot pressure to the demand valve. In other words, it selects either the blade lift circuit or the ripper circuit. When the work equipment is not being used (when the control lever is at neutral) the shuttle valve connects the blade lift circuit and the pilot port of the demand valve by the tension of spring (4).

l

l

1 O-87 a

MAIN CONTROL VALVE


BLADE TILT, RIPPER LO VALVE

PA3

PA2

PA1

A3

A2

Al

B \

I

l-l

SJD03038

P. Al. Bl. A2.

From small pump To blade tilt cylinder head To blade tilt cylinder bottom To ripper tilt cylinder head (through ripper Hi valve PAI) B2. To ripper tilt cylinder bottom (through ripper Hi valve PBI) A3. To ripper lift cylinder head (through ripper Hi valve PB2) B3. To ripper lift cylinder bottom (through ripper Hi valve PA21

1O-88 0

CO. PL. PAI. PA2.

PA3. PBI. PB2. PB3.

To To To To To To To To

demand valve shuttle valve inside blade tilt PPC valve ripper tilt PPC valve ripper lift PPC valve blade tilt PPC valve ripper tilt PPC valve ripper lift PPC valve

blade lift valve P3 (left tilt) P2 (tilt in) P3 (lower) P4 (right tilt) PI (tilt back) P4 (raise)

D475A-3


MAIN CONTROL VALVE

A-A

c-c SJD03039

1. 2. 3. 4. 5. 6. 7. 8.

Blade tilt valve Ripper tilt valve Ripper lift valve Valve body Return spring O-ring Case Main relief pressure adjustment screw

D475A-3

,9. Sleeve

10. 11. 12. 13. 14. 15. 16. 17.

Main relief valve body Poppet spring Main relief valve poppet Valve seat Main relief valve spring Main relief valve Valve seat Check valve

18. 19. 20. 21. 22.

Check valve spring Valve seat Shuttle valve seat (plug) Shuttle valve ball Shuttle valve seat

1O-89 0

MAIN CONTROL VALVE


RIPPER HIGH VALVE

PA1

P B-1

A2-1 I

Al

I

A4

Bl-1

_

_

c4

B?-1

PA2 /

>B2

_ SWD03040

1O-90 0

P: PAI: PBI: PA2: PB2: Al-l: Bl-1: Al-2: Bl-2: A2-1: B2-1: A2-2: B2-2: T:

From large pump From low valve tilt back From low valve tilt on From low valve ripper raise From low valve ripper lower To right tilt cylinder head To right tilt cylinder bottom To left tilt cylinder head To left tilt cylinder bottom To right lift cylinder head To right lift cylinder bottom To left lift cylinder head To left lift cylinder bottom To hydraulic tank

D475A-3

STRUCTURE

AND

MAIN

FUNCTION

CONTROL

VALVE

A-A

c-c 1. 2. 3. 4. 5. 6. 7. 8. 9. IO. 11.

Check valve Check valve spring Plug Fixed differential pressure valve (for ripper tilt) Valve body Shuttle valve seat Shuttle valve bail Valve body Plug Fixed differential pressure valve spring Fixed differential pressure valve (for ripper lift)

D475A-3

D-D

SWD0304 I

12. Fixed differential pressure valve (for ripper lift) 13. Fixed differential pressure valve (for ripper tilt) 14. Ripper tilt high valve 15. Valve return spring 16. Plug 17. Ripper lift high valve 18. Suction valve spring 19. Suction valve

10-91 0

PIN-PULLER HYDRAULIC SYSTEM DRAWING PIN-PULLER HYDRAULIC CIRCUIT DRAWING


PIN-PULLER HYDRAULIC

SYSTEM

DRAWING @To transmission circuit To torque converter lock-up

PIN-PULLER HYDRAULIC

circuit

CIRCUIT DRAWING

[

To transmission valve circuit To torque converter lock-up

P---

circuit

I

*

I

clutch

!_

T

,(T

I*

!_

To transmission lubrication

To R.H steerins

r: I

)(

To R.H steerins

brake

To L.H steering

brake

1. 2. 3. 4. 5. 6.

i-

L__

To L.H steerins

L___--_--_------__

II

1O-92 0

11

in

11

clutch

7. 8. 9. IO.

Power train oil tank Oil strainer Power train pump Oil filter Main relief valve Steering control valve Pin-puller solenoid valve Pin-puller cylinder Steering case Scavenging pump

19

0475k3

PIN-PULLER SOLENOID VALVE


PIN-PULLER SOLENOID

VALVE

i

I Pi P /

SVD03007

1. Plug

2. 3. 4. 5. 6. 7. 8. 9.

Spring Spring retainer Valve body Spool Spring retainer Spring Push pin Solenoid assembly

A. B. C. D.

To pin-puller cylinder head From power train pump To pin-puller cylinder bottom To steering case

D475A-3

1o-93 a

STRUCTURE

PIN-PULLER

AND FUNCTION

SOLENOID

VALVE

Operation 1.

Pin-puller switch at PUSH IN position When the pin-puller switch is turned to the PUSH IN position, no current flows to solenoid (9) and it is deactivated. When this happens, spool (5) opens ports A and B and ports C and D, and the oil from the power train pump flows from port A to port B and enters the bottom of pin-puller cylinder (IO). The oil entering the bottom end of the cylinder increases the hydraulic pressure in the circuit and extends the cylinder. Shank mounting pin (11) is pushed into shank (13).

2.

Pin-puller switch at PULL OUT position When the pin-puller switch is turned to the PULL OUT position, current flows to solenoid (9) and it is excited. When this happens, the solenoid pushes out push pin (81, and spool (5) moves to the left in the direction of the arrow. Ports A and B and ports C and D close, and ports A and C and ports B and D open. The oil from the power train pump flows from port A to port C and enters the head of pinpuller cylinder (IO). The oil entering the head end of the cylinder increases the hydraulic pressure in the circuit and retracts the cylinder. Shank mounting pin (11) is pulled out of shank (13).

1o-94 0

From

power

train

Pump

Switch

at-PUSH

IN’r~osition

From

power

train

Dump

Switch

at’PULL

OUT’position

D475A-3

STRUCTURE

AND

AIR CONDITIONER

FUNCTION

AIR CONDITIONER AIR

CONDITIONER PIPING

sv003010

1. 2. 3. 4. 5. 6. 7. 8. 9.

Air conditioner compressor Condenser Refrigerant piping Window defroster Side defroster Air conditioner unit Vent Blower motor Valve (hot water outlet)

D475A-3

10. 11. 12. 13.

Hot water pickup piping Receiver tank Hot water return piping Valve (hot water inlet)

A. B. C.

Fresh air Recirculated Hot air/cold

air air

1o-95 0


ENGINE CONTROL

ENGINE CONTROL

1. Battery relay (Right) 2. Battery (Right) 3. Decelerator pedal 4. Starting switch 5. Throttle potentiometer 6. Engine controller 7. Machine controller 8. Fuel control dial 9. Battery (left) 10. Battery relay (left) 11. Starting motor 12. Fuel injection pump (left) (electronic engine throttle

Outline . Engine control is carried out in the following

controller)

.

1 O-96 0

two systems. 1. When the fuel control dial and decelerator pedal are operated, it controls the fuel injection pump with an electric signal. 2. When mode selection system is actuated The throttle signal and fuel control dial signal enter the machine controller, are processed together with other data, and are sent to the electronic engine throttle controller as the throttle command. The electronic engine throttle controller controls the fuel injection pump according to the command. A fuel injection pump with electronic governor is employed. (For details, see ENGINE CONTROL SYSTEM WITH ELECTRONIC ENGINE THROTTLE CONTROLLER.)

D475A-3


ENGINE CONTROL SYSTEM

ENGINE CONTROL SYSTEM .

Items listed for SSC do not apply to superdozer specification machine.

I

Engine

Panel

I

controller

CPU

Monitor

4

I

Tachometer display, Speed ranee display.

etc.

No. 3 throttle

CPU

No. I thrott fuel cant ro Startino

snitch

No. 2 throttle decelerator F.

Injection controll

amount solenoid

n

Ensine speed detection sensor

c

Outline The engine controller receives the manual signals from the No. 1 throttle and No. 2 throttle, and the No. 3 throttle, which is the control signal from the machine. It selects the lowest engine speed from among these and controls the electronic governor. The control signal from the No. 3 throttle includes the following. (1) High idling speed control (2) Shoe slip control (3) 3rd auto deceleration

D475A-3

R,

1.

Transmission condition

2.

3

sensor

r1 r

Torque converter speed sensor

Acceleration sensor

SVD0.3108

Example: When the transmission is at neutral, even if the throttle lever is set to the FULL position and the economy mode is selected, the engine speed is automatically set to partial.

1o-97 0

STRUCTURE

AND

FUNCTION

ENGINE

CONTROL

SYSTEM

High idling speed control Function When waiting for work, if the transmission control lever is placed at Neutral, the engine speed is automatically reduced to the deceleration speed to save fuel and reduce noise. . When the lever is operated, the engine speed rises immediately to the speed set by the lever.

l

Operation When control lever is at N If the engine speed is higher than the deceleration speed and the transmission control lever is returned to Neutral, the engine speed will immediately be reduced to 100 rpm less than Hi speed to the No. 1 deceleration speed. If 4 more seconds pass, the engine speed will be reduced to the No. 2 deceleration speed (see below) and will be held at this speed until the lever is operated.
No. 3 deceleration Function . R3 + when

1 O-98 0

speed

set to 1400 rpm by auto-deceleration shifting

D475A-3

ENGINE CONTROL SYSTEM


THROlTLE

POTENTIOMETER

+Eg)

Structure

of

circuit

SXD03109

1. 2. 3. 4. 5. 6. 7.

Connector Lever Body Potentiometer Coupling Shaft Stopper

D475A-3

Outline The throttle potentiometer is installed under the front of the operator’s cab and is interconnected by a link with the decelerator pedal. . When the decelerator pedal is operated, the link rotates the shaft of the throttle potentiometer and the resistance value changes. A constant voltage is applied between the No. 1 and No. 3 pins of the potentiometer, and the voltage signal corresponding to the operating position of the decelerator pedal is sent from the No. 2 pin to the SSC controller. l

1o-99 0

ENGINE CONTROL SYSTEM WITH ELECTRONIC ENGINE THROTTLE CONTROLLER


ENGINE CONTROL SYSTEM THROTTLE CONTROLLER SYSTEM

WITH ELECTRONIC ENGINE

DRAWING

Disolav

items:

I. Ene ine speed 2. Engine water temperature 3.Error code/caution/pilot

1

Governor Power source

Governor cut relay

Start ins switch

Start Rack Control rack

1 Rack

position

*

c

Self-diaonostic disolav

Hydraulic Piston

\

output

etc.

I

Engine controller

signal sianal

lamp

Operation data: I.Enein real-time monitor data ensrne speed. rack voltage. temperature. c 01 I nressure.water

Engine

speed sianal

B

Engine

speed signal

A

o

I

i Accelerator

sensor

,No. 3 throttle

Machine Variable structure

ore-stroke-

cant rol Electronic eovernor

I

controller

I

i SVD031 IO

Outline l

l

A fuel injection pump with electronic governor is used. The engine controller receives the signals from the sensor and switches, and transmits the control signal to the governor solenoid and pre-stroke solenoid (proportional solenoid).

l

The network provides commonality of the data and signals received from the engine controller and the other controllers, and this contributes to ensuring optimum control between the engine and the machine.

D475A-3

ENGINE CONTROL SYSTEM WITH ELECTRONIC ENGINE THROlTLE CONTROLLER


FUEL

INJECTION

PUMP

WITH

ELECTRONIC

GOVERNOR

STRUCTURAL DIAGRAM

SEE00589

1. Delivery

valve

2. Plunger barrel 3. Plunger 4. Hydraulic piston 5. Hydraulic control valve (quantity adjustment) 6. Hydraulic control valve (injection timing adjustment) 7. Gear pump (as seen from rear, left: oil, right: fuel) 8. Center bearing 9. Cam shaft 10. Roller 11. Tappet 12. Pump housing 13. Tappet guide 14. Spring nut

D475A-3

Function . After the governor

l

l

actuation pressure is adjusted by the hydraulic control valve in accordance with the command from the engine controller, it acts on the piston at the rear of the rack and moves the control rack to adjust the fuel injection amount. The fuel injection timing is adjusted by changing the length of the injection pump plunger. The plunger is formed of two parts, and by sending electronically controlled hydraulic pressure between these two parts, the length is changed to adjust the prestroke. The governor solenoid and pre-stroke solenoid are proportional solenoid, and they convert the input current from the controller into propulsion. This propulsion controls the spool of the hydraulic control valves (two valves: one for the governor and the other for the injection timing adjustment), and converts the input current into hydraulic power.

10-101 0


MACHINE .

MONITOR

MACHINE MONITOR SYSTEM

SYSTEM

Items listed for SSC do not apply to superdozer specification machine

Machine

controller

il Sensor

signal

: II

Engine controller

1

Sensor signals

Buzzer

CAUT I ON Central wornino

lamp

Battery

SVD03111

l

The machine monitor observes the condition of the machine through the sensors installed to various parts of the machine, and processes this information quickly. The system informs the operator of the condition of the machine by displaying the condition on the panel. The content of the panel displays can be broadly divided into the following. 1. Monitor portion that gives warnings when any abnormality occurs in the machine. 2. The gauge portion (coolant temperature, torque converter oil temperature, fuel level) that always informs the condition of the machine.

10402 0

3. 4.

l

l

Function to show error code. Function to monitor current and voltage of sensors and solenoids. Various modes selector switches for the shoe slip control are built into the monitor panel, and it acts as the control portion of the machine control system. The monitor panel has the switch functions for the shoe slip control mode selection and monitor display functions. It has a built-in CPU (Central Processing Unit), and processes the data and outputs the display. The monitor display uses a liquid crystal display (LCD). The switches are flat sheet switches.

D475A-3

STRUCTURE

Action Monitor

MACHINE

AND FUNCTION

by monitor

panel (all models)

and content

of action

Direction, speed range display Fl, R3, etc. is informed by S-NET based on value from transmission sensor.

Engine speed gauge display Pulse from engine speed sensor is converted to gauge value and informed to monitor panel by S-NET. Troubleshooting display When there is failure, appropriate error code is informed to monitor panel by S-NET. Depending on nature of failure, information is also sent to sound buzzer or light up caution lamp. (I) When normal User code (2) When in trouble data display mode Service code Monitor panel displays code on hourmeter display in turn with hourmeter value.

@ Method

@ Flow of signals

F. SW=ON R. SW=ON 1. SW=ON 2. SW = ON 3. SW=ON S-NET communication S-NET communication

Transmission speed sensor - controller monitor panel

S-NET communication

Sensors, solenoids controller - monitor panel

@ Method

@ Flow of signals

Engine speed sensor controller - monitor panel

panel display

@ Conditions

and content

of action

1) Displays condition of S-NET communication, sensors, and solenoids Item number, condition of equipment informed to monitor panel by S-NET. Monitor panel displays item on speed range display and applicable value on hourmeter display. 2) REVERSE slow button on monitor panel used to advance item Buzzer cancel switch used to return to previous item (26 items can be displayed.)

D475A-3

SYSTEM

panel display

@ Conditions

Monitor

MONITOR

S-NET communication Sensors - controller monitor panel

-

Monitor panel -controller - monitor panel

10-103 0

STRUCTURE

MONITOR

AND

MACHINE

FUNCTION

MONITOR

SYSTEM

PANEL

MONITOR

I

3

2

16

SXDO3112

1. 2. 3. 4. 5. 6. 7. 8. 9.

Display (speed range) Power train oil temperature gauge Engine water temperature gauge Charge lamp Engine oil pressure caution lamp Air cleaner clogging caution lamp Engine water temperature caution lamp Transmission oil temperature caution lamp Hydraulic oil temperature caution lamp

Outline The monitor panel consists of the monitor portion that gives out warning when any abnormality occurs in the machine, and the gauge portion and service meter that always indicate the condition of the machine. The monitor and gauge portions each have microcomputers that process the signals from each sensor and display the results. A liquid crystal display is used. For details of the items displayed on the monitor and gauge portion, see the table on the next page.

10. 11. 12. 13. 14. 15. 16. 17.

2.

CHECK items 1) After lighting up as explained in Section 1, if there is any abnormality in any CHECK item, that item flashes. 2) The CHECK items go out when the engine is started. (The rise in the engine oil pressure is used to judge if the engine is running or not, or if the voltage from the alternator is more than IOV.)

3.

CAUTION The caution items are checked from the time the engine is started until the time the engine is stopped. If there is any abnormality, the item flashes, and the warning lamp also flashes. If any item in CAUTION 2 flashes, the alarm buzzer also sounds. The monitor and warning lamps flash in an ON-OFF cycle of approx. 0.8 sec. The flashing cycle of the monitor may change slightly if the ambient temperature is low (approx. -10°C or below), but this is not an abnormality.

l

Operation 1. Power switched on (starting switch ON) I) All items on the gauge and monitor light up for 3 seconds. 2) The warning lamps light up for 2 seconds and the alarm buzzer sounds for 1 second.

* Ir

10-104 0

Preheater pilot lamp Radiator coolant level check lamp Engine oil level check lamp Fuel gauge Service meter Slow reverse mode selector switch Economy mode selector switch Lock up mode switch

D475A-3



.

MONITOR PANEL DISPLAY Display category

Symbol

Display item

43 b bc)

Display range

qadiator water level

Below low level

Sgine

oil level

Below low level

oil pressure

When sensor is abnormal or when wiring harness is disconnected

SAD01479

CHECK

Display method

Displays when engine is stopped and starting switch is ON Display when normal: OFF Display when abnormal: Flashes

SAD~l480

ingine SAD01481

3attery charge

When charge is defective

4ir cleaner clogging

When clogged: Less than -650 mmHz0

!ngine oil pressure

Below 49.03 kPa IO.5 kg/cm*}

Radiator water level

Below low level

Engine water temperature

When at highest level (108°C or above) on engine water temperature gauge

Torque converter 3il temperature

When at highest level (130°C or above) on torque converter temperature gauge

Hydraulic oil temperature

105 2 3°C or above

SAP00522

CAUTION 1

3

>

b----I

Display when normal: OFF Display when abnormal: ON

Displays when starting switch is ON and engine is running Display when normal: OFF Display when abnormal: Flashes CAUTION lamp flashes

SWD03016

e a

SADOI4Sl

SAD01479

CAUTION 2

SAD01462

SAD01483

Displays when starting switch is ON and engine is running Display when normal: OFF Display when abnormal: Flashes CAUTION lamp flashes Alarm buzzer sounds

SAD01484

Pilot

7x7 SAD00708

D475A-3

Preheating

When preheating

;. Automatic When ambient temperature is less than approx. - 5°C and ENG HEAT sheet switch on switch panel is ON, lights up for 36 seconds, then flashes for 16 seconds to show that preheating is completed. !. Manual Preheating is continued while starting switch is held at HEAT position. Lighting up and flashing times are same as in Item iabove.

10-105 0



Display category

Symbol

Display method

Display range

Display item

108iZ"C

Red

al

102I:‘c 98°C


SAD01482

94% 83% 70°C

White

One place lights up to show applicable level

Torque converter oil temperature

Gauges SAD01483

I I HfJO’C

u-

FULL 6/r

Fuel level

Gre.3

517 4n

All lamps light up below applicable level

3n 2n

SAD01466

Service meter

Red

Hourmeter

From 0 to 99999

EMPTY

Actuated when alternator is charged. Advances by 1 hour for every hour.

SKD00631

lo-106 0

D475A-3

STRUCTURE

MONITOR

.

MACHINE

AND FUNCTION

PANEL

MONITOR

SYSTEM

FUNCTIONS

Items listed for SSC do not apply to superdozer

specification

machine.

1. Monitor panel functions a) Switching lock-up mode ON/OFF b) Setting economy mode to OFF, Mode 1, Mode 2 c) Switching REVERSE slow mode ON/OFF d) Switching shoe slip control mode ON/OFF e) Setting shoe slip mode level: Modes 1 - 5 Functions a), b), and c) are mounted on all specifications; shoe slip control specification machine.

Shoe slip control

l

functions

d) and e) are mounted

on the

specification

SJDO3017

.

No shoe slip control

SJD03018

*

2.

Economy mode functions: On bedrock or other jobsites where the shoes slip frequently, the power output is set as follows in each mode to reduce the frequency of deceleration operation. Economy mode 1: Set to 90% of full power Economy mode 2: Set to 70% of full power REVERSE slow mode: Set to 80% of full speed when traveling in reverse

Default settings when switch is turned ON a) For machines with the superdozer specification, most of the work is carried out with the lockup ON, so the lock-up mode is selected by default when the starting switch is turned ON. b) For machines with other than the superdozer specification, the operator can select the functions that are best for the jobsite, so all functions are turned OFF by default unless they are selected.

D475A-3

10-107 0

STRUCTURE

3.

MACHINE

AND FUNCTION

MONITOR

SYSTEM

Sensors Sensor

Type of sensor

Torque converter temperature Hydraulic

Radiator

I

oil

oil temperature

Engine oil level water

I level

I

Resistance

I

-

Contact

ON

Contact

I

-

-

I

abnormal ON

I

Resistance

Contact

When

normal OFF

OFF

ON

I

ON

I

-

Resistance

Fuel level

Engine oil pressure

When

Contact

Engine oil pressure Engine water temperature

method

OFF OFF -

sensor

Structure

of

circuit

SBD01537

1. 2. 3. 4. 5. 6.

lo-108 0

Plug Contact ring Contact Diaphragm Spring Terminal

D475A-3

STRUCTURE

MACHINE

AND FUNCTION

Engine cooling water temperature Torque converter oil temperature

1. 2. 3.

Structure

oil temperature

of

circuit

SBDOI 538

sensor

L-4-l 4

3

I

1. 2. 3. 4.

Switch Case Wire Connector

Radiator

I 1.

2. 3.

water

2

SYSTEM

sensor sensor

Connector Plug Thermistor

Hydraulic

MONITOR

I

.l

\

i 1

Structure

of

circuit

I

SAD01 536

temperature

sensor

3

SEW00291

Float Sensor Connector

D475A-3

10409 0



Fuel level sensor

u

Structure A-A

1. 2. 3. 4. 5. 6. 7.

Connector Float Arm Body Spring Contact Spacer

10-110 0

of

circuit SBD01539

Function l

The fuel sensor is installed to the side face of the fuel tank. The float moves up and down according to the fuel level. This movement of the float is transmitted by the arm and actuates a variable resistance. This sends a signal to the monitor panel to indicate the remaining fuel level. When the display on the monitor panel reaches a certain level, a warning lamp flashes.

D475A-3


MODE SELECTION SYSTEM

MODE SELECTION SYSTEM (SHOE SLIP CONTROL SYSTEM) .

Items listed for SSC do not apply to superdozer

specification

machine.

SYSTEM DIAGRAM Mode select

ion

Panel

I

RiDPer

lever

Backup

buzzer

fl

Machine

controller FORWARD speed range sianal Speed ranae sianal (I. 2, 3)

I A

= 0

Torque converter outout shaft speed sensor sianal (20 pulse/rev) Ena ine speed sensor sianal

L

ro -Z .Z U_ C c .- .w fr E

Oecelarytor

Pedal

z;B

I

I,

r

--

0

Enaine controller

Transmission

oil

Pressure

sianal SV003113

Outline . The

l

mode selection system automatically carries out engine control to match the operating mode selected by the operator, and acts to reduce fuel consumption, extend the life of the track shoes, and reduce the frequency of operation of the deceleration. The engine control modes consist of the economy mode control used when dozing,

D475A-3

l

the shoe slip control used when ripping, and the reverse slow mode control, which can be used for either operation. The lock-up control mode is the same as the conventional lock-up function. It cannot be selected in combination with the above modes.

10-111 0



FUNCTIONS OF MODE SELECTION SYSTEM l

The mode selection system consists of the mode selection panel (with built-in microcomputer) which selects the operating mode, the machine controller (with built-in microcomputer) which governs the engine control, the electronic engine throttle controller (with built-in microcomputer) which receives the command from the machine controller and controls the fuel injection pump, the lock-up controller which switches the lock-up of the torque converter ON/OFF according to the torque converter dividing pulse output by the machine controller, and various sensors. The following is an explanation of the functions of each controller.

Functions of engine controller 1. It follows the lower engine

Jr

speed (higher voltage) of the two signals (the manual command input from the throttle potentiometer and the deceleration potentiometer, and the shoe slip control command), and sends an electric current signal to the governor solenoid to control the engine. For details, see STRUCTURE AND FUNCTION, Engine control system with electronic engine throttle controller.

Functions of machine controller 1.

2.

3.

4.

5.

The shoe slip controller uses the input signal from the acceleration sensor to calculate the travel speed of the machine in relation to the ground. In addition, it inputs the torque converter speed sensor system and calculates the shoe speed. From these data, it detects the shoe slip ratio. Next, it inputs the engine speed sensor signal and torque converter speed sensor signal, and calculates the drawbar pull. It uses the results of the calculation in Steps 1 and 2 above together with the mode selector signal from the monitor panel and the transmission oil pressure sensor signal to calculate the optimum engine speed. It then sends a signal to the engine controller as the shoe slip control command. It has a function which divides the torque converter output shaft speed pulse of 20 pulses/rev to 4 pulses/rev, and when the monitor panel lock-up mode is input, it sends the divided torque converter pulse signal to the lock-up controller. The machine controller judges from the input torque converter dividing pulse and the transmission oil pressure signal, and sends the lock-up to the lock-up solenoid valve. * For details, see STRUCTURE AND FUNCTION, Operation of torque converter lockup control system.

10412 0

D475A-3

STRUCTURE

AND

FUNCTION

MODE

OPERATION OF MODE SELECTION SYSTEM . It is possible to select the five modes individually optimum conditions for the type of work.

T

Opera Ition

IMode switch

IdeIomlendent lound election ,electior

Mode actuation conditions

Actuation,

2

SYSTEM

to carry out work under the

features of mode

b Automatically switches ON/OFF according to the load

1. When torque converter approaches stall range or when gear is shifted, lock-up is turned OFF; when there is light load, lock-up is turned ON. 2. Possible to use at all speed ranges 3. Impossible to select combined operation with other mode 4. Suitable for dozing operations where there is comparatively little change in load.

Nhen transmission is at -1 with economy mode switch (I) or (2) ON

When economy mode ((1) or (2)) and shoe slip control are set in combination, economy control is carried out when the transmission is shifted to Fl, and slip control is carried out when the ripper lever is operated and the switch is turned ON. The engine output can be controlled to 2 levels without operating the engine deceleration. Mode (1): 90% (at 1.5 km/h) Mode (2): 65% (at 1.5 km/h) At neutral, the engine speed is reduced to partial speed.

a

L 8

or in combination

SELECTION

0

-I

0

When transmission ?I, R2, R3

is at

1. The engine output can be controlled to partial without operating the engine deceleration. Engine speed when in traveling reverse: 1400-1600 rpm 2. Set speed when traveling in reverse RI, R2, R3: 70% of full throttle

Nhen the following conditions are fulfilled I. When transmission is at Fl 2. After ripper DOWN, ripper TILT lever is operated and limit switch is turned ON

To prevent the machine from starting suddenly when it moves off, modulation is carried out. When this happens, if ripper DOWN signal enters shoe slip controller, drawbar pull characteristics are reduced by approx. 40% and engine output is controlled. The SSC controller controls the engine output according to the drawbar pull characteristics (see Rockbed selection below) selected by the operator from the drawbar pull characteristics (set to 5 levels), and prevents the occurrence of slippage. The SSC controller takes the drawbar pull immediately before slippage occurs when the shoe slip ratio is 30% or more as the maximum and carries out control of the engine output. When this happens, if the ripper TILT or ripper UP signal are input, the SSC controller increases the drawbar pull characteristic by approx. 30 - 80% and controls the engine output. At neutral, the engine speed is reduced to partial speed.

1 Interconnected with shoe slip control and is turned ON.

1. When the SSC control is turned ON, selection mode [31 lights up. 2. The selection is made 1 ti 3 t) 5 according to the load and condition of the bedrock.

0

F ._ B z

Ir

*

0

When the above modes are set, it is possible to operate the fuel control lever and decelerator pedal. In such cases, the engine output control is carried out according to the minimum value command from the controller command, throttle command, and deceleration command. For the superdozer only, it is possible to select the lock-up and REVERSE slow at the same time.

D475A-3

10-113 0



SENSORS ENGINE SPEED SENSOR

c

0. 76fG

0.75fE

Structure

2

of

circuit sxrJ03114

1. Magnet 2. Terminal 3. Case 5. Boot 6. Connector

TORQUE CONVERTER SPEED SENSOR

o 83 -2

1

F= I

1. 2. 3.

c Structure

2

3

of

circuit

SXD03115

Connector Flange Sensor

10-114 0

D475A-3


TRANSMISSION


OIL PRESSURE SENSOR

Structure

of

circuit SXD031 I6

1.

2. 3. 5. 6.

Plug Diaphragm Switch Wire Connector

D475A-3

10-115 0



ACCELERATION SENSOR

Acceleration

Deceleration c

m

Power

Amp

Structure

1. 2. 3. 4.

of

circuit

Plate Sensor portion Wire Connector

Outline l

l

l

SXD031 17

The acceleration sensor is installed under the front of the operator’s cab. With the acceleration sensor, the position of the ball inside the sensor changes according to the acceleration. Inside the sensor, there is a coil that detects the position of the ball. This is amplified by the amp and is sent as a voltage change to the SSC controller. The input and output characteristics of the sensor are shown in the diagram on the right.

5

-2 -1.5

I

0 Acceleration

1.5 2 [G) SXD03118

lo-116 0

D475A-3

ELECTRICAL EQUIPMENT


ELECTRICAL EQUIPMENT RELAY BOX

RELAY BOX CIRCUIT

_________-__ ?.P ::

SVDOJI

D475A-3

19

10-117 0



OPERATION OF LAMP SYSTEM

Panel

,’

,’

I’

switch

,’

I’

‘\

..

Monitor Panel ii I luminat ion) Relay

box

SVD03120

LAMP SYSTEM CIRCUIT DIAGRAM Relay

box Safety

relay

1 I

-&

I

+Lz24V

Panel r----

switch _-__ Head lamp switch

1I

Head

I

Head

lamp

fuse

lamo

I I

relay

>

Head

lamp

El L

+

D4 um Diode

Monitor

illumination

T I SVD03121

lo-118 0

D475A-3



PREHEAT (ELECTRICAL INTAKE AIR HEATER) CONTROL

Panel

Intake

switch

mani fold

__________--_____--__---__-----___---____---__-.~~‘~

Monitor

Panel

II II

‘.

..

.\

A

..

II I II I II I

‘.

Heater

relay

I

____---_---__----_-._I

,I I I

p

l.

0\

_i

I

i ~._____________________-----___-__----___---_____~. Relay

box SVD03122

PREHEAT CIRCUIT

Relay

box

Start 0 0

Preheat

Preheat

pi lot

(Monitor)

timer

l!zl

Heater relay

Battery

Battery

relay

Heater

Panel snitch (Preheat)

SVD03123

D475A-3

10-119 0

STRUCTURE

AND

FUNCTION

Order of operation for preheating 1) When -the PREHEAT switch (1) of panel switch is turned ON, the preheating timer starts to operate, and in cold weather, the preheating relay inside the relay box is turned ON. 2) The output current of the relay box passes through the heater relay and flows to the electrical intake air heater inside the intake manifold to start preheating. 3) When preheating starts, the preheating pilot lamp on the monitor panel lights up for 36 seconds to give the display. 4) The pilot lamp then flashes for 16 seconds to show that the preheating is completed.

10-120 0

ELECTRICAL

CONTROL

SVD03026

D475A-3


TORQUE System

CONVERTER

ELECTRICAL CONTROL

LOCK-UP

CONTROL

SYSTEM

diagram

,*-. ,’

,’

,’ ,J

,’

,’

-\

‘.

‘\

‘. ‘. -.

I’

*’

,’

c’

,’

‘. --\

I’ I’

‘. ‘\

,’ I’

-\ ‘\

,J

C’

‘\

-\

‘. ‘\

,’

‘. ‘. ‘. ‘.

,’

Monitor

‘..

Panel Relay Solenoid

drive

Machine controller

box

sisna

Transmission oil Pressure sensor

Steerins

Transmission

_____

clutch

Torque converter output shaft speed sensor (20 pulse/rev)

SVD03124

Operation With the torque converter lock-up control system, the torque converter lock-up is operated automatically according to the load on the machine by the controller and signal from the two sensors. When the torque converter is locked up, the display lamp inside the monitor panel lights up. The torque converter speed sensor is connected to the machine controller, and inputs a pulse signal to the machine controller. The machine controller power source is always ON. The setting of the lock-up mode is carried out using the mode selection panel. The lock-up controller receives the torque converter speed signal from the SSC controller and transmission oil pressure sensor, and connects or disconnects the connection of the lock-up solenoid and display lamp to

D475A-3

the ground to turn the lock-up ON or OFF. The lock-up is turned ON or OFF when it fulfills the following conditions for the two sensors. l

l

When lock-up is ON (solenoid “activated”) When both of the following conditions are fulfilled (AND circuit): Torque converter output shaft speed: 1,360 rpm or more Transmission oil pressure: 1.95 MPa 120 kg/cm? or more When lock-up is OFF (solenoid “deactivated”) When either of the following conditions are fulfilled (OR circuit): Torque converter output shaft speed: 1,330 rpm or less Transmission oil pressure: 1.5 MPa (15 kg/cm*) or less

10-121 0

20

TESTING AND ADJUSTING

Standard value table for engine related parts .................................................................................... 20- 2 Standard value table for chassis related parts .................................................................................... 20- 3 Standard value table for electrical related parts ................................................................................. 20- 9 Testing and adjusting ............................................................................................................................. 20-101 Troubleshooting ...................................................................................................................................... 20-201

fl

Note the following when making judgements using the standard value tables for testing, adjusting, or troubleshooting.

1.

The standard value for a new machine given in the table is the value used when shipping the machine from the factory and is given for reference. It is used as a guideline for judging the progress of wear after the machine has been operated, and as a reference value when carrying out repairs.

2.

The service limit value given in the tables is the estimated value for the shipped machine based on the results of various tests. It is used for reference together with the state of repair and the history of operation to judge if there is a failure.

3.

These standard values are not the standards used in dealing with claims.

¤ When carrying out testing, adjusting, or troubleshooting, park the machine on level ground, insert the safety pins, and use blocks to prevent the machine from moving.

¤ When carrying out work together with other workers, always use signals and do not let unauthorized people near the machine.

¤ When checking the water level, always wait for the water to cool down. If the radiator cap is removed when the water is still hot, the water will spurt out and cause burns.

¤ Be careful not to get caught in the fan, fan belt or other rotating parts.

D475A-3

20-1 6


STANDARD VALUE TABLE FOR ENGINE RELATED PARTS

STANDARD VALUE TABLE FOR ENGINE RELATED PARTS Machine model

D475A-3

Engine

SDA12V140-1

Item

Measurement conditions

Standard value for new machine

Service limit value

2,100 – 2,200

—

600 – 700

—

2,000

—

kPa {mmHg}

Min. 120 {900}

Min. 107 {800}

°C

Max. 650

Max. 750

Bosch index

Max. 4.0

7.0

Max. 1.0

2.5

0.43

—

0.80

—

Unit

High idling Engine speed

Low idling

rpm

Rated speed Air supply pressure (boost pressure)

At rated output

Exhaust temperature

Whole speed range (ambient temperature: 20°C) At sudden acceleration

Exhaust gas color At high idling Valve clearance (normal temperature)

Intake valve mm Exhaust valve

Compression pressure (SAE15W-40 or SAE30 oil)

Engine oil temperature: 40 – 60°C (Engine speed)

MPa 2 {kg/cm } (rpm)

Min. 3.63 {37}

Min. 2.65 {27}

(160 – 200)

(160 – 200)

Blow-by pressure (SAE15W-40 or SAE30 oil)

At rated output (SAE15W-40 or SAE30) (SAE10)

kPa {mmH2O}

Max. 1.47 {Max. 150}

Max. 2.94 {Max. 300}

0.39 – 0.54 {4.0 – 5.5} 0.29 – 0.44 {3.0 – 4.5}

Min. 0.25 {2.5} Min. 0.20 {2.0}

(SAE10)

Min. 0.12 {1.2} Min. 0.10 {1.0}

Min. 0.10 {1.0} Min. 0.08 {0.8}

°C

80 – 110

120

°

12 ± 1

—

20 ± 2

—

20 ± 2

—

Oil pressure (Water temperature: Min. 80°C)

At high idling (SAE15W-40 or SAE30) (SAE10) At low idling (SAE15W-40 or SAE30)

Oil temperature

Whole speed range (oil pan)

Fuel injection timing

Before top dead center

Alternator belt tension Air conditioner compressor belt tension

20-2 4

Deflection when pressed with finger force of approx. 58.8 N {6kg}

MPa {kg/cm2}

mm

D475A-3


STANDARD VALUE TABLE FOR CHASSIS RELATED PARTS

STANDARD VALUE TABLE FOR CHASSIS RELATED PARTS Model Category

Item

Engine speed

Deceleration low idling speed Deceleration high idling speed Torque converter stall speed Torque converter stall + work equipment relief speed

Measurement conditions • Engine water temperature: Within operating range • Power train oil temperature: Within operating range • Hydraulic oil temperature: 45 – 55°C • Deceleration Lo: Decelerator pedal depressed • Deceleration Hi: Directional lever at N + work equipment control levers at HOLD • Torque converter stall: F3 stall • Torque converter stall + work equipment relief: F3 stall + pitch back relief

• Engine stopped • Center of pedal • Engine stopped • Center of lever knob

1st – 2nd

Directional

• Engine stopped • Center of lever knob

N-FORWARD

Steering

• Engine at low idling • Center of lever knob

Full stroke (N – Left, right) Until clutch is completely disengaged

• Engine at low idling • Center of pedal

Total travel

Brake pedal

Blade lever

Ripper lever

Operating effort of control lever, pedal Joystick

Decelerator pedal

• Engine at low idling • Hydralic oil temperature: 45 – 55°C • Center of lever knob • Engine at low idling • Hydralic oil temperature: 45 – 55°C • Center of lever knob

2nd – 3rd

Position until brake oil pressure becomes O MPa{0 kg/cm2} HOLD – RAISE, FLOAT HOLD – Left, right tilt HOLD – RAISE, LOWER

°

mm

mm

mm

mm

mm

HOLD – TILT N {kg} 1st → 2nd 2nd → 3rd

Speed range 3rd → 2nd

Nm {kgm}

2nd → 1st Directional

• Engine stopped • Center of lever knob

N – FORWARD N – REVERSE

D475A-3

Standard value

Permissible value

850 – 950

850 – 950

2,000 ± 50

2,000 ± 50

1,630 – 1,730

Min. 1,590

1,480 – 1,600

Min. 1,420

50 ± 5

50 ± 5

13 ± 5

13 ± 5

13 ± 5

13 ± 5

40 ± 10

40 ± 10

40 ± 10

40 ± 10

74 ± 25

74 ± 25

rpm

N-REVERSE

• Engine stopped • Center of pedal • Engine stopped • Center of lever knob

Unit

mm

Speed range

Joystick

Operating effort of control lever, pedal

Decelerator pedal

D475A-3

N {kg}

28 ± 5 28 ± 5 (Play: Max. 10 mm) (Play: Max. 10 mm) 75 ± 8

75 ± 8

61 ± 10

61 ± 10

80 ± 10

80 ± 10

60 ± 10

60 ± 10

85 ± 10

85 ± 10

85 ± 10

85 ± 10

53.9 ± 4.9 {5.5 ± 0.5} 2.94 ± 0.78 {0.30 ± 0.08} 4.90 ± 0.78 {0.50 ± 0.08} 2.75 ± 0.78 {0.28 ± 0.08} 3.92 ± 0.78 {0.40 ± 0.08} 68.6 ± 14.7 {7.0 ± 1.5} 68.6 ± 14.7 {7.0 ± 1.5}

53.9 ± 4.9 {5.5 ± 0.5} 2.94 ± 0.78 {0.30 ± 0.08} 4.90 ± 0.78 {0.50 ± 0.08} 2.75 ± 0.78 {0.28 ± 0.08} 3.92 ± 0.78 {0.40 ± 0.08} 68.6 ± 14.7 {7.0 ± 1.5} 68.6 ± 14.7 {7.0 ± 1.5}

20-3 4



Model Item Joystick

Operating effort of control lever, pedal

Category

Steering

Blade lever

Ripper lever

Power train oil pressure

Torque converter inlet port pressure Torque converter outlet port pressure Torque converter lockup clutch pressure Torque converter stator clutch pressure Transmission main relief pressure Transmission modulating pressure Transmission reducing pressure Transmission lubricating pressure Steering clutch actuating pressure

Steering brake actuating pressure Ripper pin-puller pressure

20-4 4

Measurement conditions • Engine at low idling • Center of pedal

Brake pedal

D475A-3

Until clutch is completely disengaged Until machine turns when bracke is applied

• Engine at low idling • Center of pedal

Unit

N {kg}

N {kg}

• Engine at low idling • Hydraulic oil temperature: 45 – 55°C • Center of lever knob

HOLD – RAISE

• Engine at low idling • Hydraulic oil temperature: 45 – 55°C • Center of lever knob

HOLD – RAISE, LOWER

HOLD – FROAT

N {kg}

HOLD – Left, right tilt N {kg}

HOLD – TILT IN, TILT BACK

• Power train oil tempe rature: Within operaing range

Engine at high idling MPa {kg/ cm2}

Engine idling Engine idling Engine idling Engine idling Engine idling

at low at high at low at high at low

Standard value

Permissible value

8.83 ± 2.94 {0.9 ± 0.3}

8.83 ± 2.94 {0.9 ± 0.3}

38.2 ± 2.94 {3.9 ± 0.3}

38.2 ± 2.94 {3.9 ± 0.3}

490.3 ± 49.0 {50.0 ± 5.0} 29.4 ± 4.9 {3.0 ± 0.5} 72.6 ± 3.9 {7.4 ± 0.4} 24.5 ± 9.8 {2.5 ± 1.0}

490.3 ± 49.0 {50.0 ± 5.0} 29.4 ± 4.9 {3.0 ± 0.5} 72.6 ± 3.9 {7.4 ± 0.4} 24.5 ± 9.8 {2.5 ± 1.0}

17.7 ± 4.9 {1.8 ± 0.5}

17.7 ± 4.9 {1.8 ± 0.5}

17.7 ± 4.9 {1.8 ± 0.5}

17.7 ± 4.9 {1.8 ± 0.5}

0.78 – 0.98 {8.0 – 10.0} 0.29 – 0.59 {3.0 – 6.0} 1.12 – 1.42 {11.5 – 14.5} 2.55 – 2.94 {26.0 – 30.0} 2.55 – 2.94 {26.0 – 30.0} 2.55 – 2.94 {26.0 – 30.0} 2.06 – 2.45 {21.0 – 25.0} 0.20 – 0.37 {2.0 – 3.8} 2.35 – 2.75 {24.0 – 28.0} 2.55 – 2.94 {26.0 – 30.0} 2.35 – 2.75 {24.0 – 28.0} 2.45 – 2.84 {25.0 – 29.0} 2.64 – 2.94 {26.4 – 29.8}

0.78 – 0.98 {8.0 – 10.0} 0.29 – 0.59 {3.0 – 6.0} Min. 1.08 {Min. 11.0} Min. 2.35 {Min. 24.0} Min. 2.35 {Min. 24.0} Min. 2.35 {Min. 24.0} Min. 1.96 {Min. 20.0} 0.20 – 0.37 {2.0 – 3.8} Min. 2.16 {Min. 22.0} Min. 2.35 {Min. 24.0} Min. 2.16 {Min. 22.0} Min. 2.26 {Min. 23.0} 2.30 – 2.94 {23.5 – 30.0}

D475A-3



Model

Travel speed

• Level road surface • Engine at high idling • Engine water temperature: Within operating range • Economy mode: OFF • REVERSE slow mode: OFF • Run-up distance: 10 – 30 m • Measurement distance: 20 m

• Hydraulic oil temperature: 45 – 55°C • Relieve only circuit that is being measured

Rear pump relief pressure

Work equipment control pressure PPC valve pressure outlet port pressure Blade tilt cylinder Blade pitch cylinder Ripper lift cylinder

Permissible value

3.4 ± 0.2

3.4 ± 0.2

6.3 ± 0.3

6.3 ± 0.3

10.9 ± 0.5

10.9 ± 0.5

4.3 ± 0.2

4.3 ± 0.2

7.9 ± 0.4

7.9 ± 0.4

13.9 ± 0.7

13.9 ± 0.7

3.5 ± 0.2

3.5 ± 0.2

6.4 ± 0.3

6.4 ± 0.3

11.4 ± 0.6

11.4 ± 0.6

4.7 ± 0.2

4.7 ± 0.2

8.2 ± 0.4

8.2 ± 0.4

14.5 ± 0.7

14.5 ± 0.7

Engine at low idling

18.6 – 20.6 {190 – 210}

Min. 18.1 {Min. 185}

Engine at high idling

20.1 – 21.6 {205 – 220}

Min. 19.6 {Min. 200}


18.6 – 20.6 {190 – 210}

Min. 18.1 {Min. 185}


20.1 – 21.6 {205 – 220}

Min. 19.6 {Min. 200}

18.6 – 20.6 {190 – 210}

Min. 18.1 {Min. 185}


20.1 – 21.6 {205 – 220}

Min. 19.6 {Min. 200}


3.73 – 4.41 {38.0 – 45.0}

Min. 3.53 {Min. 36.0}


4.02 – 4.71 {41.0 – 48.0}

Min. 3.92 {Min. 40.0}


4.02 – 4.71 {41.0 – 48.0}

Min. 3.92 {Min. 40.0}

FORWARD 1st FORWARD 2nd FORWARD 3rd REVERSE 1st REVERSE 2nd REVERSE 3rd FORWARD 1st FORWARD 2nd FORWARD 3rd REVERSE 1st REVERSE 2nd REVERSE 3rd


Assist pump relief pressure

Oil leakage from cylinder

Work equipment

Work equipment pressure

Front pump relief pressure

Standard value


Lock-up switch OFF

Item

Lock-up switch ON

Power trainl

Category

D475A-3

• Hydraulic oil temperature: 45 – 55°C • All work equipment control levers at HOLD • Hydraulic oil temperature: 45 – 55°C • Lever, stroke end

• Hydraulic oil temperature: 45 – 55°C • Engine at high idling • Measure oil leakage during 1 minute when cylinder is relieved

Unit

km/h

MPa {kg/ cm2}

cc/ min

Ripper tilt cylinder

D475A-3

20-5 4



Model Category

Item

D475A-3

RAISE

Measurement posture

Blade lift (Single tiltdozer specification) (Dual tiltdozer specification)

LOWER RAISE

Measurement posture

Low idling

13.0 – 18.0

Max. 20.0

High idling

3.6 – 4.6

Max. 5.0

Low idling

1.0 – 1.5

Max. 2.0

High idling

1.0 – 1.5

Max. 2.0

Low idling

18.0 – 25.0

Max. 28

High idling

5.5 – 6.5

Max. 8.0

Low idling

1.2 – 1.8

Max. 2.8

High idling

1.2 – 1.8

Max. 2.0

Low idling

14.1 – 17.3

Max. 19.0

High idling

4.3 – 5.3

Max. 7.0

Low idling

9.7 – 11.9

Max. 14.0

High idling

3.0 – 3.6

Max. 5.0

LOWER

sec

• Hydraulic oil temperature: 45 – 55°C • Blade: No load • Blade in contact with ground – Raised to max. height

Blade speed

Measurement posture

Left tilt

Work equipment

Blade lift (Superdozer specification)

Blade tilt (Single tiltdozer specification)

Right tilt

sec

• Hydraulic oil temperature: 45 – 55°C • Blade: No load • Full left tilt – Full right tilt

Left tilt

Measurement posture

Blade tilt (Dual tiltdozer specification)

Low idling High idling

Right tilt

sec


4

Permissible value

Unit

sec

• Hydraulic oil temperature: 45 – 55°C • Blade: No load • Blade in contact with ground – Raised to max. height

20-6

Standard value



D475A-3



Model Category

Item

D475A-3

Left tilt

Measurement posture

Blade tilt (Superdozer specification)

Blade pitch (Dual tiltdozer specification) Serial No.: 10601 to •

Low idling

—

—

High idling

4.0 – 5.0

Max. 7.0

Low idling

—

—

High idling

3.0 – 3.6

Max. 6.0

Low idling

8.0 – 12.0

Max. 14.0

High idling

2.7 – 3.7

Max. 4.5

Low idling

10.0 – 13.0

Max. 15.0

High idling

3.8 – 4.8

Max. 5.5

Low idling

—

—

High idling

7.0 – 9.0

Max. 10.0

Low idling

20.0 – 30.0

Max. 35.0

High idling

8.3 – 9.3

Max. 10.5


Blade pitch (Dual tiltdozer specification) Serial No.: • and up

Right tilt Pitch dump

Measurement posture

Pitch back

sec

• Hydraulic oil temperature: 45 – 55°C • Blade: No load • Full pitch back – full pitch dump


Measurement posture

Blade pitch (Superdozer specification)

Pitch dump


Pitch back

sec

sec


Pitch back

Blade speed

Pitch dump

Measurement posture

Work equipment

Permissible value

Unit

sec


D475A-3

Standard value


20-7 4



Model Category

Item

D475A-3 Standard value

Permissible value

Low idling

7.4 – 9.0

Max. 12.0

High idling

2.2 – 2.8

Max. 4.0

2.2 – 3.2

Max. 5.0

High idling

2.0 – 3.0

Max. 4.0

Low idling

15.7 – 19.1

Max. 24.0

High idling

4.8 – 5.8

Max. 7.0

10.0 – 15.0

Max. 18.0

High idling

3.5 – 4.5

Max. 5.0

Low idling

Max. 10.0

Max. 10.0

High idling

Max. 1.8

2.5

Low idling

Max. 12.0

Max. 12.0

Max. 2.0

3.0

sec

Max. 0.5

1.5

mm/ min

Max. 150/15

Max. 300/15

Measurement conditions RAISE

Measurement posture

Unit

Ripper speed

• Hydraulic oil temperature: 45 – 55°C • Lowest shank hole • Ripper in contact with ground – Raised to max. height

LOWER

Ripper lift

Tilt in

Measurement posture

Low idling

Blade (Single tiltdozer specification) (Dual tiltdozer specification)

Time lag

Work equipment

Tilt out

Ripper tilt • Hydraulic oil temperature: 45 – 55°C • Lowest shank hole • Ripper in contact with ground – Raised to max. height • Hydraulic oil temperature: 45 – 55°C • Raise blade to maximum height, then lower blade and measure time taken from point where blade contacts ground to point where idler comes off ground

Low idling

sec

sec

sec

Blade (super dozer specificaiton)

• Hydraulic oil temperature: 45 – 55°C • Raise blade to maximum height, then lower blade and measure time taken from point where blade contacts ground to point where idler comes off ground

Ripper

• Hydraulic oil temperature: 45 – 55°C • Raise ripper to maximum height, then High lower ripper and measure time taken from idling point where ripper contacts ground to point where final drive comes off ground

sec High idling

Hydraulic drift

Measurement posture

Blade lif

• Hydraulic oil temperature: 45 – 55°C • Engine stopped • Raise blade to maximum height, then measure hydraulic drift for 15 minutes at bottom edge of blade (change in height h)

20-8 4

D475A-3

TESTING

AND ADJUSTING

STANDARD Systerr

STANDARD

:onnector No.

;pectiol lethoc

Judgement If the below.

Fuel control dial

Deceleration potentiometer

Neutral limit switch

cancel

Right bank engine speed sensor

Left bank engine speed sensor

FCD female)

D475A-3

PARTS

condition is as shown it is normal.

/

Measurement conditions in the

table

4.0 - 6.0 kR

(1) - (3)

Between

(I) - (2)

0.25 - 7.0 kQ

Between

(2) - (3)

0.25 - 7.0 kR

I


in the

table

1) Turn starting switch OFF. 2) Disconnect connector.

If the below.


in the

table


If the below,


in the

table


If the below,


FCS (male)

TL2 (male)

212 (male)

El6 (male)

I

GCR (male)

GCL (male)

I

IBetween

If the below, El2 (male)


If the below,

(1) - (2)

I

condition is as shown it is normal. (1) - (2)

Between

(3) - (5)

Between

(3) - (6)

I

in the

table

I

in the

1

in the

table

200 - 400 R Min.

I


1 MQ

Max.




table

500 - 1,000 R

(I) - (2)

1 Between

I

500 - 1,000 R


Between

If the below. LH governor cut relay

RELATED

table

1 Between

If the below, RH governor cut relay

TABLE FOR ELECTRICAL

VALUE TABLE FOR ELECTRICAL RELATED PARTS

Name of component

Buzzer switch

VALUE

1 R

in the

table


20-9

STANDARD


T

Syster n

Name of component

Rack position sensor

r

(Zonnector

lspectiol

No.

nethoc

VALUE TABLE FOR ELECTRICAL RELATED PARTS

Judgement

If the condition is as shown below, it is normal. El3

Pre-stroke solenoid

Rack position sensor

Governor solenoid

El5 (male)

El4 (male)

Between

(3) - (2)

o-o.1

v

Between

(4) - (2)

o-o.1

v

1

Between

(I) -

(2)

(1) - (2)

in the

I

in the


table


10 - 21 n

1

If the condition is as shown below, it is normal.

in the

table

1) Insert Tadapter. 2) Turn starting switch ON.


in the

table


table

I) Turn starting switch OFF. 2) Disconnect connector.

table

I) Insert Tadapter. 2) Turn starting switch OFF.

E9

El1 (male)

ElO’ (male)

Between

(1) - (2)

10 - 21 R

Between

(1) - (2)

1 Between

(7) - (8) (16)1

in the

IO - 21 52


Back-up power source


table

10 - 21 R

If the condition is as shown below, it is normal. Between

table

0.1 - 4.4 v

(1) - (2)

If the condition is as shown below, it is normal. Pre-stroke solenoid

in the

1 Between

If the condition is as shown below, it is normal. Governor solenoid


table

in the

20 - 30 v

I

El1 Switch power source

20-l0

If the condition is as shown below, it is normal. Between (9)(17) - (8)(16)

in the

20 - 30 v

table


D475A-3

TESTING

Systen

STANDARD

AND ADJUSTING

r

Name of component

CIonnector

3pEdiO~

No.

lethod

VALUE

TABLE

Judgement

FOR ELECTRICAL


If the below,


PARTS


table

If the below,

RELATED

in the

table

in the

table


Governor cut relay Fi

El1

I

Governor cut relay L

I

Between (5) - (14)

If the below,

Solenoid power source R

When

normal

When abnormality occurs

(1) - (21)

I 20 - 30 v Max.


Between

/

in the


1 V

table

20 - 30 v

1


E21 If the below.

Solenoid power source

L

Between If the below,

Governor solenoid

R

L

E21 (female)

If the below,

Engine speed sensor

Engine speed sensor

Potentiometer power

source

D475A-3

E21

If the below,

A

E31 B

(2) - (14)

(3) - (14)

(6) - (16)

in the

table


in the

table


in the

table


in the

table


in the

table

1) Insert Tadapter. 2) Start engine. t Use AC range of tester.

table

1) Insert Tadapter. 2) Start engine. * Use AC range of tester.

table


0.5 - 3.0 v

in the

0.5 - 3.0 v


Between


4.5 - 5.4 v


Between

If the below,

(16) - (21)

table

10 - 21 R


Between

If the below,

(IO) - (20)

in the

10 - 21 R



(9) - (19)


10 - 21 R


Between Rack position sensor power source

(8) - (18)

table

10 - 21 R


Between

Pre-stroke solenoid L

(7) - (17)

in the

20 - 30 v



Pre-stroke solenoid R

(12) - (21)



Governor solenoid


in the

4.6 - 5.4 V

20-11

TESTING

T

Systern

AND ADJUSTING

STANDARD

T

Name of component

Connector No.

SPeCti


Judgement

iethc

position sensor R

1 Between

(7) - (16)

1

1 Between

(17) - (6)

1

in the

E31 L

Between

(8) - (16)

Between

(18) - (6)

o-o.1

I

I

I) Insert T-

I table

1) Insert Tadapter. 2) Start engine.

table

1) Insert Tadapter. 2) Start engine. 3) Fuel control dial at MAX.

0.1 - 4.4 v o-o.1

L

v

in the

I

I

If the condition is as shown below. it is normal.

in the

table



in the

table



in the

table


Fuel control dial

Deceleration potentiometer

E31 E32

Engine water temperature sensor

S-NET

Between

E41

E32 (5) - E31 (16)


(6) (12) - (IO)

10.3 - 5.0 V 1 in the

table

4.0 - 10.0 v

Transmission R switch

20-12

I) Insert Tadapter. 2) Turn starting switch ON.


in the

table



in the

table



in the

table

I) Insert Tadapter. 2) Start engine.

Service switch

Transmission F switch

PARTS

adapter. 2) Start engine.

v

in the


Machine controller command

table

0.1 - 4.4 VI


Rack position

RELATED


table


Rack

sensor

VALUE

E51

D475A-3

TESTING

T

Systen 1

STANDARD

AND ADJUSTING

Name of component

--i Zonnector No.

VALUE

lspectiol nethoc


Judgement

RELATED

PARTS


table


in the

table



in the

table

I) insert Tadapter. 2) Start engine.


in the

table



in the

table


Transmission 1 switch

Transmission 2 switch E51


Super dozer specification selection signal

1 Between

(15) - (1)

1


Starting switch START signal

Startiartigo;witch Between (18) - (11

St”,:i ;T;;tc

1V

Max.

h

in the Max.

I

1) Insert Tadapter.

table 1 V

20 - 30 v


in the

table



in the

table


Buzzer cancel switch

E52

Model selection signal

D475A-3

i,f.i,lt

20-30V

1

20-l 3

TESTING

Systerr

STANDARD

AND ADJUSTING

Name of componer 1t

lonnector No.

;pectior lethoc

condition

is as shown Direction

If the below,

in the

table

Max.

1 L2

at N

Operated to FORWARD

Min.

1 MR

-

Min.

1 MR

Between (l)(2) - chassis

in the

Transmissic In 2 oil pressu Ire switch

I

I

I

I

If the below,


in the

table

I) Disconnect connector. 2) Start engine.

If the below,


in the

table

I) Disconnect connector.

TM1 (male)

TM2 (male)

Between (1) - (2)

If the below,

Torque converter speed sen! sor

Min.

1 MR

2nd selected

Min.

1 MR

Max.

-


in the

engine.

1 R table

1) Disconnect connector. 2) Start engine.

TM3 (male) Max.

-

If the below,


in the

Note:

During gear-shifting, the resistance rise above 1 R temporarily.

If the below,


1 R table


TMM (male)

TCI (male)

1 Between

(1) - (2)

Between (l)(2) -chassis

20-14

2) Start

1st or 3rd selected

Between (l)(2) - chassis

Transmissic 3n oil modulating pressure svvitch


TMR (male)

Between (l)(2) -chassis

Transmissic In 3 oil pressL Ire switch


table

I

Transmissic In 1 oil pressu Ire switch

PARTS

,


I

RELATED


table

it is normal.

Between (1) - (2)

TMF (male)

I

Transmissic )n R oil press1 Ire switch


Judgement If the below,

Transmissic In F oil pressu Ire switch

VALUE

1

in the

may

table

500 - 1,000 R Max.

I) Turn starting switch OFF.

1

2) Disconnect connector.

1 MR

D475A-3


Blade left tilt oil pressure switch

Blade right tilt oil pressure switch

Ripper RAISE oil pressure switch

Ripper LOWER oil pressure switch

Ripper TILT IN oil pressure switch

D475A-3

TLS (male)

TRS (male)

RPU (male)

RPD (male)

RTI (male)

Measure voltage Measure resistance Measure resistance

BLD (male)

Measure resistance

Machine controller system

Blade LOWER oil pressure switch

BLU (male)

Measure resistance

Blade RAISE oil pressure switch

SS3

Measure resistance

Acceleration sensor

Connector Inspection No. method

Measure resistance

Name of component

Measure resistance

System

STANDARD VALUE TABLE FOR ELECTRICAL RELATED PARTS


Judgement table If the condition is as shown in the table below, it is normal. Between (1) – (2)

7.0 – 9.0 V

Between (2) – (3)

1.25 – 3.75 V

If the condition is as shown in the table below, it is normal. Between (1) – (2) Between (1)(2) – chassis

Blade lever at HOLD Min. 1 MΩ Blade lever at RAISE

Max. 1 Ω

—

Min. 1 MΩ


Blade lever at HOLD Min. 1 MΩ Blade lever at LOWER

Max. 1 Ω

—

Min. 1 MΩ


Blade lever at HOLD Min. 1 MΩ Blade lever at left tilt

Max. 1 Ω

—

Min. 1 MΩ


Blade lever at HOLD Min. 1 MΩ Blade lever at right tilt

Max. 1 Ω

—

Min. 1 MΩ


Ripper lever at HOLD Min. 1 MΩ Ripper lever at RAISE

Max. 1 Ω

—

Min. 1 MΩ


Ripper lever at HOLD Min. 1 MΩ Ripper lever at LOWER

Max. 1 Ω

—

Min. 1 MΩ


Ripper lever at HOLD Min. 1 MΩ Ripper lever at TILT IN

Max. 1 Ω

—

Min. 1 MΩ









20-15 4


Left blade cylinder angle sensor

CSL (male)

Measure resistance


Judgement table If the condition is as shown in the table below, it is normal. Between (1) – (2)

Ripper lever at HOLD Min. 1 MΩ Ripper lever at TILT BACK

Max. 1 Ω

—

Min. 1 MΩ

Between (1)(2) – chassis

Blade lever top button switch

Torque converter lockup solenoid

Backup alarm relay

P01 (female) P03 (male)

P02 (female) P03 (male)

LU2 (male)

BB5 (male)

Measure voltage Measure resistance

CSR (male)

Measure resistance

Right blade cylinder angle sensor


If the condition is as shown in the table below, it is normal. Between — 2.0 – 3.0 V (2) – (1) All work equipment Between control levers at HOLD 0.8 – 1.2 V (3) – (1) At ripper RAISE 1.5 – 2.0 V relief


If the condition is as shown in the table below, it is normal.


Between (1) – (3)

4.0 – 6.0 V

Between (1) – (2)

0.25 – 7.0 V

Between (2) – (3)

0.25 – 7.0 V


Blade lever front button switch

20-16

HPS

Measure resistance

Machine controller system

Work equipment circuit oil pressure sensor

RTB (male)

Measure voltage

Ripper TILT BACK oil pressure switch

Connector Inspection No. method

Measure voltage

Name of component

Measure resistance

System


Between (1) – (3)

4.0 – 6.0 V

Between (1) – (2)

0.25 – 7.0 V

Between (2) – (3)

0.25 – 7.0 V

If the condition is as shown in the table below, it is normal. Between P03 – P01

Switch released

Min. 1 MΩ

Switch pressed

Max. 1 Ω

If the condition is as shown in the table below, it is normal. Between P03 – P02

Switch released

Min. 1 MΩ

Switch pressed

Max. 1 Ω

If the condition is as shown in the table below, it is normal. Between (1) – (2)

40 – 80 Ω

Between (1) (2) – chassis

Min. 1 MΩ

If the condition is as shown in the table below, it is normal. Between (1) – (2)

200 – 400 Ω

Between (3) – (5)

Min. 1 MΩ

Between (3) – (6)

Max. 1 Ω






D475A-3 20-16 4

TESTING

System

STANDARD

AND ADJUSTING

Name of component

Zonnector No.

spectior iethoc

VALUE

TABLE

Judgement

FOR

UNL (male)

Between Between

(1) - (2) (I) (2) - chassis

If the condition is as shown below, it is normal. Demand solenoid

PCV (male)

Pitch back solenoid

PPB (male)

PPD (male)

TLL (male)

TLR (male)

Pitch back assist solenoid

PBA (male)

PDA (male)

Dual tilt selection solenoid

D475A-3

PST (male)

table

20 - 60 R

Between

(1) (2) - chassis

Min. in the

table

(1) - (2)

20 - 60 a

Between

(1) (2) - chassis

Min. in the

table

(I) - (2)

20 - 60 R

Between

(1) (2) - chassis

Min. in the

table

(I) - (2)

20 - 60 R

Between

(1) (2) - chassis

Min.

(1) (2) - chassis

Between

(1) - (2)

Between

(1) (2) - chassis

Between

(I) - (2)

Between

(1) (2) - chassis

Between

(1) - (2)

Between

(1) (2) - chassis

table

10 - 40 n

table

IO-40R

table

IO-40n



1 MR

in the

table

IO-40R Min.


1 MR

in the

Min.


1 MR

in the

Min.


1 MR

in the

Min.


1 MR

Between

Between


1 MR

Between

(I) - (2)


1 MR

Between

If the condition is as shown below, it is normal. DST (male)

in the

(I) - (2)

Between


1 MR

Between

If the condition is as shown below, it is normal. Pitch selection solenoid

table

Min.

If the condition is as shown below, it is normal. Pitch dump assist solenoid

in the

(I) (2) - chassis


PARTS

1 MR

Between

If the condition is as shown below, it is normal. Right tilt limit solenoid

40 - 80 R Min.

40 - 80 R

If the condition is as shown below, it is normal. Left tilt limit solenoid

table

(I) - (2)

If the condition is as shown below, it is normal. Pitch dump solenoid

in the

Between


RELATED


table

If the condition is as shown below, it is normal. Unload solenoid

ELECTRICAL


1 MR

20-17



Systen

Name of component

T

C:onnector

Judgement

No.


Controller power source

Between

(7) (13) - (6) (12)


Torque converter lock-up solenoid

1

Between

(1) - (6)(12)


table in the

table

20 - 30 v in the

table

~%i~~na’~Max’Iv 1


High idling, drrectronal 2. _ 3. v


in the

table



in the

table



in the

table



in the

table



in the

table



in the

table



in the

table


Pitch back solenoid

Pitch dump solenoid


Ml1

Left tilt limit solenoid

Right tilt limit solenoid

Pitch dump assist solenoid

Pitch back assist solenoid

Solenoid power source

1 Between M21

Demand solenoid

20-18

(I) (12) - (11) (21)


t”“ir,;

1 20 - 30 V 1 in the

table


D475A-3



Systen

Name of component

Unload solenoid

Pitch selection solenoid

T Clonnector No.

7

Judgement

khod


Dual tilt selection solenoid

Transmission R switch

D475A-3

Max. 1 V

Pitch ooerated

20 - 30 v I

2!) Start engine.

,

1I) Insert T-


.Blade lever at HOLD

Max. 1 V

Dual tilt operated

20 - 30 V

Economymode OFF Between (I’) - (11)(21) Economy mode 2

adapter.

;?) Start engine.

I) Insert Tadapter. d2) Turn starting switch ON. 3) Fuel control dial at MAX.

00 - 00 V 00 - 00 v

If the condition is as shown in the table below, it is normal. Between (2) - (17)

Rock selection mode switch

Transmission F switch

Blade lever at HOLD

)gndsaep:e~-

1

I


Acceleration sensor

Kser power source

I

Between tg) - (lg)

Engine command signal

zer power source

) ~~~~e~~

2!) Start engine.

Blade lever at RAISE 20 - 30 V


I

1

Max. 1 V

Blade lever at HOLD

Between 14) - (15)

Between (8) - (18) M21


table

1.25 - 3.75 V

I





I) Insert T-

Between (6) - (16)

20 - 30 v

1

adapter. 2) Turn starting switch ON.

M31 If the condition is as shown in the table below, it is normal. Between (7) - (16)

4.25 - 5.75 V

If the condition is as shown in the table below, it is normal. Between (8) chassis

Direction at Neutral

Max. 1 V

chassis


Operated to FORWARD 20 - 30 V

If the condition is as shown in the table below, it is normal. B7;y-r


Direction at Neutral

Max. 1 V


Operated to REVERSE 20 - 30 V

20-19 0



Systen

Name of component

Connector No.


Judgement table If the condition is as shown in the table below, it is normal.


Between (9) chassis

2nd or 3rd selected

Max. 1 V

1st selected

20 - 30 v

I) Insert T-

adapter. 2) Stat-t engine.



Between (19) chassis

1st or 3rd selected

Max. 1 V

2nd selected

20 - 30 v




Between (IO) chassis

1st or 2nd selected

Max. 1 V

3rd selected

20 - 30 v


If the condition is as shown in the table below, it is normal. Transmission modulating switch

M31

Between (20) chassis Note:

20 - 30 v

Engine running

Max. lV(Note)

Left blade cylinder angle sensor


Right blade cylinder angle sensor


Blade RAISE oil pressure

Blade LOWER oil pressure switch

Blade left tilt oil pressure switch

(11) - (16)

1 Between (12) - (16) 1

Work equipment circuit pressure sensor

20-20

Engine stopped

During gear-shifting, the voltage rise to 20 - 30 V temporarily.

Between

M32

1) Insert Tadapter.

may

in the table


1.5 - 3.5 v in the table

1.5 - 3.5 v

I



in the table

1) InsertTadapter. 2) Start engine.


in the table



in the table


Between (6) chassis

Blade lever at HOLD

Blade lever at LOWER Max. 1 V

If the condition is as shown below, it is normal. Between (15) chassis

20 - 30 V

in the table

Blade lever at HOLD

20 - 30 V

Blade lever at left tilt

Max. 1 V

I) Insert Tadapter. 2) Stat-t engine.

D475A-3



Systen

Name of component

lonnector No.

SpCliOI

Judgement

iethod


Blade right tilt oil pressure switch

Between (8) chassis

Between (2) chassis

Between (IO) chassis

Bemean

(3) chassis M32

Ripper TILT BACK oil pressure switch

(16) chassis

at

Between (7) chassis

Ripper lever at LOWER

Ripper lever

Between

Rippe;F;r

at

Between (14) chassis

M4

TILT BACK

(4) (12) - chassis

M51

in the table

v

in the table

in the table 4.0 - 10.0 v in the table

Max. 1 V in the table 7.0 - 9.0 v in the table

Oil level normal

20 - 30 v

Oil level abnormal

Max. 1 V

(1) - chassis

(2) - (IO)


Max. 1 V

When switch is ON

(9) - chassis

I


Max. 1 V

20 - 30 V



Max. 1 V

When switch is OFF


in the table

Ripper lever at HOLD 20 - 30 V

- Ripper lever at


Hydraulic oil level sensor


Max. 1 V

at HOLD 20 - 30


Sensor 8 V power source

in the table




D475A-3

Ripp;;irEer


1) insert Tadapter. 2) Start engine.



S-NET

Torque converter speed sensor

Max. 1 V


Ripper TILT IN oil pressure switch

Engine speed sensor

20 - 30 V

Blade lever at right tilt


Ripper LOWER oil pressure switch

in the table

Blade lever at HOLD


Ripper RAISE oil pressure switch


table

in the table 0.5 - 3.0 v in the table 0.5 - 3.0 v

1) Insert Tadapter. 2) Turn starting switch ON. 1) Insert Tadapter. 2) Turn starting switch ON.

1) Insert Tadapter. 2) Turn starting switch ON. 1) Insert Tadapter. 2) Turn starting switch ON.

1) Insert Tadapter. 2) Start engine. Ir Use AC range of tester. 1) Insert Tadapter. 2) Start engine. k Use AC range of tester.

20-21



Name of component

r

C' onnector No.

Judgement


table

I) Insert Tadapter. !) Turn starting switch ON.


t$,“,“eJP switch

REVERSE slow mode switch

zi







M51 1-1




1) InsertTadapter. 2) Turn starting switch ON.



Pitch back switch

Pitch dump switch

7

20-Z 0

D475A-3

TESTING

Systerf

STANDARD

AND ADJUSTING

Name of component

onnector No.

VALUE

ipectior

Judgement

ethod If the below,

Power train (torque converter) oil temperature sensor

Fuel level sensor

Radiator water level sensor (main)

Radiator water level sensor (dual)

Between (1) - (2)

table

Water

t;?;erature 0

A12proo.

Water

tT;gerature

A8ppr00.

1) Turn starting switch OFF. !) Disconnect connector.

A4p;;p,x. A;;~oo.


in the

table


If the below,


in the

table



in the

table

Max.

1 Q


453 (male)

422 (male)

;I

If the below, 405 (male)

Between (1) - (2)

If the below, DRT (male)

404 (male)

ANB

Float at upper limit Float at lower limit


Between (1) - (2)



Between (1) - (2) If the below,

Alternator

PARTS

If the below,

If the below, Engine oil level sensor

in the

A3y;roo.

Water

RELATED


table

temperature 1oo”c temperature 90°C temperature 35°C

Water 402 (male)

FOR ELECTRICAL

condition is as shown it is normal. Water


TABLE



1 Between terminal

R and chassis

Min. in the

Max.

1 MR table

1 Q

Min.

1 MR

in the

table

Max.

1 Q

Min.

1 MQ

in the

table

127.5 - 29.5 VI



1) Start engine. (Run at above mid-range speed)

*If the batten/ is old, or after starting in cold areas, the voltage may not rise for some time. If the below, Engine oil pressure sensor

D475A-3


in the

table


20-23



Syster

Name of component

Zonnector No.

Air cleaner clogging sensor

lspediol nethoc

Judgement


table


in the

table



in the

table


AFI AF2

Hydraulic oil temperature sensor

452 (male)

Between (I) - body

Oil temperature below 105°C

Max.

Oil temperature 105°C or above

Min 1 MD


I Service switch

S24

Front right lamp relay Front left lamp relay Working lamp relay Electrical intake air heater relay

BBI %:“’ %13e) (male) BB4 (male)

Switch

I

OFF

Alternator

CNI

1 Max. 1 R

1 Min. 1 MR -1

I Between (2) - (3)

I Min. I MD

/ Max. I R

1

I Between (4) - (5)

1 Max. I R

I Min. I MR

I

1 Between (5) - (6)

1 Min. 1 MD

1 Max. 1 R

1

If the condition is as shown below, it is normal. I Between

(11 - (2)

I

1 Between

(3) - (5)

1

1 Between

(3) - (6)

I

(I) - (2)

in the

table

200 - 400 R Min.

I

I

1 MR

Max.

in the

20-24

oil


I

1 Q table

1) Insert Tadapter. 2) Turn starting

20 - 30 v

switch

ON.


in the

table

1) Insert Tadapter.


in the

table

I) Insert Tadapter.

Between (4) - (2)

Engine

stopped

Engine

running

Max.

1 V

27.5 - 29.5 V


in the

table



in the

table


Radiator water leve sensor

Engine level sensor


1 Between (1) - (2)

Between

Starting switch START signal

table

ON

1


Power source

in the

1 R

)

D475A-3

TESTING

Syster

AND

STANDARD

ADJUSTING

Name of component

T

Connector No.

VALUE

spectic lethot

TABLE

Judgement If the below,

FOR ELECTRICAL

in the

table

1) Insert

T-

adapter. 2) Turn

Engine oil pressure sensor

switch

below 0.05’MPa (0.5

PARTS


table


RELATED

Max.

starting ON.

1 V

kg/cm? If the below, Hydraulic oil temperature sensor

CNI

Between (8) - (2)

If the below,

Air cleaner Clogging sensor


If the below,

S-NET

Max.

Oil temperature 105°C or above

20 - 30 v

When air cleaner is normal

in the

Max.

1 V

table

1V

1) InsertTadapter. 2) Turn starting switch

1) Insert Tadapter. 2) Turn starting switch

(11) (12) - (IO)

in the

table


If the below,

Power train (torque converter) oi temperature sensor

4.0 - 10.0 v

D475A-3

Water temperature 70°C (level 1) Water temperature 83°C (level 2) Water temperature 94°C (level 3) Water temperature 98°C (level 4) Water temperature 102°C (level 5) Water temperature 108°C (level 6)


in the

table

Approx. 8.8 kR Approx. 6 kR

ON.


Approx. 4.4 kR Approx. 4.0 kR Approx. 3.5 kQ Approx. 3.1 kR in the

table


in the

table


CNl (female) CN2 (female) Between CN2 (2) CNI (2)

If the below, Fuel level sensor


Between CN2 (I) CNI (2)

ON.

1) Insert Tadapter. 2) Turn starting switch

If the below,

ON.

26 - 36 V


Between

table

Oil temperature below 105°C


Between (9) - (2)

in the


20-25



Systen

Name of component

C:onnector No.

;pectio1 rethoc

Judgement


table

If the below.


in the

table


If the below,


in the

table


If the below,


in the

table


Preheatins signal

Caution lamp

CNI CN2

Alarm buzzer I

Lighting signal

I

I

stoooed

I

If the below,


in the

table


If the below,


in the

table

1) Insert Tadapter. 2) Turn starting switch OFF.

CN4

Backup power source

Eween If the below,

Starting switch ON signal

(7) - (2)

20 - 30 V


Between

z&?gy

I

(I) - (2)

in the

I table


20 - 30 V

If the below,


in the

table

1) Insert Tadapter.

If the below,


in the

table

I) Insert Tadapter.


in the

table

1) InsertTadapter. 2) Turn starting switch ON.

START signal TO1

Alternator )I

If the below, Service switch

When switch is OFF

Between (5) - (2) I

I

If the below,

When switch is ON


20 - 30 V Max.

1 V

1

in the

I

table

1) Insert Tadapter. 2) Turn start_ing switch ON.

table


S-NET Between

Power source

so1

If the below,

4.0 - 10.0 v


Between

20-26

(9HlO) - (8)

(I) - (2)

in the

20 - 30 v

I

D475A-3

TESTING AND ADJUSTING Table of tools for testing, adjusting, and troubleshooting .................................................................................. 20-102 Measuring engine speed .......................................................................................................................................... 20-103 Measuring air supply pressure (boost pressure) .................................................................................................. 20-105 Measuring exhaust temperature ............................................................................................................................. 20-106 Measuring exhaust color ......................................................................................................................................... 20-107 Adjusting valve clearance ........................................................................................................................................ 20-108 Measuring compression pressure ........................................................................................................................... 20-109 Measuring blow-by pressure ................................................................................................................................... 20-110 Measuring engine oil pressure ............................................................................................................................... 20-111 Testing and adjusting fuel injection timing ........................................................................................................... 20-112 Testing and adjusting alternator belt tension ....................................................................................................... 20-113 Testing and adjusting belt tension for air conditioner compressor ................................................................... 20-113 Adjusting engine speed sensor ............................................................................................................................... 20-114 Adjusting fuel control dial and decelerator pedal ................................................................................................ 20-115 Measuring torque converter stall speed ................................................................................................................ 20-117 Measuring torque converter stall + hydraulic pump relief (full stall) speed ..................................................... 20-118 Measuring power train oil pressure ....................................................................................................................... 20-119 Simple procedure for testing brake performance ................................................................................................. 20-124 Adjusting full monolever and parking lever .......................................................................................................... 20-125 Adjusting brake pedal linkage ................................................................................................................................. 20-129 Adjusting clearance of idler ..................................................................................................................................... 20-131 Testing and adjusting track shoe tension .............................................................................................................. 20-132 Measuring and adjusting work equipment oil pressure ...................................................................................... 20-133 Testing and adjusting work equipment control circuit pressure ........................................................................ 20-136 Measuring PPC valve and pitch • tilt control valve output pressure .................................................................. 20-138 Adjusting PPC valve ................................................................................................................................................. 20-142 Measuring output pressure of demand solenoid valve ....................................................................................... 20-143 Measuring output pressure of ripper pin-puller solenoid valve ......................................................................... 20-144 Checking location of cause of hydraulic drift of blade and ripper ..................................................................... 20-145 Measuring leakage inside hydraulic cylinder ........................................................................................................ 20-146 Releasing remaining pressure in hydraulic circuit ............................................................................................... 20-147 Bleeding air from hydraulic cylinders .................................................................................................................... 20-147 Adjusting work equipment safety lever ................................................................................................................. 20-148 Procedure for selecting model ................................................................................................................................ 20-149 Procedure for adjusting blade tilt limit angle (dual tilt dozer specification) ..................................................... 20-150 Procedure for adjusting blade tilt limit angle (super dozer specification) ......................................................... 20-152

D475A-3

20-101 4

TABLE OF TOOLS TESTING

TABLE OF TOOLS FOR TESTING, TROUBLESHOOTING Check

or measurement

iterr

Symbol 1

ADJUSTING,

Part Name

Part No.

Air supply pressure (boost oressure)

A

799-201-2202

Boost

Water temperature, oil temperature, exhaust temperature

B

799-101-1512

Digital

temperature

1

799-201-9000

Handy

smoke

2

Commercially available

Smoke

meter

Exhaust

Valve

color

Compression

Remarks

I

-101 - 199.9 kPa I-760 - 1,500 mmHgI Negative pressure measurement type

kit gauge

-99.9

- 1.299”C

Discoloration: 0 - 70% (with standard color) i$s..;;oration x l/IO + Bosch

checker

1Feeler gauge

-2;1210 795-502-1205

Compression

gauge

AND

C

clearance

Intake: 0.43 mm, exhaust: 0.80 mm gauge

0 - 6.9 MPa (0 - 70 kg/c21

pressure E

Blow-by

FOR TESTING, ADJUSTING, AND TROUBLESHOOTING

AND ADJUSTING

F

pressure

1

G

Oil pressure

For 140 Engine

q

799-201-1604

Blow-by

checker

799-101-5002

Hydraulic

790-261-1203

Digital

799-101-5220

Nipple

0 - 4.9 kPa {O - 500 mmHzOI

tester

hydraulic

Series

Pressuregauge: 2.5, 5.9, 39.2, 58.8 MPa (25, 60, 400, 600 kg/cm*} Pressure

tester

gauge: 58.8 MPa I600

kg/cm*1

For 10 x 1.25 plug 07002-I 2 Blade

tilt control

Operating

angle

J

1023

O-ring

799-401-2320

Hydraulic

799-402-3800

Angle

79A-264-0021

Push-pull

Work

hydraulic equipment

Voltage,

resistance

Troubleshooting harness, sensor

Push-pull

drift

L


speed

M


N

79A-264-0211

Tester

799-601-8000

T-adapter

value

of wiring

P

0 - 294 N IO - 30 kg}

scale

0 - 490 N IO - 50 kg}

Scale

Stopwatch

I / 799-601-7360

20- 102

scale

/ 79A-264-0091

Stroke,

gauge: 0.98 MPa {IO kg/cm*}

gauge

K

effort

Pressure

gauge

/ Adapter

assembly

I For relay (5 pin)

D475A-3


MEASURING

MEASURING AIR SUPPLY PRESSURE (BOOST PRESSURE) careful not to touch any hot parts when A Be moving or installing the measuring tools. Ir *

re-

Measure the air supply pressure separately for the left and right banks. Measure the air supply pressure under the following conditions. . Coolant temperature: Within operating range . Power train oil temperature: Within operating range . Hydraulic temperature: 45 - 55°C

1.

Remove air supply pressure measurement (I) or (2) (PT1/8). . Plug (1): For right bank . Plug (2): For left bank

2.

Fit nipple @ (PT l/8) and hose @ of oil pressure gauge kit HI, then connect boost gauge A.

3.

Run the engine at a mid-range speed or above to bleed the oil from the hose. * Insert the connection of the hose and pressure gauge about half way, repeat the action to open the self-seal portion at the hose end, and bleed the oil. jr If Pm kit (A) is available, the air bleed coupling (790-261-1130) inside the kit can be

plugs

used. *

4.

If there is oil inside the hose, the gauge will not work, so always bleed the oil.

Run the engine at high idling to stall the torque converter, and read the air supply pressure (boost pressure). * For details of the procedure for stalling the torque converter, see MEASURING TORQUE CONVERTER STALL SPEED. * The air supply pressure (boost pressure) should be measured with rhe engine running at rated output. However,when measuring in the field, a similar value can be obtained at torque converter stall speed.

D475A-3

AIR SUPPLY PRESSURE (BOOST PRESSURE)


MEASURING

EXHAUST TEMPERATURE

MEASURING EXHAUST TEMPERATURE Await for the mainfold temperature to go down before removing or installing the sensor. * Measure the exhaust temperature under the following conditions. . Coolant temperature: Within operating range . Power train oil temperature: Within operating range . Hydraulic temperature: 45 - 55°C 1.

Remove

2.

Remove exhaust temperature (I) or (2) (PT l/8). l Plug (I): For right bank l Plug (2): For left bank

3.

Fit sensor @ of digital temperature gauge B, then connect digital temperature gauge B. * Clamp the wiring harness of the temperature gauge to prevent it from touching any hot part during measurement.

4.

Carry out actual work at engine high idling and measure the maximum value for the exhaust temperature during operation. * Use the PEAK mode of the digital temperature gauge. + The exhaust temperature varies greatly according to the ambient temperature (temperature of the engine intake air), so if any abnormal value is obtained, carry out temperature compensation using the following formula. . Compensation value [“Cl = Measured value + 2 x (20 - ambient temperature)

20- 106

the engine

right bank adiabatic measurement

cover. plug

D475A-3

MEASURING


EXHAUST COLOR

MEASURING EXHAUST COLOR Be careful not to touch any hot parts when A moving or installing the measuring tools. .

*

re-

When measuring in the field where there is no air or electric power supply, use Handy Smoke Checker Cl; when recording formal data, use Smoke Meter C2. Measure the exhaust color under the following conditions. Engine water temperature: Within operating range l

1. Measuring with Handy Smoke Checker Cl.

1)

Install fillter paper to Handy Smoke Checker Cl. 2) Insert the exhaust gas suction port into the exhaust pipe. 3) Accelerate the engine suddenly, and operate the handle of Handy Smoke Checker Cl at the same time to collect the exhaust gas on the filter paper. 4) Remove the filter paper and compare it with the scale supplied to judge the condition. 2.

Measuring with Smoke Meter C2 1) Insert-probe @ of Smoke Meter C2 into the outlet port of exhaust pipe, and tighten the clip to secure it to the exhaust pipe. 2) Connect the air hose and the socket of the probe hose and accelerator switch to Smoke Meter C2. * Keep the pressure of the air supply below 1.5 MPa {I5 kg/cm*}. 3) Connect the power cord to the AC socket. Sr When connecting the cord, check that the power switch of the Smoke Meter is OFF. 4) Loosen the cap nut of the suction pump and fit the filter paper. * Fit the filter paper securely so that the exhaust gas cannot leak. 5) Turn the power switch of Smoke Meter C2 ON. 6) Accelerate the engine suddenly, and depress the accelerator pedal of Smoke Meter C2 at the same time to collect the exhaust gas color on the filter. 7) Place the filter paper used to catch the exhaust gas color on top of at least 10 sheets of unused filter paper inside the filter paper holder, and read the value shown. I,

D475A-3

BVD00701

20-107 0

TESTING

AND ADJUSTING

ADJUSTING

VALVE

CLEARANCE

ADJUSTING VALVE CLEARANCE 1. Remove the cylinder head cover. * For details, see TESTING AND ADJUSTING, REMOVAL OF CYLINDER HEAD ASSEMBLY. 2.

Rotate the crankshaft in the normal direction to align the Rl.GTOP line on crankshaft pulley (I) with pointer (2) and set the RI cylinder to compression top dead center. * At the compression top dead center, the rocker arms for both the intake and exhaust move. If the rocker arms do not move, the cylinder is not at compression top dead center, so rotate the crankshaft one more turn and align the lines again. * Use the hexagonal shaft of the alternator drive pulley when cranking.

3.

Inset-t feeler gauge D between crosshead (4) and rocker arm (3) of the RI cylinder, adjust with adjustment screw (5) until the clearance is a sliding fit, then tighten locknut (6) to hold adjustment screw (5) in position. m Locknut: 58.8 + 5.9 Nm {S f 0.6 kgml +- After tightening the locknut, check the valve clearance again.

4.

After adjusting the RI cylinder at compression top dead center, turn the crankshaft 120” each time, align each TOP line on crankshaft pulley (1) with pointer (2), and adjust the clearance of the valves of each cylinder according to the firing order. * Firing order : RI - Ll - R5 - L5 - R3 - L3 - R6 - L6 - R2 L2 - R4 - L4

-__

71 --7

BVLOl316

@@@@@@ Ll

L2

L3

L4

LS

L6

BVD00704

20-l 08

D475A-3

TESTING

AND ADJUSTING

MEASURING PRESSURE

a

MEASURING

COMPRESSION

PRESSURE

COMPRESSION

When measuring the extremely careful not fold or any other hot fan belt or any other

compression pressure, be to touch the exhaust maniparts or get caught in the rotating parts.

1. Adjust the valve clearance. * For details, see ADJUSTING ANCE.

VALVE

2.

Warm up the engine so that the engine perature is 40 - 60°C.

3.

Remove nozzle holder assembly cylinder which is to be measured. * For details, see DISASSEMBLY BLY, REMOVAL OF NOZZLE SEMBLY.

(I)

CLEAR-

oil tem-

from

the

AND ASSEMHOLDER AS-

4.

Fit adapter 0 of compression connect compression gauge E.

5.

Disconnect governor solenoid connector El5 (1) of the right fuel injection pump and governor solenoid connector El1 (2) of the left fuel injection pump.

6.

Turn the starting switch on and set the monitor panel to monitoring code 1991. Ir For details, see MEASURING ENGINE SPEED.

7.

Crank the engine with the starting motor and measure the compression pressure. * Measure the compression pressure at the point where the pressure gauge indicator remains steady. * When measuring the compression pressure, measure the engine speed to confirm that it is within the specified range.

gauge

E, then

2

BVD00708

D475A-3

20- 109


MEASURING PRESSURE *

MEASURING

BLOW-BY PRESSURE

BLOW-BY

Measure the blow-by pressure under the following conditions. . Coolant temperature: Within operating range . Power train oil temperature: Within operating range . Hydraulic temperature: 45 - 55°C

1. Install nozzle (I) of blow-by checker F to blowby hose @ of the left bank, then block the hose connection. * Connect the short hose and throttle the outlet port.

2.

Install nozzle @ and hose (2) of blow-by checker hose (2) of the right bank, then connect blow-by checker F.

F to blow-by

3.

Run the engine at engine high idling and measure the value on the gauge when the torque converter is stalled. For details of the procedure for torque converter stall, see MEASURING TORQUE CONVERTER STALL SPEED. The blow-by should be measured with the engine running at rated output. However, when measuring in the field, a similar value can be obtained at torque converter stall. If it is impossible to check at rated output or stall speed, measure at high idling. In this case, the blow-by value will be about 80% of the value at rated output. Blow-by varies greatly according to the condition of the engine. Therefore, if the blowby value is considered abnormal, check for problems connected with defective blow-by, such as excessive oil consumption, defective exhaust gas color, and prematurely dirty or deteriorated oil.

20-110

D475A-3

TESTING

AND ADJUSTING

MEASURING PRESSURE *

MEASURING

ENGINE

OIL PRESSURE

ENGINE OIL

Measure the engine oil pressure under the following conditions. . Coolant temperature: Within operating range

1. Remove engine pressure pickup plug (I) (PT l/8).

2.

Fit nipple @ and hose @ of oil pressure gauge Gl, then connect to oil pressure gauge G2 (0.98 MPa {IO kg/cm21).

3.

Start the engine, and measure at low idling and high idling.

D475A-3

the oil pressure

20-111

TESTING

TESTING

AND ADJUSTING

AND ADJUSTING

FUEL INJECTION

TIMING

TESTING AND ADJUSTING FUEL INJECTION TIMING *

Carry out testing and adjusting fuel injection timing for the left and right banks at the same time.

Testing 1. Remove

the fuel injection

pump cover.

2.

Crank the engine to rotate the crankshaft in the normal direction and align 12” line (I) on the crankshaft pulley with pointer (2). Sr When doing this, check that line (3) on the coupling of the fuel injection pump is close to line (4) on the body. If line (3) on the coupling cannot be seen, rotate the crankshaft one more turn. * Use the hexagonal shaft of the alternator drive pulley when cranking.

3.

Check that line (3) on the coupling of the fuel injection pump is aligned with line (4) on the body.

Adjusting If the fuel injection timing is not correct, adjust as follows. 1. Loosen 2 sets of mounting bolts and nuts (5) in the oblong hole of the coupling and lock bolt (6) to make the coupling free.

*

2.

Rotate the coupling and align line (3) on the coupling with line (4) on the body.

3.

Tighten lock bolt (6) bolts and nuts (5). w Lock bolt: 157 Mounting bolt, 98.0 -

20-112

and 2 sets of mounting

n 0

- 196 Nm {IS - 20 kgm} nut: 122.6 Nm 18.5 - 9.5 kgm1

n

BVD00717

D475A-3

TESTING TESTING

AND ADJUSTING

AND ADJUSTING ALTERNATOR TESTING AND ADJUSTING FOR AIR CONDITIONER

BELT TENSION BELT TENSION COMPRESSOR

TESTING AND ADJUSTING ALTERNATOR BELT TENSION Testing . Measure deflection a of the belt when it is pushed with a finger force of approx. 58.8 N Iapprox. 6 kg1 at a point midway between the alternator pulley and the drive pulley. . Deflection a of belt: 20 + 2 mm Adjusting t If the belt tension is not correct, adjust as follows. 1. Loosen the mounting bolt and nut, mounting bolt (I), and locknut (2). 2.

Turn adjustment nut (3) and move alternator to adjust the tension of the belt.

3.

Tighten locknut (2), mounting mounting bolt and nut.

svooo71a

(4)

bolt (1) and the

TESTING AND ADJUSTING BELT TENSION FOR AIR CONDITIONER COMPRESSOR Testing . Measure deflection a of the belt when it is pushed with a finger force of approx. 58.8 N {approx. 6 kg1 at a point midway between the compressor pulley and the engine drive pulley. . Deflection a of belt: 20 f 2 mm Adjusting If the belt tension lows. Loosen 3 mounting

is not correct,

adjust

as fol-

bolts and nuts (I) and locknut

(2). Turn the adjustment nut and move air conditioner compressor (3) together with the bracket to adjust the tension of the belt. Tighten locknut nuts (I).

D475A-3

(2) and 3 mounting

bolts and

BVDOO720

TESTING

AND ADJUSTING

ADJUSTING SENSOR Ir

ADJUSTING

ENGINE

SPEED SENSOR

ENGINE SPEED

Adjust both left bank speed sensor (I) and right bank speed sensor (2) in the same way.

1. Screw in sensor body (3) so that the tip contacts ring gear (2). Ir Be careful not to damage the sensor tip or let iron particles stick to it. & Sensor thread: Gasket sealant (LG-6) 2.

After sensor body (3) contacts ring gear (4), turn it back 3/4 - 1 turn to adjust clearance a. . Clearance a: 1.2 - 1.5 mm

3.

Tighten locknut (5). m Locknut : 49.0 - 68.6 Nm (5.0 - 7.0 kgm}

*

When fixing the wiring in position, be careful that no excessive force is brought to bear on the sensor wiring.

BVD00723

20-114

D475A-3


ADJUSTING

ADJUSTING

FUEL CONTROL DIAL AND DECELERATOR PEDAL

FUEL CONTROL DIAL AND DECELERATOR PEDAL

BVD00739

1.

Outline of fuel control system . The speed signals from the fuel control dial

.

2.

and the decelerator pedal potentiometers are each input to the engine controller. The engine controller gives priority to the lower speed of the two input signals and sends a command to the fuel injection pump. Adjustment of the engine speed is all carried out by the decelerator pedal linkage.

Preparatory work 1)

2)

TV001043

Turn the starting switch on and set the monitor panel to monitoring code 1991. * For details, see MEASURING ENGINE SPEED. Start the engine, set the fuel control dial to the FULL position, and check that the engine speed is at least 1000 rpm. * If the engine speed is below 1000 rpm, adjust by extending installation dimension a of rod (I) to make the engine speed more than 1000 rpm.

D475A- 3

20-l 15

TESTING

AND ADJUSTING

ADJUSTING

3.

Adjusting decelerator pedal speed Set the fuel control dial at the high idling position, depress decelerator pedal (2) until it contacts the stopper, and check that the decelerator pedal speed is normal. . Decelerator pedal speed: 800 - 850 rpm * If the engine speed is not correct, adjust installation dimension a of rod 11). . Installation dimension a: 122 mm

4.

Adjusting high idling speed Set the fuel control dial to the high idling position and check that the high idling speed is correct. . High idling speed: 2000 f 50 rpm * If engine speed is too high: To remove the play in the decelerator pedal, set the engine speed to less than 1900 rpm with stopper bolt (3), then adjust it to the high idling speed. Ir If engine speed is too low: Adjust the high idling speed with stopper bolt (3).

20-116

FUEL CONTROL

DIAL AND

DECELERATOR

PEDAL

D475A-3

TESTING

MEASURING CONVERTER

A +

MEASURING

AND ADJUSTING

TORQUE STALL SPEED

TORQUE

CONVERTER

STALL SPEED

r

Make sure that the area around the machine is safe before starting the operation. Measure the torque converter stall speed under the following conditions. . Coolant temperature: Within operating range . Power train oil temperature: Within operating range . Hydraulic oil temperature: 45 - 55°C

1. Turn the starting switch ON and set the monitor panel to monitoring code [991. * For details, see MEASURING ENGINE SPEED. 2.

Start the engine low idling.

and set the fuel control

dial to

3.

Depress the brake pedal firmly, move the full monolever to 3 and the directional lever to F.

4.

Depress the decelerator pedal and set the fuel control dial to high idling.

5.

Let the decelerator pedal back slowly, run the engine at high idling, and stall the torque converter. Depress the brake pedal firmly during operation. For safety reasons, always keep your right foot on the decelerator pedal until the completion of the measurement operation.

A 6.

When the power train oil temperature gauge enters the red gauge, immediately return the full monolever to neutral.

7.

Repeat Steps 3 - 6 three times.

8.

Repeat Steps 3 - 5 again and measure the engine speed immediately the power train oil temperature gauge enters the red range. Ir After completion of the measurement, return the full monolever swiftly to neutral, and run the engine at high idling to lower the power train oil temperature.

D475A-3

20-l 17

TESTING

MEASURING

AND ADJUSTING

POWER TRAIN

OIL PRESSURE

MEASURING POWER TRAIN OIL PRESSURE AStop the machine on level ground, lower the work equipment completely to ground, then set the parking lever and safety lever to the LOCK position. Measure the power train oil pressure under the following condition. . Power train oil pressure: Within operating range Table of centralized pressure tions and gauges to use 40.

pick-up

port posi-

Gauge MPa {kg/cm*}

Measurement location

,

Torque converter port pressure

inlet

(IN)

2

Torque converter port pressure

outlet

(OCm

9

Torque converter clutch pressure

lock-up

(LU)

5.9 1601

4

Torque converter clutch pressure

stator

WJ

5.9

1601

5

Transmission pressure

main

5.9

1601

6


modulating

(TM)

5.9

{601

7


reducing

WI)

5.9

I601

8


lubrication

0.98

{IO)

9

Left steering

clutch pressure

(LC)

5.9 1601

10

Left steering

brake

(LB)

5.9

1601

11

Right

steering

clutch

pressure

(RC)

5.9

I601

12

Right

steering

brake

pressure

(RB)

5.9

I601

*

Installed

relief

pressure

2.5 {251 0.98

II01

inside the right cover of the floor.

1. Measuring

torque converter inlet oil pressure (IN) 1) Fit hose @ of oil pressure gauge Gl to pressure measurement nipple (I), then connect oil pressure gauge Gl (2.5 MPa {25 kg/cm?). 2) Start the engine and set all the functions of the full monolever to neutral. * Any position can be used for the speed range. 3) Measure the oil pressure at engine high idling.

D475A-3

20-119

TESTING

2.

MEASURING

AND ADJUSTING

Measuring

torque

converter

outlet

POWER TRAIN

OIL PRESSURE

oil pressure

(OUT) I) Fit hose @ of oil pressure gauge Gl to pressure measurement nipple (21, then connect oil pressure gauge Gl (0.98 MPa {IO kg/cm*)). 2) Start the engine and set all the functions of the full monolever to neutral. + Any position can be used for the speed range. the oil pressure at engine high 3) Measure idling.

3.

Measuring torque converter lock-up clutch pressure (LU) 1) Using the blade and ripper, raise the chassis to a height where the track can rotate freely.

A After lever 2)

3) 4)

raising the chassis, set the safety to the LOCK position. Fit hose 0 of oil pressure gauge Gl to pressure measurement nipple (3), then connect oil pressure gauge Gl (5.9 MPa I60 kg/cm2)). Start the engine and turn the lock-up mode switch ON. Run the engine at high idling, set the full monolever speed to Fl, rotate the track under no load, gradually raise the engine speed, and measure the oil pressure when the lockup display lamp lights up.

extremely careful A Be in the track or other

BVDOO741

not to get caught rotating parts dur-

ing the measurement.

4.

Measuring torque converter stator clutch pressure (SC) I) Fit hose @ of oil pressure gauge Gl to pressure measurement nipple (4), then connect oil pressure gauge Gl (5.9 MPa I60 kg/cm*}). 2) Start the engine and set all the functions of the full monolever to neutral. Sr Any position can be used for the speed range. 3) Measure the oil pressure at engine high idling.

20-120

D475A-3

TESTING

5.

6.

MEASURING

AND ADJUSTING

Measuring transmission main relief pressure 1) Remove oil pressure measurement plug (5) (PT1/8). 2) Fit nipple @ and hose @ of oil pressure gauge Gl, then connect oil pressure gauge Gl (5.9 MPa {SO kg/cm21). 3) Start the engine and set all the functions of the full monolever to neutral. -k Any position can be used for the speed range. 4) Measure the oil pressure at engine high idling. Measuring

transmission

modulating

I

POWER TRAIN

I

I

OIL PRESSURE

\ BVD00731

pressure

(TM)

1) Fit hose @ of oil pressure gauge Gl to pres-

2) 3)

7.

sure measurement nipple (6), then connect oil pressure gauge Gl (5.9 MPa 160 kg/cm*}). Start the engine. Measure the oil pressure when the full monolever is operated as follows at engine high idling. The torque converter is stalled during a Steps iv) - v), so depress the brake pedal firmly during operation. For safety reasons, always keep your right foot on the decelerator pedal until the completion of the measurement operation. Measure the pressure with the i) monolever set to 1st (speed range) + Neutral (direction). the pressure with the ii) Measure monolever set to 2nd (speed range) + Neutral (direction). the pressure with the iii) Measure monolever set to 3rd (speed range) + Neutral (direction). the pressure with the iv) Measure monolever set to 3rd (speed range) + FORWARD (direction). the pressure with the VI Measure monolever set to 3rd (speed range) + REVERSE (direction).

Measuring transmission reducing pressure (Fl) 1) Fit hose @ of oil pressure gauge Gl to pressure measurement nipple (7), then connect oil pressure gauge Gl (5.9 MPa {60 kg/cm?). 2) Start the engine and set the full monolever to 1st speed. Sr Set the directional lever and steering lever to the NEUTRAL position. 3) Measure the oil pressure at engine high idling.

D475A-3

20-121

TESTING

8.

9.

AND ADJUSTING

Measuring transmission reducing pressure 1) Remove oil pressure measurement plug (8) (PT1/8). 2) Fit nipple @ and hose @ of oil pressure gauge Gl, then connect oil pressure gauge G2 (0.98 MPa {IO kg/cm*}) . 3) Start the engine and set all the functions of the full monolever to neutral. * Any position can be used for the speed range. 4) Measure the oil pressure at engine high idling.

MEASURING

I

POWER TRAIN

I

I

OIL PRESSURE

\ "BVD067i4

Measuring left steering clutch pressure (LC) 1) Fit hose @ of oil pressure gauge Gl to pressure measurement nipple (9), then connect oil pressure gauge Gl (5.9 MPa 160 kg/cm*}). 2) Start the engine and operate the full monolever steering fully to the left. * Set the directional lever to the neutral position; any position can be used for the speed range. 3) Measure the oil pressure with the engine at low idling and high idling.

10. Measuring left steering brake pressure (LB) 1) Fit hose @ of oil pressure gauge Gl to pressure measurement nipple (IO), then connect oil pressure gauge Gl (5.9 MPa {60 kg/cm*}). 2) Start the engine and set all the functions of the full monolever to neutral. * Any position can be used for the speed range. 3) Measure the oil pressure with the engine at low idling and high idling.

11. Measuring right steering clutch pressure (RC) 1) Fit hose 0 of oil pressure gauge Gl to pressure measurement nipple (I I), then connect oil pressure gauge Gl (5.9 MPa (60 kg/cm*}). 2) Start the engine and operate the full monolever steering fully to the right. * Set the directional lever to the neutral position; any position can be used for the speed range. 3) Measure the oil pressure with the engine at low idling and high idling.

zo- 122

D475A-3


MEASURING

POWER TRAIN OIL PRESSURE

12. Measuring right steering brake pressure (RB) 1) Fit hose @ of oil pressure gauge Gl to pres-

2)

3)

sure measurement nipple (12), then connect oil pressure gauge Gl (5.9 MPa {SO kg/cm?). Start the engine and operate the full monolever steering fully to the right. * Any position can be used for the speed range. Measure the oil pressure with the engine at low idling and high idling.

D475A-3

20-123

TESTING

AND ADJUSTING

SIMPLE

PROCEDURE

FOR TESTING

BRAKE PERFORMANCE

SIMPLE PROCEDURE FOR TESTING BRAKE PERFORMANCE *

Carry out the simple test of the brake performance under the following conditions. . Coolant temperature: Within operating range . Power train oil temperature: Within operating range

1. Stop the machine on a level surface and set the blade and ripper to the travel posture. BVD00742

2.

Set the full monolever speed range to 2. A If it is set to 1, there will be excess load on the brakes, so always carry out this test in position 2.

3.

Run the engine at low idling, depress the brake pedal securely, then set the monolever direction to F. * Set the steering to the neutral position.

4.

Depress the decelerator pedal control dial to high idling.

5.

Release the decelerator pedal gradually and raise the engine speed to high idling. Check that the machine does not start to move. AThe torque converter is stalled, so depress the brake pedal firmly during operation. For safety reasons, always keep your right foot on the decelerator pedal until the completion of the measurement operation.

20-124

and set the fuel

D475A-3


ADJUSTING

ADJUSTING

FULL MONOLEVER

FULL MONOLEVER AND PARKING LEVER

AND PARKING LEVER

-..-..-__ -_-__-___

14

~‘Jt-___JlL’,

_/

BVD00743

D475A-3

20- 125

TESTING

AND ADJUSTING

ADJUSTING

t

Tighten the locknuts of the rods and cables securely, and bend the cotter pins securely.

1.

Adjustment of full monolever direction position 1) Remove lever knob (I) and boot (2). 2) Set parking lever (3) to the LOCK position, then set full monolever (4) direction to the neutral position. * If parking lever (3) is not installed, use a screwdriver to pull up lock (5) to the LOCK position (top position). 3) Adjust dimension a between the pins of rod (6), then connect to full monolever (4) and directional lever (7). . Dimention a between pins: 96.5 mm 4) Use rod (6) to adjust installation dimension b between the center of the tip of full monolever (4) and the tip of the steering boss. . Installation dimension b: 30 mm 5) Set directional lever (8) at the transmission end to the neutral position. 6) Connect cable (9) to directional lever (7) at the lever stand end and directional lever (8) at the transmission end. 7) Install boot (2) and lever knob (I).

2.

FULL MONOLEVER

AND PARKING

LEVER

EVDOO744

Adjustment of full monolever speed range 1) Adjust dimention c between the pins of rod (IO), then connect to full monolever (4) and speed lever (7). . Dimention c between pins: 95.5 mm 2) Set speed lever (12) at the transmission end to position 1. 3) Connect cable (13) to speed lever (I I) at the lever stand end and speed lever (12) at the transmission end. BVDOO74!

20-126

D475A-3

TESTING

3.

AND ADJUSTING

ADJUSTING

Adjustment 1 of full monolever steering (steering valve portion) 1) Adjust dimension d between the pins of left rod (13), then connect to steering valve (14) and intermediate lever (15). . Dimension d between pins: 437.5 mm 2) Adjust dimension e between the pins of right rod (161, then connect to steering valve (14) and intermediate lever (15). . Dimension e between pins: 431 mm 3) Check front-to-rear play f of intermediate lever (15). . Front-to-rear play f: 0.1 - 0.2 mm

4.

Adjustment 2 of full monolever steering (servo valve portion) 1) Insert cotter pin @ of servo valve (17) into adjustment hole g. + When adjusting the linkage, insert cotter pin @I into the adjustment hole g to lock the output spool of servo valve (17) at the neutral position. 2) Adjust dimension h between the pins of rod (18), then connect to intermediate lever (16) and servo valve (17). . Dimention h between pins: 84 mm j, Adjust with rod (18) so that cotter pin @ of servo valve (17) can be inserted smoothly. 3) Insert cotter pin @ of servo valve (17) into actuation hole j. * After adjusting the linkage, insert cotter pin @ into actuation hole j to set to a condition where the output spool of servo valve (17) can be actuated.

5.

Adjustment 3 of full monolever steering (full monolever portion) 1) Using pin 0, fix steering boss (19) and intermediate lever (20) in position, and set the steering of full monolever (4) to the neutral position. Sr For pin 0, use the part specified below or a 08 pin. Pin 0: 04205-10825

D475A-3

FULL MONOLEVER

dl

AND PARKING

‘.l,’

LEVER

!

I3

BVDOO746


ADJUSTING

FULL MONOLEVER AND PARKING LEVER

Ir

2)

3)

4) 6.

For pin 0, use the part (Part No.:0420510825) or a 08 pin. Adjust dimension k between the pins of rod (211, then connect to intermediate lever (20) and steering lever (22). . Dimention k between pins: 490 mm Adjust dimension m between the pins of rod (23), then connect to steering lever (22) and intermediate lever (24). . Dimention m between pins: 390 mm * Connect so that there is no slack in the input spool of servo valve (17). Remove pin (3).

Adjustment

of parking lever

I) Adjust dimension n between the pins of rod (25), then connect to parking lever (3) and lock (5). . Dimention n between pins: 211 mm Set parking lever (3) to the FREE position, 2) then adjust with rod (25) so that height p from the tip of parking lever (3) to mounting face of lever stand is dimension given below. . Lever height p: 285 f 5 mm 3) Set parking lever (3) to the LOCK position. 4) Connect cable (26) to lock (5) and brake valve lever (27). * Be careful that brake valve lever (27) is not being pulled. 5) Operate parking lever (3) between the FREE position and LOCK position several times and check that it moves smoothly. 6) Operate parking lever (3) between the FREE position and LOCK position and check that full monolever (4) is locked or released at the correct position. 7) Set parking lever (3) to the LOCK position. 8) Adjust so that neutral safety switch (28) is pushed in by amount q and is switched ON. . Pushing in amount q: 2.8 mm

20-128

BVD00749

D475A-3


ADJUSTING

BRAKE PEDAL LINKAGE

ADJUSTING BRAKE PEDAL LINKAGE

Tighten the locknuts of the rods and cables securely, and bend the cotter pins securely. 1.

Adjust installation dimension a of rod (I), then connect to valve lever (2) and intermediate lever (3). . Rod installation

dimension

a: 500.5 mm

BVD00752

2.

Adjust installation dimension c of damper (5) so that the travel of brake pedal (4) is dimension b. . Brake pedal travel b: 73 mm Damper installation dimension c: 42.5 mm l

D475A-3

20-129 0

TESTING

ADJUSTING

AND ADJUSTING

3.

Adjust installation dimension d of rod (6) at valve end, then connect to intermediate lever (3). . Rod installation dimension c: 1,125 mm * Screw joint (7) fully into the valve.

4.

Adjust installation dimension e of rod (8) at pedal end, then connect to brake pedal (4). . Rod installation dimension e: 198 mm

5.

Push rod (6) at valve end lightly towards the rear of the machine, then turn only joint (9) and connect rod (6) and rod (8).

6.

With brake pedal (4) at the brake RELEASED position, adjust dimension f between pins of rod assembly (IO) to adjust play of the brake pedal. . Pedal play: 1 - 5 mm (center of pedal) . Dimension f between pins of rod assembly: 1,301 mm * Turn joints (7) and (9) in the same direction at the same time when adjusting.

7.

With brake pedal (4) at the RELEASED

BRAKE PEDAL LINKAGE

10

BVD00754

position,

check that brake pedal (4) is in contact with damper (5).

20- 130 0

D475A-3

ADJUSTING


ADJUSTING IDLER

CLEARANCE

CLEARANCE OF IDLER

OF

The idler moves forward and backward under external pressure. When this happens, side guide (I) and guide plate (2) become worn. As they become worn, there is side play in the idler, or the idler turns at an angle, causing the track to come off or resulting in uneven wear, so adjust as follows.

Adjustment 1. Drive the machine for 1 - 2 m on flat ground, then measure clearance a (4 places: left, right, inside, outside) between the track frame and side guide (I). 2.

If clearance a is more than 3 mm, remove bolt (3), then take out shim (4), and adjust so that the clearance on one side is less than 0.5 mm. *

There are two types of shim (thickness: mm and 1.0 mm).

0.5 i

.-

I

I

BVDOO755

D475A-3

20-l 31

TESTING

TESTING

AND ADJUSTING

AND ADJUSTING

TRACK SHOE TENSION

TESTING AND ADJUSTING TRACK SHOE TENSION Testing 1. Drive the machine forward and stop on a horizontal surface. Jr Stop the machine without using the brake. 2.

Pull steel rod (I) between the idler and carrier roller, and measure clearance a from the bottom of the rod to the track shoe grouser. . Standard clearance a: 20 - 30 mm EVD00757

Adjusting * If the-track shoe tension follows. 1. Remove cover (2).

is not normal,

adjust as

2.

If tension is too high: Loosen plug (3) and release some of the grease. AThere is danger that the plug may fly out under the high internal pressure of the grease, so never loosen the plug more than 1 turn.

3.

If tension Pump in Ir If the chine

*

After complection of the adjustment, repeat the above procedure to check the tension again.

BVDOO758

is too low: grease through grease fitting (4). track tension is poor, move the mabackwards or forwards slowly.

EVD00759

ZO-132

D475A-3


MEASURING AND ADJUSTING WORK EQUIPMENT OIL PRESSURE

MEASURING AND ADJUSTING WORK EQUIPMENT OIL PRESSURE Installing oil pressure gauges ¤ Stop the machine on level ground, lower the work equipment completely to the ground, then set the parking lever and safety lever to the LOCK position. 1. Installing oil pressure gauge to front pump 1) Remove the control valve cover. 2) Remove oil pressure measurement plug (1) (PT 1/8). 3) Fit nipple 1 and hose 2 of oil pressure gauge G1, then connect oil pressure gauge G1 (39.2 MPa {400 kg/cm2}).

2. Installing oil pressure gauge to rear pump 1) Remove the control valve cover. 2) Remove oil pressure measurement plug (2) (PT 1/8). 3) Fit nipple 1 and hose 2 of oil pressure gauge G1, then connect oil pressure gauge G1 (39.2 MPa {400 kg/cm2}).

3. Installing oil pressure gauge to assist pump 1) Remove the control valve cover. 2) Remove oil pressure measurement plug (3) (PT 1/8). 3) Fit nipple 1 and hose 2 of oil pressure gauge G1, then connect oil pressure gauge G1 (39.2 MPa {400 kg/cm2}).

D475A-3

20-133 4



Measuring (single tiltdozer specification) fl Hydraulic pump combination chart : Pump is actuated, relief pressure can be measured : Pump is actuated, but relief pressure cannot be measured : Flow merges if lever is operated fully ▲: Cylinder is drained at end of stroke (but it is possible to measure relief pressure by switching panel to monitoring mode [99]) 1. Measuring front pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the ripper lever to the end of the stroke to relieve the ripper lift cylinder or ripper tilt cylinder, and measure the oil pressure with the engine at low idling and high idling.

Lever operation Blade lift Blade single tilt Blade dual tilt Blade pitch Ripper lift Ripper tilt

Pump Front RAISE LOWER Right Left Right Left DUMP BACK RAISE LOWER IN BACK

Rear

Assist

—

—

—

▲

▲

2. Measuring rear pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the blade lever to the end of the stroke to relieve the blade tilt cylinder, and measure the oil pressure with the engine at low idling and high idling. 3. Measuring assist pump relief pressure 1) Turn the starting switch ON. 2) Turn service switch (4) ON and economy mode switch (5) OFF. fl The service switch is installed inside the cover. 3) Turn buzzer cancel switch (6) to the ON position and hold for at least 7 seconds to display [99] on display (7) at the top of the panel. 4) Start the engine and set the safety lever to the FREE position. 5) Operate the ripper lever to the end of the stroke to relieve the ripper lift cylinder or ripper tilt cylinder, and measure the oil pressure with the engine at low idling and high idling.

20-134 4

D475A-3



Measuring (dual tiltdozer specification) fl Hydraulic pump combination chart : Pump is actuated, relief pressure can be measured : Pump is actuated, but relief pressure cannot be measured : Flow merges if lever is operated fully : Cylinder is drained at end of stroke 1. Measuring front pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the ripper lever to the end of the stroke to relieve the ripper lift cylinder or ripper tilt cylinder, and measure the oil pressure with the engine at low idling and high idling.



Rear

Assist

2. Measuring rear pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the blade lever to the end of the pitch back stroke to relieve the blade pitch cylinder, and measure the oil pressure with the engine at low idling and high idling. 3. Measuring assist pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the blade lever to the end of the pitch back stroke to relieve the blade pitch cylinder, and measure the oil pressure with the engine at low idling and high idling.

D475A-3

20-135 4



Measuring (super dozer specification) fl Hydraulic pump combination chart : Pump is actuated, relief pressure can be measured : Pump is actuated, but relief pressure cannot be measured : Flow merges if lever is operated fully : Cylinder is drained at end of stroke. 1. Measuring front pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the blade lever to the end of the pitch dump stroke to relieve the blade pitch cylinder, and measure the oil pressure with the engine at low idling and high idling.



Rear

Assist

—

—

—

2. Measuring rear pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the blade lever to the end of the pitch back stroke to relieve the blade pitch cylinder, and measure the oil pressure with the engine at low idling and high idling. 3. Measuring assist pump relief pressure 1) Start the engine and set the safety lever to the FREE position. 2) Operate the blade lever to the end of the pitch back stroke to relieve the blade pitch cylinder, and measure the oil pressure with the engine at low idling and high idling.

20-135-1 4

D475A-3



Adjusting 1. Adjusting main relief valve for blade lift valve fl If the front pump relief pressure is not correct, adjust main relief valve (8) of the blade lift valve as follows. 1) Remove cover (9), then loosen locknut (10). 2) Turn adjustment screw (11) to adjust. fl Turn the adjustment screw as follows. • To INCREASE pressure, turn CLOCKWISE • To DECREASE pressure, turn COUNTERCLOCKWISE fl Amount of adjustment for one turn of adjustment screw: 2.43 MPa {24.8 kg/cm2} 3 Locknut: 11.8 – 14.7 Nm {1.2 – 1.5 kgm} Cover: 29.4 – 39.2 Nm {3.0 – 4.0 kgm}

2. Adjusting main relief valve for blade tilt, ripper Lo valve fl If the rear pump relief pressure is not correct, adjust main relief valve (12) of the blade tilt and ripper Lo valve as follows. 1) Remove cover (13), then loosen locknut (14). 2) Turn adjustment screw (15) to adjust. fl Turn the adjustment screw as follows. • To INCREASE pressure, turn CLOCKWISE • To DECREASE pressure, turn COUNTERCLOCKWISE fl Amount of adjustment for one turn of adjustment screw: 2.43 MPa {24.8 kg/cm2} 3 Locknut: 11.8 – 14.7 Nm {1.2 – 1.5 kgm} Cover: 29.4 – 39.2 Nm {3.0 – 4.0 kgm}

D475A-3

20-135-2 4



3. Adjusting main relief valve for assist valve fl If the assist pump relief pressure is not correct, adjust main relief valve (16) of the assist valve as follows. 1) Remove cover (17), then loosen locknut (18). 2) Turn adjustment screw (19) to adjust. fl Turn the adjustment screw as follows. • To INCREASE pressure, turn CLOCKWISE • To DECREASE pressure, turn COUNTERCLOCKWISE fl Amount of adjustment for one turn of adjustment screw: 2.43 MPa {24.8 kg/cm2} 3 Locknut: 11.8 – 14.7 Nm {1.2 – 1.5 kgm} Cover: 29.4 – 39.2 Nm {3.0 – 4.0 kgm}

20-135-3 4

D475A-3


TESTING AND ADJUSTING WORK EQUIPMENT CONTROL CIRCUIT PRESSURE

TESTING AND ADJUSTING WORK EQUIPMENT CONTROL CIRCUIT PRESSURE Measuring ¤ Stop the machine on level ground, lower the work equipment completely to the ground, then set the parking lever and safety lever to the LOCK position. fl Measure the work equipment hydraulic pressure under the following conditions. • Hydraulic oil temperature: 45 – 55°C 1. Remove the control valve cover. 2. Remove oil pressure measurement plug (1) (10 x 1.25). 3. Fit nipple 1 and hose 2 of oil pressure gauge G1, then connect oil pressure gauge G1 (5.9 MPa {60 kg/cm2}).

4. Start the engine, then measure the oil pressure with the engine at low idling and high idling.

Adjusting fl If the oil pressure is not correct, adjust PPC relief valve (2) as follows.

20-136 4

D475A-3


1. Loosen

2.

locknut

TESTING AND ADJUSTING WORK EQUIPMENT CONTROL CIRCUIT PRESSURE

(3).

Turn adjustment screw (4) to adjust. * Turn the adjustment screw as follows. To INCREASE pressure, turn CLOCKWISE . To DECREASE pressure, turn COUNTERCLOCKWISE w Locknut: 9.8 Nm Il.0 kgm1 l

*

After complection above procedure

of the adjustment, repeat the to check the oil pressure again. EVD00772

D475A-3

20-137

TESTING

AND ADJUSTING

MEASURING PPC VALVE AND PITCH . TILT CONTROL VALVE OUTPUT PRESSURE

MEASURING PPC VALVE AND PITCH, TILT CONTROL VALVE OUTPUT PRESSURE AStop the machine on level ground, lower the work equipment completely to the ground, then set the parking lever and safety lever to the LOCK position. * Measure the PPC valve output pressure under the following conditions. . Hydraulic oil temperature: 45 - 55°C 1.

Method of measuring PPC valve portion * Measure the following circuits at the PPC valve. i) Blade lift RAISE circuit which does not pass through the relay block. ii) Blade tilt circuit before it enters the pitch, tilt control valve 1) Disconnect hose (1) from the circuit to be measured. * See the circuit drawing on the next page 2) Fit adapter @ and nipple @ of oil pressure gauge Gl, then connect oil pressure gauge Gl (5.9 MPa (60 kg/cm*11 with hose 0. 3) Start the engine and set the safety lever to the FREE position. 4) Operate the control lever of the circuit to be measured, and measure the oil pressure at engine high idling. Sr Operate the control lever fully when measuring. * For blade LOWER, operate to the FLOAT position.

2.

Method of measuring relay block portion * Measure the following circuits at the PPC valve. i) Blade lift LOWER circuit ii) Blade tilt circuit after it passes through the pitch, tilt control valve iii) Ripper lift circuit iv) Ripper tilt circuit 1) Disconnect hose (2) from the circuit to be measured. * See the circuit drawing on the next page.

20-138

D475A-3

MEASURING PPC VALVE AND PITCH TILT CONTROL VALVE OUTPUT PRESSURE l

TESTING

AND ADJUSTING

2) Fit adapter @ and nipple @ of oil pressure

3) 4)

D475A-3

gauge Gl, then connect oil pressure gauge Gl (5.9 MPa I60 kg/cm*}) with hose 0. Start the engine and set the safety lever to the FREE position. Operate the control lever or knob switch of the circuit to be measured, and measure the oil pressure at engine high idling. Operate the control lever fully when measuring. When measuring the output pressure of the pitch dump solenoid valve or pitch back solenoid valve, set the blade lever at HOLD and operate the knob switch. When measuring the output pressure of the tilt limit solenoid valve, operate the blade lever in the tilt direction. When the blade reaches the tilt limit angle, shut off the output pressure from the PPC valve.

20-139


TESTING

AND ADJUSTING

Blade

I

PPC valve

I

I

(Blade

lower)

(Blade

tiltsRIGHT)

(Ripper

I I I

IIIII, ! IIII II !

lift1

(Ripper

lower)

[Ripper

tilt

back)

[Ripper

tilt

in)

I

RioPer

PPC valve

I1

L-___-___-_-_.___._-___------.-._._.-_~

Pitch,tiIt

control

valve

TVDO1045

20-140



1

(Blade

Relay

block

\CB ---I Blade

-------_________

1

lower)

2 _,_________-------,_

valve

7

3

-I----------------I_

4

_}__________------I_

;

---_I_________-------~~,

B

-I_---____---____-r

O0

-

lo” ,

(Blade

(Ripper (Ripper (Blade

L

Lift)

tilt lift) t i It,

PAkT

back) LEFT),

11

12 13

~

1 To S/D

solenoid

(Blade (Ripper (Ripper

t i It.

RIGHT) lower1 tilt 1n1

j

Blade

I 1 tilt.rioper

I LO valve

valve

TVDOlO46

20-14:

TESTING

ADJUSTING *

.

*

ADJUSTING

AND ADJUSTING

PPC VALVE

If there is excessive play at the tip of the blade lever and ripper lever, adjust the PPC valve as follows. Standard play dimension a: 1 - 5 mm at point 250 mm from center of lever (both front-to-rear and left-right) The diagram shows the ripper PPC valve.

1. Remove

boot (I).

2.

Loosen locknut (2), then turn disc (3) to adjust the play. * When doing this, do not move the piston.

3.

Secure

disc (3) in position

(2). w

Locknut: 98.07 - 127.49 Nm {IO - 13 kgm1

4.

PPC VALVE

and tighten

locknut

Install boot (1).

BVD00514

20-142

D475A-3

TESTING

AND ADJUSTING

MEASURING OUTPUT PRESSURE OF DEMAND SOLENOID VALVE

MEASURING OUTPUT PRESSURE OF DEMAND SOLENOID VALVE

a Ir

Stop the machine on level ground, lower the work equipment completely to the ground, then set the parking lever and safety lever to the LOCK position. Measure the solenoid valve output pressure under the following conditions. . Hydraulic temperature: 45 - 55C l

1.

Disconnect

2.

Fit adapter 0 and nipple @ of oil pressure gauge Gl, then connect oil pressure gauge Gl (39.2 MPa {400 kg/cm2}) with hose 0. * The blade Lo circuit is used for the basic pressure of the solenoid valve of the demand valve.

3.

Start the engine FREE position.

4.

Run the engine at full throttle and measure the oil pressure when the blade lever is returned to HOLD and when it is operated in the lift direction. * The pressure should be as follows. When lever is at HOLD: Approx. 0 MPa (0 kg/cm21 When lever is operated to lift: Almost same as blade lift circuit pressure

D475A-3

hose (I).

and set the safety lever to the

20-l 43

TESTING

MEASURING OUTPUT PRESSURE OF RIPPER PIN-PULLER SOLENOID

A *

MEASURING OUTPUT PRESSURE OF RIPPER PIN-PULLER SOLENOID VALVE

AND ADJUSTING

VALVE

Stop the machine on level ground, lower the work equipment completely to the ground, then set the parking lever and safety lever to the LOCK position. Measure the output pressure of the ripper pin puller solenoid valve under the following conditions. . Power train oil temperature: 45 - 55°C

1.

Disconnect

2.

Fit adapter @ and nipple @ of oil pressure gauge Gl, then connect oil pressure gauge Gl (5.9 MPa (60 kg/cm*}) with hose 0. Ir The power train circuit is used for the basic pressure of the ripper pin puller solenoid valve.

3.

Start the engine

4.

Operate the pin-puller switch and measure the oil pressure when the ripper pin-puller cylinder is operated fully.

20-144

output

hoses (1) and (2).

and run at low idling.

D475A-3

CHECKING LOCATION OF CAUSE OF HYDRAULIC DRIFT OF BLADE AND RIPPER


CHECKING LOCATION OF CAUSE OF HYDRAULIC DRIFT OF BLADE AND RIPPER +

If hydraulic drift occurs in the blade and ripper, check as follows to see if the cause is in the cylinder packing or in the control valve.

1. Set the cylinder to be inspected to the following inspection posture, then stop the engine. 1) Blade lift cylinder Push the blade against the ground to raise the front of the chassis. Ir The blade lift cylinder has a built-in piston valve, so do not operate the cylinder to the end of the stroke. 2) Blade tilt cylinder Extend the tilt cylinder rod fully (maximum right tilt), then push the blade against the ground to raise the right side of the chassis. 3) Ripper lift cylinder Push the ripper against the ground to raise the rear of the chassis.

2.

Operate the control lever in the direction to extend the cylinder rod, and check the movement of the cylinder. . If the downward movement becomes faster, the packing is defective. . If there is no change, the control valve is defective. * If there is no more pressure in the accumulator, run the engine for approx. 10 seconds to charge the accumulator before carrying out the operation.

TVD00958

I

TVD00959

I

TVD00960

Reference: If the cause of the hydraulic drift is in the packing, the speed of downward movement in the above operation will become faster for the following reasons. in the posture 1) With the work equipment given above, (holding pressure applied to the bottom end), the oil will leak from the bottom end to the head end. However, the volume at the head end is smaller than at the bottom end (by an amount proportional to the volume of the rod), so if the oil flows in from the bottom end, the internal pressure at the head end will rise. 2) If the internal pressure at the head end rises, a balance will be made in proportion to this at a certain pressure (this differs according to the amount of leakage). When the pressure becomes balanced, the speed of downward movement becomes slower.

D475A-3

3)

In this condition, if the lever is operated as shown above, the circuit at the head end is connected to the drain circuit (the bottom end is closed by a check valve), and the oil at the head end flows to the drain circuit. As a result, the balance is lost and the speed of downward movement increases.

20- 145

TESTING

MEASURING LEAKAGE INSIDE HYDRAULIC CYLINDER

AND ADJUSTING

MEASURING LEAKAGE INSIDE HYDRAULIC CYLINDER *

Measure the oil leakage inside the hydraulic inder under the following conditions. . Hydraulic oil temperature: 45 - 55°C

Ir

The blade lift cylinder has a built-in piston valve, so the internal leakage cannot be measured.

1.

Fully extend the cylinder to be measured, and set to the measurement posture. I) Blade tilt cylinder: Tilt the blade fully to the right. 2) Ripper lift cylinder: Remove the shank pin and lower the ripper fully. 3) Ripper tilt cylinder: Tilt the ripper fully to the front.

2.

Disconnect the piping at the head end of the cylinder and block the piping at the chassis end with a blind plug. * Remove the cover when disconnecting the blade tilt cylinder hose. g

3.

4.

Be careful not to disconnect the bottom end.

the piping

cyl-

at

Run the engine at high idling and apply the relief pressure to the bottom end of the cylinder. * Blade tilt cylinder: Tilt blade to right Ripper lift cylinder: Lower ripper Ripper tilt cylinder: Tilt ripper to front Wait for 30 seconds, then measure of leakage over the next 1 minute.

Disconnect Stroke

end

hose %a()

the amount

TWDOIOIB

20- 146

D475A-3

RELEASING REMAINING PRESSURE IN HYDRAULIC CIRCUIT BLEEDING AIR FROM HYDRAULIC CYLINDERS


RELEASING REMAINING PRESSURE IN HYDRAULIC CIRCUIT Ir

When disconnecting the piping between the hydraulic cylinder and control valve, first release the remaining pressure inside the piping as follows.

1.

Loosen the oil filler cap slowly to release pressure inside the hydraulic tank.

2.

Operate the work equipment control levers to the front, rear, left, and right. * When the levers are operated 2 - 3 times, the pressure inside the accumulator is released.

3.

Start the engine, run at low idling for approx. 5 minutes, then stop the engine and operate the work equipment control levers to the front, rear, left, and right. J, If the above operation is repeated 2 - 3 times, the remaining pressure will be completely released. * For the ripper cylinder, the remaining pressure is released through the ripper Hi valve, so repeat the above procedure several times.

the

BLEEDING AIR FROM HYDRAULIC CYLINDERS Ir After replacing or installing hydraulic

cylinders or disconnecting and connecting hydraulic piping, bleed the air from the circuit as follows.

1.

Start the engine 5 minutes.

2.

Run the engine at low idling, and extend and retract the hydraulic cylinders 4 - 5 times. * Stop the position rod about 100 mm from the end of the stroke. Never operate it to the relief position.

3.

Run the engine at high procedure in Step 2.

4.

Then run the engine at low idling and operate the pistpn rod to the end of the stroke to relieve the circuit.

D475A-3

and run at low idling for about

idling

and

repeat

the

20-147

TESTING

AND ADJUSTING

ADJUSTING EQUIPMENT 1.

ADJUSTING

WORK EQUIPMENT

SAFETY

LEVER

WORK SAFETY LEVER

Adjust dimension a between the pins of rod (I), then connect to safety lever (2) and PPC lock valve (3). . Dimension a between pins: 330 mm

20-148

D475A-3


PROCEDURE FOR SELECTING MODEL

PROCEDURE FOR SELECTING MODEL fl If the monitor panel, engine controller, and machine controller have been replaced, or if the machine specifications have been changed, select the model as follows. If the monitor panel, engine controller, and machine controller have been replaced, or if the machine specifications have been changed, select the model as follows. fl If the machine specification and the controller model code are different, the system may not work properly or errors may occur. To prevent such problems, always select the correct model. 1. Turn the starting switch ON. 2. Turn service switch (1) ON, set economy mode switch (2) to 1, and display [– –] or [20] on display (3) at the top of the panel. fl The service switch is installed inside the cover. fl On the straight tilt dozer specification, display [– –], and on the dual tilt dozer specification and super dozer specification, display [20]. 3. Hold buzzer cancel switch (4) at the ON position for at least 7 seconds and display [CH] on display (3) at the top of the panel. 4. Operate REVERSE slow mode switch (5) and display [30] on display (3) at the top of the panel. fl [30] is the model selection code. 5. Operate buzzer cancel switch (4) and display the model code for the appropriate specification on display (6) at the bottom of the panel. 6. Operate REVERSE slow mode switch (5) and display [CR] on display (3) at the top of the panel. 7. Operate buzzer cancel switch again and check that the buzzer sounds once. 8. Operate the reverse slow mode switch (5) to display [OP] in upper display unit (3).

D475A-3

Machine specification and model code Specification of machine

Model code

Single tiltdozer

body 00

Single tiltdozer + SSC

body 01

Dual tiltdozer

body 10 or 30

Dual tiltdozer + SSC

body 11 or 31

Superdozer

body 20

20-149 8


9. Operate buzzer cancel switch (4) to display the code of the corresponding specification in lower display unit (6). fl The hydraulic oil level sensor is optional. If error code E0370 is displayed, check the model code.

PROCEDURE FOR SELECTING MODEL

Machine specification and model code Specification of machine

Model code

Standard

Code 00

With hydraulic oil level sensor

Code 01

10. Turn service switch (1) OFF.

fl The automatic deceleration control interlocked with the brake is a special specification. If error code E0736, E0776, or E0777 is displayed, perform 1 – 8 of PROCEDURE FOR SELECTING MODEL CODE above, and then perform the following operation. 9. Operate buzzer cancel switch (4) to display the code of the corresponding specification in lower display unit (6). 10. Operate the reverse slow mode switch (5) to display [LP] in upper display unit (3). Then, each time reverse slow mode switch (5) is operated, [AU], [FC], [dE], and [bP] are displayed in order. 11. While [dE] is displayed, operate buzzer cancel switch (4) to display [dECL00] in lower display unit (6). 12. Turn service switch (1) OFF.

20-149-1 8

D475A-3


PROCEDURE FOR ADJUSTING BLADE TILT LIMIT ANGLE (DUAL TILT DOZER SPECIFICATION)

PROCEDURE FOR ADJUSTING BLADE TILT LIMIT ANGLE (DUAL TILT DOZER SPECIFICATION) *

Ir

*

If the blade and blade cylinder potentiometer have been removed and installed again, or the machine controller has been replaced, adjust the blade tilt limit angle as follows. If this adjustment is not carried out, the amount of tilt will be reduced, or will become too large and will interfere with the track, so always carry out this adjustment. Carry out the adjustment on a level ground surface.

1.

Start the engine, run at low idling, and set the blade at the following basic posture. 1) Set the tilt angle to horizontal (0’). 2) Set the pitch angle to the maximum pitch back. 3) Lower the blade to the ground.

2.

Adjust installation dimension a of rod (I), and connect to potentiometer lever (2) and yoke (3). . Installation dimension a: 376.5 mm

3.

Turn service switch (4) ON, turn economy mode switch (5) to 1, and display (6) or 1201 on display (6) at the top of the panel. Ir The service switch is installed inside the cover.

4.

Press top button (7) on the blade lever to save the blade horizontal condition to the system. * When the buzzer sounds once, the saving is completed.

5.

Raise the tip of the blade approx. ground surface.

6.

Operate the blade lever to left tilt and set the left tilt annle to 12”. If top button (7) of the blade lever is pressed while the blade is being operated, the horizontal position will change, so do not press top switch (7). The tilt limit function will not work, so operate slowly and be careful not to let the tilt angle become too large. Use angle gauge J to adjust the tilt angle correctly.

EVtlOO795

I

1 m above the

-

-4 BVD00636

20- 150

D475A-3

PROCEDURE TESTING

FOR ADJUSTING BLADE TILT LIMIT ANGLE (DUAL TILT DOZER SPECIFICATION)

AND ADJUSTING

7.

Press front button (8) on the blade lever to save the left tilt limit value to the system. Sr When the buzzer sounds once, the saving is completed.

8.

Turn service switch (4) OFF. Sr To set the blade to the adjustment posture, switch the monitor panel to the normal mode.

9.

Set the blade to the maximum ture.

pitch dump

pos-

I

[@j&iii&) ElVDOO788

10. Turn service switch (4) ON again and display [201 on display (6) at the top of the panel. 11. Operate the blade lever to right tilt and set the right tilt angle to 12”. * If top button (7) of the blade lever is pressed while the blade is being operated, the horizontal position will change, so do not press top switch (7). * The tilt limit function will not work, so operate slowly and be careful not to let the tilt angle become too large. Ir Use angle gauge J to adjust the tilt angle correctly.

I

FiVD00796

12. Press front button (8) on the blade lever to save the right tilt limit value to the system. * When the buzzer sounds once, the saving is completed. 13. Turn service switch (4) OFF and stop the engine. 14. Start the engine again, operate the left and right tilt, and check that the blade does not interfere with the track when the blade is raised to any height. BVD00797

DA75A-3

20-151

PROCEDURE TESTING

FOR ADJUSTING BLADE TILT LIMIT ANGLE (SUPER DOZER SPECIFICATION)

AND ADJUSTING

PROCEDURE FOR ADJUSTING BLADE TILT LIMIT ANGLE (SUPER DOZER SPECIFICATION) Ir

Ir

If the blade and blade cylinder potentiometer have been removed and installed again, or the machine controller has been replaced, adjust the blade tilt limit angle as follows. If this adjustment is not carried out, the amount of tilt will be reduced, or will become too large and will interfere with the track, so always carry out this adjustment. Carry out the adjustment on a level ground surface.

BVDOO79

I

1. Start the engine, run at low idling, and set the blade at the following basic posture. 1) Set the tilt angle to horizontal (0”). 2) Set the pitch angle to the maximum pitch back. 3) Lower the blade to the ground. 2.

Adjust installation dimension a of rod (I), and connect to potentiometer lever (2) and yoke (3). . Installation dimension a: 376.5 mm

I 3.

Turn service switch (4) ON, turn economy mode switch (5) to 1, and display (6) or 1201 on display (6) at the top of the panel. * The service switch is installed inside the cover.

4.

Press top button (7) on the blade lever to save the blade horizontal condition to the system. * When the buzzer sounds once, the saving is completed.

5.

Turn service switch (4) OFF. Ir To set the blade to the adjustment posture, switch the monitor panel to the normal mode.

6.

Operate the blade as follows as preparation to make it possible to operate the tilt. 1) Raise the tip 200 - 300 mm from the ground. 2) Set the angle of the edge to 52”. j, Use angle gauge J to adjust the angle of the edge correctly. 3) Raise the tip of the blade approx. a further 1 m above the ground surface.

I

\ BVDO0792

I

I

v--

‘4 BVD00636

20-152

D475A-3

PROCEDURE TESTING

FOR ADJUSTING BLADE TILT LIMIT ANGLE (SUPER DOZER SPECIFICATION)

AND ADJUSTING

7.

Turn service switch (4) ON again and display [201 on display (6) at the top of the panel.

8.

Operate the blade lever to left tilt and set the left tilt angle to 7”. * The tilt limit function will not work, so operate slowly and be careful not to let the tilt angle become too large. * Use angle gauge J to adjust the tilt angle correctly.

9.

Press front button (8) on the blade lever to save the left tilt limit value to the system. Ir When the buzzer sounds once, the saving is completed.

10 Operate the blade lever to right tilt and set the right tilt angle to 7”. * The tilt limit function will not work, so operate slowly and be careful not to let the tilt angle become too large. Ir Use angle gauge J to adjust the tilt angle correctly. 11

Press front button (8) on the blade lever to save the right tilt limit value to the system. * When the buzzer sounds once, the saving is completed.

I

BVD00793

I

BVD00794

12. Turn service switch (4) OFF and stop the engine. 13. Start the engine again, operate the left and right tilt, and check that the blade does not interfere with the track when the blade is raised to any height. . Automatic stop angle for tilt: 7 + I0

D475A-3

20-153

TROUBLESHOOTING Points to remember when troubleshooting ........................................................................................ 20-202 Sequence of events in troubleshooting .............................................................................................. 20-203 Points to remember when carrying out maintenance ....................................................................... 20-204 Checks before troubleshooting ............................................................................................................ 20-212 Connector types and mounting locations ........................................................................................... 20-213 Connection table for connector pin numbers .................................................................................... 20-221 Explanation of functions of control mechanism of electrical system ............................................. 20-232 Display method and special functions of monitor panel .................................................................. 20-236 Method of using troubleshooting charts ............................................................................................ 20-249 Troubleshooting of network system (N mode) .................................................................................. 20-301 Troubleshooting of engine controller system (E mode) ................................................................... 20-401 Troubleshooting of machine controller system (C mode) ................................................................ 20-501 Troubleshooting of hydraulic and mechanical systems (H mode) .................................................. 20-601 Troubleshooting of monitor panel and electrical system (M mode) ............................................... 20-701 Troubleshooting of air conditioner system ........................................................................................ 20-801

D475A-3

20-201 3 7

POINTS

TROUBLESHOOTING

POINTS TO REMEMBER

TO REMEMBER

WHEN

TROUBLESHOOTING

WHEN TROUBLESHOOTING

A Stop the machine in a level place, and check that the safety pin, blocks, and parking brake are securely fitted. A When carrying out the operation with two or more workers, keep strictly to the agreed signals, and do not allow any unauthorized person to come near.

If the radiator cap is removed when the engine is hot, hot water A the engine to cool down before starting troubleshooting.

may spurt out and cause burns, so wait for

A

Be extremely careful not to touch any hot parts or to get caught in any rotating parts.

A

When disconnecting wiring, always disconnect the negative (-) terminal of the battery first.

A When

removing the plug or cap from a location which is under pressure from oil, water, or air, always release the internal pressure first. When installing measuring equipment, be sure to connect it properly.

The aim of troubleshooting is to pinpoint the basic cause of the failure, to carry out repairs swiftly, and to prevent reoccurrence of the failure. When carrying out troubleshooting, and important point is of course to understand the structure and function. However, a short cut to effective troubleshooting is to ask the operator various questions to form some idea of possible causes of the failure that would produce the reported symptoms. 1.

2.

3.

When carrying out troubleshooting, do not hurry to disassemble the components. If components are disassembled immediately any failure occurs: . Parts that have no connection with the failure or other unnecessary parts will be disassembled. . It will become impossible to find the cause of the failure. It will also cause a waste of manhours, parts, or oil or grease, and at the same time, will also lose the confidence of the user or operator. For this reason, when carrying out troubleshooting, it is necessary to carry out thorough prior investigation and to carry out troubleshooting in accordance with the fixed procedure. Points to ask user or operator 1) Have any other problems occurred apart from the problem that has been reported? 2) Was there anything strange about the machine before the failure occurred? 3) Did the failure occur suddenly, or were there problems with the machine condition before this? 4) Under what conditions did the failure occur? 5) Had any repairs been carried out before the failure? When were these repairs carried out? 6) Has the same kind of failure occurred before? Check before troubleshooting 1) Check the oil level 2) Check for any external leakage of oil from the piping or hydraulic equipment. 3) Check the travel of the control levers.

20-202 0

4) 5)

4.

5.

6.

Check the stroke of the control valve spool. Other maintenance items can be checked externally, so check any item that is considered to be necessary. Confirming failure . Confirm the extent of the failure yourself, and judge whether to handle it as a real failure or as a problem with the method of operation, etc. t When operating the machine to reenact the troubleshooting symptoms, do not carry out any investigation or measurement that may make the problem worse. Troubleshooting . Use the results of the investigation and inspection in Items 2 - 4 to narrow down the causes of failure, then use the troubleshooting flowchart to locate the position of the failure exactly. * The basic procedure for troubleshooting is as follows. 1) Start from the simple points. 2) Start from the most likely points. 3) Investigate other related parts or information. Measures to remove root cause of failure . Even if the failure is repaired, if the root cause of the failure is not repaired, the same failure will occur again. To prevent this, always investigate why the problem occurred. Then, remove the root cause.

D475A-3

SEQUENCE OF EVENTS IN TROUBLESHOOTING

TROUBLESHOOTING

SEQUENCE OF EVENTS IN TROUBLESHOOTING Office, shop

IExamination, When

confirmation

a request

of symptoms

for repairs

is received,

first

I,

-------

ask the following points. . Name of customer * . 2)

Jobsite

>

step 1

1)

TEW00181

TEW00180

Type,

serial

Details

number

of jobsite,

Ask questions

Ring!

-------

Ring!

of machine

etc.

to gain an outline

of the prob-

lem. *

Condition

*

Work being carried out at the time of the

of failure TEW00182

failure .

Operating

.

Past history,

environment details of maintenance,

etc.

Step 2

TEPOl348

[Determining 1)

location

of causel

Look at the troubleshooting

section

shop

probable

manual

to find

locations

of the

of possible

causes.

TEP01350

Step 3 ]Preparation 1)

of troubleshooting

tools.1

Look at the table of troubleshooting the shop manual

and prepare

tools in

the necessary

tools. . T-adapter . 2)

Hydraulic

pressure

gauge

kit, etc.

Look in the parts book and prepare essary

replacement

the nec-

parts.

that

Drive

matches

and

the symptoms,

operate

the condition

the

and judge

and carry

machine if there

out

to confirm is really

a

TEP01351

Was there chine

anything

Did the failure Had any repairs

D475A-3

strange

before the failure

about the ma-

occurred?

occur suddenly? been carried out before the

20-203 0

TROUBLESHOOTING

POINTS TO REMEMBER WHEN CARRYING OUT MAINTENANCE

POINTS TO REMEMBER WHEN CARRYING OUT MAINTENANCE To maintain the performance of the machine over a long period, and to prevent failures or other troubles before they occur, correct operation, maintenance and inspection, troubleshooting, and repairs must be carried out. This section deals particularly with correct repair procedures for mechatronics and is aimed at improving the quality of repairs. For this purpose, it gives sections on “Handling electric equipment” and “Handling hydraulic equipment” (particularly gear oil and hydraulic oil).

1. POINTS TO REMEMBER WHEN HANDLING ELECTRIC EQUIPMENT 1)

Handling wiring harnesses and connectors Wiring harnesses consist of wiring connecting one component to another component, connectors used for connecting and disconnecting one wire from another wire, and protectors or tubes used for protecting the wiring. Compared with other electrical components fitted in boxes or cases, wiring harnesses are more likely to be affected by the direct effects of rain, water, heat, or vibration. Furthermore, during inspection and repair operations, they are frequently removed and installed again, so they are likely to suffer deformation or damage. For this reason, it is necessary to be extremely careful when handling wiring harnesses. TEW00191

Main failures occurring in wiring harness Defective contact of connectors (defective contact between male and female) Problems with defective contact are likely to occur because the male connector is not properly inserted into the female connector, or because one or both of the connectors is deformed or the position is not correctly aligned, or because there is corrosion or oxidization of the contact surfaces.

Improver

insertion

TEP01352

I Defective crimping or soldering of connectors The pins of the male and female connectors are in contact at the crimped terminal or soldered portion, but if there is excessive force brought to bear on the wiring, the plating at the joint will peel and cause improper connection or breakage.

Improper

comPression

TEP01353

20-204 0

TROUBLESHOOTING


Disconnections in wiring If the wiring is held and the connectors are pulled apart, or components are lifted with a crane with the wiring still connected, or a heavy object hits the wiring, the crimping of the connector may separate, or the soldering may be damaged, or the wiring may be broken.

TEW00194

High-pressure water entering connector The connector is designed to make it difficult for water to enter (drip-proof structure), but if high-pressure water is sprayed directly on the connector, water may enter the connector, depending on the direction of the water jet. As already said, the connector is designed to prevent water from entering, but at the same time, if water does enter, it is difficult for it to be drained. Therefore, if water should get into the connector, the pins will be shortcircuited by the water, so if any water gets in, immediately dry the connector or take other appropriate action before passing electricity through it. Oil or dirt stuck to connector If oil or grease are stuck to the connector and an oil film is formed on the mating surface between the male and female pins, the oil will not let the electricity pass, so there will be defective contact. If there is oil or grease stuck to the connector, wipe it off with a dry cloth or blow it dry with compressed air and spray it with a contact restorer. Ir When wiping the mating portion of the connector, be careful not to use excessive force or deform the pins. * If there is oil or water in the compressed air, the contacts will become even dirtier, so remove the oil and water from the compressed air completely before cleaning with compressed air.

D475A-3

TEW00195

TEW00196

20-205 0

21 Removing, installing, and drying connectors and wiring harnesses l

Disconnecting connectors

0

Q

Press lightly when removing

Hold the connectors when disconnecting. When disconnecting the connectors, hold the connectors and not the wires. For connectors held by a screw, loosen the screw fully, then hold the male and female connectors in each hand and pull apart. For connectors which have a lock stopper, press down the stopper with your thumb and pull the connectors apart. * Never pull with one hand.

TEP01354

When removing from clips When removing a connector from a clip, pull the connector in a parallel direction to the clip. * If the connector is twisted up and down or to the left or right, the housing may break.

TBW00484

I 0

TBP01355

Action to take after removing connectors After removing any connector, cover it with a vinyl bag to prevent any dust, dirt, oil, or water from getting in the connector portion. * If the machine is left disassembled for a long time, it is particularly easy for improper contact to occur, so always cover the connector.

TEW00198

20-206 0

D475A-3

TROUBLESHOOTING

0


Connecting connectors Check the connector visually. I) Check that there is no oil, dirt, or water stuck to the connector pins (mating portion). 2) Check that there is no deformation, defective contact, corrosion, or damage to the connector pins. 3) Check that there is no damage or breakage to the outside of the connector. If there is any oil, water, or dirt stuck to * the connector, wipe it off with a dry cloth. If any water has got inside the connector, warm the inside of the wiring with a dryer, but be careful not to make it too hot as this will cause short circuits. If there is any damage or breakage, re* place the connector.

Cliks into position

I

I I

TEP01356

Fix the connector securely. Align the position of the connector correctly, then insert it securely. For connectors with lock stopper, push in the connector until the stopper clicks into position. Correct any protrusion of the boot and any misalignment of the wiring harness For connectors fitted with boots, correct any protrusion of the boot. In addition, if the wiring harness is misaligned, or the clamp is out of position, adjust it to its correct position. * If the connector cannot be corrected easily, remove the clamp and adjust the position. If the connector clamp has been removed, be sure to return it to its original position. Check also that there are no loose clamps.

D475A-3

I

II

TEWOOZOO

TBW00487

20-207 0

TROUBLESHOOTING

l


Drying wiring harness If there is any oil or dirt on the wiring harness, wipe it off with a dry cloth. Avoid washing it in water or using steam. If the connector must be washed in water, do not use high-pressure water or steam directly on the wiring harness. If water gets directly on the connector, do as follows. @ Disconnect the connector and wipe off the water with a dry cloth. * If the connector is blown dry with compressed air, there is the risk that oil in the air may cause defective contact, so remove all oil and water from the compressed air before blowing with air.

TEW00196

Dry the inside of the connector with a dryer. If water gets inside the connector, use a dryer to dry the connector. * Hot air from the dryer can be used, but regulate the time that the hot air is used in order not to make the connector or related parts too hot, as this will cause deformation or damage to the connector.

TEWOOZOZ

Carry out a continuity test on the connector. After drying, leave the wiring harness disconnected and carry out a continuity test to check for any short circuits between pins caused by water. * After completely drying the connector, blow it with contact restorer and reassemble.

20-208 Co

D475A-3

TROUBLESHOOTING

3)


Handling control box The control box contains a microcomputer and electronic control circuits. These control all of the electronic circuits on the machine, so be extremely careful when handling the control box. Do not open the cover of the control box unless necessary.

TEW00204

Do not place objects on top of the control box. Cover the control connectors with tape or a vinyl bag. Never touch the connector contacts with your hand. During rainy weather, do not leave the control box in a place where it is exposed to rain.

TEW00205

Do not place the control box on oil, water, or soil, or in any hot place, even for a short time. (Place it on a suitable dry stand). Precautions when carrying out arc welding When carrying out arc welding on the body, disconnect all wiring harness connectors connected to the control box. Fit an arc welding ground close to the welding point.

2.

,,@!J/x

Points to remember when troubleshooting electric circuits 1) Always turn the power OFF before disconnecting or connect connectors. 2) Before carrying out troubleshooting, check that all the related connectors are properly inserted. * Disconnect and connect the related connectors several times to check. 3) Always connect any disconnected connectors before going on to the next step. * if the power is turned ON with the connectors still disconnected, unnecessary abnormality displays will be generated. 41 When carrying out troubleshooting of circuits (measuring the voltage, resistance, continuity, or current), move the related wiring and connectors several times and check that there is no change in the reading of the tester. * If there is any change, there is probably defective contact in that circuit.

D475A-3

20-209 0

TROUBLESHOOTING

3.

POINTS

TO REMEMBER

WHEN

CARRYING

OUT MAINTENANCE

POINTS TO REMEMBER WHEN HANDLING HYDRAULIC EQUIPMENT

With the increase in pressure and precision of hydraulic equipment, the most common cause of failure is dirt (foreign material) in the hydraulic circuit. When adding hydraulic oil, or when disassembling or assembling hydraulic equipment, it is necessary to be particularly careful. 1)

Be careful of the operating environment. Avoid adding hydraulic oil, replacing filters, repairing the machine in rain or high winds, places where there is a lot of dust.

or or

21

Disassembly and maintenance work in the field If disassembly or maintenance work is carried out on hydraulic equipment in the field, there is danger of dust entering the equipment. It is also difficult to confirm the performance after repairs, so it is desirable to use unit exchange. Disassembly and main-tenance of hydraulic equipment should be carried out in a specially prepared dustproof workshop, and the performance should be confirmed with special test equipment.

3)

Sealing openings After any piping or equipment is removed, the openings should be sealed with caps, tapes, or vinyl bags to prevent any dirt or dust from entering. If the opening is left open or is blocked with a rag, there is danger of dirt entering or of the surrounding area being made dirty by leaking oil so never do this. Do not simply drain oil out on to the ground, collect it and ask the customer to dispose of it, or take it back with you for disposal.

L

I 4)

TEW00207

TEW00208

Do not let any dirt or dust get in during refilling operations. Be careful not to let any dirt or dust get in when refilling with hydraulic oil. Always keep the oil filler and the area around it clean, and also use clean pumps and oil containers. If an oil cleaning device is used, it is possible to filter out the dirt that has collected during storage, so this is an even more effective method.

TEW00209

20-210 0

TROUBLESHOOTING

POINTS

TO REMEMBER

5) Change hydraulic oil when the temperature

WHEN

CARRYING

OUT MAINTENANCE

is

high. When hydraulic oil or other oil is warm, it flows easily. In addition, the sludge can also be drained out easily from the circuit together with the oil, so it is best to change the oil when it is still warm. When changing the oil, as much as possible of the old hydraulic oil must be drained out. (Drain the oil from the hydraulic tank; also drain the oil from the filter and from the drain plug in the circuit.) If any old oil is left, the contaminants and sludge in it will mix with the new oil and will shorten the life of the hydraulic oil. 6)

Flushing operations After disassembling and assembling the equipment, or changing the oil, use flushing oil to remove the contaminants, sludge, and old oil from the hydraulic circuit. Normally, flushing is carried out twice: primary flushing is carried out with flushing oil, and secondary flushing is carried out with the specified hydraulic oil.

oi

I

TEP01358

71

Cleaning operations After repairing the hydraulic equipment (pump, control valve, etc.) or when running the machine, carry out oil cleaning to remove the sludge or contaminants in the hydraulic oil circuit. The oil cleaning equipment is used to remove the ultrafine (about 3~) particles that the filter built into the hydraulic equipment cannot remove, so it is an extremely effective device.

TEW00211

D475A-3

20-211 0

CHECKS BEFORE TROUBLESHOOTING

TROUBLESHOOTING

CHECKS BEFORE TROUBLESHOOTING Item

.JJijeement

Action

Check fuel level, type of fuel

-

Add fuel

Check for impurities in fuel

-

Clean, drain

Check hydraulic oil level

-

Add oil

4.

Check hydraulic strainer

-

Clean, drain

5.

Check swing machinery oil level

-

Add oil

Check engine oil level (oil pan oil level), type of oil

-

Add oil

Check coolant level

-

Add water

B.

Check dust indicator for clogging

-

Clean or replace

9.

Check hydraulic filter

-

Replace

1.

Check for looseness, corrosion of battery terminal, wiring

-

Tighten or replace

2.

Check for looseness, corrosion of alternator terminal, wiring

-

Tighten or replace

3.

Check for looseness, corrosion of starting motor terminal, wiring

-

Tighten or replace

1.

Check for abnormal noise, smell

-

Repair

Check for oil leakage

-

Repair

3.

Carry out air bleeding

-

Bleed air

1.

Check battery voltage (engine stopped)

1. 2. 3.

6. 7.

2.

20 - 3ov

Replace

Check battery electrolyte level

-

Add or replace

3.

Check for discolored, burnt, exposed wiring

-

Replace

4.

Check for missing wiring clamps, hanging wiring

-

Repair

Check for water leaking on wiring (be particularly careful attention

-

Disconnect

2.

5.

connector and dry

to water leaking on connectors or terminals) 6.

Check for blown, corroded fuses

7.

Check alternator voltage (engine running at l/2 throttle or above)

8.

Check operating sound of battery (when switch is turned ON/OFF)

20-2 12 0

Wter running for several minutes: 27.5 - 29.5V -

Replace Replace

Replace

DA75A-3

TROUBLESHOOTING

CONNECTOR Conrector No. 101

location

Address

Connectar No.

Intermediate

connector

K-2

260

1

2 I Intermediate

connector

I l-l

1 1 262 I

1

2 1Intermediate

connector

I I-l

I

x

104 1X

TYPES AND MOUNTING

No. of pins

Type

103 1X

CONNECTOR TYPES AND MOUNTING

16

Mounting

LOCATIONS Type

I

I’

No. of Dins

I

Intermediate

connector

K-2

264

SWP

112

x

4

Intermediate

connector

J-2

270

Terminal 1

122

SWP

12

Intermediate

connector

x-3

1 28u

137 I Terminal I 1 I Electricalintakeair heater(rightbank) I C-8 I

371

1M

153

L-3

372

M

connector

B-2

373

M

connector

C-l

374

IM

I

I A-7 I I 375 I M

I

4 I Caution lamp

I-

I A-5 I I 402 IX

I

2 I Engine water temperature sensor! Z-l

I

204

IM

I

I I Left front lamp

I Right front Iamp

I 403

209

x

4

Intermediate

212

M

4


213

IM

M

4 I Preheating 14

2

connector

Alarm buzzer

4 I Rear lamp switch 4

-

IM

I

2

I I Left working

223

IM

I

1

I Left

lamp

rear lamp

241

SWP

4

Intermediate

241

l-pin connector

1

Backup alarm

242

SWP

6

Intermediate

connector

connector

-

( -

I Enoine

oil pressure sensor

I B-7 b-l

405

x

2

Radiatorwater level sensor (main)

B-7

414

Terminal 1

431

Electricalintakeair heater(left bank) A-3

I SWP I 14 I Intermediate 1X

IX

connector

I w-3

I 2 I Fuel level sensor I 2 I Intermediate connector

I v-2

16

Intermediate

I J-9

451

SWP

connector

K-3

452

X

1

Hydraulic oil temperature sensor

2

Torqueconverteroil temperature sensor L-3

Q-l

x

506

SWP

14

Intermediate

connector

w-3

I O-7 I

577

SWP

12

Intermediate

connector

w-2

578

SWP

6

Intermediate

connector

u-2

connector

I w-3

I K-2 I

992

SWP

16

Intermediate

connector

v-2

I L-6 I

993

SWP

16

Intermediate

connector

w-3

o-3

994

SWP

14

Intermediate

connector

d-7

I 599

I SWP I 12 I Intermediate

1SWP I 14 I Intermediate

F-9

r&5-

P-2

I ADH I

I

4 I Additional

connector

I d-7

heater switch

I M-7

I L-9I

I

1 I Right rear lamp

244

IX

(

2 I Ripper pin-puller solenoid valve1 l-9 I

250

I Terminal I 1 I Starting switch (terminal

D475A-3

washer motor

453

IM

Starting switch (terminal

Window

2 I Window washer motor

1M-6

243

Terminal 1

2

I

-

Engine oil level sensor

421

-

Diode

washer motor

2

1 422

Front lamp &working lamp switch O-7

221

Window

x

O-6

connector

I Terminal I

2

404

A-6

I P-7 I I

switch

Intermediate

220

255

I-

1 2 1Window washer motor

Intermediate

I

219

I A-4

Intermediate

IM

I

I-

3

203

IM

1 I-I

compressor

12

SWP

218

C) I P-9

connector

An conditioner

Q-7

connector

x

l-pin connector

Starting switch (terminal ACC)

Intermediate

202

217

w-7

4

201

:::I

1

w-7

connector

1 4 ( Intermediate

I

1354x

SWP

switch

I Terminal I I I Starting switch (terminal IX

BR)I P-8

I V-7

6

Intermediate

214

I

Ripper pin-puller

4

I

I

2

x

136 I Terminal I 1 I Electricalintakeair heater(left bank) I B-7 I

Address

location

2 I Horn switch

111

x

Mounting

Terminal 1 1 1 Starting switch (terminal

263

135 I Terminal 1 1 I Electricalintakeair heater(rightbank) I B-7 1 I 301

LOCATIONS

B) I Q-9 I RI)

P-9

20-2 13 co

TROUBLESHOOTING


LOCATIONS

Mounting location

20-214 0

D475A-3

TROUBLESHOOTING

D475A-3


LOCATldNS

20-215 0

TROUBLESHOOTING


LOCATIONS

241

DRT 2 206 HRN 209 207 406 206 204 CSR 351 ANE ANR

ANB 206 4 402

-

/

/

SR3 iSL[///

,

201 404 202

//

/

//

SR5

20-216 0

D475A-3


TROUBLESHOOTING

UNL

+

I

D475A-3

LU2

TMM

243

244

431

LOCATIONS

GNDP

BVDOO819

20-217 0

TROUBLESHOOTING


\

270

LOCATIONS

CN-10

/I

w

\ i’y

BLU \ RPU \

//-

I \

-._ 'f

20-218

\

'BBt'

D475A-3


TROUBLESHOOTING

CN-8

+ ’

LOCATIONS

1 lCN-l~N-L,

,262

E21. E41.

E61. E62. El 1. E31.

E32

1. M51 1. M31.

M32

.* GCR

l\ +

D475A-3

\ 461 GND3

\ CN-17

/

//I

221 BVD0082 1

20-219 0


TROUBLESHOOTING

996

LOCATIONS

984

AF2

AF'\

402

20-220 0

\

D475A-3

CONNECTION

TROUBLESHOOTING

CONNECTION j,

TABLE FOR CONNECTOR

The terms male and female refer to the pins, while refer to the mating portion of the housing.

No. of pins

TABLE FOR CONNECTOR

T

the terms

PIN NUMBERS

PIN NUMBERS male housing

and female

Female

housing)

housing

X type connector Male (female

housing)

(male

at=

2

0

TEwoo222

1

3

3 : 2 TEW00223

TEW00224

4

TEW00225

D475A-3

20-22 1 co

CONNECTION TABLE FOR CONNECTOR PIN NUMBERS

TROUBLESHOOTING

No. of pins

T

SWP type connector Female (male housing)

Male (female housing) 4

1

6

Kid

8 8

4

m i

12

TEW00237

TEW00236

1

_--.__ ______

5

0 0

9

1

4

5

8

9

12 BLtwO35

BLwoo34

1 4

8

11

3

10 i4

11

8

4

1

14 7

TEW00239

b

1

16

1

4

5

8

9

2

ELF%036

20-222 0

D475A-3

CONNECTION

TROUBLESHOOTING

No. of pins

r

TABLE FOR CONNECTOR

PIN NUMBERS

M type connector Male (female

Female

housing)

(male

housing)

. 2

I i

i

Em38

BLW0039

3

El

2

@ Y 1 TEW00244

TEwoo243

3

1

@% 4

2 TEW00246

4

1

@ 3’

‘6

TEW00247

TEWC0248

BLPmO41

D475A-3

20-223 0

CONNECTION

TROUBLESHOOTING

No. of pins

T

TABLE FOR CONNECTOR

PIN NUMBERS

S type connector Male (female

Female

housing)

(male

housing)

8

‘8

4

TEW00249

TEwoo250

10

io

5

TEW00251

I

12 (White

BEL00113

12

5

6

I

EEL001 14

16 (White

7

20-224 0

I6

EEL00115

BEL00116

D475A-3


TROUBLESHOOTING

No. of pins

T

S type connector Male (female

Female

housing)

(male

housing)

10 (Blue)

s

10 1

BEL00117

BELO

6

6

1

12 (Blue:

TEWOO254

16 (Blue

BLpooo44

D475A-3

20-225 0

TROUBLESHOOTING

No. of pins


T

MIC connector Female (male housing)

Male (female housing)

BLPOO046

BLFiXW47

8

BLtWO46

13

13

BLFU0049

17

1

1

BLFUOO52

BLFUoO51

11

21

21 / i

20-226 0

j

TEN'00259

D475A-3

CONNECTION

TROUBLESHOOTING

No. of pins

r

AMP040 Male

(female

type

TABLE

FOR CONNECTOR

PIN NUMBERS

connector Female

housing)

(male

housing)

4

8

8

BLPcoO54

12

12

6

7

i

3L 8

BLFmm

16

16

1

9 BLWOO57

10

TEW00232

20

SEEI I 20

s

1 1 mFuoo5a

D475A-3

20-227 0

CONNECTION

TROUBLESHOOTING

No. of pins

T

AMP070 Male (female

PIN NUMBERS

type connector Female

housing) 1

TABLE FOR CONNECTOR

(male

housing)

7

8

6

4 BLPWOS

12

8 BLFOOO61

20-228 0

D475A-3


TROUBLESHOOTING

No. of pins

T

2

L type type connector Male (female

&I

Female

housing)

(male housing)

1

q

m

2

m

TEW00258

D475A-3

20-229 0

CONNECTION

TROUBLESHOOTING

No. of pins

T

Automobile Male (female

TABLE FOR CONNECTOR

connector Female

housing)

PIN NUMBERS

FB B

(male

housing)

I

2

3

BV'LO1141

BVLO1140

2

1

4

3’

4

20-230 0

‘4

BVL01142

BVLO1143

ELMlO

BLKW70

ELF03371

BLFWO72

1

D475A-3

No. of pins

TABLE FOR CONNECTOR PIN NUMBERS

CONNECTION

TROUBLESHOOTING

T

Relay connector Male (female

Female

housing)

Y

5

3

1

5

6

6

(male

housing)

3

BLFQOO73

BLFUW74

6

5

6 U

5

2

1

BLP00075

D475A-3

J

ELF%076

20-231 0

EXPLANATION OF FUNCTIONS OF CONTROL MECHANISM OF ELECTRICAL SYSTEM

TROUBLESHOOTING

EXPLANATION

OF FUNCTIONS

OF CONTROL MECHANISM

OF ELECTRICAL SYSTEM

I

(@

SSC initial

setting

connector

I

,

oil

level

sensor (iJ

Monitor

@Fwitch

Dane1

erter oil tewerature sensor (Lock-up

mode switch

signal)

!Economu

mode switch

sienal)

(Reverse slow mode switch (Shoe slip

mode switch

(Rockbed selection

aode switch sitnat)

(S-NET)

----a--

I

signal) signal)

a

IO

@Engine

speed sensor

(rioht

Rioht

bank)

@Engine

controller

bank

fuel

injection

PUITIP

0

@Rishmnor

cut relay

@Left sovernor

cat relay

I @Buzzer

cancel

Left

bank

fuel

injection

PUMP

@-l7;k-&-s:---~

snitch -c

I

13 14 TVDOll63

20-232 0

D475A-3


TROUBLESHOOTING

@Blade

RAISE

oil

Pressure

switch

@Blade

LOWER oil

Pressure

switch

@Blade @Blade

RIGHT

TILT

oil

@Ripper

UP oil

@Ripper

DOWN oil

@Ripper

TILT

IN oil

ORinner

TILT

BACK oil

oressure

Pressure

switch

@Pitch

@DabI

c

Pressure

selection solenoid

@Pitch

duan assist solenoid

@Pitch

back assist solenoid

@Pitch

dump solenoid

@Pitch

back

switch

Pressure

switch c

@Left

a EVERSE oil

Pressure

switch

@Machine

9

lever -

tilt

switch

c

@Blade

solenoid

switch

oressure

1st

selection

oil

Pressure

switch

nd oil

Pressure

switch

controller

tilt

solenoid

linit

solenoid

limit

solenoid

@Rinht

tilt

@Pitch

independent solenoid

@Left

battoa drain solenoid

@Backup

alarm

relay

FRONT switch

@TornueGerter

speed

sensor

@Work

@I enuknent

oil

Pressure

sensorfl401

@Work

enuEment

oi I pressure

sensorf1001

c

TVDOl164

D475A-3

20-233 0

TROUBLESHOOTING

Functions of machine monitor system . Monitor panel (I) receives the signals from

. .

.

.

.

.

.

.

.

.

.

.

.

each switch and sensor and the S-NET data from the engine controller and machine controller. It then calculates these and drives or displays the lamps, gauges, tachometer, and service meter, displays codes when an abnormality occurs, and also carries out monitoring of the functions and machine condition. The voltage generated by alternator (2) is input to the monitor panel. Radiator water level sensor (3) detects the water level in the radiator sub tank and inputs an ON/OFF signal to the monitor panel. Engine oil level sensor (4) detects the level of the oil in the engine oil pan and inputs an ON/OFF signal to the monitor panel. Engine oil pressure sensor (5) detects the engine oil pressure when the engine is running and inputs an ON/OFF signal to the monitor panel. Hydraulic oil level sensor (6) detects the level of the oil in the hydraulic tank and inputs an ON/OFF signal to the monitor panel. Air cleaner clogging sensor (7) detects clogging of the air cleaner from negative intake air pressure between the air cleaner and turbocharger, and inputs an ON/OFF signal to the monitor panel. Torque converter oil temperature sensor (8) detects the temperature of the oil in the power train and inputs an analog signal to the monitor panel. Fuel level sensor (9) detects the level of the fuel in the fuel tank and inputs an analog signal to the monitor panel. Engine water temperature sensor (10) detects the temperature of the engine cooling water and sends an analog signal to the monitor panel and engine controller. SSC initial setting connector (11) inputs an ON/OFF signal to the monitor panel to switch the initial setting of the SSC switch on the panel. Service switch (12) inputs an ON/OFF signal to the monitor panel to switch the display on the monitor panel and engine controller. Caution lamp (13) receives the ON/OFF signal output from the monitor panel and turns the lamp on or off. Alarm buzzer (14) receives the ON/OFF signal output from the monitor panel and turns the buzzer on or off.

20-234 0


Functions of engine throttle, pump controller control system Engine controller (15) receives the signals from the sensors, the S-NET data from the monitor panel, the S-NET data from the machine controller, and the SSC throttle command. It then calculates these and sends signals to the solenoid valves or relays to control the engine. Fuel control dial (16) detects the amount of opening of the throttle and inputs an analog signal to the engine controller. Deceleration potentiometer (17) detects when the decelerator pedal is depressed and inputs an analog signal to the engine controller. Engine speed sensors (18) and (19) detect the speed of the engine flywheel and input a pulse signal to the engine controller. The signal from left bank engine speed sensor (19) is also input to the machine controller. Governor cut relays (20) and (21) receive the ON/OFF signals output from the engine controller and supply or stop the power for the solenoids. Buzzer cancel switch (22).inputs the ON/OFF signal to the engine controller and machine controller to stop the buzzer when an abnormality occurs. Rack sensors (23) and (24) detect the position of the fuel injection pump rack and input an analog signal to the engine controller Pre-stroke solenoids (25) and (26) receive the analog signal output from the engine controller, and control the pre-stroke of the fuel injection pump. Governor solenoids (27) and (28) receive the analog signal output from the engine controller and control the functions of the fuel injection pump governor.

D475A-3

TROUBLESHOOTING

Functions of machine control system . Machine controller (29) receives the signals

.

.

.

.

.

.

.

.

.

.

from each switch and sensor, the switch signals from the monitor panel, and the SNET data from the monitor panel and engine controller. It then calculates these and outputs signals to the solenoid valves, relays, or engine controller to control the movement of the machine. Oil pressure switches (30), (311, (321, and (33) of the blade lever detect the operating condition of the blade lever and input an ON/OFF signal to the machine controller. Oil pressure switches (341, (35), (361, and (37) of the ripper lever detect the operating condition of the ripper lever and input an ON/OFF signal to the machine controller. Oil pressure switches (381, (391, (401, (411, and (42) of the transmission detect the gearshifting condition of the transmission and input an ON/OFF signal to the machine controller and engine controller. Transmission modulating oil pressure sensor (43) detects the modulating oil pressure and inputs an ON/OFF signal to the machine controller. Blade lever switches (44) and (45) detect the operating condition of the switches and input an ON/OFF signal to the machine controller. Torque converter speed sensor (46) detects the rotating speed of the torque converter output shaft and inputs a pulse signal to the machine controller. Work equipment oil pressure sensor [I401 (47) detects the discharge pressure of the main pump for the work equipment and inputs an analog signal to the machine controller. Work equipment oil pressure sensor [IO01 (48) detects the discharge pressure of the work equipment assist pump and inputs an analog signal to the machine controller. The acceleration sensor detects the position of the internal ball that moves when the machine travels, and inputs an analog signal to the machine controller. Torque converter lock-up solenoid (50) receives the ON/OFF signal output from the machine controller and engages or disengages the lock-up clutch and stator clutch.

D475A-3


Demand solenoid (51) receives the ON/OFF signal output from the machine controller and switches the demand valve. Unload solenoid (52) receives the ON/OFF signal output from the machine controller and switches the unload valve. Pitch selection solenoid (53) and dual tilt selection solenoid (54) receive the ON/OFF signal output from the machine controller and switch the main circuit of tilt cylinder. Pitch dump assist solenoid (55) and pitch back assist solenoid (56) receive the ON/OFF signal output from the machine controller and switch the assistance to the pitch main circuit. Pitch dump solenoid (57) and pitch back solenoid (58) receive the ON/OFF signal output from the machine controller and switch the pitch PPC circuit. Left tilt limit solenoid (59) and right tilt limit solenoid (60) receive the ON/OFF signal output from the machine controller and switch the tilt PPC circuit. Pitch independent solenoid (61) receives the ON/OFF signal output from the machine controller and switches the assist/ independent valve. Left bottom drain solenoid (62) receives the ON/OFF signal output from the machine controller and switches the left bottom drain valve. Backup alarm relay (63) receives the ON/ OFF signal output from the machine controller and switches the backup alarm circuit.

20-235 0

DISPLAY METHOD AND SPECIAL FUNCTIONS OF MONITOR PANEL

TROUBLESHOOTING

DISPLAY METHOD

AND SPECIAL FUNCTIONS

OF MONITOR

PANEL Economy

mode switch

Reverse switch

slow

TOP display

/

mode

Bottom

Caution

Buzzer

cancel

lamp

switch

/

Service

%I:Monitorinp mode To go to next item-press reverse slow mode switch:to so back to previous *2:Adjustment mode To so to next item, press reverse slow mode swit C h:to go back to previous t3:Service code display mode E:Code for existing problem.P:Code for problem hat occurred in past;Code displayed in turn on service meter To go to next item. press reverse slow mode SW tch;to go back to previous to clear code. press buzzer cancel switch(P on Y)

20-236 0

display

item.

press

itemtnot and

time

itemtnot

switch

buzzer

cancel

switch

available) of

occurrence

available); TVD01065

D475A-3

TROUBLESHOOTING


Procedure for switching to each mode

1

1 Serviciitch

m , 1

Economy

m;de

switch

1

rl

v

Tilt

adjustment

mode

____-__--------

lual tilt SuPerdozer ____-__--------

Buzzer (Press

cancel switch far 7 seconds)

Monitoring

mode

1

A1

Adjustment

mode

k’2

only

t Buzzer (Press

7

cancel switch for 7 seconds)

a jervice

code

display

mode

ki

TVD01066

D475A-3

20-237 0

TROUBLESHOOTING

1.

DISPLAY

METHOD

AND SPECIAL

FUNCTIONS

Normal display functions During normal operations, the speed range is shown on the top panel and the service meter is displayed on the bottom panel.

OF MONITOR

Speed

range

PANEL

display

0

[_T

!jervice

/ meter

display Tvoolo67

2.

User code display function when abnormality occurs If an abnormality occurs during operations and it is necessary to inform the operator, the user code and service meter are displayed in turn on the bottom panel. In the case of user codes with a high emergency level, the caution lamp flashes and the alarm buzzer sounds at the same time. The user codes are displayed only when an abnormality with a high emergency level occurs. This means that an abnormality may have occurred even when there is no user code display. If any problem is felt, always use the service code display mode to check if there is any service code.

User

code

q

[TT

Service

meter

[Displayed

in

turn]

TVDOI 068

20-238 0

D475A-3

TROUBLESHOOTING


User codes and type of abnormality User codes l

. . .

EOl

Action taken by machine

Type of abnormality

l

l

l

l

Torque converter lock-up does not come ON Blade is not automatically reset Blade speed is slow Pitch speed is slow Abnormality in engine water temperature monitor Abnormality in power train oil temperature monitor Abnormality in hydraulic oil temperature monitor Tilt limit has no effect

l

l

.

l

.

E02

. . l

CALL03

. . .

. CALL

D475A-3

Pitch is actuated when tilt is operated Pitch actuation stops Torque converter lock-up is not switched ON or is not switched OFF Engine runs on one bank (output is reduced) Engine speed cannot be controlled Abnormality in engine water temperature monitor

.

Engine cannot

.

be controlled

l

.

Stops automatic stop function When automatic stop function is not actuated, work is possible, but be careful

Flashes caution lamp, sounds alarm buzzer Stops tilt limit function If engine is stopped and then started again, tilt limit function, automatic stop function are not actuated, so work is possible, but be careful Flashes caution lamp, sounds alarm buzzer It is only possible to move machine to a safe place

Flashes caution lamp, sounds alarm buzzer Engine must be stopped immediately

20-239 0

TROUBLESHOOTING

3.

DISPLAY

METHOD

AND SPECIAL

FUNCTIONS

OF MONITOR

PANEL

Tilt adjustment mode display and function + This mode applies to the dual tilt dozer specification machine and superdozer specification machine. Ir For details of the method of using this mode, see TESTING AND ADJUSTING, Procedure for adjusting blade tilt control angle.

BVD00827

4.

Monitoring mode display function The condition of all parts of the machine can be checked on the monitor panel through the signals from the sensors installed to various parts of the machine. The method for displaying the monitoring data consists of values such as the engine speed, voltage, and current that are displayed as numerals, and the operating condition of the oil pressure switches and solenoid valves that are displayed as bits.

Monitoring

Monitoring

mode

data TVD01069

20-240 0

TROUBLESHOOTING


Monitoring code No. and display item + For details of items where the display unit is displayed Monitoring item

Code No.

I

as a bit, see Details of bit display

Engine speed

1 rpm

Machine controller

7R

Torque converter speed

1 rpm

Machine controller

bU

I

7H

Actuation status of transmission oil pressure switch

bh

I

Component

99

I

I

Display unit

items.

1 Travel speed (theoretically calculated value)

1

0.1 km/h

1 Machine controller

1 Bit display

1 Machine controller

Actuation status of blade lever oil pressure switch

Bit display

Machine controller

RH

Actuation status of ripper lever oil pressure switch

Bit display

Machine controller

55

Actuation status of solenoid valve

Bit display

Machine controller

5N

I S-NET connection status

l

I

Bit display

I

1 rpm

Engine controller

I I

FO

Engine control command speed

Fd

Fuel control dial voltage

10 mV

Engine controller

dd

Deceleration command speed

1 rpm

Engine controller

dU

Deceleration potentiometer voltage

I ~~10 mV

5d

Shoe slip control command voltage

10 mV

Machine controller

1R

Voltage of R.H. fuel injection pump rack position sensor

10 mV

Engine controller

I

2R

Voltage of L.H. fuel injection pump rack position sensor

IO mV

Engine controller

I

I

15

1 Current of R.H. fuel injection pump governor solenoid

10 mA

1 Engine controller

I

25

Current of L.H. fuel injection pump governor solenoid

10 mA

Engine controller

1P

Current of R.H. fuel injection pump pre-stroke solenoid

10 mA

Engine controller

2P

Current of L.H. fuel injection pump pre-stroke solenoid

10 mA

Engine controller

75

Engine water temperature sensor voltage

I

10 mV

Engine controller

1E

Engine speed A

I

1 rpm

Engine controller

2E

I Engine speed B

I

1 rpm

I Engine controller

I

I I I

I I I

HE

Actuation status of transmission oil pressure switch

HP

Work equipment circuit oil pressure (main 140 pump)

A5

Acceleration sensor voltager

5E

Shoe slip control command voltager

5R

Shoe slip control command speed

Lb

Left tilt angle sensor voltage

Rb

Right tilt angle sensor voltage

LA

Blade lift cylinder angle

HA

Work equipment circuit oil pressure (assist 100 pump)

D475A-3

1

Bit display

-7

Engine~~controller

7

I

Engine controller

1 kg/cm2

Machine controller

10 mV

Machine controller

10 mV

Engine controller

I

1 rpm

Engine controller

I

10 mV

Machine controller

IO mV

Machine controller

0.1”

Machine controller

1 kg/cm*

Machine controller

I

I I

I

I

20-241 0

TROUBLESHOOTING


Details of bit display items Ir The diagram on the right is an example

Sr

of the bit display (iJ 0, and @ display OFF condition 0, 0, and @ display ON condition Except for code 55, all data are displayed on the lower panel. Code 55 displays the actuation status of 10 solenoids on the top and bottom panels.

OFF

I

ON

OFF

ON

BVO00835

7H: Actuation status of transmission oil pressure switch HE: Actuation status of transmission oil pressure switch 0: FORWARD oil pressure switch 0: REVERSE oil pressure switch 0: 1st oil pressure switch 0: 2nd oil pressure switch 0: 3rd oil pressure switch @: Modulating * Item @ is displayed only at the instant the sensor *

is switched OFF when shifting gear. The display example in the diagram on the right shows the condition when FORWARD 1st is operated.

Bv000829

bH:Actuation condition of blade lever oil pressure switch RAISE oil pressure switch LOWER oil pressure switch (Not used) (Not used) Left tilt oil pressure switch Right tilt oil pressure switch The display example in the diagram on the right shows the condition when RAISE + left tilt are operated at the same time.

I

6V000830

I

BVO00830

RH:Actuation condition of ripper lever oil pressure switch 0: UP oil pressure switch 0: DOWN oil pressure switch 0: (Not used) 0: (Not used) 0: TILT BACK oil pressure switch @: TILT IN oil pressure switch * The display example in the diagram on the right shows the condition when UP + TILT BACK are operated at the same time.

20-242 0

TROUBLESHOOTING


55: Actuation status of super solenoid Single tilt specification and dual tilt specification 0: Left tilt limit solenoid 0: Demand solenoid 0: Pitch selection solenoid 0: Pitch dump assist solenoid 0: Pitch back assist solenoid @: Right tilt limit solenoid 0: (Not used) @: Unload solenoid @: Dual tilt selection solenoid @: Pitch dump solenoid @I: Pitch back solenoid 0: (Not used) * The display example in the diagram on the right shows the condition when the demand solenoid and pitch dump solenoid are ON.

Superdozer specification Left tilt limit solenoid Demand solenoid Pitch selection solenoid Pitch dump assist solenoid Pitch independent solenoid Right tilt limit solenoid (Not used) Unload solenoid Left bottom drain selection solenoid Pitch dump solenoid Pitch back solenoid (Not used) The display example in the diagram on the right shows the condition when the demand solenoid and pitch dump solenoid are ON.

5N: 0: 0: 0: 0: 0: @: Ir

BVD00831

S-NET connection status Engine controller Monitor panel (tachometer module) (Not used) Machine controller Monitor panel (caution module) (Not used) The diagram on the right shows the display conditions when normal (all items are ON)

BVD00832

D475A-3

20-243 0

TROUBLESHOOTING


5. Adjustment mode display and function This is used to check or change the model settings saved to memory inside the controller or to measure the engine high idling speed (engine controller control).

Adjustment code No. and adjustment item Code No.

Adjustment item

Content

High idling speed

The deceleration control is canceled by the machine controller and it becomes possible to measure the high idling speed by the engine controller control. fl For details of the method of operation, see TESTING AND ADJUSTING, Measuring engine speed.

30

Machine model setting

Used to check or change model code set inside controller fl For details of the method of operation, see TESTING AND ADJUSTING, Procedure for selecting machine model.

CR

Exclusive mode for factory

fl This mode is for the exclusive use of the factory, so it must not be touched.

CH

20-244 3 4

D475A-3

TROUBLESHOOTING

6.

DISPLAY

METHOD

AND SPECIAL

Service code display mode display and function If any abnormality is detected in the electrical system of the engine controller, machine controller, or monitor panel, the nature of the abnormality and the time of occurrence are saved to memory inside the monitor panel in the order of occurrence. When this mode is selected, the service codes saved to memory and the time of occurrence of the codes are displayed in turn on the service meter. The letter at the left side indicates the following: E: Problem still existing P: Problem that has returned to normal A maximum of 20 service codes can be saved in memory. If there is no service code saved in memory, I- -1 is displayed on the top panel.

FUNCTIONS

OF MONITOR

PANEL

Order of occurrence

Service

'0

code

mhih

\

o/u/)

E

[

J

I Service meter when problem

reading occurred

1

[Displayed

in

turn]

123JS.6 h/ TV1301071

Service

codes and abnormal

system Method of Troukk$ting User code re-enaction

Abnormal system EOIOI

1 Abnormality in network system (engine controller system)

I

S

1 N mode 1 CALL03 1

E0104

Abnormality in network system (monitor panel system)

s

N mode

CALL03

E0105

Abnormality in network system (machine controller system)

S

N mode

CALL03

S

I C mode I

-

EOlll

1 Abnormality in machine controller power source voltage

I

E0120

Short circuit in monitor caution lamp system

S

M mode

CALL03

E0121

Short circuit in monitor alarm buzzer system

S

M mode

CALL03

E0150

I Abnormality in machine controller EPPROM

I

S

I C mode I CALL03 I

E0151

Abnormality in specification selection

S

C mode

CALL03

E0152

Abnormality in network system

S

N mode

CALL03

Disconnection in torque converter speed sensor system

E

C mode

EOI

Short circuit in toraue converter speed sensor system

E

C mode

EOI

E0201 E0202 E0203 E0204

I Disconnection in transmission FORWARD & REVERSE oil pressure switch system I Short circuit in transmission

E0205 xhort E0206

circuit in transmission

FORWARDclutch oil pressure REVERSEclutch oil pressure

I Disconnectionin transmission1st & 2nd & 3rd oil pressure

switch switch switch

system

( 1

E+

I C mode 1

E+

I c mode I

EOl

1

EOI

1

E01

1

system

I

E+

1 C mode I

system

I

E+

I C mode I

EOI

1

EOI

)

E0207

I Short circuit in transmission 1st clutch oil pressure switch system I

E+

I C mode I

E0208

Short circuit in transmission 2nd clutch oil pressure switch system

E+

C mode

EOI

E0209

Short circuit in transmission 3rd clutch oil pressure switch system

E+

C mode

EOI

D475A-3

1

20-245 0

TROUBLESHOOTING

Service code

DISPLAY

METHOD

AND

SPECIAL

FUNCTIONS

Abnormal system

OF MONITOR

PANEL

Method Of kxIbksting User codc re-enaction

I

I

E0210

1 Disconnection in transmission modulating oil Dressure sensor svsteme

1

E0211

1 Abnormality in power train (torque converter) oil temperature

I

I

E

1 C mode 1

E

1 M mode )

EOl

Short circuit in torque converter lock-up solenoid system

E+

C mode

CALL03

E0213

Disconnection in torque converter lock-up solenoid system

E+

C mode

CALL03

E0220

Short circuit in transmission modulating oil pressure sensor system

E

C mode

S

1 C mode I

E02

E0212

E0301

1 Short circuit in left blade tilt angle sensor system

I

-

-

E0302

Disconnection in left blade tilt angle sensor system

S

C mode

E02

E0303

Short circuit in right blade tilt angle sensor system

S

C mode

E02

E0304

I Disconnection in right blade tilt angle sensor system

S

I C mode I

E02

C mode

-

C mode

-

I

E0305

Short circuit in blade RAISE oil pressure switch system

E+

E0306

Short circuit in blade right tilt oil pressure switch system

E+

E0307

I Short circuit in blade left tilt oil pressure switch system

1

E+

E0308

Short circuit in ripper UP oil pressure switch system

E+

E0309

Short circuit in ripper DOWN oil pressure switch system

E0310

I Short circuit in ripper TILT IN oil pressure switch system

E0311

Short circuit in front button switch system

E0312

1

1 C mode 1

-

C mode

-

E+

C mode

-

E+

I C mode I

-

E+

C mode

-

Short circuit in top button switch system

E+

C mode

E0313

Short circuit in pitch back solenoid system

E+

C mode

CALL03

E0314

Disconnection in pitch back solenoid system

S

C mode

CALL03

E0315

Short circuit in pitch dump solenoid system

E+

C mode

CALL03

E0316

I Disconnection in pitch dump solenoid system

E0317

Short circuit in left tilt limit solenoid system

I

S

I C mode I CALL03

E+

C mode

E02

E0318

Disconnection in left tilt limit solenoid system

S

C mode

E02

E0319

Short circuit in right tilt limit solenoid system

E+

C mode

E02

E0320

Disconnection in right tilt limit solenoid system

S

C mode

E02

E0321

Short circuit in dual selection solenoid system

E+

C mode

CALL03

E0322

Disconnection in dual selection solenoid system

S

C mode

CALL03

Short circuit in pitch selection solenoid system

E+

C mode

CALL03

E0324

Disconnection in pitch selection solenoid system

S

C mode

CALL03

E0325

Short circuit in pitch back assist solenoid system

E+

C mode

EOl

E0326

Disconnection in pitch back assist solenoid svstem

S

C mode

EOI

E0327

I Short circuit in pitch dump assist solenoid system

E+

I c mode I

EOl

E0323

1

E0328

Disconnection in pitch dump assist solenoid system

S

C mode

EOl

E0329

Abnormality in hvdraulic oil temperature

E

M mode

E01

E0330

Short circuit in blade LOWER oil pressure switch

E+

Cmode

E0332

Short circuit in unload valve solenoid system

E+

C mode

EOI

E0333

Disconnection in unload valve solenoid system

S

C mode

EOl

20-246 0

-

D475A-3

TROUBLESHOOTING


Service code E0334

Short circuit in demand valve solenoid

E0335

Disconnection

E0336

Short circuit in ripper TILT BACK oil pressure switch system

E0337

Short circuit in pitch independent

S

C mode

E0338

Disconnection

E0339

Short circuit in left bottom

E0340

Disconnection

system

in demand valve solenoid

system

solenoid

in pitch independent

system

solenoid

drain solenoid

in left bottom

1 Abnormality

E0352

Abnormality

E0360

Short circuit in work equipment

E0361

Disconnection in work equipment

E0362

Short circuit in work equipment

E0363

Disconnection in work equipment

E0401

Abnormality

in engine controller

E0402

Abnormality


E0403

Mistaken

E0405

Abnormality

in fuel control

E0406

Abnormality

in deceleration

E0407

Abnormality

in shoe slip control

E0409

1 Abnormality

system

system

drain solenoid

1 E0351

I

Method of Troublesting User code re-enaction

Abnormal system

system

in standard value of blade tilt angle sensor in compensated

connection

I

E+

C mode

E01

S

C mode

EOl

E+

C mode

CALL03

E+

C mode

CALL03

S

C mode

CALL03

E+

C mode

CALL03

S

1 C mode 1

EOl

value of blade tilt angle sensor

S

C mode

E01

oil pressure sensor (140 DumD) system

E

C mode

EOI

E

C mode

EOI

E

C mode

EOl

E

C mode

EOl

S

E mode

CALL

S

E mode

CALL

S

E mode

CALL

oil pressure sensor (140 pump) system oil pressure sensor (140 pump) system oil pressure sensor (140 pump) system power source voltage


S

E mode

CALL03

system

S

E mode

CALL03

value

S

E mode

CALL03

dial system potentiometer command

in engine speed sensor A system

I

E

I E mode I CALL03 I

E0410

Abnormality in engine speed sensor B system

E

E mode

CALL03

E0411

Abnormality

in right rack sensor system

S

E mode

CALL03

E0412

Abnormality

in left rack sensor system

S

E mode

CALL03

E0413

Abnormality

in rack sensor power source system

S

E mode

CALL03

E0421

Short circuit in right governor

S

E mode

CALL

S

E mode

CALL

S

E mode

CALL

system

S

E mode

CALL

cut relay system

S

E mode

EOl

S

E mode

EOl

S

E mode

EOI

S

E mode

EOl

E0422

Disconnection

E0423

Short circuit in left governor

E0424

Disconnection

E0425

Short circuit in right governor

solenoid

in right governor

E0426

Disconnection

E0427


E0428

Disconnection

solenoid

solenoid

in left governor

system

system

solenoid

in right governor

system

cut relay system

cut relay system

in left governor

cut relay system

E0430

Abnormalitv

in enoine oil pressure

E

M mode

CALL

E0431

Abnormality

in radiator

S

M mode

CALL

E0432

Abnormality

in engine water temperature

E

M mode

01

E0433

Short circuit in left ore-stroke

S

E mode

CALL03

E0434

1 Disconnection in left pre-stroke

D475A-3

water level

solenoid solenoid

svstem system

I

S

1

I E mode I CALL03 I

20-247 0

TROUBLESHOOTING

Service code 1 E0435

Ir

*

AND SPECIAL

FUNCTIONS

PANEL

Method of Tro&Itting User code re-enaction

Abnormal system

1 Abnormality in engine water temperature sensor system

OF MONITOR

I

E

1 E mode 1 CALL03 1


S

E mode

CALL03

E0437

Abnormalitv in riaht aovernor servo

S

E mode

CALL

s

1E mode

I Abnormality in left governor servo

I

I

CALL

1

E0440

Disconnection in solenoid power source 1 system

S

E mode

CALL

E0441

Disconnection in solenoid Dower source 2 system

S

E mode

CALL

E0442

Abnormality in engine controller backup power source system

S

E mode

CALL03

E0443

Abnormality in engine controller switch power source system

S

E mode

CALL03

E0455

Engine overheating

E

E mode

E0456

Short circuit in riaht ore-stroke solenoid svstem

S

E mode

CALL03

E0457

Disconnection in right pre-stroke solenoid system

S

E mode

CALL03

E0501

Short circuit in acceleration sensor system

S

C mode

EOI

E0502

Disconnection in acceleration sensor svstem

S

C mode

EOl

S

I C mode

s+

C mode

EOI EOI

1 E0601

Ir

METHOD

E0436

1 ~0436

I

DISPLAY

I Short circuit in buzzer cancel switch system

I

-

I

-

E0610

Short circuit in backup alarm relay system

E0611

Disconnection in backup alarm relay system

S

C mode

E0632

Short circuit in bedrock selection mode switch system

S

C mode

-

E0633

Disconnection in bedrock selection mode switch system

S

C mode

-

E

I C mode I

-

E0930

I Disconnectionin engine speed sensor system (machine controllersystem) I

Method of re-enaction S: Service code that can be re-enacted when starting switch is turned ON S+: Service code that can be re-enacted when starting switch is turned ON and applicable switch lever is operated E: Service code that can be re-enacted when engine is started E+: Service code that can be re-enacted when engine is started and applicable switch or lever operated Troubleshooting mode N mode: Troubleshooting of network system (N mode) E mode: Troubleshooting of engine controller system (E mode) C mode: Troubleshooting of machine controller system (C mode) M mode:Troubleshooting of monitor panel and electrical equipment system (M mode) Re-enaction of service code and method of confirming return to normal The procedure for re-enacting the service code and checking that the condition has returned normal after repair is as follows. 1) Switch to the service code display mode and check the service code that is displayed. Ir Make a note of all the service codes. 2) Delete the service codes. 3) Carry out the re-enaction of all the service codes that were displayed. * For details of the method of re-enaction, see the above table or the section troubleshooting. 4) Check if the service codes on the service code display are displayed or not displayed.

20-248 0

I

I

or

is

to

on

D475A-3

METHOD

TROUBLESHOOTING

OF USING

METHOD OF USING TROUBLESHOOTING 1. Category of troubleshooting code number Troubleshooting

2.

TROUBLESHOOTING

CHARTS

CHARTS

Contents

Code No.

N-00

Troubleshooting

of network

system

E-00

Troubleshooting

of engine

c-00

Troubleshooting

of machine

H-00

Troubleshooting

of hydraulic,

M-00

Troubleshooting

of monitor

controller controller

system system

mechanical

system

panel and electrical

system

Method of using troubleshooting table for each troubleshooting mode code number and problem 1) Troubleshooting The title of the troubleshooting chart gives the troubleshooting code, and problem with the machine. 2) General precautions When carrying out troubleshooting for the problem, precautions that apply to all items are given at the top of the page and marked with *. The precautions marked * are not given in the I, but must always be followed when carrying out the check inside the /. conditions 3) Distinguishing Even with the same problem, the method of troubleshooting may differ according to the model, component, or problem. In such cases, the problem is further divided into sections marked with small letters (for example, a)), so go to the appropriate section to carry out troubleshooting. If the troubleshooting table is not divided into sections, start troubleshooting from the first check item in the failure mode. chart (See Example 0) 4) Method of following troubleshooting Check or measure the item inside 0, and according to the answer follow either the YES line or the NO line to go to the next I. (Note: The number written at the top right corner of the I is an index number; it does not indicate the order to follow.) . Following the YES or NO lines according to the results of the check or measurement will lead finally to the Cause column. Check the cause and take the action given in the Remedy column on the right. . Below the I there are the methods for inspection or measurement, and the judgement values. If the judgement values below the I are correct or the answer to the question inside the I is YES, follow the YES line; if the judgement value is not correct, or the answer to the question is NO, follow the NO line. . Below the I is given the preparatory work needed for inspection and measurement, and the judgement values. If this preparatory work is neglected, or the method of operation or handling is mistaken, there is danger that it may cause mistaken judgement, or the equipment may be damaged. Therefore, before starting inspection or measurement, always read the instructions carefully, and start the work in order from Item I). tools 5) Troubleshooting When carrying out the troubleshooting, prepare the necessary troubleshooting tools. For details, see TOOLS FOR TESTING, ADJUSTING, AND TROUBLESHOOTING. 6) Installation position, pin number A diagram or chart is given for the connector type, installation position, and connector pin number connection. When carrying out troubleshooting, see this chart for details of the connector pin number and location for inspection and measurement of the wiring connector number appearing in the troubleshooting flow chart for each problem. l

D475A-3

20-249 0

TROUBLESHOOTING

METHOD

OF USING

TROUBLESHOOTING

CHARTS

@ M-8 When starting switch is turned on, monitor panel gives no display @ Ir Before carrying out troubleshooting, check that all the related connectors are properly inset-ted. * Always connect any disconnected connectors before going on to the next step. @

a)

Caution

module

(Gauge/lamp

unit) gives no display

Cause

YES

Defective monitor panel (caution module)

1 Is voltage between CNI (I) and (2) normal?

-

2

Is voltage between CNl (1) NO and chassis ground normal?

* Turn starting switch ON. *20-30V


M-8 Related

Defective contact or disconnection in wiring harness between CNl (female) (2) -chassis ground Defective contact or disconnection in wiring harness between CNl (female) (1) -fuse 12

YES

electrical

Monitor

NO

Remedy

Replace

Repair or replace

Repair or replace

circuit diagram

Panel

CNl Power

source

(d2)

215

(16)

421

(14)

(24V)

Bl 1 (14)

Fuse

box

$J

GND

214

(14)

GND5 77%

20-250 0

TV001 139

D475A-3

TROUBLESHOOTING OF NETWORK SYSTEM (N MODE)

Action taken by controller Electrical

circuit diagram

when

abnormality

occurs and problems

on machine..

.......................

.20-302

of N mode system .....................................................................................

.20-304

Service codes of network

system ... . ....................................................................................................

.20-305

N-l

[EOIOII

Abnormality

in network

system

(engine

N-2

iE01041 Abnormality

in network

system

(monitor

panel system)

N-3

fE01051 Abnormality

in network

system

(machine

controller

N-4

[EOIOII,

[E01041, and [E01051 are displayed

(Abnormality

in network

system

controller

system)

is displayed..

is displayed..

system)

............. ..20-30 6

...................

is displayed..

.20-307

.......... ..20-30 8

at same time

is displayed)

..........................................................................

.20-309

N-5

IE01521 Abnormality

in network

system

is displayed..

.............................................................

.20-310

N-5

IE04361 Abnormality

in network

system

is displayed..

.............................................................

.20-310

D475A-3

20-301 0

ACTION TAKEN BY CONTROLLER WHEN ABNORMALITY OCCURS AND PROBLEMS ON MACHINE

TROUBLESHOOTING

ACTION TAKEN BY CONTROLLER WHEN ABNORMALITY OCCURS AND PROBLEMS ON MACHINE User code

Service code

Abnormal

Nature

system

of abnormality

% When the monitor l

EOlOl

Abnormality in network system (engine controller system)

-

z l

E0104

Abnormality in network system (monitor panel system)

CALL 03

l

panel detects an abnormality in the network of the engine controller system When service code EOIOI is generated independently 1. Defective contact or disconnection in wiring harness between monitor panel TO1 (9)(10) and engine controller E41 (6) 2. Defective engine controller When service codes E0104 and E0105 are generated at same time 1. Short circuit with ground, defective contact, disconnection in wiring harness or hot short between monitor panel TO1 (9HlO) - monitor panel CNI (11)(12) - engine controller E41 (6) - machine controller M32 (4) 2. Defective monitor panel (tachometer module) When the monitor panel detects an abnormality in the network of the monitor panel (caution module) system When service code E0104 is generated independently 1. Defective contact or disconnection in wiring harness between monitor panel TO1 (9)(10) and monitor panel CNl (11)(12) 2. Defective monitor panel (caution module) When service codes EOIOI and E0105 are generated at same time 1. Short circuit with ground, defective contact, disconnection in wiring harness or hot short between monitor panel TO1 (9HlO) - monitor panel CNI (11)(12)-engine controller E41 (6) -machine controller M32 (4) 2. Defective monitor panel (tachometer module)

.% When the monitor panel detects an abnormality in the network of the machine controller system When service code E0105 is generated independently 1. Defective contact or disconnection in wiring harness between monitor panel TO1 (9)(10) and machine controller M32 (4) 2. Defective machine controller When service codes EOlOl and E0104 are generated at same time 1. Short circuit with ground, defective contact, disconnection in wiring harness or hot short between monitor panel TO1 (9)(10) - monitor panel CNI (11)(12) - engine controller E41 (6) - machine controller M32 (4) 2. Defective monitor panel (tachometer module) l

E0105

Abnormality in network system (machine controller system)

l

I l

E0152


l

When the machine controller detects an abnormality in the network When service code E0152 is generated independently 1. Defective machine controller When service codes EOIOI, E0104, and E0105 are generated at same time Sr Same as for each service code

% When the engine controller detects an abnormality in the network When service code E0436 is generated independently 1. Defective engine controller When service codes EOlOl, E0104, and E0105 are generated at same time Ir Same as for each service code l

E0436

20-302 0


l

D475A-3

TROUBLESHOOTING

Condition when normal (voltage, current, resistance)


Action by controller when abnormality is detected

Problem that appears on machine when there is abnormality

1. Flashes caution lamp. 2. Sounds alarm buzzer.



1. Speed range display is not given. 2. Tachometer display is not given. 3. Lock-up lamp goes out.

1. Speed range display is not given. 2. Tachometer display is not given. 3. Lock-up lamp goes out.

D475A-3

20-303 0

TROUBLESHOOTING

ELECTRICAL CIRCUIT DIAGRAM OF N MODE SYSTEM

ELECTRICAL CIRCUIT DIAGRAM

OF N MODE SYSTEM

ENGINE CONTROLLER SYSTEM

Engine

Monitor

controller

S-NET S-NET S-NET

(+I (-) (+) CNI

Machine

controller

Panel

S-NET S-NET S-NET

(-) (+) (+)

S-NET S-NET S-NET

C-1 (+I (+I

(AMPI~)

TXD01072

20-304 0

D475A-3

TROUBLESHOOTING

SERVICE CODES OF NETWORK

SERVICE CODES OF NETWORK SYSTEM

SYSTEM

The monitor panel, engine controller, and machine controller make up a network having the circuit shown in “Electrical circuit diagram of N mode system”. The monitor panel, engine controller, and machine controller monitor the communicating condition of the network respectively. If any abnormality occurs, they display the corresponding service code. I) Monitor panel The monitor panel monitors the communicating condition of each network component device. If any abnormality occurs in a device, the monitor panel displays one of the following service codes. (1) EOIOI: An abnormality has occurred in the engine controller system. (2) E0104: An abnormality has occurred in the monitor panel (caution module) system. (3) E0105: An abnormality has occurred in the machine controller system. 2) Engine controller The engine controller monitors the communicating condition of the whole network. If any abnormality occurs in the communicating condition, the engine controller displays the following service code. (4) E0152: An abnormality has occurred in a system of the whole network. (The name of the troubled system is not displayed.) 3) Machine controller The machine controller monitors the communicating condition of the whole network. If any abnormality occurs in the communicating condition, the machine controller displays the following service code. (4) E0436: An abnormality has occurred in a system of the whole network. (The name of the troubled system is not displayed.) Since the network is monitors by the above three devices, if any abnormality occurs in the network system, multiple service codes are displayed at the same time. For quick troubleshooting, it is important to know by using the monitoring mode, etc. what system each service code indicates.

D475A-3

20-305 0

N-l

TROUBLESHOOTING

N-l *

[EOIOI] Abnormality is displayed

in network

system (engine controller

system)

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P“ is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

+ *

Cause

YES

- Goto N-4.

~

II

WXl7Y~l?

* Turn

starting switch OFF. * Disconnect TO1 and E41. * Max. 1 R

N-l

Related

electrical

NO

Defective engine controller

Replace

Defective contact or disconnection in wiring harness between TO1 (female) (9) (10) - E41 (female) (6)

Repair or replace

circuit diagram Monitor

Engine

controller

Panel

TO; (16) E41 (12) S-NET

S-NET

(-1

S-NET

(+I

(+I

:NI (AMPEX)

t

3g-g

!--

Machine

controller

S-NET

(+I

S-NET

(+I

TXDOlO57

20-306 0

D475A-3

N-2

TROUBLESHOOTING

N-2 [E0104] Abnormality displayed * Ir *

in network

system (monitor

panel system) is

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carving out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

YES

Go to N-4.

1 Are service codes lEOlOll, [E01051 _ displayed at same time? * Turn starting switch ON. NO

2 YES Is resistance between TO1 (female) (91 (10) and CNl (female) (11) (12) normal? NO

* Turn starting switch OFF. * Disconnect TO1 and CNl. * Max. 1 n

N-2 Related

electrical


Replace

Defective contact or disconnection in wiring harness between TO1 (female) (9) (10) - NC1 (female) (ll), (12)

Repair or replace


Engine

controller

I

E41 (12)

TO1 (16) 214 (14)

S-NET

(+I

3

S-NET

(-1

3

S-NET

(+I

S-NET

(-)

-1 I-

1

I

CNl (AMP12) I I S-NET

Machine

Panel

I

I (+I

controller

I

M32 (16)

TXDOl057

D475A-3

20-307 0

N-3

TROUBLESHOOTING

N-3 [E0105] Abnormality in network system) is displayed

system (machine controller

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

Remedy

Cause

YES 1

l

N-3 Related

Go to N-4.

I

Are service codes IEOlOll, IE01041 _ displayed at same time? ~ Turn starting switch ON. NO

2 YES Is resistance between TO1 (female) (9) (10) and M32 (female) (4) normal? NO * Turn starting switch OFF. * Disconnect TO1 and M32. * Max. 1 R

electrical

Defective machine controller

Replace

Defective contact or disconnection in wiring harness between TO1 (female) (9) (10) - M32 (female) (4)

Repair or replace

circuit diagram

Monitor Engine

Panel

r

controller

TO1 (16)

I E41 (12) S-NET

(+I

S-NET

(-1

S-NET

(+I

I CN~ (AMPEX) @

Machine

1

S-NET

(-1

1-n

S-NET

(+I

---a

S-NET

(+I

controller

S-NET

(+I

S-NET

(+)

TXDOl057

20-308 0

D475A-3

N-4

TROUBLESHOOTING

N-4 [EOIOI], [E0104], and [E0105] are displayed at same time (Abnormality in network system is displayed) If the starting switch was turned off after the abnormality occurred, turn the starting switch on and has check that the service code displays “E” at the head. (If “P” is displayed, the condition returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Do all service

YES

- Disconnect CNl. *Turn starting switch ON.

Do all service codes go off’?

I\

YES 3

* Disconnect M32. Do all service + Turn starting NG codesgooff7 switch ON. * Disconnect E41. * Turn starting switch ON.

4 YE! Is voltage between _ TO1 (female) (9) NO (10) and chassis ground normal? * DisconnectTOl. -Turn starting switch ON. * Min. 7.5 V

NC


Replace


Replace


Replace

Defective monitor panel (tachometer module)

Replace

Defective contact, disconnection or short circuit with chassis ground in wiring harness between TO1 (female) (9) (10) - CNl (11) (12)- E41 (female) (6) - M32 (female) (4) or between E41 (female) (12) - M32 (female) (12)

Repair or replace

N-4 Related electrical circuit diagram Monitor Engine

controller

Panel

TO1 (16) E41 (i2)

S-NET

(+I

@-

S-NET

(-1

@-

S-NET

(+I

@-

Machine

-a

S-NET

(+I

controller

I

I

M32 (16) S-NET

(+I

S-NET

(+I

TXD01057

D475A-3

20-309 0

N-5

TROUBLESHOOTING

N-5 [E0152] Abnormality *

in network

system is displayed

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.)

Cause

Go to N-4.

[E01041,and [El051 * Turn starting switch ON.

Is any one of [EOlOll, IE01041, and [El051 disr9aved. too?

h

L l

I urn startmg switch ON.

H NV

N-5 [E0436] Abnormality *

in network

Go to N-l, 2, or 3 according to displayed service code.


?eplace

system is displayed

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and has check that the service code displays “E” at the head. (If “P” is displayed, the condition returned to normal.)

Cause

YES

Go to N-4.

1

all of service IAre codes [EOlOll,

I

[E01041,and tE1051 _ displayed, too? * Turn starting switch ON.

2

YES

Is any one of [EOIOII, LE01041, NO and [El051 displayed, too? * Turn starting switch ON.

20-310 0

Remedy

NO

Go to N-l, 2, or 3 according to displayed service code.


Replace

D475A-3

TROUBLESHOOTING OF ENGINE CONTROLLER SYSTEM (E MODE)


circuit diagram

when

abnormality

occurs and problems

on machine..

........................

20-402 20-408

of E mode system .......................................................................................

E- 1

IE04011 Abnormality

in engine

controller

power

E- 2

[E04021 Abnormality

in engine

controller

is displayed

E- 3

[E04031 Mistaken

connection

in engine

source voltage

controller

.................. .20-410 20-410

........................................................... ............................................

.20-411

................................................

20-412

is displayed

dial system

is displayed..

E- 4

[E04051 Abnormality

in fuel control

is displayed

E- 5

[E04061 Abnormality

in deceleration

E- 6

[E04071 Abnormality

in shoe slip control

E- 7

IE04091 Abnormality

in engine

speed sensor A system

is displayed

..................................

.20-415

E- 8

IE04101 Abnormality

in engine

speed sensor 8 system

is displayed..

..................................

20-416

E- 9

[E04111 Abnormality

in right rack sensor system

E-10

IE04121 Abnormality

in left rack sensor system

E-11

IE04131 Abnormality

in rack sensor power

potentiometer

E-12

lE04211 Short circuit in right governor

E-13

IE04221 Disconnection

E-14

[E04231 Short circuit in left governor

E-15


E-16 E-17 E-18

[E04271 Short circuit in left governor

E-19


E-20

[E04331 Short circuit in left pre-stroke

command

is displayed..

solenoid

system

.20-417

...............................................

20-418

............................

.20-419

..................................

20-420

...............................

20-421

is displayed

system

20-414

.............................................

is displayed

system

20-413

...............................

is displayed..

source system

solenoid

..........................................

value is displayed

is displayed

solenoid

in right governor

is displayed

is displayed

....................................

.20-422

system

is displayed

.................................

.20-423

IE04251 Short circuit in right governor

cut relay system

is displayed

.................................

.20-424

LEO4261 Disconnection

cut relay system

is displayed..

...............................

.20-425

...................................

20-426

................................

20-427

in left governor

solenoid

in left governor

cut relay system

in left governor

E-21

IE04341 Disconnection fE04351 Abnormality

in engine

E-23

IE04371 Abnormality

in right governor

E-24

[E04381 Abnormality

in left governor

in left pre-stroke

system

solenoid

...................................

20-428

...............................

.20-429

is displayed

sensor system

is displayed..

............... .20-430

servo is displayed

....................................................

.20-431

servo is displayed..

.....................................................

.20-431

E-25

[E04401 Disconnection

solenoid

power

E-26


in power

supply system

E-27

(E04421 Abnormality

in engine

controller

backup power

E-28

[E04431 Abnormality

in engine

controller

switch

E-29

[E04551 Engine overheating

E-30

IE04561 Short circuit in right pre-stroke

E-31


E-32

Engine does not revolve when

E-33

Engine does not stop when

D475A-3

is displayed

system

water temperature

source

is displayed

in right pre-stroke starting

starting

is displayed..

cut relay system solenoid

E-22

is displayed..

1 system

is displayed

2 of solenoid

power

.................................

is displayed..

source system source system

.20-432

.......................

..... .20-433

is displayed.. is displayed..

...... -20-434

................................................................................. solenoid solenoid switch

switch

is displayed

system

.20-435 .20-436

............................

20-437

to ON position.. ...........................

20-438

system

is turned

................................

is displayed..

20-432

is turned to OFF position.. ..............................

.20-441

20-401 0


TROUBLESHOOTING


Service code Abnormal

system

Nature

E0401

Abnormality in engine controller power source voltage

% When controller power source voltage is less than 36 V 1. Defective controller

E0402

Abnormality in engine controller

% Data written to RAM inside controller do not match read data 1. Defective controller

E0403

Mistaken connection in engine controller

engine controller connector E31 and connector E51 are mistakenly connected 1. Mistaken connection of connector E31 and connector E51 2. Controller E31 (1) short circuiting with ground 3. Defective contact or disconnection in wiring harness between controller E51 (1) and chassis ground 4. Defective controller

Abnormality in fuel control dial system

X When input voltage from fuel control dial is less than 0.3 V or more than 4.55 V 1. Defective fuel control dial 2. Short circuit with power source, short circuit with ground, defective contact, or disconnection in wiring harness between controller E31 (6) and fuel control dial FCS (1) 3. Short circuit with power source, short circuit with ground, defective contact, or disconnection in wiring harness between controller E32 (1) and fuel control dial FCS (2) 4. Defective contact or disconnection in wiring harness between controller E31 (16) and fuel control dial FCS (3)

CALL

sx When

E0405

I When input voltage from deceleration potentiometer is less than 0.3 V or more than 4.55 V 1. Defective deceleration potentiometer 2. Short circuit with power source, short circuit with ground, defective contact, or disconnection in wiring harness between controller E31 (61 and fuel control dial FCD (1) 3. Short circuit with power source, short circuit with ground, defective contact, or disconnection in wiring harness between controller E32 (11) and fuel control dial FCD (2) 4. Defective contact or disconnection in wiring harness between controller E31 (16) and fuel control dial FCD (3)

E0406

Abnormality in deceleration potentiometer system

E0407

Abnormality in shoe slip control command value

% When input voltage from machine controller is less than 0.3 V or more than 4.55 V 1. Defective machine controller 2. Short circuit with power source, short circuit with ground, defective contact, or disconnection in wiring harness between controller E31 (9) and SSC controller M21 (17) 3. Defective controller

Abnormality in engine speed sensor A system

+X When input from engine speed sensor A becomes less than 300 rpm after engine is started 1. Defective left engine speed sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E31 (3) and speed sensor El6 (1) 3. Defective contact or disconnection in wiring harness between controller E31 (14) and speed sensor El6 (2) 4. Defective controller

E0409 CALL 03

I E0410

Abnormality in engine speed sensor B system

1. 2. 3. 4.

E0411

E0412

20-402 0

of abnormality

Abnormality in right rack sensor system

Abnormality in left rack sensor system

When input from engine speed sensor B becomes less than 300 rpm after engine is started Defective right engine speed sensor Short circuit with ground, defective contact, or disconnection in wiring harness between controller E31 (2) and speed sensor El2 (1) Defective contact or disconnection in wiring harness between controller E31 (14) and speed sensor El2 (2) Defective controller

+Z When input voltage from rack sensor is less than 0.1 V or more than 4.4 V 1. Defective right rack sensor 2. Short circuit with ground, short circuit with power source, defective contact, or disconnection in wiring harness between controller E21 (16) and rack sensor El3 (1) 3. Defective contact or disconnection in wiring harness between controller E51 (1) and rack sensor El3 (2) 4. Short circuit with ground, short circuit with power source, defective contact, or disconnection in wiring harness between controller E31 (7) and rack sensor El3 (3) 5. Short circuit with ground, short circuit with power source, defective contact, or disconnection in wiring harness between controller E31 (17) and rack sensor El3 (4) 6. Defective controller f When input from rack sensor is less than 0.1 V or more than 4.4 V 1. Defective left rack sensor 2. Short circuit with ground, short circuit with power source, defective contact, or disconnection in wiring harness between controller E21 (16) and rack sensor E9 (1) 3. Defective contact or disconnection in wiring harness between controller E51 (1) and rack sensor E9 (2) 4. Short circuit with ground, short circuit with power source, defective contact, or disconnection in wiring harness between controller E31 (81 and rack sensor E9 (3) 5. Short circuit with ground, short circuit with power source, defective contact, or disconnection in wiring harness between controller E31 (18) and rack sensor E9 (4) 6. Defective controller

D475A-3

TROUBLESHOOTING

Condition when normal (voltage, current, resistance) * Voltage

between El1 (7) - (8)(16): 20 - 30 V * Voltage between El1 (9K17) - (8Kl6): 20 - 30 V




1. Lights up caution lamp, sounds alarm buzzer 2. Stops engine

1. Engine cannot be controlled

1. Stops engine

1. Engine cannot be controlled

* Voltage between E31 (1) - chassis: 20 - 30 V * Voltage between E51 (1) - chassis: Max. 1 V

1. Lights up caution lamp, sounds alarm buzzer

- Voltage between E31 (6) - (16): 4.6 - 5.4 V * Voltage between E32 (1) - E31 (16): 0.3 - 4.55 V

1. Lights up caution lamp, sounds alarm buzzer 2. Controls with deceleration potentiometer signal 3. After machine is stopped (neutral). fixes engine speed at 1300 rpm

1. Engine speed cannot be controlled

* Voltage between E31 (6) - (16): 4.6 - 5.4 V . Voltage between E32 (11) - E31 (16): 0.3 - 4.55 V

1. Lights up caution lamp, sounds alarm buzzer 2. Controls with fuel control dial signal 3. After machine is stopped (neutral), fixes engine speed at 1300 rpm

1. Engine speed cannot be controlled

. Voltage between E31 (9) - chassis: 0.3 - 4.55 V

1. Lights up caution lamp, sounds alarm buzzer 2. Controls with fuel control dial signal 3. After machine is stopped, stops shoe slip control function

1. Shoe slip control is not actuated

* Resistance of speed sensor: 500 - 1000 R * Voltage between E31 (3) - (14): 0.5 - 3.0 V (AC range)

1. Lights up caution lamp, sounds alarm buzzer 2. Controls with signal from engine speed sensor 6

* Resistance of speed sensor: 500 - 1000 R * Voltage between E31 (2) - (14): 0.5 - 3.0 V (AC range)

1. Lights up caution lamp, sounds alarm buzzer 2. Controls with signal from engine speed sensor A

* Voltage - Voltage

between E31 (7) - E51 (1): 0.1 - 4.4 V between E31 (17) - E51 (1): 0.1 - 4.4 V

1. Lights up caution lamp, sounds alarm buzzer 2. Sets right fuel injection pump to NO INJECTION condition

1. Engine runs on one bank

* Voltage between E31 (8) - E51 (1): 0.1 - 4.4 V . Voltage between E31 (18) - E51 (1): 0.1 - 4.4 V

1. Lights up caution lamp, sounds alarm buzzer 2. Sets left fuel injection pump to NO INJECTION condition


D475A-3

20-403 0


TROUBLESHOOTING

User code

Service code Abnormal system

Nature of abnormality ?% When

‘;y

Abnormality in rack sensor power source system

power source voltage of rack sensor is less than 4.6 V 1. Defective right rack sensor or left rack sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E21 (16) and right rack sensor El3 (1) or left rack sensor E9 (1) 3. Defective contact or disconnection in wiring harness between right rack sensor El3 (2) or left rack sensor E9 (2) and chassis 4. Defective controller

E0421

Short circuit in right governor solenoid system

%%When output current to governor solenoid is more than 2.1 A 1. Defective right governor solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller E21 (7) and governor solenoid El5 (11 3. Short circuit with power source in wiring harness between controller E21 (17) and governor solenoid El5 (2) 4. Defective controller

E0422

Disconnaction in right governor solenoid system

Z When output current to governor solenoid is less than 0.1 A 1. Defective right governor solenoid 2. Defective contact or disconnection in wiring harness between controller E21 (7) and governor solenoid El5 (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E21 (17) and governor solenoid El5 (2) 4. Defective controller

E0423

Short circuit in left governor solenoid system

% When output current to governor solenoid is more than 2.1 A 1. Defective left governor solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller E21 (8) and governor solenoid El1 (1) 3. Short circuit with power source in wiring harness between controller E21 (18) and governor solenoid El 1 (2) 4. Defective controller

E0424

Disconnection in left governor solenoid system

% When output current to governor solenoid is less than 0.1 A 1. Defective left governor solenoid 2. Defective contact or disconnection in wiring harness between controller E21 (8) and governor solenoid El 1 (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E21 (18) and governor solenoid El1 (2) 4. Defective controller

E0425

Short circuit in right governor cut relay system

I When output voltage to right governor cut relay is more than 5 - 15 V 1. Defective right governor cut relay 2. Short circuit with power source in wiring harness between controller El1 (4) and relay GCR (2) 3. Defective controller

E0426

Disconnection in right governor cut relay system

%%When output voltage to right governor cut relay is less than 5 - 15 V 1. Defective right governor cut relay 2. Defective contact or disconnection in wiring harness between starting switch ACC terminal and relay GCL (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller El1 (4) and relay GCR (2) 4. Defective controller

E0427

Short circuit in left governor cut relay system

% When output voltage to left governor cut relay is more than 5 - 15 V 1. Defective left governor cut relay 2. Short circuit with power source in wiring harness between controller El1 (5) and relay GCL (2) 3. Defective controller

Disconnection in left governor cut relay system

% When output voltage to left governor cut relay is less than 5 - 15 V 1. Defective left governor cut relay 2. Defective contact or disconnection in wiring harness between starting switch ACC termi nal and relay GCL (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller El1 (5) and relay GCL (2) 4. Defective controller

Short circuit in left pre-stroke solenoid system

% When output current to pm-stroke solenoid is more than 2.1 A 1. Defective left pra-stroke solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller E21 (10) and pre-stroke solenoid El0 (1) 3. Short circuit with power source in wiring harness between controller E21 (20) and prestroke solenoid El0 (2) 4. Defective controller

E0413

CALL

EOI

E0428

‘;y

E0433

20-404 0

D475A-3


TROUBLESHOOTING


-

Voltage between E21 (6) - chassis: 5 V


Problem that appears on machine? when there is abnormality

1. Lights up caution lamp, sounds alarm buzzer 2. Reduces engine output by 20%

1. Lacks power

- Resistance of solenoid: 10 - 21 Q



. Resistance of solenoid: 10 - 21 Q



* Resistance of solenoid: 10 - 21 R



. Resistance of solenoid: 10 - 21 R




1. Lacks power

* Resistance of relay: 200 - 900 Q + Voltage between El1 (4) and (13): 20 - 30 V

- Resistance of relay: 200 - 900 R - Voltage between El1 (4) and (13): 20 -

30 V

. Resistance of relay: 200 - 900 Q . Voltage between El1 (5) and (14): 20 - 30 V

. Resistance of relay: 200 - 900 fi * Voltage between El 1 (5) and (14): 20 - 30 V

- Resistance of solenoid: 10 - 21 Q

D475A-3

20-405 0

ACTION TROUBLESHOOTING

User code

Service code

Abnormal

TAKEN

BY CONTROLLER WHEN ABNORMALITY OCCURS AND PROBLEMS ON MACHINE

Nature

system

of abnormality

% When E0434

Disconnection in left pm-stroke solenoid system

CALL 03

CALL

a

E0435

Abnormality in engine water temperature sensor system

When input voltage from engine water temperature sensor is less than 0.3 V or more than 0.5 V 1. Defective engine water temperature sensor 2. Short circuit with power source, short circuit with ground, defective contact, or disconnection in wiring harness between controller E32 (5). monitor panel CN2 (1) - engine water temperature sensor 402 (1) 3. Defective contact or disconnection in wiring harness between engine water temperature sensor 402 (2) and chassis ground 4. Defective controller or monitor panel

E0437

Abnormality in right governor servo

1. Defective right governor solenoid system or rack sensor system (governor command value and rack sensor signal do not match) 2. Abnormality in solenoid power source R system 3. Defective controller

E0438

Abnormality in left governor servo

1. Defective left governor solenoid system or rack sensor system (governor command value and rack sensor signal do not match) 2. Abnormality in solenoid power source L system 3. Defective controller


% When controller switch power source is more than 24 V but solenoid power source R is less than 5 V 1. Defective right governor cut relay 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E21 (1) and relay GCR (6) 3. Defective contact or disconnection in wiring harness between E21 (21) and chassis ground 4. Defective controller


% When controller switch power source is more than 24 V but solenoid power source L is less than 5 V 1. Defective left governor cut relay 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E21 (12) and relay GCL (6) 3. Defective contact or disconnection in wiring harness between E21 (21) and chassis ground 4. Defective controller

E0440

E0441

E0442

Abnormality in engine controller backup power source system

E044.3

Abnormality in engine controller switch power source system

E6455

Engine overheating

CALL 03

-

% When backup power source voltage is more than 5 V lower than switch power source voltage 1. Blown fuse 1 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller El 1 (7) and fuse 1 3. Defective controller

% When

E0456

switch power source voltage is more than 5 V lower than backup power source voltage 1. Defective starting switch 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller El1 (9K17) and starting switch ACC terminal 3. Defective controller

% When engine water temperature is more than 105°C

Short circuit in right pm-stroke solenoid system

CALL 03

I When output current to pre-stroke solenoid is more than 2.1 A 1. Defective right pre-stroke solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller E21 (9) and pre- stroke solenoid El4 (1) 3. Short circuit with power source in wiring harness between controller E21 (19) and prestroke solenoid El4 (2) 4. Defective controller

I

E0457

20-406 0

output current to pre-stroke solenoid is less than 0.1 A 1. Defective left pre-stroke solenoid 2. Defective contact or disconnection in wiring harness between controller E21 (10) and prestroke solenoid El0 (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E21 (20) and pre-stroke solenoid El0 (2) 4. Defective controller

Disconnection in right pre-stroke solenoid system

When output current to pm-stroke solenoid is less than 0.1 A 1. Defective right pre-stroke solenoid 2. Defective contact or disconnection in wiring harness between controller E21 (9) and pre stroke solenoid El4 (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller E21 (19) and pre-stroke solenoid El4 (2) 4. Defective controller

D475A-3



* Resistance

TAKEN



of solenoid: 10 - 21 R


- Resistance of sensor: 3.8 - 80 kQ

1. Lights up caution lamp, sounds alarm buzzer 2. Controls with with engine water temperature taken as 90°C

Problem that appears on machint when there is abnormality 1. Lacks power

1. Lights up caution lamp, sounds alarm buzzer 2. Sets right fuel injection pump to NO INJECTION condition


1. Lights up caution lamp, sounds alarm buzzer 2. Sets left fuel injection pump to NO INJECTION condition


* Voltage between E21 (1) and (21): 20 - 30 V



- Voltage



between E21 (12) and (21): 20 - 30 V

* Voltage between El 1 (7) and (8X16): 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Drives with switch power source

* Voltage between El1 (9)(17) and (8)(16): 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Drives with backup power source

1. Lights up caution lamp, sounds alarm buzzer 2. Runs engine at low idling

1. Engine speed does not go up from low idling

. Resistance of solenoid: 10 - 21 R


1. Lacks power

* Resistance of solenoid: 10 - 21 R


1. Lacks power

D475A-3

20-407 0

TROUBLESHOOTING

ELECTRICAL CIRCUITAL DIAGRAM OF E MODE SYSTEM


OF E MODE SYSTEM

t

TV001058

20-408 0

D475A-3

TROUBLESHOOTING

ELECTRICAL CIRCUIT DIAGRAM OF E MODE SYSTEM

TVD01059

D475A-3

20-409 0

E-l, E-2

TROUBLESHOOTING

E-l *

[E0401] Abnormality displayed


power source voltage

is

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Cause

YES

Go to E-27.

1 Is service code [E04421 displayed, too? l

Turn starting switch ON.

2 -

YES

l


* *


NO

E-2 [E0402] Abnormality *

Go to E-28.

Is service code - LEO4431 NO displayed, too?


is displayed

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the Cause Remedy related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

1

Replace

Starting

E-2 Related Ensine

electrical

switch

circuit diagram

controller

~~~

I

I

TXDOl073

20-410 0

D475A-3

E-3

TROUBLESHOOTING

E-3 [E0403] Mistaken

connection


is displayed

Check that connectors E31, E32, E51, and E52 on the chassis side are properly connected to the engine controller. If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

* *

* *

Cause

1 YES Is voltage between E51 (1) and chassis ground normal? *Turn stkting switch ON. Max. 1 V

NO


Replace

Defective contact or disconnection in wiring harness between E51 (female) (1) -chassis ground

Repair or replace

l

E-3 Related

electrical

circuit diagram

Engine

controller

vy$+--_&

TXD01074

D475A-3

20-411 0

E-4

TROUBLESHOOTING

E-4 [E0405] Abnormality * * *

in fuel control dial system is displayed

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step. Remedy

Cause

YES 2 Is voltage between E32 (1) and chassis ground normal? ~ * Turn starting switch ON. * 0.7 - 4.3 v

YE

1

between E31 (6) and (16) normal?

_

YES 3

Is voltage between FCS (2) NO and chassis 4 YE! ground normal? lSreSiStance ~ between E32 * Turn starting - (female) 11) and switch ON. NO chassis ground * 0.7 - 4.3 v normal? *To”;;.starting switch N( * Disconnect * Min. 1 MR

-Turn starting switch ON. - 4.6 - 5.4 V

FCS and E32

YES

1 I

NO h

ground normal? * Turn starting switch ON. - 4.6 - 5.4 V

1 I *4.0-6.0kc2 Is voltage between E31 (6) NO and chassis ground normal? P * Turn starting switch ON. - 4.6 - 5.4 V

.1 ‘I

YES

EYE! Is resistance between

electrical

Engine

Replace

Defective contact or disconnection in wiring harness between E32 (female) (1) - FCS (female) (2)

Repair or replace

Defective fuel control dial

Replace

Short circuit with chassis ground in wiring harness between E32 (female) (1) - FCS (female) (2)

Repair or replace


Repair or replace


Replace


Repair or replace


Replace

Short circuit with chassis ground in wiring harness between E31 (female) (6) snd FCS (female) (I)

Repair or replace

E31

- (female) (6) and NO chassis ground normal? * Turn starting switch OFF. - Disconnect FCS and E31. - Min. 1 MR

E-4 Related


-

N(

circuit diagram

controller

F31 ti0)

Analog

(3)

Fuel

GND E32

FCS

dial

i (1 6)

TXDOl075

20-412 0

D475A-3

TROUBLESHOOTING

E-5

E-5 [E0406] Abnormality +

* *

in deceleration

potentiometer

is displayed

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step. Cause

YFS 2 YE

1

between E31 (6) and (16) normal? * Turn starting switch ON. * 4.6 - 5.4 V

s voltage between E32 (I 1) YES and chassis 3 ground normal? ~ Is voltage * Turn starting between FCD (2) switch ON. NO and chassis 4YE . 0.7 - 4.3 v ground normal? -lSreSiStancer P between E32 * Turn starting - (female!) (11) and u switch ON. NO chassis _ * 0.7 - 4.3 v ll0rlllei? -Turnstarting switch NI OFF. * DisconnectFCD and E3: . Min. 1 MR 6 YES

NO h

ground normal? * Turn starting switch ON. * 4.6 - 5.4 V

1 I a4.0-6.0kQ Is voltage between E31 (6) NO and chassis ground normal? -Turn starting switch ON. -4.6 - 5.4 V

.1

YES

8YE Is resistance between E31 - (female) (6) and NO chassis ground normal? *Turn starting switch OFF. - Disconnect FCD and E31. * Min. 1 MR

E-5 Related

electrical gine

II

Nj


Replace

Defective contact or disconnection in wiring harness between E32 (female) fll)-FCD (female) (2)

Repair or replace

Defective deceleration potentiometer

Replace

Short circuit with chassis ground in wiring harness between E32 (female) (11) - FCD (female) (2)

Repair or replace

Defective contact or disconnection in wiring harness between E31 (female) (16) - FCD (female) (3)

Repair or replace


Replace

Defective contact or disconnection in wiring harness between E31 (female) (6) - FCD (female) (1)

Repair or replace


Replace

Short circuit with chassis ground in wiring harness between E31 (female) (6) - FCD (female) (1)

Repair or replace

circuit diagram

controller

Analog

FCD

(3)

W 3

GND

3

---Lx

Decele Potent

Decelerator Potentiometer L

-

Remedy

rator iometer

I

TXD01076

D475A-3

20-413 0

E-6

TROUBLESHOOTING

E-6 [E0407] Abnormality in shoe slip control command value is displayed Ir If the starting switch was turned off after the abnormality occurred, turn the starting switch * *

on and has check that the service code displays “E” at the head. (If “P” is displayed, the condition returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

YES 1 Is voltage between E31 (9) and (16) normal? * Turn starting switch ON. al-4v

3 -

NO

Is voltage between M21 (17) and (11) normal?

Is resistance YES between E31 2 7 (female) (9) and M21 (female) (17) , normal?

YES

-

NO * Turn starting switch OFF. * Disconnect E31 and M21. * Max. 1 Q

* Turn starting switch ON. al-4v

I

NO


Replace

Short circuit with chassis ground in wiring harness between E31 (female) (9) - M21 (female) (17)

Repair or replace

Defective contact or disconnection in wiring harness between E31 (female) (9) - M21 (female) (17)

Repair or replace


1 Replace

E-6 Related electrical circuit diagram

Engine

I

controller

M21 (21)

I E31 (20)

n

GND

D

Ens ine

command

GND5 TXD01077

20-414 0

D475A-3

E-7

TROUBLESHOOTING

E-7 [E0409] Abnormality * + +

in engine speed sensor A system is displayed

If the starting switch was turned off after the abnormality occurred, start engine and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

Cause

2 YES

Wrong adjustment of engine speed sensor A

Adjust


Replace

;(-ZHl

AND ADJUSTING. * Start engine.

(female) (2) and

Defective contact, disconnection or short circuit with chassis ground in wiring

4 YES

harness between E31 (female) (2)- El6 (female)

Is resistance * Turn starting switch OFF. . Disconnect E31. ~500-1,000n

Engine

between

3

(female) (2) and El6

resistance El6 I\ ) (male) (1) and (2) normal? - starting s Turn Is

between

switch OFF. * Disconnect E16. ~500-1,000n

E-7 Related

YES

electrical

(female)

E31

Defective contact or disconnection in wiring

(1) normal?

harness between E31 (female) (14) - El6 (female)

* Turn starting NO switch OFF. * Disconnect E31 and E16. *Max. 1 D

Repair or replace

(1)

Repair or replace

(2)

Defective engine speed sensor A

NO

circuit diagram

controller 992

Engine

speed

A

(16)

995

(14)

E

E

a

8

El 6 (2)

Right speed

engine sensor

3 3

TXDOI 078

D475A-3

20-4 15 0

E-8

TROUBLESHOOTING

E-8 [E0410] Abnormality

in engine speed sensor B system is displayed

*

If the starting switch was turned off after the abnormality occurred, start engine and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Sr Before carrying out troubleshooting, check that all the related connectors are properly inserted. * Always connect any disconnected connectors before going on to the next step.

Cause

2 YES If speed sensor B is adjusted, is service code P u displayed? II

YE

1

(female) (3) and * Turn starting switch OFF. - Disconnect E31. * 500 - 1,000 n

* See TESTING AND ADJUSTING. * Start engine.

between El2 (male) (I) and (2) normal?

h

*Turn starting switch OFF. * Disconnect E12. *500-1,OOOR

E-8 Related

Engine

electrical

NO

I

4 YES

-Turn H

I

starting NO switch OFF. - Disconnect E31 and E12. * Max. 1 Q

NO

Remedy

Wrong adjustment of engine speed sensor B

Adjust


Replace

Defective contact, disconnection or short circuit with chassis ground in wiring harness between E31 (female) (3) - El2 (female) (1) - M41 (female) (1) Defective contact or disconnection in wiring harness between E31 (female) (14) - El2 (female) (2)

Defective engine speed sensor B

Repair or replace

Repair or replace

Replace

circuit diagram

controller

TXD01079

20-416 0

D475A-3

TROUBLESHOOTING

E-9

E-9 [E0411] Abnormality in right rack sensor system is displayed fl If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) fl If the operation can be continued, perform the checks in Steps 1 and 2 under the operating condition where a trouble occurs. fl Before carrying out troubleshooting, check that all the related connectors are properly inserted. fl Always connect any disconnected connectors before going on to the next step.

YES 1 Is voltage between E31 (7) and (17) normal? • Turn starting switch ON. • 0.1 – 4.5 V

YES 2 Is voltage between E13 (3) NO and (4) normal? • Turn starting switch ON. • 0.1 – 4.5 V

3 YES

NO

Is resistance between E13 (female) (3) and (2) and between (4) and (2) normal?

• Turn starting switch OFF. • Disconnect E31 and E13. • 50 kΩ – 1 MΩ

NO

Cause

Remedy


Replace with new part

Defective contact or disconnection in wiring harness between E31 (female) (7) – E13 (female) (3) or between E31 (female) (17) – E13 (female) (4)

Repair or replace

Defective right rack sensor

Replace rack sensor

Short circuit with chassis ground in wiring harness between E31 (female) (7) – E13 (female) (3) or between E31 (female) (17) – E13 (female) (4)

Repair wiring harness or replace


D475A-3

20-417 3 4

TROUBLESHOOTING

E-10

E-10 [E0412] Abnormality in left rack sensor system is displayed fl If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) fl If the operation can be continued, perform the checks in Steps 1 and 2 under the operating condition where a trouble occurs. fl Before carrying out troubleshooting, check that all the related connectors are properly inserted. fl Always connect any disconnected connectors before going on to the next step.

YES 1 Is voltage between E31 (8) and (18) normal? • Turn starting switch ON. • 0.1 – 4.5 V

YES 2 Is voltage between E9 (3) NO and (4) normal? • Turn starting switch ON. • 0.1 – 4.5 V

3 YES

NO

Is resistance between E9 (female) (3) and (2) and between (4) and (2) normal?

• Turn starting switch OFF. • Disconnect E31 and E9. • 50 kΩ – 1 MΩ

NO

Cause

Remedy


Replace with new part

Defective contact or disconnection in wiring harness between E31 (female) (8) – E9 (female) (3) or between E31 (female) (18) – E9 (female) (4)

Repair or replace

Defective left rack sensor

Replace rack sensor

Short circuit with chassis ground in wiring harness between E31 (female) (8) – E9 (female) (3) or between E31 (female) (18) – E9 (female) (4)

Repair wiring harness or replace


20-418 3 4

D475A-3

E-l 1

TROUBLESHOOTING

E-II *

* *

[E0413] Abnormality displayed

in rack sensor power source system is

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and has check that the service code displays “E” at the head. (If “P” is displayed, the condition returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

F

I


Y‘ES

Defective contact, disconnectionor short circuit with chassis ground in wiring harness between E21 (female) (16l- El3 (female) (1) - E9 (female) (1)

1

(female) (16) and E-51 (female) (11 *Turn starting switch OFF. * Disconnect E21 and E51. - Min. 500 kn

Cause

I Is resistance ing 1.

hIO

-Turn starting switch OFF. - Disconnect E21 and E51. - Min. 500 M

NO

Remedy

Replace

Repair or replace

Defective contact or disconnection in wiring harness between El3 (female) (2) - E9 (female) (2) -chassis ground

Repair or replace

Defective rack sensor having abnormal resistance

Replace

2

E-l 1 Related electrical circuit diagram Engine

controller E21 till

Right sensor Rack sensor

(+)

rack

L

E51 (20) Left rack sensor

v

nw

GND5 TXDOl082

D475A-3

20-419 0

TROUBLESHOOTING

E-12

E-12 [E04211 Short circuit in right governor solenoid system is displayed *

Sr Ir


Cause

YES

3 YES Is voltage YES between E21 - (female) (17) and 2 . chassis ground Turn starting -s reskance 7 w=~vJ*~~ FIF, (male) normal. :_...__.. _._, switch OFF. _ -Disconnect El5 NO j tze$ (2) ant * Disconnect E21. (1) (2) and and E21. NC chassis‘n grouna -Turn starting switch ON. shown in Table _“2s - Max. 1 V * Turn starting switch OFF. NO * Disconnect E15. (17) and between (7) (17) and chassis ground as shown in

l

Table

1

Remedy


Replace

Short circuit with chassis ground or power source in wiring harness between E21 (female) (7) - El5 (female) (1)

Repair or replace

Short circuit with power source in wiring harness between E21 (female) (17) - El5 (female) (2)

Repair or replace

Defective right governor solenoid

Replace

Table 2

E-12 Related Engine

electrical

circuit diagram

controller

I

E21 (2 1)

992 (1 6)

995 (14)

E 15 (2)

Govenor

solenoid

I+)

R

@

@

3

Govenor

solenoid

(-1

R

@

(IJ

3

Govenor solenoid (R. H)

TVDOI 165

20-420 0

D475A-3

E-13

TROUBLESHOOTING

E-13 [E0422] Disconnection displayed

in right governor solenoid system is


Cause


YE

Defective contact, disconnection or short circuit with chassis ground in wiring harness between E21 (female) (17) - El5 (female) (2)

1 (17) and between (7) (17) and chassis ground as shown in *Turn starting switch OFF. * Disconnect E21.

(1) and (2) and between (1) (2) and NC 1 chassis ground as i L

Turn starting switch OFF. * Disconnect E15.

l

Table

I

NO

Remedy

Replace

Repair or replace

Short circuit with power source in wiring harness between E21 (female) (7) - El5 (female) (I)

Repair or replace

Defective right governor solenoid

Replace

Table 2

1

fll

E-13 Related electrical circuit diagram Engine

controller

992 ,\, (16) Govenor

solenoid

(4

R

Govenor

solenoid

(-1

R

995 (14)

El 5 (2)

@

@

3

@

@

3

Govenor solenoid (R. H)

I

TVDOI 165

D475A-3

20-421 0

E-14

TROUBLESHOOTING

E-14 [E0423] Shot-t circuit in left governor solenoid system is displayed If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

Cause

Defective controller

YES

11 voltage between E21 (female) (8) and (18) and between (8) (18) and chassis ground as shown in Table l? Is

3 YES YES

2

* Turn starting Is between El1 (male) switch OFF. (1) and (2) and * Disconnect E21. Nc between (1) (2) and chassrs ground as shown in Table 2? * Turn starting switch OFF. * Disconnect El 1.

Table

Is voltage between E21 (female) (18) and chassis ground normal? p p NO - Disconnect El 1 and E21. *Turn starting switch ON. * Max. 1 V

NO

Replace

Short circuit with chassis ground or power supply in wiring harness between E21 (female) (8) - El1 (female) (1)

Repair or replace


Repair or replace

Defective solenoid

Replace

left governor

Table 2

1

E-14 Related

Engine

engine

Remedy

electrical

controller

circuit diagram

L. H. governor solenoid

TXD01083

20-422 0

D475A-3

E-15

TROUBLESHOOTING

E-15 [E0424] Disconnection displayed

in left governor solenoid system is


*

* *

Cause

Defective engine controller 1

I

voltage

Is between E21 (female) (8) and

3

(18) and between (8) _ (18) and chassis ground as shown in Table l?

YES

* Turn starting Ps resistance between El1 (male) switch OFF. and (2) and * Disconnect E21. NO- (1) between (1) (2) and chassis ground as shown in Table 2?

2

Is voltage between El1 (1) and chassis ground normal?

p *Turn starting switch ON. *20-30V

*Turn starting switch OFF. * Disconnect El 1.

Table

Defective contact, disconnection or short circuit with chassis ground in wiring harness between E21 (female) (18) -El 1 (female) (2)

YES


p NO

Defective solenoid

NO

Remedy

Replace

Repair or replace

Repair or replace

left governor

Table 2

1

-1

)I

E-15 Related

Engine

electrical

circuit diagram

controller

I,

993 (16)

E21 (;l) \

Governor

solenoid

(+I

L

Governor

solenoid

C-1 L

I

I

I

994 (14)

El 1 (2)

L. H. governor solenoid

I

8

Q

3

.D

18

3

3

3

TXD01083

D475A-3

20-423 0

E-16

TROUBLESHOOTING

E-16 [E0425] Short circuit in right governor cut relay system is _ _ displayed *

* *


Remedy

_i 2 YES


Is voltage between

YES El1 (female) (4) 1 Is resistance between GCR _ (male) (1) and (2) normal? * Turn starting switch OFF. mDisconnect GCR. ~200-900a

E-16 Related

and chassis ground normal?

Short circuit with power source in wiring harness between El1 (female) (4) - BCR (female) (2)

*Disconnect GCR NO and Eli. Turn starting switch ON. * Max. 1 V l

Defective right governor cut relay

NO

electrical

circuit diagram

R. H. governor cut relay Engine

Repair or replace

controller

I

El I (17)

Starting

switch

GCR (6)

TXD01084

20-424 0

D475A-3

E-17

TROUBLESHOOTING

E-17 [E0426] Disconnection displayed * * Ir

in left governor cut relay system is


I YES 3

I

-a I

I 3

ground normal? _

(male) (1) and (2) normal?


E-17 Related

Is voltage between GCR (1) and chassis ground normal? * Turn starting switch ON. *20-30V

I

-Turn starting switch OFF. * &connect GCR. ~200-900n

NO

NO

Remedy


Replace

Defective contact or disconnection in wiring harness between El 1 (female) (4) - GCR (female) (2)

Repair or replace

Defective contact, disconnectionor short circuit with chassis ground in wiring harness between GCR (female) (1) -ACC terminal 01 starting switch Defective right governor cut relay

’ NO

electrical

YES

Cause

Repair or replace

Replace

circuit diagram

R. H. governor cut relay Engine

1

D475A-3

controller

I

TXD01084

20-425 0

E-18

TROUBLESHOOTING

E-18

[E0427]


cut relay system is displayed


Cause

2 YES 1 r

normal?

- Turn

I

starting switch OFF. * Disconnect GCL. *200-g00R

E-18 Related

YES

Is voltage between El1 (female) (5) andchassis

and Ell. * Turn starting switch ON. Max. 1 V l

NO

electrical

Replace

Short circuit with power source in wiring harness between El 1 (female) (5) - GCL (female) (2)

Repair or replace

Defective left governor cut relay

Replace

circuit diagram

Starting

L. H. governor cut relay Engine


controller

I

El 1 (17)

E21 till

switch

GCL (6) (i)@@(Q(q

I

TXD01085

20-426 0

D475A-3

E-19

TROUBLESHOOTING

E-19 [E0428] Disconnection displayed * * Jr

in left governor

cut relay system is


I YES 2 Is voltage YES

lp Is resistance between GCL _ (male) (I) and (2) normal? . Turn starting switch OFF. * Disconnect GCL. .200-900R

E-19 Related

between

El 1 (5) and chassis ground normal? * Turn starting switch ON. *20-30V

3 P YES

~0


electrical

NO

I

Remedy


Replace

Defective contact or disconnection in wiring harness between El 1 (female) (5) - GCL (female) (2)

Repair or replace

Defective contact, diyxmnection or short circuit w$;;“.si;7em;;d$ wiring

Repairor replace

(female) (1)- ACC terminal of starting switch Defective left governor cut relay

NO

Replace

circuit diagram

L. H.

Engine

Is voltage between GCL (1) and chassis ground normal?

Cause

governor

controller

TXDOl085

D475A-3

20-427 0

E-20

TROUBLESHOOTING

E-20 sr * *

[E0433] Short circuit in left pre-stroke displayed

solenoid system is


Cause

YES

11

IS resistance baween E21 (female)(10)and (2)and between (10) (201and chassis

groundas shown in Table 17

3 YES Is voltage between E21 (female) (20) and chassis ground normal?

-

YES 2 * Turn starting Is rasrstance between El0 (male) switch OFF. (1)and 12)and NO * Disconnect E21. NG between (1) (2) and - * Disconnect El0 and E21. chassrsground as * Turn starting switch ON. shown in Table 27 * Max. 1 V . Turn starting l

Table

switch OFF. Disconnect EIO.

NO

Remedy


Replace

Short circuit with chassis ground or power supply in wiring harness between E21 (female) (10) - El0 (female) (I)

Repair or replace


Repair or replace

Defective left pre-stroke solenoid

Replace

Table 2

1

c

E-20 Related Engine

electrical

circuit diagram

controller

E21 Prestroke solenoid (+I Prest roke solenoid (-1

L L

th 1)

993 I

(1 6) I I

994

(14)

El0

@

g)

-g)

3

@

$J

3

3

(3)

,_,

Left Prest solenoid

roke

TXDOlOi36

20-428 0

D475A-3

E-21

TROUBLESHOOTING

E-21 [E0434] Disconnection displayed *

* *

in left pre-stroke

solenoid system is


Cause

YES

IJ

Is resistancebetween E21 (female)(10) and (2) and between (10) _ (20) and chassis groundas shown in ITable 17

*Turn starting switch OFF. * Disconnect E21. NO-

3 YES YES

2

Is resistance between El0 (male) _ (‘) a”d (2)(1) and between (2) and chassis ground as , shown in Table 27 I Turn starting switch OFF. * Disconnect EIO.

Is voltage between El0 (female) (I) and chassis ground normal? * Turn starting

switch

Remedy


Replace


Repair or replace

Defective contact or disconnection in wiring harness batween E21 (female) (IO) - El0 (female) (1)

NO

ON.

*20-30V

Defective left pre-stroke solenoid

l

NO

Replace

Table 2

Table 1

Resistance

El0 (male)

I

Between (I) - (2) Between (I) (2) - chassis

E-21 Related

Engine

Repair or replace

electrical

IO-21Q

1

Min. 1 MSZ

circuit diagram

controller

Prestroke solenoid Prest roke solenoid

1

Left

E21 thl, \ (+)

L

(-1

L

993 (1 6) I

I

@

3

@-

3

Prest id

roke

/l

TXD01086

D475A-3

20-429 0

E-22

TROUBLESHOOTING

E-22 [E04351 Abnormality is displayed *

* *


sensor system


Cause


YES

I 3 YES

E32

(female) 5 and

Is resistance

chassis ground as shown in following table?

*Turn starting switch OFF. * Disconnect E32.

YES 2

PIs resistance NO

Replace

Defective contact,

1 Is resistance between

Remedy

between 402 (female) (1) and 2 shown

in

as

-

between 402

-CNZ

(female) and chassis ground normal? eTurn

switch OFF. - Disconnect 402. * Max. 1 Q

following

table? * Turn starting switch OFF. . Disconnect 402.

(female)

Repair or replace

(1)


NO

starting

disconnection or short circuit with chassis ground in wiring harness between E32 (female) (5) - 402 (female) (1)

Repair or replace

harness between CN2 (female) (2) -chassis ground

Defective engine water temperature sensor

NO

Replace

Table Resistance

Engine water temperature 10 - 100°C

E-22 Related

Engine

Approx.

electrical

80 - 3.8 k&2

circuit diagram

Monitor

controller E32

Panel

I

I

(I 6)

215

(16)

CN2 (8) temperature

temp. sensor

Engine 214

(14)

7ja

20-430 0

water

temp. sensor

GND5

TXD01087

D475A-3

TROUBLESHOOTING

E-23 [E0437] Abnormality Jr

E-23, E-24

in right governor servo is displayed


Cause

Remedy

Go to Troubleshooting for fuel injection pump.

E-24 [E0438] Abnormality j,

in left governor servo is displayed


Cause

Remedy

Go to Troubleshooting for fuel injection pump.

D475A-3

20-431 0

E-25, E-26

TROUBLESHOOTING


solenoid power source 1 system is


Cause

Remedy

Go to E-17.


in power supply system 2 of solenoid is


Cause

Remedy

Go to E-19.

20-432 0

D475A-3

TROUBLESHOOTING

E-27

E-27 [E0442] Abnormality system is displayed *

li * *

in engine controller -

backup power source

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Check that fuse 1 is not broken. (If it is broken, check the circuit related to it for short circuit with chassis ground.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

I YES


1 I Is voltage between El1 (7) and (8) (16) normal? * Turn starting switch OFF. l20-30V

Cause

Replace

Defective contact or disconnection in wiring harness between El 1 (female) (8) (16) -chassis ground

Repair or replace

NO

Defective contact or disconnection in wiring harness between El 1 (female) (7) -fuse 1

Repair or replace

Is voltage between El 1 (7) ND and chassis ground normal? . Turn starting switch OFF. *20-30V

I

YES u

_ 2

Remedy


Engine

controller

El 1 (i7)

Fuse

box

A

TXDOlO66

D475A-3

20-433 0

1

E-28

TROUBLESHOOTING

E-28 [E0443] Abnormality system is displayed


switch power source


Cause

YES 1 Is voltage between El1 (9) (17) and (8) (16) normal?

_ 2 Is voltage between El 1 (9) NO (17) and chassis ground normal?


Turn starting switch ON. *20-30V l

E-28 Related

YES

electrical

NO

Replace

Defective contact or disconnection in wiring harness between E11 (female) (8) (16) -chassis ground

Repair or replace

Defective contact or disconnection in wiring harness between El1 (female) (9) (17) - ACC terminal of starting switch

Repair or replace

switch

controller

I

Fuse


circuit diagram Starting

Engine

Remedy

\

El 1 (171

POWER

(24V)

POWER

(24V)

box

GND5 81

1 (14)

421

(14)

215

(16)

TXD01089

20-434 0

D475A-3

E-29

TROUBLESHOOTING

E-29 [E0455] Engine overheating *

is displayed


Cause

1 YES Is any other service code displayed, too? - Turn starting switch ON.

0475A-3

NO

Remedy

Problem probably caused by other abnormality occurring at same time.

Check according to displayed service code.

Problem probably caused by abnormality in engine.

Go to troubleshooting for engine.

20-435 0

E-30

TROUBLESHOOTING

E-30 [E0456] Short circuit in right pre-stroke displayed *

* *

solenoid system is


Cause

1

I

. Turn starting switch OFF. Disconnect E21.

El4 hale) Wand

(2)

and between (1)(2) and chassisground

l

switch OFF. . Disconnect E14.

Table

-

3 YES Is voltage between

Disconnect El4

NO

Replace

Short circuit with chassis ground or power supply in wiring harness between E21 (female) (9) - El4 (female) (1)

Repair or replace


Repair or replace

Defective right pre-stroke solenoid

Replace

*Turn starting switch ON.

NO

Table 2

1

E-30 Related

tneine


electrical

circuit diagram

controller

E2 1 (2 1)

I Prestroke

solenoid

C-1

992 (1 6)

995 (14)

El4

GJ

3

@

3

(2)

I Right Prest roke solenoid

TXD01090

20-436 0

D475A-3

E-31

TROUBLESHOOTING

E-31 [E0457] Disconnection displayed Jr * Ir

in right pre-stroke

solenoid system is


I

Remedy


3

I

.. - I urn startmg l

switch OFF. Disconnect E21.

YES

EH_ between El4

knale)

* Turn starting switch OFF. * Disconnect E14.

Defective contact or disconnection in wiring harness between E21 (female) (9) - El4 (female) (I)

NO

*Turn starting switch ON. .20-30V

Defective right pre-stroke solenoid

JO

Repair or replace

Repair or replace

Replace

Table 2

Table 1

Between (9) - (19) Between (9) (19) - chassis

E-31 Related

electrical

El4 (male)

Resistance

Between (I) - (2)

10 - 21 a

Resistance

E21 (female)

tnaine


YE

1table 17

Replace

IO-21sz

I

1 Min. 1 MQ

1

I

I- Between

(1) (2) - chassis

) Min. 1 MR

1

circuit diagram

controller

992 (1 6)

995 (14) QJ

@

Right Prestroke solenoid

TXDOtO90

D475A-3

20-437 0

TROUBLESHOOTING

E-32

E-32 Engine does not revolve when starting switch is turned to ON position * * * * *

Check that any service code is not displayed. (If any service code is displayed, check according to it.) Check that fuse 1 is not broken. (If it is broken, check the circuit related to it for short circuit with chassis ground.) When performing any part of troubleshooting, turn the parking lever to the LOCK position. Before carrying out troubleshooting, check that all the related connectors are properly inserted. 5 YES Always connect any disconnected connectors before goI Isconnection of II ing on to the next step.

H N~~~~~ * Check visually. NO *Check both sides.

4

YEiS Is voltage between 103 (2). 104 (2) and chassis ground

YES

normal?

103 (1),104(l)

A------

. Disconnect ANR. NO chassis ground normal? *Turn starting Ilswitch ON. - Disconnect220. * Max. 1 V *Turnstarting switch ON. * Max. 1 V

and

* Turn starting switch to START position. -2O-30V

9 YES

NO -Turn starting switch OFF. - Disconnect TL2. * Max. 1 D 10 YES Is voltage between *Turn starting terminal C of switch to START - starting switch and position. NO chassis ground *20-30V normal?

Is voltage between TL2 (3) hIO and chassis ground normal?

sound of battery

*Turn starting switch ON and OFF. *20-30V *Check both sides.

-Turn starting switch to START position. *20-30V

YES

specific gravity of

r

battery relay and

YES

Is voltage between -Turn starting terminal 6R of switch ON. - starting switch and NO chassis ground *20-30V *Check both sides. . normal? -

* Voltage: Min. 24 V * Specific gravity: Min. 1.26

. Turn starting switch ON. *20-30V

-

13 YES

Is resistance between terminals _ NO 6 and 6R Of starting switch normal? NO - Disconnect terminals B and BR of starting switch. - Turn starting switch ON. -Max.lOCl

NO

20-438 0

D475A-3

TROUBLESHOOTING

E-32

Cause

Defective starting motor

Remedy

Xeplace

iepair or .eplace

Defective alternator

qeplace

Defective diode (220)

qeplace

Short circuit with power source in wiring harness between 103 (female) (2) 104 (female) (2) - CNR or 220 (male) (2)

qepair or peplace

Defective contact or disconnection in wiring harness between TL2 (female) (1) - 103 (female) (I) - 104 (female) (I)

Repair or replace

Defective neutral safety switch Defective contact or disconnection in wiring harness between terminal C (280) of starting switch - TL2 (female) (3)

Repair or replace

3eplace

{eplace

qepair or ,eplace

3epair or ,eplace

- Defective starting switch

Defective battery

D475A-3

qeplace

qeplace

20-439 0

E-32

TROUBLESHOOTING


Travel switch

Start

lock

in9

switch

TL2 (X3)

Alternator 301

(4)

104

(2)

-IX-

Starting

motor

2

Starting

motor 103

(2) 2

3

421

Battery

811

v------

(14)

3 D--

Fuse

(14) _

f

box

TXDOlO91

20-440 0

D475A-3

E-33

TROUBLESHOOTING

E-33 Engine does not stop when starting switch is turned to OFF position Ir Ir j,

Check that any service code is not displayed. (If any service code is displayed, check according to it.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

F--F=

YES 1

I

. Turn starting switch OFF. - Disconnect terminals B and ACC. - Min. 1 MQ

E-33 Related

electrical

Replace

Short circuit with power source in wiring harness between El 1 (female) (9) (17) -terminal ACC of starting switch

Repair or replace

Defective starting switch

Replace

NO

circuit diagram

Starting

Engine


switch

controller

El 1 (17) s13

Fuse 320A o/8

POWER

(24V)

POWER

(24V)

(12)

GND5 box

81 1 (14)

421

(14)

215

(16)

-D TXD01089

D475A-3

20-441 0

TROUBLESHOOTING OF MACHINE CONTROLLER SYSTEM (C MODE)


c-

1

circuit diagram

when

abnormality

in machine

controller

power

controller

EPROM is displayed

[E01501 Abnormality

in machine

c- 3

[E01511 Abnormality

in specification

c- 4


c- 5

[E02021 Short circuit in torque

C- 6


in torque

pressure C-IO

switch & 3rd oil pressure

c-12 c-13

..........................................

2nd clutch oil pressure 3rd clutch oil pressure

in transmission

modulating

20-531

switch system 20-532

switch system

oil pressure

20-533

sensor system 20-534

..................................................................................................................................

iE02121 Short circuit in torque

c-15


C-l 6

fE02201 Short circuit in transmission

in torque

converter

lock-up solenoid

converter

system

lock-up solenoid

modulating

system

oil pressure

............. .20-535

is displayed.. is displayed..

.......... .20-536

sensor system 20-537

..................................................................................................................................

c-17

[E03011 Short circuit in left blade tilt angle sensor system

C-18

[E0302]

.20-529

switch system

..................................................................................................................................

C-l 4

is displayed

20-528

..................................................................................................................................

fE02101 Disconnection is displayed

20-527

switch system

switch & 2nd oil

is displayed

1st oil clutch pressure

[E02091 Short circuit in transmission is displayed

.20-526

..................................................................................................................................


1st clutch oil pressure

switch system

IE02071 Short circuit in transmission is displayed

C-II

REVERSE clutch oil pressure

in transmission

.20-525

switch system

..................................................................................................................................


.20-523

switch system

............................................................

clutch oil pressure

.20-523

................. .20-524 ....................

..................................................................................................................................


c- 9

is displayed

clutch oil pressure

is displayed

FORWARD

.20-516

................................................. is displayed

.20-504

.............. -20-522

........................................

speed sensor system FORWARD

switch system

fE02041 Short circuit in transmission is displayed

......................

is displayed..

speed sensor system

converter converter

source voltage

is displayed

selection

in transmission

& REVERSE oil pressure

C- 8

on machine..

of C mode system .....................................................................................

[EOI 1 II Abnormality

c- 2

c- 7

occurs and problems

............................

.20-538

is displayed

.........................

.20-539

c-19

[ E03031 Short circuit in right blade tilt angle sensor system is displayed

.........................

.20-540

c-20

[ E03041 Disconnection

......................

.20-541

c-21

[E0305]

Disconnection

is displayed

in left blade tilt angle sensor system in right blade tilt angle sensor system

Short circuit in blade RAISE oil pressure

is displayed

switch system

is displayed

switch system

.................. .20-542 ............... .20-543

c-22

[E03061 Short circuit in blade right tilt oil pressure

C-23

[E03071 Short circuit in blade left tilt oil pressure

switch system

is displayed..

................ .20-544

C-24

[E03081 Short circuit in ripper RAISE oil pressure

switch system

is displayed

................. .20-545

C-25

[E0309]

Short circuit in ripper LOWER oil pressure

switch system

is displayed..

switch system

is displayed

C-26

[E03101 Short circuit in ripper TILT IN oil pressure

C-27

[E031 I] Short circuit in blade lever front button switch system

C-28

[E03121 Short circuit in blade lever upper button switch system

c-29

[E03131 Short circuit in pitch back solenoid

c-30


c-31

[E03151 Short circuit in pitch dump

C-32

fE03161 Disconnection

D475A-3

is displayed

system

in pitch back solenoid solenoid

in pitch dump solenoid

is displayed

system system

.............. ..20-54 7

....................

.20-548

.................. .20-549

........................................

.20-550

is displayed

.....................................

.20-551

is displayed..

....................................

.20-552

.................................

.20-553

is displayed

system

is displayed

............. .20-546

is displayed..

20-501 0

c-33 c-34 c-35 C-36 c-37 C-38 c-39 c-40 c-41 C-42 c-43 c-44 c-45 C-46 c-47 C-48 c-49 c-50 c-51 C-52

[E03171 Short circuit in left tilt limit solenoid system is displayed ..................................... .20-554 [E03181 Disconnection in left tilt limit solenoid system is displayed ................................... 20-555 [E03191 Short circuit in right tilt limit solenoid system is displayed.. ................................. .20-556 [E03201 Disconnection in right tilt limit solenoid system is displayed.. .............................. .20-557 [E03211 Short circuit in dual tilt selection solenoid system is displayed.. .......................... .20-558 [E03221 Disconnection in dual tilt selection solenoid system is displayed.. ....................... .20-559 [E03231 Short circuit in pitch selection solenoid system is displayed ................................ .20-560 [E03241 Disconnection in pitch selection solenoid system is displayed ............................. .20-561 [E03251 Short circuit in pitch back assist solenoid system is displayed ............................. .20-562 [E03261 Disconnection in pitch back assist solenoid system is displayed .......................... .20-563 IE03271 Short circuit in pitch dump assist solenoid system is displayed.. ......................... .20-564 [E03281 Disconnection in pitch dump assist solenoid system is displayed.. ...................... .20-565 [E03301 Short circuit in blade LOWER oil pressure switch system is displayed.. .............. .20-566 IE03321 Short circuit in unload valve solenoid system is displayed ................................... .20-567 [E03331 Disconnection in unload valve solenoid system is displayed ................................ .20-568 [E03341 Short circuit in demand valve solenoid system is displayed ................................. .20-569 [E03351 Disconnection in demand valve solenoid system is displayed .............................. .20-570 [E03361 Short circuit in ripper TILT BACK oil pressure switch system is displayed ......... .20-571 [E03371 Short circuit in pitch independent solenoid system is displayed .......................... .20-572 (E03381 Disconnection in pitch independent solenoid system is displayed ....................... .20-573

c-54

fE03391 Short circuit in left bottom drain solenoid system is displayed ............................ .20-574 [E03401 Disconnection in left bottom drain solenoid system is displayed ......................... .20-575

c-55

[E03511 Abnormality

C-56

IE03521 Abnormality

c-53

c-57

in standard value of blade tilt angle sensor is displayed.. ............... .20-576 in compensated value of blade tilt angle sensor is displayed.. ....... .20-576

[E03601 Short circuit in work equipment oil pressure sensor (140 pump) system is displayed ..................................................................................................................................

20-577

C-58

[E03611 Disconnection in work equipment oil pressure sensor (140 pump) system is displayed ..................................................................................................................................

20-578

c-59

[E03621 Short circuit in work equipment oil pressure sensor (100 pump) system

C-60

is displayed .................................................................................................................................. [E03631 Disconnection in work equipment oil pressure sensor (100 pump) system is displayed ..................................................................................................................................

C-61 C-62 C-63 C-64 C-65 C-66 C-67 C-68 C-69 c-70 c-71 C-72

20-579 20-580

[E05011 Short circuit in acceleration sensor system is displayed ........................................ .20-581 [E05021 Disconnection in acceleration sensor system is displayed ..................................... .20-582 [E06011 Short circuit in buzzer cancel switch system is displayed ...................................... .20-583 [E06101 Short circuit in backup alarm relay system is displayed ........................................ .20-584 [E06111 Disconnection in backup alarm relay system is displayed ..................................... .20-585 [E06321 Short circuit in rockbed selection mode switch system is displayed.. .................. .20-586 [E06331 Disconnection in rockbed selection mode switch system is displayed.. ............... -20-587 [E09301 Disconnection in engine speed sensor system is displayed .................................. .20-588 Lock-up device does not operate when lock-up mode switch is turned ON.. .................... .20-589 Engine output does not change when economy mode switch is turned ON .................... .20-590 Reverse travel speed does not change when reverse slow mode switch is turned ON ...20-591 Shoe slip control device does not operate when shoe slip control switch is turned ON or shoe slip level does not change when rockbed selection mode switch is changed .......................................................................................................................

c-73 c-74 c-75

Any solenoid related to machine controller does not operate.. ........................................... Backup alarm does not sound or keeps sounding ................................................................ Ripper pin puller cylinder does not operate ...........................................................................

20-502 0

20-592 .20-593 .20-594 .20-596

D475A-3


TROUBLESHOOTING


Service code

Abnormal

Nature

system

of abnormality

?i?When -

CALL 03

EOlll

Abnormality in machine controller power source voltage

~0150

Abnormality in machine controller EZPROM

~0151

Abnormality in specificanon selection

the controller power source voltage is less than 17 V 1. Defective contact or disconnection in wiring harness between controller Ml1 (7)(13), M21 (12) -fuse 12 2. Defective contact or disconnection in wiring harness between controller Ml1 (6)(12), M21 (11) -chassis ground 3. Drop in battery voltage or defective fuse 12 4. Defective controller 3ibWhen an abnormality is detected in the controller non- volatile ROM

u

When an abnormality is detected in the specification selection data in the program

Disconnection in torque converter speed sensor system

% When input voltage from torque converter speed sensor is more than 3.0 V 1. Defective torque converter speed sensor or defective installation 2. Defective contact or disconnection in wiring harness between controller M51 (2) and speed sensor TCl (1) 3. Defective contact or disconnection in wiring harness between controller M51 (11) and speed sensor TCl (2) 4. Defective controller

Short circuit in torque converter speed sensor system

I 1. 2. 3.

~0203

Disconnection in transmission FORWARD & REVERSE oil pressure switch system

% When the engine speed is more than 300 rpm and the FORWARD clutch oil pressure switch and REVERSE clutch oil pressure switch are both OFF at the same time 1. Defective FORWARD clutch oil pressure switch or REVERSE clutch oil pressure switch 2. Defective contact or disconnection in wiring harness between controller M31 (8) and oil pressure switch TMF (1) 3. Defective contact or disconnection in wiring harness between oil pressure switch TMF (2) and chassis ground 4. Defective contact or disconnection in wiring harness between controller M31 (18) and oil pressure switch TMR (1) 5. Defective contact or disconnection in wiring harness between oil pressure switch TMR (2) and chassis ground 6. Defective controller

E0204

Short circuit in transmission FORWARD clutch oil pressure switch system

+X When the engine speed is less than 300 rpm and the FORWARD clutch oil pressure switch is ON 1. Defective FORWARD clutch oil pressure switch 2. Short circuit with ground in wiring harness between controller M31 (8) and oil pressure switch TMF (1) 3. Defective controller

E0205

Short circuit in transmission REVERSE clutch oil pressure switch system

E0201

E0202

When torque converter speed is more than 500 rpm higher than engine speed Defective torque converter speed sensor Short circuit with ground in wiring harness between controller M51 (2) and speed sensor TCl (1) Defective controller

EOI f

When the engine speed is less than 300 rpm and the REVERSE clutch oil pressure switch is ON 1. Defective REVERSE clutch oil pressure switch 2. Short circuit with ground in wiring harness between controller M31 (18) and oil pressure switch TMR (1) 3. Defective controller

I

20-504 0

E0206

Disconnection in transmission 1st & 2nd & 3rd oil pressure switch system

E0207

Short circuit in transmission 1st clutch oil pressure switch system

When the engine speed is more than 300 rpm and the 1st clutch oil pressure switch, 2nd clutch oil pressure switch, and 3rd clutch oil pressure switch are all OFF at the same time 1. Defective 1st clutch oil pressure switch, 2nd clutch oil pressure switch, or 3rd clutch oil pressure switch 2. Defective contact or disconnection in wiring harness between controller M31 (9) and oil pressure switch TM1 (1) 3. Defective contact or disconnection in wiring harness between oil pressure switch TM1 (2) and chassis ground 4. Defective contact or disconnection in wiring harness between controller M31 (19) and oil pressure switch TM2 (1) 5. Defective contact or disconnection in wiring harness between oil pressure switch TM2 (2) and chassis ground 6. Defective contact or disconnection in wiring harness between controller M31 (10) and oil pressure switch TM3 (1) 7. Defective contact or disconnection in wiring harness between oil pressure switch TM3 (2) and chassis ground 8. Defective controller % When the engine speed is less than 300 rpm and the 1st clutch oil pressure switch is ON 1. Defective 1st clutch oil pressure switch 2. Short circuit with ground in wiring harness between controller M31 (9) and oil pressure switch TM1 (1) 3. Defective controller

D475A-3


TAKEN




Voltage between Ml1 (7h13) and (6)(12): 20 - 30 v * Voltage between M21 (12) and (11): 20 - 30 V


-

Problem that appears on machine when there is abnormality 1. In some cases, system does not work normally and it is impossible for solenoid and relay to drive

1. Lights up caution lamp, sounds alarm buzzer 1. Sets by default to straight tiltdozer specification 2. Lights up caution lamp, sounds alarm buzzer

1. Superdozer functions are not actuated 2. Shoe slip control functions are not actuated 3. Dual tiltdozer functions are not actuated

- Sensor resistance: 500 - 1000 R - Voltage between M51 (2) and (10): 0.5 - 3.0 V (engine started, AC range)

1. Travel speed cannot be detected, so lockup is not actuated

- Sensor resistance: 500 - 1000 R - Voltage between M51 (2) and (10): 0.5 - 3.0 V (engine started, AC range)

1. Travel speed cannot be detected, so lockup is not actuated

. Resistance of switch (engine running) Full monolever at Neutral: Min. 1 MC Full monolever at FORWARD: Max. 1 R (TMF) Full monolever at REVERSE: Max. 1 Q (TMR) * Voltage between M31 (8) and chassis (engine running) Full monolever at Neutral: 20 - 30 V Full monolever at FORWARD: Max. 1 V * Voltage between M31 (18) and chassis (engine running) Full monolever at Neutral: 20 - 30 V Full monolever at REVERSE: Max. 1 V

1. Stops speed range display function

1. Speed range display is not given.

* Resistance of switch (engine running) Full monolever at Neutral: Min. 1 MD Full monolever at FORWARD: Max. 1 R * Voltage between M31 (8) and chassis (engine running) Full monolever at Neutral: 20 - 30 V Full monolever at FORWARD: Max. 1 V



* Resistance of switch (engine running) Full monolever at Neutral: Min. 1 MR Full monolever at REVERSE: Max. 1 R * Voltage between M31 (18) and chassis (engine running) Full monolever at Neutral: 20 - 30 V Full monolever at REVERSE: Max. 1 V



. Resistance of switch (engine running) Full monolever at other speed range: Min. 1 MD Full monolever at applicable speed range: Max. 1 C * Voltage between M31 (9) and chassis (engine running) Full monolever at 2nd or 3rd: 20 - 30 V Full monolever at 1st: Max. 1 V * Voltage between M31 (19) and chassis (engine running) Full monolever at 1st or 3rd: 20 - 30 V Full monolever at 2nd: Max. 1 V - Voltage between M31 (10) and chassis (engine running) Full monolever at 1st or 2nd: 20 - 30 V Full monolever at 3rd: Max. 1 V



* Resistance of switch (engine running) Full monolever at 2nd or 3rd: Min. 1 MR Full monolever at 1st: Max. 1 R * Voltage between M31 (10) and chassis (engine running) Full monolever at 2nd or 3rd: 20 - 30 V Full monolever at 1st: Max. 1 V



D475A-3

20-505 0


TROUBLESHOOTING

User code

Service code

Abnormal

Nature

system

of abnormality

H E0208

Short circuit in transmission 2nd clutch oil pressure switch system

EOI

-

x Short circuit in transmission 3rd clutch oil pressure switch system

E0210

Disconnection in transmission modulating oil pressure sensor system

% When modulating oil pressure sensor remains OFF after shifting gear 1. Defective modulating oil pressure sensor 2. Defective contact or disconnection in wiring harness between M31 (20) and oil pressure sensor TMM (I) 3. Defective contact or disconnection in wiring harness between oil pressure sensor TMM (2) and chassis ground 4. Defective controller

E0212

Short circuit in torque converter lock-up solenoid system

% When output voltage to lock-up solenoid has become high 1. Defective lock-up solenoid 2. Short circuit with ground in wiring harness between controller Ml1 (1) and solenoid LU2 (1) 3. Defective controller

% When E0213

Disconnection in torque converter lock-up solenoid system

output voltage to lock-up solenoid has become low 1. Defective lock-up solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (1) and solenoid LU2 (1) 3. Defective contact or disconnection in wiring harness between solenoid LU2 (2) and chassis ground 4. Defective controller

E0220

Short circuit in transmission modulating oil pressure sensor system

% When the engine speed is less than 300 rpm and the modulating oil pressure sensor is ON 1. Defective modulating oil pressure switch 2. Short circuit with ground in wiring harness between controller M31 (20) and oil pressure sensor TMM (1) 3. Defective controller

E0301

Short circuit in left blade tilt angle sensor system

E0302

Disconnection in left blade tilt angle sensor system

E02

EO303

EO304

20-506 0

When the engine speed is less than 300 rpm and the 3rd clutch oil pressure switch is ON 1. Defective 3rd clutch oil pressure switch 2. Short circuit with ground in wiring harness between controller M31 (10) and oil pressure switch TM3 (1) 3. Defective controller

E0209

CALL 03

-

When the engine speed is less than 300 rpm and the 2nd clutch oil pressure switch is ON 1. Defective 2nd clutch oil pressure switch 2. Short circuit with ground in wiring harness between controller M31 (19) and oil pressure switch TM2 (1) 3. Defective controller

Short circuit in right ;;bt;ilt angle sensor

Disconnection in right Qz;;ilt angle sensor

% When input voltage from left blade tilt angle sensor is more than 4.688 V 1. Defective left blade tilt angle sensor 2. Short circuit with power source in wiring harness between controller M31 (11) and tilt angle sensor CSL (2) 3. Defective contact or disconnection in wiring harness between controller M31 (16) and tilt angle sensor CSL (3) 4. Defective controller % When input voltage from left blade tilt angle sensor is less than 0.293 V 1. Defective left blade tilt angle sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (7) and tilt angle sensor CSL (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (11) and tilt angle sensor CSL (2) 4. Defective controller % When input voltage from right blade tilt angle sensor is more than 4.688 V 1. Defective right blade tilt angle sensor 2. Short circuit with power source in wiring harness between controller M31 (12) and tilt angle sensor CSR 12) 3. Defective contact or disconnection in wiring harness between controller M31 (16) and tilt angle sensor CSR (3) 4. Defective controller +%When input voltage from right blade tilt angle sensor is less than 0.293 V 1. Defective right blade tilt angle sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (7) and tilt angle sensor CSR (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (12) and tilt angle sensor CSR (2) 4. Defective controller

D475A-3

TROUBLESHOOTING





-

Resistance of switch (engine running) Full monolever at 1st or 3rd: Min. 1 MR Full monolever at 2nd: Max. 1 R - Voltage between M31 (19) and chassis (engine running) Full monolever at 1st or 3rd: 20 - 30 V Full monolever at 2nd: Max. 1 V



. Resistance of switch (engine running) Full monolever at 1st or 2nd: Min. 1 MR Full monolever at 3rd: Max. 1 R . Voltage between M31 (10) and chassis (engine running) Full monolever at 1st or 2nd: 20 - 30 V Full monolever at 3rd: Max. 1 V



* Resistance of sensor Engine stopped: Min. 1 MR Engine running: Max. 1 R . Voltage between M31 (20) and chassis Engine stopped: 20 - 30 V Engine running: Max. 1 V

1. Estimates and actuates speed range from other normal oil pressure switch signals

1. Takes longer for lock-up to be actuate< after shifting gear

. Resistance of solenoid: 20 - 66 R - Voltage between Ml1 (1) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to lock-up solenoid

1. Lock-up is not actuated

* Resistance of solenoid: 20 - 60 R * Voltage between Ml1 (1) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V


1. Lock-up is not actuated

* Resistance of sensor Engine stopped: Min. 1 MR Engine running: Max. 1 R - Voltage between M31 (20) and chassis Engine stopped: 20 - 30 V Engine running: Max. 1 V

1. Estimates and actuates speed range from other normal oil pressure switch signals

1. Takes longer for lock-up to be actuate< after shifting gear

* Voltage between M31 (11) and (16) When blade is raised (pitch dump): 3.19 V When blade is lowered to ground (pitch back): 1.80 V


1. When blade is tilted fully, there is dan ger that blade may contact other par and break

* Voltage between M31 (11) and 116) When blade is raised (pitch dump): 3.19 V When blade is lowered to ground (pitch back): 1.80 V



. Voltage between M31 (111 and (16) When blade is raised (pitch dump): 1.80 V When blade is lowered to ground (pitch dump): 3.20 V



- Voltage between M31 (11) and (16) When blade is raised (pitch dump): 1.80 V When blade is lowered to ground (pitch back): 3.20 V


1. When blade is tilted fully, there is dan ger that blade may contact other pan and break

D475A-3

20-507 0


TROUBLESHOOTING

User :ode

Service code

Abnormal

Nature

system

of abnormality

-x-When E0305 Short circuit in blade RAISE oil pressure switch system

blade RAISE oil pressure switch is continuously ON 1. Defective blade RAISE oil pressure switch 2. Short circuit with ground in wiring harness between controller M32 (11) and oil pressure switch BLU (I) 3. Defective controller

Short circuit in blade right tilt oil pressure switch system

I When blade right tilt oil pressure switch is continuously ON 1. Defective blade right tilt oil pressure switch 2. Short circuit with ground in wiring harness between controller M32 (8) and oil pressure switch TRS (1) 3. Defective controller

Short circuit in blade left tilt oil pressure switch system

% When blade left tilt oil pressure switch is continuously ON 1. Defective blade left tilt oil pressure switch 2. Short circuit with ground in wiring harness between controller M32 (15) and oil pressure switch TLS (1) 3. Defective controller

E0308

Short circuit in ripper RAISE oil pressure switch system

% When ripper RAISE oil pressure switch is continuously ON 1. Defective ripper RAISE oil pressure switch 2. Short circuit with ground in wiring harness between controller M32 (2) and oil pressure switch RPU (1) 3. Defective controller

E0309

Short circuit in ripper LOWER oil pressure switch system

% When ripper LOWER oil pressure switch is continuously ON 1. Defective ripper LOWER oil pressure switch 2. Shon circuit with ground in wiring harness between controller M32 (10) and oil pressure switch RPD (1) 3. Defective controller

EO310

Short circuit in ripper TILT IN oil pressure switch system

I When ripper TILT IN oil pressure switch is continuously ON 1. Defective ripper TILT IN oil pressure switch 2. Short circuit with ground in wiring harness between controller M32 (3) and oil pressure switch RTI (1) 3. Defective controller

E0311

Short circuit in pitch dump knob switch system

% 1. 2. 3.

When pitch dump oil pressure switch is continuously ON Defective pitch dump oil pressure switch Short circuit with ground in wiring harness between controller M51 (12) and switch PO1 Defective controller

El)312

Short circuit in pitch back knob switch system

I 1. 2. 3.

When pitch back switch is continuously ON Defective pitch back switch Short circuit with ground in wiring harness between controller M51 (11) and switch PO2 Defective controller

E0313

Short circuit in pitch back solenoid system

% When output voltage to pitch back solenoid has become high 1. Defective pitch back solenoid 2. Short circuit with ground in wiring harness between controller Ml1 (2) and solenoid PPB (1) 3. Defective controller

E0314

Disconnection in pitch back solenoid system

% When output voltage to pitch back solenoid has become low 1. Defective pitch back solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (2) and solenoid PPB (1) 3. Defective contact or disconnection in wiring harness between solenoid PPB (2) and chassis ground 4. Defective controller

E0315

Short circuit in pitch dump solenoid system

I When output voltage to pitch dump solenoid has become high 1. Defective pitch dump solenoid 2. Short circuit with ground in wiring harness between controller Ml1 (8) and solenoid PPD (1) 3. Defective controller

E0305

E0306

E0307

-

CALL 03

20-508 0

D475A-3

TROUBLESHOOTING





Resistance of switch (engine running) Blade lever at HOLD: Min. 1 MR Blade lever operated to RAISE: Max. 1 f.2 . Voltage between M32 (11) and chassis (engine running) Blade lever at HOLD: 20 - 30 V Blade lever operated to RAISE: Max. 1 V

1. Stops automatic resetting function of blade when lift is operated

1. Automatic resetting function of blade is not actuated (superdozer specification) 2. Unload control is not actuated, so blade RAISE speed is slow

-

* Resistance of switch (engine running) Blade lever at HOLD: Min. 1 Mf2 Blade lever operated to right tilt: Max. 1 $2 - Voltage between M32 (8) and chassis (engine running) Blade lever at HOLD: 20 - 30 V Blade lever operated to right tilt: Max. 1 V

1. Dual tilt may be operated even when pitch button is ON and blade lever is not operated 2. Dual tilt is not actuated

- Resistance of switch (engine running) Blade lever at HOLD: Min. 1 MD Blade lever operated to left tilt: Max. 1 D . Voltage between M32 (15) and chassis (engine running) Blade lever at HOLD: 20 - 30 V Blade lever operated to left tilt: Max. 1 V

1. Dual tilt may be operated even when pitch button is ON and blade lever is not operated 2. Dual tilt is not actuated

. Resistance of switch (engine running) Ripper lever at HOLD: Min. 1 MD Ripper lever operated to UP: Max. 1 R * Voltage between M32 (2) and chassis (engine running) Ripper lever at HOLD: 20 - 30 V Ripper lever operated to UP: Max. 1 V

1. Part of shoe slip control function is not actuated 2. Engine speed does not rise when ripper UP is operated when traveling in REVERSE 3. Unload controller is not actuated, so ripper UP speed is slow

. Resistance of switch (engine running) Ripper lever at HOLD: Min. 1 MD Ripper lever operated to DOWN: Max. 1 D . Voltage between M32 (10) and chassis (engine running) Ripper lever at HOLD: 20 - 30 V Ripper lever operated to DOWN: Max. 1 V

1. Part of shoe slip control function is not actuated 2. Unload controller is not actuated, so ripper DOWN speed is slow

- Resistance of switch (engine running) Ripper lever at HOLD: Min. 1 MD Ripper lever operated to TlLT IN: Max. 1 D * Voltage between M32 (3) and chassis (engine running) Ripper lever at HOLD: 20 - 30 V Ripper lever operated to TILT IN: Max. 1 V

1. Part of shoe slip control function is not actuated 2. Unload controller is not actuated, so ripper TILT IN speed is slow

. Resistance of switch (between COM and NO) Switch released: Min. 1 MD Switch pressed: Max. 1 D * Voltage between M51 (12) and chassis Switch released: 20 - 30 V Switch pressed: Max. 1 V

1. Switch ON flag is cleared

1. Cannot operate pitch dump (superdozer specification) 2. Cannot operate pitch dump or pitch back (dual tilt specification)

* Resistance of switch (between COM and NO) Switch released: Min. 1 MD Switch pressed: Max. 1 R . Voltage between M51 (11) and chassis Switch released: 20 - 30 V Switch pressed: Max. 1 V

1. Switch ON flag is cleared

1. Cannot operate pitch back (superdozer specification) 2. Cannot operate dual tilt (dual tilt specification)

-

Resistance of solenoid: 20 - 60 D * Voltage between Ml1 (2) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to pitch back solenoid

1. Pitch back is not actuated

* Resistance of solenoid: 20 - 60 D * Voltage between Ml1 (2) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V


1. Pitch back is not actuated

* Resistance of solenoid: 20 - 60 D . Voltage between Ml1 (8) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to pitch dump solenoid

1. Pitch dump is not actuated

D475A-3

20-509 0


TROUBLESHOOTING

User code

Service code

Abnormal

Nature

system

of abnormality

% When CALL 03

E02

E0316

E0317

Short circuit in left tilt limit solenoid system

% 1. 2. 3.

E0318

Disconnection in left tilt limit solenoid system

% When output voltage to left tilt limit solenoid has become low 1. Defective left tilt solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (3) and solenoid TLL (1) 3. Defectivecontact or disconnectionin wiring harness between solenoidTLL (2) and chassisground 4. Defective controller

E0319

Short circuit in right tilt limit solenoid system

_

When output voltage to left tilt limit solenoid has become high Defective left tilt limit solenoid Short circuit with ground in wiring harness between controller Ml1 (3) and solenoid TLL (1) Defective controller

%

When output voltage to right tilt limit solenoid has become high 1. Defective right tilt limit solenoid 2. Short circuit with ground in wiring harness between controller Ml1 (10) and solenoid TLR (1) 3. Defective controller

E0320

Disconnection in right tilt limit solenoid system

% When output voltage to right tilt limit solenoid has become low 1. Defective right tilt solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (10) and solenoid TLR (1) 3. Defectivecontact or disconnectionin wiring harnessbetween solenoidTLR (2) and chassisground 4. Defective controller

E0321

Short circuit in dual selection solenoid system

% When output voltage to dual selection solenoid has become high 1. Defective dual selection solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller M21 (9) and solenoid DST (1) 3. Short circuitwith power source in wiring harnessbetween controllerM21 (19) and solenoidDST (2) 4. Defective controller

E0322

Disconnection in dual selection solenoid system

E0323

Short circuit in pitch selection solenoid system

E0324

Disconnection in pitch selection solenoid system

E0325

Short circuit in pitch back assist solenoid system

R 1. 2. 3.

E0326

Disconnection in pitch back assist solenoid system

% When output voltage to pitch back assist solenoid has become low 1. Defective pitch back assist solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (11) and solenoid PBA (1) 3. Defective contact or disconnection in wiring harness between solenoid PEA (2) and chassis 4. Defective controller

E0327

Short circuit in pitch dump assist solenoid system

% 1. 2. 3.

E0328

Disconnection in pitch d ump assist solenoid system

% When output voltage to pitch dump assist solenoid has become low 1. Defective pitch dump assist solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (5) and solenoid PDA (1) 3. Defective contact or disconnection in wiring harness between solenoid PDA (2) and chassis 4. Defective controller

CALL 03

I 1. 2. 3.

When output voltage to dual selection solenoid has become low Defective dual selection solenoid Defectivecontactor disconnectionin wiring harness betweencontrollerM21 (9) and solenoidDST 11) Short circuit with ground, defective contact, or disconnection in wiring harness between between controller M21 (19) and solenoid DST (2) 4. Defective controller

f

EOl

20-510 0

output voltage to pitch dump solenoid has become low 1. Defective pitch dump solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (8) and solenoid PPD (1) 3. Defectivecontact or disconnectionin wiring harnessbetween solenoid PPD(2) and chassisground 4. Defective controller

Disconnection in pitch dump solenoid system

When output voltage to pitch selection solenoid has become high 1. Defective pitch selection solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller M21 (8) and solenoid PST (1) 3. Short circuitwith power source in wiring harnessbetween controllerM21 (18) and solenoidPST (2) 4. Defective controller % 1. 2. 3.

When output voltage to pitch selection solenoid has become low Defective pitch selection solenoid Defectivecontactor disconnectionin wiring harnessbetween controllerM21 (8) and solenoidPST (1) Short circuit with ground, defective contact, or disconnection in wiring harness between controller M21 (18) and solenoid PST (2) 4. Defective controller When output voltage to pitch back assist solenoid has become high Defective pitch back assist solenoid Short circuit with ground in wiring harness between controller Ml1 (11) and solenoid PSA (1) Defective controller

When output voltage to pitch dump assist solenoid has become high Defective pitch dump assist solenoid Short circuit with ground in wiring harness between controller Ml1 (5) and solenoid PDA (1) Defective controller

D475A-3



TAKEN



-

Resistance of solenoid: 20 - 60 z1 - Voltage between Ml1 (8) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V



1. Pitch dump is not actuated

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to left tilt limit solenoid

1. Left tilt limit is not actuated

* Resistance of solenoid: 20 - 60 R * Voltage between Ml1 (3) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V


1. Left tilt limit is not actuated

- Resistance of solenoid: 20 - 60 a * Voltage between Ml1 (IO) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. lbi;z$j;rup caution lamp, sounds alarm

1. Right tilt limit is not actuated

- Resistance of solenoid: 20 - 60 C2 - Voltage between Ml1 (3) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

’

2. Stops output to right tilt limit solenoid

* Resistance of switch : 20 - 60 0 * Voltage between Ml1 (10) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V


1. Right tilt limit is not actuated

* Resistance of solenoid: 10 - 20 Q * Voltage between M21 (9) and (19) When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to dual selection solenoid

1. Tilts when pitch is operated 2. Pitch when dual is operated



1. Tilts when pitch is operated 2. Pitch when dual is operated

. Resistance of solenoid: 10 - 20 C2 * Voltage between M21 (8) and (18) When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to pitch selection solenoid

1. Pitch is not actuated



1. Pitch is not actuated

* Resistance of solenoid: 10 - 20 Q . Voltage between Ml1 (11) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Stops output to pitch back assist solenoid

1. Pitch back becomes slower

1. Pitch back becomes slower

* Resistance of solenoid: 10 - 20 R . Voltage between Ml1 (11) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

* Resistance of solenoid: 10 - 20 C2 * Voltage between Ml1 (5) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V * Resistance of solenoid: 10 - 20 Q . Voltage between Ml1 (5) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

D475A-3

1. Stops output to pitch dump assist solenoid

l. Pitch dump becomes slower

1. Pitch dump becomes slower

20-511 0

TROUBLESHOOTING

User code

Service code

Abnormal

Nature

system

of abnormality

% When -

Short circuit in blade

E0330

E0332

E0333

;.rhR

oil Pressure

Short circuit in unload valve solenoid system

f When output voltage to unload valve solenoid has become high 1. Defective unload valve solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller M21 (4) and solenoid UNL (1) 3. Short circuit with power source in wiring harness between controller M21 (15) and solenoid UNL (2) 4. Defective controller

Disconnection in unload valve solenoid system

% When output voltage to unload valve solenoid has become low 1. Defective unload valve solenoid 2. Defective contact or disconnection in wiring harness between controller M21 (4) and solenoid UNL (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M21 (15) and solenoid UNL (2) 4. Defective controller

EOl

-

% When output voltage to demand valve solenoid has become high

1. Defective demand valve solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller M21 (2) and solenoid PVC (1) 3. Short circuit with power source in wiring harness between controller M21 (13) and solenoid PVC (2) 4. Defective controller

E0334

Short circuit in demand valve solenoid system

E0335

Disconnection in &z;;d valve solenoid

E0336

Short circuit in ripper TILT BACK oil pressure switch system

% When ripper TlLT BACK oil pressure switch is continuously ON 1. Defective ripper TILT BACK oil pressure switch 2. Short circuit with ground in wiring harness between controller M32 (6) and oil pressure switch RTB (1) 3. Defective controller

E0337

Short circuit in pitch independent solenoid system

I 1. 2. 3.

E0338

Disconnection in pitch independent solenoid system

% When output voltage to pitch independent solenoid has become low 1. Defective pitch independent solenoid 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (11) and solenoid PIT (1) 3. Defective contact or disconnection in wiring harness between solenoid PIT (2) and chassis 4. Defective controller

% When output voltage to demand valve solenoid has become low 1. Defective demand valve solenoid 2. Defective contact or disconnection in wiring harness between controller M21 (2) and solenoid PVC (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M21 (13) and solenoid PVC (2) 4. Defective controller

When output voltage to pitch independent solenoid has become high Defective pitch independent solenoid Short circuit with ground in wiring harness between controller Ml 1 (11) and solenoid PIT (1) Defective controller

% When

CALL 03

Short circuit in left bottom drain solenoid system

output voltage to left bottom drain solenoid has become high 1. Defective left bottom drain solenoid 2. Short circuit with ground or short circuit with power source in wiring harness between controller M21 (9) and solenoid LBD (1) 3. Short circuit with power source in wiring harness between controller M21 (19) and solenoid LBD (2) 4. Defective controller

E0340

Disconnection in left bottom drain solenoid system

H When output voltage to left bottom drain solenoid has become low 1. Defective left bottom drain solenoid 2. Defective contact or disconnection in wiring harness between controller M21 (9) and solenoid LBD (1) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M21 (19) and solenoid LBD (2) 4. Defective controller

E0351

Abnormality in standard value of blade tilt angle potentiometer

ilc When tilt limit adjusted value is outside range 1. Defective adjustment of tilt limit 2. Defective controller

E0352

Abnormality in compensated value of blade tilt angle potentiometer

I When tilt limit adjusted value is outside range 1. Defective adjustment of tilt limit 2. Defective controller

E0339

EOI

20-512 0

blade LOWER oil pressure switch is continuously ON 1. Defective blade LOWER oil pressure switch 2. Short circuit with ground in wiring harness between controller M32 (6) and oil pressure switch BLD (1) 3. Defective controller

D475A-3

TROUBLESHOOTING



Problem that appears on machim when there is abnormality

-

Resistance of switch (engine running) Blade lever at HOLD: Min. 1 MD Blade lever operated to LOWER: Max. 1 0 - Voltage between M32 (6) and chassis (engine running) Blade lever at HOLD: 20 - 30 V Blade lever operated to LOWER: Max. 1 V

1. Stops automatic resetting function of blade when lift is operated

1. Automatic resetting function of blade i! not actuated (superdozer specification) 2. Unload controller is not actuated, SC blade LOWER speed is slow

- Resistance of solenoid: 10 - 20 42 * Voltage between M21 (4) and (15) When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Stops pump assist function

1. Pump assist function does not work, SC work equipment speed becomes slower

* Resistance of solenoid: 10 - 20 D * Voltage between M21 (4) and (15) When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

* Resistance of solenoid: 10 - 20 42 - Voltage between M21 (2) and (13) When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Pump assist function does not work, SC work equipment speed becomes slower

1. Stops output to demand valve solenoid

1. Pitch speed becomes slower

- Resistance of solenoid: 10 - 20 Q . Voltage between M21 (2) and (13) When solenoid is OFF: Max, 1 V When solenoid is ON: 20 - 30 V

1. Pitch speed becomes slower

* Resistance of switch (engine running1 Ripper lever at HOLD: Min. 1 MD Ripper lever operated to TILT BACK: Max. 1 Q - Voltage between M32 (16) and chassis (engine running) Ripper lever at HOLD: 20 - 30 V Ripper lever operated to TILT BACK: Max. 1 V

1. Engine speed varies greatly during doz ing operations when SSC switch is ON 2. Shoes slip frequently during ripping op erations 3. Unload control is not actuated

. Resistance of solenoid: 20 - 60 D * Voltage between Ml1 (I I) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to pitch independent solenoid

* Resistance of solenoid: 20 - 60 Q * Voltage between Ml1 (II) and chassis When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V


. Resistance of solenoid: 10 - 20 Q * Voltage between M21 (9) and (19) When solenoid is OFF: Max. 1 V When solenoid is ON: 20 - 30 V

1. Lights up caution lamp, sounds alarm buzzer 2. Stops output to left bottom drain solenoid



D475A-3

20-513 0


TROUBLESHOOTING

User code

Service code

Abnormal

system

of abnormality

X4When

input voltage from work equipment oil pressure sensor is more than 4.688 V 1. Defective work equipment oil pressure sensor 2. Defective contact or disconnection in wiring harness between controller M31 (16) and oil pressure sensor HP1 (I) 3. Short circuit with power source in wiring harness between controller M31 (13) and oil pressure sensor HP1 (3)

E0360

Short circuit in work equipment oil pressure sensor (140 pump) system

E0361

Disconnection in work equipment oil pressure sensor (140 pump) system

% When input voltage from work equipment oil pressure sensor is less than 0.3 V 1. Defective work equipment oil pressure sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (6) and oil pressure sensor HP1 (2) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (13) and oil pressure sensor HP1 (3)

Short circuit in work equipment oil pressure sensor (I 00 pump) system

X+ When input voltage from work equipment oil pressure sensor is more than 4.688 V 1. Defective work equipment oil pressure sensor 2. Defective contact or disconnection in wiring harness between controller M31 (16) and oil pressure sensor HP2 (1) 3. Short circuit with power source in wiring harness between controller M31 (14) and oil pressure sensor HP2 (3)

E0363

Disconnection in work equipment oil pressure sensor (100 pump1 system

% When input voltage from work equipment oil pressure sensor is less than 0.3 V 1. Defective work equipment oil pressure sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (6) and oil pressure sensor HP2 (2) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (14) and oil pressure sensor HP2 (3)

E501

Short circuit in acceleration sensor system

% When acceleration sensor power source voltage is less than 0.3 V 1. Defective acceleration sensor 2. Short circuit with power source in wiring harness between controller M31 (2) and acceleration sensor SS3 (2) 3. Defective contact or disconnection in wiring harness between controller M31 (17) and acceleration sensor SS3 (3)

Disconnection in acceleration sensor system

% When input voltage from acceleration sensor is more than 4.7 V 1. Defective acceleration sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M32 (9) and acceleration sensor SS3 (I) 3. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (2) and acceleration sensor SS3 (2)

EOI

~0362

-

EOI E0502

-

Nature

E0601

Short circuit in buzzer cancel switch system

E0610

Short circuit in backup alarm relay system

E0611

Disconnection in backup alarm relay system

E632

Short circuit in bedrock selection mode switch system

EO633

Disconnection in bedrock selection mode switch system

EOl

% 1. 2. 3.

When buzzer cancel switch is continuously ON Defective buzzer cancel switch Short circuit with ground in wiring harness between controller M32 (7) and switch 212 (3) Defective controller

% 1. 2. 3.

When output voltage to backup alarm relay has become low Defective backup alarm relay Short circuit with ground in wiring harness between controller Ml1 (9) and relay 885 (I) Defective controller

% When

output voltage to backup alarm relay has become high 1. Defective backup alarm relay 2. Short circuit with power source, defective contact, or disconnection in wiring harness between controller Ml1 (9) and relay 885 (I) 3. Defective contact or disconnection in wiring harness between relay BB5 (2) and chassis

4. Defective controller

-

E0930

20-514 0

Disconnection in engine speed sensor system

% When

input voltage from signal of bedrock selection mode switch is more than 4.688 V 1. Defective monitor panel 2. Short circuit with power source in wiring harness between controller M31 (3) and monitor panel SO1 (9) 3. Defective controller % When input voltage from signal of bedrock selection mode switch is less than 0.293 V 1. Defective monitor panel 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M31 (3) and monitor panel SO1 (9) 3. Defective controller f When input voltage from engine speed sensor is more than 3.0 V 1. Defective left engine speed sensor 2. Short circuit with ground, defective contact, or disconnection in wiring harness between controller M41 (I) and speed sensor El2 (1) 2. Defective contact or disconnection in wiring harness between controller M41 (91 and speed sensor El2 (2) 4. Defective controller

D475A-3

ACTION

TAKEN

TROUBLESHOOTING


- Voltage - Voltage




between M31 (6) and (16): 20 - 30 V between M31 (13) and (16): 0.3 - 4.666 v

1. Stops unload function at relief 2. Stops auto pitch back function

1. Auto pitch back function is not actuated

- Voltage between M31 (6) and (16): 20 - 30 V * Voltage between M31 (13) and (16): 0.3 - 4.666 v

I. Stops unload function at relief 2. Stops auto pitch back function


* Voltage between M31 (6) and (16): 20 - 30 V . Voltage between M31 (14) and (16): 0.3 - 4.666 v

I. Stops unload function at relief 2. Stops auto pitch back function


- Voltage between M31 (6) and (16): 20 - 30 V . Voltage between M31 (14) and (16): 0.3 - 4.688 v

1. Stops unload function at relief 2. Stops auto pitch back function


- Voltage between M32 (9) - M31 (17):

1. Shoe slip control is not carried out

1. Part of shoe slip control function is not actuated

1. Shoe slip control is not carried out

1. Part of shoe slip control function is not actuated

7.0 - 9.0 v

* Voltage between M31 (I) - 17: 0.75 - 4.25 V

1. Buzzer cannot be turned OFB.

* Resistance of switch When switch is OFF: Min. 1 MR When switch is ON: Max. 1 a * Voltage between M32 (7) and chassis When switch is OFF: 20 - 30 V When switch is ON: Max. 1 V

* Resistance of relay: 200 - 900 a * Voltage between El1 (4) and (13)

1. Stops output to relay

1. Backup alarm does not sound

Full monolever at Neutral: Max. 1 V Full monolever at REVERSE: 20 - 30 V

pResistance of relay: 200 - 900 L2 - Voltage between El1 (4) and (13)

1. Backup alarm does not sound

Full monolever at Neutral: Max. 1 V Full monolever at REVERSE: 20 - 30 V

- Voltage

1. Fixes rockbed selection mode to 3

1. Rockbed switched

selection

mode

cannot

be

- Voltage

1. Fixes rockbed selection mode to 3

1. Rockbed switched

selection

mode

cannot

be

* Sensor resistance: 500 - 1,000 Q . Voltage between M41 (I) and (9): 0.5 - 3.0 V (AC range)

1. Stops auto pitch back function

1. Auto pitch back function is not actuated (superdozer specification) 2. Tachometer display is not given.

between M31 (3) and chassis At mode 1: Approx. 4.4 V At mode 2: Approx. 2.5 V At mode 3: Approx. 1.3 V

between M31 (3) and chassis At mode 1: Approx. 4.4 V At mode 2: Approx. 2.5 V At mode 3: Approx. 1.3 V

D475A-3

20-515 0

ELECTRICAL

TROUBLESHOOTING

ELECTRICAL CIRCUIT DIAGRAM Single-tilt

specification

model

and dual-tilt

CIRCUITAL

DIAGRAM

OF C MODE

SYSTEM

OF C MODE SYSTEM

specification

model

TVD01060

20-516 0

D475A-3

TROUBLESHOOTING

ELECTRICAL CIRCUIT DIAGRAM OF C MODE SYSTEM

TVDOIOGI

D475A-3

20-517 0

TROUBLESHOOTING

ELECTRICAL CIRCUITAL DIAGRAM OF C MODE SYSTEM

TV001062

20-518 0

D475A-3

TROUBLESHOOTING


Super-dozer specification model

--

-..

** 21

TVD01157

D475A-3

20-519 0

TROUBLESHOOTING

ELECTRICAL CIRCUITAL DIAGRAM OF C MODE SYSTEM

(2/3)

TVD01158

20-520 0

D475A-3

TROUBLESHOOTING

D475A-3


20-521 0

C-l

TROUBLESHOOTING

C-l

[EOII I] Abnormality displayed

in machine controller

power source voltage

is


Remedy

Cause

YES 1


I

Replace


Repair or replace

harness between Ml 1 (female) (6) (12) -chassis ground Defective contact or disconnection in wiring

Turn starting switch ON. *20-30V l

C-l Related Main

electrical controller Ml

harness between Ml1 (female) (7) (13) -fuse

NO

Repair or replace 12

circuit diagram

I 1 (13) 421 (14)

611 (14)

Fuse

box

GND5 TXD01092

20-522 0

D475A-3

TROUBLESHOOTING

C-2 [E0150] Abnormality Ir

c-2, c-3

in machine controller

E2ROM is displayed


Cause


I

C-3 [E0151] Abnormality Ir

in specification

Remedy

Replace

selection is displayed


Cause

1 YES Is specification set in controller conformed to machine? - Check with adjustment mode “30” of monitor panel.

D475A-3

Remedy


Replace

Setting of wrong specification in controller

Set specification correctlv

_

NO

20-523 Co

c-4

TROUBLESHOOTING

C-4 [EOZOII Disconnection displayed * * *

in torque converter

speed sensor system is

If the starting switch was turned off after the abnormality occurred, start the engine and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

1 Is resistance between M51 (female) (2) and (10) normal? l

3 YES Is resistance

-

Turn starting switch OFF.

: ~~oc~~“,o~ nM5” NO

YES 2 Is resistance between TCI (female) (1) and (2) normal?

Turn starting switch OFF. * Disconnect TCI. ~500-1,000a

l

c-4 Related

Main

I

electrical

-

between M51

(female) (21and TCl (female) (1) normal?

Remedy


Replace

Defective contact, disconnection or short circuit with chassis ground in wiring harness between M51 (female) (10) - TCl (female) (2)

Repair or replace

Defective contact or disconnection in wiring harness between M51 (female) (2) - TCl (female) (1)

*Turn starting NO switch OFF. Disconnect M51 and TCI. * Max. 1 a l

Defective torque converter speed sensor

NO

Repair or replace

Replace

circuit diagram

Torque speed

controller

I M51 (17)

(16)

TCl

a

@

I

3

@

3

506

(14)

451

converter sensor

(2)

I

TXDOIOQ3

20-524 0

D475A-3

c-5

TROUBLESHOOTING

C-5 [E0202] Short circuit in torque converter displayed Ir

speed sensor system is

If the starting switch was turned off after the abnormality occurred, run the engine for 5 seconds and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly Always connect any disconnected connectors before going on to the next step.

* *

Cause

YES

1 Is resistance between M51 (female) (2) and (10) normal?

3

P Turn starting Is resistance switch OFF. between TCl Disconnect M51. ND (female) (1) and * 500 - 1,000 R (2) normal?

l

l

‘Turn starting switch OFF. * Disconnect TCl. ~500-1,000n

YES

Is resistance YES between M51 3 r (female) (2) and TCl (female) (1) normal? P * Turn starting NO switch OFF. * Disconnect M51 and TCI. * Max. 1 R NO

inserted.

Remedy


Replace

Defective contact, disconnectionor short circuit with chassis ground in wiring harness between M51 (female) ItO) -TCl (female)(2)

~e~~reor

Defective contact or disconnection in wiring harness between M51 (female) (2) -TCl (female) (1)

Repair or replace

Defective torque converter speed sensor

Replace

I

C-5 Related

Main

electrical

circuit diagram

lorque speed

controller

M51 (i7) Torque speed Torque sDeed I

D475A-3

I

converter (+I converter (-1

506 (14) 2

@

I

451 (16)

converter sensor

TCl (2)

$g

@

3

$)

a

3

TXDOlO93

20-525 0

C-6

TROUBLESHOOTING

C-6 [E0203] Disconnection in transmission FORWARD clutch oil pressure switch system & REVERSE oil pressure switch system is displayed * * Ir

If the starting switch was turned off after the abnormality occurred, run the engine and hold the joystick in the forward and reverse positions for 10 seconds respectively and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

F

Remedy

Cause

I

YES

‘2 Is voltage between Yl IS M31 (18) and chassis ground normal? Start engine. Direction: N * Max. 1 V

l

l

1 Is voltage between

4 YE: Is resistance YES between TMR - (female) (2) and 3 chassis ground normal? Is resistance N( _ * Turn starting _ between TMR switch OFF. NO (male) (1) and (2) * Disconnect TMR. normal? * Max. 1 C2 Disconnect TMR. * Start engine. NO Direction: N * Max. 1 R l

l

Start engine. * Direction: N * Max. 1 V l

1 Is resistance

Start engine. * Direction: N Max. 1 Q l

NO


Replace

Defective contact or disconnection in wiring harness between M31 (female) (18) -TMR (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between TMR (female) (2) -chassis ground

Repair or replace

Defective transmission reverse clutch oil pressure switch

Replace

Defective contact or disconnection in wiring harness between M31 (female) (8) -TMF (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between TMF (female) (2) -chassis ground

Repair or replace

Defective transmission forward clutch oil pressure switch

Replace

l

C-6 Related Main

electrical

circuit diagram

controller M31 Transmission FORWARD switch Transmission RFVFRSF switch

Transmission oil Pressure TMR (2)

(;O) 506

I

451

(14)

I

I

I

(16)

\

@

I

REVERSE switch

3

(ij-

-3

599 (16) TMF

(2)

3 +--3 GND2

20-526 0

fi

Transmission oil Pressure

FORWARD switch TXD01094

D475A-3

c-7

TROUBLESHOOTING

C-7 [E0204] Short circuit in transmission switch system is displayed

FORWARD

clutch oil pressure

If the starting switch was turned off after the abnormality occurred, hold the starting switch in the ON position for 30 seconds and check that the service code displays “E” at the head. (If “P” is

*

* *

displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly Always connect any disconnected connectors before going on to the next step.

Remedy

Cause

YES


1 Is voltage between M31 (8) _ and chassis ground normal? _ * Turn starting switch ON. *20-30V

2

Is resistance between TMF _ NO (male) (I) and (2) normal? *Turn starting switch OFF. * Disconnect TMF. Min 1 MD

Defective contact or disconnection in wiring harness between M31 (female) (8) -TMF (female) (1) - E51 (female) (5)

YES

. NO

inserted.

Replace

Repair or rep’ace

Defective transmission for-ward clutch oil pressure switch

Replace

oil

switch

l

C-7 Related Main

electrical

circuit diagram

controller

Pressure

TXD01095

D475A-3

20-527 0

C-8

TROUBLESHOOTING

C-8 [E0205] Short circuit in transmission switch system is displayed *

Ir *

REVERSE clutch oil pressure

If the starting switch was turned off after the abnormality occurred, hold the starting switch in the ON position for 30 seconds and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Defective machine controller Is voltage between M31 (18) and chassis ground normal? _ Turn starting switch ON. *20-30V l

Defective contact or disconnection in wiring harness between M31 (female) (18) - TMR (female) (I) - E51 (female) (6) Defective transmission reverse clutch oil pressure switch

_ 2

YES

Is resistance between TMR NO (male) (1) and (2) normal? * Turn starting switch OFF. Disconnect TMR. * Min 1 MR

NO

Repair or replace

Replace

l

C-8 Related

electrical

Main

circuit diagram

controller

I M31

(20)

506

(1 6)

451

(16)

TMR

(2)

TXD01096

20-528 0

D475A-3

TROUBLESHOOTING

c-9

C-9 [E0206] Disconnection in transmission 1st clutch oil pressure switch & 2nd oil pressure switch & 3rd oil pressure switch system is displayed Ir

If the starting switch was turned off after the abnormality occurred, run the engine and hold the joystick in the Ist, 2nd, and 3rd positions for IO seconds respectively and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) * Before carrying out troubleshooting, check that all the related connectors are properly inserted. Ilr Always connect any disconnected connectors before going on to the next step.

Cause

3 Is voltage ES between M31 (10) and chassis ground normal? Start engine. * Gear speed: Other than 3rd Max. 1 V l

YES

-

4YEZ

Is resistance between TM3 NO (male) (1) and (2) normal?

l

NO * DisconnectTM3. * sralt engine. * Gear speed: Other than 3rd . Max. 1R 6 YE:

‘ES Iground normal?


1

* Start engine. Gear speed: Other than 2nd * Max. 1 V l

b

I

* Start engine. Gear speed: Other than 1st * Max. 1 V l

_

Is r&Stance YES between TM1 - (female) (2) and 7 chassis ground n0rlIlal?

Is resistance _ between TM1 _ NO (male) (1) and (2) normal? * DisconnectTMl. *Stan engine. * Gear speed: Other than 1st * Max. 10 9

A

(female) (2) and

Turn starting switch OFF. * Disconnect TM3. * Max. 1 Q l

D475A-3

- Max.

* Disconnect TMZ. * Start engine. * Gear speed: Other than 2nd * Max. 1Q 8

and chassis ground normal?

YES

Turn starting switch OFF. * Disconnect TMl. * Max. 1 R l

NO

NO

YES

-

NO

1 L2

Remedy

Replace

GotoA

Defective transmission 3rd clutch oil pressure switch Defective contact or disconnection in wiring harness between M31 (female) (19) -TM2 (female) (I) Defective contact or disconnection in wiring harness between TM2 (female) (2) -chassis ground Defective transmission 2nd clutch oil pressure switch Defective contact or disconnection in wiring harness between M31 (female) (9) -TM1 (female) (1) Defective contact or disconnection in wiring harness between TM1 (female) (2) -chassis ground Defective transmission 1st clutch oil pressure switch Defective contact or disconnection in wiring harness between M31 (female) (10) - TM3 (female) (1) Defective contact or disconnection in wiring harness between TM3 (female) (2) -chassis ground

Repair or replace

Repair or replace

Replace

Repair or replace

Repair or replace

Replace

Repair or replace

Repair or replace

20-529 0

c-9

TROUBLESHOOTING

C-9 Related

Main

electrical

circuit diagram

controller

M31 (i0) =36 (14) Transmission Transmission

451

(16)

1st

TM1 (2)

Transmission oil Pressure -

switch

TM2 (2)


2nd switch


3rd switch

Ii!_!2 13 14 15

3

-3

TM3 (2) 3 4-3

GND2 TX001097

20-530 0

D475A-3

c-10

TROUBLESHOOTING

C-10 [E0207] Short circuit in transmission switch system is displayed

1st oil clutch pressure


I YES

.I Is voltage between M31 (9) and chassis ground normal? * Turn starting switch ON. l20-30V

I

_ 2

YES

Is resistance between TM1 NO (male) (1) and (2) normal? *Turn starting switch OFF. Disconnect TMI. * Min. 1 MQ

NO

Cause

Remedy


Replace

Short circuit with chassis ground in wiring harness between M31 (female) (9) TM1 (female) (1) - E51 (female) (7)

Repair or replace

Defective transmission 1st clutch oil pressure switch

Replace

l

C-IO Related Main

electrical

circuit diagram

controller

TX001098

D475A-3

20-531 0

C-l 1

TROUBLESHOOTING

C-11 [E0208] Short circuit in transmission switch system is displayed * Ir *

2nd clutch oil pressure


Cause

YES


Replace

YES ~

Short circuit with chassis ground in wiring harness between M31 (female) (19) - TM2 (female) (1) - E51 (female) (6)

Repair or replace

NO

2nd clutch switch

1 Is voltage between M31 (19) and chassis ground normal? * Turn starting switch ON. *20-30V

2 Is resistance between TM2 NO (male) (1) and (2) normal?

* Turn starting switch OFF. * Disconnect TM2.

Remedy

Defective transmission

oil pressure

Replace

* Min. 1 MR

C-l 1 Related

electrical

Main

circuit diagram

controller

M31 (;O, Transmission 2nd switch

Engine

506 (14)

451 (16)

TM2 (2)

3 3

I


controller

2nd switch

GtiD2

TXDOlO99

20-532 0

D475A-3

c-12

TROUBLESHOOTING

C-12 [E0209] Short circuit in transmission switch system is displayed * Jr Jr

3rd clutch oil pressure


I

2

YES

_

Is resistance between TM3 _ NO (male)(1) and (2) normal?

*Turn starting switch ON. l20-30V

1

Remedy


YES 1 Is voltage between M31 (IO) and chassis ground normal?

Cause

* Turn starting switch OFF. * Disconnect TM3. Min. 1 ML2

NO

Short circuit with chassis ground in wiring harness between M31 (female) (10) - TM3 (female) (1) - E51 (female) (9)

Repair or replace

Defective transmission 3rd clutch oil pressure switch

Replace

l

C-12 Related

electrical

circuit diagram

controller

Main

M31 (20) 3rd

Engine

,

506 (14)

TM3 (2)

451 (16)

switch

controller

psqy


I

3rd switch

GND2

TXDOllOO

D475A-3

20-533 0

1

c-13

TROUBLESHOOTING

C-13 [E0210] Disconnection in transmission sensor system is displayed * Ir Ir

modulating

oil pressure

If the starting switch was turned off after the abnormality occurred, run the engine without applying any load for 10 seconds and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

YES 1 Is voltage between M31 (20) and chassis ground normal? Start engine. * Max. 1 V l

3

YES

Is resiSTance YES between TMM - (female) (2) and 2 ~ chassis ground normal? Is resistance between TMM * Turn starting NO switch OFF. NO (male) (1) and (2) normal? . Disconnect TMM. * Max. 1 fi Disconnect TMM. Start engine. NO * Max. 1 Q


Replace

Defective contact or disconnectionin wiring harness between M31 (female) (20) - TMM (female)

Repair or replace

(1)

Defective contact or disconnectionin wiring harness between TMM (female) (2) -chassis ground

Repair or replace

Defective transmission modulating oil pressure sensor

l

l

C-13 Related electrical circuit diagram

Main

controller

c

cmiccinn Tran,,,,,,,,,,, modu’lat ” Ins

L

I M31 (20) \

-I

\ I7OWl swl ”tcijv y

506 (14) I, II i c =I -.A +-

45 l(16)

TMM (2)

7=

Transmission modulating oil Pressure sensor

77%

GND2

TXDOI 101

20-534 0

D475A-3

c-14

TROUBLESHOOTING

C-14 [E0212] Short circuit in torque converter is displayed * Ir Ir

lock-up solenoid system

If the starting switch was turned off after the abnormality occurred, run the engine and drive so that the lock-up solenoid will work, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

Cause

‘ES

between

M 11

(female)

(1) and

I

3 YES

Turn starting switch OFF. * Disconnect Mll. *40-80R

(female)

(1) and

l-l

*

N

switch OFF. * Disconnect LU2.

YES

II

Is resistance between M 11

NO


Replace

Defective diode (LUG)

Replace

Short circuit with chassis ground in wiring harness between Ml1 (female) (1) - LU2 (female) (1) - LUG (female) (1)

Repair or replace

Defective torque converter lock-up solenoid

Replace

Table

I

LU2 (male) Between Between

Resistance

(I) - (2)

40 - 80 Q

(I) (2) - chassis

Min. 1 MR

C-14 Related

Main

I

I

electrical

controller

I

circuit diagram

I LOCK-UP solenoid

TXDOl 102

D475A-3

20-535 0

c-15

TROUBLESHOOTING

C-15 [E0213] Disconnection system is displayed * * *

in torque converter

lock-up solenoid


Cause

YES


Replace

Defective diode (LUG)

Replace

Short circuit with chassis ground in wiring harness between Ml 1 (female) (1) - LU2 (female) (1) - LUG (female) (1)

Repair or replace

Defective torque converter lock-up solenoid

Replace

1 between Ml1 (1)

* Turn starting switch ON. * Max. 1 V

3 YES Is resistance YES between LU2 - (female) (2) and 2 chassis ground spcmal, Is resistance -Turn starting . between LU2 switch OFF. h10 (male) (1) and (2) * Disconnect LU2. normal? * Max. 1 R Turn starting switch OFF. NO . Disconnect LU2. *40-80R

-

NO

l

C-15 Related

Main

electrical

circuit diagram

controller

1

Ml1 (13)

506 (14)

451

LU2 (2)

(16)

LOCK-UP solenoid

LOCK-UP solenoid LUG (2)

GND2

20-536 0

+h-

TXDOllO2

D475A-3

C-16

TROUBLESHOOTING

C-16 [E0220] Short circuit in transmission sensor system is displayed Ir Jr *

modulating

oil pressure

If the starting switch was turned off after the abnormality occurred, hold the starting switch at the ON position for 30 seconds and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

YES 1 Is voltage between M31 (20) and chassis ground normal? _

2

Is resistance between TMM _ NO (male) (1) and (2) normal?

*Turn starting switch ON. *20-30V

Turn starting switch OFF. * Disconnect TMM. . Min 1 MR

l

C-16 Related

Main

YES

electrical


Replace

Short circuit with chassis ground in wiring harness between M31 (female) (20) -TMM (female) (I)

Repair or replace

Defective transmission modulating oil pressure sensor

NO

circuit diagram

controller M31 (20,

wz+

Remedy

506 ---Kl-

451

(14)

TMM (2)

(16)

Transmission oi I modulating Pressure s ensor

3

-cH-

3

GND2 TXDOI I01

D475A-3

20-537 0

c-17

TROUBLESHOOTING

C-17 Ir

* * *

[E0301] Short circuit in left blade tilt angle sensor system is displayed

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Check that the left blade tilt angle sensor is installed normally. (If not, adjust.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

I YES 1 Is voltage between M31 (11) and (16) normal? l

l

Set blade in standard position. Turn starting switch ON.

_ 2 _ No

* 1.8 * 0.5 V

YES

Is reistance between CSL(male) (1) and (3) normal? l

Turn starting switch OFF.

Cause

Remedy

I


Replace

Defective contact or disconnection in wiring harness between M31 (female) (16) - CSL (female) (3)

Repair or replace

Defective left blade tilt angle sensor

NO

Disconnect CSL. * 4.0 - 6.0 kQ l


Main

I

controller

Left stroke

I

M31 (20) Sensor Power

599

(16)

El11 (14)

810 (12)

20-538 0

I

201 (121

inder

sensor

CSL (X3)

.a

a

3

3

a

gJ

3

($ ,

,3 ,,

@ , \,

,, I

101 (16)

CYI

3

,

\,

TXD01103

D475A-3

C-18

TROUBLESHOOTING

C-18 [E0302] Disconnection displayed Ir

in left blade tilt angle sensor system is

Ir

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Check that the left blade tilt angle sensor is installed normally. (If not, adjust.)

* *

Before carrying out troubleshooting, check that all the related connectors are properly Always connect any disconnected connectors before going on to the next step.

inserted.

Remedy

ES

Yt * Set blade in standard position. * Turn starting switch ON. *1.8+0.5V

7

switch OFF. * Disconnect CSL and M31. Min. 1 MQ

between M31 (7)

NO

6YE

l

t *Turn starting switch ON. * 4.75 - 5.25 V

F

Is resistance between M31 (female) (7) and chassis ground normal? . Turn starting switch OFF. Disconnect CSL and M31. - Min. 1 Ma l

C-18 Related

Main

electrical

I

D475A-3

-

* Turn starting switch OFF. * Disconnect CSL. . 4.6 - 6.0 kR NO

N

Replace

Defective contact or disconnection in wiring harness between M31 (female) (II) - CSL (female) (2)

Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M31 (female) (1 I) - CSL (female) (2)

Repair or replace

Defective contact or disconnection in wiring harness between M31 (female) (7) - CSL (female) (1)

Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M31 (female) (7) - CSL (female) (I)

Repair or replace

circuit diagram

Left

controller ensor

Is resistance YES between CSL 5 - (male) (I) and (3) normal?


stroke

cylinder

sensor

Dower

I

TX001103

20-539 0

c-19

TROUBLESHOOTING

C-19 [E0303] Short circuit in right blade tilt angle sensor system is displayed If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Check that the right blade tilt angle sensor is installed normally. (If not, adjust.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

I YES

1 Is voltage between M31 (12) and (16) normal? _

2

Set blade in standard position. Turn starting switch ON. * 1.8 + 0.5 V l

* Turn starting switch OFF. * Disconnect CSR. * 4.0 - 6.0 kQ

l

C-19 Related

Main

YES

Is reistance between NO CSRfmale) (1) and (3) normal?

electrical

controller

, M31 (20)

NO

I

Remedy


Replace

Defective contact or disconnection in wiring harness between M31 (female) (16) - CSR (female) (3)

Repair or replace

Defective right blade tilt angle sensor

Replace

circuit diagram

599 (I 6)

El1 1 (14)

910 (12)

101

I I

Cause

(16)

201

(12)

Right stroke CSR (X3)

cylinder sensor

-L---lTXDOl104

20-540 0

D475A-3

c-20

TROUBLESHOOTING

C-20 [E0304] Disconnection displayed *

* * *

in right blade tilt angle sensor system is

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Check that the right blade tilt angle sensor is installed normally. (If not, adjust.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

4YEI 1 YES

Set blade in standard position. Turn starting switch ON. *1.8+0.5V

Is resistance YES between M31 - (female) (12) and chassis ground normal?

l

Is voltage - between M31 (7) NO and (16) normal? * Turn starting switch ON. 04.75 - 5.25 V

-

electrical

-

. Set blade in NC standard positiqn. * :I: startmg swatch . 1.8 + 0.5 V

Turn starting switch OFF. * Disconnect CSR l

NO

and M31’ Min. 1 MR

6YE! Is resistance YES between CSR 5 (male) (I) and (3) normal?

Is resistance between M31 - (female) (7) and NO chassis ground normal?

-

* Turn starting switch OFF. * Disconnect CSR and M31. * Min. 1 MD

C-20 Related

Is voltage between CSR (2) and (3) normal?

l

2

l

-

3

*Turn starting switch OFF. * Disconnect CSR. -4.6 - 6.0 kD NO

NC


Replace

Defective contact or disconnection in wiring harness between M31 (female) (12) - CSR (female) (2)

Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M31 (female) (12) - CSR (female) (2)

Repair or replace

Defective contact or disconnection in wiring harness between M31 (female) (7) - CSR (female) (I)

Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M31 (female) (71 - CSR (female) (I)

Repair or replace

circuit diagram Right

Main controller

stroke 599 (I 6)

I

Remedy

Bll

(14)

BlO (12)

101 (161

201 (12)

cylinder sensor

CSR (X3)

I

TXDOllO4

D475A-3

20-541 0

c-21

TROUBLESHOOTING

C-21 [E0305] Short circuit in blade RAISE oil pressure switch system is displayed Sr * *

If the starting switch was turned off after the abnormality occurred, hold the starting switch in the ON position for 60 seconds, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

YES 1 Is voltage between M32 (11) and chassis ground normal? * Turn starting switch ON. l20-30V

2

YES

Is resistance between BLU NO

Remedy

Defective machine controller (See Note)

Replace

Short circuit with chassis ground in wiring harness between M32 (female) (11) - BLU (female) (1)

Repair or replace

(male)(1) and (2) normal? * Turn starting switch OFF. * Disconnect BLU. * Min 1 MR

NO

Defective blade raise oil pressure switch

Note: This service code is saved as an error when the blade lever is held in the RAISE position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-21 Related

Main

electrical

circuit diagram

controller ise oil switch

TX1301

20-542 0

105

D475A-3

c-22

TROUBLESHOOTING

C-22 LEO3061Short circuit in blade right tilt oil pressure switch system is displayed * If the starting switch was turned off after the abnormality occurred, hold the starting switch in the ON position for 60 seconds, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Jr Before carrying out troubleshooting, check that all the related connectors are properly inserted. * Always connect any disconnected connectors before going on to the next step.

YES


1 Isvoltage between M32 (8) _ and chassis ground normal? _

2

Short circuit with chassis ground in wiring harness

YES

between M32 (female) - TRS (female) (1)

Is resistance between TRS NO (male) 11) and 12) normal?

Turn starting switch ON. .20-30V l

* Turn starting switch OFF. . Disconnect TRS. Min 1 MQ

Replace

(8)

Defective blade right tilt oil pressure switch

NO

Repair or replace

Replace

l

Note: This service code is saved as an error when the blade lever is held in the right tilt position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-22 Related Main r

electrical

circuit diagram

controller

I

TRS (2)

M32 (i6) Pressure

Blade right tilt oil Pressure switch

switch

GND5 TXDOIIOG

D475A-3

20-543 0

TROUBLESHOOTING

C-23 * j, Ir

C-23

[E0307] Short circuit in blade left tilt oil pressure switch system is displayed


Cause

YES Is voltage between M32 (15) and chassis ground normal? . Turn starting switch ON. l20-30V


I

1

Remedy

Short circuit with chassis ground in wiring harness between M32 (female) (15) -TLS (female) (1)

_ 2

YES

Is resistance between TLS ND (male) (1) and (2) normal? *Turn starting switch OFF. . Disconnect TLS. lMinlMR

Repair or replace

Defective blade left tilt oil pressure switch

NO

Note: This service code is saved as an error when the blade lever is held in the left tilt position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-23

Related

Main

electrical

circuit diagram

controller

I

M32 (16) Left tilt Pressure

TLS (2)

Blade left tilt oil Dressure switch

oil switch

GND5 TXDOl 107

20-544 0

D475A-3

C-24

TROUBLESHOOTING

C-24 [E0308] Short circuit in ripper RAISE oil pressure switch system is displayed *

* *


Remedy

YES


1 Is voltage between M32 (2) and chassis ground normal?

_ 2

YES

Is resistance between RPU


NO (male) (1) and (2) normal? *Turn starting switch OFF. * Disconnect RPU. * Min 1 MD

NO

Short circuit with chassis ground in wiring harness between M32 (female) (2) - RPU (female) (1)

Repair or replace

Defective ripper raise oil pressure switch

Replace

Note: This service code is saved as an error when the ripper lever is held in the RAISE position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-24 Related Main

electrical

circuit diagram

controller

RPU (2)

M32 ti6, Vll

switch

El

I I

I

I

I

I

---r2)\IF-J\

I

Ripper Pressure

L-G--h

-

raise oil switch

I TVVA) t----c+ Y I

77%

GND5

TXDOIIOB

D475A-3

20-545 0

c-25

TROUBLESHOOTING

C-25 [E0309] Short circuit in ripper LOWER oil pressure switch system is displayed *

* *


I YES


1 Is voltage between M32 (IO) and chassis ground normal? * Turn starting switch ON. *20-30V

Cause

2

YES

Is resistance NO (male) (1) and (2) normal? * Turn starting switch OFF. * Disconnect RPD. * Min 1 MR

NO

I

machine

I

Remedy

Replace

Short circuit with chassis ground in wiring harness between M32 (female) (10) - RPD (female) (1)

Repair or replace

Defective ripper lower oil pressure switch

Replace

Note: This service code is saved as an error when the ripper lever is held in the LOWER position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-25 Related Main

electrical

circuit diagram

controller

M32 (i6)

RPD (2)

Ripper Pressure

lower oil switch

3

switch

3

GND5

20-546 0

TXDOI 109

D475A-3

C-26

TROUBLESHOOTING

C-26 [E0310] Short circuit in ripper TILT IN oil pressure switch system is displayed * Ir Ir


YES 1 Is voltage between M32 (3) and chassis ground normal? * Turn starting switch ON. l20-30V

_ 2

YES

Is resistance between RTI NO (male) (I) and (2) normal? * Turn starting switch OFF. * Disconnect RTI. * Min 1 Ma

NO


Replace

Short circuit with chassis ground in wiring harness between M32 (female) (3) - RTI (female) (1)

Repair or replace

Defective ripper tilt in oil pressure switch

Replace

Note: This service code is saved as an error when the ripper lever is held in the TILT IN position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-26 Related electrical circuit diagram Main

controller

RTI (2)

M32 (i6) Ripper

tilt

switch

Ripper tilt IN oil Pressure switch

3

GND5 TXDOlllO

D475A-3

20-547 0

C-27

TROUBLESHOOTING

C-27 [E0311] Short circuit in blade lever front button switch system is displayed *

* *


Remedy

Cause

YES 1

I

* Turn starting switch OFF. * Disconnect PO1 and P03. * Min 1 MQ

NO


Replace

Short circuit with chassis ground in wiring harness between M51 (female) (12) - PO1 (male)

Repair or replace

Defective blade lever knob switch

Replace

Note: This service code is saved as an error when the blade lever front button is pressed and held for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-27 Related

electrical

circuit diagram Blade

Main

GND5

20-548 0

lever

switch

controller

TXDOllll

D475A-3

C-28

TROUBLESHOOTING

C-28 [E0312] Short circuit in blade lever upper button switch system is displayed * * Ir


Cause

YES 1 Is voltage between M51 (11) and chassis ground normal? * Turn starting switch ON. .20-30V

2 Is resistance between PO2 - (female) (1) and NO ~03 (male) normal? * Turn starting switch OFF. * Disconnect PO2 and P03. * Min 1 MD

YES

-

NO

Remedy


Replace

Short circuit with chassis ground in wiring harness between M51 (female) (11) - PO2 (male)

Repair or replace

Defective blade lever knob switch

Replace

Note: This service code is saved as an error when the blade lever upper button is pressed and held for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-28 Related

electrical

circuit diagram Blade

Main

lever

switch

controller

I

M51 (17) Upper

button

switch

11

GND5

D475A-3

TXDOllli’

20-549 0

c-29

TROUBLESHOOTING

C-29

[E0313]

Short circuit in pitch back solenoid system is displayed

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and perform pitch back operation, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

Cause

between (female)

3

Ml 1 (2) and

YES , r

Turn starting switch OFF. * Disconnect Mll. l20-60R l

1, .____.-____ .___.._Z. I

4

IS res1sIa”Ge

“UWVBWI

PPB(male) (1) and

,^ N

._.._ ____ rg table?

. Turn

starting switch OFF. * Disconnect PPB.

YES

Is resistance between Ml 1 (female)

(2) and

-

I chassisground

normal? II’ * Turn startina switch OFF.* Disconnect G3 and Mll. *20-60R NO

I

Remedy


Replace

Defective diode (G3)

Replace

Short circuit with chassis ground in wiring harness between Ml 1 (female) (2) - PPB (female) (1) - G3 (female) (I)

~e~$eor

Defective pitch back solenoid

Replace

Table

I

PPB (male)

Resistance

(I) - (2)

20 - 60 Q

(I) (2) - chassis

Min. 1 MQ

Between Between

I

1


Main

controller PPB (2) 3 3

I I

GND5 fi

20-550 0

Pitch back solenoid

G3 (2)

TXD01113

D475A-3

c-30

TROUBLESHOOTING

C-30 [E0314] Disconnection

in pitch back solenoid system is displayed


*

* *

Cause

1 Is voltage

3

between Ml 1 (2) and chassis around normal? l

l

Turn starting switch ON. Max. 1 V

1Isresistance

YES

II


Replace

Defective contact, disconnectionor short circuit with power socrce in wiring harness between Ml 1 (female) (2) - PPB(female) (11

Repair or replace

Defective contact or disconnection in wiring harness between PPB (female) (2) -chassis ground

n * Turn starting switch OFF. * Disconnect PPB. .20-60Q

* Max. 1 D

Defective pitch back solenoid

NO

Remedy

Repair or replace

Replace


Main

controller

PPB (2) 3 3

GND5 n@-

D475A-3

Pitch back solenoid

TXDOl113

20-551 0

c-31

TROUBLESHOOTING

C-31 [E0315] Short circuit in pitch dump solenoid system is displayed *

* *

If the starting switch was turned off afterthe abnormality occurred, turn the starting switch on and press the pitch dump switch of the blade lever, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

Cause

YES


Replace


Replace

Short circuit with chassis ground in wiring harness between Ml 1 (female) (8) - PPD (female) (I) - G4 (female) (I)

Repair or replace

Defective pitch dump solenoid

Replace

11 Is resistance between Ml 1

3 YES Is resistance YES between Ml 1 - (female) 18) and _ 2 chassis ground * Turn starting Is reslsxancebetween normal? PPD(male) (11and switch OFF. * Turn starting (2) and between (1) NO * Disconnect Ml 1. switch OFF. NO ~{$%J%&n in l20-60R Disconnect G4 and Ml 1. *20-6on *Turn starting switch OFF. NO Disconnect PPD. (female) (8) and chassis ground normal?

-

l

l

Table Resistance

PPD (male)

I

(I) - (2)

20 - 60 Q

(1) (2) - chassis

Min. 1 MQ

Between Between


controller Ml 1 (13)

PPD (2)

_ Pitch dump solenoid

G4 (2)

GND5 Tfii

20-552 0

TXDOlIl4

D475A-3

C-32

TROUBLESHOOTING

C-32 [E0316] Disconnection *

* *

in pitch dump solenoid system is displayed


Remedy

Cause


YES

between

3

Ml 1 (8)

-Turn starting switch ON. * Max. 1 V

I Isresistance

I I

harness between Ml 1 (female) (8) - PPB (female)

Repair or replace

(1

Repair or replace

PPD (female) (2) -chassis ground harness

F -Turn starting switch OFF. * Disconnect PPD. .20-60R

Main

Defective contact, disconnection or short circuit with power source in wiring

YES


I

C-32 Related

Replace

electrical

* Max. 1 R

between

Defective pitch dump solenoid

NO

Replace

circuit diagram

controller

Ml 1 (i3)

PPD

(2) Pi SO

ch dump enoid

G4 (2) 0 GND5

D475A-3

&+

TXDOll14

20-553 0

TROUBLESHOOTING

c-33

C-33 [E0317] Short circuit in left tilt limit solenoid system is displayed If the starting switch was turned off after the abnormality occurred, start the engine and slowly tilt the blade to the left end, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

F

Remedy

Cause

ES

I Defective

machine

Replace

controller

1

(female) (31and

* Turn starting switch OFF. * Disconnect Mll. l20-60R

3 Is resistance YES between Ml1 - (female) (3) and _ 2 chassis ground Is resrstancebetween normal? TLL (male) (1) and (2) and between (1) (2) Turn starting ’ and chassisground switch OFF. as shown in * Disconnect G5 and followingtable? l20-60R * Turn starting switch OFF. NO * Disconnect TLL. l

h

YES

NO Ml 1.

Defective diode fG5)

Replace

Short circuit with chassis ground in wiring harness between Ml 1 (female) (3) -TLL (female) (1) - G5 (female) (1)

Repair or replace

Defective let? tilt limit solenoid

Replace

Table

I

TLL (male)

I

Resistance

(

Between (I) - (2)

I

20 - 60 Sz

I

Between (I) (2) - chassis

Min. 1 MQ


TLL

GND5

20-554 0

‘I

(2)

Left ti It solenoid _control

G5 (2)

I 2

TXDOl115

D475A-3

c-34

TROUBLESHOOTING

C-34 [E03_18]Disconnection in left tilt limit solenoid system is displayed Ir If the starting switch was turned off after the abnormality occurred, turn the starting switch Ir Ir

on and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

Cause

3

between Ml 1 (3) YE

around normal? *Turn starting switch ON. * Max. 1 V

Is resistance between TLL (male) (1) and (2) normal? CA

Turn starting switch OFF. * Disconnect TLL. *20-60R l

C-34 Related

electrical

YES

jeHP

. Turn starting switch OFF. Disconnect TLL. * Max. 1 CA


Replace

Defective contact, disconnectionor short circuit with power source in wiring harness between Ml1 (female) (3) - TLL (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between TLL (female) (2) -chassis ground

NO

Repair or replace

l

Defective left tilt limit solenoid

NO

Replace

circuit diagram

ilt I solenoid

I I

GND5 &-

D475A-3

G5 (2)

TXDOlIlS

20-555 0

c-35

TROUBLESHOOTING

C-35

[E0319] Short circuit in right tilt limit solenoid system is displayed

If the starting switch was turned off after the abnormality occurred, start the engine and slowly tilt the blade to the right end, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

Cause

Remedy


YES

1

Replace

1 resistance between Ml1 (female) (10) and chassis ground normal? Is

Turn starting switch OFF. * Disconnect Mll. *20-6OD l

3 Is resistance YES between Ml1 - (female) (10) and 2 chassis ground 1S normal? TLR (male) (1) and (2) p Turn starting and between(11(Z) - and chassisground switch OFF. NO as shown in Disconnect G6 and followingtable? *20-60R - Turn starting switch OFF. NO * Disconnect TLR.

YES


-

l

l

p NO Ml 1.

Short circuit with chassis ground in wiring harness between M 11 (female) (10) - TLR (female) (1) G6 (female) (1)

Repair or replace

Defective right tilt limit solenoid

Replace

Table

C-35 Related

Main

electrical

circuit diagram

controller

I

TLR (2)

Ml 1 (13) control

Right control

t i It solenoid

3

solenoid

3

I

I I

GNDS

20-556 0

h+

G6 (2)

TXDOlllG

D475A-3

C-36

TROUBLESHOOTING

C-36 [E0320] Disconnection displayed * * Ir

in right tilt limit solenoid system is

If the starting switch was turned off after the abnormality occurred, start the engine and slowly tilt the blade to the right end, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that ail the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Remedy

Cause


1 Is voltage between M 11 (10) and chassis ground normal? * Turn starting switch ON. * Max. 1 V

3 Yf 2 Is resistance between TLR NO

(male)(1) and (2) normal7 * Turn starting switch OFF. * Disconnect TLR. *20-60R

C-36 Related

Main

electrical

Defective contact, disconnection or short circuit with power source in wiring harness between Ml 1 ;;male) (10) - TLR (female1

YES

EHP

* Turn starting switch OFF. * Disconnect TLR. * Max. 1 R

Replace

Repair or replace

Defective contact or disconnection in wiring harness between TLR (female) (2) -chassis ground

NO

Repair or replace

Defective right tilt limit solenoid

IO

Replace

circuit diagram

controller

Right

tilt

I solenoid

~~~

GNDS k+

D475A-3

TXDOIIIG

20-557 0

c-37

TROUBLESHOOTING

C-37 [E0321] Short circuit in dual tilt selection solenoid system is displayed *

If the starting switch was turned

Ir *

press the back button of the blade lever, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

off after the abnormality

occurred,

turn the starting switch on and

Cause

YES

1J resistancebetween M21 (female)(9) and (19) and between(9) _ (19) and chassis groundas shown in Table 17 Is

3

* Turn starting Is DST (male) (I) and switch OFF. (2) and bahyen (11 Disconnect M21. NG (2) and chaws ground as shown in Table 27

Is voltage between M21 (female) (19) and chassis ground normal?

YES 2

l

Turn starting switch OFF. * Disconnect DST. l

_

* Disconnect DST NO and M21. -Turn starting switch ON. Max. 1 V l

NO

C-37 Related

electrical

Replace

Short circuit with chassis ground or power source in wiring harness between M21 (female) (9) - DST (female) (I)

Repair or replace

Short circuit with power source in wiring harness between M21 (female) (19) - DST (female) (2)

Repair or replace

Defective dual tilt selection solenoid

Replace

circuit diagram

controller

506 (14)

pmmM21 (21)

Dual tilt

20-558 0


Table 2

Table 1

Main

YES

Remedy

451 (16)

Dual tilt select solenoid

__.__

D475A-3

C-38

TROUBLESHOOTING


+ Ir

in dual tilt selection solenoid system is


Cause


YES

II

Defective contact, disconnectionor short circuit with chassis ground in wiring harness between M21 (female) (19) - DST (female) (2) Defective contact or disconnectionin wiring harness between M21 (female) (9) - DST (female) (1)

switch OFF. * Disconnect M21.

* Turn

st switch OFF. n-r+ nCT * Disconb,,,, yvI.

Table

Defective dual tilt selection solenoid

NO

Remedy

Replace

Repair or replace

Repair or replace

Replace

Table 2

1


Main

506 (14)

controller

242 (6)

M21 (21) Dual tilt solenoid

select (+I

;;;k,;ilt

451 (16) I

)d=3

DST (2)

4

I

6

2

solenoid

TXDOlI17

D475A-3

20-559 0

c-39

TROUBLESHOOTING

C-39 [E0323] Short circuit in pitch selection solenoid system is displayed Ir Ir *

If the starting switch was turned off after the abnormality occurred, turn the starting switch on and press the dump button of the blade lever, and check that the service code displays “E” at the head. ilf “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

Defective controller 1 Is resistance between M21 (female) (8) and (18) and between (8) _ (18) and chassis ground as shown in Table l?

17

1

Replace

wiring M21

harness (female)

between (8) - DST

Repair or replace

(female) (1) Short circuit with power source in wiring harness between M21 (female) (18) - DST (female) (2)

Repair or replace

Defective solenoid

Replace

pitch selection

Table 2

C-39 Related

Main

machine

Short circuit with chassis ground or power source in

3 YES

Is voltage between YES M21 (female) (18) and chassis 2 * Turn starting b ground normal? PST (male) (1) and (2) ~ p switch OFF. and between (1) (21 * Disconnect PST NO * Disconnect M21. NO- and chassis ground and M21. as shown in Table 2? * Turn starting switch ON. * Max. 1 V *Turn starting switch OFF. NO * Disconnect PST.

Table

Remedy

electrical

controll

circuit diagram

451

(16) rlCT

Pitch

lO\

Pitch solenoid

select

selL_.

TXDOlll8

20-560 0

D475A-3

c-40

TROUBLESHOOTING


* *

in pitch selection solenoid system is


Cause


YES

I

I

1 Is resstance

between

3

M21 (female)(8) and (18) and between(8) _ (18) and chassis ground as shown in Table 17

Is voltage between YES PST (female) (1) and chassis 2 * Turn starting m ground normal? PST (male) (1) and (2) p switch OFF. * Disconnect PST. and between(1) (2) * Disconnect M21. - and chassis ground * Turn starting NO as shown in Table 2? switch ON. * Turn starting switch OFF. * Disconnect PST.

Table

II I

Defective contact, disconnectionor short circuit with chassis ground in wiring harness between M21 (female) (18) - PST (female) (2) Defective contact or disconnectionin wiring harness between M21 (female) (81-PST (female) (1)

YES

NO

Defective pitch selection solenoid

Repair or replace

Repair or replace

Replace

_-

Table 2

1 M21 (female) Between

Between

Main

II

I

(8) - (18)

electrical

controller

Pitch

select

Pitch

select

Resistance IO-40R

I

(8) (18) - chassis

C-40 Related

DA75A-3

Replace

Min. 1 MQ

1

1

I

I

l

I

PST (male)

I

Resistance

I

Between Between

(I) - (2)

(I) (2) - chassis

/

10 - 40 R

1 I

I

Min. 1 ML2

circuit diagram

Pitch

select

20-561 0

c-41

TROUBLESHOOTING

C-41 [E03251 Short circuit in pitch back assist solenoid svstem is displayed sr * *

If the starting switch was turned off after the abnormality occurred, start the engine and perform pitch back operation, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

YES 1 Is resistance between Ml 1 (11) and chassis ground normal?

_ starting NO switch OFF. * Disconnect Ml 1. *IO-4021 - Turn

2 YES Is resistancebeWeen

PBA (male)(lland (2)andbetween

(2) and chassis groundas shown in followinctable? * Turn starting switch OFF. Disconnect PBA.

_

NO

Remedy


Replace

Short circuit with chassis ground in wiring harness between Ml 1 (female) (11) - PBA (female) (1)

Repair or replace

Defective pitch back assist solenoid

Replace

l

Table

;


Main

controller

Pitch assist PBA (2)

I Ml I (13)

506 (14)

451

(16)

242 (6)

back solenoid

I 2

GNDl TX1301

20-562 0

119

D475A-3

1

C-42

TROUBLESHOOTING


Ir *

in pitch back assist solenoid system is


Cause

Remedy


3

1Isresistance

(11) and chassis * Turn starting switch ON. * Max. 1 V

YES

II

Defective contact or disconnection in wiring harness between PBA (female) (2) -chassis ground L

I

* Turn starting switch OFF. * Disconnect PBA. *lo-4OQ

Main

Defective contact, disconnectionor short circuit with power source in wiring harness between Ml1 ;zmale) (11) - PBA (female)

h

C-42 Related

Replace

electrical

Repair or replace

Defective pitch back assist solenoid

Replace

circuit diagram

controller

Pitch assist

I Ml 1 (13)

Pitch back solenoid

* Max. 1 Q NO

Repair or replace

506 (14)

451

(16)

back solenoid

PEA (2)

242 (6)

assist

I 2

GNDl TXDO1119

D475A-3

20-563 0

TROUBLESHOOTING

C-43

C-43

[E03271 Short circuit in pitch dump assist solenoid system is displayed

If the starting switch was turned off after the abnormality occurred, start the engine and perform pitch dump operation, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

YES 1 Is resistance between Ml 1 (5) and chassis 2 YES ground normal? Is resistsncebetween p PDA Hoyle) (1) and * Turn starting _ (2) and between(1) _ NO (2) and chassis switch OFF. groundas shown in * Disconnect Mll. followinntable? *lo-4on Turn starting NO switch OFF. * Disconnect PDA. l

Remedy


Replace

Short circuit with chassis ground in wiring harness between Ml 1 (female) (5) - PDA (female) (1)

Repair or replace

Defective pitch dump assist solenoid

Replace

Table

I

PDA (male)

1

10 - 40 zz

(I) (2) - chassis

Min. 1 MCI

C-43 Related

Main

Resistance

(1) - (2)

Between Between

I

electrical

controller

circuit diagram

Pitch assist

I Ml 1 (13)

506

(14)

dump solenoid

451 (16)

GNDI TXDOl120

20-564 0

D475A-3

c-44

TROUBLESHOOTING

C-44 [E0328] Disconnection displayed

in pitch dump assist solenoid system is


*

* *

Remedy

Replace

I

Is voltage between Ml 1 (5) and chassis ground normal?

* Turn starting switch ON. - Max. 1 V

3

I

F

YES -

2 _ Is resistance between PDA (male) (1) and (2) normal?

: l

C-44 Related

Main

I

Defective contact, disconnection or short circuit with dower source in wirina ham&s between Ml 1 (female) (5) - PDA (female)

YES

II

I Is resistance between PDA

(1)

(female) (2) and chassis ground normal? * Turn starting NO switch OFF. * Disconnect PDA.

Defective contact or disconnection in wiring harness between PDA (female) (2) -chassis ground Defective pitch dump assist solenoid

Turn starting

electrical

Repair or replace

Repair or replace

Replace

circuit diagram

controller

Pitch assist PDA (2)

I Ml I (‘13)

Pitch dump assist solenoid

506 (I 4)

451

(1 6)

242

(6)

dump solenoid

I

GNDl TX001 120

D475A-3

20-565 0

TROUBLESHOOTING

c-45

C-45 [E0330] Short circuit in blade LOWER oil pressure switch system is displayed *

* *


Cause

between M32 (6)

2 YES between BLD

switch ON. l20-30V Turn starting switch OFF. Disconnect BLD. * Min 1 MD

l

NO

Remedy


Replace

Short circuit with chassis ground in wiring harness between M32 (female) (61 - BLD (female) (1)

Repair or replace

Defective blade lower oil pressure switch

Replace

l

Note: This service code is saved as an error when the blade lever is held in the LOWER position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-45 Related Main

electrical

circuit diagram

controller

M32 (i6)

BLD (2)

Blade lower oi I Pressure swi tch

3 3

GND5 TXDOl121

20-566 0

D475A-3

C-46

TROUBLESHOOTING

C-46 [E0332] Short circuit in unload valve solenoid system is displayed *

* *

If the starting switch was turned off after the abnormality occurred, start the engine and raise the blade to relieve at the stroke end, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

3 YES

(15) and between (4)

Is voltage between YES M21 (female) (15) 2 and chassis

n

*Turn starting switch OFF. * Disconnect M21.

* Disconnect UNL.

Table


Replace

Short circuit with chassis ground or power source in wiring harness between M21 (female) (4) - UNL (female) (1)

Repair or replace

Short circuit with power source in wiring harness between M21 (female) (15) - UNL (female) (2)

Repair or replace

Defective unload valve solenoid

Replace

._-

Table 2

1

C-46 Related

Main

I

D475A-3

Remedy

electrical

controller

circuit diagram

Unload

TXDOl122

20-567 0

c-47

TROUBLESHOOTING

C-47 [E0333] Disconnection displayed + * *

in unload valve solenoid system is


Cause


YES

1 Isreslsfance between M21 (female) (4) and (15) and between (41 _ (15) and chassis y&as shown in * Turn starting Is UNL (male) (1) and switch OFF. (2) and betwqen (1) * Disconnect M21. NG (2) and chassis ground as shown in Table 2?

* Turn starting switch OFF. * Disconnect UNL.

Table

Is voltage between UNL (female) (1) and chassis ground normal? Disconnect UNL. * Turn starting switch ON. *20-30V

NO

l

machine

Replace

Defective contact, disconnection or short circuit with chassis ground in wiring harness between M21 (female) (15) - UNL (female) (2) Defective contact or disconnection in wiring harness between M21 (female) (4) - UNL (female) (1)

3 YES YES 2

Remedy

Defective solenoid

NO

unload valve

Repair or replace

Repair or replace

Replace

Table 2

1

C-47 Related

electrical

circuit diagram

-ai n controller

I M21

(21)

577

(12)

578

(8)

3

3

4

4

UNL

(2)

Unload solenoid

I 3

TXDOl122

20-568 0

D475A-3

C-48

TROUBLESHOOTING

C-48 [E0334] Short circuit in demand valve solenoid system is displayed If the starting switch was turned off after the abnormality occurred, start the engine and perform pitch dump operation, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

Cause

YES

II Is resistancebetween M21 (female)(2) and (13) and between (21 (13) and chassis groundes shown in Table 17

H

3 YES Is voltage between YES M21 (female) (13) 2 r and chassis 1ground normal?

-Turn starting switch OFF. Disconnect M21.

(2) and between (1)

l

* Turn starting switch OFF. Disconnect PCV.

11

* Disconnect PCV NO and M21. *Turn starting switch ON. * Max. 1 V NO

Remedy


Replace

Short circuit with chassis ground or power source in wiring harness between M21 (female) (2) - PCV (female) (1)

Repair or replace

Short circuit with power source in wiring harness between M21 (female) (13) - PCV (female) (2)

Repair or replace

Defective demand valve solenoid

Replace

l

Table

1

Table 2 M21 (female)

Between Between

(2) - (13)

40 - 80 R

(2) (13) - chassis

Min. 1 MQ

C-48 Related Main

electrical

PCBV (male)

Resistance

(I) - (2)

40 - 80 R

(I) (2) - chassis

Min. 1 MR

Between Between

Resistance

circuit diagram

controller I

M21

(21)

577

(12)

570

(8)

241

1

I

3

2

2

4

(4)

PCV (2)

Demand solenoid

TXDOl 123

D475A-3

20-569 0

c-49

TROUBLESHOOTING

C-49 [E0335] Disconnection displayed

in demand valve solenoid system is


*

* *

Remedy

Cause


YES

Defective contact, disconnectionor short circuit with chassis ground in wiring harness between M21 ;;male) (13) - PCV (female)

ground Table l?

Defective contact or disconnectionin wiring harness between M21 (female) (2) - PCV (female) (1)

* Turn starting switch OFF. Disconnect M21. l

. Turn starting switch OFF. * Disconnect PCV.

Table

switch ON. *20-30V

Repair or replace

Repair or replace

Defective demand valve solenoid

NO

Table 2

1

C-49 Related

Main

Replace

electrical

circuit diagram

controller 1

M21 Demand

solenoid

Demand solenoid

(21)

577

(12)

578

(8)

241

(4)

PCV (2)

(+

1

3

1

(-

2

4

2

Demand solenoid

TXDOl123

20-570 0

D475A-3

TROUBLESHOOTING

c-50

C-50 [E0336] Short circuit in ripper TILT BACK oil pressure switch system is displayed If the starting switch was turned off after the abnormality occurred, hold the starting switch in the

*

ON position for 60 seconds, and check that the service code displays “E” at the head. (If “P” is

* *

displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

YES 1 Is voltage between M32 (16) and chassis ground normal? _ *Turn starting switch ON. *20-30V

_ 2 Is resistance between RTB NO (male) (I) and (2) normal? *Turn starting switch OFF. * Disconnect RTB. * Min 1 MR

YES s

NO

Remedy


Replace

Short circuit with chassis ground in wiring harness between M32 (female) (16) - RTB (female) (1)

Repair or replace

Defective ripper tilt back oil pressure switch

Replace

Note: This service code is saved as an error when the ripper lever is held in the TILT BACK position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.


controller

1

RTB (2)

M32 (16) Tilt back oil Pressure switch

Ripper tilt back oil Pressure switch

3

@

3

GND5 TXDOl1.24

D475A-3

20-571 0

c-51

TROUBLESHOOTING

C-51 [E0337] Shot-t circuit in pitch independent displayed

solenoid system is

If the starting switch was turned off after the abnormality occurred, start the engine and perform pitch operation, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* +

I YES

1

Remedy


I

1

Cause

resistance between Ml 1 Is

(female) Ill) and chassis ground

-

normal? ~ * Turn starting switch OFF. * Disconnect Mll. *lo-400

Short circuit with chassis ground in wiring harness between Ml 1 (female) (11) -PIT (female) (1)

2 YES

Is resistancebetween PIT (male) (1) and (2) _ and between (1) (2) _ NO and chassisground as shown in followinatable? * Turn starting NO switch OFF. Disconnect PIT.

Repair or replace

Defective pitch independent solenoid

l

Table

I I

PIT (male) Between Between

C-51

(I)- (2)

IO-40R

1

(I) (2) - chassis

Related

Main

Resistance

I

electrical

I 1

Min. 1 MQ

)

circuit diagram

controller

I

Ml1 (13)

506 (14) 3

PIT (2)

451 (16)

Pitch independent solenoid

.a

@

3

GND2 TVDOI 160

20-572 0

D475A-3

1

TROUBLESHOOTING

c-52


* *

in pitch independent

solenoid system is



YES

I 1

Is voltage between Ml 1 (11) and chassis ground normal? * Turn starting switch ON. * Max. 1 V

YES

Defective contact, disconnectionor short circuit with power source in wiring harness beween Ml1 $ymale) (11) -PIT (female)

NO

Defective contact or disconnection in wiring harness between PIT (female) (2) -chassis ground

,I 3

Is resistance YES between PIT 2 7 (female) 12)and -1 chassis ground rNXmsl? Is resistance _ between PIT * Turn starting switch OFF. NO (male) (1) and (21 normal? . Disconnect PIT. I I * Max. 1 R Turn starting switch OFF. NO * Disconnect PIT. .lO-40R

-

I

Main

electrical

controller

Replace

Repair or replace

Repair or replace

Defective pitch independent solenoid

l

C-52 Related

I

circuit diagram

I

Ml1 (i3)

506 (14)

451 (16)

PIT (2)

Pitch independent solenoid _

pzJEyj+

GND2 TVDOllGO

D475A-3

20-573 0

c-53

TROUBLESHOOTING

C-53 [E0339] Short circuit in left bottom displayed *

* *

drain solenoid system is

If the starting switch was turned off after the abnormality occurred, start the engine and perform pitch operation, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

YES

1J Is resistance between M21 (female) (9) and (19) _ and between (9) (19) and chassis round as shown ina_able 17

I

voltage between ‘ES M21 (female) (19) I Is

* Turn starting between LBD (male) switch OFF. (1) and (2) and * Disconnect M21. NG between(lj(2)and chassis around as B 27

l

lull, ~&cX,W.g switch OFF. Disconnect LBD.

* Disconnect LBD NO and M21. *Turn starting switch ON. - Max. 1 V NO


Replace

Short circuit with chassis ground or power source in wiring harness between M21 (female) (9) - LBD (female) (1)

Repair or replace

Short circuit with power source in wiring harness between M21 (female) (19) - LBD (female) (2)

Repair or replace

Defective left bottom drain solenoid

Replace

Table 2

Table 1

C-53 Related

Main

3 YES

Remedy

electrical

circuit diagram

Left drain

controller

Left drain

bottom solenoid

bottom

(-1

TV001161

20-574 0

D475A-3

c-54

TROUBLESHOOTING


* *

in left bottom

drain solenoid system is


Remedy

Defective machine controller 1 Is resistancebetween M21 (female)(9) and (19) and between (9) A (19) and chassis Bzbu;;l,asshown in

I2

* Turn starting Ts res8stancebetween LBD(male) (1) and switch OFF. (2) and between (1) * Disconnect M21. N& (2) and chaws groundas shown in Table 2? Turn starting switch OFF. . Disconnect LBD.

l

Table

* Disconnect LBD. Turn starting switch ON. *20-30V

NO

l

Defective left bottom drain solenoid

NO

Repair or replace

Repair or replace

Replace

Table 2

1 M21 (female) Between

rEletween I

Main

bottom solenoid

I

Min. 1 MR

1 I

1 Between I

Resistance 10 - 40 R

(I) - (2)

(I) (2) - chassis

1

Min. 1 MQ

circuit diagram

Left bottom drain solenoid

controller

Left drain

Between

IO-40R

(9) - (19)

electrical

LBD (male)

Resistance

(9) (19) - chassis

C-54 Related

D475A-3

Defective contact, disconnectionor shorl circuit with chassis ground in wiring harness between M21 (female) (19) - LBD (female) (21 Defective contact or disconnectionin wiring harness between M21 (female) (9) - LBD (female) (1)

3 YES

Is voltage between LBD (female) (1) and chassis ground normal?

YES

Replace

(-1

20-575 0

1 1 1

C-55, C-56

TROUBLESHOOTING

C-55 [E0351] Abnormality is displayed

in standard

value of blade tilt angle sensor


*

Cause

1 YES Is any other service code displayed, too? - Turn starting switch ON.

NO

C-56 [E0352] Abnormality sensor is displayed

in compensated

-)r If the starting switch was turned off after the abnormality check that the service returned to normal.)

code

displays

“E” at the

head.

Remedy


Replace

Wrong adjustment limit

Adjust

of tilt

value of blade tilt angle occurred, turn the starting switch on and (If “P” is displayed, the condition has

Cause

Is any other service code displayed, too? l


20-576 0

h

NO

Remedy


Replace

Wrong adjustment of tilt limit

Adjust

D475A-3

TROUBLESHOOTING

c-57

C-57 [E03601 Short circuit in work equipment pump) system is displayed * * Ir

oil pressure sensor (140


Cause

YES

YES

l

Raise ripper to

NO

. 1.5-2.OV * Disconnect HPl. * Turn starting switch ON. * Max. 1 V

C-57 Related

electrical

l

Max. 1 R

NO

Remedy


Replace

Defective work equipment oil pressure sensor (140 pump)

Replace

Defective contact or disconnection in wiring harness between M31 (female) (13) - HP1 (female) (3)

Repair or replace

Short circuit with power source in wiring harness between M31 (female) (13) - HP1 (female) (3)

Repair or replace

circuit diagram

Work equipment Pressure sensor (140) Sensor oil

oil

Power

Pressure

TXDOI 125

D475A-3

20-577 CD

C-58

TROUBLESHOOTING

C-58 IE03611 Disconnection in work equipment pump) system is displayed



*

* *

Cause

Remedy


Replace

IDefective contact or

5

,disconnection in wiring harness between M31 (13) - HP1 I[female) (3) I[female)

between M31 (13) and (16)

IDefective work equipment oil pressure 1 jsensor (140 pump)

YE Start engine. * Raise ripper to relieve. . 1.5-2.OV l

1&z&ground 2

I

I

Short circuit with chassis ground in wiring harness between M31 (female) (13) - HP1 (female) (3)

- Turn l

l

* Turn starting switch ON. l20-3ov

1

starting switch OFF. Disconnect HP1 and M31. Min. 1 MR

YES

(female) (6) and

n

* Turn starting switch OFF. Disconnect HP1 and M31. * Min. 1 MD

NO

Defective contact or disconnection in wiring harness between M31 (female) (61- HP1 (female) (2) Short circuit with chassis ground in wiring harness between M31 (female) (6) HP1 (female) (2)

Repair or replace

Replace

Repair or replace

Repair or replace

Repair or replace

l

C-58 Related

Main

electrical

circuit diagram

Work equipment oi I Pressure sense r (140)

controller

oil

Pressure

1

20-578 0

TXDOI 125

D475A-3

c-59

TROUBLESHOOTING

C-59

[E0362] Short circuit in work equipment pump) system is displayed



Cause

Remedy


Replace


Replace


Repair or replace

Short circuit with power source in wiring harness between M31 (female) (14) - HP2 (female) (3)

Repair or replace

1 Is voltage between M31 (14) and (16) normal? - Start engine. * Raise ripper to relieve. *1.5-2.OV

C-59 Related

Main

3 YES Is resistance YES between HP2 - (female) 11) and 2 _ chassis ground nOrmal? Is voltage between M31 * Turn starting switch OFF. N , (14) and chassis ground normal? * Disconnect HP2. * Max. 1 Q * Disconnect HP2. * Turn starting NO switch ON. * Max. 1 V

electrical

-

NO

circuit diagram

Controller Work equipmen oi I Pressure

TVDOll62

D475A-3

20-579 0

C-60

TROUBLESHOOTING

C-60 [E0363] Disconnection in work equipment pump) system is displayed



Remedy

Cause

4YEf

between M31 YE ~

* Start engine. * Raise ripper to relieve. l1.5-2.ov

I

. Disconnect HP2

between M31 (6)

NO

between M31 N

chassis ground normal? *Turn startina switch OFF.* Disconnect HP2 and M31. *Min. 1 MR

Replace


Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M31 (female) (14) - HP2 (female) (3)

Repair or replace

Defective contact or disconnection in wiring harness between M31 (female) (6) - HP2 (female) (2) Short circuit with chassis ground in wiring harness between M31 (female) (6) HP2 (female) (2)

YES

*Turn starting switch ON. .20-30V


I

NO

Repair or replace

Repair or replace


I

Main

I

Contro

ler

I

M31 (20) I

-

Sensorwzr source(24Vl ~~;~,~;~‘~~~&f’ Sensor

’

GND

577

(‘2)

578

HP2 (3)

(8)

g

g

3

@

@

3

@

a

Work equipment oi I Pressure (100)

-3

I TVDO1I62

20-580 0

D475A-3

C-61

TROUBLESHOOTING

C-61 [E0501] Short circuit in acceleration Sr * *

sensor system is displayed


Cause

YES

3 between M31 (2) and (17) normal? * Turn starting switch ON. * 1.25 - 3.75 V

C-61 Related

Main

Is resistance YES between SS3 - (female) (3) and 2 _ chassis ground normal? Is voltage between M31 (2) Turn starting NO and chassis switch OFF. ground normal? * Disconnect SS3. * Max. 1 R * Disconnect SS3. * Turn starting NO switch ON. * Max. 1 V

YES II -

l

electrical

controller

NO


machine

Defective sensor

acceleration

Replace

Replace

Defective contact or disconnection in wiring harness between M31 (female) (17) - SS3 (female) (3)

Repair or replace

Short circuit with power source in wiring harness between M31 (female) (2) SS3 (female) (2)

Repair or replace

circuit diagram

421

(14)

ss3

(4)

Accelerat sensor

ion

3 3

3

TVD01126

D475A-3

20-581 0

C-62

TROUBLESHOOTING

C-62 [E0502] Disconnection Ir * *

in acceleration

sensor system is displayed


Remedy

Cause

YES

QYE!

:E&%LJ land (3) normal?

between M31 (2) and (17) normal? Turn starting switch ON. l1.25-3.75V

1 I

* Turn

starting switch ON. * 1.25-3.75V

(female) (2) and

l

I

1 normal?

Turn startina switch OFF.* Disconnect SS3 and M31. * Min. 1 MR

11 N(

l

between M32 (9) M31 (17)

NC and

-Turn starting switch ON. 7.0 - 8.0 V

NO

5 YES

between M32

l

h Turn starting switch OFF. * Disconnect SS3 and M31. Min. 1 Ma l

NO


Replace


Repair or replace

Defective acceleration sensor

Replace

Short circuit with chassis ground in wiring harness between M31 (female) (2) - SS3 (female) (2)

Repair or replace


Repair or replace

Short circuit with chassis ground in wiring harness between M32 (female) (9) SS3 (female) (1)

Repair or replace

l


hlain

controller

Sensor

I M31 (20)

GND

421 (14)

ss3 (4)

@

3

g

3

a

3

Accelerat sensor

ion

I

M32

L

20-582 0

(i 6)

TVDOll.26

D475A-3

C-63

TROUBLESHOOTING

C-63 [E0601] Short circuit in buzzer cancel switch system is displayed If the starting switch was turned off after the abnormality occurred, hold the starting switch in the ON position for 60 seconds, and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

Remedy

Cause

YES 1

I

~~ . Turn startina switch OFF.* Disconnect 212. * Min 1 MR

NO


Replace

Short circuit with chassis ground in wiring harness between M32 (female) (7) -212 (female) (I)

Repair or replace

Defective buzzer cancel switch

Replace

Note: This service code is saved as an error when the buzzer cancel switch is held in the ON position for 60 seconds while the engine is running. When finding out the cause of abnormality, check that the above operation has not been performed during work.

C-63 Related

Main

electrical

circuit diagram

controller Buzzer switch

214 (14)

cance ‘I

M\W

77%

GND5

D475A-3

TVDOl127

20-583 0

TROUBLESHOOTING

C-64

C-64 [E0610] Short circuit in backup alarm relay system is displayed * * Ir

If the starting switch was turned off after the abnormality occurred, start joystick to the REVERSE position, and check that the service code displays is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors Always connect any disconnected connectors before going on to the next

the engine and tun the “E” at the head. (If “P” are properly step.

Remedy

Cause

YES


1

inserted.

machine

Replace

Is resiStance between

Ml 1

(female) (9) and chassis ground

-

normal? Turn starting switch OFF. . Disconnect Mll. l200-400Q

l

2

Is resistance between 885 NO (male) (1) and (2) (3) normal? * Turn starting switch OFF. Disconnect 885. *200-400Q

YES k

NO

Short circuit with chassis ground in wiring harness between Ml 1 (female) (9) - 885 (female) (1)

Repair or replace

Defective relay

Replace

backup alarm

l

C-64 Related Main

electrical

circuit diagram

controller Backup

1

1 Backup

Backup

alarm

Kg_

>(~P-----K1~/

alarm

re I ray

t

alarm

I

I

GND4 7797 (ReI ay

box) TVDOl128

20-584 0

D475A-3

TROUBLESHOOTING

C-65

C-65 [E0611] Disconnection * * *

in backup alarm relay system is displayed


Cause

3

between Ml 1 (9) YE 2

s Turn starting switch ON. - Max. 1 V

between 885 (male) (1) and (2)

N

*Turn starting switch OFF. * Disconnect 885. .200-400R

C-65 Related Main

electrical

YES

EHP

* Turn starting switch OFF. * Disconnect 885. - Max. 1 L2

NO

Remedy


Replace

Defective contact, disconnection or short circuit with power source in wiring harness between Ml1 (female) (9) - BB5 (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between 885 (female) (2) -chassis ground

Repair or replace

Defective backup alarm relay

Replace

circuit diagram

controller

Backup

BlO (12)

alarm

relrau

BB5 (6) 1 -3 3

Backup

alarm

431 (2)

Fuse

box

3

I

3

(Re I ay

box) TVDOI 128

D475A-3

20-585 0

C-66

TROUBLESHOOTING

C-66 *

* *

[E0632] Short circuit in rockbed selection mode switch system is displayed


Cause

YES 1

I

M31 (3) and M51 (3) as shown in

2 YES

Remedy


Replace

Defective monitor panel

Replace

Short circuit with power source in wiring harness between M31 (female) (3) - SO1 (female) (9)

Repair or replace

between M31f3) switch ON. * Disconnect Sol. * Turn starting switch ON. - Max. 1 V

NO

Table Between

M31 (3) - M51 (31, (4) In mode

C-66 Related

Voltage

1

Approx.

4.4 V

In mode 3

Approx.

2.5 V

In mode 5

Approx.

1.3 V

electrical

circuit diagram

Main controller

M31 (20) SSC mode

~-J=g._j

3 4

I

GND5

20-586 0

I

TVDOll29

D475A-3

C-67

TROUBLESHOOTING

C-67 [E0633] Disconnection is displayed *

* *

in rockbed selection mode switch system


Remedy

YES


Replace


Replace

Defective contact or disconnection in wiring harness between M31 (female) (3) - SO1 (female) (9)

Repair or replace

Short circuit with chassis ground in wiring harness between M31 (female) (3) SO1 (female) (9)

Repair or replace

I M31 (3) and M51 (3) as shown in

‘1 -1

* Turn starting switch ON. NO , and chassis I ground normal? I

I 1

*Turn starting switch OFF. * Disconnect SO1 and M31. ‘Min. 1 MQ

; between M31 - (female) (3) and SO1 (female) (9) normal? . Turn starting NO switch OFF. * Disconnect SO1 and M31. * Max. 1 R u-l

Table 1 Between

M31 (3) - M51 (31, (4)

1

Voltage

1

1

Approx.

4.4 V

1

In mode 3

1

Approx.

2.5 V

1

In mode 5

1

Approx.

1.3 V

I

In mode

C-67 Related

Main

electrical

circuit diagram

controller

214 (14)

Monitor

Panel

GND5

D475A-3

20-587 0

C-68

TROUBLESHOOTING

C-68 [E0930] Disconnection

in engine speed sensor system is displayed

If the starting switch was turned off after the abnormality occurred, start the engine and check that the service code displays “E” at the head. (If “P” is displayed, the condition has returned to normal.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

*

* *

Remedy

Cause

Is resistance

II


II

lit%:ind H ;;FH-

3

YES

i!

*Turn starting switch OFF. Disconnect M41. ~500-1.000R

I I ‘!27!-”

l

I-----..---

srrrrand(2) Ial?

*Turn starting switch OFF. * Disconnect E12. .500-1,GGon

C-68 Related Main

electrical

I

I

*Turn starting NO switch OFF. * Disconnect M41 and E12. Max. 1 R l

NO

Replace

disconnection or ihort circuit with chassis ground in wiring harness between M41 (female) (9) - El2 (female) (2) Defective contact or disconnection in wiring harness between (female) (1) -El2

M41 (female)

Defective left-bank engine speed sensor

Repair or replace

Repair or replace (1)

Replace

circuit diagram

controller

993 (I 6)

El2 (2) Left engine speed sensor

Enoine controller

E31 (20) Engine speed 5

3

Pulse GND

14

r TVDO1130

20-588 0

D475A-3

C-69

TROUBLESHOOTING

C-69 Lock-up device does not operate when lock-up mode switch is turned- ON Ir * *


Remedy

Cause


YES

1 Is voltage between M51 (6) and (3) as shown in Table I?

3 YES Is voltage between SO1 (3) and (2) as shown in Tabl 2?

YES 2

* Turn starting switch ON.

Is resistance between M51 - (female) (6) and NO chassis ground

-

* Turn starting switch OFF. Disconnect SO1 and M51. Min. 1 MR

l


_

machine

Replace


Repair or replace

Defective

Replace

monitor

1

panel

NO Short circuit with chassis ground in wiring harness between M51 (female) (6) - SO1 (female) (3)

NO

l

Repair or replace

l

Table 2

Table 1

C-69 Related

Main

electrical

circuit diagram

controller

M51 67)

Monitor

GND

@

GND

(g

Rock-up

switch

@

GND5&

D475A-3

Panel

I

so1 (12)

Rock-up

switch

TVDOI 135

20-589 0

c-70

TROUBLESHOOTING

C-70 Engine output turned ON * + *

does not change when economy

mode switch is


Remedy

Cause

M51 (14) and (3) and between (7) and (3) as shown in * Turn starting switch ON.

4 YES YES 3

Is voltage between SO1 (4) and (2) and between (5) and (2) as shown in Table 2?

Is resvstance between M51 - (female) (14) and (3) - . Turn starting switch ON. NO and between (7) and (3) normal? Turn startina switch OFF.NO * Disconnect SO1 and M51. * Min. 1 MO

NO

l

Economy mode switch

Between

Between

M51 (14) - (3) (4)

M51 (7) - (31, (4)

Economy mode switch


Replace

Defective transmission oil pressure switch system

Recheck service code

Defective contact or disconnectionin wiring harness between M51 (female) (14) - SO1 (female) (4) or between M51 (female) (7) - SO1 (female) (5)

Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M51 (female) (14) - SO1 (female) (4) or between M51 (female) (7) - SO1 (female) (5)

Repair or replace

Between so1 (4) - (2)


When

OFF

20 - 30 u

20 - 30 u

When

OFF

20 - 30 u

20 - 30 u

When

at 1

20 - 30 u

Max.

1 U

When

at 1

20 - 30 u

Max. 1 U

When

at 2

Max. 1 U

20 - 30 u

When

at 2

Max.

20 - 30 u

C-70 Related

I

Main

electrical controller

1 U


I M51 (17)

Panel

I

so1

(12)

TV001 131

20-590 0

D475A-3

c-71

TROUBLESHOOTING

C-71 Reverse travel speed does not change when reverse slow mode switch is turned ON * Ir Ir


Cause

2 YES YE

1

Is monitoring code [7Hl displayed normally? * Start engine.

NO

Is voltage

YES_ between SO1 (6)


3

N

Is resistance between M51 (female) (15) and (3) normal? ‘Turn starting switch OFF. * Disconnect SO1 and M51. * Min. 1 MQ

Table

and (2) as shown in Table 2? _

*Turn starting switch ON.

Main

_ P NO

NO

Replace



I Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M51 (female) (15) - SO1 (female) (6)

Repair or replace

Table 2

1

c-71 Related



4 YES

M51 (15) and (3) as shown in Table l?

Remedy

electrical

circuit diagram

controller Monitor

Panel

REVERSEslow switch

GND5

D475A-3

TVDOI 13.7

20-591 0

C-72

TROUBLESHOOTING

C-72 Shoe slip control device does not operate when shoe slip control switch is turned ON or shoe slip level does not change when rockbed selection mode switch is changed * Ir Ir


3 YES 2Is monitoring code [7H1 displayed normally?

YI

1

_

I

YES

Is monitoring code IRHI displayed normally? * Start engine.

NO

* Start engine.

NO

between M51 (8) and (3) as shown * Turn starting switch ON.

(3) normal? * Turn starting switch OFF.* Disconnect SO1 and M51. * Min. 1 MR

Table

II

I NO

1

Remedy

Cause


Replace



Defective ripper relay oil pressure switch system



Repair or replace


Replace

Short circuit with chassis ground in wiring harness between M51 (female) (81 - SO1 (female) (7)

Repair or replace

Table 2

Shoe slip control switch

Between


Shoe slip control switch

M51 (8) - (3) (4)

I

When

OFF

I

20 - 30 U

I

I

When

OFF

I

20 - 30 u

I

I

When

ON

I

Max.

I

I

When

ON

I

Max. 1 U

I

C-72 Related Main

electrical

1 U

circuit diagram

controller Monitor

1

l-F?% GND

@

SSC switch

@

so;

Panel

(12)

TVDOI 133

20-592 0

D475A-3

c-73

TROUBLESHOOTING

C-73 Any solenoid related to machine controller * * Ir

does not operate

Check that fuse 12 is not broken. (If it is broken, check the circuit related to it for short circuit with chassis ground.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause


1 YES Is voltage between M21 (I) and (11) normal?

-

Turn starting switch ON. l20-30V

NO

C-73 Related

electrical

l

Main

controller

Remedy

Replace

Defective contact or disconnection in wiring harness between M21 (female) (1) -fuse 12

Repair or replace

circuit diagram

I

421 (14) @

Bl 1 (14) 3

Fuse

box

---ET! 20A

12

TVDOl 134

D475A-3

20-593 0

c-74

TROUBLESHOOTING

C-74 Backup alarm does not sound or keeps sounding * * Ir

a) Ir


Backup buzzer does not sound Check that fuse 3 is not broken. chassis ground.)

(If it is broken, check the circuit related to it for short circuit with

Remedy

Cause

ground normal? Start engine. * Travel in reverse. 20 - 30 V (See note) 1I YES l

between 885 (3)

l

1Is voltage between switch ON. *20-30V * Turn starting switch ON. *20-30V

Note: The voltage

b)

fluctuates

Backup buzzer

at the interval

H NO

of about

1 second

1 YES 885 is disconnected, does buzzer sound normally?


20-594 0

t

NO

Replace

Defective backup alarm

Replace

Defective contact or disconnection in wiring harness between BB5 (female) (5) - 431 (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between fuse 3 outlet - BB5 (female) (3)

Repair or replace

Defective fuse power source system

Repair or replace

between

20 - 30V and IV.

keeps sounding

I 1If relay

Defective backup alarm relay

Cause

Defective backup buzzer relay Short circuit with power source in wiring harness between 885 (female) (51 -431 (female) (1)

I

Remedy

Replace

Repair or replace

D475A-3

c-74

TROUBLESHOOTING


Main

controller

Ml1 (i3)

1 22 (12) m-

n Backup

alarm

431 (2)

Backup

BlO (12)

alarm

re I ray

885 (6)

3 3 buse

Dox

GND4* (Re I ay

box) TVD01128

D475A-3

20-595 0

TROUBLESHOOTING

c-75

C-75 Ripper pin puller cylinder does not operate *


*

a) *

inserted.

Pin cannot be pulled out Check that fuse 12 is not broken. (If it is broken, check the circuit related to it for short circuit with chassis ground.)

I

Cause

7

YES

resistancebetween _ 244 (male) (1) and (2) YE 1. and between (1) (2) and chassisground as shown in If

1 between 244

NO

* Turn starting switch OFF. * Disconnect 244.

(1)

4 YES Is resistance YES between 263 (male) (1) and (2) normal? 3

*Turn starting switch ON. - Switch: PULL *20-30V h

Is voltage between 263 (I) and chassis ground normal?

_

+ Turn starting switch OFF. * Disconnect 263. * Max. 1 $2 5

NO

YES

Is voltage between fuse 12 outlet and NO chassis ground normal?



NO

Remedy

Defective pin puller solenoid

Replace

Defective contact or disconnection in wiring harness between 244 (female) (2) -chassis ground

Repair or replace

Defective contact or disconnection in wiring harnessbetween (female) (2) - 244 (female) (1)

Repair or replace

Defective pin puller solenoid

Replace

Defective contact or disconnection in wiring harness between fuse 12 outlet - 263 (female) (1)

Repair or replace

Defective fuse power source system

Repair or replace

Table

I

224 (male)

1 Between

b)

(I) (2) - chassis

Pin cannot

be pushed

I

Resistance

1

Min. 1 MR

in

I 1 YES Is resistance between 263 (male) (1) and (2) normal? -Turn starting switch OFF. * Disconnect 263. * Min 1 MR

20-596 0

NO

Cause

I

I

Remedy

Short circuit with power source in wiring harness between 263 (female) (2) - 244 (female) (I)

Repair or replace

Defective pin puller switch

Replace

D475A-3

TROUBLESHOOTING

c-75


Pin

Duller

TVD01136

D475A-3

20-597 0

TROUBLESHOOTING OF HYDRAULIC AND MECHANICAL SYSTEMS (H MODE)

modes

Table of failure

and causes . . . . . .. . . . . . .. . . . . . . .. .. . . . . . . .. . . . . . .. . . . . . .. . .. . . . . . .. . . . . .. . . . .. . . . . . .. . . . . . .. . . . . .. . .. . .. . .. . . .. . . 20-602 (lacks drawbar

pull). ...............................................................................

20-604

H- 1

Machine

lacks power

H- 2

Machine

does not move (at 2nd or 3rd gear speed) ..............................................................

.20-606

H- 3

Machine

does not move at any gear speed .............................................................................

20-608

H- 4

Machine

travels

or in reverse ............................................................................

.20-610

H- 5

Time lag is excessive

H- 6

Machine

does not turn in either direction

H- 7

Machine

turns only in one direction

H- 8

Machine

turns too far .................................................................................................................

.20-613

H- 9

Brakes do not work.. ...................................................................................................................

.20-613

H-10

Torque

H-l 1

Power train oil overheats

H-12

All work equipment

H-13

Work equipment

H-14

Blade lift speed is slow or lacks power

...................................................................................

.20-617

H-15

Blade tilt speed is slow or lacks power

....................................................................................

20-618

H-16

Blade pitch does not work ..........................................................................................................

20-618

H-17

Ripper lift speed is slow or lacks power ...................................................................................

20-619

H-18

Ripper tilt speed is slow or lacks power.. ................................................................................

.20-619

H-19

Excessive

hydraulic

drift of blade lift .......................................................................................

.20-620

H-20

Excessive

hydraulic

drift of blade tilt .......................................................................................

.20-620

H-21

Excessive

hydraulic

drift of ripper lift ......................................................................................

.20-620

H-22

Ripper pin-puller

H-23

Abnormal

D475A-3

only forward

when gear is shifted

or travel direction

is changed..

.......................

................................................................................

.........................................................................................

lock-up does not work.. ................................................................................

converter

............................................................................................................

.20-610 20-611 20-612

20-614 20-615

speeds are low.. .......................................................................................

.20-616

does not move at all.. ...................................................................................

.20-617

cylinder

does not work ................................................................................

noise from around

hydraulic

pump

........................................................................

.20-621 20-621

20-601 0

TROUBLESHOOTING

TABLE OF FAILURE MODES AND CAUSES

TABLE OF FAILURE MODES AND CAUSES

Failure

mode

Machine

turns only in one direction

0

Machine

turns too far

0.0..

Brakes do not work Torque

converter

00

lock-up

does not work

Work

equipment

0

speeds

H-7 H-E 0

H-S

0.0.

Power train oil overheats All work equipment

0.0

are low

does not move at all

0

H-11 00

0

00

0

H-l

0

0.00..

0

00

.

H-l

0

Blade lift speed is slow or lacks power

00

Blade tilt speed is slow or lacks power

0

Blade pitch does not work

H-l 0

H-l

0

0

H-l

0

.

.

Ripper lift speed is slow or lacks power

0

0.0

H-l

Ripper tilt speed is slow or lacks power

0

0.0

H-l

Excessive

hydraulic

drift of blade lift

Excessive

hydraulic

drift of blade tilt

0

Excessive

hydraulic

drift of ripper

0.0

Ripper

pin-puller

Abnormal

20-602 0

cylinder

0

lift

does not work

noise from around

hydraulic

0

H-l

0

H-l

0

H-2 H-2

. pump

.

.

H-2 .

H-2:

D475A-3

TROUBLESHOOTING

H-1

H-1 Machine lacks power (lacks drawbar pull) fl Check that the power train oil level is normal. (If insufficient, supply new oil.)

YES

6 YES YES Is engine speed at F3 stall 5 normal?

Is steering clutch, YES brake oil pressure as shown in 4 following table?

1 Is brake dragging?

Is inlet and outlet

YES pressure of • See Note.

3 YES Is transmission

modulating pressure normal?

2 Is transmission main relief NO pressure normal? • Engine at high idling • Min. 2.35 MPa {Min. 24.0 kg/cm2}

NO

• Torque converter stall speed: Min. 1,590 rpm • Full stall speed: Min. 1,420 rpm

NO

NO

torque converter normal?

• Engine at high NO idling • Inlet pressure: 0.78 – 0.98 MPa {8.0 – 10.0 kg/cm2} • Outlet pressure: 0.29 – 0.59 MPa {3.0 – 6.0 kg/cm2}

• Engine at high idling • Min. 2.35 MPa NO {Min. 24.0 kg/cm2}

7 YES Is free length of main relieve valve spring normal and does spool move smoothly?

NO • Free length of spring: 120.3 mm

Note: Set the machine on a level ground and run the engine at low idling. Shift the joystick to F2. If the machine starts traveling, the brake is not dragging. Table

Measuring condition

Joystick

At neutral

Steering to left

Steering to right

20-604 3 4

Clutch oil pressure (MPa {kg/cm2})

Brake oil pressure (MPa {kg/cm2})

Left

Right

Left

Right


0 {0}

0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}


0 {0}

0 {0}

Min. 2.26 {Min. 23.0}

Min. 2.26 {Min. 23.0}


Min. 2.16 {Min. 22.0}

0 {0}

0 {0}

Min. 2.16 {Min. 22.0}


Min. 2.35 {Min. 24.0}

0 {0}

0 {0}

Min. 2.26 {Min. 23.0}


0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}

0 {0}


0 {0}

Min. 2.35 {Min. 24.0}

Min. 2.26 {Min. 23.0}

0 {0}

D475A-3

H-l

TROUBLESHOOTING

Cause

-

Brake dragging

Go to H-9

Defective engine

Check engine

Defect in transmission

Repair or replace

Defective steering clutch

Go to H6

Defect in torque converter

Repair or replace

Defective transmission valve

Repair or replace

Defective power train pump Defective main relief valve spring, spool catching, or clogging with dirt

D475A-3

Remedy

Replace

Replace, repair, or clean

20-605 0

TROUBLESHOOTING

H-2

H-2 Machine does not move (at 2nd or 3rd gear speed) fl Check that the power train oil level is normal. (If insufficient not, supply new oil.) YES ª Criteria for Item 6 • Engine at high idling • Inlet pressure: 0.78 – 0.98 MPa {8.0 – 10.0 kg/cm2} • Outlet pressure: 0.29 – 0.59 MPa {3.0 – 6.0 kg/cm2}

YES

3

6 Is inlet and outlet

YES Is brake dragging

YES pressure of

at F1 or R1?

YES 4 2 Is transmission main relief NO pressure normal?

Does speed gear

YES lever of transmission valve shift normally?

• Engine at high idling • Min. 2.35 MPa {Min. 24.0 kg/cm2}

• Operate joystick.

1

NO

Is parking brake released?

5

torque converter normal?

Is transmission modulating pressure normal?

ª See criteria at left upper part.

NO

• Engine at high idling NO • Min. 2.35 MPa {Min. 24.0 kg/cm2}



• Operate parking brake.

NO

NO

20-606 3 4

D475A-3

TROUBLESHOOTING

H-2

Cause

7 YES Is steering clutch oil pressure as shown in following table?

Remedy

Brake dragging

Go to H-9

Defect in transmission

Repair or replace

Defective steering clutch

Go to H-6

Defect inside torque converter

Repair or replace


Repair or replace

Defective power train pump

Replace

Defective main relief valve spring, spool catching, or clogging with dirt


Defective adjustment of gear speed linkage

Adjust

Defective adjustment of parking brake linkage

Adjust

NO

Table

Measuring condition

Joystick

At neutral

Steering to left

Steering to right

D475A-3



Left

Right

Left

Right


0 {0}

0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}


0 {0}

0 {0}

Min. 2.26 {Min. 23.0}

Min. 2.26 {Min. 23.0}


Min. 2.16 {Min. 22.0}

0 {0}

0 {0}

Min. 2.16 {Min. 22.0}


Min. 2.35 {Min. 24.0}

0 {0}

0 {0}

Min. 2.26 {Min. 23.0}


0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}

0 {0}


0 {0}

Min. 2.35 {Min. 24.0}

Min. 2.26 {Min. 23.0}

0 {0}

20-607 3 4

TROUBLESHOOTING

H-3

H-3 Machine does not move at any gear speed fl Check that the power train oil level is normal. (If insufficient, supply new oil.) YES 6 Is steering clutch

YES oil pressure as ª Criteria for Item 4 • Engine at high idling • Inlet pressure: 0.78 – 0.98 MPa {8.0 – 10.0 kg/cm2} • Outlet pressure: 0.29 – 0.59 MPa {3.0 – 6.0 kg/cm2}

5 YES

shown in Table 2?

Is transmission modulating pressure normal?

NO

4 • Engine at high idling • Min. 2.35 MPa {Min. 24.0 kg/cm2}

Is inlet and outlet YES pressure of torque converter normal?

3

ª See criteria at left upper part.

YES Is transmission

NO

main relief pressure normal?


2 Does directional

YES lever transmission

NO

valve shift normally?

1




Is brake oil pressure as shown in Table?

NO

NO

NO

Table 1

Brake pedal

Measuring condition

Released

Depressed

20-608 3 4

Brake oil pressure (MPa {kg/cm2}) Left

Right


Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}


Min. 2.26 {Min. 23.0}

Min. 2.26 {Min. 23.0}


0 {0}

0 {0}


0 {0}

0 {0}

D475A-3

TROUBLESHOOTING

H-3

Cause

7 YES Does steering valve lever move normally? • Operate joystick.

NO

Remedy

Defect in steering clutch or transmission

Repair or replace

Defective steering clutch seal or steering valve

Repair or replace

Defective adjustment of steering linkage

Adjust


Repair or replace


Repair or replace


Replace



Defective adjustment of directional lever linkage

Adjust

Defective brake

Go to H-9

Table 2

Measuring condition

Joystick

At neutral

Steering to left

Steering to right

D475A-3



Left

Right

Left

Right


0 {0}

0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}


0 {0}

0 {0}

Min. 2.26 {Min. 23.0}

Min. 2.26 {Min. 23.0}


Min. 2.16 {Min. 22.0}

0 {0}

0 {0}

Min. 2.16 {Min. 22.0}


Min. 2.35 {Min. 24.0}

0 {0}

0 {0}

Min. 2.26 {Min. 23.0}


0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}

0 {0}


0 {0}

Min. 2.35 {Min. 24.0}

Min. 2.26 {Min. 23.0}

0 {0}

20-609 3 4

TROUBLESHOOTING

H-4, H-5

H-4 Machine travels only forward or in reverse fl Check that the gear speed changes normally in the direction where travel is normal. (If not, perform check of H-3.)

Cause

1 YES Is directional lever of transmission shifts normally? • Operate joystick.

NO

Remedy

Slippage of clutch in direction where machine does not start (Forward or reverse)

Repair or replace

Defective adjustment of directional lever linkage

Adjust

H-5 Time lag is excessive when gear is shifted or travel direction is changed Cause

YES

YES

1 3 Is brake dragging?

YES

• See Note.

2

NO

Do gear speed lever and directional lever of transmission valve shift normally?

Is transmission main relief pressure normal? • Engine at high idling NO • Min. 2.35 MPa {Min. 24.0 kg/cm2}


NO

Brake dragging

Go to H-9

Defective transmission valve (Defective operation of spool)

Repair or replace

4 YES Defective power train Is free length of main relieve valve spring normal and does spool move smoothly?

• Free length of spring: 120.3 mm

Remedy

pump Defective main relief valve spring or clogging NO with dirt Defective adjustment of gear speed linkage or directional lever linkage

Replace

Replace or clean

Adjust

Note: Use the blade and ripper to raise the chassis, then run the engine at low idling. Shift the joystick to F3 or R3. If the track shoe moves at this time, the brake is not dragging.

20-610 3 4

D475A-3

TROUBLESHOOTING

H-6

H-6 Machine does not turn in either direction fl Check that the power train oil level is normal. (If insufficient, supply new oil.)

Cause

YES

Remedy

Defective operation of brake

Go to H-9

Seizure of clutch disc, plate

Replace

1 Is clutch disengaged?

YES 2

• See Note. Is steering clutch, brake oil pressure NO as shown in following table?

4 YES Defective clutch piston Does clutch valve YES spool move 3 normally? Does steering valve lever move NO normally?

seal

Defective operation of steering valve clutch NO spool

Defective adjustment of steering linkage


NO

Replace

Repair or replace

Adjust

Note: Travel in F1 or R1 on a level ground with the engine at low idling, then operate the joystick to the left or right to the position where the clutch should be disengaged (about a half stroke). If the machine stops or turns slowly at this time, the clutch is disengaged.

Table

Measuring condition

Joystick

At neutral

Steering to left

Steering to right

D475A-3



Left

Right

Left

Right


0 {0}

0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}


0 {0}

0 {0}

Min. 2.26 {Min. 23.0}

Min. 2.26 {Min. 23.0}


Min. 2.16 {Min. 22.0}

0 {0}

0 {0}

Min. 2.16 {Min. 22.0}


Min. 2.35 {Min. 24.0}

0 {0}

0 {0}

Min. 2.26 {Min. 23.0}


0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}

0 {0}


0 {0}

Min. 2.35 {Min. 24.0}

Min. 2.26 {Min. 23.0}

0 {0}

20-611 3 4

TROUBLESHOOTING

H-7

H-7 Machine turns only in one direction

Cause

3 YES YES 2

Is clutch oil pressure on steerable side as shown in following table?

NO

Is clutch, brake oil YES pressure on unsteerable side normal?

1

4 YES Do clutch valve spool and brake NO valve spool move smoothly?

Does steering valve lever move normally?

NO

NO

Remedy

Wear, scuffing of brake disc, plate

Replace

Slippage of clutch on steerable side

Repair or replace

Defective clutch chamber seal or defective seal ring

Repair or replace

Development operation of clutch valve spool or brake valve spool

Repair or replace

Defective steering linkage

Adjust

Table

Measuring condition

Joystick

At neutral

Steering to left

Steering to right

20-612 3 4



Left

Right

Left

Right


0 {0}

0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}


0 {0}

0 {0}

Min. 2.26 {Min. 23.0}

Min. 2.26 {Min. 23.0}


Min. 2.16 {Min. 22.0}

0 {0}

0 {0}

Min. 2.16 {Min. 22.0}


Min. 2.35 {Min. 24.0}

0 {0}

0 {0}

Min. 2.26 {Min. 23.0}


0 {0}

Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}

0 {0}


0 {0}

Min. 2.35 {Min. 24.0}

Min. 2.26 {Min. 23.0}

0 {0}

D475A-3

TROUBLESHOOTING

H-8, H-9

H-8 Machine turns too far Cause

1 YES

Remedy

Defective operation of brake

Go to H-9

Defective disengagement of clutch

Go to H-6

Is clutch disengaged? • See Note.

NO

Note: Travel in F1 or R1 on a level ground with the engine at low idling, then operate the joystick to the left or right to the position where the clutch should be disengaged (about a half stroke). If the machine stops or turns slowly at this time, the clutch is disengaged.

H-9 Brakes do not work fl Check that the power train oil level is normal. (If insufficient, supply new oil.) Cause

YES 2

Remedy

Wear of brake disc, plate

Replace

Defective brake piston seal

Replace

Defective operation of brake valve spool

Adjust

Defective adjustment of brake linkage

Adjust

Is brake oil

YES pressure as shown in following table?

1

3 YES Does brake valve spool move NO smoothly?

Is brake linkage adjusted normally?

NO

NO

Table 1

Brake pedal

Measuring condition

Released

Depressed

D475A-3

Brake oil pressure (MPa {kg/cm2}) Left

Right


Min. 2.16 {Min. 22.0}

Min. 2.16 {Min. 22.0}


Min. 2.26 {Min. 23.0}

Min. 2.26 {Min. 23.0}


0 {0}

0 {0}


0 {0}

0 {0}

20-613 3 4

TROUBLESHOOTING

H-10

H-10 Torque converter lock-up does not work fl Check that any service code is not displayed. (If any service code is displayed, check according to it.)

Cause

2 YES Is torque YES converter stall speed at F3 normal?

1 Is torque converter lock-up oil presssure normal?

NO

• Engine at high idling • Min. 1,590 rpm

4 YES


Does lock-up YES solenoid valve spool move smoothly? 3

NO

Is transmission main relief NO pressure normal? • Engine at high idling • Min. 2.35 MPa NO {Min. 24.0 kg/cm2}



20-614 3 4

Remedy

Defective lock-up clutch

Repair or replace


Repair or replace

Defective torque converter lock-up valve

Repair or replace

Defective torque converter loc-up solenoid valve

Repair or replace


Replace



D475A-3

TROUBLESHOOTING

H-11

H-11 Power train oil overheats fl Check that the power train oil is actually at high temperature. (If it is normal, check the panel in M mode.) fl Check that the power train oil level is normal. (If insufficient, supply new oil.)

Cause

YES

YES

1

3

Brake dragging

Go to H-9

Defective engine cooling system

Check engine cooling system

Is torque

Is brake dragging?

YES converter stall speed at F3 normal?

• See Note.

2 Is transmission main relief NO pressure normal?

• Engine at high idling • Min. 1,590 rpm

4 YES

Go to A

Does machine stop when Item 3 NO is checked? Slippage of brake disc,

NO plate


NO


• Free length of NO spring: 120.3 mm

6 YES A

Remedy

Is inlet and outlet pressure of torque converter normal? • Engine at high NO idling • Inlet pressure: 0.78 – 0.98 MPa {8.0 – 10.0 kg/cm2} • Outlet pressure: 0.29 – 0.59 MPa {3.0 – 6.0 kg/cm2}

Repair or replace

Defective power train pump (Air entering through suction circuit)

Repair or replace



Slippage of transmission clutch, excessive engine output, or slippage of steering clutch

Repair or replace


Repair or replace

Note: Use the blade and ripper to raise the chassis, then run the engine at low idling. Shift the joystick to F3 or R3. If the track shoe moves at this time, the brake is not dragging.

D475A-3

20-615 3 4

TROUBLESHOOTING

H-12

H-12 All work equipment speeds are low fl Check that the hydraulic oil level is normal. (If insufficient, supply new oil.)

Cause

4 YES Defective work YES 3

equipment pump assembly

Does condition become normal when work equipment pump assembly is replaced?

NO

YES Is rear pump

relief pressure normal?

• Engine at high idling • 19.6MPa {200kg/cm2}

2 YES Is front pump

relief pressure normal?

1

5 YES

NO

Does condition become normal in Item 3 when main relief valve of blade tilt/ripper Lo valve is adjusted?

NO

• Engine at high idling • Min. 19.6 MPa {Min. 200 kg/cm2}

Is work equipment control oil pressure normal?

6 YES

NO

Does condition become normal in Item 2 when main relief valve of blade lift valve is adjusted?

NO

• Engine at high idling • Release safety lever. • Min. 3.92 MPa {Min. 40.0 kg/cm2}

YES 7

Is work equipment control oil pressure normal NO when safety lever is locked?

• Engine at high idling • Lock safety lever.NO • Min. 3.92 MPa {Min. 40.0 kg/cm2}

YES 8 Does condition become normal in Item 7 when PPC relief valve is adjusted?

20-616 3 4

Repair or replace

Defective adjustment of main relief valve of blade tilt/ripper Lo valve

Replace

Defective main relief valve of blade tilt/ripper Lo valve

Repair or replace

Defective adjustment of main relief valve of blade lift valve

Replace

Defective main relief valve of blade lift valve

Repair or replace

Internal leakage in PPC valve or tilt limit solenoid valve

Repair or replace

Defective adjustment of PPC relief valve

Adjust

pump

NO

Replace

Defective PTO

9 YES Defective PPC charge Is any foreign material found in NO strainer of PPC relief valve?

Remedy

Defective PPC relief valve

Replace

Repair or replace

D475A-3

TROUBLESHOOTING

H-13, H-14

H-13 Work equipment does not move at all fl Check that the hydraulic oil level is normal. (If insufficient, supply new oil.)

Cause

2 YES YES 1

Does condition become normal when work equipment pump assembly is replaced?

Defective work equipment pump assembly

Replace

Defective PTO

Repair or replace

Defective PPC charge pump

Replace

Defective PPC relief valve

Repair or replace

NO

Is work equipment control oil pressure normal?

3 YES

• Engine at high idling • Min. 3.92 MPa NO {Min. 40.0 kg/cm2}

Is any foreign material found in strainer of PPC relief valve?

NO

Remedy

H-14 Blade lift speed is slow or lacks power fl Check that the hydraulic oil level is normal. (If insufficient, supply new oil.) fl Check that the hydraulic drift of the blade lift is normal. (If not, go to H-19.) fl Check that the blade has not been modified.

Cause

3 YES YES 2 Is PPC valve

Does condition become normal when suction valve on blade RAISE side of blade lift valve is replaced?

YES output pressure 1 Does cylinder operate smoothly?

Defective suction valve of blade lift valve

Repair or replace

Defective operation of blade lift valve spool

Repair or replace

Defective PPC valve

Repair or replace

Air in cylinder

Bleed air

on blade RAISE side normal? • Engine at high idling NO • Operate lever through all stroke. • Min. 3.92 MPa {Min. 40.0 kg/cm2}

NO

D475A-3

NO

Remedy

20-617 3 4

TROUBLESHOOTING

H-15, H-16

H-15 Blade tilt speed is slow or lacks power fl Check that the hydraulic oil level is normal. (If insufficient, supply new oil.) fl Check that the hydraulic drift of the blade tilt is normal. (If not, go to H-20.) fl Check that the blade has not been modified. Cause

2 YES Is PPC valve

Remedy

Defective operation of blade tilt valve spool

Repair or replace

Defective PPC valve

Repair or replace

Air in cylinder

Bleed air

YES output pressure 1 normal?

Does cylinder operate smoothly?

• Engine at high NO idling • Operate lever through all stroke. • Min. 3.92 MPa {Min. 40.0 kg/cm2}

NO

H-16 Blade pitch does not work Dual tilt specification Cause

1 YES Is blade tilt operation normal?

NO

Remedy

Defective pitch selector solenoid valve

Repair or replace

Defective blade tilt circuit

Go to H-15

Superdozer specification Cause

1 YES Is blade tilt operation normal?

NO

20-618 3 4

Remedy

Defective pitch dump solenoid valve or pitch back solenoid valve

Repair or replace

Defective blade tilt circuit

Go to H-15

D475A-3

TROUBLESHOOTING

H-17, H-18

H-17 Ripper lift speed is slow or lacks power fl Check that the hydraulic oil level is normal. (If insufficient, supply new oil.) fl Check that the hydraulic drift of the ripper lift is normal. (If not, go to H-21.) fl Check that the ripper has not been modified.

Cause

3 YES YES 2 Is PPC valve YES output pressure on ripper RAISE 1 side normal? Does cylinder operate smoothly?

Does condition become normal when suction valve on ripper RAISE side of ripper Hi valve is replaced?

NO

• Engine at high idling NO • Operate lever through all stroke. • Min. 3.92 MPa {Min. 40.0 kg/cm2}

NO

Remedy

Defective suction valve of ripper Hi valve

Repair or replace

Defective operation of ripper Lo or Hi valve spool

Repair or replace

Defective PPC valve

Repair or replace

Air in cylinder

Bleed air

H-18 Ripper tilt speed is slow or lacks power fl Check that the hydraulic oil level is normal. (If insufficient, supply new oil.) fl Check that the ripper has not been modified.

Cause

2 YES YES Is PPC valve output pressure 1

Defective operation of ripper Lo or Hi valve spool

Repair or replace

Defective PPC valve

Repair or replace

Air in cylinder

Bleed air

normal?

Does cylinder operate smoothly?

• Engine at high NO idling • Operate lever through all stroke. • Min. 3.92 MPa {Min. 40.0 kg/cm2}

NO

D475A-3

Remedy

20-619 3 4

TROUBLESHOOTING

H-19, H-20, H-21

H-19 Excessive hydraulic drift of blade lift fl Check that there is no leakage of oil in the blade lift cylinder circuit. fl Check that the blade has not been modified. Cause

1 YES Is hydraulic drift speed heightened when lever is shifted down with front part of chassis raised?

• Stop engine. • See TESTING AND ADJUSTING.

NO

Remedy

Excessive internal leakage in blade cylinder (Defective piston seal)

Repair or replace

Excessive internal leakage in blade lift valve (Defective oil seal)

Repair or replace

H-20 Excessive hydraulic drift of blade tilt fl Check that there is no leakage of oil in the blade tilt cylinder circuit. fl Check that the blade has not been modified. Cause

1 YES Is leakage in blade tilt cylinder normal?

NO

• Engine at full throttle • 12 cc/min

Remedy

Excessive internal leakage in blade tilt/ripper Lo valve (Defective oil seal)

Repair or replace

Excessive internal leakage in blade tilt cylinder (Defective piston seal)

Repair or replace

H-21 Excessive hydraulic drift of ripper lift fl Check that there is no leakage of oil in the ripper lift cylinder circuit. fl Check that the ripper has not been modified. Cause

1 YES Is leakage in ripper lift cylinder normal? • Engine at full throttle • 12 cc/min

20-620 3

NO

Remedy

Excessive internal leakage in blade tilt/ripper Lo valve or ripper Hi valve (Defective oil seal)

Repair or replace

Excessive internal leakage in ripper lift cylinder (Defective piston seal)

Repair or replace

D475A-3

TROUBLESHOOTING

H-22 Ir

H-22, H-23

Ripper pin-puller

cylinder does not work

Check that the power train oil pressure

is normal.

(If not, check the power train.)

1 YES Is output

H-23 Abnormal *

Defective pin-puller cylinder

II

oil level is normal.

(If insufficient,

supply new oil.)

Cause

1

I N0

D475A-3

Repair or replace

noise from around hydraulic pump

Check that the hydraulic

ES Is air

I

Remedy

Defective seal in pump suction circuit

Repair

Clogged hydraulic tank strainer

Clean

Defective work equipment pump

Replace

Operate for a while and check for change of condition.

Check again according to change of condition.

Improper oil

Replace

sucked in .3

YES

I

) NC

20-621 0

TROUBLESHOOTING OF MONITOR PANEL AND ELECTRICAL SYSTEM (M MODE)


when

circuit diagram

occurs and problems

abnormality

on machine . . . . . .. . . . . .. . .. .. . . .. . .. . 20-702

of M mode system . . .. . . . . . . . .. .. . . . . .. . . . . . .. .. . . . . . . .. . . . . .. . . . . .. . . .. .. .. . . . .. . .. . . .. .. . . .. .. . . . . . .. . 20-704

M- 1 [E0120] Short circuit in caution

lamp output system

M- 2 [E0121] Abnormality

in network

system

M- 3 [E021 I] Abnormality

in power train (torque

M- 4 [EO3291 Abnormality

in hydraulic


in engine

M- 6 [E04311 Abnormality

in radiator


in engine

(monitor

converter

oil temperature

oil pressure water

is displayed

....................................... is displayed..

panel system)

oil temperature

is displayed

................. .20-707

is displayed..

...... ..20-70 8

.............................................

is displayed

......................................................

.20-709

.......................................................

20-709

water temperature

is displayed

...........................................

starting

switch is turned

on, monitor

panel gives no display ...................................

M- 9 When

starting

switch is turned

on, monitor

panel lamps all stay lighted

starting

switch

is turned

on (engine

stopped),

When

starting

switch

(but battery charge, M-12

When

starting

is turned engine

on (engine

oil pressure

switch is turned

stopped],

caution

on (engine

caution

20-714

items flash 20-716

items flash

do not flash) ..............................................

20-718

engine

M-13

Preheating

does not light up or go out ......................................................................

20-724

M-14

Abnormality

in caution

buzzer ...................................................................................................

20-725

M-15

Abnormality

in caution

lamp ......................................................................................................

20-727

M-16

Abnormality

in engine

M-17

Abnormality

in power train (torque

M-18

Abnormality

in fuel level gauge .................................................................................................

M-19

Speed

M-20

Service

M-21

Abnormality

M-22

caution

20-713

(but battery charge, monitor

oil pressure

caution

do not flash) ..............................................

stopped),

.20-711

check before starting

items flash .................................................................................................................................... M-II

.20-710

up and

do not go out ............................................................................................................................... When

20-708

level is displayed

M- 8 When

M-10

.20-706

water temperature

range display shows

converter]

“- -“, engine

meter does not advance

gauge.. .................................................................

when

oil temperature

gauge ................................

speed is not displayed

engine

is running

.......................................

.....................................................

in service mode .....................................................................................................

Night lighting

on monitor

(front lamp, working

lamps do not light up .....................................................................

Front lamps and working

M-24

Rear lamps do not light up.. ....................................................................................................... Automatic

M-26

Windshield

D475A-3

preheater wiper

20-731 20-733 20-735 20-735 20-736

panel does not light up

lamp are normal) .....................................................................................

M-23

M-25

.20-729

does not work ..........................................................................................

and window

washer

do not work.. .............................................................

20-738 20-740 20-743 20-744 20-747

20-701 0

TROUBLESHOOTING



Service code Abnormal system

Nature of abnormality % When GND output voltage to caution lamp has become high

E0120

Short circuit in monitor caution lamp system

E0121

Short circuit in monitor alarm buzzer system

E0211

Abnormality in power train (torque converter) oil temperature

CALL 03

EOI

E0329

E0430

Abnormality in hydraulic oil temperature

Abnormality in radiator water level

1. Defective caution lamp 2. Short circuit with power source in wiring harness between monitor panel CN2 (7) and caution lamp 375 (2) 3. Defective monitor panel % When alarm buzzer GND output voltage has become high 1. Defective alarm buzzer 2. Short circuit with power source in wiring harness between monitor panel CN2 (8) and alarm buzzer 217 (2) 3. Defective monitor panel % When torque converter oil temperature caution lamp on monitor panel flashes 1. Rise of torque converter oil temperature to about 130°C 2. Defective torque converter oil temperature sensor

% When hydraulic oil temperature caution lamp on monitor panel flashes 1. Rise of hydraulic oil temperature to about 108°C 2. Defective contact or disconnection in wiring harness between monitor panel CNI (8) - sensor 452 (I 1 3. Defective hydraulic oil temperature sensor

I When engine oil pressure caution lamp on monitor panel flashes 1. Lowering of engine oil pressure 2. Short circuit with chassis ground in wiring harness between monitor panel CNI (7) - sensor 301 (3) 3. Defective engine oil pressure sensor

CALL

E0431

EOI

E0432

20-702 0

Abnormality in engine oil pressure

Abnormality in engine water temperature

X+ When radiator water level caution lamp on monitor panel flashes 1. Lowering of radiator water level (Main or dual) 2. Defective contact or disconnection in wiring harness between monitor panel CNI (5) - sensor DRT (2) 3. Defective contact or disconnection in wiring harness between sensor DRT (1) - sensor 405 (1) 4. Defective contact or disconnection in wiring harness between sensor 405 (2) - GND 5. Defective radiator water level sensor % When engine water temperature caution lamp on monitor panel flashes 1. Rise of engine water temperature to about 108°C 2. Defective engine water temperature sensor

D475A-3


TROUBLESHOOTING

Condition when normal (voltage,

current,

resistance)

Action by controller when abnormality

is detected


Voltage between CN2 (7) and chassis : Max. 6 V (when caution lamp lights up)

1. Sounds alarm buzzer

1. Caution lamp does not light up

Voltage

1. Lights up caution

1. Alarm buzzer does not sound

between

CN2 (8) and chassis

lamp

: Max. 3 V (when alarm buzzer sounds)

l

l

l

l

1. Lights up caution sounds alarm buzzer

lamp,

Voltage between 452 (1) (CNI (8)) chassis ground When sensor is turned ON (hydraulic oil temperature is about 104°C or lower): 1 V max. When sensor is turned OFF (hydraulic oil temperature is about 108°C or higher): 20 - 30 V


lamp,

Voltage between 301 (3) (CNI (7)) chassis ground When sensor is turned ON (engine is stopped but starting switch is at ON position): 1 V max. When sensor is turned OFF (engine is started): 20 - 30 V

1. Lights UP caution sounds alarm buzzer

lamp,

Voltage between DRT (2) KNI (5)) - chassis ground When sensor is turned ON (radiator water level is above LOW mark) : 1 V max. When sensor is turned OFF (radiator water level is below LOW mark): 20 - 30 V


lamp,

Resistance At 100°C At 90°C At 35°C At 20°C At 10°C


lamp,

Resistance At 100°C At 90°C At 35°C At 20°C At 10°C

D475A-3

: : : : :

: : : : :

between Approx. Approx. Approx. Approx. Approx.

between Approx. Approx. Approx. Approx. Approx.

453 (I) - (2) 3.8 k!.2 5 kD 29 kD 52 M 80 kQ

402 (I) - (2) 3.8 kQ 5 kQ 29 M 52 kD 80 kD

20-703 0

TROUBLESHOOTING

ELECTRICAL CIRCUIT DIAGRAM OF M MODE SYSTEM


OF M MODE SYSTEM

Right battery

E lectrical a ir heater

Rirht lamp

relay

,161 (8,

intake timer

head relay

-

Engine ten9eratre

=a

Radiator

rater

wate

Radiator rater level sensor

TVD01063

20-704 0

D475A-3

TROUBLESHOOTING

ELECTRICAL CIRCUIT DIAGRAM OF M MODE SYSTEM

Starting

D475A-3

switch

20-705 0

M-l

TROUBLESHOOTING

M-l [E0120] Short circuit in caution lamp output system is displayed *

* *


I 2 YES YES 1 P Is resistance between 375 _ (male) (1) and (2) normal? * Turn starting switch OFF. * Disconnect 375. - loo-400R

M-l

Related

Is voltage between CN2 (female) (7) and chassis ground normal? NO * Disconnect 375, CN2. * Turn starting switch ON. * Max. 1 V

NO

electrical

Cause

1

Remedy


Replace

Short circuit with power source in wiring harness between CN2 (female) (7) and 375 (female) (2)

Repair or replace

Defective caution lamp

Replace

circuit diagram

Caution I amp

375 Monitor

I

Panel

I

x.

(4) I

215

(16)

TVDOI 137

20-706 0

D475A-3

M-2

TROUBLESHOOTING

M-2 [E0121] Short circuit in caution buzzer system is displayed *

* *


Cause

2 YES YEA

normal? *Turn starting switch OFF. - Disconnect 217. -Min. 200 Q

M-2 Related

i Isvoltaoebetween1 CN2 (female) (8)

t


Replace

Short circuit with power source in wiring harness between CN2 (female) (8) and 217

Repair or replace

Defective caution buzzer

Replace

1

- Turn starting switch ON. - Max. 1 V NO

electrical

Remedy

circuit diagram

Caution buzzer

Monitor

217

Panel 1

CN2 (81

215

(16)

421

(14)

Bl 1 (14)

Fuse box lOA

Caution buzzer TVD01138

D475A-3

20-707 0

M-3, M-4

TROUBLESHOOTING

M-3 [E0211] Abnormality in power train (torque converter temperature is displayed

oil

Cause

YES

Remedy

-

Go to Ml2 e).


Replace

Defective power train

See note

Note: The display on the monitor panel has returned to normal, but it shows that the power train oil temperature sensor has detected abnormal oil temperature in the past. Check the power train and remove the cause of the abnormality.

M-4 LEO3291 Abnormality

in hydraulic oil temperature

is displayed

Cause

YES

Go to Ml2 f).

1 Is hydraulic oil temperature caution lamp on monitor flashing?

2

YES

head of service code? NO

-


Replace

Defective hydraulic equipment

See note

Note: The display on the monitor panel has returned to normal, but it shows that the hydraulic oil temperature sensor has detected abnormal oil temperature in the past. Check the hydraulic equipment and remove the cause of the abnormality.

20-708 0

D475A-3

M-5,

TROUBLESHOOTING

M-5 [E0430] Abnormality

in engine oil pressure is displayed

Cause

YES

r

I

Remedy

Go to Ml2 b).

pressure caution lamp on monitor

YES

Nq k&of

M-6


-Replace

se&ice Defective engine

See note

Note: The display on the monitor panel has returned to normal, but it shows that the engine oil pressure sensor has detected a drop in the oil pressure in the past. Check the engine and remove the cause of the abnormality.


in radiator water level is displayed

Cause

YES

Go to Ml2 CL

1 Is radiator water level caution lamp on monitor flashing? P

2

YES

Remedy

-


Replace

Defective engine

See note

Is [El displayed at head of service code?

No I

I I

NO

Note: The display on the monitor panel has returned to normal, but it shows that the radiator water level sensor has detected a drop in the water level in the past. Check the engine and remove the cause of the abnormality.

0475A-3

20-709 0

M-7

TROUBLESHOOTING



is displayed

Cause

YES

Go to Ml2 d).

NO

Note: The display on the monitor panel has returned to normal, temperature sensor has detected abnormal oil temperature remove the cause of the abnormality.

20-710 0

Remedy

-


Replace

Defective engine

See note

but it shows that the engine water in the past. Check the engine and

D475A-3

M-8

TROUBLESHOOTING

M-8 When starting switch is turned on, monitor * *

panel gives no display


inserted.

unit) gives no display a) Caution module (Gauge/lamp * Check that fuse 12 is normal before starting troubleshooting. (If it is blown,

check for a short circuit with the ground

in the wiring

harness

related to it.)

Cause

YES 1


I


M-8 a) Related

Monitor

electrical

Panel

Defective contact or disconnection in wiring harness between CNl (female) (2) - chassis ground Defective contact or disconnection in wiring harness between CNl (female) (1) -fuse 12

NO

(12)

215

(16)

421

(14)

611

($

8

GND5

D475A-3

Replace

Repair or replace

Repair or replace

circuit diagram

I

CNl

Remedy

(14)

Fuse

box

TV001139

20-711 0

M-8

TROUBLESHOOTING

b) Jr

Tachometer module (Tachometer/service meter unit) gives no display Check that fuse 1 and 12 are normal before starting troubleshooting. (If they are blown, check for a short circuit with the ground in the wiring

2 YES Is voltage - between TO1 (1) and (2) normal? 1 Is voltage between TO1 (7) and (2) normal? * Turn starting switch ON. *20-30V

-

YES -


NO

3 YES Is voltage between TO1 (7) NO and chassis ground normal? NO

s Turn starting switch ON. *20-30V

M-8 b) Related

electrical

related to them.)


Replace

Defective contact or disconnection in wiring harness between TO1 (female) (1) -fuse 12

Repair or replace

Defective contact or disconnection in wiring harness between TO1 (female) (2) -chassis ground

Repair or replace

Defective contact or disconnection in wiring harness between TO1 (female) (7) -fuse 1

Repair or replace

circuit diagram

215 Monitor

harness

(16)

Panel 1

TO1

GND Power source when normal

(1 6)

(24)

TVDOI 140

20-712 0

D475A-3

M-9

TROUBLESHOOTING

M-9 When starting switch is turned on, monitor lighted up and do not go out a1

Caution

module

(Gauge/lamp

unit) displays

all stay lighted

panel lamps all stay

up and do not go out

Remedy

Cause


b1 Tachometer out

module

(Tachometer/service

meter

unit) displays

all stay lighted

up and do not go


D475A-3

Replace

20-713 0

M-10

TROUBLESHOOTING

M-10 When starting switch is turned on (engine stopped), _ starting items flash *

check before

*


a) Ir

[Radiator water level1 flashes Check that the radiator water level is normal

before starting

inserted.

troubleshooting.

Cause

water level caution lamp go

YES

* Connect short connector to 405. *Turn starting switch ON.

!I

mp90

1

* Connect short connector to DRT (female). * Turn starting switch ON.

,

(female) (2) and

-Turn starting switch OFF. * Disconnect 405. * Max. 1 R 5 YES Is resiStance between DRT A- (female) (1) and chassis ground normal? * Turn starting switch OFF. Max. 1 fD

-

NO

l

M-10 a1 Related

Monitor

electrical

4 YE5 YE 3

Defective radiator water level sensor (main) system

Check sensor according to STANDARD VALUE TABLE, then replace

Defective radiator water level sensor (dual) system

Check sensor according to STANDARD VALUE TABLE. then replace


Replace

(female) (5) and

*Turn starting switch OFF. -Disconnect CNl. * Max. 1 42 NO

NC

ToA Defective contact or disconnection in wiring harness between 405 (female) (2) and chassis ground Defective contact or disconnection in wiring harness between CNl (female) (5) - DRT (female) (2) Defective contact or disconnection in wiring harness between DRT (female) (1) and 405 (female) (1)

Repair or replace

Repair or replace

Repair or replace

circuit diagram

Panel

TVDOll41

20-714 0

D475A-3

M-10

TROUBLESHOOTING

b) Jr

[Engine oil level1 flashes Check that the engine oil level is normal

before starting

YES

troubleshooting.

Cause

Remedy

Defective engine oil level sensor system

Checksense! accordingto STANDARD VALUETABLE, then replace


Replace

1 I Does enoine oil level caution lamp go out?

3

II

I_~

* Connect short Is resistance connector to 404 between 404 - (female) (2) and (female). NO chassis ground * Turn starting normal? switch ON. . Turn starting switch OFF. - Disconnect 404. - Max. 1 R

M-10 b) Related

Monitor

electrical

YES 2 ~_ -

YES

Is resistance between ChK--III (female) (6) and chassis ground n0rlllZ3l7 *Turn starting switch OFF. * Disconnect CNl. * Max. 1 5:

NO

NO

Defective contact or disconnection in wiring harness between CNl (female) (6) - 404 (female) (1) Defective contact or disconnection in wiring harness between 404 (female) (2) -chassis ground

Replace

Repair or replace

circuit diagram

Panel

Engine

oil

level

TVDOI 142

D475A-3

20-715 0

M-II

TROUBLESHOOTING

M-II When starting switch is turned on (engine stopped), caution items flash (but battery charge, engine oil pressure caution do not flash) * * *

Before carrying out troubleshooting, check that all the related connectors are properly Always connect any disconnected connectors before going on to the next step. Check both the engine oil pressure system and alternator system.

a)

Engine oil pressure

sensor system Remedy

Cause

2 YES

1

I

Is resistance

(female)

M-II

a) Related

Monitor

Defective monitor (caution module)

17) and

1;hasssjlsground starting switch OFF. - Disconnect CNI. * Min. 1 R

NO

Defective engine pressure sensor

IO

electrical


Engine

1

(12)

oil

Repair or replace

circuit diagram

Panel

CNl

panel

Defective contact or disconnection in wiring harness between CNl (female) (7) - 403

1 I

- Turn

-Turn starting switch OFF. * Disconnect 403. * Min. 1 Q

inserted.

215

(16)

421

(14)

112

(4)

301

(4)

oil Pressure sensor

TVDOI 143

20-716 0

D475A-3

TROUBLESHOOTING

b)

Alternator

M-l 1

system

Cause

2 YE

1 Is voltage between ANR (alternator)

Is voltage between CNl (female) (4) and chassis ground normal? - Disconnect CNI. * Turn starting N~ switch ON. * Max. 1 V

* Disconnect ANR. * Turn starting switch ON. * Max. 1 V

3 Is voltage between TO1 (female) (4) and chassis ground normal? * Disconnect TOI. *Turn starting switch ON. * Max. 1 V

4 YES CNl (female) (4) p * Disconnect CNl, NC 220. . Turn starting switch ON.

. Mar.

NO

M-II

b) Related

Monitor

electrical

1 ”

Remedy


Replace


Replace

Defective diode (220)

Replace

Short circuit with power source in wiring harness between CNl (female) (4) TO1 (female) (4) - ANR 103 (female) (2) - 104 (female) (2) - 220 (male) (2)

Repair or replace


Replace

circuit diagram

Panel

812 (8) 215 (16)

TO1 (16)

---Et

220 (6)

122 (12) +%I-

m

Starting p$-J.__ti

motor

I

l-L.3 103 (2)

101 (16)

-

TVDOl 144

D475A-3

20-717 0

M-12

TROUBLESHOOTING

M-12 When starting switch is turned on (engine stopped), caution items flash (but there is no abnormality in checks before starting items or engine) * *


a)

[Battery

inserted.

charge1 flashes

Remedy

YES 2

I

Is voltage between YES CNl (female) (4) and chassis 3 YES ground normal? , Isvoltage between , CNl (female) (1) * Disconnect CNl. Is voltage between ND and chassis * Start engine. ANR (alternator ground normal? - * Run at half side) and chassis throttle or above. * Disconnect CNl, NO ground normal? TOl. *20-30V . Start engine. * Disconnect ANR. : ;;! ;ah$f throttle or above. * Start engine. * Run at half throttle or above. NO -2O-30V

M-12 a) Related Monitor

electrical

Replace


Replace

Defective contact or disconnection in wiring harness between CNl (female) (4) - ANR

Repair or replace


Replace

circuit diagram

Panel

El2 215

TO1 (16)

Starting


(16)

122

(8)

220

(6)

(12)

Y

motor

3

153 (4)

Battery

@J?$-fy

103

(2)

101

(16)

TVDOI 144

20-718 0

D475A-3

M-12

TROUBLESHOOTING

b) Sr

[Engine oil pressure] flashes Check that the engine oil pressure

is normal

before starting

troubleshooting.

Cause

Defective engine oil pressure sensor

2

h

Is resistance between CNl . (female1(7) and chassis ground normal?

YES


-

Short circuit with chassis ground in wiring harness between CNl (female) (7) - 403

* Turn starting NO switch OFF. - Disconnect CNI, 403. * Min. 1 MR

M-12 b) Related

Monitor

3heck sensor xcording to

STANDARD 4ALUE TABLE,

:hen replace

Does engine oil pressure caution lamp go out? * Disconnect 403. * Start engine.

Remedy

electrical

Panel

Repair or replace

circuit diagram

I CNl

Replace

(12)

Engine

_ .-

215

,. _I

I1 ti)

^ I r. ,\

421

(141

. .^ I,\

112

(41

^^.

301

I,\

(41

oil

Pressure

sensor

TV001

cl

[Radiator

water

143

level1 flashes

Cause

Remedy

Go to M-10 a)

D475A-3

20-719 0

M-12

TROUBLESHOOTING

d) *

[Engine water

temperature]

flashes

Check that the engine water temperature

is normal before starting troubleshooting.

* YES 2

-

Is engine water temperature gauge in level 7 range (Max.)?


I

Does engine water YES temperature caution lamp go out? , * Disconnect E32. ~0 - Start engine.

3 Does engine water temperature caution lamp go out? * Connect short connector to 402 (female). * Start enaine.

* Start engine. 1

Monitor

electrical

Panel

CNl

Check sensor according to STANDARD VALUE TABLE,


Repair or replace

circuit diagram

I

(12) I

CN2



NO

M-12 d) Related

Replace

(8)

214

(14)

599

(12)

215

(16)

122

(12)

111

(4)

402

g

-3

@

3

(2)


temperature

I

I

Engine

controller

E32

I

(20)


TVDOI 145

20-720 0

D475A-3

M-12

TROUBLESHOOTING

e) *

[Power

train (torque

converter)

oil temperature]

Check that the power train (torque converter) shooting.

flashes

oil temperature

is normal before starting trouble-

Remedy

Check sensor

2

Is engine water temperature gauge in level 7 range (Max.)?

YES

Does power train YES oil temperature caution lamp go 1 out? -

* Start engine.

* Connect short connector to 453 (female). - Start engine.

NO

NO

M-12 e) Related

Monitor

electrical

Defective power train oil temperature sensor

accordingto

STANDARD VALUE TABLE, then replace


Replace


Replace

circuit diagram

Panel Tome

453

(2)

converter

oil temperature

.a

-3 oil

temperature

TV001

D475A-3

146

20-721 0

M-12

TROUBLESHOOTING

f) *

[Hydraulic oil temperature] flashes Check that the hydraulic oil temperature

is normal

before starting

YES 1 Does hydraulic oil temperature caution lamp go out?

2 Is resistance between CNl (female) (8) and

* Connect CN452 (female) (1) to chassis ground. * Start engine.

M-12 f) Related

Monitor

-

NO

YES

-

normal?

electrical

Panel

CNl

Defective hydraulic oil temperature sensor

accordingto STANDARD VALUE TABLE, then replace


Replace

Defective contact or disconnection in wiring harness between CNl (female) (8) - 452 (female) (1)

chassis ground

*Turn starting switch OFF. * Disconnect CN 1. - Max. 1 R

troubleshooting.

NO

Repair or

circuit diagram

I

(12)

s13

(12)

506

(14)

451

(16)

452

(1)

Hydraulic temperature sensor

o i

temperature

TVDOI I

20-722 0

D475A-3

I

TROUBLESHOOTING

g) *

[Air cleaner

M-12

clogging]

flashes

Check that the air cleaner is not clogged before starting troubleshooting.

Cause

YES

Defective air cleaner clogging sensor

1 3 YES

Does air cleaner clogging caution lamp go out? * Disconnect AFl and AFL!, then connect wiring harness end. * Start engine.

Is resistance YES between CNl 2 I- (female) (9) and chassis ground

-

Is resistance

-

between AF2 (wiring harness

NO end) and chassis ground normal? . Turn starting switch OFF. * Disconnect AF2. * Max. 1 R

M-12 g) Related

Monitor

electrical

normal? -

mTurn

starting

switch OFF. * Disconnect CNl. - Max. 1 Q NO

-

. NO

Remedy

Check sansor according to STANDARD VALUE TABLE, then replace

Defective monitor panel (caution module) Defective contact or disconnection in wiring harness between CNI (female) (9) - AFl Defective contact or disconnection in wiring harness between AF2 chassis ground

Repair or replace

circuit diagram

Panel

TVDOI 148

D475A-3

20-723 0

M-13

TROUBLESHOOTING

M-13 Preheating Ir

monitor

does not light up or go out

* *

Check that the automatic preheating operation is normal before starting troubleshooting. (If not, go to M-25) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

a)

Preheating

monitor

does not light up during

preheating

operation Remedy

Cause

1 YES Is voltage between CN2 (female) (5) and chassis ground normal? * Disconnect CN2. NO *Turn starting switch to HEAT. (See Note) .20-30V

Note: Turn the starting

switch

b1

lights up when

Preheating

monitor

in the opposite

direction

preheating


Replace

Defective contact or disconnection in wiring harness between CN2 (female) (5) -electrical intake air heater

Repair or replace

from ON.

operation

is stopped Remedy

Cause

CN2 (female) (5)

* Disconnect CN2. *Turn starting switch ON. * Max. 1 V

M-13 Related

1

Defective monitor panel (caution module) Short circuit with power source in wiring harness between CN2 (female) (5) electrical intake air heater

NO

electrical

circuit diagram

Electrical

air

I

20-724 0

Replace

I

ReDair or

heater

intake

TVDOI 149

D475A-3

M-14

TROUBLESHOOTING

M-14 Abnormality

in caution buzzer

Check that any service code is not displayed. (If any one is displayed, check according to it.) The alarm buzzer sounds for all caution items except the battery charge. Even if there is an abnormality in the battery charge, the alarm buzzer does not sound. Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

* * * *

Caution item flashes but buzzer does not sound, or buzzer does not sound for 1 second after starting switch is turned ON Check that fuse 10 is normal before starting troubleshooting. (If it is blown, check for short circuit with the ground in the wiring harness related to it.)

a) *

Remedy

Cause

YES


Replace


Replace

Defective contact or disconnection in wiring harness between CN2 (female) (8) and 217

Repair or replace

Defective contact or disconnection in wiring harness between 217 fuse 10

Repair or replace

II 3

1Isresistance

YES

I I

~~

;;E;;z’,‘,“d;,“d. NO

-. . meet 217, CN2. IQ


b)

No abnormality

NO

is displayed

on monitor

but buzzer

sounds

I YES 1 Does buzzer stop when CN2 is disconnected?

2

Is resistance P between CN2 * Disconnect CN2. - (female) (8) and -Turn starting NO chassisground switch ON. normal?

YES

-

*Turn starting NO switch OFF. . Disconnect 217, CN2. . Min. 1 MR

D475A-3

I I

Remedy

Cause


Replace


Replace

Short circuit with chassis ground in wiring harness between 217 and CN2 (female) (8)

Repair or replace

I

20-725 0

M-14

TROUBLESHOOTING

M-14 Related

electrical

circuit diagram

Caution buzzer

Monitor

Panel

217 215

(16)

421

(14)

Bl 1 (14)

Fuse

box

TVDOI 138

20-726 0

D475A-3

M-15

TROUBLESHOOTING

M-15 Abnormality

in caution lamp

*

to it.) inserted.

a)

Caution item flashes but caution lamp does not flash, or caution lamp does not light up for 2 seconds after starting switch is turned ON Check that fuse 10 is normal before starting troubleshooting. (If it is blown, check for short circuit with the ground in the wiring harness related to it.)

Check that any service code is not displayed. (If any one is displayed, check according Sr Before carrying out troubleshooting, check that all the related connectors are properly Ir Always connect any disconnected connectors before going on to the next step.

Ir

Remedy

Cause

YES


Replace


Replace

Defective contact or disconnection in wiring harness between CN2 (female) (7) and 375 (female) (2)

Repair or replace

Defective contact or disconnection in wiring harness between 375 (female) (1) -fuse 10

Repair or replace

1

3 YES

light up when CN2 (female) (7) and chassis ground are

YES -

- 2 . Disconnect CN2, Is voltage between then connect 375 (female) (1) (female) (8) to NO and chassis chassis ground. ground normal? . Turn starting * Disconnect 375. switch ON. * Turn starting switch ON. *20-30V

b)

Is resistance between 375 (female) 12)and CN2 (female) (7) normal?

No abnormality

-

NO *Turn starting switch OFF. * Disconnect 375, CN2. * Max. 1 R NO

is displayed

on monitor

but caution

lamp lights up

I YES 1

I

2 resiStance between CN2 * Disconnect CN2. - (female) (7) and h ) chassis ground * Turn starting normal? switch ON.

YES

Cause

I

Remedy


Replace


Replace

Short circuit with chassis ground in wiring harness between 375 (female) (2) and CN2 (female) (7)

Repair or replace

Is

-

* Turn starting NO switch OFF. * Disconnect 375, CN2. * Min. 1 MQ

D475A-3

I

I

20-727 0

TROUBLESHOOTING

M-15 Related

electrical

M-15

circuit diagram

Iid

375

Monitor

Panel

2

1

(4)

TVD01137

20-728 0

D475A-3

M-16

TROUBLESHOOTING

M-16 Abnormality Jr


gauge

* Ir

Check that the engine water temperature is normal before starting troubleshooting. (If not check the engine.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

a)

Engine water

temperature

gauge shows

abnormally

low temperature Remedy

Cause


Does gauge display become 1normal? - Disconnect E32. * Turn starting switch ON.

II

4 YE! Is resistance

R

(female)

(2) and

I

tl0rlTlal?

-Turn starting switch OFF. * Disconnect CNl and 402. - Max. 1 D

temperature



Replace


* Connect short connector to 402. *Turn starting switch ON.

b1 Engine water

lr


- Disconnect 402, CN2

harness between

CN2

(female)

(female)

(1) -402

Defective contact or disconnection in wiring harness between

NO

(1)

(female)

CNl

(2) - 402 (female)

gauge gives no display

YES

I

2

Does gauge display appear?

3

- Disconnect 402. NO * Turn starting switch ON.

between CN2 (female) (1) and chassis ground normal?

starting switch OFF. * Disconnect 402 and CN2. - Min. 1 MD

*Turn

D475A-3

YES

Is resistance -

Repair or replace

(2)

(gauge

does not even display one level)

Cause

- Disconnect E32. *Turn starting N switch ON.

Repair or replace

-

NO

Remedy


Replace




Replace

Short circuit with chassis ground in wiring harness between CN2 (female) (I) - E32 (female) (5) - 402 (female) (1)

Repair or replace

20-729 0

M-16

TROUBLESHOOTING

M-16 Related

Monitor

electrical

circuit diagram

Panel

CNl

(i2)

214 i

CN2

I

(8)

215

>cl (14)

599

(12)

122

(12)

9

(16)

1 I 1 (4)

402

g

-3

@

3

(2) -

Engine water sensor temperature


Engine

controller

E32

I

(20)

TVDOI

20-730 0

145

D475A-3

M-17

TROUBLESHOOTING

M-17 Abnormality in power train (torque converter) oil temperature gauge Ir Check that the power train (torque converter) oil temperature is normal before starting troubleIr *

shooting. (If not check the power line.) Before carrying out troubleshooting, check that all the related connectors are properly Always connect any disconnected connectors before going on to the next step.

a)

Power

train oil temperature

gauge shows

abnormally

YES

low temperature

Cause

Remedy




Replace

1 3

Does gauge display go out?

1Is resistance

YES

II

YE Defective contact, disconnection, or short circuit with power source in

* Lonnecr snort connector to 453. * Turn starting switch ON.

NO * Turn starting switch OFF. * Disconnect 453. CN2. * Max. 1 R

(female) (2) and

Turn starting switch OFF. IO s Disconnect 453, CNI. - Max. 1 R -

b)

Power train (torque display one level)

converter)

1

hIO

i

I.5 resistance between CN2 (female) (2) and chassis ground .. normaIr

I

I

I NO

. Turn starting switch OFF. * Disconnect 453, CN2. * Min. 1 MR

D475A-3

between CN2 (female) 12)- 453 (female) 11)

wiring

harness

Defective contact or disconnectionin wiring harness between CNl (female) (2) - 453 (female)

oil temperature

YE

* Disconnect 453. -Turn starting switch ON.

connected.

gauge

gives no display

(gauge

Repair or replace

Repair or replace (2)

does not even

Cause

Remedy




Replace

Short circuit with chassis ground in wiring harness between CN2 (female) (2 - 453 (female) (1)

Repair or replace

20-731 0

M-17

TROUBLESHOOTING

M-l 7 Related electrical circuit diagram

I

Monitor

Panel

I CNl ti2)

214 (14)

Torque

converter

TVDOl146

20-732 0

D475A-3

M-18

TROUBLESHOOTING

M-18 Abnormality *

in fuel level gauge

Ir *

Check that there is ample fuel before starting troubleshooting. Before carrying out troubleshooting, check that all the related connectors are properly Always connect any disconnected connectors before going on to the next step.

a)

Fuel level gauge always

display

FULL

YES 1 I-

- Turn starting NO switch OFF. . Disconnect 422, CN2. * Min. 1 MD

b)

connected.

Defective fuel level sensor



Replace

Short circuit with chassis ground in wiring harness between CN2 (female) (3) - 422 (female) (1)

Repair or replace

Fuel level gauge gives no display (gauge does not even display one level)

Remedy

Cause

I

1

Does gauge display show FULL?

- Connect

short

3

-

YES 2

_

Is resistance connector to 422. between 422 * Turn starting - (female) (2) and NO CNl (female) (2) switch ON. normal?

-

NO + Turn starting switch OFF. * Disconnect 422, CN2. * Max. 1 R

* Turn starting switch OFF. NO * Disconnect 422, CNl. . Max. 1 R

D475A-3

YES

Is resistance between 422 (female) (1) and CN2 (female) (3) normal?

Defective fuel level sensor



Replace

Defenive contact, disconnection,or short circuit with power source in wiring (female)

harness between (3) - 422

CN2

(female) (1)

Defective contact or disconnectionin wiring harness between (female)

Repair or replace

Repair or replace

CNl

(2) - 422 (female)

(2)

20-733 0

M-18

TROUBLESHOOTING

M-18 Related electrical circuit diagram

Monitor

Panel

CNl

I

(12)

214

(14)

599

(12) 422

GND

CN2 Fuel

I

(8)

215

(16)

122

(2)

Fuel

level

gauge

(12)

level

I 1

20-734 0

TVDOIl50

D475A-3

M-19,

TROUBLESHOOTING

M20

M-19 Speed range display shows ‘- -‘, engine speed is not displayed

Remedy

Cause

Abnormality system

in network

Go to N-3

M-20 Service meter does not advance when engine is running * *


I 1 YES Is sand timer mark dsplayed on service meter module? * Start engine.

D475A-3

NO

Cause


Go to M-12 a)

inserted.

Remedy

Replace

-

20-735 0

M-21

TROUBLESHOOTING

M-21 Abnormality Ir

in service mode

Ir


a)

Does not switch

to service mode even when

service switch

inserted.

is operated

Cause

YES

3 YES YES 2r

Is resistance between S24 (3) and TO1 (female)

switch OFF. NO * Turn service switch ON. * Max. 1 R

b)


Replace

Defective contact or disconnection in wiring harness between S24 (2) chassis ground

Repair or replace

Defective contact or disconnection in wiring harness between S24 (3) and TO1 (female) (51

Repair or replace

Defective service switch

Replace

Stays in service mode

Cause

Y‘ES

~~

switch OFF. - Min. 1 MR

20-736 0

-Turn starting NO switch OFF. -Turn service switch ON. * Min. 1 MR

Remedy


Replace

Short circuit with chassis ground in wiring harness between S24 (female) (3) and TO1 (female) (5)

Repair or replace

Defective service switch

Replace

D475A-3

M-21

TROUBLESHOOTING

M-21 Related

Monitor

electrical

circuit diagram

Panel

214 (14)

GND5

s24

l

W

0

o---o

Service

D475A-3

switch

TVDOIISI

20-737 0

M-22

TROUBLESHOOTING

M-22 Night lighting on monitor panel does not light up (front lamp, working lamp are normal)

* *

Check the lamps visually to confirm that there is no disconnection before starting troubleshooting. (If any lamp is broken, replace it.) Check that fuse 10 is normal. (If it is broken, check the circuit related to it for short circuit with chassis ground.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

a)

Panel lighting

* *

on tachometer

module

does not light up

1 YES Is voltage between TO1 (female) (6) and chassis ground normal?

NO

- Disconnect TOl.

-Turn starting

Cause

Remedy


Replace

Defective contact or disconnection in wiring harness between 219 (female) (3) and TO1 (female) (6)

Repair or replace

switch ON. * Turn front lamp and working lamp switch ON. .20-3ov

b)

Panel lighting

on caution

module

does not light up

P

* Disconnect TOl. * Turn starting switch ON. * Turn front lamp and working lamp switch ON. *20-30V

c)

Is resistance between CN4 - (female) (2) and NO chassis ground normal?

(female)

I

rls voltage

between

SO1 (female) SO2 (female)

(10). (1) and

-

chassis grouind normal) * Disconnect

Sol,

so2. * Turn

starting

switch

ON.

* Turn front lamp and working lamp switch ON. *20-30V

20-738 0

_ NO

2 Is resistance between SO1 (female) (2). SO2 (female) (2) and chassis ground normal?

YES k _

Turn starting NO switch OFF. * Disconnect Sol, S02. * Max. 1 R

*

Replace

I Repair or replace

Repair or

harness between CN4 (female) (2) -chassis ground

NO

module

Remedy

(1)


YES 1

harness between 219 (female) (3) and CN4

-

* Turn starting switch OFF. . Disconnect CN4. * Min. 1 R

on switch

Defective contact or disconnectionin wiring

YES

2

Panel lighting

I

Defective lamp or defective contact of lamp

YES 1 Is voltage between CN4 (female) (1) and chassis ground normal?

Cause

Remedy

does not light up

When SO1 is defective: Defective monitor panel (switch module) When SO2 is defective: Defective lamp or defective contact of lamp

Repair or replace

Defective contact c: disconnection in wiring harness between 219 (female) (3) - SO1 (female) (10) or SO2 (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between SO1

(female) (2) or SO2 (female) (2) -chassis ground

Repair or replace

D475A-3

TROUBLESHOOTING

M-22 Related Mon itor

M-22

electrical Panel

circuit diagram

I so1 (12) relay

I

TO1 (16)

a

I I I

219 (4)

TVDOl152

D475A-3

20-739 0

TROUBLESHOOTING

M-23

M-23 Front lamps and working + Ir

lamps do not light up

* *

Check that all bulbs are normal. (If any one is broken, replace it.) Check that fuse 10, 11, and 14 are normal. (If any one is broken, check the circuit related to it for short circuit with chassis ground.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

a1

Any one of front lamps and working

lamps does not light up

Defective contact or disconnectionin wiring harness between RBl (female) (2). RB2 (female) (2). RB3 (female) (2) - chassis ground Defective contact or disconnectionin wiring harness between 219 (female) (3) - RBl (female) (1). RB2 (female) (1) and RB3 (female) (1) -chassis ground

2 YES

, Is

voltagebetween

YES ~61 (1). RB2 (1). RB3 (1) and chassis ground normal? 1 Does night lighting on monitor panel light up?

*Turn starting NO switch ON. *Turn front lamp and working lamp switch ON. -2O-30V 3 YES

* Turn starting Is resistance switch ON. between 219 -Turn front lamp NO (female) (2) and and working (3) normal? lamp switch ON. *Turn starting NO switch ON. * Disconnect 219. *Turn front lamp and working lamp switch ON. *20-30V

b)

Repair or replace

Repair or replace

Defective contact or disconnection in wiring harness between fuse 10 219 (female) (2)

Repair or replace

Defective front lamps/working lamps

Repair or replace

Left front lamp does not light up Cause

YES

4YEI

1 If relay RB2 is

*Turn starting switch ON. *Turn front lamp and working lamp switch ON.

Is voltage between RB2 (1) NO and chassis 4 ground normal? I-

* Turn starting switch ON. -Turn front lamp and working lamp switch ON. .20-30V

20-740 0

Is resistance YES between RB2 - (female) (2) and chassis ground 2 normal?

I I

* Turn starting switch OFF. * Disconnect RB2. * Max. 1 R

IO

Is voltage YES between RB2 (3) and chassis 3 ground normal? -


NC

Remedy

Defective left front lamp relay (RB2)

Replace

Defective contact or disconnectionin wiring harness between RB2 (female) (5) - 204 (female) (1). 207 (female) (l), or breakage of bulb

Repair or replace

Defective contact or disconnection in wiring harness between RB2 (female) (3) - fuse1 4

Repair or replace

Defective contact or disconnectionin wiring harness between RB2 (female) (2) -chassis ground

Repair or replace

Defective contact or disconnectionin wiring harness between RB2 (female)(l)-811 hnale)(lll

Repair or replace

D475A-3

M-23

TROUBLESHOOTING

c)

Right front lamp does not light up Cause

i 4 YES

YE ;~~

-Turn starting switch ON. *Turn front lamp and working lamo switch ON.

2 between RBl (1)

. Turn starting switch ON. * Turn front lamp and working lamp switch ON. *20-30V

d)

Working

switch OFF. * Disconnect RBl. . Max. 1 R

NO

JO

Defective right front lamp relay (RBl)

Replace

Defective contact or disconnectionin wiring harness between RBl (female) (5) - 203 tfemale) (1). 206 (female) (1). or breakage of bulb

Repair or replace

Defective contact or disconnection in wiring harness between RBl (female) (3) - fuse14

Repair or replace

Defective contact or disconnectionin wiring harness between RBl (female) (2) -chassis ground

Repair or replace

Defective contact or disconnectionin wiring harness between FIB1 (female) (1) - Bll (male) (111

Repair or replace

1

lamp does not light up Cause

‘ES

4YEL

1 1If relav RB3 is

1 Is resistance YES between RB3 _ (female) (2) and chassis ground normal?

*Turn starting switch ON. *Turn front lamp between RB3 (1)

-Turn starting switch ON. *Turn front lamp and working lamp switch ON. *20-30V

D475A-3

Remedy

-Turn starting switch OFF. - Disconnect RB3. * Max. 1 R

0

Is voltage YES between RB3 (3) and chassis 3 ground normal? -

I

STurn starting switch ON. *20-30V

I

NO

NC

Remedy

Defective working lamp relay (RB3)

Replace

Defective contact or disconnectionin wiring harness between RB3 (female) (5) - 221 (female) (1). WRD (female) (11,or breakage of bulb

Repair or replace

Defective contact or disconnection in wiring harness between RB3 (female) (3) - fuse11

Repair or replace

Defective contact or disconnectionin wiring harness between RB3 (female) (2) -chassis ground

Repair or replace

Defective contact or disconnectionin wiring harness between RB3 (female) (l)- Bll (male) (11)

Repair or replace

20-741 Co

TROUBLESHOOTING

M-23 Related

Head

electrical

M-23

circuit diagram Left relaY

lamp.

:;;::y Iamp219 (4)

Fuse

box

215 (16)

421 (14)

RB3 (6)

Bt I (14)

a-

D-

B

TiJ-

head

lama

iB2 (6)

Rioht relar

head

Iamb

RBl (6)

I

@lOA 3lOA 1420A

I

I

-

t

-812

GND5ih Floor frame) Left

workins

TVDO1153

20-742 0

D475A-3

M-24

TROUBLESHOOTING

M-24 Rear lamps do not light up Ir * * *

Check that all bulbs are normal. (If any one is broken, replace it.) Check that fuse 10 is normal. (If it is broken, check the circuit related to it for short circuit with chassis ground.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

Cause

3 YES 2

YES 1 _ Is resistance between 218 (male) (2) and (3) normal?

Is voltage between 218 (2) and chassis ground normal? *Turn starting switch ON. *20-30V

_

YES

Is voltage between 223 (1). 243 (1) and chassis ground normal? * Turn starting NO switch ON. *Turn rear lamp switch ON. .20-3OV

NO

* Turn starting switch OFF. * Disconnect 218. No * Turn rear lamp switch ON. * Max. 1 R

Remedy

Breakage of bulb

Replace

Defective contact or disconnection in wiring harness between 218 (female) (3) - 223 (female) (1). 243 (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between fuse10 218 (female) (2)

Repair or replace

Defective rear lamp switch

Replace

M-24 Related electrical circuit diagram

Fuse

Right rear

Left

box

lamp

A77

TVDOI I54

D475A-3

20-743 0

M-25

TROUBLESHOOTING

M-25 Automatic Ir Sr * Ir

preheater

does not work

Check that the outside temperature is in the operation range of the automatic preheater. Check that fuse 15 is normal. (If it is broken, check the circuit related to it for short circuit with chassis ground.) Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

IS

6

IIsresistance

I

IES i *Turn starting switch OFF. * Disconnect RB4. . Max. 1 R

YES between RB4 (I) LzC Iground normal? * Turn starting switch ON. -Turn preheater switch ON.

*Turn starting switch ON. * Turn preheater switch ON. .20-30V

YE 1ground normal?

3 Is

resistance

(female) (3) and

1&ss;gro”nd

I 1

*Turn starting switch ON. *Turn preheater switch ON. .20-30V

starting YE switch OFF. 9 -Turn preheater switch ON. . Disconnect RH 1. - Max. 1 R hJO (male) (2) and (3)

1


t

N0

I NO

10

* Turn

between RHl (2)

1

I Is resistance (female) (2) and

*Turn starting switch OFF. - Disconnect 213. - Max. 1 Q

YES

II

H

J I NO

+ Turn starting switch OFF. NO * Disconnect 213. . Turn preheater switch ON. . Max. 1 R

IO

20-744 0

D475A-3

M-25

TROUBLESHOOTING

Cause

8

- Is voltage between RB4 (3) and chassis ground normal? * Turn starting switch ON. *20-30V

YES

Is voltage YES between 137,138 and chassis 7 ground normal? * Turn starting NO switch ON. -Turn preheater switch ON. -2O-30V NO

Remedy

Defective electrical intake air heater relay (RB41

Replace

Defective electrical intake air heater

Replace

Defective contact or disconnection in wiring harness between RB4 (female) (5) - 137, 138

Repair or replace

Defective contact or disconnection in wiring harness between RB4 (female) (3) -fuse 15

Repair or replace

Defective contact or disconnection in wiring harness between RB4 (female) (2) and chassis ground

Repair or replace

Defective contact or Repair or replace

Replace

Repair or replace

I

(female) (3) and 213 (female (3)

/ C%Fc;ive preheater

Replace

I.._..._-_

Repair or replace

Defective contact or disconnection in wiring “_...__..

(female) (2) -fuse 15

D475A-3

Repair or replace

20-745 0

TROUBLESHOOTING

M-25 Related

Starting

M-25

electrical

circuit diagram

switch D’)

I

lAPPI

Electrical

intake

air

heater

relay

Electrical intake heater timer

612 (8) Preheat

switch

2

air

RHI (3)

13 (4)

I ,

lectrical

intake

,

air

atterr

relay

tterv

relav(L

(R. H.)

H.)

heater TVDOl155

20-746 0

D475A-3

TROUBLESHOOTING

M-26

M-26 Windshield *

wiper and window

washer do not work

*


al

Any one of windshield

wiper

and window

washers

does not work

Remedy

Cause

Defective contact or disconnection in wiring harness between battery relay terminal M -fuse box inlet

bl *

Front windshield wiper does not work Check that fuse 5 is normal. (If it is broken, chassis ground.)

check the circuit

related

YES

YE

. Turn starting switch ON.

between CN-9 (5)


D475A-3

4YEI Is resiStance YES between CN-12 - (female) (41and CN 3 -9 Ifemale) (2) _ Is voltage between normal? CN-12 (female) (3) * Td;‘. starting switch N( and chassis . DisconnectCN-12 ground normal? and CN-9. * Max. 1 R * Turn starting switch OFF. * Disconnect CN12. * Max. 1 R 0

NO

Repair or replace

to it for short circuit with

Remedy

Cause

replaced, does front windshield wiper

inserted.

Defective front windshield wiper switch

Replace

Defective front windshield wiper motor

Replace

Defective contact or disconnectionin wiring harness between (female)

CN-12

(4) - CN-9 (female)

Repair or replace

(2) Defective contact or disconnection in wiring harness between (female)

CN-12

(3) -chassis

ground

Defective contact or disconnectionin wiring harness between -9 (female) (5)

fuse 5 - CN

Repair or replace

Repair or replace

20-747 0

M-26

TROUBLESHOOTING

c) Sr

Left windshield wiper, right windshield wiper and rear windshield wiper do not work Check that fuse 3, 4, and 6 are normal. (If any one is broken, check the circuit related to it for short circuit with chassis ground.)

Remedy

Cause

YES

windshield wiper -Turn starting switch ON.

ground normal?

starting switch ON. -2O-30V

washer

Replace

Defective contact or disconnectionin wiring harness between switch connector (female) (4) motor connector (female) (2)

Repair or replace

connector

Repair or replace

switch

(3) -fuse


Turn startina switch OFF.* Disconnect connector. * Max. 1 R

Window

Defective windshield wiper motor

harness between

NO

l

d)

Replace


I - Turn

between motor connector (3) and

Defective windshield wiper switch

harness between connector (female) chassis ground

does not spout washer

fluid (although

windshield

wiper

Repair or replace

motor 13) -

works

normally)

Cause

Insufficient window washer fluid, clogging of nozzle, or defective piping

‘ES

sound of motor

YES 3

washerswitch

20-748 0

Supply fluid, repair or replace

Replace

. Turn starting switch ON. * Turn window ON.

Remedy

* Turn starting switch ON. -Turn window washer switch ON.

-

If switch is replaced, does NO window washer works normally? P * Turn starting switch ON. *Turn window washer switch ON.

-

-

4 YES -

Is resistance between motor - connector (female) NO 12) and chassis ground normal? * Turn starting switch OFF. * Disconnect connector. * Max. 1 R

-

NO

Defective windshield wiper switch

Replace

Defective contact or disconnectionin wiring harness between switch connector (female) (1) motor connector (female) (1)

Repair or replace

Defective contact or disconnection in wiring harness between motor connector (female) (2) and chassis ground

Repair or replace

D475A-3

TROUBLESHOOTING

M-26 Related

electrical

M-26

circuit diagram

I Wiper

CND2

Window

washer

motor

Window

washer

motor

Window

washer

motor

Window

washer

motor

C-0

Door

wiper

C.*nl I IU~II motor

.*iper .

Door motor

uiper (R. H.

1

switch&H.) CN-I

3 (6)

CN-1

-

7 (4)

Battery

TVDOll56

D475A-3

20-749 0

1 I

TROUBLESHOOTING OF AIR CONDITIONER SYSTEM

Electrical circuit diagram of air conditioner system ...........................................................................20-802 Troubleshooting of air conditioner which does not work .................................................................20-803

D475A-3

20-801 7

TROUBLESHOOTING

ELECTRICAL CIRCUIT DIAGRAM OF AIR CONDITIONER SYSTEM

ELECTRICAL CIRCUIT DIAGRAM OF AIR CONDITIONER SYSTEM

20-802 7

D475A-3

TROUBLESHOOTING

TROUBLESHOOTING OF AIR CONDITIONER WHICH DOES NOT WORK

Troubleshooting of air conditioner which does not work fl fl fl fl

Carry out the following troubleshooting when the battery and battery relay are normal. Before carrying out the troubleshooting, check that the fuse is normal. Before carrying out troubleshooting, check that all the related connectors are properly inserted. Always connect any disconnected connectors before going on to the next step.

A. Air does not blow out • 20 – 30 V • Turn blower “Lo” switch ON. • Turn starting switch ON.

• 240 ± 40 Ω • Turn starting switch OFF. • Disconnect CN-R1.

• 20 – 30 V • Turn starting switch ON. • Turn blower OFF.

Cause 1 ✩ Is voltage between CN-AC1 (13C), CN-R1 (13D), CN-R1 (6C) and chassis ground normal? YES

NO

2 Is resistance between CN-R1 (male) (13D) and (14A) normal? YES

NO

3 ✩ Is voltage between CN-AC1 (14B) and chassis ground normal? YES

NO

4 ✩ • Max. 1 Ω • Turn starting switch OFF.

• 20 – 30 V • Turn blower “Lo” switch ON. • Turn starting switch ON. • 20 – 30 V • Turn starting switch ON. • Turn blower “Lo” switch ON.

Is resistance between CN-AC1 (OC) and chassis ground normal? YES

NO

• Turn starting switch OFF. • Disconnect CN86. : 2.0 Ω ± 7% : 0.8 Ω ± 7%

Defective blower main relay

Replace

Disconnection or defective contact in wiring harness between CN-R1 (14A) – CNAC1 (14B)

Repair or replace

Disconnection or defective contact in wiring harness between CN-AC1 (OC) – chassis ground

Repair or replace

Defective blower main relay

Replace

Disconnection or defective contact in wiring harness between CN-R1 (10B) – CN-B (10A)

Repair or replace

Disconnection or defective contact in wiring harness between CN-R (OD) – chassis ground

Repair or replace

Defective blower resistor

Replace

Disconnection or defective contact in wiring harness between CN-B (11A) – CN-R (11C)

Repair or replace

YES 6 Is voltage between CN-B (10A) NO and chassis ground normal? YES

Is resistance between CN-R (OD) and chassis ground normal? YES

NO

8 Is resistance between CN-R (11C) and (OD) and between CN-R (11C) and (12A) normal? YES

NO

9 • Max. 1 Ω • Turn starting switch OFF.

Repair or replace

5 Is voltage between CN-R1 (6C) NO and chassis ground normal?


Disconnection or defective contact in wiring harness between; • Fuse – CN-M26 (13A) – CNAC1 (13C) • Fuse – CN-M26 (13A) – CNR1 (13D) • Fuse – CN-M26 (6A) – CN-R1 (6C)

Remedy

Is resistance between CN-B (11A) and CN-R (11C) normal? YES

NO

Go to 10 on next page

D475A-3

20-803 7

TROUBLESHOOTING


Cause From 9 on previous page • Turn starting switch ON. • Turn blower “Lo” switch ON.

Remedy

10 NO

Does blower motor rotate?

Defective blower motor

Replace

Go to “B. Air is not cooled”

—

Disconnection or defective contact in wiring harness between fuse – CN-M26 (13A) – CN-R2 (13E)

Repair or replace

Defective blower Hi relay

Replace


Repair or replace

Disconnection or defective contact in wiring harness between fuse – CN-M26 (13A) – CN-R3 (13H)

Repair or replace

Defective blower Me relay

Replace


Repair or replace

Disconnection or defective contact in wiring harness between CN-B (11A) – CN-R2 (11B)

Repair or replace

YES 11

• Change control panel switch.

NO

Is Hi and Me selected normally? YES

• 20 – 30 V • Turn starting switch OFF. • Turn blower “Hi” switch ON.

• 240 ± 40 Ω • Disconnect CN-R2. • Turn starting switch OFF.


• 20 – 30 V • Turn starting switch ON. • Turn blower “Me” switch ON.

• 240 ± 40 Ω • Disconnect CN-R3. • Turn starting switch OFF.


12 ✩ Is voltage between CN-R2 (13E) and chassis ground normal? YES

NO

13 Is resistance between CN-R2 (13E) and (18A) normal?

NO

YES 14 ✩ Is voltage between CN-AC1 (18B) and chassis ground normal? YES

NO

15 ✩ Is voltage between CN-R3 (13H) and chassis ground normal? YES

NO

16 NO

Is resistance between CN-R3 (13H) and (17A) normal? YES

17 ✩ Is voltage between CN-AC1 (17B) and chassis ground normal? YES

NO


Is resistance between CN-B (11A) and CN-R2 (11B) normal? YES

NO


20-804 7

D475A-3

TROUBLESHOOTING


Cause From 18 on previous page • Max. 1 Ω • Turn starting switch OFF.

• Turn starting switch ON. • Turn blower “Hi” switch ON.

19

Is resistance between CN-R2 (OE) and chassis ground normal? YES

NO

Disconnection or defective contact in wiring harness Repair or between CN-R2 (OE) – chassis replace ground

20 NO

Does blower rotate at Hi?

Defective blower Hi relay

Replace

Disconnection or defective contact in wiring harness between CN-R (12A) – CN-R3 (12B)

Repair or replace

YES 21

• Max. 1 Ω • Turn starting switch OFF.

Is resistance between CN-R (12A) and CN-R3 (12B) normal? YES

• Max. 1 Ω • Turn starting switch OFF.

Is resistance between CN-R3 (OB) and chassis ground normal? YES

NO

22

• Turn starting switch ON. • Turn blower “Me” switch ON.

Remedy

NO

Disconnection or defective contact in wiring harness Repair or between CN-R3 (OB) – chassis replace ground

23 Does blower rotate at Me?

NO

Defective blower Me relay

Replace

Go to “B. Air is not cooled”

—

YES

If trouble is not repaired by taking remedy against causes marked with ✩, control panel may be defective.

D475A-3

20-805 7

TROUBLESHOOTING


B. Air is not cooled • Max. 1 Ω • Turn starting switch OFF. • Disconnect CN80.

• Max. 3500 Ω • Turn starting switch OFF. • Disconnect CN-AC1.

Cause 1 Is resistance between CN-AC1 (15B) NO and CN-T (15A) and between CNAC1 (16C) and CN-T (16B) normal?

YES 2 ✩ NO

Is resistance between CN-AC1 (15B) and (16C) normal?

3 ✩ Is voltage between CN-R4 (13I) NO and chassis ground normal?

• 240 ± 40 Ω • Turn starting switch OFF. • Disconnect CN-R4.

NO Is resistance between CN-R4 (male) (13I) and (19C) normal?

• Max. 1 Ω • Turn starting switch OFF. • Disconnect CN-R4.

Is resistance between CN-R4 (19C) and CN-P (19A) normal?

• 20 – 30 V • Turn air conditioner switch ON. • Turn starting switch ON. • Turn blower ON.

Is voltage between CN-P (19A) NO and chassis ground normal?

• 20 – 30 V • Turn air conditioner switch ON. • Turn starting switch ON. • Turn blower ON. • 20 – 30 V • Turn air conditioner switch ON. • Turn starting switch ON. • Turn blower ON.

Disconnection or defective contact in wiring harness Repair or between CN-AC1 (15B) – CN-T replace (15A)

Defective frost thermistor ª Check sensed temperature for abnormality.

Replace

Disconnection or defective contact in wiring harness between fuse – CN-M26 (13A) – CN-R4 (13I)

Repair or replace

Defective compressor clutch relay

Replace

Disconnection or defective contact in wiring harness between CN-R4 (19C) – CN-P (19A)

Repair or replace

Disconnection or defective contact in wiring harness between CN-R4 (19C) – CN-P (19A)

Repair or replace

Defective pressure switch Note) Check pressure for abnormality.

Replace

YES



Remedy

YES 4 ✩

YES 5 NO

YES 6 ✩

YES 7 Is voltage between CN-P (26A) NO and chassis ground normal? YES 8 Is voltage between CN-AC1 (26B) and chassis ground normal? YES

NO

9 Is voltage between CN-R4 (6D) NO and chassis ground normal? YES

Disconnection or defective contact in wiring harness Repair or between CN-P (26A) – CN-AC1 replace (26B)

Disconnection or defective Repair or contact in wiring harness between fuse – CN-M26 (6A) – replace CN-R4 (6D)


20-806 7

D475A-3

TROUBLESHOOTING


Cause • 20 – 30 V • Turn air conditioner switch ON. • Turn starting switch ON. • Turn blower ON. • 20 – 30 V • Turn air conditioner switch ON. • Turn starting switch ON. • Turn blower ON.

From 9 on previous page

Remedy

10

Is voltage between CN-R4 (9B) NO and chassis ground normal?

Defective compressor clutch relay

Replace

YES 11 Is voltage between CN-M26 (9A) and chassis ground normal? YES

NO

Disconnection or defective contact in wiring harness Repair or between CN-R4 (9B) – CN-M26 replace (9A)

12 • Turn air conditioner switch ON.

Does magnetic clutch operate normally?

NO

Defective magnetic clutch

Replace

Defective compressor

Replace

Defective control panel

Replace

YES 13 • Turn air conditioner switch ON.

Does compressor operate normally?

NO

YES

If trouble is not repaired by taking remedy against causes marked with ✩, control panel may be defective.

D475A-3

20-807 7

30 DISASSEMBLY AND ASSEMBLY

METHOD OF USING MANUAL.. ............... PRECAUTIONS WHEN CARRYING OUT OPERATION .......................................... SPECIAL TOOL LIST .................................. SKETCHES OF SPECIAL TOOLS.. ............. ENGINE OIL COOLER ASSEMBLY Removal and Installation .................... FUEL INJECTION PUMP ASSEMBLY Removal and Installation .................... AFTERCOOLER CORE ASSEMBLY Removal and Installation .................... NOZZLE HOLDER ASSEMBLY Removal and Installation .................... ENGINE FRONT SEAL Removal and Installation .................... ENGINE REAR SEAL Removal and Installation .................... CYLINDER HEAD ASSEMBLY Removal and Installation .................... FUEL TANK ASSEMBLY Removal and Installation .................... MAIN RADIATOR ASSEMBLY Removal and Installation .................... SUB RADIATOR ASSEMBLY Removal and Installation .................... RADIATOR GUARD ASSEMBLY Removal and Installation .................... ENGINE ASSEMBLY Removal and Installation .................... DAMPER ASSEMBLY Removal and Installation .................... Disassembly and Assembly ............... POWER TRAIN UNIT ASSEMBLY Removal and Installation .................... PTO, TORQUE CONVERTER ASSEMBLY Removal and Installation .................... Disconnection and connection.. ......... TORQUE CONVERTER ASSEMBLY Disassembly and Assembly ............... PTO ASSEMBLY Disassembly and Assembly ...............

D475A-3

30- 3 30- 6 30- 8 30-15 30-23 30-24 30-25 30-27 30-28 30-30 30-33 30-37 30-38 30-40 30-41 30-43 30-47 30-49 30-52

30-56 30-59 30-61

TORQFLOW TRANSMISSION ASSEMBLY Removal and Installation . . . . . .. . . . . . .. . . . . 30- 79 Disassembly and Assembly . .. . . . . . .. . .. 30- 80 STEERING CASE ASSEMBLY Disassembly and Assembly . . . . .. .. . . . .. 30-100 STEERING CLUTCH, BRAKE ASSEMBLY Disassembly and Assembly . . . . . . . .. . . . . 30-108 TRANSFER GEAR HOUSING ASSEMBLY Disassembly and Assembly . . . . . . . .. . . . . 30-I 16 POWER TRAIN PUMP ASSEMBLY Removal and Installation . . . . . .. . . . . . . .. . . . 30-120 SCAVENGING PUMP ASSEMBLY Removal and Installation .. . . . .. .. . . . . . .. . . 30-121 TORQUE CONVERTER OIL COOLER Removal and Installation . . . . .. . . . . . .. . .. . . 30-122 TORQUE CONVERTER VALVE ASSEMBLY Removal and Installation .. . . . . . . .. .. . . .. . . 30-123 Disassembly and Assembly . . . . . ..__.... 30-124 TRANSMISSION CONTROL VALVE ASSEMBLY Removal and Installation .. . . . .. . . . . . . .. . . . .. 30-127 Disassembly and Assembly . .. . . .. . . . .. . 30-130 STEERING CONTROL VALVE ASSEMBLY Removal and Installation .. . . . . .. . . . . .. . . . . .. 30-135 Disassembly and Assembly . . .. . .. . .. .. . 30-136 FINAL DRIVE ASSEMBLY Removal and Installation . . .. .. . . . . . . .. . . . . 30-140 Disassembly and Assembly . .. . .. . . .. .. . 30-141 TRACK FRAME ASSEMBLY Removal and Installation . .. . .. . . .. .. . . . . . . 30-158 IDLER ASSEMBLY Disassembly and Assembly . . . . . . . .. . . . . 30-161 RECOIL SPRING ASSEMBLY Removal and Installation _................. 30-165 Disassembly and Assembly . . . . . . . .. . . . . 30-171

30-72

30-l 0

TRACK ROLLER ASSEMBLY Removal and Installation .................... 30-173 Disassembly and Assembly ............... 30-175 CARRIER ROLLER ASSEMBLY Removal and Installation ................. 30-177-4 Disassembly and Assembly ............ 30-177-5 BOGIE ASSEMBLY Removal and Installation .................... 30-178 Disassembly and Assembly ............... 30-180 NO.1 BOGIE ASSEMBLY Removal and Installation .................... 30-189 TRACK SHOE ASSEMBLY Removal and Installation .................... 30-195 Overall disassembly ......................... 30-197-4 Overall assembly .............................. 30-197-8 PRESS-FITTING JIG DIMENSION TABLE FOR LINK PRESS ............... 30-197-23 FIELD DISASSEMBLY OF ONE LINK ... 30-197-24 FIELD ASSEMBLY OF ONE LINK ......... 30-197-27 MASTER LINK Disassembly and Assembly .......... 30-197-30 PIVOT SHAFT ASSEMBLY Removal and Installation .................... 30-198 EQUALIZER BAR Removal and Installation .................... 30-199 EQUALIZER BAR BUSHING Disassembly and Assembly ............... 30-202 HYDRAULIC PUMP ASSEMBLY Removal and Installation .................... 30-204 BLADE LIFT VALVE ASSEMBLY Removal and Installation .................... 30-205 Disassembly and Assembly ............... 30-206 BLADE TILT, RIPPER LO VALVE ASSEMBLY Removal and Installation .................... 30-208 Disassembly and Assembly ............... 30-210

30-2 2 6

RIPPER HI VALVE ASSEMBLY Removal and Installation .................... 30-212 Disassembly and Assembly ............... 30-214 PPC RELIEF VALVE ASSEMBLY Removal and Installation .................... 30-216 HYDRAULIC CYLINDER ASSEMBLY Disassembly and Assembly ............... 30-217 RIPPER PIN-PULLER CYLINDER ASSEMBLY Disassembly and Assembly ............... 30-223 BLADE ASSEMBLY Removal and Installation .................... 30-226 GIANT RIPPER ASSEMBLY Disassembly and Assembly ............... 30-228 ROPS GUARD Removal and Installation .................... 30-232 OPERATOR’S CAB ASSEMBLY Removal and Installation .................... 30-233 FLOOR FRAME ASSEMBLY Removal and Installation .................... 30-235 DASHBOARD ASSEMBLY Removal and Installation .................... 30-240 CONTROLLER ASSEMBLY Removal and Installation .................... 30-242 AIR CONDITIONER COMPRESSOR ASSEMBLY Removal and Installation .................... 30-243 AIR CONDITIONER CONDENSER ASSEMBLY Removal and Installation .................... 30-245 AIR CONDITIONER UNIT ASSEMBLY Removal and Installation .................... 30-246 HOOD ASSEMBLY Removal and Installation .................... 30-250

D475A-3

DISASSEMBLY

AND ASSEMBLY

METHOD

OF USING MANUAL

1.

METHOD

OF USING

MANUAL

When removing or installing unit assemblies @ When removing or installing a unit assembly, the order of work and techniques used are given for the removal operation; the order of work for the installation operation is not given. @ Any special techniques applying only to the installation procedure are marked m, and the same mark is placed after the relevant step in the removal procedure to indicate which step in the installation procedure it applies to. (Example) REMOVAL OF 0 0 0 0 ASSEMBLY .. . . . . . . .. .. Title of operation a .. . . . . . .. . .. . . . . . . .. . . . . .. . . .. . . . . . . .. . . . . . .. . . .. . . . . .. . . . . . . . . . .. . . . . Precautions related to safety when carrying out the operation . .. . .. . .. . .. . . . . . . .. . . . . . . .. . .. . . . . . .. . . . . . . . . . .. . . . . Step in operation 1. XXXX(1) * . .. . .. . . . . . . .. . . . . . . .. . . . . .. . . .. . . . . . .. . . .. . . . . .. . . . . . .. . . . .. . . . . . Technique or important point to remember when removing XXXX (I). Indicates that a technique is listed for use 2. a a a a (2).. .. . . . . .. . . . . . . . . . .. . . . . . . .. . . . . . .. . .. . . . . .. . . . . m during installation 3. 0 0 0 0 assembly (3)

..... ..... ...... ............ ...... .................. ........ Quantity

of oil or water

drained

INSTALLATION OF 0 0 0 0 ASSEMBLY .. ..Title of operation l Carry out installation in the reverse order to removal. . .. . .. . . .. . . .. . . . . .. . . . . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . .. . . . . . Technique used during installation p . .. . . . . . .. . . .. . . . .. . . . . . . . . . .. . . . . . . . .. . . . . .. . .. . . . . . .. . . . . . . .. . .. Technique or important point to remember when installing a a a a (2). l Adding water, oil .. . . . . . . .. .. .. . . . . .. . . . . . . .. .. . . . Step in operation * . . . . . . .. . . . . .. .. . . . . . . .. . . . . . . . .. . . . . . . . . .. . . . . . .. . . .. . . . . .. Point to remember when adding water or oil %z . . . . . . . . .. . . . . .. .. . . . . . . .. . . . . . . .. . .. . . . . . .. . . . . . . .. . . . . . Quantity

when filling with oil and water

2.

General precautions when carrying out installation or removal (disassembly are given together as PRECAUTIONS WHEN CARRYING OUT OPERATION, these precautions when carrying out the operation.

3.

Listing of special tools @ For details of the description, part number, and quantity of any tools (Al, etc.) that appear the operation procedure, see the SPECIAL TOOLS LIST given in this manual.

D475A-3

or assembly) of units so be sure to follow

in

30-3 0

DISASSEMBLY

4.

Standard

AND ASSEMBLY

tightening

Use these torques Thread diameter of bolt

torques

bolts and nuts. (Always

use torque

wrench).

7

Nm

mm

mm

6 8 10 12 14

10 13 17 19 22

13.2~ 1.4 3123 66k7 113+10 177z19

1.35TO.15 3.2~0.3 6.7 20.7 11.52 1 1822

16 18 20 22 24

24 27 30 32 36

279k30 382k39 549259 745e83 9272103

28.5~3 3924 56e6 7658.5 94.52 10.5

27 30 33 36 39

41 46 50 55 60

13202140 172Oe190 2210~240 275Ok290 32902340


Width across flats

Tightening

mm

I

torque

No.

torque

Use these torques Thread

30-4 0

diameter

bm

135*15 175r20 225+25 280230 335235

kgm

I

7.8521.95 18.62 4.9 40.2~ 5.9 82.35~7.85

0.8~ 0.2 1.9kO.5 4.1 ~0.6 8.42 0.8

of hose nuts for hose nuts. Thread

03 04 05 06 10 12 14

Tightening

Nm

I

IO 13 14 27

Use these torques Nominal

MANUAL

Width across flats

6 8 10 12

6.

OF USING

of bolts and nuts

for metric

mm

5.

METHOD

diameter

Tightening

across flat

torque

mm

Nm

kam

14 18 22 24 30 33 36 42

19 24 27 32 36 41 46 55

24.52 4.9 492 19.6 78.5r 19.6 137.3229.4 176.5529.4 196.12 49 245.22 49 294.2* 49

2.5t0.5 5+2 822 14+3 1823 2025 25+5 3025

of split flange for split flange Width

Width

mm

bolts bolts. Tightening

across flat

mm

mm

10 12 16

14 17 22

Nm 65.726.8 11229.8 279t29

torque k9m 6.7 + 0.7 II.52 1 28.5~3

D475A-3

DISASSEMBLY

AND ASSEMBLY

7.

torque

Tightening

Use these torques Nominal

No.

of O-ring

Thread

Tightening

torque

Nominal 08 10 12 14 16 18 20 24 30 33 36 42 52

D475A-3

No.

diameter

Width

mm

of O-ring

Tightening

across flat mm

Varies depending on type of connector.

torque

Nm

kgm

34.3% 4.9 93.129.8 142.12 19.6 421.4~ 58.8 877.1* 132.3

3.550.5 9.5el 14.5*2 4326 89.5~ 13.5

boss connector

for O-ring Thread

MANUAL

boss connector

14 20 24 33 42

Use these torques

OF USING

boss connector

for O-ring

02 03,04 05,06 10.12 14

8.

METHOD

boss connector diameter

Width

Tightening

across flat

mm

mm

8 IO 12 14 16 18 20 24 30 33 36 42 52

14 17 19 22 24 27 30 32 32 36 -

Nm 7.355 1.47 11.27k1.47 17.6421.96 22.542 1.96 29.4k4.9 39.2~~4.9 49k 4.9 68.6~ 9.8 107.8* 14.7 127.4~ 19.6 151.9224.5 210.7e29.4 323.4& 44.1

torque bm 0.7520.15 1.15iro.15 1.8~0.2 2.3~0.2 3kO.5 420.5 520.5 721 1121.5 1322 15.5k2.5 21.5~3 33+ 4.5

30-5 0

DISASSEMBLY

PRECAUTIONS WHEN CARRYING OUT OPERATION

AND ASSEMBLY

PRECAUTIONS

WHEN CARRYING

OUT OPERATION

[When carrying out removal or installation (disassembly or assembly) general precautions given below when carrying out the operation.1

1. . . . . . . . . . . Ir

of units, be sure to follow

the

Precautions when carrying out removal work If the coolant contains antifreeze, dispose of it correctly. After disconnecting hoses or tubes, cover them or fit blind plugs to prevent dirt or dust from entering. When draining oil, prepare a container of adequate size to catch the oil. Confirm the match marks showing the installation position, and make match marks in the necessary places before removal to prevent any mistake when assembling. To prevent any excessive force from being applied to the wiring, always hold the connectors when disconnecting the connectors. Do not pull the wires. Fit wires and hoses with tags to show their installation position to prevent any mistake when installing. Check the number and thickness of the shims, and keep in a safe place. When raising components, be sure to use lifting equipment of ample strength. When using forcing screws to remove any components, tighten the forcing screws uniformly in turn. Before removing any unit, clean the surrounding area and fit a cover to prevent any dust or dirt from entering after removal. Precautions when handling piping during disassembly Fit the following blind plugs into the piping after disconnecting it during disassembly operations. 1) Hoses and tubes using sleeve nuts Nominal number

2)

I

Plug (nut end)

I

Sleeve nut (elbow end)

Use the two items below as a set

Split flange type hoses and tubes

Nominal number

Flange (hose end)

Sleeve head (tube end)

Split flange

04

07379-00400

07378-10400

0737 I-30400

05

07379-00500

07378-10500

07371-30500

3)

If the part is not under hydraulic

pressure,

the following

corks can be used.

I= 27

07049-02734

L

27

22.534

30-6 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

PRECAUTIONS

WHEN

CARRYING

OUT OPERATION

2. . . . . .

Precautions when carrying out installation work Tighten all bolts and nuts (sleeve nuts) to the specified (KES) torque. Install the hoses without twisting or interference. Replace all gaskets, O-rings, cotter pins, and lock plates with new parts. Bend the cotter pins and lock plates securely. When coating with adhesive, clean the part and remove all oil and grease, then coat the threaded portion with 2 - 3 drops of adhesive. When coating with gasket sealant, clean the surface and remove all oil and grease, check that there is no dirt or damage, then coat uniformly with gasket sealant. Clean all parts, and correct any damage, dents, burrs, or rust. Coat rotating parts and sliding parts with engine oil. When press fitting parts, coat the surface with anti-friction compound (LM-P). After fitting snap rings, check that the snap ring is fitted securely in the ring groove. When connecting wiring connectors, clean the connector to remove all oil, dirt, or water, then connect securely. When using eyebolts, check that there is no deformation or deterioration, screw them in fully, and align the direction of the hook. When tightening split flanges, tighten uniformly in turn to prevent excessive tightening on one side.

*

When operating the hydraulic cylinders for the first time after reassembling cylinders, pumps and other hydraulic equipment removed for repair, always bleed the air as follows: 1. Start the engine and run at low idling. 2. Operate the work equipment control lever to operate the hydraulic cylinder 4 - 5 times, stopping the cylinder 100 mm from the end of its stroke. 3. Next, operate the hydraulic cylinder 3 - 4 times to the end of its stroke. 4. After doing this, run the engine at normal speed. * When using the machine for the first time after repair or long storage, follow the same procedure.

3. .

Precautions when completing the operation If the coolant has been drained, tighten the drain valve, and add water to the specified level. Run the engine to circulate the water through the system. Then check the water level again. If the hydraulic equipment has been removed and installed again, add engine oil to the specified level. Run the engine to circulate the oil through the system. Then check the oil level again. If the piping or hydraulic equipment have been removed, always bleed the air from the system after reassembling the parts. * For details, see TESTING AND ADJUSTING, Bleeding air. Add the specified amount of grease (molybdenum disulphide grease) to the work equipment parts.

. .

.

D475A-3

30-7 0

DISASSEMBLY AND ASSEMBLY

SPECIAL TOOL LIST

SPECIAL TOOL LIST Serial No.: 10601 – 10684 fl Tools with part number 79OT-fififi-fifififi cannot be supplied (they are items to be locally manufactured). fl New/remodel: N: Tools with new part numbers, newly developed for this model fl R: Tools with upgraded part numbers, remodeled from items already available for other models. fl Blank: Tools already available for other models, used without any modification fl Tools marked fi in the Sketch column are tools introduced in special sketches (See SKETCHES OF SPECIAL TOOLS). Component

Disassembly and assembly of engine

Symbol

Installer kit

■

1

Press fitting of front seal, sleeve

2

795-602-2300

Installer kit

■

1

Press fitting of rear seal, sleeve

3

790-331-1110

Wrench

■

1

Installation of cylinder head

790-431-1120

Adapter

■

1

791-520-4140

Screw

■

1

791-181-1020

Sleeve

■

1

791-765-1150

Plate

■

1

791-112-1180

Nut

■

1

790-101-2540

Washer

■

1

790-101-2102

Puller(294kN{30ton})

■

1

790-101-1102

Pump

■

1

790-413-1010

Bracket

■

1

790-501-5000

Repair stand

■

1

790-413-1010

Bracket

■

1

790-501-5000

Repair stand

■

1

799-301-1600

Oil leak tester

■

1

791-622-1110

Bracket

■

1

01016-51690

Bolt

■

1

01011-81600

Bolt

■

1

791T-822-1810

Push tool

■

1

N

791T-822-1820

Push tool

■

1

N

791-822-1830

Wrench

■

1

N

Removal, installation of bearing round nut

790-337-1032

Lifting tool

■

1

791-827-1910

Plate

■

1

N

Removal, installation of final drive assembly

01011-83015

Bolt

■

3

790-431-1081

Guide

■

1

790-431-1031

Block

■

1

790-101-2350

Leg

■

2

C

D

1 Disassembly and assembly of steering

E 2 3

1 Disassembly and assembly of final drive

J 2

30-8 2 6

NeceNew/ Q’ty Sketch Nature of work, remarks ssity remodel

795-602-2200

4

Disassembly and assembly of transmission

Part Name

1

A

Disassembly and assembly of torque converter

Part No.

Pulling out pin or radiator guard

Disassembly, assembly of torque converter Disassembly, assembly of transmission Checking actuation of piston Removal, installation of clutch, brake assembly

fi fi

Press fitting of bearing

Pulling out sprocket bearing

D475A-3


Component

Symbol

■

2

790-101-2360

Plate

■

4

02215-11622

Nut

■

2

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1101

Installer assembly

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

791-585-1510

Installer

■

1

790-431-1220

Remover assembly

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1210

Installer assembly

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1230

Remover & installer

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1240

Guide

■

1

791-830-1470

Plate

■

1

791-830-1320

Rod

■

2

790-101-2510

Block

■

1

790-101-2570

Plate

■

2

01580-01613

Nut

■

2

01643-31645

Washer

■

2

2

791-560-1520

Installer

■

1

3

791-830-1480

Push tool

■

1

4

791-601-1000

Oil pump

■

1

Filling with oil

5

791-515-1520

Installer

■

1

Installation of floating seal

6

790-434-1490

Push tool

■

1

7

791-630-1270

Wrench

■

1

Removal, installation of round nut

8

791-630-1210

Plate

■

1

Press fitting of bushing

9

791-530-1510

Installer

■

1


4 J 5

6

7

8

1 Assembly of Idler

Disassembly and assembly of carrier roller Assembly of track roller

D475A-3

NeceNew/ Q’ty Sketch Nature of work, remarks remodel ssity

Adapter

3

L

Part Name

790-101-2430

2

Disassembly and assembly of final drive assembly

Part No.

SPECIAL TOOL LIST

Pulling out sprocket bearing

Press fitting of sprocket bearing Installation of floating seal

Pulling out center hub

Press fitting of center hub

Pulling out, press fitting of carrier pin Assembly of No. 1 pinion N

Press fitting of idler bushing

Installation of floating seal N

R

Press fitting of seal guide

Press fitting of floating seal collar

30-9 2 6

DISASSEMBLY

AND ASSEMBLY

Component

SPECIAL TOOL LIST

Part No.

Symbol I

Assembly roller

1790-434-1480 1Push

11

I 791-601-1000

12

30-l 0 0

I oil pump Lifting tool

I

Press fitting of seal ring

1 n

1 1

n

1

790-401-1761

Adapter

W

1

Shackle

W

2

790-401-1770

T-bolt

W

2

1

I Filling with oil

Removal, installation track roller assembly

1Rod

1~111 1~111 I=111

I I I

I I I

1Adapter

lrnlll

I

I

1 Frame

3 I 791-685-9520

( Frame

4

1 791-685-9530

,

1W11I

790-401-1540

11 1 791-126-0150

13

tool

790-401-1700

~~791-685-9510

Disassembly and assembly of bogie

,

10 of track

r~~O~~, SketchNature of work, remarks

Part Name I

12

791-685-9620

Extension

W

1

13 14

791-830-1550 791-830-1560

Adapter Sleeve

W W

1 1

15

04530-I 1080

Eyebolt

n

2

24

01017-52010

Bolt

n

4

25

791-830-1590

Spacer

n

1

N

26

N

N N

Pulling out, press fitting of shaft assembly

791-830-1580

Push tool

n

1

14

01017-31650

Bolt

4

3

Pulling out cage

15

790-201-2310

Plate

w

1

Pulling out collar

16

1 791-830-1520

I Installer

I H

I

I

I

N

of

I

I Press fitting of floating seal

D475A-3

DISASSEMBLY

Component

AND

ASSEMBLY

Part No.

Symbol

17

20

21

SPECIAL

Part Name

ry,cyi, Sketch Nature

790-101-5201

Push tool kit

790-101-5341

. Plate

1

790-101-5221

* Grip

1

01010-51225

* Bolt

790-601-1000

Oil pump

ml

H

TOOL

of work,

LIST

remarks

1 Press fitting of bushing

1 W

1

Filling with oil

FaWi;$of

No. 1 bogie

Removal of No. 1 bogie


Removal of No. 1 bogie

D475A-3

30-11 0

DISASSEMBLY

SPECIAL TOOL LIST

AND ASSEMBLY

Component

T

Symbol

T

Part No.

791T-830-1500


26

1

Disassembly and assembly of recoil spring

Disassembly and assembly of equalizer bar

2

n

Lifting tool

1

791T-830-1530

1- Tube

1

ili”lO

1- Plate

I

11

. Clip

1

01852-01210

l

Nut

2

SketchNature of work, remarks

N

IN

07283-31193

10 Removal, installation of No. 1 bogie track roller

01643-31232

1- Washer

I

I21

I

01643-31645

1* Washer

I

Ill

I

04530-l 1628

1Evebolt

I

Ill

I Pulling out idler cushion guide pin

ii,,i,,

791-635-3160

I Extension

790-201-2790

I Spacer

1~111 ImId

790-101-1300

Cylinder (980kNIlOO

’

’

790-101-1102

Pump

n

1

791-730-l

Bolt

n

6

Nut

W

6

120

01643-33380

1Washer

792-900-1610

I Adapter

ton))

I I

n

1

791-775-1110

Sleeve

n

1

791T-850-1150

Plate

n

1

1Nut

01643-33080

1Washer

790-101-2102

I Puller(294kN{3Oton}) I n

790-101-1102

I Pump

I I

N

0

I I

1~111

I

Bracket

n

1

N

0

791T-850-1170

Bracket

n

1

N

0

790-438-l

Screw

n

1

790-101-2540

I Washer Nut

1~121 1~121

790-101-2102

I Puller(294kNQOton)) I

790-101-l

I Pump

102

w I I

ID111

Pulling out center pin

I

791T-850-1160

110

of

I

I=111 I=111

01582-53024

assembly

I

1~111

Screw

Disassembly, recoil spring

Removal of recoil cylinder assembly

1m161

792-900-l 530

791-112-1180

30-12 0

I,$;

791T-830-1540

01580-13326

1

Part Name

I I

Pulling out side pin bushing

/

I

D475A-3

DISASSEMBLY

Component

Disassembly and assembly of pivot shaft

AND

ASSEMBLY

Symbol

P

SPECIAL

Part No.

Part Name

Necessity O’ty

rfZcZ

Sketch Nature

791T-850-1180

Sleeve

n

1

N

0

791T-850-1190

Plate

n

1

N

0

791-730-I

Bolt

n

2

791-101-3310

Block

l

1

01643-32060

Washer

l

2

130

01580-02016 790-105-2300

( Nut

n

1

of work,

LIST

remarks

Press fitting of seal

I

(ml21

Jack assembly

TOOL

I

Pump

n

1

1

791-646-7531

Plug remover

H

1

Knocking out small plug

2

791-660-7460

Pin brush

n

1

Cleaning of pin

3

79 l-646-7900

Push tool

n

1

Knocking in large plug

4

791-932-1110

Push tool

n

1

Knocking in all plugs

790-101-l

102

Filling with oil and checking air tightness Disassembly and assembly of track shoe

Disassembly,

assembly of

790-502-1003

Cylinder repair stand 0

1

Disassembly, assembly of cylinder

790-201-1702

Push tool kit

1

Press fitting of coil bushing

1

* Blade lift Blade tilt (standard specification) * Blade pitch (superdozer specification) Ripper tilt

790-201-1861

l

Push tool

m

l

Disassembly and assembly of hydraulic cylinder

D475A-3

790-201-1881

. Push tool

1

790-201-1871

. Push tool

1

790-201-1721

. Push tool

1

790-101-5021

l

Grip

1

01010-50816

. Bolt

1

l

l

l

Ripper lift Ripper puller

30-13 0

DISASSEMBLY

Component

AND ASSEMBLY

SPECIAL TOOL LIST

Part No.

Symbol I

Part Name

r:iOyi Sketch Nature

of work,

remarks

I

790-201-1500 1 790-201-1670

Push tool kit 1 Plate

1m111

I

l

Press fitting of dust seal

I 1 I

I

I - Blade lift l

Ripper lift

Blade tilt (standard specification) . Blade pitch (superdozer specification) . Ripper tilt l

3

I 790-201-1530

j

790-101-5021 I

Disassembly, assembly of hydraulic cylinder

4

5

6

Air conditioner related

X

01010-50816

Plate

/

I 1

. Grip l

I

1

I

I- Pin puller

I

I

1

1

Bolt

1

I

I

790-720-1000

Expander

n

1

796-720-I690

Ring

n

1

07281-01919

Clamp

n

1

Installationof all cylinder piston rings

Blade lift (standard specification)

796-720-l690

Ring

n

1

07281-02169

Clamo

I

1

796-720-1710

Ring

n

1

07281-02709

Clamp

n

1

796-720-I 630

Ring

n

1

07281-00709

Clamp

1

790-102-2303

Wrench

n n

1

Removal and installation of pin puller cylinder head

799-703-1200

Service tool kit

n

1

Charging with freon gas

799-703-I

100

Vacuum

pump

n

1

(100 V specification)

799-703-I

110

Vacuum

pump

n

1


799-703-l

120

Vacuum

pump

n

1


n

1

799-703-I 400

30-14 0

l

Gas leak detector

Blade lift (superdozer specification) Ripper tilt, lift Blade tilt (standard specification) Blade pitch (sucerdozer soecification) Pin puller

D475A-3


SPECIAL TOOL LIST

Serial No.: 10685 and up fl Tools with part number 79OT-fififi-fifififi cannot be supplied (they are items to be locally manufactured). fl New/remodel: N: Tools with new part numbers, newly developed for this model fl R: Tools with upgraded part numbers, remodeled from items already available for other models. fl Blank: Tools already available for other models, used without any modification fl Tools marked fi in the Sketch column are tools introduced in special sketches (See SKETCHES OF SPECIAL TOOLS). Component

Disassembly, assembly of engine

Symbol

Installer kit

■

1

2

795-602-2300

Installer kit

■

1

3

790-331-1110

Wrench

■

1

790-431-1120

Adapter

■

1

791-520-4140

Screw

■

1

791-181-1020

Sleeve

■

1

791-765-1150

Plate

■

1

791-112-1180

Nut

■

1

790-101-2540

Washer

■

1

790-101-2102

Puller (294 kN {30 tons})

■

1

790-101-1102

Pump

■

1

790-413-1010

Bracket

■

1

790-501-5000

Repair stand

■

1

790-413-1010

Bracket

■

1

790-501-5000

Repair stand

■

1

799-301-1600

Oil leak tester

■

1

791-622-1110

Bracket

■

1

01016-51690

Bolt

■

1

01011-81600

Bolt

■

1

791T-822-1810

Push tool

■

1

791T-822-1820

Push tool

■

1

791-822-1830

Wrench

■

1

790-337-1032

Lifting tool

■

1

791-827-1910

Plate

■

1

01011-83015

Bolt

■

3

790-431-1081

Guide

■

1

790-431-1031

Block

■

1

790-101-2350

Leg

■

2

C

D

1 Disassembly, assembly of steering system

E 2 3

1 Disassembly, assembly of final drive

J 2

D475A-3

NeceNew/ Q’ty Sketch Nature of work, remarks ssity remodel

795-602-2200

4

Disassembly, assembly of transmission

Part Name

1

A

Disassembly, assembly of torque converter

Part No.

Press fitting of front seal and sleeve Press fitting of rear seal and sleeve Removal, installation of cylinder head

Pulling out of radiator guard

Disassembly, assembly of torque converter Disassembly, assembly of transmission Operation check of piston

Removal, installation of clutch and brake assembly

fi fi

Press fitting of bearing Removal, installation of bearing round nut

Removal, installation of final drive assembly

Pulling out of sprocket bearing

30-14-1 6


Component

Symbol

Part Name Adapter

■

2

790-101-2360

Plate

■

4

02215-11622

Nut

■

2

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1101

Installer assembly

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

791-585-1510

Installer

■

1

790-431-1220

Remover assembly

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1210

Installer assembly

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1230

Remover and installer

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

790-431-1240

Guide

■

1

791-830-1760

Plate

■

1

791-830-1320

Rod

■

2

790-101-2510

Block

■

1

790-101-2570

Washer

■

2

01580-01613

Nut

■

2

01643-31645

Washer

■

2

790-101-2102


■

1

790-101-1102

Pump

■

1

2

791-560-1520

Installer

■

1


3

791-830-1480

Push tool

■

1


4

791-601-1000

Oil pump

■

1

Supply of oil

5

791-515-1520

Installer

■

1


6

791-830-1770

Push tool

■

1

3

4 J 5

6

7

8

1 Assembly of idler

L

Disassembly, assembly of carrier roller

Disassembly, assembly of track roller

6

Pulling out of sprocket bearing

Press fitting of sprocket bearing Installation of floating seal

Pulling out of center hub

Press fitting of center hub

Pulling out and press fitting of carrier pin Installation of 1st pinion N

Press fitting of idler bushing

N


7

791-630-1270

Wrench

■

1

8

791-830-1740

Plate

■

1

9

791-515-1520

Installer

■

1

10

791-830-1730

Push tool

■

1

11

791-601-1000

Oil pump

■

1

Supply of oil

790-401-1700

Lifting tool

■

1

790-401-1761

Adapter

■

1

Removal, installation of track roller assembly

12

30-14-2


790-101-2430

2

Disassembly, assembly of final drive

Part No.

SPECIAL TOOL LIST

Removal, installation of round nut

N

Press fitting of bushing Installation of floating seal

N


D475A-3


Component

Symbol

Disassembly, assembly of track roller

Part No.

SPECIAL TOOL LIST

Part Name

790-401-1540

Shackle

■

2

790-401-1770

T-bolt

■

2

791T-830-1780

Plate

■

3

01011-62700

Bolt

■

6

01673-32780

Washer

■

6

1

791-830-1620

Plate

■

1

N

2

791-830-1630

Spacer

■

1

N

3

791-830-1640

Screw

■

3

N

4

01580-12722

Nut

■

3

5

01630-32780

Washer

■

3

6

790-101-4000


■

1

7

790-101-1102

Pump

■

1

1

791-830-1650

Plate

■

1

N

2

791-830-1660

Spacer

■

1

N

3

796-670-1120

Plate

■

1

4

790-434-1070

Screw

■

1

5

01580-13629

Nut

■

2

6

01643-33690

Washer

■

1

7

790-101-4000


■

1

8

790-101-1102

Pump

■

1

1

791-830-1620

Plate

■

1

N

2

791-830-1640

Screw

■

3

N

3

01580-12722

Nut

■

3

4

01643-32780

Washer

■

3

5

790-101-4000


■

1

6

790-101-1102

Pump

■

1

17

791T-830-1670

Guide

■

2

18

791-530-1510

Installer

■

1


19

791-601-1000

Oil pump

■

1

Supply of oil

791-630-1860

Bracket

■

1

791-630-1870

Bracket

■

1

791T-830-1510

Spacer

■

2

19M-09-12850

Bolt

■

2

01643-33380

Washer

■

2

791T-830-1700

Lifting tool

■

1

N

791T-830-1710

• Bar

1

N

791T-830-1720

• Plate

1

N

07283-31079

• Clip

1

01582-01210

• Nut

2

12

Disassembly, assembly of bogie and track roller

13

14

15

Disassembly, assembly of bogie

L

16

20

21

D475A-3

NeceNew/ Q’ty Sketch Nature of work, remarks remodel ssity Removal, installation of track roller assembly N

fi Securing of bogie

Pulling out of ring and shaft

N Pulling out of ring

Press fitting of pin assembly

N

fi

fi

Removal of 1st bogie assembly

fi fi

Removal, installation of 1st bogie track roller

30-14-3 6


Component Disassembly, assembly of bogie

Symbol L

Part Name

01643-31232

• Washer

2

04530-11628

• Eyebolt

1

790-434-1401

Remover assembly

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

791-685-8502

Compressor

■

1

791-635-3160

Extension

■

1

790-201-2790

Spacer

■

1

790-101-1300

Cylinder (980 kN {100 tons})

■

1

790-101-1102

Pump

■

1

791-730-1120

Bolt

■

6

01580-13326

Nut

■

6

01643-33380

Washer

■

6

792-900-1610

Adapter

■

1

792-900-1530

Screw

■

1

791-775-1110

Sleeve

■

1

791T-850-1150

Plate

■

1

01582-53024

Nut

■

1

01643-33080

Washer

■

1

790-101-2102


■

1

790-101-1102

Pump

■

1

791T-850-1160

Bracket

■

1

791T-850-1170

Bracket

■

1

790-438-1110

Screw

■

1

790-101-2540

Washer

■

2

791-112-1180

Nut

■

2

790-101-2102


■

1

790-101-1102

Pump

■

1

791T-850-1180

Sleeve

■

1

791T-850-1190

Plate

■

1

791-730-1130

Bolt

■

2

790-101-3310

Plate

■

1

01643-32060

Washer

■

2

01580-02016

Nut

■

2

790-105-2300

Jack assembly

■

1

790-101-1102

Pump

■

1

1

791-646-7531

Push tool

■

1

Removal of small plug

2

791-660-7460

Pin brush

■

1

Cleaning of pin

3

791-646-7900

Push tool

■

1

Fitting of large plug

2

M

3

1

Disassembly, assembly of equalizer bar

N

2

Disassembly, assembly of pivot shaft

Disassembly, assembly of track shoe

30-14-4 6

P

R

NeceNew/ Q’ty Sketch Nature of work, remarks remodel ssity Removal, installation of 1st bogie track roller

21

1

Disassembly, assembly of recoil spring

Part No.

SPECIAL TOOL LIST

Pulling out of idler cushion guide pin

Disassembly, assembly of recoil spring

Removal of recoil spring assembly

fi

Pulling out of center pin

fi fi Pulling out of pin and bushing

fi fi Press fitting of seal

D475A-3


Component

4

5

R

8

D475A-3

Part Name


791-932-1110

Push tool

■

1

790-701-3000

Seal checker

■

1

Fitting of small plug Supply of oil and airtightness check

or 791-601-1000

Oil pump

791-632-1010

Installer

■

1

1

791-832-1610

Plate

■

1

2

791-832-1270

Bracket

■

1

3

01010-81495

Bolt

■

1

4

791-832-1250

Bracket

■

1

5

01010-62050

Bolt

■

2

6

791-832-1220

Plate

■

1

7

791-832-1230

Shaft

■

2

8

791-832-1210

Frame

■

1

9

791-832-1240

Nut

■

2

10

04530-11628

Eyebolt

■

2

11

791-832-1310

Adapter

■

1

12

791-832-1280

Adapter

■

1

13

791-832-1320

Guide

■

1

14

01320-41030

Screw

■

5

15

791-832-1640

Pusher

■

1

16

791-832-1340

Extension

■

2

17

791-832-1650

Adapter

■

1

18

791-832-1480

Adapter

■

1

19

791-832-1670

Guide

■

1

20

791-832-1330

Guide

■

1

21

791-832-1660

Adapter

■

1

22

791-832-1630

Guide

■

1

23

791-832-1470

Guide

■

1

24

791-832-1410

Extension

■

1

25

791-832-1350

Pusher

■

1

26

791-832-1620

Guide

■

1

27

04530-11018

Eyebolt

■

1

28

790-101-4500

Cylinder (1,960 kN {200 tons})

■

1

29

790-101-1102

Pump

■

1

30

790-101-4200


■

1

31

791-685-9230

Spacer

■

1

6

Disassembly, assembly of track shoe

Part No.

Symbol

SPECIAL TOOL LIST

Replacement of link seal

Pulling out and press fitting of pin and bushing N

N

30-14-5 6


Component

Part No.

Symbol

SPECIAL TOOL LIST

Part Name

791-685-5600

Push tool assembly

2

791-685-5640

3

N

• Adapter

1

N

791-685-5660

• Ring

1

N

4

791-685-5670

• Plate

1

N

5

791-685-5680

• Ring

1

N

6

791-685-5690

• Push tool

1

N

7

791-685-5710

• Adapter

1

N

8

791-685-5720

• Spring

1

N

9

791-685-5730

• Bar

1

N

10

01252-30655

• Bolt

1

11

01580-01210

• Nut

1

791-685-5740

Push tool

10 Disassembly, assembly of track shoe

R

1

6

1

N Press fitting of ring

1

791-832-1490

Push tool

■

1

N

2

791-832-1510

Push tool

■

1

N

1

791-685-5700

Push tool assembly

■

1

N

2

791-685-5650

• Adapter

1

N

3

791-685-5660

• Ring

1

N

4

791-685-5670

• Plate

1

N

5

791-685-5680

• Ring

1

N

6

791-685-5690

• Push tool

1

N

7

791-685-5710

• Adapter

1

N

8

791-685-5720

• Spring

1

N

9

791-685-5730

• Bar

1

N

10

01252-30655

• Bolt

1

11

01580-01210

• Nut

1

791-685-5750

Push tool

11

13

30-14-6

■

Press fitting of ring (For large plug)

or

12

Disassembly, assembly of hydraulic cylinder

■

1

9

1


■

Press fitting of ring

1

N

Press fitting of ring (For small plug)

For pushing of ring Disassembly, assembly of cylinder

790-502-1003

Cylinder repair stand

●

1

790-201-1702

Push tool kit

■

1

Press fitting of roll bushing

790-201-1881

• Push tool

1

• Blade tilt (Standard specification) • Blade pitch (Superdozer specification) • Ripper tilt

790-201-1871

• Push tool

1

• Ripper lift

790-201-1721

• Push tool

1

• Pin puller

790-101-5201

• Grip

1

—

01010-50816

• Bolt

1

—

U 2

D475A-3


Component

Symbol

3

Disassembly, U assembly of hydraulic cylinders

4

5

6

Parts related to air conditioner

D475A-3

X

Part No.

SPECIAL TOOL LIST

Part Name

790-201-1500

Push tool kit

790-201-1670 790-201-1680

NeceNew/ Q’ty Sketch Nature of work, remarks ssity remodel ■

1

Press fitting of dust seal

• Plate

1

• Blade lift

• Plate

1

• Ripper lift

790-201-1690

• Plate

1

• Blade tilt (Standard specification) • Blade pitch (Superdozer specification) • Ripper tilt

790-201-1530

• Plate

1

• Pin puller

790-101-5201

• Grip

1

01010-50816

• Bolt

1

—

—

790-720-1000

Expander

■

1

Installation of piston rings of all cylinders

796-720-1690

Ring

■

1

07281-01919

Clamp

■

1

Blade lift (Standard specification)

796-720-1690

Ring

■

1

07281-02169

Clamp

■

1

796-720-1710

Ring

■

1

07281-02709

Clamp

■

1

Ripper tilt, lift Blade tilt (Standard specification) Blade pitch (Superdozer specification)

796-720-1630

Ring

■

1

Pin puller

07281-00709

Clamp

■

1

790-102-2303

Wrench

■

1

Removal, installation of pin puller cylinder head

799-703-1200

Service tool kit

■

1

Charging with refrigerant gas

799-703-1100

Vacuum pump

■

1

(100V specification)

799-703-1110

Vacuum pump

■

1


799-703-1120

Vacuum pump

■

1


799-703-1400

Gas leak detector

■

1

Blade lift (Superdozer specification)

—

30-14-7 6


SKETCHES OF SPECIAL TOOLS

SKETCHES OF SPECIAL TOOLS Serial No.: 10601 – 10684 Note:

Komatsu cannot accept any responsibility for special tools manufactured according to these sketches.

E2 Push tool

D475A-3

30-15 2 6

DISASSEMBLY

AND ASSEMBLY


L13-22 Bracket

23

DRILL

2 PLACES

A-A

CDD01246 HEAT TREATMENT ----

02

BOSS

SS4OOB

1

1.76

$40

01

PLATE

SS4OOP

1

0.17

t16

SYM.

PART NAME

MATERIAL

QTY/SET v?:B

PART NAME

BRACKET REMARKES

-

791T-630-1580

MATERIAL

SEE DWG OTY

----

n

L13-23 Stand

PLACES

ClO$+C

A-A

4-c 5

01580-02016 02

LA

2 PLACES

NUT CHANNEL

STD SS4OOA

01

PLATE

SS4OOP

SYM.

PART NAME

MATERIAL

30-16 0

CDD01247

3

--

1

5.58

2

2.63

QTY/SET 7;;;

---Cl5Ox75x6.5 t16 REMARKES

HEAT TREATMENT

MATERIAL

----

SEE DWG

PART NAME

STAND

791T-630-1590

QTY

----

n

0475A-3



L21 Spacer /I/

/

\ p3

\

/V

I

A

4343 ________-_____-_-_-._-._-

Cl

_

< 6 mm -aa

cl_I

,

Cl CWD03.289 HEAT TREATMENT ----

MATERIAL

PART NAME

QTY

STKM13A

SPACER

791T-830-1510

‘n

L22-3 Plate

D475A-3

30-17 0

DISASSEMBLY


AND ASSEMBLY

L-25 Guide

CWD03290 HEAT TREATMENT ----

MATERIAL

PART NAME

QTY

GUIDE

1

1 791T-830-1460

STKM13A

A

L-26 Tube

9-

a0 ~

_____---

--------

60

CWD03292 HEAT TREATMENT

z

1571-01625

SEAT

STD

01

TUBE

STKM13A

SYM.

PART NAME

MATERIAL

30-18 0

----

2 1

0. 118 38. 5

QTYISET :;;y

PART NAME

@114.

3Xt8.

REMARKES

5

MATERIAL

SEE DWG QTY

TUBE

791T-830-1530

'a

D475A-3

DISASSEMBLY

AND ASSEMBLY


L-26 Plate

2-13.5

DRILLS \

t ml c-0

14. 5

126.5 155.5

1 791T-830-1540

Nl

n

Plate

33

DRILL

CWD03.294

D475A-3



N2 Bracket

CWD03295 HEAT TREATMENT

MATERIAL

HEAT TREATMENT ----

MATERIAL

PART NAME

QTY

N2 Bracket

CWD03296

02

TUBE

STKM13A

1

3.33

@177.8xt9.

01

PLATE

SS4OOP

1

2.93

t16

SYM.

PART NAME

MATERIAL

OTYhET

30-20 0

"I;;:

REMARKES

5

SEE DWG

BRACKET

791T-850-1170

'A

D475A-3



P Sleeve

Q

360

02

I

2-10x1.5

_-.-.-.-

I

665:O. 2

I-

, CWD03.297 I

02

TUBE

STK13A

1

42.2

4273. 1xt12

01

PLATE

SS4OOP

1

5.13

t22

SYM.

PART NAME

MATERIAL

MATERIAL

PART NAME

QTY

SEE

DWG

SLEEVE

791-850-1180

REMARKES

QTY/SET v;;r

HEAT TREATMENT ----

'A

P Plate

2-22

1

DRILLS

=+

CWD03298 HEAT TREATMENT ----

MATERIAL

PART NAME

QTY

SS4OOP

PLATE

791-850-1190

D475A-3

'a

30-21 0



Serial No.: 10685 and up Note:

Komatsu cannot accept any responsibility for special tools manufactured according to these sketches.

E2 Push tool

30-22 2 6

D475A-3



L13 Plate

L17 Guide

D475A-3

30-22-1 6



L20 Spacer

L21 Bar

30-22-2 6

D475A-3



L21 Plate

N1 Plate

D475A-3

30-22-3 6



N2 Bracket

N2 Bracket

30-22-4 6

D475A-3



P Sleeve

P Plate

D475A-3

30-22-5 6

DISASSEMBLY

AND ASSEMBLY

ENGINE OIL COOLER

REMOVAL OF ENGINE OIL COOLER ASSEMBLY 1. Remove fuel injection pump assembly (right). For details, see REMOVAL OF FUEL INJECTION PUMP ASSEMBLY (RIGHT).

2.

Drain coolant.

3.

Remove

coolant

4.

Remove

oil cooler assembly

5.

Remove

manifold

6.

Remove

oil cooler assembly

bypass tube (I). (front) (2).

(3). (rear) (4).

INSTALLATION OF ENGINE OIL COOLER ASSEMBLY l

l

Carry out removal.

installation

in the

reverse

order

to

Refilling with water Add water to the specified

level, and run the engine to circulate the water through the system. Then check the water level again.

D475A-3

30-23 0


FUEL INJECTION PUMP

REMOVAL OF FUEL INJECTION PUMP ASSEMBLY (BOTH LEFT AND RIGHT) 1. Open 2. 3.

4. 5. 6. 7. 8. 9. 10. 11. 12.

engine side cover (I) and remove side cover (2). Close fuel supply valve. Remove mounting bolts (4) of fuel strainer (31, and move fuel strainer assembly to side. . Left fuel injection pump only. Remove fuel pump coupling cover. Remove lubrication tube (5). Disconnect hose (6) for field pump. Disconnect tubes (7) and (8). Disconnect fuel hose (9). Disconnect fuel injection tube (IO). Remove injection pump mounting bolts ( Remove coupling lock bolt (12). Remove injection pump (13). * Be careful not to lose the coupling key, and store it in a safe place.

el kg

Fuel injection

pump assembly

I ‘/

’

\

-2

CWD02941

: / /

4

CWD02945

INSTALLATION OF FUEL INJECTION PUMP ASSEMBLY (BOTH LEFT AND RIGHT) l

Carry out removal.

installation

m

Sleeve

w

Coupling

in the

reverse

order

to

nut: 23.5 z 1.0 Nm 12.4 2 0.1 kgm}

m

CWD02946

lock bolt: 157 - 196 Nm {IS - 20 kgm1

m l

.

Adjust the injection timing. For details, see TESTING AND ADJUSTING, justing fuel injection timing. Bleed the air from the fuel circuit.

30-24 0

Ad-

D475A-3

DISASSEMBLY

AFTERCOOLER

AND ASSEMBLY

CORE

REMOVAL OF AFTERCOOLER CORE ASSEMBLY 1. 2.

Drain coolant. Remove hood assembly. For details, see REMOVAL

OF HOOD ASSEM-

BLY. 4. 5.

Remove engine side cover. Remove muffler assembly (I) and bracket (2). Remove air cleaner assembly (3). . Remove the air cleaner bracket also.

6.

Remove

7.

Disconnect

8.

Removal of aftercooler bank) 1) Remove aftercooler

3.

intake connector electrical

(4).

intake air heater (5).

core assembly

(for left

tubes (61, (71, and (8).

CUD02949

2)

Remove

connectors

(9) and (IO), and cover

3)

(II). Remove

aftercooler

core assembly

(12).

CUD02950

D475A-3


9.

Removal of aftercooler bank) 1) Remove aftercooler

.

core assembly

(for right

tube (13).

2)

Remove

connectors

(14) and (151, and cover

3)

(16). Remove

aftercooler

core assembly

INSTALLATION AFTERCOOLER ASSEMBLY l

AFTERCOOLER CORE

Carry out installation removal.

(17).

OF CORE

in the

reverse

order

to

Refilling with water Add water to the specified level, and run the engine to circulate the water through the system. Then check the water level again.

30-26 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

NOZZLE HOLDER

REMOVAL OF NOZZLE HOLDER ASSEMBLY 1.

2. 3. 4. 5. 6. 7.

Remove hood assembly. For details, see REMOVAL OF HOOD ASSEMBLY. Remove engine side cover (1). Remove cylinder head cover (2). Disconnect fuel tube (3). m Loosen locknut (41, and remove connection (5). Remove holder (6). H & Remove nozzle holder assembly (7). Jr Using the removed holder and mounting bolts, screw into the head of the nozzle holder, and pull out the nozzle holder. * Check that there is a gasket fitted to the tip of the nozzle holder. * Mark each nozzle holder with the cylinder number, be careful not to damage the tip, and keep in a safe place.

I

CUD02953

INSTALLATION OF NOZZLE HOLDER ASSEMBLY l


in the

reverse

order

to

m

Sleeve

w

m

Connection : 34.3 - 39.2 Nm (3.5 - 4.0 kgm1 Locknut : 29.4 - 34.3 Nm (3.0 - 3.5 kgm}

w

Holder

a

nut : 23.5 +. 0.98 Nm 12.4 + 0.1 kgm1

mounting bolt : 66.2 t. 7.4 Nm 16.75 t 0.75 kgm}

m Align with the connection mount hole of the nozzle holder, then insert the nozzle holder.

D475A-3

30-27 0


REMOVAL SEAL

ENGINE FRONT SEAL

OF ENGINE FRONT

1.

Remove radiator guard assembly. For details, see REMOVAL OF RADIATOR GUARD ASSEMBLY.

2.

Remove crankshaft pulley (I).

m

I

J

3.

Remove front seal (2).

INSTALLATION FRONT SEAL l

-IAr+ CWD02956


OF ENGINE

in the reverse order to

I

v

CWD02957

If Align the dowel pin when installing the crankshaft pulley. Tighten the mounting bolts in the order shown in the diagram on the right. w Crankshaft pulley mounting bolt :

m *

Do as follows according to the wear of the crankshaft seal contact surface. I) When crankshaft is a new part or when there is no wear of oil seal contact surface. i) Fill approx. 50 - 80% of lip portion at top of seal circumference with lithium grease. ii) Insert spacer @ (t=l.8 - 2.8 mm) between tool Al and seal (21, and press fit. iii) After press fitting, check mounting dimension a. Front seal mounting dimension a : 18 - 19 mm

CD001514

I

Al

a

CWD02958

30-28 0

D475A-3

DISASSEMBLY

2)

3) .

ENGINE FRONT SEAL

AND ASSEMBLY

When installing oil seal at different mounting position Fill approx. 50 - 80% of lip portion at top i) of circumference of seal (2) with lithium grease. ii) Using tool Al, press fit seal (2). diiii) After press fitting, check mounting mension b. Front seal mounting dimension b : 16.2 mm

b

When there is wear of crankshaft oil seal contact surface Procedure for assembling front seal with sleeve i) Coat all of inside surface of sleeve (3) with gasket sealant (LG-7). ii) Using tool Al, press fit sleeve (3) to specified position. Sleeve mounting dimension c: 5 mm * Tighten the bolts uniformly. * After press fitting the sleeve, wipe off all the gasket sealant that is forced out. iii) Fill approx. 50 - 80% of lip portion at top of circumference of seal (4) with lithium grease. between iv) Insert washer @ (01640-22232) tool Al and seal (41, and press fit. diVI After press fitting, check mounting mension c. Front seal mounting dimension c : 13 mm

I

D475A-3

4

CWD02961

30-29 0

DISASSEMBLY

REMOVAL SEAL 1.

2.

AND

ASSEMBLY

ENGINE

REAR SEAL

OF ENGINE REAR

Remove damper assembly. For details, see REMOVAL OF DAMPER BLY.

ASSEM-

Sling with eyebolts @ (M16, P=2), remove mounting bolts (I), screw in forcing screws @ (M12, P=1.75), then remove flywheel (2). r+ kg

Flywheel

: 140 kg CWD02962

3.

Remove

rear seal (3).

INSTALLATION REAR SEAL 1.

CWD02963

OF ENGINE

Using guide bolt, and install flywheel

(2).

2

CWD02964

2.

Secure flywheel

(2) and housing

with plate 0.

.

30-30 0

/

CWD02965

D475A-3

DISASSEMBLY

*

ENGINE

AND ASSEMBLY

REAR SEAL

1

Tighten the mounting bolts in the order shown in the diagram on the right. m Flywheel mounting bolt : 1st step: 98 +. 19.6 Nm I10 = 2 kgm} 2nd step: 294 + 19.6 Nm I30 = 2 kgm1 3rd step: 539 + 19.6 Nm I55 = 2 kgm1

CWD02966

3.

After installing flywheel, use dial gauge @I to measure radial and face runout of flywheel. . Face runout: Max. 0.30 mm . Radial runout: Max. 0.30 mm

m *

Do as follows according to the wear of the crankshaft seal contact surface. 1) When crankshaft is a new part or when there is no wear of oil seal contact surface. Fill approx. 50 - 80% of lip portion at top i) of seal circumference with lithium grease. each ii) Insert 2 washers @ (01640-22032) between tool A2 and seal (2), and press fit. iii) After press fitting, check mounting dimension a. Front seal mounting dimension a : 20 mm

D475A-3

J

CWD02968

30-31 0


2)

ENGINE REAR SEAL

When installing oil seal at different mounting position i) Fill approx. 50 - 80% of lip portion at top of circumference of seal (3) with lithium grease. ii) Insert spacer @ (t=2.4 mm) between tool A2 and seal (3), and press fit. iii) After press fitting, check mounting dimension b. Front seal mounting dimension b : 25 mm J

3) .

When there is wear of crankshaft oil seal contact surface Procedure for assembling front seal with sleeve i) Coat all of inside surface of sleeve (4) with gasket sealant (LG-7). ii) Using tool A2, press fit sleeve (4) to specified position. Sleeve mounting dimension c : 14 mm Ir Tighten the bolts uniformly. * After press fitting the sleeve, wipe off all the gasket sealant that is forced out. iii) Fill approx. 50 - 80% of lip portion at top of circumference of seal (5) with lithium grease. iv) Insert 2 washers @ (01640-22032) each between tool A2 and seal (5), and press fit. iii) After press fitting, check mounting dimension c. Front seal mounting dimension c : 21 mm

5

30-32 0

CWD03248

CWD02970

D475A-3

DISASSEMBLY

CYLINDER

AND ASSEMBLY

HEAD

REMOVAL OF CYLINDER HEAD ASSEMBLY g 1. 2.

3. 4. 5. 6. 7. 8. 9. 10.

11. 12.

Disconnect the cable from the negative (4 terminal of the -battery. Drain coolant. Remove hood assembly. For details, see REMOVAL OF HOOD ASSEMBLY. Remove left and right engine side covers. Remove muffler assembly (I) Ir Remove the muffler bracket also. Remove exhaust connector (2). Remove intake connector (3). Remove oil supply tube (4). Remove drain tube (5). Remove hose (6). [w Remove turbocharger assembly (7). * Remove the turbocharger assembly on the opposite side in the same way. Remove air cleaner assembly (8). * Remove the air cleaner bracket also. m Remove exhaust manifold assembly (9).

CWD02972

13. Removal of exhaust manifold assembly (for left bank) 1) Remove aftercooler tubes (IO), (I I), and (12). 2) Remove electrical intake air heater wiring harness (13). 3) Sling intake manifold and aftercooler assembly (141, and remove mounting bolts. j, To prevent the electrical intake air heater from falling, install a guide bar in the bottom intake manifold mounting bolt hole. 4) Remove intake manifold and aftercooler asa sembly (I 4). & kg

5)

D475A-3

Remove

Intake manifold, bly : 50 kg electrical

aftercooler

I

IO

CWD02973

assem-

intake air heater (15).

30-33 0

DISASSEMBLY

AND ASSEMBLY

CYLINDER

14. Removal of intake manifold assembly (for right bank) 1) Remove aftercooler tube (16). 2) Remove electrical intake air heater wiring harness (17). 3) Sling intake manifold and aftercooler assembly (181, and remove mounting bolts. * To prevent the electrical intake air heater from falling, install a guide bar in the bottom intake manifold mounting bolt hole. 4) Remove intake manifold and aftercooler assembly (18). a

HEAD

u@ I

I

CWD0.2974

el

Intake manifold, aftercooler assembly : 50 kg Remove electrical intake air heater (19). kg

5)

15. Remove

fuel

injection

tube

(21). 16. Remove

air vent tube (22).

17. Remove

head cover (23).

(20) and spill tube m

m CWD02975

18. Remove rocker arm (24). m Ir To prevent pressure on the push rod when installing the rocker arm, loosen the locknut and turn the adjustment screw back 2 - 3 turns. 19. Remove

push rod (25) and crosshead

20. Remove nozzle holder assembly. For details, see REMOVAL OF NOZZLE ASSEMBLY. 21. Remove

rocker housing

22. Remove

cylinder

30-34 0

(26I.m

HOLDER

(27).

head (28).

D475A-3

DISASSEMBLY

CYLINDER

AND ASSEMBLY

HEAD

INSTALLATION OF CYLINDER HEAD ASSEMBLY .


in the

reverse

order

to

a_ m &

Turbocharger

mounting bolt : 49 z 4.9 Nm I5.0 z 0.5 kgm} Bolt thread, seat surface : Anti-friction compound (LM-PI

m m 6 *

Exhaust

manifold mounting bolt : 49 2 4.9 Nm I5.0 f 0.5 kgm} Bolt thread, seat surface: Anti-friction compound (LM-P) Tighten the mounting bolts in the order shown in the diagram.

7 17

w *

20 2

1 13

3

21

23 12

Exhaust manifold mounting bolt : 66.15 r 7.35 Nm i6.75 f; 0.75 kgm} Tighten the mounting bolts in the order shown in the diagram.

a w

Sleeve

nut : 23.5 = 0.98 Nm 12.4 t 0.1 kgm}

m

Head cover mounting bolt : 4.9 = 0.98 Nm IO.5 t 0.1 kgm1

m

m Sr

m * *

CWDO2981

Check that the ball of the adjustment screw is fitted properly into the socket of the push rod. w Rocker arm mounting bolt : 98 z 4.9 Nm {IO 2 0.5 kgm) Check that the push rod is inserted securely in the cam follower. Adjust the crosshead as follows. 1) Loosen the locknut and turn back the adjustment screw. 2) Press down lightly with a finger on the top of the crosshead and screw in the adjustment screw. 3) When the adjustment screw contacts the valve stem, tighten it a further 20”.

D475A-3

30-35 0

DISASSEMBLY

4)

AND ASSEMBLY

CYLINDER

HEAD

Tighten the locknut to hold the adjustment screw in position. w Locknut : 58.8 + 5.9 Nm IS.0 + 0.6 kgm}

11 * Adjust the valve clearance. For details, see TESTING AND ADJUSTING, Adjusting valve clearance. m & Bolt thread, seat surface : Anti-friction compound (LM-PI w Tighten the mounting bolts by hand for at least the first 2 - 3 turns, then tighten as follows. 1) 1st step: 137.2 - 156.8 Nm (14 - 16 kgm1 2) 2nd step: 210.7 - 220.5 Nm 121.5 - 22.5 kgm1 3) 3rd step: Using wrench A3, tighten 90” +:‘I When not using wrench A3, tighten as follows.

CWD02982

l

Order 1st step

Procedure 137.2 - 156.8 Nm (14 - 16 kgm)

I

210.7 - 220.5 Nm (21.5 - 22.5 kgm1

* *

*

Tighten bolt @ to 66.15 + 7.35 Nm 16.75 & 0.75 kgm1 After tightening, make one punch mark on the bolt head to indicate the number of times it has been tightened. If any bolt already has five punch marks, do not reuse it. Replace it with a new bolt.

Make mark with punch

, l


30-36 0

DXD03202

D475A-3

DISASSEMBLY

AND ASSEMBLY

FUEL TANK

REMOVAL OF FUEL TANK ASSEMBLY 1. Disconnect hose (I 1.

*

Before disconnecting the hose, close the fuel valve.

2.

Remove bracket (2).

3.

Disconnect wiring connector (for fuel gauge) and remove clamp.

4.

Remove bracket (3) and clamp (4).

5.

Disconnect hoses (5) and (61, and remove clamp.

6.

Lift off fuel tank assembly (7). I&lkg

Fuel tank assembly (when full) :2,lOOkg

INSTALLATION ASSEMBLY l


OF FUEL TANK


DO2967

D475A-3

30-37 0

DISASSEMBLY

AND ASSEMBLY

REMOVAL OF MAIN ASSEMBLY

MAIN

RADIATOR

RADIATOR

1. Drain coolant. 2.

Disconnect HRN) (1).

3.

Lift off radiator

front lamp connectors

Radiator

(CN-209,

CN-

top cover (2). top cover assembly

: 85 kg CWD02988

4.

Disconnect hose (4).

5.

Disconnect wiring harness clamps (7 places) at top of radiator, and radiator water level sensor connector KN-405).

6.

Disconnect

7.

Remove

8.

Open guard (71, and remove right: 2 each).

9.

Remove wind breaker plates (9) (top and bottom), and (IO) (left and right).

radiator

inlet hose (3) and aeration

sub tank hose (5).

wind breaker

plate (6).

bolts (8) (left and

10. Sling radiator assembly ( 1 I), then remove mount bolts (12) (left and right: 2 each).

30-38 0

top

D475A-3

DISASSEMBLY

MAIN RADIATOR

AND ASSEMBLY

11. Remove

covers (13) (left and right).

12. Remove

tube (14).

13. Remove

bottom mount bolts (15) (left and right).

14. Lift off radiator assembly (II). Ir Be careful not to damage lifting the radiator off. &I kg

Radiator

assembly

the core

when

: 550 kg CWD02993

INSTALLATION OF MAIN RADIATOR ASSEMBLY l

.


in the

reverse

order

to

Refilling with water Add water to the specified

level, and run the engine to circulate the water through the system. Then check the water level again.

D475A-3

30-39 0

DISASSEMBLY

AND ASSEMBLY

SUB RADIATOR

REMOVAL OF SUB RADIATOR ASSEMBLY 1. Drain coolant. front lamp connectors HRN) (1). 3. Lift off radiator top cover (2).

2. Disconnect

l+ kg

Radiator

(CN-209,

top cover assembly

CN-

: 85 kg

4. Remove

hood (3) and side cover. For details, see REMOVAL OF HOOD BLY.

5. Disconnect 6. Disconnect

ASSEMCWD0.2994

main radiator hoses (4) and (5). radiator inlet hose (6) and sub tank

hose (7).

7. Disconnect

wiring harness clamps at top of radiator, and radiator water level sensor connector (CN-DRT). 8. Sling radiator assembly (81, and remove top mount bolts (9) (left and right: 2 each).

9. Remove bolt (IO). 10. Open bottom undercover

(11) and remove

tube

(12). 11. Remove bottom mount bolts (13) (left and right). 12. Lift off radiator assembly (8). * Be careful not to damage the core when lifting the radiator off. &I kg

Radiator

assembly

: 170 kg

CWO02996

NSTALLATION

l

.


OF SUB

in the

reverse

order

to


30-40 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

RADIATOR GUARD

REMOVAL OF RADIATOR GUARD ASSEMBLY 1.

Remove cap (I) and shim (2) of blade lift cylinm der. Check the number and thickness of the shims, and keep in a safe place. Star-t the engine and retract the piston rod fully, then tie the piston rod with wire to prevent it from coming out. Tie the piston rod on the opposite side in the same way. CWD02997

2.

3. 4. 5.

6.

7.

8.

Remove covers (3) and tubes (4). (left and right) a Release the remaining pressure from the hydraulic circuit. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. * Fit a cover to prevent dirt from entering the piping. Sling blade lift cylinder assembly (51, then fit cylinder holder tool and secure to radiator guard. Drain coolant. Remove hood assembly. For details, see REMOVAL OF HOOD ASSEMBLY. Disconnect radiator inlet and outlet hoses, aeration hose, and wiring harness clip. For details, see REMOVAL OF MAIN RADIATOR ASSEMBLY. Disconnect hydraulic cooler hoses (6) and (71, and clamp (8). g Release the remaining pressure from the hydraulic circuit. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. * Fit a cover to prevent dirt from entering the piping.

-

i-..

ACWD02998

CWD02999

Loosen tension of tension pulley (9), and remove fan belt (IO). + Using a chain block, pull the tension pulley securely in the direction shown in the diagram on the right to loosen the belt tension.

CWD03000

D475A-3

30-41 0

DISASSEMBLY

AND ASSEMBLY

RADIATOR GUARD

9. Sling radiator guard assembly and remove lock bolt, then using tool A4, push rear pin (11) to inside of radiator guard and remove.

IO. Remove lock plate, then using tool A4, pull front pin (12) to outside move.

of radiator

guard

11. Lift off radiator guard assembly (13). Sr Be extremely careful not to damage ing and piping when removing. kg rE?I

Radiator

guard assembly

and

re-

the wir-

: 4,700 kg

INSTALLATION OF RADIATOR GUARD ASSEMBLY l


+

.

Standard

in the

shim thickness

reverse

order

to

: 4 mm


30-42 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

ENGINE

REMOVAL OF ENGINE ASSEMBLY g

Disconnect the cable from the negative (-1 terminal of the battery. 1. Drain coolant. 2. Remove hood assembly. For details, see REMOVAL OF HOOD ASSEMBLY. 3. Open underguards (1st and 2nd from front of machine). 4. Disconnect connectors (1) (CN-201, 202).

5. Disconnect

2 starting

motor wires (2).

6. Disconnect

connectors

(3) (CN-101,

111, 112).

7. Close heater valve, disconnect heater hose (41, then remove clamp and move towards rear of engine. 8. Disconnect air conditioner hoses (5) and (6).

‘@-iJ

Loosen the sleeve nut slightly and release the air conditioner gas (R134a) completely before disconnecting the hoses. Fit covers to prevent dirt or moisture from entering the hoses. Disconnect all the clamps for hoses (5) and (6).

9. Disconnect IO. Disconnect

torque radiator

converter

oil cooler tube (7).

outlet tube (8) and bracket

(9). 11. Disconnect

D475A-3

sub radiator

outlet hose (IO).

DISASSEMBLY

AND ASSEMBLY

12. Disconnect

fuel hoses (II),

ENGINE

(121, and (13).

13. Disconnect radiator inlet hose (14). . Disconnect at clamp portion (15) at the radiator end. 14. Disconnect

sub radiator

inlet hose (16).

15. Disconnect aeration hoses (17) and (18). . Disconnect at the radiator end. 16. Remove

fan pulley cover. CWD03010

17. Remove hydraulic oil cooler assembly. . Remove the 2 cooler hoses, then brackets (20).

remove

18. Loosen tension of tension pulley (21) and remove fan belt (22). Ir Using a chain block, pull the tension pulley securely in the direction shown in the diagram on the right to loosen the belt tension.

22 CWDO

30-44 0

D475A-3

DISASSEMBLY

ENGINE

AND ASSEMBLY

19. Sling universal joint (231, then ing bolts and remove. Universal

remove

mountm

joint : 65 kg

20. Remove front mount bolts (25).

bolts (24) and rear mount a

-__-__-__-._-

_--.-

____________-__-__-__-.

21. Remove

el kg

*

D475A-3

engine

assembly

Engine assembly

-

-.-.

1

cw003014

(26).

: 3,400 kg

When removing the engine, check that all the wiring and piping has been disconnected. Operate the lever block so that there is no interference with other parts, set with the front slightly raised, and lift off. Be particularly careful not to let the front mount hit the radiator.

30-45 0

1

DISASSEMBLY

AND ASSEMBLY

INSTALLATION ASSEMBLY Carry out removal.

l

installation

ENGINE

OF ENGINE

in the

reverse

order

to

m Ir Ir

*

w

Install the hoses without twisting or inter-ference. When installing the air conditioner circuit hoses, be extremely careful not to let any dirt, dust, or moisture get inside the hoses. Check that there is an O-ring at the piping connection for the air conditioner hose, then tighten the hose. Coat the O-ring thoroughly with compressor oil (Showa Shell Suniso 4G or 5G). Tightening torque of air conditioner gas piping:

Thread

size

1 Tightening

M6 bolt (receiver oortion) M6 bolt (compressor portion)

torque

5.39k1.47 9.8i1.96

(Nm {kgmI)

IO.55+0.15)

0-Ang DBD02985

1

I

(I .0+0.2}

w

Universal joint mounting bolt : 156.8 - 196 Nm I16 - 20 kgm1

w

Engine mount mounting bolt : 1,715 - 1,911 Nm (175 - 195 kgm}

IFTI

.


9

Charging with air conditioner gas Using tool X, charge the air conditioner with air conditioner gas (R134a).

30-46 0

circuit

D475A-3

DISASSEMBLY

DAMPER

AND ASSEMBLY

REMOVAL OF DAMPER ASSEMBLY 1. Remove hood assembly. For details, see REMOVAL BLY.

2.

Open underguard

3.

Remove -

:

OF HOOD

ASSEM-

(3rd from front of machine).

drain plug (I) and drain damper Damper

oil.

case : Approx. 2.2 i?

I 4.

Remove

5.

Sling universal joint (31, then remove bolts, and lift off. &I kg

Universal

joint : 65 kg

(4) and coupling

mounting m

m

6.

Remove

holder

7.

Remove

retainer

8.

Sling damper cover (71, then use forcing screw @ (12mm, P=1.75) to remove damper cover. g Install guide bolts (12mm, P=1.75, e=lOO) in 2 mounting bolt holes in the top of the damper cover so that the damper cover does not come out suddenly. &I kg

9.

CUD03016

dipstick and dipstick guide (2).

(5).

(6).

Damper

cover : 50 kg

Sling damper assembly (81, then using guide bolt @ (16mm, P=2.0) and nut 0, loosen nut slowly so that damper assembly does not come out suddenly, then remove. & kg

D475A-3

Damper

assembly

: 85 kg

30-47 0

DISASSEMBLY

AND ASSEMBLY


Carry out removal.

OF DAMPER

installation

m

Universal

&

Holder

DAMPER

in the

reverse

order

to

joint mounting bolt : 156.8 - 196 Nm {IS - 20 kgm}

a

-Holder

.

mounting

bolt thread : Thread tightener (LT-2) mounting bolt : 490 - 607.6 Nm I50 - 62 kgm}

Refilling with oil (damper case) Add oil through the oil filler to the specified level, and run the engine to circulate the oil through the system. Then check the oil level again.

30-48 0

D475A-3

DISASSEMBLY

DAMPER

AND ASSEMBLY

DISASSEMBLY ASSEMBLY

OF DAMPER

Disassembly 1. Remove 2. Remove 3. Remove 4. Remove 5. Remove 6. Remove 7. Remove

of damper assembly bolt (I), then remove flange seal (3). shaft (4). rubber (5). flange (6) from body (7). seal (8). bearing (9).

Disassembly 8. Remove

of damper cover assembly bearing (IO) and seal (11) from

9.

(12). Remove

oil seal (13) from retainer

(2).

cover

(14).

I ASSEMBLY ASSEMBLY

14.

CWD03021

OF DAMPER

Assembly of damper assembly 1. Using push tool, press fit bearing (9). & Flywheel pilot portion : Grease (G2-UI Fill 50% (approx. 55 g) of clearance a. + ‘a CWDO3022

2.

Install seal (8) to flange (6), and seal (3) to flange (2). Ir Install the seal with the lip facing the inside as shown in the diagram.

I I

D475A-3

CWD03023

30-49 0

DISASSEMBLY

3.

AND ASSEMBLY

Align the bolt holes with body (7), then flange (6). & Flange mating surface :

DAMPER

install

Gasket sealant (LG-4) *

*

Check that there are no dents, rust, oil or grease, or water on the mating surface, then coat both the flange and body surfaces with gasket sealant. Coat with a thickness of about 0.1 - 0.2 mm, leave to dry for 2 - 3 minutes, then tighten. CWD03025

4. 5.

Set shaft (4) to flange and body assembly in position. Assemble rubber (5). sr When assembling the rubber, coat the whole surface of the rubber, the outside circumference of the shaft, and the inside circumference of the body with grease (G2-LI). * After assembling the rubber, fill approx. 50% (approx. 400 g) of the space (b portion: 16 places) between the shaft and body with grease (G2-LI).

b

I 6.

Install flange (2). & Flange mating

*

*

7.

I

CWD03026

surface

: Gasket sealant (LG-4)

Check that there are no dents, rust, oil or grease, or water on the mating surface, then coat both the flange and body surfaces with gasket sealant. Coat with a thickness of about 0.1 - 0.2 mm, leave to dry for 2 - 3 minutes, then tighten.

Tighten

bolt (1). CED01810

30-50 0

D475A-3

DISASSEMBLY

DAMPER

AND ASSEMBLY

Assembly of damper cover assembly 8. Using push tool 0, press fit oil seal (13) to retainer (14). & Oil seal press-fitting surface : Gasket sealant (LG-II Sr Coat the inside surface of the retainer thinly with gasket sealant and wipe off any sealant that is forced out. & Lip of oil seal : Grease (G2-LI)

9.

Using push tool 0, (12).

10. Using push tool 0, (12). 6 *

&

press fit bearing (IO)to cover

I

CWD03029

II

cw003030

press fit oil seal (I 1) to cover

Oil seal press-fitting surface : Gasket sealant (LG-1) Coat the inside surface of the cover thinly with gasket sealant and wipe off any sealant that is forced out. Lip of oil seal : Grease (G2-LI)

D475A-3

30-51 0

POWER TRAIN UNIT


REMOVAL OF POWER TRAIN UNIT ASSEMBLY 1. Drain case. -

:

- : 2.

3.

oil from

hydraulic

Hydraulic

tank and power

train

tank : Approx. 140 !?.

Power train case : Approx. 210 4

Remove floor frame assembly. For details, see REMOVAL OF FLOOR FRAME ASSEMBLY. Remove fuel tank assembly. For details, see REMOVAL OF FUEL TANK ASSEMBLY.

4.

Disconnect

lubrication

5.

Disconnect

pin-puller

6.

Disconnect wiring (4). * Disconnect the hydraulic oil temperature and lock-up solenoid connector, and connector connecting to the left and right fenders.

7.

Disconnect

8.

Remove hydraulic and tube (9).

9.

Disconnect

30-52 0

control

hoses (I) and (3). hose (2).

cables (51, (61, and (7).

pump

hose (IO).

inlet tube coupling

(8)

POWER TRAIN UNIT


10. Disconnect ripper hose (II), then disconnect clamp (1 place) on top of steering case.

11. Remove

universal Universal

joint (12). joint : 65 kg

12. Remove front mount bolt (13). 13. Remove rear mount mount cap (15). & kg

14. Remove towards

Mount

bolt

m

(141, then

remove m

cap : 30 kg

housing clip (161, and move flange (17) m final drive end.

15. Using forcing

screws 0,

remove

cover (18).

CUD03038

D475A-3

30-53 0

DISASSEMBLY

POWER TRAIN

AND ASSEMBLY

16. Remove shaft (19). * Pull out the shaft with forcing screws 0. Ir If the shaft will not come out, set jack @ on the ground and push the shoe grouser up, then move the sprocket to the front or rear to a position where the shaft will come out, and remove the shaft.

17. Lift off power train unit assembly Power train unit assembly

30-54 0

(20).

UNIT

-

\

m

: 5,500 kg

D475A-3


POWER TRAIN UNIT

INSTALLATION OF POWER TRAIN UNIT ASSEMBLY l


Universal

in the

reverse

order

to

joint mounting bolt : 156.8 - 196 Nm {IS - 20 kgm}

m m

Front mount bolt : 1,519 - 1,911 Nm I155 - 195 kgm1

w

Rear mount bolt : 823.2 - 1,029 Nm I84 - 105 kgm)

Ir

Check that the housing clip is fitted securely in the flange. Housing clip : 4.9 - 8.8 Nm IO.5 - 0.9 kgm}

)14

w

m *

l

When installing the power train unit assembly, pay attention to the mating surface of the coupling, and be careful not to damage the seal of the rear mount coupling.

Refilling with oil Add oil through the oil filler to the specified level, and run the engine to circulate the oil through the system. Then check the oil level again.

Ia

Power train case : Approx. 210 J?

%a

Hydraulic

D475A-3

tank : Approx. 140 1

30-55 0


PTO. TORQUE CONVERTER

REMOVAL OF PTO, TORQUE CONVERTER ASSEMBLY 1.

2.

Remove power train unit assembly. For details, see REMOVAL OF POWER UNIT ASSEMBLY.

TRAIN

Raise power train unit assembly (I) and set on block 0. * Set blocks under the front of the oil pan, transmission rear case, and steering case. CWD03041

3.

Remove

brake rod (2).

E-i-

103042

4.

5. 6.

Disconnect central pressure detection hose (31, then remove together with central pressure detection bracket (4). * Before removing the pressure detection hoses, mark them with tags to prevent any mistake in the mounting position when installing. Remove oil filler tube (5). Sling filter assembly (61, then remove. & kg

7.

Power train pump,

Lift off mount II+kg

9.

: 40 kg

Remove power train pump (7) and strainer assembly (8). a Sling the power train pump, then remove together with the strainer. r&lkg

8.

Filter assembly

Mount

strainer

CWD03043

assembly

: 100 kg

bracket (9). bracket : 70 kg

Remove tube (IO) and scavenging pump (11). a Sling the scavenging pump, then remove the mounting bolts. CWD03044

I+ kg

30-56 0

Scavenging

pump

: 24 kg

D475A-3


IO. Remove

hose (12).

11. Remove

gauge

PTO, TORQUE CONVERTER

guide (13).

13

CWD03045

12. Removal of hydraulic pump 1) Remove tube (14). 2) Remove tube (15). 3) Lift off right pump assembly & kg 4)

Pump assembly

: 40 kg

Lift off left pump assembly kg IF?l

Pump assembly

(16).

(17).

: 25 kg 6

CWD03046

13. Remove oil pan (18). * Remove the block under the oil pan, sling the oil pan, then remove the mounting bolts and disconnect the oil pan. kg lE?l

Oil pan : 120 kg

1u-

CWDO3047

14. Remove

PTO and torque converter assembly m (19). g Sling the PTO and torque converter assembly, then remove the mounting bolts. Ir Using a lever block, lift off the PTO and torque converter assembly horizontally.

el kg

D475A-3

PTO, torque

converter

assembly : 850 kg

30-57 0



INSTALLATION OF PTO, TORQUE CONVERTER ASSEMBLY Carry out installation removal.

l

a

in the

reverse

order

to

Bend the cotter pin securely.

m &

PTO boss rotating

portion

: Grease (G2-LII

113 *

30-58 0

Using a lever block, raise the PTO and torque converter assembly horizontally, align it with the spline of the shaft at the steering case end, then install.

D475A-3

DISASSEMBLY

AND ASSEMBLY


DISCONNECTION OF PTO, TORQUE CONVERTER ASSEMBLY 1.

Set PTO and torque tool c.

converter

assembly

(I) to

CWD03049

2.

Remove

3.

Remove cap (3). * Remove snap ring (41, then remove

4.

coupling

assembly

(2).

the cap.

m Remove retainer assembly (5). * Using forcing screws, remove the cover, retainer assembly, and shims. Jr Check the number and thickness of the shims, and keep in a safe place. CWD03050

5.

Remove

6.

Remove spacer (7). Ir Remove snap ring spacer.

m

oil seal (6).

(81, then

remove

the

CWD03051

7.

Remove PTO assembly (9) and torque converter assembly (IO). Ir Using eyebolts 0, raise the PTO assembly, then disconnect it from the torque converter assembly. r&lkg

PTO, torque

converter

assembly : 850 kg

CWD03052

D475A-3

30-59 0

DISASSEMBLY

AND ASSEMBLY


CONNECTION OF PTO, TORQUE CONVERTER ASSEMBLY .

Carry out connection disconnection.

in the

reverse

order

to

Adjust the clearance of the taper roller bearing as follows. 1) Assemble the oil seal to the retainer assembly, then install the cover, and tighten to 9.8 Nm {I kgm}. 2) Using a clearance gauge, measure clearance a between the retainer and the housing. Ir Measure clearance a at four points (A, B, C, D) around the circumference, and take the average as clearance a. 3) Measure shim thickness. . a - (0 to 0.05 mm) * Shim thickness: 0.15 mm, 0.20 mm, 0.50 mm 4) Assemble the selected thickness of shim, and tighten the retainer assembly to the specified torque. w Retainer mounting bolt: 58.8 - 73.5 Nm IS - 7.5 kgm} * Assemble the shim as shown in the diagram on the right so that it does not come at position b of the retainer removal tap.

I]-&-a

‘I CWD03053

b

CWDO3054

Shim shape

6

Outer circumference

of oil seal:

Gasket sealant (LG-5)

DXD03203

30-60 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

TORQUE

CONVERTER

DISASSEMBLY OF TORQUE CONVERTER ASSEMBLY Set the torque

converter

assembly

to tool C.

Torque converter valve assembly Remove torque converter valve assembly

(I).

Draining oil Remove 2 drain plugs (21, and drain oil from pump case. Sr After draining the oil, tighten the plugs. Lockup clutch, drive case assembly 1) Leaving 2 mounting bolts (3) in position, remove mounting bolts, then place input shaft side on top and remove remaining mounting bolts. 2)

CED01289

CED01290

CED01291

CED01292

Using eyebolts 0, remove lockup clutch and drive case assembly (4). Ir Disassemble the lockup clutch and drive case assembly as follows. i) Remove seal ring (5), and using forcing screws 0, remove input shaft (6).

ii) iii)

Remove snap ring (71, then remove plate (8). Set clutch housing side at bottom, and using forcing screws 0, remove turbine (9).

CED01293

D475A-3

30-6 1 0

DISASSEMBLY

TORQUE CONVERTER

AND ASSEMBLY

iv) Set clutch housing at top, then using eyebolts 0, remove housing and piston assembly (IO). Ir When the assembly is removed, the piston will fall out, so support it by hand when removing. v) Remove piston (11) from housing (12).

II

8 8 c3 8 Q CED01295

vi) Remove vii) Remove

seal ring (13) from piston. seal ring (14) from housing.

‘13

CED01297

viii)Using push tool 0; from housing.

remove

bearing

CED01296

i4 CED01298

(15)

CED01299

ix) Remove 3 discs (16) and 2 plates (17) from drive case (18). * After removing the discs and plates, keep them in a flat place to prevent them from becoming distorted.

I 30-62 0

CWD03060

DISASSEMBLY

4.

AND ASSEMBLY

TORQUE

Stator assembly 1) Remove snap ring (191, then remove stator assembly (20). 2) Disassemble stator assembly as follows. i) Remove snap ring (211, then remove race (22) from stator (23).

CED01301

ii)

Remove

CEDOl302

snap ring (24) from stator (23).

23

5.

CED01303

Pump assembly I) Remove snap ring (25). 2) Remove pump assembly (26). pump assembly as follows. 3) Disassemble i) Remove retainer (27). ii) Remove bearing and guide assembly (28) from pump (29).

CED01305

CED01304

iii) Remove bearing guide (31). 6.

CONVERTER

Stator clutch housing Set stator clutch housing stator clutch housing (32).

outer

race

at top

(30)

and

from

remove

_ CED01306

D475A-3

CEO01307

DISASSEMBLY

7.

TORQUE CONVERTER

Spring Remove

8.

AND ASSEMBLY

------lI

spring (33).

Springs, discs, plate Remove springs (341, 2 discs (35), and 1 plate (36). Ir After removing the discs and plates, them in a flat place to prevent them becoming distorted.

9.

keep from

Pin Remove

pin (37).

CED01308

CED01309

10. Inner gear Remove

snap ring (38), then remove

inner gear

(39).

11. Piston 1) Remove

piston (40) from case (41).

I 2) 3)

Remove Remove

CED01310

CEDOl311

seal ring (42) from piston. seal ring (43) from case.

CED01312

CED01313

12. Stator shaft assembly I) 2)

Tap stator shaft assembly (44) with a plastic hammer, and remove from case (45). Disassemble stator shaft assembly as follows. i) Using push tool @, remove shaft assembly (46) from stator shaft assembly.

CED01315

30-64 0


TORQUE CONVERTER

Remove snap ring (471, then remove bearing inner race (461, bushing (491, and seal ring (50) from shaft. iii) Remove seal ring (51) from stator shaft ii)

(52). iv) Remove snap plate (54).

ring

(53),

then

remove

50

47

48

CED01316

v)

Using push tool 0, remove then remove plate (56).

bearing

5i

54 CEDC

(551,

CUD03057

D475A-3

30-65 0

TORQUE CONVERTER


ASSEMBLY OF TORQUE CONVERTER ASSEMBLY *

Wash all parts in clean flushing oil (in particular, oil holes, etc.), then dry them, and check for dirt or damage. Coat the sliding surfaces of all parts with engine oil before installing.

l

Set case (41) to tool C.

1.

Stator shaft assembly

1) Assemble

2) 3)

4)

5)

plate (56) to stator shaft (52), and using push tool, press fit bearing (55). Ir Put drops (approx. 6 cc) of engine oil (SAEIOW-CD or SAE30-CD) on the bearing and rotate about 10 times. Install plate (54), and secure with snap ring (53). Install seal ring (51) to stator shaft (52). * After installing the seal ring, coat it with grease (G2-LI) to fix it to the shaft securely.

__

47

48

CED01316

7)

ND03059

Install seal ring (50) to-shaft. * After installing the seal ring, coat it with grease (G2-LI) to fix it to the shaft securely. Using push tool @, press fit bushing (49) to shaft. * Be careful not to deform the bushing when press fitting.

50

6)

5i

CED01321

Using push tool @, press fit inner race (48) to shaft. Install snap ring (47), and secure inner race.

CED01322

30-66 0

CEDOl323

DISASSEMBLY

TORQUE

AND ASSEMBLY

CONVERTER

8) Tap stator shaft (52) with a plastic hammer and press fit bearing portion to case. 9) Set shaft (46) to stator shaft, then using push tool, press fit bearing portion. IO) Turn over case and tighten mounting bolts of shaft from case end. 6 Mounting bolt : Thread tightener (LT-21 w Mounting bolt : 58.8 - 73.5 Nm 16 - 7.5 kgml CEO01324

2.

46

CED01325

Piston 1) Install seal ring (43) to case. & Outer circumference of seal ring : Grease (G2-LI) * Be careful to assemble the seal ring facing in the direction shown in the diagram on the right. 2) Install seal ring (42) to piston. & Outer circumference of seal ring : Grease (G2-LI) CED01313

*

CED01312

Be careful to assemble the seal ring facing in the direction shown in the diagram on the right.

DBD02991

3)

3.

Install piston (40) to case (41). & Contact surface of seal ring : Grease (G2-LII

Inner gear Install inner gear (39) and secure with snap ring (38).

CEDO1311

D475A-3

CED01310

DISASSEMBLY

AND ASSEMBLY

4.

Pin Install pin (37).

5.

Plate, discs, springs Install 1 plate (36),2 discs (351, and springs (34).

6.

Spring Install spring (33).

TORQUE

CED01309

7.

Stator clutch housing Install stator clutch housing (32). Check that the springs are fitted securely in * the holes in the housing and piston. s ;oun;in; koi; : Thread tightener (LT-2) kwn oun in 0 : 98 - 122.5 Nm {IO - 12.5 kgm)

8.

Pump assembly I) Assemble pump assembly as follows. i) Using push tool, press fit bearing outer race (30) to guide (31). Ir Put drops (approx. 6 cc) of engine oil (SAEIOW-CD or SAE30-CD) on the bearing and rotate about 10 times. ii) Set bearing and guide assembly (28) to pump (29), then tap with a plastic hammer and press fit bearing portion. iii) Install retainer (27). 6 Mounting bolt : Thread tightener (LT-2) w Mounting bolt : 58.8 - 74.5 Nm {S - 7.5 kgml 2) Install pump assembly (26). * When installing the pump, be careful not to damage the seal ring assembled to the shaft. 3) Install snap ring (25).

9.

11

CONVERTER

CED01308

CED0130/

CE001306

29 CED01305

CED01304

Stator assembly I) Assemble stator assembly as follows. i) Install snap ring (24) to stator (23).

23

30-68 0

:ED01303

D475A-3

DISASSEMBLY

ii) 2)

TORQUE

AND ASSEMBLY

Assemble race (22) to stator (231, and secure with snap ring (21). Install stator assembly (20) to stator shaft, and secure with snap ring (19).

I

I

CONVERTER

I

CE001302 1 1

CED01301

CED01327

CED01328

IO. Lock-up clutch, drive case assembly 1) Assemble lock-up clutch and drive case assembly as follows. i) Set turbine (9) to block 0, and set drive case (18) to turbine.

ii)

Install 3 discs (16) and 2 plates (17).

cw003060

iii) Install seal ring (14) to housing. 6 Outer circumference of seal ring : Grease (G2-LI) iv) Install seal ring (13) to piston. & Outer circumference of seal ring : Grease (G2-LII

CED01298

D475A-3

CEDOl297

DISASSEMBLY

AND ASSEMBLY

v) Install piston (11) to housing (12). 6 Contact surface of seal ring : Grease (G2-LI) Ir When installing, be careful not to damage the seal ring. vi) Using eyebolts 0, install housing and piston assembly (IO). * Support the piston assembly by hand to prevent it from falling out when installing. & Mounting bolt : Thread tightener (LT-2) m Mounting bolt : 98 - 122.5 Nm {IO - 12.5 kgm1 vii) Using push tool, press fit bearing (15). * Put drops (approx. 6 cc) of engine oil (SAEIOW-CD or SAEBO-CD) on the bearing and rotate about 10 times. viii)lnstall plate (81, and secure with snap ring (7). ix) Install input shaft (6). & Mounting bolt : Thread tightener (LT-21 m Mounting bolt : 156.8 - 196 Nm {IS - 20 kgm} x) Install 2 seal rings (5).

2)

TORQUE CONVERTER

li CED01295

CED01296

CED01329

5

CED01330

Using eyebolt 0, install lock-up clutch and drive case assembly (4). * Align the positions of the turbine oil groove (% mark) and drain plug (2) when installing.

CED01331

3) Tighten mounting bolts (3). Jr Check that drain plug (2) is tightened. m Mounting bolt : 49 - 58.8 Nm I5 - 6 kgm1 w Drain plug : 9.8 - 12.7 Nm 11 - 1.3 kgm1

CED01290

30-70 0

CED01289

D475A-3

DISASSEMBLY

AND ASSEMBLY

TORQUE CONVERTER

11. Torque converter valve assembly Install torque converter valve assembly (I). j, Tighten the mounting bolts uniformly in turn and be careful not to tighten them unevenly. w Mounting bolt :

43.1 - 53.9 Nm i4.4 - 5.5 kgm1

D475A-3

30-71 0

DISASSEMBLY

AND ASSEMBLY

DISASSEMBLY ASSEMBLY 1.

PTO

OF PTO

PTO lubrication tube Sling PTO assembly and remove lubrication

tube

(I). * Remove the 3 lubrication tubes on the opposite side also, set the torque converter end at the bottom, then lower.

2.

Hydraulic pump gear assembly 1) Using forcing screws 0, pull out cover assembly (2) and lift off. 2) Using puller 0, remove gear assembly (3) from cover (4).

J/

3)

Using puller 0, from gear (7).

remove

bearings

i

i CED01256

(5) and (6)

6’ 3.

CED01257 1 1

Power train l PPC pump gear assembly 1) Using forcing screw 0, pull out cover sembly (8) and lift off. 2) Using puller 0, remove bearing (9). 3) Remove gear (IO).

CEO01259

CEO01260

as-

CWD03062

30-72 0

D475A-3

DISASSEMBLY

4) 5)

PTO

AND ASSEMBLY

Using push tool 0, remove boss (II) bearing (12) from cover. Using forcing screw 0, remove bearing from boss (I I).

and (12)

12 CWDO3063

4.

Scavenging drive gear Remove snap ring (13) from bottom of PTO case, then remove gear (14).

5.

Shaft assembly 1) Remove plate (15) of idler gear.

m 2)

3)

6.

Turn over PTO case, then using forcing screw 0, remove shaft assembly (16). * The bearing outer race and key assembly will come out from the bottom of the PTO case, so place a wooden block in position and be careful not to damage the assembly. Remove plug (17), then using forcing screw, push out bearing (18). + After removing the bearing, assemble the plug again in the correct position.

I8

CWD03064

CWD03065

Idler gear assembly 1) Remove idler gear assembly (19) and bearing (20) from bottom of PTO case. 2) Remove outer race (21).

CWD03066

D475A-3

PTO


7.

PTO case 1) Remove race assembly (24) together with bearing outer race (25).

CED01272

2)

Remove bearing inner races (26) and (27) from race (28).

17

3) 4)

CEDO 1273

Remove bearing outer.race (29). Remove sleeve (30).

/ CED01274

8.

Bearing 1) Remove snap ring (22). 2) Remove bearing (23).

CWD03067

30-74 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

ASSEMBLY ASSEMBLY

PTO

OF PTO

* *

Clean all parts, and check for dirt or damage. Check that the snap ring is fitted securely in the groove.

1.

Bearing

I)

Using push tool, press fit bearing (23) to case. Ir Put drops (approx. 6 cc) of engine oil (SAEIOW-CD or SAE30-CD) on the bearing and rotate about 10 times. Install snap ring (22).

2)

2.

CWD03067

PTO case 1) Install sleeve (30) to case. * Install the sleeve with the chamfered inside circumference facing down. * Expand-fit the sleeve. 2) Using push tool, press fit bearing outer race (29).

Using push tool, press fit bearing inner races (27) and (26) to race (28).

3)

27

4)

Install race assembly (24). & Internal surface of race :

5)

Using push tool, press fit bearing outer race (25). * Put drops (approx. 6 cc) of engine oil (SAEIOW-CD or SAE30-CD) on the bearing and rotate about 10 times.

Anti-friction

compound

CED01273

(LM-P)

CEO01272

D475A-3

DISASSEMBLY

3.

AND ASSEMBLY

Idler gear 1) Using push tool 0, press fit bearing race (21) to gear (19). 2) Position idler gear to PTO case.

PTO

outer

CWDO3068

4.

Shaft assembly I) Using push tool @, press fit bearing inner race (18) to shaft. 2) Fit O-ring, align shaft assembly (16) with idler gear, then insert.

5.

Bearing I) Turn over PTO case, and press fitting bearing spacer (31) and bearing inner race (20) to shaft, then tighten mounting bolts of shaft assembly. * Put drops (approx. 6 cc) of engine oil (SAEIOW-CD or SAEBO-CD) on the bearing, then rotate approx. 10 turns.

CWD03070

2)

Install plate (15). & Mounting m

6.

bolt : Thread tightener (LT-2) Mounting bolt : 98 - 123 Nm {IO - 12.5 kgm1

Scavenging drive gear I) Install gear (I 4). 6 Spline portion

30-76 0

: Grease (G2-LI)

D475A-3

DISASSEMBLY

2)

7.

Install case.

AND ASSEMBLY

snap

ring (13) from

PTO

bottom

Power train, PPC pump gear assembly 1) Using push tool 0, press fit bearing boss (II).

of PTO

(12) to

CWD03072

2)

Using push tool 8, press fit boss (I I) and bearing (12) to cover. * Expand fit the bearing. &Boss spline portion : Grease (G2-LII

3)

Install gear (IO). & Gear spline portion & Gear mounting bolt Thread m Gear mounting bolt 98 - 122.6 Nm

: Grease (G2-LI) : tightener (LT-2) : {IO - 12.5 kgml CWD03073

4) 5)

8.

Using push tool 0, press fit bearing (9) to gear (IO). Raise cover assembly (8) and install. * If the cover assembly is stiff and does not enter the case, use a plastic hammer and tap evenly on the side face to install.

Hydraulic pump gear assembly 1) Using push tool 0, press fit bearings and (6) to gear (7).

(5)

CWD03075

0475A-3

30-77 0


PTO

2) Using push tool @, press fit gear assembly

3)

9.

(3) to cover (4). + Expand fit the bearing. * Set the end where the bearing end face and gear end face are level so that it faces the cover. 6 Gear spline portion : Grease (G2-LI) Fit O-ring, then raise cover assembly (2) and install to case. * If the cover assembly is stiff and does not enter the case, use a plastic hammer and tap evenly on the side face to install.

CWD03076

Lubrication tube Sling PTO assembly,

then install lubrication

tube

(IL * Install 3 lubrication tubes also on the opposite side. m Mounting bolt :

19.6 - 29.4 Nm I2 - 3 kgm1

30-78 0

D475A-3


TORQFLOW TRANSMISSION

REMOVAL OF TORQFLOW TRANSMISSION ASSEMBLY .

1.

Remove PTO and torque converter assembly. For details, see REMOVAL OF PTO, TORQUE CONVERTER ASSEMBLY. Remove TORQFLOW A *

transmission

assembly

(1).

m then re-

Sling the transmission assembly, move the mounting bolts. Using a lever block, raise the transmission horizontally, then remove from the steering.

r&lkg

TORQFLOW

transmission

assembly: 1,400 kg

INSTALLATION TRANSMISSION l


OF TORQFLOW ASSEMBLY in the

reverse

order

to

(I *

D475A-3

Using a lever block, sling transmission assembly (I) horizontally, align with spline of shaft at steering case end, then install.

30-79 0



DISASSEMBLY OF TORQFLOW TRANSMISSION ASSEMBLY Set the transmission

l

1.

Control valve assembly 1) Remove filter assembly (I).

2)

2.

assembly on the block.

Using eyebolts, remove control valve assembly (2) together with seat. * Do not remove the fourteen bolts marked %.

Sleeve

1) Remove plug (8). 2) Using eyebolts @I, pull out sleeve (9).

CWD03080

3.

Transmission case 1) Turn over transmission

2)

assembly, and remove plate (IO). Using eyebolts, remove transmission case (II).

30-80 0

D475A-3

DISASSEMBLY

4.

TORQFLOW

AND ASSEMBLY

TRANSMISSION

Housing 1) Remove 17 tie bolts (12). 2) Using eyebolts, remove housing (13). 3) Remove seal ring (14) from housing.

14 CWOO3082

5.

6.

7.

Spring Remove

spring (15).

Discs, plates, springs Remove discs (161, plates (171, and springs (18) in turn. Ir Keep the discs and plates in a flat place to prevent them from becoming deformed.

18

No. 1 ring gear Remove ring gear (19). CWD03083

8.

No. 1 housing, piston 1) Using eyebolts, remove No. 1 housing piston assembly (20). 2) Remove piston (22) from housing (21).

and

CWD03084

9.

Spring Remove

spring (23).

10. Discs, plates, springs Remove discs (241, plates (251, and springs (26) in turn. * Keep the discs and plates in a flat place to prevent them from becoming deformed. 11. Sleeve, guide pin 1) Remove sleeve (27). 2) Remove guide pin (28).

D475A-3

26 .

25

23

28 “-

CWD03085

30-81 0



12. Shaft, No. 1, 2, 3 carrier assembly Using eyebolts, remove No. 1, 2, and 3 carrier assembly (29). &I kg

1)

Shaft, No. 1, 2, 3 carrier assembly : 200 kg

Disassemble the shaft and carrier assembly as follows. i) Remove snap ring (13OL then remove sun gear (30). CWD03086

ii)

2)

Using eyebolts, remove shaft and No. 1 carrier assembly (31) from No. 2 and 3 carrier assembly (32).

Disassemble the shaft and No. 1 carrier assembly as follows. i) Raise the assembly, then using forcing screw 0, remove shaft and cage assembly (33).

31

-CWDO3087

Using plastic hammer, remove cage assembly (341, spacer (351, and bearing (36). iii) Remove seal ring (37) from cage assembly. iv) Remove seal ring (38) from cage. VI Remove seal ring (40) from shaft (39). ii)

u CWDO3088

vi) Remove shaft (421, ball (431, thrust washer (441, gear (451, and bearing (46) from No. 1 carrier assembly (41). vii) Remove seal rings (47) and (131).

41

30-82 0

CWD03089

D475A-3

DISASSEMBLY

3)


AND ASSEMBLY

Disassemble the No. 2, No.3 carrier assembly as follows. i) Remove sun gear (48). ii) Using eyebolts, remove plate and gear assembly (49).

CWD03090

iii) Remove (51) and iv) Remove assembly v) Remove

ring (50), and disassemble plate gear (52). plate (54) from No. 2, 3 carrier (53). seal ring (55) from plate.

5i

vi)

CWD03091

Remove shaft (56), ball (57), thrust washer (58), gear (59), and bearing (60).

57 :WD03092

vii) Using push tool, remove collar and bearing assembly (61) from carrier. viii)Using push tool, remove bearing (62).

D475A-3



ix) Using puller and push tool, remove bearing (63) and spacer (64) from collar (65). XI Remove seal ring (66).

-

13. No. 2 ring gear Remove

ring gear (67).

14. No. 2 housing, piston 1)

Using eyebolts, remove piston assembly (68).

el 2)

Remove

and

piston : 80 kg

No. 2 housing,

kg

No. 2 housing

piston (70) from housing

(69). CWD03095

-

15. No. 3 piston Remove

No. 3 piston (71).

16. Spring Remove

spring (72). I

17. Discs, plates, springs Remove discs (73), plates (741, and springs (75) in turn. * Keep the discs and plates in a flat place to prevent them from becoming deformed. -

-

18. Seat Remove

seat (76).

19. No. 3 housing Using eyebolts, E?lkg

remove

No. 3 housing

No. 3 housing

(77).

: 55 kg

20. No. 4 piston Remove No. 4 piston (78).

78 CWD03097 -

30-84 0

D475A-3

DISASSEMBLY

21. Spring Remove

AND ASSEMBLY

TORQFLOW

83

spring (79).

84

TRANSMISSION

132

22. Discs, plates, springs Remove discs (801, plates (811, and springs (82) in turn. Ir Keep the discs and plates in a flat place to prevent them from becoming deformed. 23. Guide pin Remove guide pin (83). CWD03098

24. Sun gear Remove snap ring (1321, then remove

sun gear

(84). 25. Plate, bearing 1) Using eyebolts, remove plate and bearing assembly (85). 2) Using push tool 0, remove bearing (87) from plate (86).

87

3) 4)

Using puller @ and push tool 0, remove bearing (88). Using push tool, remove bearing (90) from collar (89).

CWD03099

-

CWD03100

26. No. 3 ring gear 1) Remove ring gear (91). 2) Remove ring (92) from ring gear.

CWD03101

D475A-3

30-85 0



27. Plate, ring gear 1) Using forcing screws, remove plate and ring gear assembly (93). 2) Remove ring gear (94). 28. No. 4 carrier, No. 5 clutch assembly Using eyebolts, remove No. 4 carrier and No. 5 clutch assembly (95).

93 1) Disassemble the No. 4 carrier and No. 5 i) ii)

clutch assembly as follows. Remove 2 mounting bolts, then install guide bolts. Remove remaining mounting bolts, then loosen guide bolts @ slowly, and remove No. 4 carrier assembly (96) from No. 5 clutch assembly (97). &I kg

No. 4 carrier assembly, No. 5 clutch assembly : 160 kg

iii) Remove shaft (98), ball (99), thrust washer (IOO), gear (IOI), and bearing (102).

CWDO3104

iv) Remove spring (103) and pin (104). v) Remove discs (105), plates (106), and springs (107). * Keep the discs and plates in a flat place to prevent them from becoming deformed. vi) Remove guide pin (108). vii) Remove inner gear (109). viii)Remove seal ring (110) from inner gear.

Id!

1‘10

iO6

CWD03105

30-86 0



ix) Remove piston (112) from No. 5 housing (111). x) Remove spacer (113) and seal ring (I 14) from No. 5 housing. 29. Shaft Remove

shaft (115).

30. Shaft assembly Set case so that shaft is at bottom, then using eyebolts, remove shaft assembly (117) from case (116). &I kg

Shaft assembly:

80 kg

1) Disassemble i)

the shaft assembly as follows. Remove snap ring, then using eyebolts, sling shaft assembly, knock out bearing portion, and remove shaft assembly (118). CWD03107

ii) Remove cage (I 19). iii) Using stand @, remove

bearing

(120).

CWD03108

snap ring (1341, then iv) Remove bearing (121) from cage (133). VI vi)

remove

123

Remove seal ring (122). Remove

cover (123).

CWD03109

D475A-3

30-87 0

DISASSEMBLY

vii) Remove viii)Remove

AND ASSEMBLY


bearing (124). seal ring (126).

ix) Remove snap ring (1351, then remove boss and bearing (127). XI Remove snap ring (136), then using push tool, remove bearing (129) from boss (128).

CWD03111

30-88 0

D475A-3

DISASSEMBLY


AND ASSEMBLY

ASSEMBLY OF TORQFLOW TRANSMISSION ASSEMBLY Wash all parts in clean flushing oil (in particular, oil holes, etc.), then dry them, and check for dirt or damage. Coat the sliding surfaces of all parts with engine oil before installing. Set the seal ring with the side taking the pressure facing the housing, then coat with grease (G2-LI) and install uniformly so that it is positioned correctly. Align the notches of the oil groove when installing the discs.

DXD03204

Shaft assembly

F=l

I) Assemble the shaft assembly as follows. Install seal ring (126). ii) Using push tool, install baring (124).

i)

126 CWD03113

iii) Install cover (123). iv) Install seal ring (122). v) Install bearing (121) to cage (133) and secure with snap ring (134).

123

CWD03109

vi) Using push tool, press fit bearing (120). vii) Fit seal ring and install cage (119).

CWD031

D475A-3

30-89 0

TORQFLOW


TRANSMISSION

viii)Using eyebolts, sling shaft assembly (I 18), then press fit bearing, and secure with snap ring. 2)

Set the case so that the side for installing the steering assembly is at the top, then using eyebolts, install shaft assembly (117) in the case (I 16).

t-l 2.

CWD03107

No. 4 carrier, No. 5 clutch assembly 1) Assemble the No. 4 carrier and No. 5 clutch assembly as follows. i) Using push tool, install spacer (I 13) to No. 5 housing (I 11). ii) Install seal ring (114). iii) Install piston assembly (112) to No. 5 housing (111).

,113 .I14

CWDO3115

iv) Install seal ring (110) to inner gear. v) Install inner gear (109). vi) Install guide pin (108). vii) Install springs (107), plates (106), and discs (105) in turn. viihlnstall pin (104) and spring (103). Ir Free length of spring : 103.5 mm

Id!

1’10

iO8

CWD03105

ix) Assemble bearing (102) in gear (IOI), and fit thrust washers (100) to both sides, then set in position in carrier. ball (99) to shaft (98), and push x) Assemble shaft into carrier.

99

CWD03104

30-90 0

D475A-3

DISASSEMBLY

TORQFLOW

AND ASSEMBLY

TRANSMISSION

(96) to No. 5 xi) Set No. 4 carrier assembly clutch assembly (97), and using 2 guide bolts 0, compress spring, then tighten mounting bolts. Sr Check that the spring is fitted securely in the hole of the housing, then tighten the mounting bolts. & Mounting bolt : Thread tightener (LT-21 Q~~cI Mounting bolt : 157 - 196 Nm {IS - 20 kgml

2)

3.

Using eyebolts, install No. 4 carrier and No. 5 clutch assembly (95).

Plate, ring gear 1) Using eyebolts, align with dowel pin, then install plate (93). * To ensure that the plate is fitted facing in the correct direction, check the bolt hole, then knock in the dowel pin portion with a plastic hammer until there is no clearance at the mating surface. 2) Install ring gear (94).

4.

No. 3 ring gear 1) Install ring gear (92). 2) Install No. 3 ring gear (91).

5.

Plate, bearing 1) Using push tool, press fit bearing (90) collar (89). 2) Using push tool, press fit bearing (88).

95

CWD03102

-

in

3116

D475A-3

DISASSEMBLY

3)

4)

AND ASSEMBLY

TORQFLOW

TRANSMISSION

Using push tool, press fit bearing (87) in plate (86). * Set the large protrusion of the bearing assembly on top as shown in the diagram right, and install to the plate. Using eyebolts, install plate and bearing assembly (85).

CWD03117

mall

Protrusion

DXD03205

6.

Sun gear Install sun gear (841, and secure with snap ring (132).

7.

Guide pin Install guide pin (83).

8.

Discs, plates, springs Install springs (821, plates (81), and discs (80) in turn.

9.

Spring Install spring (79). * Free length of spring : 81.7 mm

-

CWD03098

10. No. 4 piston Fit seal ring and install No. 4 piston (78). 11. No. 3 housing Using eyebolts, housing (77).

fit seal ring and install

No. 3

12. Seat Install seat (76). CWD03097

30-92 0

DISASSEMBLY

TORQFLOW

AND ASSEMBLY

TRANSMISSION

13. Discs, plates, springs Install springs (751, plates (741, and discs (73) in turn. 14. Spring Install spring (72). + Free length of spring

: 84 mm

15. No. 3 piston Fit seal ring and install No. 3 piston (71). CWD03096

16. No. 2 housing, piston I) Fit seal ring, and install piston (70) to housing (69). 2) Using eyebolts, install No. 2 housing and piston (68). * Check that the spring is fitted securely in the hole of the housing.

67

68

17. No. 2 ring gear Install ring gear (67). CWD03095

18. Shaft, No. 1, 2, 3 carrier assembly 1) Assemble the No. 2, No. 3 carrier as follows. i) Install seal ring (66) to carrier. ii) Using push tool, press fit spacer (64) and bearing (63) in collar (65).

CWD0311!

iii) Using push tool, press fit bearing (62). iv) Using push tool, press fit collar and bearing (61) in carrier.

-

CWD03120

D475A-3

30-93 0

DISASSEMBLY


AND ASSEMBLY

VI Assemble bearing (60) in gear (591, then fit thrust washers

carrier. vi) Assemble

(58) to both sides, and set in

ball (57) to shaft (561, and push

shaft into carrier.

50 -

CWD03092

-

vii) Install seal ring (55) to plate. viiijlnstall plate (54) to No. 2, 3 carrier assembly (53).

ix) Set plate (51) to gear (521, and install ring (50).

CWD03121

Using eyebolts, install plate and gear assembly (49). xi) Install sun gear (461, and secure with snap ring. xl

CWD03090

2) i) ii)

Assemble the shaft and No. 1 carrier assembly as follows. Install seal ring (471, (131) to carrier. Assemble bearing (46) in gear (451, then fit thrust washers

(44) to both sides, and set in

carrier. iii) Assemble ball (43) to shaft (421, and push shaft into carrier case (41).

43 131

I 30-94 0

41

CWDO3089

D475A-3



iv) Install seal ring (40) to shaft (39). v) Install seal ring (38) to cage.

CWD03122

vi)

Using push tool, press fit bearing cage. vii) Press fit bearing (36) in shaft.

(37)

in

CWD03123

viii)Set spacer (35) to bearing and cage assembly (34), and press fit shaft (39).

ix) Using eyebolts, sembly (33). 3) i)

install

shaft

and cage

as-

Assemble the shaft and carrier assembly as follows. Using eyebolts, install shaft and No. 1 carrier assembly (31) to No. 2, 3 carrier assembly (32). Sr Align the sun gear with the tooth face of the planetary gear, and tap with a plastic hammer to install.

33 CWD03125

D475A-3

DISASSEMBLY

AND ASSEMBLY

TORQFLOW

TRANSMISSION

on its side, then install secure with snap ring

ii)

Set carrier assembly sun gear (301, and (130).

4)

Using eyebolts, install shaft and No. 1, 2, 3 carrier assembly (29) to housing.

19. Sleeve, guide pin I) Install guide pin (28). 2) Install sleeve (27). 20. Discs, plates, springs Install springs (26), plates (251, and discs (24) in turn. 21. Spring Install spring (23). Free length of spring : 112 mm * CWD03126

22. No. 1 housing, piston I) Fit seal ring and install piston (22) to housing (21). eyebolts, install No. 1 housing and Using 2) piston (20). Check that the spring is fitted securely in * the hole of the housing.

CWD03084

23. No. 1 ring gear Install ring gear (19). 24. Discs, plates, springs. Install springs (181, plates (171, and discs (16) in turn. 25. Spring Install spring (15). Free length of spring : 112 mm * CWD03083

30-96 0

D475A-3

DISASSEMBLY

TORQFLOW

AND ASSEMBLY

TRANSMISSION

26. Housing 1) Install seal ring (14) to housing. 2) Using eyebolts, set housing (13) in position. 3) Tighten 17 tie bolts (12) in turn. m Tie bolts: 353 - 392 Nm I 36 - 40 kgm)

14 CWD03082

27. Checking piston stroke Using tool D, check each piston stroke. *

Air pressure

: 0.5 - 0.6 MPa (5 - 6 kg/cm? Unit : mm

Piston

No. 1 (R)

I

1

Standard

stroke

7.4

CWD03127

y--g---

No. 5 (I)

I

7.1

28. Transmission case 1) Using eyebolts, install transmission 2) Install plate (IO).

case

(II).

CWD03081

D475A-3

30-97 0

DISASSEMBLY

AND ASSEMBLY

TORQFLOW

TRANSMISSION

29. Rotation detection shaft 1) Set case so that valve mounting surface is at top, then insert rotation detection shaft (115) from output end. * Check that the tip of the shaft is mated

with the lock portion of its mating boss.

28

2) 3)

Using push tool, install bearing (129) to boss (128), and secure with snap ring (136). Install boss and bearing assembly (127) to output shaft, and secure with snap ring (135). * Install the bearing slowly and be careful that shaft (115) is mated with the lock portion of boss (128).

127

i i CWD03129

30. Sleeve 1) Install sleeve (9). 2) Install plug (8).

CWD03130

31. Control valve assembly 1) Using eyebolts, install control valve assembly (2) together with seat. w Mounting bolt : 44 - 54 Nm I4.5 - 5.5 kgml & 2)

Mounting bolt with marked % (9 PCS): Gasket sealant (LG-5) Install filter assembly (I).

30-98 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

STEERING

CASE

DISASSEMBLY OF STEERING CASE ASSEMBLY 1.

Steering valve I) Remove

steering

valve assembly valve : 25 kg

Steering 2) 2.

Remove

(I).

seat (2).

Clutch, brake assembly Using tool El, sling clutch and brake assembly, then remove mounting bolts, and remove clutch and brake assembly (3). * Remove the clutch and brake assembly on the opposite side in the same way. When pulling out the clutch and brake assembly, be careful not to damage the discs and plates.

3.

left and right shafts (4).

Lubrication tube Remove

5.

CWD03132

Shafts Remove

4.

I

lubrication

tube (5).

Pipes 1) Remove 2) Remove

left and right pipes (6). pipe (7).

7

6.

CWD03134

Input shaft I) 2)

Remove cage assembly (8). Remove snap ring, and pull out input shaft (9) from case.

30- 100 0

DA75A-3

DISASSEMBLY

7.

8.

AND ASSEMBLY

STEERING

Transfer, gear housing assembly Fit guide bolt and screw in forcing screws then remove housing assembly (IO).

CASE

0,

Cage 1) Turn over so that right cage is at top, then remove bearing cage (II). * Check the number and thickness of the shims, and keep in a safe place.

CUD03136

2) 9.

Using eyebolts

0,

remove

Bevel gear, shaft assembly Using eyebolts, remove bevel assembly (13).

1) i) ii)

cage (12).

gear

and shaft

Disassemble the bevel gear and shaft assembly as follows. Pull out reamer bolt, and remove bevel gear (14) from shaft (15). Using puller 0, remove bearings (16) and (17) from shaft.

CUD03138

10. Cage 1) Turn over steering case, and remove bearing cage (18). * Check the number and thickness of the shims, and keep in a safe place. 2) Remove outer race (19) from bearing cage.

D475A-3


STEERING CASE

ASSEMBLY OF STEERING CASE ASSEMBLY *

Wash all parts, then dry them, and check for dirt or damage. Coat the sliding surfaces of all parts with engine oil before installing.

1.

Cage I) Using push tool, press fit outer race (19) 2) Assemble shim, and install bearing cage (18). Ir Standard shim thickness : 2 mm w Mounting bolt : 245 - 308.7 Nm (25 - 31.5 kgm1

2.

CWD03139

Bevel gear, shaft assembly I) Assemble bevel gear and shaft as follows. i) Using tool E2, press fit bearings (77) and (16). ii) Set bevel gear (14) to shaft (151, and tighten reamer bolt. m Reamer bolt : 490 - 607.6 Nm (50 - 62 kgm)

14 CWDO3140

iii) Using eyebolts, install bevel gear and shaft assembly (13). 3.

Cage 1) Using eyebolts 0, install cage (12). m Mounting bolt : 245 - 308.7 Nm I25 - 31.5 kgm}

_

2)

4.

I

CWD03137

Assemble shim, and install bearing cage (I 1). Ir Standard shim thickness : 2 mm m Mounting bolt : 245 - 308.7 Nm {25 - 31.5 kgm}

Adjusting preload Rotate bevel gear 2 - 3 turns, and fit push-pull scale @I to tip of teeth, then measure rotating torque of bevel gear shaft. * Standard value of rotating torque: 9.8 - 11.8 Nm {I .O - 1.2 kgm) /

30-l 02 0

CWD03141

D475A-3

DISASSEMBLY

5.

STEERING

AND ASSEMBLY

CASE

Transfer, gear housing assembly Fit guide bolt @ to steering case, and install housing assembly (IO). w Mounting bolt : 245 - 308.7 Nm (25 - 31.5 kgm}

:WD03142

6.

Adjusting tooth contact, backlash 1) Adjusting backlash Put the probe of dial gauge @ in contact with the tip of the bevel gear teeth at right angles. Hold the bevel pinion in position, and read the measurement when the bevel gear is moved forward and backward. * Standard value for backlash : 0.3 - 0.4 mm * Measure at a minimum of three points on diagonally opposite sides. Adjusting If the result of the inspection shows that the correct backlash is not being obtained, adjust as follows. 1, If backlash is too small: Adjust the shim thickness at the bevel pinion end to move the bevel pinion in direction A, or adjust the shim thickness at the bearing cage of the bevel gear shaft to move the bevel gear in direction B.

When

backlash

is small

BI)

3 ii)

*

D475A-3

If backlash is too large: Adjust the shim thickness at the bevel pinion end to move the bevel pinion in direction A (the opposite direction from A above), or adjust the shim thickness at the bearing cage of the bevel gear shaft to move the bevel gear in direction B (the opposite direction from B above). When adjusting the shim thickness at the bearing cage of the bevel gear shaft, do not change the preload of the bearing. Adjust by moving shims between the bearing cage and the bevel pinion. Always keep the same total thickness of shims.

When

DBD02993

backlash

is large

Q

‘V BC

\

\I

DBD02994

30-103 0

DISASSEMBLY

2)

AND ASSEMBLY

Adjusting tooth contact Testing Coat the tooth face of the bevel pinion i) lightly with red lead (miniurn). Rotate the bevel gear in both the forward and reverse directions, and inspect the pattern left on the teeth. ii) The standard tooth contact should be as follows: (from small end of pinion) a) Width of tooth contact: 30 - 75% b) Center of tooth contact: 20 - 40% c) Position of tooth contact: 20 - 40% It must be within the standard value when preload is given to the taper roller bearing which is supporting the bevel gear, and only the bevel pinion is meshed, with no load. The tooth contact should be in the center of the tooth height and there should be no strong contact at the root of the teeth. The contact should be in about the same position when the gear is rotated in forward or reverse.

STEERING

Dedendum

CASE

(root of tooth) \

Addendum

(tip of tooth)

\ Small end DBD02995

DAD02996

30-104 0

D475A-3


STEERING CASE

Adjustment If the result of the inspection shows that the correct tooth contact is not being obtained, adjust again as follows. If bevel pinion is too far from center line i) of bevel gear. Contact is at the small end of the convex tooth face of the bevel gear and at the big end of the concave tooth face. [Correct the tooth contact as follows.1 Adjust the thickness of the shims at the bevel pinion to move the bevel pinion in direction A. Or adjust the thickness of the shims at the bearing cage of the bevel gear shaft to move the bevel gear in direction B, then check the tooth contact pattern and backlash again. ii)

*

D475A-3

If bevel pinion is too close to center line of bevel gear. Contact is at the big end of the convex tooth face of the bevel gear and the small end of the concave tooth face. [Correct the tooth contact as follows.1 Adjust the thickness of the shims at the bevel pinion to move the bevel pinion in direction A (the opposite direction from A above). Or adjust the thickness of the shims at the bearing cage of the bevel gear shaft to move the bevel gear in direction B (the opposite direction from B above), then check the tooth contact pattern and backlash again. When adjusting the movement in or out of the bevel gear, do not change the preload of the bearing. Adjust by moving shims between the bearing cage and the bevel pinion. Always keep the same total thickness of shims.

t A DBDOO161

A DBDOOl62

30-105 0

DISASSEMBLY

STEERING

AND ASSEMBLY

7.

Input shaft 1) Assemble input shaft (9) in case, and secure with snap ring. 2) Install cage assembly (8).

8.

Pipes 1) Install pipe (7). 2) Install left and right pipes (6). * Coat the O-rings thinly with grease (G2LI), and be careful not to damage them when installing.

I 9.

Lubrication tube Install lubrication

tube (5).

10. Clutch, brake assembly Using tool El, install clutch and brake assembly (3). w

Mounting

bolt : 279 t 30 Nm 128.5 + 3 kgm}

11. Shafts Install left and right shafts (4). If it is difficult to insert the shafts with the * bevel locked, release the steering brake before inserting. 1) Remove plugs (201, then remove bolts (21), and tighten them in plug holes to compress clutch spring and release brake.

30-106 0

i

CASE

CWD03134


STEERING CASE

12. Steering valve 1) Install seat (2). Install steering valve assembly (1). m Mounting bolt : 44 - 54 Nm 14.5 - 5.5 kgm1

2)

D475A-3

30-107 0


STEERING CLUTCH, BRAKE

DISASSEMBLY OF STEERING CLUTCH, BRAKE ASSEMBLY Disconnection 1.

brake assembly

Collar Remove

2.

of clutch,

plate (I), then remove

collar (2).

Sleeve

1) Remove plate (3).

2) 3)

Using forcing screws 0, remove sleeve (4). Using puller 0, pull out bearing (5) from sleeve.

CWD03147

3.

Clutch, brake assembly Turn over clutch and brake assemblies, and using eyebolts 0, disconnect clutch assembly (6) and brake assembly (7).

30- 108 0

D475A-3

DISASSEMBLY

Disassembly 1. Stopper Remove 2.

AND ASSEMBLY

of clutch

stopper

STEERING

CLUTCH,

BRAKE

assembly

(8).

Discs, plates, springs Remove discs (9), springs (IO), and plates (11) in turn. * Keep the discs and plates in a flat place to prevent them from becoming deformed.

0 CWD03149

3.

4.

5.

Torque pin Remove torque

pin (12).

Clutch hub Using eyebolts,

remove

clutch hub (13).

Plate I) Using forcing screws 0,

remove flange (I 4).

12 CWD03150

2) 6.

Remove

outer race (15) from flange.

Bearing cage 1) Remove bearing

cage assembly

(16).

CWDO3151

2)

7.

8.

Remove plate (18) and nut (191, then remove bearings (20) and (21) from cage (17).

Spacer Remove

spacer (22).

Clutch cage, piston I) Using eyebolts, remove 2) Remove piston (24).

D475A-3

clutch cage (23).


3) 9.

Remove


outer race (25) from clutch cage.

Belleville springs Remove Belleville

springs

(26).

CWD03153

IO. Brake hub I) Using eyebolts 0, remove brake hub (27). 2) Remove bearing (28) from brake hub.

CWD03154

30-110 0

D475A-3

DISASSEMBLY

Disassembly 1.

2.

Stopper Remove

STEERING

AND ASSEMBLY

of brake

stopper

assembly

CLUTCH,

-

(29).

Discs, plates, springs Remove discs (30), springs (31), and plates (32) in turn. * Keep the discs and plates in a flat place to prevent them from becoming deformed. CWD03155

3.

Brake cage I) Using eyebolts @, remove brake cage (33). 2) Remove outer race (34) and seal ring (35) from brake cage.

-

3i

4.

5.

Torque pin Remove torque Piston Remove

CWD03156

pin (36).

piston (37) and seal ring (38).

6.

BRAKE

Belleville springs Remove Belleville

springs

CWD03157

(39).

CWD03158

DA75A-3

DISASSEMBLY

AND ASSEMBLY

STEERING

CLUTCH,

BRAKE

ASSEMBLY OF STEERING CLUTCH, BRAKE ASSEMBLY Assembly 1.

of brake assembly

Belleville springs Install Belleville springs (39). * Fit the Belleville springs back to back when installing.

CWD03158

2.

Piston Fit seal ring (38) and install piston (37).

3.

Torque pin Install torque

pin (36).

CWD03157

4.

Brake cage 1) Using push tool, install outer race (34) to brake cage. 2) Install seal ring (35). 3) Using eyebolts 8, install brake cage (33). m Mounting bolt : 245 - 308.7 Nm I25 - 31.5 kgm}

35,

5.

Discs, plates, springs Install plates (32), springs (311, and discs (30) in turn. Ir Check the mating surfaces of the discs and plates for dirt or damage, and coat them thinly with engine oil before assembling.

6.

Stopper Install stopper (29). m Mounting bolt : 245 - 308.7 Nm I35 - 31.5 kgm}

CWD03156

CWD03155

30-l 12 0


Assembly 1.

of clutch


assembly

Brake hub I) Using push tool, press fit bearing (28) in brake hub. 2) Using eyebolts 0, install brake hub (27) to clutch housing.

7

CWD03154

2.

Belleville springs Install Belleville springs (26). Sr Fit the Belleville springs back to back when installing.

3.

Clutch cage, piston 1) Install outer race (25) to clutch cage.

CWD03153

2) 3)

Install piston (24). Using eyebolts, fit seal ring and install clutch cage (23) to housing.

4.

Spacer Install spacer (22).

5.

Bearing cage 1) Using push tool, press fit bearings (21) and (20) to cage (171, then tighten nut (191, and install plate (18). Ir Hold the cage with press, and using a hook wrench, tighten the nut. m Nut : 490 - 607.6 Nm I50 - 62 kgml 2) Install bearing cage (16).

6.

Plate 1) Using push tool, press fit outer race (15) to flange.

D475A-3

19 23

24

CWD03152

16

DISASSEMBLY

2)

AND ASSEMBLY

STEERING

CLUTCH,

BRAKE

Install flange (14). m Mounting bolt : 245 - 308.7 Nm I25 - 31.5 kgml

7. Clutch hub

Set guide bolts to housing, and using eyebolts, install clutch hub (13). 8. Torque

pin

Install torque pin (12). i2 CWD03159

9. Discs, plates,

springs

Install plates (II), springs (IO), and discs (9) in turn. Ir Check the mating surfaces of the discs and plates for dirt or damage, and coat them thinly with engine oil before assembling. 10. Stopper

Install stopper (8). w Mounting bolt : 245 - 308.7 Nm I25 - 31.5 kgm}

Y

il

IO CWD03149

30-114 0

D475A-3

DISASSEMBLY

Connection 1.


AND ASSEMBLY

of clutch,

brake assembly

Clutch, brake assembly Using eyebolts 0, install brake assembly clutch assembly (6).

2.

Sleeve I) Using push tool 0, sleeve.

2)

Set sleeve blies.

press fit bearing

(4) to clutch

and brake

(7) to

(5) in

assem-

CWD03161

3)

3.

Install plate (3). w Mounting bolt : 112 + 9.8 Nm Ill.5

+ 1.0 kgml

Collar Fit collar (2) and install plate (I).

CWD03146

D475A-3

30-115 0


TRANSFER

GEAR HOUSING

DISASSEMBLY OF TRANSFER GEAR HOUSING ASSEMBLY *

Set the transfer

gear

housing

assembly

on a

block. 1. Lubrication tube Remove lubrication

2.

tube (I) together

with block.

Bearing cage I) Remove bearing cage (2). 2) Using push tool, remove bearing (3). 3) Remove snap ring, and using push tool, remove bearing (4)

3.

Transfer gear 1) Remove transfer 2)

Using puller 0, both sides.

gear (5). remove inner

races (6) on

5 CUD03163

4.

Pinion housing 1) Remove lubrication 2)

tube (7). Using eyebolts 0, remove pinion housing assembly (8). Ir Check the number and thickness of the

slims, and keep in a safe place.

8

5.

CUD03164

Pinion assembly

1) Using forcing screws, remove cover (9). 2) Remove holder (IO). 3) 4)

Push pinion shaft with press, then pull out pinion gear (11). Remove holder, and using puller 0, remove inner race (12) from pinion gear (11).

30-116 0

D475A-3

DISASSEMBLY

5) 6)

Remove Remove

AND ASSEMBLY

cage, bearing assembly collar (14) from transfer

TRANSFER GEAR HOUSING

(13). gear (15).

CWD03166

7)

Using push tool 0, remove outer race (16), bearings (17) and (18), collar (191, and outer race (20).

CWDO3167

D475A-3

30-117 0

DISASSEMBLY

AND ASSEMBLY

TRANSFER

GEAR HOUSING

ASSEMBLY OF TRANSFER GEAR HOUSING ASSEMBLY 1.

Pinion assembly I) Using push-tool, press fit outer race (20) in bearing cage. 2) Assemble collar (191, bearing inner races (17) and (18). 3) Using push tool, press fit bearing outer race (16). 18

20 cwrJo3168

4)

5)

6) 7‘1

8)

Using push tool 0, press fit inner race (12) in pinion gear (II), and install holder. w Holder mounting bolt : 245 - 308.7 Nm 125 - 31.5 kgm} Install transfer gear (15) and collar (14) to pinion gear.

Using push tool, press fit cage, bearing assembly (13). Install holder (IO). w Holder mounting bolt : 245 - 308.7 Nm {25 - 31.5 kgm1

Install cover (9) as follows. Tighten cover mounting bolts temporarily in the order shown in diagram on right. (Approx. 49 Nm (5 kgm1) l Check clearance A between cover and cage, and check that it is as follows. Clearance A : 0.53 r 0.47 mm * Check that the variation around the whole circumference is less than 0.05 mm. Check also that the bearing is completely press fitted and is not at an angle. . After checking the above, tighten the mounting bolts of cover (9) in the order shown in the diagram on the right. m Mounting bolt : 58.8 - 73.5 Nm 16 - 7.5 kgm1 l

30-l 18 0

CWD03171

DISASSEMBLY

2.

TRANSFER

AND ASSEMBLY

Pinion housing 1) Assemble shim, and using eyebolts stall pinion housing assembly (8). -f Standard shim thickness: 2 mm 2) Install lubrication tube (7).

0,

GEAR HOUSING

in-

1

8

3.

Transfer gear I) Using push tool 0, press fit inner races (6) on both sides. 2) Set transfer gear (5) in case.

4.

Bearing cage 1) Using push tool, press fit bearing (41, and secure with snap ring. 2) Using push tool, press fit bearing (3). 3) Install bearing cage assembly (2) to case. w Mounting bolt : 245 - 308.7 Nm I25 - 31.5 kgm}

5.

Lubrication tube Install lubrication

D475A-3

tube (I) together

CWD03164

with block.

30-119 0


POWER TRAIN PUMP

REMOVAL OF POWER TRAIN PUMP ASSEMBLY 1.

Remove oil strainer inspection of operator’s platform.

cover at front left

2.

Open undercover.

3.

Remove oil strainer (1). Ir Disconnect coupling (2) and remove mounting bolts.


4.

Disconnect

5.

Lift off power train pump assembly

strainer

hose (3).

Power train pump assembly

(4).

: 60 kg

INSTALLATION OF POWER TRAIN PUMP ASSEMBLY l


30-120 0

in the

reverse

order

to

D475A-3

DISASSEMBLY

SCAVENGING

AND ASSEMBLY

PUMP

REMOVAL OF SCAVENGING PUMP ASSEMBLY 1.

Open undercover.

2.

Disconnect inlet tube (I). * Oil will leak out from inside the piping, prepare a container to catch the oil.

3.

Disconnect

4.

Remove


so

outlet tube (2).

scavenging Scavenging

pump assembly pump assembly

(3).

: 25 kg

INSTALLATION OF SCAVENGING PUMP ASSEMBLY .


.

Refilling with oil (power train case) Add oil through the oil filler to the specified level, and run the engine to circulate the oil through the system. Then check the oil level again.

D475A-3

in the

reverse

order

to

30-121 0

TORQUE CONVERTER OIL COOLER


REMOVAL OF TORQUE CONVERTER OIL COOLER 1.

Remove

2.

Drain coolant.

3.

Open engine cover (2).

engine

undercover.

left side cover (I) and remove

side

\ 4.

Remove

'2

CWD02941

water tubes (3) and (4).

I 5.

Remove

6.

Sling torque converter oil cooler then lower assembly to remove.

CWD02942

oil inlet tube (5) and outlet tube (6).

Torque

converter

assembly

(71,

oil cooler assembly : 170 kg

I

CWD02943

INSTALLATION OF TORQUE CONVERTER OIL COOLER l

.


in the

reverse

order

to


30- 122 0

D475A-3

DISASSEMBLY

TORQUE

AND ASSEMBLY

CONVERTER

VALVE

REMOVAL OF TORQUE CONVERTER VALVE ASSEMBLY 1. Remove operator’s cab assembly. For details, see REMOVAL OF OPERATOR’S ASSEMBLY.

CAB

2.

Remove operator’s seat and floor frame cover. * Use turnbuckle (I) when disconnecting the brake rod. Check the mounting dimensions m of the rod before disconnecting.

3.

Disconnect

4.

Disconnect central pressure detection hose (3). Sr Before removing the pressure detection hoses, mark them with tags to prevent any mistake in the mounting position when installing.

5.

Disconnect

6.

Remove

connector

of solenoid

valve (2).

hose (4).

torque

converter

valve assembly

(5).

pYi2J

el

Torque

kg

converter

valve assembly

: 25 kg

INSTALLATION OF TORQUE CONVERTER VALVE ASSEMBLY l


j,

reverse

order

to

Adjust the brake pedal linkage. For details, see TESTING AND ADJUSTING, Adjusting brake pedal linkage. m Turnbuckle locknut : 34.3 - 58.8 Nm 13.5 - 6 kgml

m

D475A-3

in the

Torque converter valve assembly mounting bolt : 43.1 - 53.9 Nm 14.4 - 5.5 kgm1

30-123 0

DISASSEMBLY

DISASSEMBLY 1.

Disassembly I) Remove 2) Remove 3) Remove 4) Pull out

TORQUE

AND ASSEMBLY

OF TORQUE CONVERTER

of lock-up valve solenoid valve (1). cover (21, then remove cover (41, then remove spool (6).

CONVERTER

VALVE

VALVE ASSEMBLY

spring (3). piston (5).

2.

Disassembly of torque converter relief valve 1) Remove cover (71, then remove spring (8). 2) Remove cover (91, then remove valve (IO), spring (II), and valve (12). 3) Pull out spool (13).

3.

Disassembly of main relief valve 1) Remove cover (14L then remove spring (I 5). 2) Remove cover (161, then remove valve (171, spring (181, and valve (19). 3) Pull out spool (20).

4.

Disassembly of stator clutch modulating valve 1) Remove cover (211, then remove piston (22) and spring (23). 2) Remove- ring (24) from body. 3) Remove cover (251, then remove valve (26), spring (271, and valve (28). 4) Pull out spool (29).

5.

Disassembly of lock-up clutch modulating valve I) Remove cover (30), then remove piston (31) and spring (32). 2) Remove ring (33) from body. 3) Remove cover (34), then remove valve (351, spring (361, and valve (37). 4) Pull out spool (38). 5) Remove spool (39) and shim (40) from spool (38).

30-124 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

TORQUE CONVERTER VALVE

4

‘5

7 \

CDD02150

D475A-3

30-125 0

DISASSEMBLY

AND ASSEMBLY

TORQUE

CONVERTER

VALVE

ASSEMBLY OF TORQUE CONVERTER VALVE ASSEMBLY *

Ir

1.

Clean all parts, and check for dirt or damage. Coat the sliding surfaces of all parts with engine oil before installing. When assembling valves (37) and (35L (28) and (26), (19) and (17), and (12) and (IO), assemble as shown in.the diagram so that the end with the hole in the center of the valve is on the inside of the spool. Assembly of lock-up clutch modulating valve 1) Set shim (40) td spool (39) and assemble to spool (38). Ir Standard shim thickness : 2.0 mm 2) Assemble spool (38). 3) Assemble valve (37), spring (361, and valve (35) to spool, then fit O-ring and install cover (34). Assemble ring (33) to body. Assemble spring (32). Assemble piston (31) to cover (30), then fit O-ring and install cover. Assembly of stator clutch modulating valve 1) Assemble spool (29). 2) Assemble valve (281, spring (271, and valve (26) to spool, then fit O-ring and install cover 4) 5) 6)

2.

CED02152

(25). Assemble ring (24) to body. Assemble spring (23). Assemble piston (22) to cover (211, then fit O-ring and install cover. Assembly of main relief valve 1) Assemble spool (20). 2) Assemble valve (191, spring (18), and valve (17) to spool, then fit O-ring and install cover 3) 4) 5)

3.

(16). Assemble spring (15), then fit O-ring and install cover (14). Assembly of torque converter relief valve 1) Assemble spool (13). 2) Assemble valve (121, spring (II), and valve (IO) to spool, then fit O-ring and install cover 3)

4.

(9). Assemble spring (81, then fit O-ring and install cover (7). Assembly of lock-up valve I) Assemble spool (6). 2) Assemble piston (5) to cover (41, then fit Oring and install cover. 3) Assemble spring (31, then fit O-ring and install cover (2). 4) Fit O-ring and install solenoid valve (I). 3)

5.

30- 126 0

D475A-3

DISASSEMBLY

TRANSMISSION

AND ASSEMBLY

CONTROL

VALVE

REMOVAL OF TRANSMISSION CONTROL VALVE ASSEMBLY 1. Remove operator’s cab assembly. For details, see REMOVAL OF OPERATOR ASSEMBLY.

CAB’S

2. Remove operator’s seat and floor frame cover. Ir Use turnbuckle (I) when disconnecting the brake rod. Check the mounting dimensions a of the rod before disconnecting.

3. Disconnect

clamps

(2) and (3).

4. Disconnect

rod (4).

5. Disconnect

rod (5) at servo valve output

6. Disconnect

2 hoses (6).

directional control 7. Disconnect speed control cable (8).

cable

end. ,KJ

(7) and

8. Remove bracket assembly (9). . Remove together with the servo valve. 9. Remove

bracket (IO).

IO. Disconnect

wiring

harness

connector

(I 1).

11. Disconnect central pressure detection hose (12). * Before removing the pressure detection hoses, mark them with tags to prevent any mistake in the mounting position when installing. control valve (13). 12. Remove transmission Ir Do not remove the 2 bolts marked %. &I kg

D475A-3

Transmission

a

control valve assembly : 80 kg

30-127 0


TRANSMISSION

CONTROL VALVE

INSTALLATION OF TRANSMISSION CONTROL VALVE ASSEMBLY l


in the

reverse

order

to

Ir

Adjust the brake pedal linkage. For details, see TESTING AND ADJUSTING, Adjusting brake pedal linkage. w Turnbuckle locknut : 34.3 - 58.8 Nm {3.5- 6 kgm}

Ir

Adjust the servo valve output portion. For details, see TESTING AND ADJUSTING, Adjusting steering lever.

w

&

Mounting

bolt : 44 - 54 Nm I4.5 - 5.5 kgm} Mounting bolts marked % (x7):

Gasket sealant (LG-5)

CWD03177

30-128 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

TRANSMISSION

CONTROL

VALVE

DISASSEMBLY OF TRANSMISSION CONTROL VALVE ASSEMBLY 1.

Remove 3 mounting bolts, then remove speed and direction selector valve assembly (I). a

2.

Remove 2 mounting bolts, then remove upper valve assembly (2) from lower valve assembly m (3).

Upper valve assembly

i7

30- 130 0

CWD03178

D475A-3


Lower

valve

TRANSMISSION

CONTROL VALVE

assemble

1st

valve

I ve

REVERSE Speed

and

directional

valve

valve

assembly

a

DXD03206

D475A-3

30-131 0

DISASSEMBLY

AND ASSEMBLY

TRANSMISSION

CONTROL

VALVE

Disassembly of upper valve assembly . Disassembly of transmission lubrication valve assembly 1) Remove plug (6), then remove spring (7), and valve assembly (8). 2) Remove plate (91, then remove valve (IO), spring (11) and stopper (12). 3) Remove valve (141, spring (15) and valve (16) from valve assembly (8).

.

Disassembly of modulating valve assembly 1) Remove plate (171, then using forcing screws (Dia. = IO mm, pitch = 1.5 mm), remove stopper (18). 2) Remove valve (191, spring (20) and valve (21), then remove valve (221, and shims (23) and

3) 4)

l

(24). * Check the number and thickness of the shims, and keep in a safe place. Remove plate (251, then remove boss (26) and valve (27). Remove plug (28) from valve. Remove plate (291, then remove piston (301, springs (31) and (32).

Disassembly of pilot valve assembly I) Remove plug (341, and spring (351, then remove valve (36). 2) Remove plate (371, valve (381, spring (39) and valve (40). Remove valve (41), shim (421, springs (43) and (441, and stopper (45). * Check the number and thickness of the shims, and keep in a safe place. 3) Remove valve (471, spring (48) and valve (49) from valve (36).

Disassembly of lower valve assembly I) Remove spring (50). 2) Remove plate (51), then remove and valve (53). Disassembly I) Remove 2) Remove 3) 4) 5) 6) 7) 8)

stopper

(52)

of speed and direction selector valve cover (54). spring (55) and pull out shaft assembly

(56). Remove plug (57), then remove spring (58) and ball (59). Loosen lock nut (601, then remove yoke (61). Remove cover (62), and pull out direction selector valve (63). Remove lever (64) and pull out shaft assembly (651, then remove washers (66) and (67). Loosen lock nut (681, the remove yoke (69). Remove speed selector valve (70).

30-132 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

TRANSMISSION

CONTROL

VALVE

ASSEMBLY OF TRANSMISSION CONTROL VALVE ASSEMBLY *

Clean all parts, and check for dirt or damage. Coat the sliding surfaces of all parts with engine oil before installing.

1.

Assembly of speed, direction selector valve assembly 1) Assemble speed selector valve (70). 2) Install yoke (69) to valve. 3) Align washer (66) with shaft hole, then align with yoke and install shaft assembly (65). 4) Rotate valve (70) so that length from end face of valve to center of shaft pin is 29.2 mm, then tighten lock nut (68) to hold in position. 5) Assemble direction selector valve assembly

29.1+0.3mm/J

M29.2f0.3mm

CWD03181

(63). Install yoke (61) to valve. Align washer (67) with shaft hole, then align lever (64) with detent of shaft assembly, and set in position. Install shaft assembly (56). 8) Rotate valve (63) so that length from end face of valve to center of shaft pin is 29.1 mm, then tighten lock nut (60) to hold in position. 9) Align groove of valve, then install ball (591, spring (58) and plug (57). Ir After installing, check that the valve works properly. IO) Install spring (55), then fit gaskets and install covers (62) and (54). 6) 7)

2.

3.

Assembly of lower valve assembly 1) Assemble valve (53). 2) Fit O-ring and assemble stopper install plate (51). 3) Assemble spring (50).

(52), then

Assembly of upper valve assembly . Pilot valve 1) Assemble valve (491, spring (48) and valve (47) in valve (46). 2) Assemble stopper (451, spring (44) and spring (43). Fit shim (42) and assemble valve (411, valve (401, spring (39) and valve (38). 3) Fit O-ring and install plate (37). * Shim thickness: Assemble 6 x 0.5 mm shims 4) Assemble valve assembly (36) and spring (351, fit O-ring and install plug (34).

D475A-3

30- 133 0

DISASSEMBLY

.

TRANSMISSION

CONTROL

VALVE

Modulating valve I) Assemble springs (32) and (31) and piston (30), fit O-ring and install plate (29). 2) Fit O-ring and assemble boss (261, then align with dowel pin and install plate 3)

4)

.

AND ASSEMBLY

(25). Screw plug (28) into valve (271, then assemble in valve body, fit O-ring and install stopper (18). Fit shims (24) and (23) and assemble valves (22) and (211, spring (20) and valve (191, then fit O-ring and install plate (17). Ir Shim thickness: 0.5 mm x 6 (Large) 0.5 mm x 2 (Small)

Assembly of transmission lubrication valve assembly 1) Assemble valve (16), spring (15) and valve (14) in valve (13). 2) Assemble stopper (121, spring (11) and valve (IO), then fit O-ring and install plate 3)

(9). Assemble valve assembly (8) and spring (71, then fit O-ring and install plug (6).

4.

Fit gasket and install upper valve assembly (2) to lower valve assembly (3) with 2 mounting bolts. (marked %) m Mounting bolt: 44 - 54 Nm I4.5 - 5.5kgm}

5.

Fit O-ring and install speed and direction selector valve assembly (I) with 3 mounting bolts. (marked A) m Mounting bolt: 44 - 54 Nm (4.5 - 5.5kgm}

2

30-134 0

I

3

2

CWD03180

D475A-3

DISASSEMBLY

STEERING

AND ASSEMBLY

CONTROL

VALVE

REMOVAL OF STEERING CONTROL VALVE ASSEMBLY 1. Remove fuel tank assembly. For details, see REMOVAL OF FUEL TANK SEMBLY.

m

2.

Remove

brake rod (I).

3.

Disconnect

4.

Disconnect parking brake cable (3). Ir Measure the dimension of the bracket portion.

steering

AS-

control

m

rod (2).

‘5

5.

Disconnect

6.

Remove &I kg

m mounting

3182

2 hoses (4).

steering Steering

control valve assembly control valve assembly

(5). a : 25 kg

INSTALLATION OF STEERING CONTROL VALVE ASSEMBLY l


in the

reverse

order

to



Adjust the installation dimension at the bracket portion to the dimension measured when removing. Bend the cotter pin securely.

w

D475A-3

Steering control valve assembly mounting bolt : 44 - 54 Nm 14.5 - 5.5 kgml

30- 135 0

DISASSEMBLY

DISASSEMBLY 1.

2.

STEERING

AND ASSEMBLY

control assembly steering control assembly

(1).

(2).

3.

Parking brake valve 1) Remove body (3), then remove piston (4). 2) Remove spring (5), then remove valve (6).

4.

Valve cover 1) Remove nuts (7) and (8). 2) Remove cover (9).

5. Clutch valve 1) Remove plug (IO), then remove spring 2) Push in valve from cover mounting face then remove piston (12), valve (13), and assembly (14). 3) Disassemble shaft assembly as follows. i) Remove nut (15), then remove guide ii) Remove shim (17) from guide (16). iii) Remove spring (18) and guide (19) bolt (20). 4) Remove cylinder (21). 6.

Brake valve 1) Remove plug (22), then remove spring 2) Push in valve from cover mounting face then remove piston (24), valve (25), and assembly (26). 3) Disassemble shaft assembly as follows. i) Remove nut (27), then remove guide ii) Remove shim (29) from guide (28). iii) Remove spring (30) and guide (31) bolt (32). 4) Remove cylinder (33).

30-136 0

VALVE

OF STEERING CONTROL VALVE ASSEMBLY

Parking brake control assembly Remove parking brake control assembly Steering Remove

CONTROL

(II). end, shaft

(16). from

(23). end, shaft

(28). from

D475A-3



CWD02848

D475A-3

30- 137 0

DISASSEMBLY

AND ASSEMBLY

ASSEMBLY

STEERING

CONTROL

VALVE

OF STEERING CONTROL VALVE ASSEMBLY

*


1.

Brake valve I) Install cylinder (33) to valve body (34). 2) Assemble shaft assembly as follows. i) Assemble guide (31) and spring (30) to bolt (32). ii) Assemble shim (29) to guide (28) and install to bolt (32). Ir Shim thickness : 0.5 mm iii) Install nut (27). w Nut: 13.25 + 1.45 Nm Il.35 t 0.15 kgml 3) Insert shaft assembly (26). valve (25), and piston (24) into body (34) from plug mounting surface end. 4) Fit spring (231, then fit O-ring and install

5.

Steering control assembly Install steering control assembly (2). w Mounting bolt : 49.0 t 4.9 Nm I5.0 t. 0.5 kgm}

6.

Parking brake control assembly Install parking brake control assembly (I). m Mounting bolt : 49.0 1 4.9 Nm 15.0 +. 0.5 kgm}

plug Cm w Plug : 68.6 2 9.8 Nm I7 + 1 kgml 2.

Clutch valve 1) Install cylinder (21). 2) Assemble shaft assembly as follows. i) Assemble guide (19) and spring (18) to bolt (20). ii) Assemble shim (17) to guide (16) and install to bolt (20). * Shim thickness : 0.5 mm iii) Install nut (15). -Nut : 13.25 = 1.45 Nm Il.35 L 0.15 kgm} 3) Insert shaft assembly (14), valve (131, and piston (12) into body (34) from plug mounting surface end. 4) Fit spring (1 I), then fit O-ring and install plug (IO). w Plug : 68.6 2 9.8 Nm (7 + 1 kgm}

3.

Valve cover I) Install cover (9). 2) Install nuts (8) and (7). s /u: : Thread tightener (LT-2) Urn u : 13.25 f 1.45 Nm II.35 t 0.15 kgml

4.

Parking brake valve I) Assemble valve (6) and install spring (5). 2) Assemble piston (41, then fit O-ring and install body (3).

30- 138 0

D475A-3


io

D475A-3


CWDO2848

30-139 0


FINAL DRIVE

REMOVAL OF FINAL DRIVE ASSEMBLY Serial No.: 10601 – 10684 1. Remove track shoe assembly. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Raise chassis with jack or ripper and set stand 1 under frame. 3. Remove covers (1) and (2). 4. Remove cover (3), then using forcing screw, pull out drive shaft (4). 1 fl If the shaft will not come out, set a jack on the ground and push the shoe grouser up, then move the sprocket to the front or rear to a position where the shaft will come out, and remove the shaft. fl Pull the shaft out to a position where it contacts the sprocket. 5. Remove 3 bolts of final drive and install tool J1. 6. Sling final drive assembly (5), then remove mounting bolts, and lift off. 2 4 Final drive assembly : 3,600 kg

INSTALLATION OF FINAL DRIVE ASSEMBLY Serial No.: 10601 – 10684 • Carry out installation in the reverse order to removal. 1 fl If the shaft will not go in, set a jack on the ground and push the shoe grouser up, then move the sprocket to the front or rear to a position where the shaft will go in, and install the shaft. 2 2 Final drive assembly mounting bolt : Thread tightener (LT-2) 3 Final drive assembly mounting bolt : 1,960 – 2,450 Nm (200 – 250 kgm) • Refilling with oil (final drive case) Add oil through the oil filler to the specified level. 5

30-140 2 6

Final drive case : 71 ¬ (GO140)

D475A-3


FINAL DRIVE

REMOVAL OF FINAL DRIVE ASSEMBLY Serial No.: 10685 and up 1. Remove track shoe assembly. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Raise chassis with jack or ripper and set stand 1 under frame. 3. Remove covers (1) and (2). 4. Remove cover (3), then using forcing screw, pull out drive shaft (4). 1 fl If the shaft will not come out, set a jack on the ground and push the shoe grouser up, then move the sprocket to the front or rear to a position where the shaft will come out, and remove the shaft. fl Pull the shaft out to a position where it contacts the sprocket. 5. Remove 3 bolts of final drive and install tool J1. 6. Sling final drive assembly (5), then remove mounting bolts, and lift off. 2 4 Final drive assembly : 3,600 kg

INSTALLATION OF FINAL DRIVE ASSEMBLY Serial No.: 10685 and up • Carry out installation in the reverse order to removal. 1 fl If the shaft will not go in, set a jack on the ground and push the shoe grouser up, then move the sprocket to the front or rear to a position where the shaft will go in, and install the shaft. 2 2 Final drive assembly mounting bolt : Thread tightener (LT-2) 3 Final drive assembly mounting bolt : 1,960 – 2,450 Nm (200 – 250 kgm) • Refilling with oil (final drive case) Add oil through the oil filler to the specified level. 5

D475A-3

Final drive case : 71 ¬ (GO140)

30-140-1 6

DISASSEMBLY

FINAL DRIVE

AND ASSEMBLY

DISASSEMBLY OF FINAL DRIVE ASSEMBLY 1.

Draining oil Remove drain plug and drain oil from final drive case. -

2.

3.

:

Final drive case : Approx.

Sprocket 1) Set final drive assembly approx. 50 mm). 2) Remove sprocket (I).

Cover Using eyebolts

0,

remove

71 e

to block

(height:

cover (2).

CED01622

4.

Hub 1) Remove plate (3). 2) Using eyebolts 0,

lift off hub (4).

CED01623

5.

Sprocket hub assembly 1) Remove holder (5). j, Check the number and thickness shims, and keep in a safe place.

CED01624

of the

CED01625

D475A-3

30-l 41 0

DISASSEMBLY

6.

Wear guard Lift off wear guard (13).

7.

Cover assembly 1) Using eyebolts,

2)

FINAL DRIVE

AND ASSEMBLY

lift off cover assembly

(14).

-

Disassemble cover assembly as follows. i) Remove floating seal cover (15). ii) Remove floating seal (16) from floating seal cover. * Keep the floating seal in a safe place to protect it from damage.

CWD03186

iii) Remove space race (18).

(17)

and

bearing

inner

r

I iv) Remove

plate,

then

remove

ring gear

(19). 8.

Carrier assembly 1) Using eyebolts (20).

D475A-3

0,

remove

carrier assembly

CWD03187

DISASSEMBLY

2)

FINAL DRIVE

AND ASSEMBLY

Disassemble carrier assembly as follows. i) Set carrier assembly on block (height: approx. 100mm). ii) Remove holder (21). iii) Using tool 57, remove planetary gear shaft (22).

J7

CED01638

iv) Remove planet gear (231, bearing inner races (24A) and (24B), and spacer (240.

24 B

v)

Remove

bearing

24c

24 A

CED01639

outer race (24D).

CED01640

9.

Sun gear I) Remove plate (25). 2) Remove holder (26). 3) Pull out sun gear shaft assembly

(27).

CWD03189

30-144 0

FINAL DRIVE


4)

Remove holder (51) from sun gear shaft assembly, and pull out sun gear (52)

10. Hub, shaft assembly 1)

Remove

plate (28).

3i CWDO3191

2)

Using tool J5, pull out hub assembly (29) and bearing inner race (30) from shaft assembly

(31).

CED01643

3)

D475A-3

Disassemble i) Remove ii) Remove (34B).

hub assembly (29) as follows. gear (32) from hub (33). bearing outer races (34A) and

CED01644

DISASSEMBLY

4) 5)

AND ASSEMBLY

FINAL DRIVE

Using eyebolts @, pull out shaft assembly (31) from case. Disassemble shaft assembly as follows. i) Remove collar (36). ii) Remove bearing inner race (37) and collar (38).

CED01648

CED01647

11. Cage assembly 1) Using eyebolts 2)

0,

remove

cage

assembly

(39). Remove shims (40). * Check the number and thickness shims, and keep in a safe place.

of the

CED0164S

3)

Disassemble cage assembly as follows. i) Using puller 8, remove bearing outer race (41). ii) Remove oil seals (42) and (43).

CEDOl650

4

42

43 CED01652

12. Gear assembly 1) Remove gear assembly (44). 2) Using puller 0, remove bearing (45) and (46) from gear (47).

inner races

CED01653

30-146 0

CED01654

D475A-3


FINAL DRIVE

13. Outer race, oil seals I) Using puller @, remove bearing outer race (48). 2) Remove oil seals (49) and (50) from cover.

49

* 50 CEDOl655

D475A-3

CED01656

30-147 0

DISASSEMBLY

AND ASSEMBLY

ASSEMBLY

FINAL DRIVE

OF FINAL DRIVE

*


1.

Hub, shaft assembly 1) Assemble shaft-assembly as follows. i) Install collar (38). ii) Using push tool 0, press fit bearing ner race (37). iii) Install collar (36).

in-

2) Using eyebolts 8, install shaft assembly (31) 3)

CED01648

CED01668

-

to case. Assemble hub assembly as follows. i) Using push tool, press fit bearing outer races (34A) and (34B) to hub (33).

ii)

4)

5)

Set gear (32) to hub (33). & Mounting bolt : Thread tightener (LT-2) w Mounting bolt : 823 - 1,029 Nm {84 - 105 kgm} Set shaft assembly (31) and hub assembly (29) in position, then using tool J6, press fit bearing (30) portion.

Install plate (28). & Mounting w

bolt : Thread tightener (LT-2) Mounting bolt : 490 - 608 Nm(50 - 62 kgm}

CWD031Sl

30-l 48 0

FINAL DRIVE


2.

Carrier assembly I) Assemble carrier assemblv as follows. * The planetary gear bearing forms a set, so align the distinguishing marks on the inner race, outer race, and spacer when assembling.

Distinguishing mark for bearing (for example: y-12B) Distinauishina mark for bearing (for eiample:MZ-12B) , 1 ,

I

DBD02998

i)

install ring and spacer to planet gear, then using push tool @I, press fit top and bottom bearing outer races (24D).

ii)

Assemble spacer (24C) and bearing inner races (24B) and (24A) to planet gear (231, then set to carrier. * Set so that the protruding part at the end face of the planet gear faces the outside of the machine.

248

24c

24A

CED01639

iii) Using tool 57, press fit planetary gear shaft (22). * Align the shaft with the position of the bearing and spacer hole, and press fit gradually. iv) Install holder (21). & Mounting bolt :

Thread tightener w *

D475A-3

(LT-21

Mounting bolt : 490 - 608 Nm 150 - 62 kgm) After tightening the bolts, check that the gear rotates smoothly.

II

CEDO1674

30-149 0

DISASSEMBLY

3.

AND ASSEMBLY

FINAL DRIVE

Sun gear I) Press fit sun gear (52) to sun gear shaft, and install holder (51). & Holder mounting bolt : Thread tightener (LT-21 2) Assemble sun gear shaft assembly (27) to carrier (531, then install holder (26) and spacer (25). 6 Holder mounting bolt : Thread tightener (LT-21 CWD03195

4.

5.

Carrier, sun gear assembly Using eyebolts 0, install carrier assembly (20).

and sun gear

Cover assembly 1) Assemble cover assembly as follows. i) Using push tools @I and 0, install oil seals (50) and (49). Ir Install the bottom oil seal with the part receiving the pressure at the bottom; install the top oil seal with the part receiving the pressure at the top. & Lip of oil seal : Grease (G2-LII & Oil seal press-fitting surface : Gasket sealant (LG-5) * Coat the inside surface of the case thinly with gasket sealant and wipe off any sealant that is forced out.

L

CED01657

i, CED01656

30-150 0

0475A-3

DISASSEMBLY

ii)

FINAL DRIVE

AND ASSEMBLY

Using push tool 0, press fit bearing outer race (48) to cover.

CWD03199

iii) Fit ring gear (19) and install plate. * Fit so that the notched part of the end face of the gear faces the inside of the machine. iv) Install spacer (54), then using tool 53, press fit bearing inner race (18). v) Install spacer (17).

vi)

Using tool J4, press fit floating seal (16) to floating seal cover. * Remove all oil and grease from the O-ring and O-ring contact surface, and dry before installing. Jr After installing the floating seal, check that the angle of the seal is less than 1 mm.

J4

I vii) Install floating seal cover (15). Fit a cork plug in the forcing *

w

CED01677

tap.

CWD03197

D475A-3

30-151 0

DISASSEMBLY

*

AND ASSEMBLY

FINAL DRIVE

Install so that the cut-out portion of the floating seal cover is facing the bottom as shown in the diagram on the right. Front

2)

Using eyebolts, raise cover assembly (14) and install. & Case mating surface: Gasket sealant (Three Bond 1216) Ir Check that there are no dents, rust, oil, grease, or water on the mating surface of the case and cover. * Coat the whole circumference of the mating surface of the case (one side) with gasket sealant without any break. * Install the cover assembly within 20 minutes after coating with gasket sealant. w Mounting bolt : 1,715 - 1,911 Nm I175 - 195 kgm1

CWD03185

Wear guard Raise wear guard (13) and install.

7.

Sprocket hub assembly 1) Using tool 54, install floating seal (12) to floating seal cover. * Remove all oil and grease from the Oring and O-ring contact surface, and dry before installing. * After installing the floating seal, check that the angle of the seal is less than 1 mm.

J4

CEO01680

30-152 0

D475A-3

DISASSEMBLY

FINAL DRIVE

AND ASSEMBLY

2) Using push tool, press fit bearing outer races 3)

(II) and (IO). Install floating

seal cover (9).

CED01630

4)

Set bearing

(8) to sprocket

hub assembly.

CEO01629

5)

II

Using eyebolts 0, sling sprocket hub assembly (6) and set to cover. Ir Check that there is no dirt on the sliding surface of the floating seal, then coat thinly with engine oil.

CEO01627

6)

53

CEO01661

Using tool 53, press fit bearing (7) portion. * Rotate the sprocket hub assembly when press fitting.

7

CED02160

D475A-3

1

DISASSEMBLY

7)

8.

FINAL DRIVE

AND ASSEMBLY

Install holder (5). * Tighten 6 mounting bolts temporarily at equal distances around the circumference, then adjust with shims so that clearance X between cover (14) and holder (5) is within the standard value. Clearance X : 0.1 - 0.3 mm w Mounting bolt (temporary tightening): Approx. 74 Nm 17.5 kgm} 6 Mounting bolt : Thread tightener (LT-2) m Mounting bolt : 490 - 608 Nm 150 - 62 kgm}

cwD0319a

Hub 1) Using eyebolts 0, raise hub (4) and install. 2) Install plate (3). & Mounting bolt : Thread tightener (LT-2) Q~ZI Mounting bolt : 245 - 309 Nm I25 - 31.5 kgm}

CED01624

9.

Cover Using eyebolts

0,

CED01623

install cover (2).

CED016

10. Sprocket Install sprocket (1). m Mounting bolt : 2,500 - 2,794 Nm I255 - 285 kgm}

30-154 0

DISASSEMBLY

FINAL DRIVE

AND ASSEMBLY

11. Gear assembly 1) Using push tool @, press fit bearing inner races (46) and (45) to gear. 2) Set tool J8 to cover (14), and install gear assembly (44). * Leave tool 58 in position until the cage is installed.

CWD03200

12. Cage assembly 1) Assemble cage assembly as follows. i) Using push tools @ and 0, install oil seals (43) and (42). * Install the bottom oil seal with the part receiving the pressure at the bottom; install the top oil seal with the part receiving the pressure at the top. & Lip of oil seal : Grease (G2-LII & Oil seal press-fitting surface : Gasket sealant (LG-5) * Coat the inside surface of the case thinly with gasket sealant and wipe off any sealant that is forced out.

CED01662

CED01663

ii)

Using push tool 0, race (41).

press fit bearing outer

CED01664

D475A-3

30-155 0


FINAL DRIVE

2) Using eyebolt 0, set cage assembly case, and remove

3)

4)

5)

6) 7)

(39) to

tool 58.

Tighten mounting bolts C, D, E, and F cage A uniformly to a tightening torque 69 Nm (7 kgm1, then loosen bolts. Tighten mounting bolts C and D of cage uniformly to a tightening torque of 20 Nm

of of A I2

kgm1. In this condition, use feeler gauge @ to measure clearances a and b between cage A and cage B. Determine thickness c of shims to insert according to Table 1 on next page. Assemble set shim thickness, then tighten mounting bolts of cage A uniformly. w Mounting bolts : 319 - 608 Nm 132.5 - 62 kgm}

13. Refilling with oil Tighten drain plug and add engine the oil filler to the specified level. %8

oil through

Final drive case : Approx. 71 e (GO1401

CEDOl666

30-156 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

FINAL DRIVE

Table 1 a+b More than

Less than

t = 0.15

3.05

3.15

9

3.15

3.25

6

3.25

3.35

3

3.35

3.45

-

3.45

3.55

7

3.55

3.65

4

3.65

3.75

1

3.75

3.85

8

3.85

3.95

5

3.95

4.05

2

4.05

4.15

9

4.15

4.25

6

4.25

4.35

3

4.35

4.45

-

A. .A!5 ._

4.55

7

4.55 4.65

4.65

4

4.75

4.75 4.85

use

Total shim thickness c (mm)

t= 1.0

t = 0.5 1

-

-

1.85

1

1

1.90

1

1.95

-

2

2.00

-

1

2.05

1

2.10

-

2

2.15

-

1

2.20

1

2.25

-

2

2.30

-

1

2.35

1

2.40

2

2.45

1

2

2.50

1

1

2.55

1

1

1 -

-

2

2.60

1

2

2.65

4.85

8

1

1

2.70

4.95

5

2

2.75

4.95

5.05

2

1

5.05 5.15

5.15 5.25

9 6

I

5.35 5.45

-3

5.55

7

5.55

5.65

4

5.65 5.75

5.75 5.85

1

-

3

8

-

2

5.85

5.95

5

5.95

6.05

2

-

3

3.30

6.05

6.15

9

-

3

3.35

6.15 6.25 6.35

6.25 6.35 6.45

6

2

3.40

3 -

3

3.45

1

3

3.50

6.45 _..fis;F; _.__

6.55

7

1

2

3.55

6.65

4

3

3.60

6.65

6.75

1

1

3

3.65

6.75

6.85

1

2

3.70

6.85

6 .95 7.05

8 5

3

3.75

5.25

1

I

ofshimto

1

5.35 5.45

I

Number

(mm)

b

-

-

1

I

r

2 1 2

2.80 1

2.85

2

2.95

-

3

3.00

-

2

3.05

2

3.10

1

1

1 -

-

-

2

I

3.15

1

3.25

3.20

2

1

3

3.80

7.15

9

1

2

3.85

7.15

7.25

6

3

3.90

7.25

7.35

3

3

3.95

6.95 7.05

D475A-3

1

1

2.90

1

30-157 0


TRACK FRAME

REMOVAL OF TRACK FRAME ASSEMBLY Serial No.: 10601 – 10684 1. Remove track shoe assembly. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Raise chassis with jack or ripper, then set support 1 under frame to keep rear of chassis off ground. 3. Set hydraulic jack 2 to center of equalizer bar, and raise front of chassis. 4. Sling track frame assembly. 5. Remove cover (1). 6. Remove cover (2).

7. Remove bushing (3). 8. Using eyebolts 3, pull out pin (4) 1 fl It is difficult to remove the pin if the centers of the equalizer bar hole and track frame hole are not aligned, so adjust the height of the track frame before removing.

9. Remove cover (5) together with cushion (6). 2

30-158 2 6

D475A-3


TRACK FRAME

10. Remove mounting bolts, and disconnect (7) from track frame.

cover

CWD03202

11. Remove

cover (8). With the right track frame, disconnect blade tilt cylinder hoses from the cover.

Ir

12. Remove

seal (9) together

13. Remove

washer

(II),

with washer

then remove

4

(IO). m

spacer (12).

__ _.__-__. w ___-._f i___’

CWD03203

14. Lift off track frame assembly (13). * Oil will flow out from the pivot catch it in an oil container. -

&I kg

D475A-3

:

1141 case, so

Pivot case : 26 .@ Track frame

assembly

: 11,050 kg

30-159 0


TRACK FRAME

INSTALLATION OF TRACK FRAME ASSEMBLY Serial No.: 10601 – 10684 • Carry out installation in the reverse order to removal. 1 2 Inside surface of bushing: Grease (G2-LI) fl Before installing the pin, adjust the height of the track frame and align the center of the equalizer bar hole and track frame hole. fl Set the pin with the grease hole facing the outside of the machine. 2 fl Fit pin (4) and bushing (3), install cover (2), then install the cover and cushion. 3 fl After removing the grease from the pressfitting surface of the seal, coat with gasket sealant (LG-6). fl Be careful not to install with the seal displaced in the direction of twisting.

4 fl Be careful not to install the track frame with seal (14) displaced in the direction of twisting. •

Refilling with oil (pivot case) Add oil through oil filler to the specified level. 5

30-160 2 6

Pivot case : 26 ¬ (SAE30)

D475A-3


TRACK FRAME

REMOVAL OF TRACK FRAME ASSEMBLY Serial No.: 10685 and up 1. Remove track shoe assembly. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Raise chassis with jack or ripper, then set support 1 under frame to keep rear of chassis off ground. 3. Set hydraulic jack 2 to center of equalizer bar, and raise front of chassis. 4. Sling track frame assembly. 5. Remove cover (1). 6. Remove cover (2).

7. Using eyebolts 3, pull out pin (3) 1 fl It is difficult to remove the pin if the centers of the equalizer bar hole and track frame hole are not aligned, so adjust the height of the track frame before removing.

8. Remove mounting bolts, and disconnect cover (4) from track frame.

D475A-3

30-160-1 6


TRACK FRAME

9. Remove cover (5). fl With the right track frame, disconnect 4 blade tilt cylinder hoses from the cover. 10. Remove seal (6) together with washer (7). 2 11. Remove washer (8), then remove spacer (9).

12. Lift off track frame assembly (10). 3 fl Oil will flow out from the pivot case, so catch it in an oil container. 6 Pivot case : 26 ¬ 4 Track frame assembly : 11,050 kg

30-160-2 6

D475A-3


TRACK FRAME

INSTALLATION OF TRACK FRAME ASSEMBLY Serial No.: 10685 and up • Carry out installation in the reverse order to removal. 1 2 Inside surface of bushing: Grease (G2-LI) fl Before installing the pin, adjust the height of the track frame and align the center of the equalizer bar hole and track frame hole. fl Set the pin with the grease hole facing the outside of the machine. 2 fl After removing the grease from the pressfitting surface of the seal, coat with gasket sealant (LG-6). fl Be careful not to install with the seal displaced in the direction of twisting.

3 fl Be careful not to install the track frame with seal (11) displaced in the direction of twisting. •


D475A-3


30-160-3 6


IDLER

DISASSEMBLY OF IDLER ASSEMBLY Serial No.: 10601 – 10684 1. Remove oil filler plug and drain oil. 6 Idler : 2.0 – 2.2 ¬ (G0140) 2. Set idler assembly (1) on block 1. 3. Remove mounting bolts, then using forcing screws 2, remove seal guide (2) together with retainer (3).

4. Turn over idler assembly. 5. Remove mounting bolts, then using eyebolts 3, remove shaft (4) together with retainer. 6. Using puller 4, remove seal guide (5) and retainer (6).

7. Remove seal guides (2) and (5) from retainers (3) and (6).

8. Remove floating seal (7) from seal guides (2) and (5). fl Keep the floating seal in a safe place to protect it from damage. 9. Remove floating seal (8) from seal guides (3) and (6). fl Keep the floating seal in a safe place to protect it from damage.

D475A-3

30-161 2 6

DISASSEMBLY

10. Remove

AND ASSEMBLY

bushings

IDLER

(9) from idler (IO).

CED01837

30-162 0

D475A-3


IDLER

ASSEMBLY OF IDLER ASSEMBLY Serial No.: 10601 – 10684 fl Clean all parts, and check for dirt or damage. 1. Set bushing (9) and tool L1 to idler (10), and press fit bushing (9). fl First, center the bushing with a plastic hammer, then press fit with a puller. fl Press fit so that press-fitting dimension a from the end face of the idler to the top surface of the bushing is the dimension given below. • Press-fitting dimension a : 15 ± 1 mm

2. Using tool L2, install floating seal (8) to retainers (3) and (6). 3. Fit O-ring and install retainer (3) to idler.

4. Using eyebolts 3, set idler (10) to shaft (4). fl Set block (height: approx. 200 mm) under the idler. 5. Turn over idler assembly. fl Tie with wire to prevent the shaft from falling out. 6. Fit O-ring and install retainer (6) to idler.

7. Using tool L2, install floating seal (7) to seal guides (2) and (5). 8. Install O-rings to seal guides (2) and (5).

D475A-3

30-163 2 6

IDLER


9.

Set seal guide (2) to shaft, then using tools Ll and L3, press fit seal guide (2). * Seal guide press-fitting force : 83.3 - 137.2 kN (8.5 - 14 ton}

CWD03078

Ir

Press fit the seal guide so that press-fitting dimension a from the end face of the shaft to the top surface of the seal guide is the dimension given below. . Press-fitting dimension a :

*

Turn over the idler assembly and repeat the same procedure to press fit the seal guide (5) on the opposite side.

124.5 e 0.2 mm

CED01845

10. Using tool L4, fill with oil to specified then tighten oil filler plug.

level,

%3

Idler : 2.0 - 2.2 e (GO1401

m

Oil filler plug : 156.8 - 254.8 Nm {IS - 26 kgm}

-To

~

30-164 0

=

vacuum tank

DAD03002

D475A-3


IDLER

DISASSEMBLY OF IDLER ASSEMBLY Serial No.: 10685 and up 1. Remove oil filler plug and drain oil. 6 Idler : 1.4 – 2.2 ¬ (G0140) 2. Set idler assembly (1) on block 1. 3. Remove mounting bolts, then using forcing screws 2, remove seal guide (2) together with retainer (3) and plate (4).

4. Turn over idler assembly. 5. Remove mounting bolts, then using eyebolts 3, remove shaft (5) together with retainer. 6. Using puller 4, remove seal guide (6) and retainer (7) and plate (8).

7. Remove seal guides (2) and (6) from retainers (3) and (7).

8. Remove floating seal (9) from seal guides (2) and (6). fl Keep the floating seal in a safe place to protect it from damage. 9. Remove floating seal (10) from seal guides (3) and (7). fl Keep the floating seal in a safe place to protect it from damage.

D475A-3

30-164-1 6


IDLER

10. Remove bushings (11) from idler (12).

30-164-2 6

D475A-3


IDLER

ASSEMBLY OF IDLER ASSEMBLY Serial No.: 10685 and up fl Clean all parts, and check for dirt or damage. 1. Set bushing (11) and tool L1 to idler (12), and press fit bushing (11). fl First, center the bushing with a plastic hammer, then press fit with a puller. fl Press fit so that press-fitting dimension a from the end face of the idler to the top surface of the bushing is the dimension given below. • Press-fitting dimension a : 17 ± 0.5 mm

2. Using tool L2, install floating seal (10) to retainers (3) and (7). 3. Fit O-ring and install retainer (3) and plate (4) to idler. fl Check that the plate can be turned smoothly with the hand.

4. Using eyebolts 3, set idler (12) to shaft (5). fl Set block (height: approx. 200 mm) under the idler. 5. Turn over idler assembly. fl Tie with wire to prevent the shaft from falling out. 6. Fit O-ring and install retainer (7) and plate (8) to idler.

7. Using tool L2, install floating seal (9) to seal guides (2) and (6).

D475A-3

30-164-3 6


IDLER

8. Set seal guide (2) to shaft, then using tools L1 and L3, press fit seal guide (2). fl Seal guide press-fitting force : 83.3 – 137.2 kN {8.5 – 14 ton}

fl Press fit the seal guide so that press-fitting dimension a from the end face of the shaft to the top surface of the seal guide is the dimension given below. • Press-fitting dimension a : 124.5 ± 0.2 mm fl Turn over the idler assembly and repeat the same procedure to press fit the seal guide (6) on the opposite side.

9. Using tool L4, fill with oil to specified level, then tighten oil filler plug. 5

Idler : 1.4 – 1.5 ¬ (GO140)

3 Oil filler plug : 156.8 – 254.8 Nm {16 – 26 kgm}

30-164-4 6

D475A-3


RECOIL SPRING

REMOVAL OF RECOIL SPRING ASSEMBLY Serial No.: 10601 – 10684 1. Remove track shoe assembly. For details, see REMOVAL OF TRACK SHOE ASSEMBLY.  To prevent danger, never stand in front of the idler yoke assembly. 2. Drain oil from recoil cylinder chamber using oil pump. 6 Recoil cylinder chamber: Approx. 75 ¬ 3. Using eyebolt 1, remove cover (1). 4 Cover : 70 kg 4. Remove cover (2). 5. Lift off trunnion (3). 4 Trunnion : 140 kg

6. Remove covers (4). fl Remove both the inside and outside covers.

7. Using tool M1, remove pins (5). 1 fl Remove both the inside and outside pins.

D475A-3

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RECOIL SPRING

8. Lift off idler and recoil spring assembly (6). 2 fl Using a lever block, keep the assembly horizontal, and be careful not to damage the oil seal at the track frame end. 4 Idler, recoil spring assembly : 3,400 kg

9. Disconnect recoil cylinder assembly (7) from idler yoke assembly (8) as follows. 3 1) Put idler yoke assembly (8) in contact with ground, then raise recoil cylinder assembly (7). fl When doing this, check that there is no damage to the weld of recoil cylinder assembly (7). fl Wrap cloth around the chrome plated bushing to protect it.

2) Loosen idler yoke mounting bolts (9) gradually in turn on diagonally opposite sides. 4  To prevent danger, never stand in front of the idler yoke assembly or behind the recoil cylinder assembly.  The recoil spring inside the recoil cylinder is applying a pushing force of approx. 725 kN (approx. 74 tons) on the idler yoke, so be careful not to loosen the mounting bolts suddenly. Loosen the mounting bolts gradually until clearance a between the flange of the recoil cylinder and idler yoke is 8 – 12 mm. 3) When the bolts are loosened, the torque will suddenly drop. Check that the installed load of the recoil spring is not applying any pushing force on the mounting bolts, then remove all bolts. fl If the torque increases (the installed load of the recoil spring is applied) during the loosening operation, stop the loosening operation and disassemble as follows.

30-166 2 6

D475A-3

DISASSEMBLY

a

a

AND ASSEMBLY

RECOIL SPRING

If the torque does not drop during Steps 2) and 3) described above, and the torque when the bolts are loosened remains large, there is probably damage to recoil spring set bolt (IO), or nut (II) at the tip of the shaft has fallen off, so there is danger that the idler yoke assembly may fly off to the front. For this reason, disassemble as follows. When disconnecting the idler yoke assembly and recoil cylinder assembly, do not stand in front of the idler yoke assembly or behind the recoil cylinder assembly until safety has been confirmed and the recoil spring assembly has been removed. Prepare the following parts. i) . Bolt @ (x6): 791-730-I 120 . Nut @ (x6): 01580-13326 . Washer @ (x6): 01643-33380 (use again) ii) Remove 6 bolts marked %, then install bolts 0, nuts 0, and washers

II

CDD01998

0. *

Check that dimension L is less than 450 mm. * Screw in bolts @ until they contact the bottom of the yoke thread. 12 bolts (those iii) Remove remaining not marked %I. iv) Hold bolts @ with a wrench to prevent them from turning, and loosen 2 nuts @ simultaneously on diagonally opposite sides. * Be careful not to let the load bear on only one bolt. v) When recoil spring is fully extended and torque has completely dropped in loosening direction of nut 0, remove bolt 0. Ir

I

CKD01063

Yoke

II

DKD02952

When clearance b is approx. 280 mm, the spring is fully extended.

CEDOl999

D475A-3

RECOIL SPRING


10. Remove

ring (12).

CEDOZOOO

11. Pump in grease through lubricator (13), and remove cylinder (14) and piston assembly (15). m

CWD03204

12. Disassemble piston assc?mbly (15) as follows. i) Remove wear ring ( 16) from piston. ii) Remove snap ring (171, then remove packing (18).

18

I7

CWD03205

13. Remove &I kg

recoil spring assembly Recoil spring assembly

(19).

: 780 kg

CED02003

30-168 0

DISASSEMBLY

14. Remove bly.

AND ASSEMBLY

holder

(20) from

recoil spring

RECOIL SPRING

assem-

CED02004

D475A-3

30-169 0


RECOIL SPRING

INSTALLATION OF RECOIL SPRING ASSEMBLY Serial No.: 10601 – 10684 • Carry out installation in the reverse order to removal. 1 fl Before installing the pin, align the center of the hole in the track frame and the dowel pin at the recoil cylinder end with a bar. 2 fl Using a lever block, keep horizontal and be careful not to damage the oil seal at the track frame end when installing. fl Adjust the clearance. For details, see TESTING AND ADJUSTING, Adjusting clearance of idler. 3 fl If the recoil spring set bolt is broken or the nut at the tip of the shaft has fallen off, see ASSEMBLY OF RECOIL SPRING ASSEMBLY when assembling. 4 2 Idler yoke assembly mounting bolt : Thread tightener (LT-2) 3 Idler yoke assembly mounting bolt : 2,205 – 2,695 Nm {225 – 275 kgm} 5 fl To prevent air from accumulating inside the cylinder, fill with grease as follows. i) Fill the inside of the cylinder with approx. 2.0 ¬ of grease. ii) Set with the cylinder drain hole facing up, then loosen the lubricator. iii) Push the piston until it contacts the stopper. This will push out the air and any extra grease.

30-170 2 6

D475A-3


RECOIL SPRING

REMOVAL OF RECOIL SPRING ASSEMBLY Serial No.: 10685 and up 1. Remove track shoe assembly. For details, see REMOVAL OF TRACK SHOE ASSEMBLY.  To prevent danger, never stand in front of the idler yoke assembly. 2. Drain oil from recoil cylinder chamber using oil pump. 6 Recoil cylinder chamber: Approx. 75 ¬ 3. Using eyebolt 1, remove cover (1). 4 Cover : 70 kg 4. Remove cover (2). 5. Lift off trunnion (3). 4 Trunnion : 140 kg

6. Remove covers (4). fl Remove both the inside and outside covers.

7. Using tool M1, remove pins (5). 1 fl Remove both the inside and outside pins.

D475A-3

30-170-1 6


RECOIL SPRING

8. Lift off idler and recoil spring assembly (6).2 fl Using a lever block, keep the assembly horizontal, and be careful not to damage the oil seal at the track frame end. 4 Idler, recoil spring assembly : 3,500 kg

9. Disconnect recoil cylinder assembly (7) from idler yoke assembly (8) as follows. 3 1) Put idler yoke assembly (8) in contact with ground, then raise recoil cylinder assembly (7). fl When doing this, check that there is no damage to the weld of recoil cylinder assembly (7). fl Wrap cloth around the chrome plated bushing to protect it.

2) Loosen idler yoke mounting bolts (9) gradually in turn on diagonally opposite sides. 4  To prevent danger, never stand in front of the idler yoke assembly or behind the recoil cylinder assembly.  The recoil spring inside the recoil cylinder is applying a pushing force of approx. 788 kN (approx. 81 tons) on the idler yoke, so be careful not to loosen the mounting bolts suddenly. Loosen the mounting bolts gradually until clearance a between the flange of the recoil cylinder and idler yoke is 8 – 12 mm. 3) When the bolts are loosened, the torque will suddenly drop. Check that the installed load of the recoil spring is not applying any pushing force on the mounting bolts, then remove all bolts. fl If the torque increases (the installed load of the recoil spring is applied) during the loosening operation, stop the loosening operation and disassemble as follows.

30-170-2 6

D475A-3


RECOIL SPRING

 If the torque does not drop during Steps 2) and 3) described above, and the torque when the bolts are loosened remains large, there is probably damage to recoil spring set bolt (10), or nut (11) at the tip of the shaft has fallen off, so there is danger that the idler yoke assembly may fly off to the front. For this reason, disassemble as follows.  When disconnecting the idler yoke assembly and recoil cylinder assembly, do not stand in front of the idler yoke assembly or behind the recoil cylinder assembly until safety has been confirmed and the recoil spring assembly has been removed. i) Prepare the following parts. • Bolt 1 (x6): 791-730-1120 • Nut 2 (x6): 01580-13326 • Washer 3 (x6): 01643-33380 (use again) ii) Remove 6 bolts marked ª, then install bolts 1, nuts 2, and washers 3. fl Check that dimension L is less than 450 mm. fl Screw in bolts 1 until they contact the bottom of the yoke thread. iii) Remove remaining 12 bolts (those not marked ª). iv) Hold bolts 1 with a wrench to prevent them from turning, and loosen 2 nuts 2 simultaneously on diagonally opposite sides. fl Be careful not to let the load bear on only one bolt. v) When recoil spring is fully extended and torque has completely dropped in loosening direction of nut 2, remove bolt 1. fl When clearance b is approx. 280 mm, the spring is fully extended.

D475A-3

30-170-3 6


RECOIL SPRING

10. Remove ring (12).

11. Pump in grease through lubricator (13), and remove cylinder (14) and piston assembly (15). 5

12. Disassemble piston assembly (15) as follows. i) Remove wear ring (16) from piston. ii) Remove snap ring (17), then remove packing (18).

13. Remove recoil spring assembly (19). 4 Recoil spring assembly : 780 kg

30-170-4 6

D475A-3


RECOIL SPRING

14. Remove holder (20) from recoil spring assembly.

D475A-3

30-170-5 6


RECOIL SPRING

INSTALLATION OF RECOIL SPRING ASSEMBLY Serial No.: 10685 and up • Carry out installation in the reverse order to removal. 1 fl Before installing the pin, align the center of the hole in the track frame and the dowel pin at the recoil cylinder end with a bar. 2 fl Using a lever block, keep horizontal and be careful not to damage the oil seal at the track frame end when installing. fl Adjust the clearance. For details, see TESTING AND ADJUSTING, Adjusting clearance of idler. 3 fl If the recoil spring set bolt is broken or the nut at the tip of the shaft has fallen off, see ASSEMBLY OF RECOIL SPRING ASSEMBLY when assembling. 4 2 Idler yoke assembly mounting bolt : Thread tightener (LT-2) 3 Idler yoke assembly mounting bolt : 2,205 – 2,695 Nm {225 – 275 kgm} 5 fl To prevent air from accumulating inside the cylinder, fill with grease as follows. i) Fill the inside of the cylinder with approx. 2.0 ¬ of grease. ii) Set with the cylinder drain hole facing up, then loosen the lubricator. iii) Push the piston until it contacts the stopper. This will push out the air and any extra grease.

30-170-6 6

D475A-3


RECOIL SPRING

DISASSEMBLY OF RECOIL SPRING ASSEMBLY Serial No.: 10601 – 10684 1. Remove recoil spring assembly (1) with tool M2.  The spring is under high installed load, so be careful to set it correctly. fl Installed load of spring : Approx. 725 kN {approx. 74 ton}

2. Apply hydraulic pressure slowly to compress spring, then remove lock plate (2) and remove nut (3). 3. Release hydraulic pressure gradually and relieve tension of spring. 4. Remove rear pilot (5), spacer (6), bolt (7), and front pilot (8) from spring (4).

ASSEMBLY OF RECOIL SPRING ASSEMBLY Serial No.: 10601 – 10684 1. Assemble front pilot (8), bolt (7), spacer (6), and rear pilot (5) to spring (4), then set in tool M2.  The spring is under high installed load, so be careful to set all parts correctly. 2. Apply hydraulic pressure slowly to compress spring, and set so that installed length of spring is specified value. fl Installed length a of spring : 1,425 mm fl Installed load of spring : Approx. 725 kN {approx. 74 ton}

D475A-3

30-171 2 6


RECOIL SPRING

3. Fit nut (3), then install lock plate (2). fl When securing the recoil spring mounting nut, make a clearance of 0 – 1 mm between lock plate (2) and nut (3), then bring lock plate (2) and bolt (7) into tight contact, and secure in position. 2 Lock plate mounting bolt : Thread tightener (LT-2) 4. Gradually release hydraulic pressure to completely release tension of spring, then remove recoil spring assembly (1) from tool M2.

30-172 2 6

D475A-3


RECOIL SPRING

DISASSEMBLY OF RECOIL SPRING ASSEMBLY Serial No.: 10685 and up 1. Remove recoil spring assembly (1) with tool M2.  The spring is under high installed load, so be careful to set it correctly. fl Installed load of spring : Approx. 788 kN {approx. 81 ton}

2. Apply hydraulic pressure slowly to compress spring, then remove lock plate (2) and remove nut (3). 3. Release hydraulic pressure gradually and relieve tension of spring. 4. Remove rear pilot (5), spacer (6), bolt (7), and front pilot (8) from spring (4).

ASSEMBLY OF RECOIL SPRING ASSEMBLY Serial No.: 10685 and up 1. Assemble front pilot (8), bolt (7), spacer (6), and rear pilot (5) to spring (4), then set in tool M2.  The spring is under high installed load, so be careful to set all parts correctly. 2. Apply hydraulic pressure slowly to compress spring, and set so that installed length of spring is specified value. fl Installed length a of spring : 1,461 mm fl Installed load of spring : Approx. 788 kN {approx. 81 ton}

D475A-3

30-172-1 6


RECOIL SPRING

3. Fit nut (3), then install lock plate (2). fl When securing the recoil spring mounting nut, make a clearance b of 0 – 1 mm between lock plate (2) and nut (3), then bring lock plate (2) and bolt (7) into tight contact, and secure in position. 2 Lock plate mounting bolt : Thread tightener (LT-2) 4. Gradually release hydraulic pressure to completely release tension of spring, then remove recoil spring assembly (1) from tool M2.

30-172-2 6

D475A-3


TRACK ROLLER

REMOVAL OF TRACK ROLLER ASSEMBLY Serial No.: 10601 – 10684 1. Loosen track shoe tension. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Remove guard (1). 1 fl Only when removing the last track roller assembly.

3. Operate blade and ripper to raise chassis to a point where track roller assembly is separated from track shoe. 4. Set steel plate 1 on top of track shoe, operate blade and ripper, and lower chassis until track roller assembly contacts steel plate. fl When operating the blade and ripper, run the engine at low idling and operate slowly.

5. Remove mounting bolts and put track roller assembly (2) on steel board 1. 2

6. Operate blade and ripper, and raise chassis to a position where track roller assembly (2) separates from bogie. 7. Using a bar, pull track roller assembly (2) on top of steel plate to outside of machine. 3 4 Track roller assembly : 220 kg

D475A-3

30-173 2 6


TRACK ROLLER

INSTALLATION OF TRACK ROLLER ASSEMBLY Serial No.: 10601 – 10684 • Carry out installation in the reverse order to removal. 1 3 Guard mounting bolt : 1,960 – 2,450 Nm {200 – 250 kgm} 2 fl All standard specification machines are equipped with double-flange track roller assemblies. fl The superdozer specification machines are equipped with single-flange track roller assemblies and double-flange track roller assemblies. These are installed in different positions, so check the positions when installing. S: Single flange D: Double flange fl Install the track roller assembly with the oil filler plug facing the outside of the machine. fl After fitting the track roller assembly temporarily, align the position of dowel pin (3). 2 Track roller mounting bolt : Thread tightener (LT-2) 3 Track roller assembly mounting bolt: 2,205 – 2,695 Nm {225 – 275 kgm} 3 When using assembly tools Set tool L12 under the track roller assembly, and raise track roller assembly (2), then set to the track frame.

30-174 2 6

D475A-3


TRACK ROLLER

REMOVAL OF TRACK ROLLER ASSEMBLY Serial No.: 10685 and up 1. Loosen the track shoe. For details, see EXPANDING TRACK SHOE ASSEMBLY. 2. Install tool L13 and secure bogie assembly (1). 1 3. Operate the blade and ripper to lift the machine body until track roller assembly (2) separates from the track shoe.

4. Place steel plate 1 on the track shoe and operate the blade and ripper to lower the machine body until the track roller assembly comes in contact with the steel plate. fl Operate the blade and ripper slowly, running the engine at the low idling speed.

5. Remove the mounting bolts and place track roller assembly (2) on steel plate 1. 2 6. Operate the blade and ripper to lift the machine body until track roller assembly (2) separates from the bogie.

7. Pull track roller assembly (2) out of the machine body from the top of the steel plate with a bar, etc. 3 4 Track roller assembly: 240 kg

D475A-3

30-174-1 6


TRACK ROLLER

INSTALLATION OF TRACK ROLLER ASSEMBLY Serial No.: 10685 and up • Carry out installation in the reverse order to removal. 1 After removing tool L13, replace the mounting bolts of cover (3) with the regular parts. 3 Cover mounting bolt: 883 – 1,470 Nm {90 – 150 kgm}

2 Install S to the first and last track rollers and install D to the other track rollers. S: Single flange D: Double flange fl Install the track roller assembly with the oil filler plug out. fl After installing the track roller assembly, set the position of dowel pin (4). 2 Track roller assembly mounting bolt: Adhesive (LT-2) 3 Track roller assembly mounting bolt: 2,205 – 2,695 Nm {222 – 275 kgm}

3 When using the assembling tool Set tool L12 under the track roller assembly (2) and lift up and set track roller assembly (2) to the track frame.

30-174-2 6

D475A-3


TRACK ROLLER

DISASSEMBLY OF TRACK ROLLER ASSEMBLY Serial No.: 10601 – 10684 1. Remove oil filler plug and drain oil. Track roller : 2.2 – 2.4 ¬ 2. Set track roller assembly (1) on block 1. 3. Remove mounting bolts, then using forcing screws 2, remove seal guide (2) together with retainer (3). 4. Turn over track roller assembly. 5. Remove mounting bolts, then using eyebolts 3, remove shaft (4) together with retainer. 6. Using press, remove seal guide (5) together with retainer (6) from shaft. 7. Remove seal guides (2) and (5) from retainers (3) and (6).

8. Remove floating seal (7) from seal guides (2) and (5). fl Keep the floating seal in a safe place to protect it from damage. 9. Remove floating seal (8) from retainers (3) and (6). fl Keep the floating seal in a safe place to protect it from damage.

10. Remove bushing (9) from roller (10).

D475A-3

30-175 2 6


TRACK ROLLER

ASSEMBLY OF TRACK ROLLER ASSEMBLY Serial No.: 10601 – 10684 fl Clean all parts, and check for dirt or damage. 1. Set roller (10) to press, then using tool L8, press fit bushing (9). fl First, center the bushing with a plastic hammer, then press fit with a press. fl Press fit so that press-fitting dimension a from the end face of the roller to the top surface of the bushing is the dimension given below. • Press-fitting dimension a : 15 ± 1 mm 2. Set shaft (4) to roller. 3. Using tool L9, install floating seal (8) to retainers (3) and (6). 4. Fit O-ring and install retainers (3) and (6) to roller.

5. Using tool L9, install floating seal (7) to seal guides (2) and (5). 6. Fit O-ring, then using tool L10, press fit seal guide (2) to shaft. fl Seal guide press-fitting force : 68.6 – 98 kN {7 – 10 ton}

fl Press fit the seal guide so that press-fitting dimension b from the end face of the shaft to the top surface of the seal guide is the dimension given below. • Press-fitting dimension b : 90 ± 0.2 mm

30-176 2 6

D475A-3

DISASSEMBLY

7.

AND ASSEMBLY

Using tool Lll, fill with oil to specified then tighten oil filler plug.

TRACK ROLLER

level,

Q

Track roller : 2.2 - 2.4 e (GO1401

w

Oil filler plug : 156.8 - 254.8 Nm (16 - 26 kgm]

CDD02029

D475A-3

30-177 0


TRACK ROLLER

DISASSEMBLY OF TRACK ROLLER ASSEMBLY Serial No.: 10685 and up 1. Remove oil filler plug and drain oil. 6 Track roller : 1.4 – 1.5 ¬ 2. Set track roller assembly (1) on block 1. 3. Remove mounting bolts, then using forcing screws 2, remove seal guide (2) together with retainer (3) and plate (4). 4. Turn over track roller assembly. 5. Remove mounting bolts, then using eyebolts 3, remove shaft (5) together with retainer. 6. Using press, remove seal guide (6) together with retainer (7) and plate (8) from shaft. 7. Remove seal guides (2) and (6) from retainers (3) and (7).

8. Remove floating seal (9) from seal guides (2) and (6). fl Keep the floating seal in a safe place to protect it from damage. 9. Remove floating seal (9) from retainers (3) and (7). fl Keep the floating seal in a safe place to protect it from damage.

10. Remove bushing (11) from roller (12).

30-177-1 6

D475A-3


TRACK ROLLER

ASSEMBLY OF TRACK ROLLER ASSEMBLY Serial No.: 10685 and up fl Clean all parts, and check for dirt or damage. 1. Set roller (12) to press, then using tool L8, press fit bushing (11). fl First, center the bushing with a plastic hammer, then press fit with a press. fl Press fit so that press-fitting dimension a from the end face of the roller to the top surface of the bushing is the dimension given below. • Press-fitting dimension a : 17 ± 0.5 mm 2. Set shaft (5) to roller. 3. Using tool L9, install floating seal (10) to retainers (3) and (7). 4. Fit O-ring and install retainers (3), (7) and plate (8) to roller. fl Check that the plate can be turned smoothly with the hand.

5. Using tool L9, install floating seal (9) to seal guides (2) and (6). 6. Using tool L10, press fit seal guide (2) to shaft. fl Seal guide press-fitting force : 49 – 83 kN {5 – 8.5 ton}

fl Press fit the seal guide so that press-fitting dimension b from the end face of the shaft to the top surface of the seal guide is the dimension given below. • Press-fitting dimension b : 86 ± 0.2 mm fl Turn over the track roller assembly and press fit seal guide (6) on the opposite side according to the above procedure.

D475A-3

30-177-2 6


TRACK ROLLER

7. Using tool L11, fill with oil to specified level, then tighten oil filler plug. 5

Track roller : 1.4 – 1.5 ¬ (GO140)

3 Oil filler plug : 156.8 – 254.8 Nm {16 – 26 kgm}

30-177-3 6

D475A-3


CARRIER ROLLER

REMOVAL OF CARRIER ROLLER ASSEMBLY Serial No.: 10685 and up 1. Loosen the track shoe. For details, see EXPANDING TRACK SHOE ASSEMBLY. 2. Lift up the track shoe with hydraulic jack 1. 3. Lift off carrier roller assembly (1).

1

4 Carrier roller assembly: 105 kg

INSTALLATION OF CARRIER ROLLER ASSEMBLY Serial No.: 10685 and up • Carry out installation in the reverse order to removal. 1 fl Make a clearance a of 5 mm between the carrier roller and support as shown at right. 2 Carrier roller assembly mounting bolt: Adhesive (LT-2) 3 Carrier roller assembly mounting bolt: 744.8 ± 83.3 Nm {76 ± 8.5 kgm}

D475A-3

30-177-4 6


CARRIER ROLLER

DISASSEMBLY OF CARRIER ROLLER ASSEMBLY Serial No.: 10685 and up 1. Remove the oil filler plug and drain the oil. fl Drain the oil, turning the shaft. 6 Carrier roller: Approx. 13 ¬ 2. Set carrier roller assembly (1) to block 1. 3. Remove the mounting bolts and cover (2). 4. Remove ring (3).

5. Using tool L7, remove nut (4). 6. Remove the fitted part of the seal guide with puller 2 and remove bearing (5) and roller (6) as one unit by using eyebolts.

7. Remove bearing outer race (7) from the roller. 8. Remove seal guide (8) and bearing inner race (9) as one unit with puller 3.

9. Remove floating seal (10) from seal guide (8).

30-177-5 6

D475A-3


CARRIER ROLLER

10. Remove seal guide (11) with push tool 4. 11. Remove floating seal (12) from seal guide (11).

D475A-3

30-177-6 6


CARRIER ROLLER

ASSEMBLY OF CARRIER ROLLER ASSEMBLY Serial No.: 10685 and up fl Clean the all parts and check them for dirt. 1. Press fit bearing inner race (9) with push tool 5. 2. Press fit bearing outer race (7) with push tool 6.

3. Set roller (6) and bearing inner race (5) to the shaft. 4. Press fit bearing inner race (5) to the shaft with push tool 7. fl Press fit the bearing inner race, turning the roller, until the roller becomes a little hard to turn.

5. Tighten nut (4) with tool L7. 3 Nut: 98 Nm {10 kgm} fl After the nut is tightened, if its hole is not matched to the hole of the shaft, match its hole by loosening the nut. 6. Install ring (3).

7. Fit the O-ring to cover (2) and install them.

30-177-7 6

D475A-3


CARRIER ROLLER

8. Install floating seal (10) to seal guide (8) with tool L5. 9. Fit the O-ring to seal guide (8) and install them, matching them to the dowel pin.

10. Install floating seal (12) to seal guide (11) with tool L5.

11. Press fit seal guide (11) with tool L6. fl Press fit the seal guide so that dimension a between the shaft end and seal guide top will be 181.25 ± 0.2 mm.

12. Supply specified quantity of oil by using tool L4 and tighten the oil filler plug. 5

Carrier roller: 1.25 – 1.35 ¬ (GO140)

3 Oil filler plug: 157 – 255 Nm {16 – 26 kgm}

D475A-3

30-177-8 6


BOGIE

REMOVAL OF BOGIE ASSEMBLY Serial No.: 10601 – 10684 1. Loosen track shoe tension. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Operate blade and ripper to raise chassis to a point where track roller assembly is separated from track link.  Set a block between the track roller and the track link to prevent the chassis from coming down. 3. Remove guard (1). 1 fl Only when removing the last track roller assembly. 4. Align with height of track link and set block 1 on outside of track shoe. 5. Set steel plate 2 on top of track shoe and block 1. 6. Operate blade and ripper, and lower chassis until bogie assembly (2) contacts steel plate 2. fl When operating the blade and ripper, run the engine at low idling and operate slowly. 7. Remove mounting bolts and put bogie assembly (2) on steel board 2. 2 8. Operate blade and ripper, and raise chassis to a position bogie assembly can be pulled out.  Set a block between the track roller and the track link to prevent the chassis from coming down. 9. Raise bogie assembly (2) together with guard, place on top of steel plate 2, and pull to outside. 3 10. After removing, separate bogie assembly and guard. 4 Bogie assembly : 1,200 kg Guard : 50 kg

30-178 2 6

D475A-3


BOGIE

INSTALLATION OF BOGIE ASSEMBLY Serial No.: 10601 – 10684 1 3 Guard mounting bolt : 1,960 – 2,450 Nm {200 – 250 kgm} 2 2 Bogie assembly mounting bolt : Thread tightener (LT-2) 3 Tightening order of bogie assembly mounting bolts: 1. Tighten the bolts to about 294 Nm {30 kgm} in the following. A→B→C→D 2. Tighten the bolts to specified torque: 2,205 – 2,695 Nm {225 – 275 kgm} in the following. B→D→C→A 3. Roughly even the front and rear gaps marked with ✩.

3 fl Fit lever block 3 between the guard of bogie assembly (2) and the guard of the bogie assembly on the opposite side, then side bogie assembly (2) on top of the steel plate to set it to the mounting position.

D475A-3

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BOGIE

REMOVAL OF BOGIE ASSEMBLY Serial No.: 10685 and up 1. Loosen the track shoe. For details, see EXPANDING TRACK SHOE ASSEMBLY.

2. Install tool L13 and secure the bogie assembly.

3. Operate the blade and ripper to lift the machine body until the track roller assembly separates from the track link.  Set a block between the track roller and track link so that the machine body will not lower. 4. Set block 1 out of the track shoe, matching it to the height of the track link. 5. Set steel plate 2 on the track shoe and block 1. 6. Operate the blade and ripper to lower the machine body until the track roller of bogie assembly (1) comes in contact with steel plate 2. fl Operate the blade and ripper slowly, running the engine at the low idling speed.

30-179-1 6

D475A-3


BOGIE

7. Remove cover (2).

8. Pulling out shaft and ring 1) Set tool L14. 2) Push out shaft (3) and ring (4) to the opposite side simultaneously. fl Pushing out force: 225.5 – 460.9 kN {13 – 47 tons}

3) Remove floating seals (5) from the end faces of rings (4) and (7). fl Store the floating seals so that they will not be damaged.

4) Set tool L15. 5) Pull out spacer (6) and rings (7) and (8). fl Pulling out force: 225.5 – 460.9 kN {23 – 47 tons}

D475A-3

30-179-2 6


BOGIE

6) Remove spacer (6). 7) Remove spacer (9) and floating seals (10) between rings (7) and (8). fl Store the floating seals so that they will not be damaged. 8) Pull out the shaft and rings on the opposite side according to above steps 1) – 7).

9. Remove tool L13. 10. Place bogie assembly (1) on steel plate 2. 11. Operate the blade and ripper to raise the machine body until the bogie assembly can be pulled out.  Set a block between the track roller and track link so that the machine body will not lower. 12. Sling bogie assembly (1) and pull it out, sliding it on steel plate (2). 4 Bogie assembly: 1,200 kg

30-179-3 6

D475A-3


BOGIE

INSTALLATION OF BOGIE ASSEMBLY Serial No.: 10685 and up 1. Assembly of pin assembly 1) Using tool L18, install floating seals (5) to rings (4) and (7) and install floating seals (10) to the opposite side of ring (7) and ring (8). fl When installing the floating seals, completely degrease the O-rings and O-ring contacting surfaces. fl Check that each floating seal is not inclined more than 1 mm.

2) Press fit shaft (3) to ring (8). 3) Install spacer (9). 4) Press fit ring (7) to shaft (3). 5) Install spacer (6). 6) Press fit ring (4) to shaft (3). 2 Apply lubricant (LM-P) to parts a (about 10 mm) of rings (8) and (4).

2. Apply lever block 3 between the guard of bogie assembly (1) and the bogie assembly on the opposite side. Slide bogie assembly (1) on the steel plate to set it to the mounting position.

D475A-3

30-179-4 6


BOGIE

3. Match the pin hole of the track frame to that of the bogie and set guide tool L17.

4. Press fitting of pin assembly 1) Set tool L16 and cover (2).

2) Press fit pin assembly (11). fl Direct arrow a on the end face of the pin assembly up (when the pin assembly is installed to the machine). fl Push in the pin assembly with cover (2). fl Push in the pin assembly to machined face b of the bogie. 2 Apply lubricant (LM-P) all over the side of the pin assembly. fl Total press fitting of force of pin assembly: 294.2 – 490.5 kN {30 – 50 tons}

5. Refilling with oil Supply the specified quantity of oil by using tool L19. fl Oil supplying pressure: 0.49 Mpa {5 kg/cm2} 5

Pin assembly: 180 – 200 cc (GO-140)

30-179-5 6

D475A-3


BOGIE

6. Press fit the pin assembly on the opposite side of the bogie according to above steps 3 and 4. 7. Tighten the mounting bolts of pin assembly cover (2) (2 places on inside and outside). 3 Cover mounting bolt: 883 – 1,470 Nm {90 – 150 kgm}

8. Adjust the tension of the track shoe. For detail, see TESTING AND ADJUSTING, Testing and adjusting track shoe tension.

D475A-3

30-179-6 6


BOGIE

DISASSEMBLY OF BOGIE ASSEMBLY Serial No.: 10601 – 10684 1. Track roller assembly Turn over bogie assembly (1), and lift off 2 track roller assemblies (2).

2. Installation of fixture Turn over bogie assembly, then use tools L13L17 to L13-19 to secure bogie assembly. fl Install the washer between the fixture and the bogie.

3. Collar 1) Remove pin (3). 2) Remove collar (4).

30-180 2 6

D475A-3

BOGIE


3)

Remove

floating

seal (5) from collar.

w 4.

Cage I) Using tool L14, remove

CED01951

cage (6) and spacer

(7). Ir Catch the oil in an oil container.

CWD03254

2)

Remove 2 floating of cage.

seals (8) from both sides

CED01953

5.

Pulling out pin assembly 1) Set bogie assembly to tool L13. * The pin assembly is removed from the cage installation side, so set the bogie assembly correctly in the direction for removal. * For details of the method of setting tool L13, see SETTING CHART FOR PIN ASSEMBLY REMOVAL TOOLS. 2) Pull out pin assembly (9) from bogie assembly (I). Ir Pin assembly removal pressure : 519.4 - 1,107.4 kN (53 - 113 ton1

D475A-3

I

CED01954

CED01955

30-181 0

DISASSEMBLY

3)

6.

AND ASSEMBLY

Lift off pin assembly

BOGIE

(9).

Disassembly of pin assembly

1) Remove spacer (IO) and ring (11) from pin assembly.

2) Remove 2 floating seals (12) from both sides

IO

of ring.

CEDOl958

3) 4)

Remove spacer (13) and ring (14) from pin assembly. Remove 2 floating seals ( 15) from both sides of ring. I3

L._..-J CED01960

5) 6)

Remove floating seal (16) and spacer (17) from pin assembly. Using hydraulic press @I and push tool @ and tool L15, pull out collar (19) from shaft

-

(18). * Collar removal pressure : 117.6 - 264.6 kN I12 - 27 ton)

-

30-182 0

D475A-3


BOGIE

7. Disconnection of bogie Remove tools L13-17 to L13-19, disconnect inner bogie (20) and outer bogie (21).

fl SETTING CHART FOR PIN ASSEMBLY REMOVAL TOOL L13

D475A-3

30-183 2 6


BOGIE

ASSEMBLY OF BOGIE ASSEMBLY Serial No.: 10601 – 10684 1. Securing bogie Assemble outer bogie (21) and inner bogie (20), and secure with tools L13-17 to L13-19. fl Install the washer between the fixture and the bogie. fl After securing the tools, check that the pin mounting holes of the inner bogie and outer bogie are correctly centered.

2. Assembly of pin assembly fl When assembling each floating seal, coat the mating surface of the seal thinly with oil (EO-30). 1) Using hydraulic press 1 and tool L13-16, press fit shaft (18) to collar (19). fl Before press fitting the shaft, center the shaft with the collar. fl Collar press-fitting pressure : 117.6 – 264.6 kN {12 – 27 ton} fl Check that stepped difference a between the end face of the shaft and collar is the dimension given below. • Stepped difference a : 1.5 ± 1.4 mm 2) Using L16, install floating seal (16) to collar (19). fl Remove all oil and grease from the Oring and O-ring contact surface, and dry before installing. fl After installing the floating seal, check that the angle of the seal is less than 1 mm. fl Check that the protrusion of the sliding surface of the floating seal from the collar is 5 – 7 mm. 3) Install spacer (17).

4) Using tool L16, install floating seal (15) to both ends of ring (14). fl Follow the precautions marked fl for Step 2). 5) Install ring (14) and spacer (13) to shaft.

30-184 2 6

D475A-3


6)

7)

Using tool L16, install floating seals (12) to both sides of ring (11). * The precautions are the same as for the items marked * in Step 2). Install ring (II)

BOGIE

I2

Llti

IO

and spacer (IO) to shaft.

II B

8)

Using tool L16, install floating seals (8) to both sides of cage (6). * The precautions are the same as for the items marked Ir in Step 2).

9)

Install cage (6) and spacer (7) to shaft.

*

Misalignment X between the stamped arrow mark on the shaft and the bolt hole in the cage shall be 0 2 5”.

X

OO

0

I

0

0

_-

!

0 0 0

0

0

0

@ CWD03208

IO) Using tool L16, install floating seal (5) to collar (4). * The precautions are the same as for the items marked * in Step 2). 11) Install collar (4) to shaft.

D475A-3

30-185 0

DISASSEMBLY

AND ASSEMBLY

BOGIE

12) Install pin (3).

/3

CWDO

3.

Press fitting of pin assembly I) Raise pin assembly (9) and set to bogie assembly (1). * Set the shaft with the arrow marks facing directly up.

I

I 2)

CED01975

Using tool L13, press fit pin assembly (9) to bogie assembly (I). * For details of the method of setting tool L13, see SETTING CHART FOR PIN ASSEMBLY PRESS-FITTING TOOLS. 6 Outer circumference of pin assembly : Anti-friction compound (Three Bond 1809B or equivalent) * Pin assembly press-fitting force: 519.4 - 1,107.4 kN I53 -113 ton}

I *

*

*

30-186 0

I

CED01955

After press fitting the pin assembly partially, use guide bolt @to align the position of the cage bolt hole. Press fit until the cage flange is in tight contact. To protect the thrust bushing until the cage flange is in tight contact, press fit at a maximum force of 1,440 kN {I47 ton}. To protect the flange after the cage flange is in tight contact, push in with a maximum force of 1,735 kN {I77 ton}.

D475A-3

DISASSEMBLY

4.

5.

BOGIE

AND ASSEMBLY

Removal of fixture Remove tools L13-17 sembly.

- L13-19

from

Refilling with oil Using tool L20, add oil to specified tighten oil filler plug. Bogie assembly

Q *

bogie

as-

level and

: 350 - 390 cc (GO1401

To vacuum

To

oil

tank

PurnP

To settle the floating seal in position, fill with oil, then move the inner bogie and outer bogie up and down 5 times.

DAD03006

6.

Track roller assembly Raise 2 track roller assemblies (2) and install to bogie assembly (1). & Track roller mounting bolt : Adhesive (LT-21 w Track roller mounting bolt : 2,205 - 2,695 Nm I225 - 275 kgm1

D475A-3

30-187 0


*

BOGIE

SETTING CHART FOR PIN ASSEMBLY FITTING TOOL L13

Ll3;7

Ll3i2

Ll3-II Ll3,-‘2

LJ13-8

PRESS-

Ll/3-26

L/3-!

Ll\-4

Ll3i25

LI)-I5

Ll)-IO

L)3-6

r CWD03058

30488 0

D475A-3


BOGIE

DISASSEMBLY OF BOGIE ASSEMBLY Serial No.: 10685 and up 1. Track roller assembly Turn over bogie assembly (1) and lift off 2 track roller assemblies (2).

2. Remove cover (3).

3. Disassemble the pin assembly according to REMOVAL OF BOGIE ASSEMBLY (Step 8).

4. Disconnection of bogie Disconnect inner bogie (4) and outer bogie (5).

D475A-3

30-188-1 6


BOGIE

ASSEMBLY OF BOGIE ASSEMBLY Serial No.: 10685 and up 1. Assembly of pin assembly Assemble the pin assembly according to INSTALLATION OF BOGIE ASSEMBLY (Steps 3 – 6).

2. Set inner bogie (4) to outer bogie (5). 3. Press fitting of pin assembly 1) Set tool L16 and cover (3).

2) Press fit the pin assembly. fl Direct arrow a on the end face of the pin assembly up (when the pin assembly is installed to the machine). fl Push in the pin assembly with cover (2). fl Push in the pin assembly to the machined face b of the bogie and secure the level difference of 5 mm between the bogie and pin assembly. 2 Apply lubricant (LM-P) all over the side of the pin assembly. fl Total press fitting of force of pin assembly: 294.2 – 490.5 kN {30 – 50 tons} 4. Refilling with oil Supply the specified quantity of oil by using tool L19. fl Oil supplying pressure: 0.49 Mpa {5 kg/cm2} 5

Pin assembly: 180 – 200 cc (GO140)

30-188-2 6

D475A-3


BOGIE

5. Press fit the pin assembly on the opposite side of the bogie according to above steps 3 and 4. fl After press fitting the pin assembly, rock the small bogie so that it can be moved with light force. 6. Tighten the mounting bolts of pin assembly cover (3) (2 places on inside and outside). 3 Cover mounting bolt: 883 – 1,470 Nm {90 – 150 kgm}

7. Track roller assembly Sling and install 2 track roller assemblies (2) to bogie assembly (1). 2 Track roller mounting bolt: Adhesive (LT-2) 3 Track roller mounting bolt: 2,205 – 2,695 Nm {225 – 275 kgm}

D475A-3

30-188-3 6


BOGIE

REMOVAL OF NO. 1 BOGIE ASSEMBLY Serial No.: 10601 – 10684 1. Loosen track shoe tension. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Operate blade and ripper, and raise chassis to a position where track roller of No. 2 bogie assembly is separated from track link.  Set a block between the track roller and the track link to prevent the chassis from coming down. 3. Fit eyebolts to holes of pad mounting bolt (M10 x 2) portion at rear of No. 1 bogie assembly, and raise No. 1 bogie assembly (1). 4. Put steel plate between track shoe and roller, then loosen roller cap bolts (2) approx. 20 mm. (Both inside and outside) 5. Tap end face of shaft (3) with hammer and remove track roller assembly (4). • There is a dowel pin on the near side of the track roller assembly, so be careful not to break it. (Dowel pin insertion tolerance: 5 – 6 mm) 6. Remove roller cap bolt (2), then put track roller assembly (4) on steel plate, and pull out. 4 Track roller assembly : 220 kg 7. Raise No. 1 bogie (5) with tool L21 and hold in position. 8. Remove cover (6).

9. Pulling out pin and bushing 1) Set tool L22 in position.

D475A-3

30-189 2 6

DISASSEMBLY

2)

BOGIE

AND ASSEMBLY

Pull out pin (7).

1’ 3)

Set tool L23 in position.

4) 5)

Push out bushing (6). Remove O-ring (9) and ring (IO)-

I

Li2-4

CWD0321(

CWD03211

6)

Set tool L23 in position.

30-190 0

D475A-3

DISASSEMBLY

BOGIE

AND ASSEMBLY

7)

Pull out spacer

8)

(13). Repeat Steps 1) through 71, and pull out pins and bushings inside bogie.

(II)

and bushings

(12) and

3-7

II

/ 12

10. Lower bogie outside. f?lkg

D475A-3

(5) on steel plate,

Bogie assembly

/I I3

L23-8 CWD03212

and pull out to

: 200 kg

30-191 0


BOGIE

INSTALLATION OF NO. 1 BOGIE ASSEMBLY Serial No.: 10601 – 10684 1. Assembly of pin assembly 1) Using tool L24, press fit floating seal (14) to rings (8) and (12), and cage (13). fl Remove all oil and grease from the Oring and O-ring contact surface before assembling the floating seal. fl After installing the floating seal, check that the angle of the seal is less than 1 mm.

2) Press fit pin (7) to cage (13), and install ring (12). 3) Press fit ring (8) to pin (7). 2 Coat portion a (approx. 10 mm) of ring (8) and cage (13) with anti-friction compound (LM-P).

2. Put bogie (5) on steel plate 1, and slide it to center. 3. Using tool L21, set in mounting position.

fl Align the center of the pin hole of the bogie and the track frame, then insert guide tool L25.

30-192 2 6

D475A-3

DISASSEMBLY

4.

BOGIE

AND ASSEMBLY

Press fitting of pin assembly 1) Set tool L23 in position.

2)

Press fit pin assembly (15). * Set so that the arrow mark at the tip of the pin is at the top, then tap with a hammer to set in position. & Coat portion b (approx. 5 mm) on outside circumference of pin assembly with lubricant (LM-PI.

L#tl

5.

CWD03214

Remove plug, then using tool L20, fill with oil to specified level. Q

Pin assembly

: 240 - 255

CC

(EO-30)

CWD03215

6.

Repeat Steps 4 and 5 to press fit pin assembly on outside of bogie.

7.

Install cover (6). (Inside and outside:

8.

Fit eyebolts to holes of pad mounting bolt (Ml0 x 2) portion of bogie (5), then raise bogie and hold in position.

D475A-3

2 places)

30-193 0

DISASSEMBLY

9.

AND ASSEMBLY

BOGIE

Using tool l26, insert track roller assembly (4) to shaft, then raise, taking care to maintain balance, and set on top of track shoe. &I ks

Track roller assembly

: 220 kg

CWD02878

10. Lower machine slowly, and when clearance between bogie (5) and shaft (3) is approx. 20 mm, install cap (16) and tighten temporarily with bolts (2). 11. Align dowel pin hole and tighten & Cap mounting bolt :

bolt (2).

Thread tightener w

(LT-21

Cap mounting

bolt : 1,960 - 2,450 Nm I200 - 250 kgm1

12. Adjust track shoe tension. For details, see TESTING AND ADJUSTING, ing and adjusting track shoe tension.

30-194 0

Test-

D475A-3


BOGIE

REMOVAL OF NO. 1 BOGIE ASSEMBLY Serial No.: 10685 and up 1. Loosen track shoe tension. For details, see REMOVAL OF TRACK SHOE ASSEMBLY. 2. Operate blade and ripper, and raise chassis to a position where track roller of No. 2 bogie assembly is separated from track link.  Set a block between the track roller and the track link to prevent the chassis from coming down. 3. Fit eyebolts to holes of pad mounting bolt (M12 x 2) portion at rear of No. 1 bogie assembly, and raise No. 1 bogie assembly (1). 4. Put steel plate between track shoe and roller, then loosen roller cap bolts (2) approx. 20 mm. (Both inside and outside) 5. Tap end face of shaft (3) with hammer and remove track roller assembly (4). • There is a dowel pin on the near side of the track roller assembly, so be careful not to break it. (Dowel pin insertion tolerance: 5 – 6 mm) 6. Remove roller cap bolt (2), then put track roller assembly (4) on steel plate, and pull out. 4 Track roller assembly : 240 kg 7. Raise No. 1 bogie (5) with tool L20 and hold in position. 8. Remove cover (6).

9. Pulling out shaft and ring 1) Set tool L14. 2) Push out shaft (7) and ring (8) to the opposite side simultaneously. fl Pushing out force: 225.5 – 460.9 kN {13 – 47 tons} fl When the ring is pushed out, it interferes with the idler. Accordingly, supply grease to the track tension adjustment parts in advance and move the idler cushion assembly to the front side of the machine body. D475A-3

30-194-1 6


BOGIE

3) Remove floating seals (9) from the end faces of rings (8) and (12). fl Store the floating seals so that they will not be damaged.

4) Set tool L15.

5) Pull out spacer (11) and rings (12) and (13). fl Pulling out force: 225.5 – 460.9 kN {23 – 47 tons} 6) Remove spacer (11). 7) Remove spacer (14) and floating seals (10) between rings (12) and (13). fl Store the floating seals so that they will not be damaged.

10. Lower bogie (5) on the steel plate and pull it out. 4 Bogie assembly : 180 kg

30-194-2 6

D475A-3


BOGIE

INSTALLATION OF 1ST BOGIE ASSEMBLY Serial No.: 10685 and up 1. Assembly of pin assembly 1) Using tool L18, install floating seals (9) to rings (8) and (12) and install floating seals (10) to the opposite side of ring (12) and ring (13). fl When installing the floating seals, completely degrease the O-rings and O-ring contacting surfaces. fl Check that each floating seal is not inclined more than 1 mm.

2) Press fit shaft (7) to ring (13). 3) Install spacer (14). 4) Press fit ring (12) to shaft (7). 5) Install spacer (11). 6) Press fit ring (8) to shaft (7). 2 Apply lubricant (LM-P) to parts a (about 10 mm) of rings (13) and (8).

2. Slide bogie (5) on steel plate 1 to the center. 3. Set bogie (5) to the mounting position with tool L20.

4. Match the pin hole of the track frame to that of the bogie and insert guide tool L17.

D475A-3

30-194-3 6


BOGIE

5. Press fitting of pin assembly 1) Set tool L16 and cover (6).

2) Press fit the pin assembly. fl Direct arrow a on the end face of the pin assembly up in the mounting state on the machine body. fl Push in the pin assembly with cover (6). fl Push in the pin assembly to machined face b of the bogie and secure the level difference of 5 mm between the bogie and pin assembly. 2 Apply lubricant (LM-P) all over the side of the pin assembly. fl Total press fitting of force of pin assembly: 294.2 – 490.5 kN {30 – 50 tons} 6. Refilling with oil Supply the specified quantity of oil by using tool L19. fl Oil supplying pressure: 0.49 Mpa {5 kg/cm2} 5

Pin assembly: 180 – 200 cc

7. Press fit the pin assembly on the opposite side of the bogie according to above steps 5 and 6. 8. Install covers (2) (2 places on inside and outside). 9. Install eyebolts instead of the pad mounting bolts (M12 x 2 pieces) of bogie (5) and lift and hold the bogie.

30-194-4 6

D475A-3


BOGIE

10. Insert tool L21 in the shaft of track roller assembly (4), then lift and balance the track roller assembly and set it on the track shoe. 4 Track roller assembly: 220 kg

11. Lower the machine body slowly. When the clearance between bogie (5) and shaft (3) becomes about 20 mm, install cap (15) and secure it with bolts (2) temporarily. 12. Matching the dowel pin holes, tighten bolts (2). 2 Cap mounting bolt: Adhesive (LT-2) 3 Cap mounting bolt: 2,205 – 2,695 Nm {225 – 275 kgm} 13. Adjust the tension of the track shoe. For detail, see TESTING AND ADJUSTING, Testing and adjusting track shoe tension.

D475A-3

30-194-5 6


TRACK SHOE

REMOVAL OF TRACK SHOE ASSEMBLY Serial No.: 10601 – 10684 CHECKING BEFORE REMOVAL OF TRACK SHOE ASSEMBLY  In some cases, it may be extremely dangerous to remove the track shoe assembly. To prevent danger, carry out the following checks before removing the track shoe assembly.  Never loosen the lubricator more than one turn. •

Loosen lubricator (1) at the adjustment cylinder, release the grease, then move the machine backwards and forwards a short distance, and check that the track tension is relieved. fl If the shoe tension is relieved, go to REMOVAL OF TRACK SHOE ASSEMBLY (NORMAL). • If the above procedure does not relieve the track tension and the track shoe assembly remains tense, there may be an abnormality inside the track frame (the recoil spring case is broken, the recoil spring set bolt is broken, or the nut at the end of shaft has fallen off). fl If the shoe tension is not relieved, go to REMOVAL OF TRACK SHOE ASSEMBLY (WHEN THERE IS ABNORMALITY INSIDE TRACK FRAME).

REMOVAL OF TRACK SHOE ASSEMBLY (NORMAL) fl If CHECKING BEFORE REMOVAL OF TRACK SHOE ASSEMBLY shows that there is no abnormality, do as follows. 1. Set master link in position. fl Set a block (height: approx. 400 mm) so that the master link is approx. 600 mm from the ground at the front. 2. Relieve track shoe tension. 1  Never loosen lubricator (1) more than one turn. fl If the track is not relieved by loosening the lubricator, move the machine backwards and forwards. 3. Remove track shoe (2). 2

D475A-3

30-195 2 6

TRACK SHOE


4.

Remove

5.

Raise tip of master link, move machine towards rear slowly, and lay out track shoe assembly (4). * Length of track : Approx. 12.5 m To prevent danger, never stand in front of the idler yoke assembly.

a

connection

portion

of master

link (3).

REMOVAL OF TRACK SHOE ASSEMBLY (WHEN THERE IS ABNORMALITY INSIDE TRACK FRAME) * When CHECKING BEFORE REMOVAL OF TRACK

A

1.

2.

SHOE ASSEMBLY shows any abnormality, do as follows. If there is any abnormality inside the track frame, there is danger that the track shoe assembly may spring back when it is removed or that the idler may spring out when the track shoe assembly is removed. This may lead to serious injury, so remove the track shoe assembly as follows. Remove work equipment assembly. For details, see REMOVAL OF WORK EQUIPMENT ASSEMBLY. Loosen lubricator (11, then move machine backwards and forwards to remove grease. g Never loosen lubricator (I) more than one turn. Ir Check that all the grease has been removed.

30-196 0

D475A-3


TRACK SHOE

3. Drive slowly forward to put track shoe at idler end in contact with large block 1 or a wall (if another large bulldozer of the same capacity as the machine being repaired is available, put in contact with the blade). Stop machine when recoil spring bends and slack is formed in track shoe assembly, then apply brake. When doing this, set so that master link is between idler and front carrier roller. For safety reasons, fit a lever block between carrier roller support and link. 4. Remove shoe (4), then disconnect master link (5). 5. Move machine towards rear slowly and lay out track shoe assembly.  To prevent danger, never stand in front of the idler yoke assembly.

INSTALLATION OF TRACK SHOE ASSEMBLY Serial No.: 10601 – 10684 • Carry out installation in the reverse order to removal. 1 fl For details of the track shoe tension, see TESTING AND ADJUSTING, Testing and adjusting of track shoe tension. 2 fl Tighten the master link shoe mounting bolts in the order shown in the diagram on the right. 2 Shoe mounting bolt : Seizure prevention compound (Maruzen Molymax No. 2 or equivalent) 3 Shoe mounting bolt : 1st step : 784 ± 78.4 Nm {80 ± 8 kgm} 2nd step: Tighten a further 180 ± 10°

D475A-3

30-197 2 6


TRACK SHOE

REMOVAL OF TRACK SHOE ASSEMBLY Serial No.: 10685 and up CHECKING BEFORE REMOVAL OF TRACK SHOE ASSEMBLY  In some cases, it may be extremely dangerous to remove the track shoe assembly. To prevent danger, carry out the following checks before removing the track shoe assembly.  Never loosen the lubricator more than one turn. •

Loosen lubricator (1) at the adjustment cylinder, release the grease, then move the machine backwards and forwards a short distance, and check that the track tension is relieved. fl If the shoe tension is relieved, go to REMOVAL OF TRACK SHOE ASSEMBLY (NORMAL). • If the above procedure does not relieve the track tension and the track shoe assembly remains tense, there may be an abnormality inside the track frame (the recoil spring case is broken, the recoil spring set bolt is broken, or the nut at the end of shaft has fallen off). fl If the shoe tension is not relieved, go to REMOVAL OF TRACK SHOE ASSEMBLY (WHEN THERE IS ABNORMALITY INSIDE TRACK FRAME).

REMOVAL OF TRACK SHOE ASSEMBLY (NORMAL) fl If CHECKING BEFORE REMOVAL OF TRACK SHOE ASSEMBLY shows that there is no abnormality, do as follows. 1. Set master link in position. fl Bring the master link above the idler (just behind the center). fl Set blocks 1 and 2 at the front end of the idler and between the carrier rollers so that the mating faces of the master link will not open until the master bolt is removed.

2. Relieve track shoe tension. 1  Never loosen lubricator (1) more than one turn. fl If the track is not relieved by loosening the lubricator, move the machine backwards and forwards.

30-197-1 6

D475A-3


TRACK SHOE

3. Remove track shoe (2). 2 fl Loosen each of the 4 bolts by 1 – 2 turns. Check that the 4 bolts can be turned lightly, then pull them out. Do not pull out only 1 bolt without loosening the other three. fl If a bolt is turned forcibly while it cannot be turned lightly, the threads of it and master link (3) may be damaged.

4. Raise tip of master link, move machine towards rear slowly, and lay out track shoe assembly (4). fl Length of track : Approx. 12.5 m  To prevent danger, never stand in front of the idler yoke assembly.

REMOVAL OF TRACK SHOE ASSEMBLY (WHEN THERE IS ABNORMALITY INSIDE TRACK FRAME) fl When CHECKING BEFORE REMOVAL OF TRACK SHOE ASSEMBLY shows any abnormality, do as follows.  If there is any abnormality inside the track frame, there is danger that the track shoe assembly may spring back when it is removed or that the idler may spring out when the track shoe assembly is removed. This may lead to serious injury, so remove the track shoe assembly as follows. 1. Remove work equipment assembly. For details, see REMOVAL OF WORK EQUIPMENT ASSEMBLY. 2. Loosen lubricator (1), then move machine backwards and forwards to remove grease.  Never loosen lubricator (1) more than one turn. fl Check that all the grease has been removed.

D475A-3

30-197-2 6


TRACK SHOE

3. Drive slowly forward to put track shoe at idler end in contact with large block 3 or a wall (if another large bulldozer of the same capacity as the machine being repaired is available, put in contact with the blade). Stop machine when recoil spring bends and slack is formed in track shoe assembly, then apply brake. When doing this, set so that master link is between idler and front carrier roller. For safety reasons, fit a lever block between carrier roller support and link. 4. Remove shoe (2), then disconnect master link (3). 5. Move machine towards rear slowly and lay out track shoe assembly.  To prevent danger, never stand in front of the idler yoke assembly.

INSTALLATION OF TRACK SHOE ASSEMBLY Serial No.: 10685 and up • Carry out installation in the reverse order to removal. 1 fl For details of the track shoe tension, see TESTING AND ADJUSTING, Testing and adjusting of track shoe tension. fl Tighten all of the 4 bolts with the fingers until the master link contacting faces are fitted to each other. fl If a bolt is tightened forcibly before the master link contacting faces are fitted to each other, the threads of that bolt and the master link may be damaged. 2 fl Tighten the master link shoe mounting bolts in the order shown in the diagram on the right. 2 Shoe mounting bolt : Seizure prevention compound (Maruzen Molymax No. 2 or equivalent) 3 Shoe mounting bolt : 1st step : 980 ± 98 Nm {100 ± 10 kgm} 2nd step: Tighten a further 180 ± 10°

30-197-3 6

D475A-3


TRACK SHOE

OVERALL DISASSEMBLY OF TRACK SHOE Serial No.: 10685 and up fl When disassembling the track shoe, see shop manual – GUIDANCE FOR REUSABLE PARTS – LUBRICATED TRACKS (III) (Form No.: SEBG4092).

1. Removal of shoe Sling the shoe assembly and set it on a floor with the shoe up. Remove the shoe with a shoe bolt impact wrench. fl If a shoe bolt is still hard (If its torque is not lowered to 0) after it is unscrewed by 1 turn, loosen the other bolts, and it can be removed easily. fl If a bolt is unscrewed forcibly while its torque is not 0, it will stick to the link and will need to be repaired. fl When moving the shoe assembly, take care not to damage the master link. fl If it is obliged to cut a shoe nut with gas, keep the temperature of the sealing parts below 80°C and prevent the spatters from entering the clearance of the link so that the sealing parts will not be deteriorated by the heat.

D475A-3

30-197-4 6


TRACK SHOE

2. Disassembly of link 1) Set the link assembly on the link press and hit it with a hammer so that the bushing will be fitted to the jaw. fl If the link tread, outside of the bushing, etc. are worn, adjust the height of the jaw or guide plate to align the disassembly jig with the pin and bushing so that the link hole will not be damaged during disassembly. fl If the above parts are not aligned perfectly, the link hole may be damaged and the pin and bushing may be broken during disassembly. fl Drive the small plug of the pin inward with tool R1 after disassembly to avoid making the workshop dirty.

2) Operate the left cylinder to pull out the fitted parts of the left link, pin, and bushing simultaneously. fl Check the pulling out force of the pin and bushing to see if the necessary fitting force of the pin and bushing is obtained when they are turned over and assembled. fl When the wedge link is cut, it bangs. This phenomenon is normal.

3) Return the left cylinder and operate the right cylinder to pull out the right link, pin, and bushing simultaneously.

30-197-5 6

D475A-3


TRACK SHOE

4) Return the right cylinder and take out the links, pins, bushings, and spacers on both sides, then send the next link assembly to the jaw. fl If the end faces of the bushings and sealing surfaces are damaged, oil will leak. Accordingly, handle them with care. fl Take care not to scratch your hands with the sharp edges of a cut wedge link. 3. Inspection Inspect the following items to see if the parts can be reused for an oil lubricated track or a grease lubricated track, then generally examine whether the link assembly should be recycled as an oil lubricated track or as an grease lubricated track. fl For judgment of recycling of the parts, see shop manual – GUIDANCE FOR REUSABLE PARTS – LUBRICATED TRACKS (III) (Form No.: SEBG4092).

1) Check the parts visually for damage, then apply a dye penetrant test or a magnetic flaw test to the parts which seem to be damaged. Discard a cracked part since it cannot be reused. 2) Measure the outside diameters of the fitting parts of the pin and bushing and those of the pin and bushing fitting parts of the link with a micrometer and a cylinder gauge to see if the allowable interference is obtained. When reusing the parts for an oil lubricated track, the pin and link must have the standard interference. fl If the allowable interference is not obtained, replace the parts with new ones. fl For the criteria, see “Maintenance standard”.

D475A-3

30-197-6 6


TRACK SHOE

fl Precautions for storage 1) Store the seal without removing it from the link to prevent rusting of the counterbore of the link, taking care not to damage the seal lip. 2) Apply rust-preventive oil to the pin and bushing fitting parts and shoe and master link mating faces of the link. 3) Apply rust-preventive oil all over the pin, bushing, and spacer. In particular, take care not to damage the end faces of the bushing.

30-197-7 6

D475A-3


TRACK SHOE

OVERALL ASSEMBLY OF TRACK SHOE Serial No.: 10685 and up fl When assembling the track shoe, see shop manual – GUIDANCE FOR REUSABLE PARTS – LUBRICATED TRACKS (III) (Form No.: SEBG4092).

1. When recycling for oil lubricated track 1. Preparation work 1) Cleaning of seal assembly Take the seal assembly out of the link and divide it into the seal ring and load ring, then clean them. fl Since the seal ring and load ring are deteriorated easily by cleaning liquid (trichloroethylene, etc.), clean them quickly. After cleaning them, wipe off the cleaning liquid.

2) When reusing the pin, chamfer the corners of its end smoothly with a grinder. Remove the projections of the fitting parts with the grinder. fl If the corners of the pin end are worn and sharpened, they may scuff the fitting parts to cause oil leakage.

3) Clean the link, pin, bushing, and spacer, if they are dirty. Remove the projections of the link and bushing with the grinder. fl Since the parts are rusted easily, clean them just before assembling them. fl Do not repair the end faces of the bushing with a grinder, etc. since that can cause oil leakage.

D475A-3

30-197-8 6


TRACK SHOE

4) If the large plug has been driven out, drive it with tool R3. Clean the pin hole with tool R2 in advance.

i)

Insert the plug in the hole of the guide through the plug inserting hole. ii) Push the bar with the hand and insert the plug until it stops. iii) Push the plug with the bar to press the guide against the pin. iv) Drive the bar with a hammer. fl Driving distance a from pin end: 10 ± 1 mm fl If the edge of the pin hole is worn and sharpened, chamfer it with a small grinder (wheel tip angle: 45 – 60°) so that the plug will not be damaged. fl Coat the plug with G090 and drive it with the smaller end ahead.

5) Installation of seal assembly Clean the counterbore of the link carefully and push in the seal to the bottom with tool R6. fl If any oil sticks to the counterbore of the link and seal assembly, the seal turns and its sealing performance is lowered. Accordingly, do not apply any oil. Take care that oil will not stick to the seal when the seal is inserted in the counterbore.

30-197-9 6

D475A-3


TRACK SHOE

6) Adjust the dimensions of the fitting jig of the link press to keep the projection distance of the pin and bushing constant and keep the fitting dimensions of the seal within the limits when those parts are assembled. fl For the standard dimensions, see “Pressfitting jig dimension table for link press” fl If the pin end (Part P) and link sides (Parts Q and R) are worn, count in the quantity of the wear when adjusting the dimensions of the fitting jig so that the pin and bushing will be projected by the same distance on both sides. 7) Adjust the relief pressure of the link press so that the pressing force will not exceed the specified value. fl If the pressing force is too large, the spacer is pressed against the bushing with an excessive force. As a result, the spacer may be broken or it and bushing end may be worn abnormally. fl Press cutting force of pin and bushing: 1,274 kN {130 tons} Press cutting force ≈ 1.8 x Average press fitting force (Set the press cutting force by adjusting the relief pressure of the link press.)

2. Assembly of link 1) Apply oil (G090) between the pin and bushing with a clean brush, then set them on this side of the link press jaw. fl When reusing (turning) the bushing, set its worn side to the shoe fitting face of the link (which is directed up on the link press).

D475A-3

30-197-10 6


TRACK SHOE

2) Press fit both bushing-side master links to the bushings with the shoe fitting faces up. fl At this time, use the pin-side master links as supports. fl Fitting force of bushing: 245 – 382 kN {25 – 39 tons}

3) Measure the distance between the shoe bolt holes of both links with a shoe bolt hole pitch gauge. Press fit the master link until the specified shoe bolt hole pitch is obtained. fl Remove the all chips made when the bushing is press fitted by blowing air against them.

4) Turn over the master links and check that they are press fitted in parallel.

5) Measure the projections of the bushing on both sides with a depth gauge. fl Adjust the fitting jig of the link press so that the bushing will be projected by the same distance on both sides.

30-197-11 6

D475A-3


TRACK SHOE

6) Send out the master link and set the next pin and bushing. fl When reusing the pin, install it with its side hole on the link tread side similarly to a new one. If it is not installed in this direction, its strength may lower. Accordingly, make a mark of the side hole on the end face of the pin.

7) Apply gasket sealant (198-32-19890) to the pin fitting hole of the link to prevent oil from oozing through the scuffs of the pin fitting parts.

8) Set the right link and install the spacer to the pin. fl Check that the sealing surface and bush ends are free from dirt and apply oil (G090) to them with a clean cloth or brush. fl Clean the spacer with a clean cloth before installing it.

9) Set the right jig on the receiving side and the left jig on the pushing side and press fit the pin and bushing simultaneously. fl If the jigs shake while the pin and bushing are press fitted, the seal may come off the link. Accordingly, press fit smoothly. If the seal comes off the link, stop press fitting and install the seal to the link correctly, then start press fitting again. fl Press fitting force of pin and bushing: 578 – 833 kN {59 – 85 tons}

D475A-3

30-197-12 6


TRACK SHOE

10) Using the spacer for fine adjustment, press fit the pin until it is fitted to the lower part of the pin end receiving jig. fl Adjust the depth of the receiving jig so that the pin will be projected by the same distance on both sides.

11) Set the left link and install the spacer to the pin. fl Apply oil similarly to the right link.

12) Set the left jig on the receiving side and the right jig on the pushing side and press fit the left link. fl When press fitting, take care that the seals and spacers on both sides will not come off. Press fitting force of link: 578 – 833 kN {59 – 85 tons}

13) Press fit until the link, spacer, and bushing are fitted to each other. fl Actually, you cannot see from outside if the above parts are fitted. Accordingly, control the hydraulic pressure of the link press. Set the relief pressure to a proper level and heighten the hydraulic pressure to that level. For setting of the relief pressure, see PREPARATION WORK. fl Check that adjacent 2 links can turn around each other.

30-197-13 6

D475A-3


TRACK SHOE

14) Measure the distance between the shoe bolt holes with a shoe bolt hole pitch gauge and check that the result is within the limits. fl If the distance between the shoe bolt holes is longer than the limit, disassemble and check for abnormality, then press fit again. fl If the distance between the shoe bolt holes is shorter than the limit and the shoe cannot be installed, the spacer or bushing end may be worn more than the allowable limit. In this case, disassemble and replace the parts. 15) Install the ring to jig R12.

16) Match the jig to the pin hole and push it in until the ring is inserted in the pin hole. fl A sound is made when the ring is inserted in the pin hole.

17) Similarly, insert the ring in the pin groove on the opposite side with jig R9.

D475A-3

30-197-14 6


TRACK SHOE

18) Push in the ring with jig R13. Pushing force of ring: 392 – 490 kN {40 – 50 tons}

19) After each link is assembled, bleed air from the pin with tool R5 and check the sealing performance. fl Keep the degree of vacuum inside the pin at 91 – 95 kPa {680 – 710 mmHg} for 5 seconds and check that the pressure does not change. If the pressure changes, disassemble and check the seal. If the seal is free from abnormality, assemble again.

20) Supply oil (G090) with tool R5 until the oil supply pressure rises to 196 – 294 kPa {2 – 3 kg/cm2}. fl In a cold or very cold district, supply Komatsu genuine oil (150-09-19270 or 195-32-61990) having better low-temperature characteristics instead of G090. fl If the oil pressure is heightened too much, it has bad effects on the seal. Take care. fl Supply oil so that the depth L of the hollow of the pin hole will be in the following range when the link is left with the small plug side up (when the link assembly is placed on its side) for 30 minutes. Dimension L: 40 – 70 mm

30-197-15 6

D475A-3


TRACK SHOE

21) After supplying oil, drive in the small plug to the specified position with tool R4. fl Apply G090 around the small plug. fl Drive in the plug to the following depth. Driving depth from end: 7.5 ± 1 mm 22) Assemble the master link on the pin side at last. fl Check that the master links on both sides are press fitted in parallel.

3. Installation of shoe 1) Set the link assembly on the bed and install the shoe with a shoe bolt impact wrench and a torque wrench. 3 Shoe bolt (Regular link) Initial torque: 784 ± 78 Nm {80 ± 8 kgm} Retightening angle: 180 ± 10° 2 Shoe bolt: Lubricant containing molybdenum disulfide (LM-P)

2) When installing a double track, place the assembled double shoes on a level place in 1 line with the shoe side up. Pull pin-side master link (1) and bushing-side master link (2) together and set them to each other by the mating faces. Place shoe (3) on the links and check that shoe bolt (4) can be tightened easily until the mating faces of the links are fitted together, then connect the links with the master bolts. 2 Shoe bolt: Lubricant containing molybdenum disulfide (LM-P) 3 Shoe bolt (Master link) Initial torque: 980 ± 98 Nm {100 ± 10 kgm} Retightening angle: 180 ± 10° fl Tighten the bolts in the order of 1 – 4.

D475A-3

30-197-16 6


TRACK SHOE

2. When recycling for grease lubricated track 1. Preparation work 1) Cleaning of seal assembly Take the seal assembly out of the link and divide it into the seal ring and load ring, then clean them. fl Since the seal ring and load ring are deteriorated easily by cleaning liquid, clean them quickly. After cleaning them, wipe off the cleaning liquid.

2) When reusing the pin, chamfer the corners of its end carefully with a grinder so that it will be press fitted smoothly.

3) Drive the large plug and small plug with tools R3 and R4. i) Insert each plug in the hole of the guide through the plug inserting hole. (Apply oil to the plug.) ii) Push the bar with the hand and insert the plug until it stops. iii) Push the plug with the bar to press the guide against the pin. iv) Drive the bar with a hammer. fl Driving distance a from pin end: Small plug: 7.5 ± 1 mm Large plug: 10 ± 1 mm fl If the plugs were not pull out of the pin when disassembled, use them as they are. 4) Clean the outside of the pin, surfaces of the spacer, and end faces and inside of the bushing, if they are dirty. 5) Apply grease to the outside of the pin and surfaces of the spacer.

30-197-17 6

D475A-3


TRACK SHOE

6) Installation of seal assembly Clean the counterbore of the link carefully and push in the seal to the bottom with tool R6. fl If any grease sticks to the counterbore of the link and seal assembly, the seal turns and its sealing performance is lowered. Accordingly, do not apply any grease.

7) Adjust the dimensions of the fitting jig of the link press to keep the projection distance of the pin and bushing constant and keep the fitting dimensions of the seal within the limits when those parts are assembled. fl For the standard dimensions, see “Pressfitting jig dimension table for link press” fl If the pin end (Part P) and link sides (Parts Q and R) are worn, count in the quantity of the wear when adjusting the dimensions of the fitting jig so that the pin and bushing will be projected by the same distance on both sides.

D475A-3

30-197-18 6


TRACK SHOE

2. Assembly of link 1) Apply lithium grease (G2-LI) between the pin and bushing, then set them on this side of the link press jaw. fl When reusing (turning) the bushing, set its worn side to the shoe fitting face of the link (which is directed up on the link press). 2) Press fit both bushing-side master links to the bushings with the shoe fitting faces up. fl At this time, use the pin-side master links as supports. fl Fitting force of bushing: 245 – 382 kN {25 – 39 tons}

3) Measure the distance between the shoe bolt holes of both links with a shoe bolt hole pitch gauge. Press fit the master link until the specified shoe bolt hole pitch is obtained. fl Remove the all chips made when the bushing is press fitted by blowing air against them. 4) Turn over the master links and check that they are press fitted in parallel.

5) Measure the projections of the bushing on both sides with a depth gauge. fl Adjust the fitting jig of the link press so that the bushing will be projected by the same distance on both sides.

30-197-19 6

D475A-3


TRACK SHOE

6) Send out the master link and set the next pin and bushing. fl When reusing the pin, install it with its side hole on the link tread side similarly to a new one. If it is not installed in this direction, its strength may lower. Accordingly, make a mark of the side hole on the end face of the pin. fl If the outside of the pin is worn, set it with the un-worn part on the traction side. In this case, install it with its side hole on the link tread side, too. 7) Set both links and operate both pushing jigs to press fit the pin and bushing simultaneously. fl If the jigs shake while the pin and bushing are press fitted, the seal may come off the link. Accordingly, press fit smoothly. If the seal comes off the link, stop press fitting and install the seal to the link correctly, then start press fitting again. fl Press cutting force of pin and bushing: 1,274 kN {130 tons} Press cutting force ≈ 1.8 x Average press fitting force (Set the press cutting force by adjusting the relief pressure of the link press.) 8) Measure the distance between the shoe bolt holes with a shoe bolt hole pitch gauge. If the result is within the limits, stop press fitting.

9) Install the ring to jig R12.

D475A-3

30-197-20 6


TRACK SHOE

10) Match the jig to the pin hole and push it in until the ring is inserted in the pin groove. Similarly, insert the ring on the opposite side with jig R9. fl A sound is made when the ring is inserted in the pin.

11) Push in the ring with jig R13. Pushing force of ring: 392 – 490 kN {40 – 50 tons}

12) Assemble the master link on the pin side at last. fl Check that the master links on both sides are press fitted in parallel.

30-197-21 6

D475A-3


TRACK SHOE

3. Shoe (Regular link) Set the link assembly on the bed and install the shoe with a shoe bolt impact wrench and a torque wrench. 2 Shoe bolt: Lubricant containing molybdenum disulfide (LM-P) 3 Shoe bolt (Regular link) Initial torque: 784 ± 78 Nm {80 ± 8 kgm} Retightening angle: 180 ± 10°

4. Assembly of 1/2 track Place the assembled 2 shoes on a level place in 1 line with the shoe side up. Pull pin-side master link (1) and bushing-side master link (2) together and set them to each other by the mating faces. Place shoe (3) on the links and check that shoe bolt (4) can be tightened easily until the mating faces of the links are fitted together, then connect the links with the master bolts. 2 Shoe bolt: Lubricant containing molybdenum disulfide (LM-P) 3 Shoe bolt (Master link) Initial torque: 980 ± 98 Nm {100 ± 10 kgm} Retightening angle: 180 ± 10° fl Tighten the bolts in the order of 1 – 4.

D475A-3

30-197-22 6


LINK PRESS

PRESS-FITTING JIG DIMENSION TABLE FOR LINK PRESS Serial No.: 10685 and up

Jig dimension (mm) a

4.6

b

2.0

c

59.1

30-197-23 6

D475A-3


ONE LINK

FIELD DISASSEMBLY OF ONE LINK Serial No.: 10685 and up 1. Install tools R8-4, R8-1, and R8-5 to link (1) with 2 bolts (2). fl Use 2 track bolts as 2 bolts (2).

2. Install tool R8-12 to tool R8-4. fl Check that the hole of R8-12 is aligned. If it is not aligned, retighten R8-5 and adjust the position of R8-12. Install tool R8-10 to tool R8-8. Install a rope to R8-10, then sling and install R8-10 to R8-12. Install tools R8-2 and R8-3 to tool R8-1. fl Hitch and install R8-2 to the rib of R8-8 so that R8-8 will not lean.

3. Install tools R8-6, R8-10, R8-7, and R8-11 to tool R8-28. Install ropes to the eyebolt of R8-28 and R8-10, then sling them so that R8-7 will be horizontal. 4. Insert R8-7 in the hole of R8-8 installed to the track, then clamp it with R8-9.

D475A-3

30-197-24 6


ONE LINK

5. Pulling out of pin 1) Set tools R8-13, R8-14, and R8-15 to R8-11, then apply hydraulic pressure to push pin (3). 2) After the cylinder reaches the stroke end, connect tools R8-16 and R8-14 and repeat the work. 3) Repeat step 5.2). 4) After the cylinder reaches the stroke end again, remove tools R8-13 and R8-14 and add R8-25 and R8-14 to pull out pin (3).

6. Set tools R8-30 and R8-31 to the roller tread side of the link to be disassembled, then connect tool R8-29 and apply hydraulic pressure to open the link by 5 – 6 mm and disconnect the link.

7. Repeat steps 1 – 5 to remove pin (4) on the opposite side.

30-197-25 6

D475A-3


ONE LINK

8. Repeat step 6 to remove link (5).

D475A-3

30-197-26 6


ONE LINK

FIELD ASSEMBLY OF ONE LINK Serial No.: 10685 and up 1. Assemble the link sub-assembly according to the following procedure. 1) Set tool R8-17 to the bushing-side end of link (6) and press fit bushing (7). fl Press fitting force of bushing: 245 – 382 kN {25 – 39 tons} 2) Set tool R8-18 to the pin-side end of the link and press fit pin (8). fl Set the pin with its side hole on the link tread side. fl Press fitting force of pin: 333 – 451 kN {34 – 46 tons}

2. Set link sub-assembly (9) to the link to be connected.

3. Set link (10) on the opposite side and support it with tool R8-19.

30-197-27 6

D475A-3


ONE LINK

4. Similarly to the disassembly procedure, set tools R8-29, R8-6 – R8-11, and R8-24 to the link. 5. Use R8-18 and R8-23 to press fit the pin. Use tools R8-21, R8-17, R8-20, and R8-14 to press fit the bushing. Press fit the pin and bushing alternately. fl Press fit the pin first. After the bushing is engaged with the link, remove tool R8-19 installed in step 3, then press fit the bushing. fl Press fitting force of pin: 333 – 451 kN {34 – 46 tons} fl Press fitting force of bushing: 245 – 382 kN {25 – 39 tons} 6. Similarly to the disassembly procedure, push open link (11) to be connected by using tools R8-30 and R8-31.

7. Set link (12) to be connected to link (11) and connect them with tool R8-22, then remove tools R8-30 and R8-31.

D475A-3

30-197-28 6


ONE LINK

8. Press fitting of pin 1) Set tools R8-28, R8-6 – R8-12, R8-26, R8-27, R8-14, and R8-22 and apply hydraulic pressure to press fit pin (13). 2) After the cylinder reaches the stroke end, remove tools R8-26, R8-27, and R8-14 and repeat the work with tools R8-16, R8-14, R825, and R8-14. 3) After the cylinder reaches the stroke end again, remove tools R8-12, R8-16, R8-25, R814, and R8-22 and press fit the pin with tools R8-18, R8-23, and R8-24. 2 Pin fitting hole of link: Gasket sealant (198-32-19890) fl Set the pin with its side hole on the link tread side. fl Press fitting force of pin: 666 – 902 kN {68 – 92 tons}

8. Install the ring with tools R7, R9, R11, R12, and R13. fl For the method of using the tools, see OVERALL ASSEMBLY OF TRACK SHOE.

30-197-29 6

D475A-3


MASTER LINK

DISASSEMBLY OF MASTER LINK Serial No.: 10685 and up fl For the method of using tool R8, see FIELD DISASSEMBLY OF ONE LINK. 1. Removal of track shoe assembly Remove the track shoe assembly from the track frame. For details, see EXPANDING TRACK SHOE ASSEMBLY. 2. Disassembly of shoe Disconnect the all master links and divide the shoes into 4 parts. 3. Removal of master link • Master pin type 1) Cutting of regular link with gas Cut the parts marked with gas and remove the parts marked . • Necessary special tool: Gus cutting machine

2) Removal of regular link Push pin (1) in the direction of h with a press to remove it from link (2), then pull pin (1) and link (3) together out of bushing (4).

• Master link type 1) Cutting and removal of master link on bushing side with gas Cut the parts marked with gas and remove the parts marked . Move master links (5) and (6) in the direction of h and g to pull them out. Then, push pins (8) and (9) out of regular link (7) in the directions of h and g with a press. • Necessary special tools: 1. Gus cutting machine 2. Tool R8

D475A-3

30-197-30 6


MASTER LINK

2) Removal of master link on pin side Cut the parts marked with gas and remove the parts marked . Push pin (10) out of link (11) in the direction of h with a press. Then, pull pin (10) and link (12) together out of bushing (13). • Necessary special tools: 1. Gus cutting machine 2. Tool R8

30-197-31 6

D475A-3


MASTER LINK

ASSEMBLY OF MASTER LINK Serial No.: 10685 and up fl For the method of using tool R8, see FIELD DISASSEMBLY OF ONE LINK. 1. Assembly of bushing-side link 1) Press fit bushing-side master link (1) to bushing (2) with a press. fl When press fitting both master links, take care that they will be in parallel with each other. fl Do not damage the mating surfaces of the master links and end faces of the bushing. Unit: mm L1

226 ± 0.7

L2

276 ± 0.7

D1

36 drill hole

D2

33 x 2.0

2. Installation of bushing-side link 1) Expand the center of the link tread with tool R8 as shown in the figure. (Expand the link end by 10 mm.)

2) Set spacer (3) and seal assembly (4) to the counterbore of the link of the connecting part.

D475A-3

30-197-32 6


MASTER LINK

3) Match the pin hole and bushing hole to each other and connect the pin and bushing with guide pin 1.

4) Press fit pin (5) with tool R8 and install bushing-side master link (1). 2 Apply gasket sealant (198-32-19890) to the pin hole of the link. fl Set the pin with its side hole on the link tread side.

5) Install ring (6) with tools R8, R9, R11, R12, and R13. 6) Install the shoe to the link of the connecting part.

7) Drive large plug (7) with tool R3 and supply oil with tool R5, then drive small plug (8) with tool R4. fl When press fitting both master links, take care that they will be in parallel with each other (Bushing side and pin side). fl Do not damage the mating surfaces of the master links and end faces of the bushing. fl Take care that dirt and sand will not stick to the seal, spacer, end of bushing, and tap-hole mating face of the master link.

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D475A-3


MASTER LINK

3. Assembly of link on pin side 1) Set spacer (3) and seal assembly (4) to the counterbore of the master link.

2) Pass pin (10) through bushing (9) and set and press fit pin-side master links (11) from both sides with tool R8. 3) Install the ring with tools R8, R9, R11, R12, and R13. 4) Drive large plug (13) with tool R3 and supply oil with tool R5, then drive small plug (14) with tool R4.

4. Connection of master links Place the assembled 2 shoes on a level place in 1 line with the shoe side up. Pull pin-side master link (15) and bushing-side master link (16) together and set them to each other by the mating faces. Place the shoe on the links and check that the shoe bolt can be tightened easily until the mating faces of the links are fitted together, then connect the links with the master bolts. 2 Shoe bolt: Lubricant containing molybdenum disulfide (LM-P) 3 Shoe bolt (Master link) Initial torque: 980 ± 98 Nm {100 ± 10 kgm} Retightening angle: 180 ± 10°

D475A-3

30-197-34 6

DISASSEMBLY

PIVOT SHAFT

AND ASSEMBLY

REMOVAL OF PIVOT SHAFT ASSEMBLY 1. Remove track frame assembly. For details, see REMOVAL OF TRACK ASSEMBLY. 2.

Sling pivot shaft assembly (I) and remove mounting bolts, then using forcing screw 0, m pull out pivot shaft assembly. & kg

3.

FRAME

Remove

Pivot shaft assembly

: 390 kg -

seal (21, then remove

cover (3).

CED02111

m

INSTALLATION OF PIVOT SHAFT ASSEMBLY l

Carry out removal.

&

m

installation

in the

reverse

order

to

Pivot shaft press-fitting surface : Anti-friction compound (LM-P)

a CED02192

* * .

Using tool P, press fit seal (2) to the pivot shaft. 6 Seal press-fitting surface : Gasket sealant (LG-6) Check that press-fitting dimension a of the seal from the end face of the shaft is the specified dimension. Press-fitting dimension a : 665 t 1.0 mm

30- 198 0

D475A-3


EQUALIZER BAR

REMOVAL OF EQUALIZER BAR Serial No.: 10601 – 10684 1. Remove engine underguard and power train underguard (front). 4 Engine underguard : 330 kg 4 Power train underguard (front) : 340 kg 2. Remove cover (1). fl At the right track frame, disconnect 4 blade tilt cylinder hoses from the cover. fl The front of the machine is raised using the blade, so install a blind plug securely in the hose at the tilt cylinder end. 3. Remove seal (2) together with washer (3). 1 4. Remove washer (4), then remove spacer (5). fl Oil will flow out from the pivot case, so catch it in an oil container. 6 Pivot case : 26 ¬ 5. Set stand and hydraulic jack 1 (294 kN {30 ton}) under radiator guard.

6. Remove cover (6). 7. Remove cover (7).

8. Remove bushing (8). 9. Using eyebolt 2, remove side pin (9). 2 fl It is difficult to remove the pin if the centers of the equalizer bar hole and track frame hole are not aligned, so use hydraulic jack 1 to adjust the height at the equalizer bar end before removing.

D475A-3

30-199 2 6


10. Remove cover (IO) together *

EQUALIZER BAR

with cushion

Repeat Steps 6 to IO to remove on the opposite side.

(II).

1131 the side pin

11. Operate hydraulic jack @ slowly and lower chassis to point where equalizer and right track frames.

bar contacts

left

CED01916

12. Disconnect 13. Remove

lubrication

tube (12).

lock plate (13).

I

CWD03220

14. Using tool Nl, *

remove center pin (14). 1151 It is difficult to remove the pin if the centers of the equalizer bar hole and main frame hole are not aligned, so use hydraulic jack @ to adjust the height at the main frame end before removing.

CWD03221

15. Operate

blade and raise front of chassis, set hydraulic jack under radiator guard.

and

16. Raise equalizer bar (151, move it past main frame and track frame, and remove. g After removing the equalizer lower the chassis. C?lkg

30-200 0

Equalizer

bar assembly

bar,

do not

: 600 kg

D475A-3


EQUALIZER BAR

INSTALLATION OF EQUALIZER BAR Serial No.: 10601 – 10684 • Carry out installation in the reverse order to removal. 1 fl After removing the grease from the pressfitting surface of the seal, coat with gasket sealant (LG-6). fl Be careful not to install with the seal displaced in the direction of twisting. 2 2 Inside surface of bushing : Grease (G2-LI) fl Before installing the pin, operate hydraulic jack 1 to adjust the height of the main frame and align the center of the equalizer bar hole and track frame hole. fl Set the pin with the grease hole facing the outside of the machine. 3 fl Fit pin (9) and bushing (8), install cover (7), then install the cover and cushion. 4 2 Lock plate mounting bolt : Tread tightener (LT-2) 3 Lock plate mounting bolt : 1,519 – 1,911 Nm {155 – 195 kgm} 5 2 Equalizer bar bushing and main frame bushing: Grease (G2-LI) fl Before installing the pin, operate the crane to align the center of the main frame hole and the equalizer bar hole. •


D475A-3


30-201 2 6


EQUALIZER BAR

REMOVAL OF EQUALIZER BAR Serial No.: 10685 and up 1. Remove engine underguard and power train underguard (front). 4 Engine underguard : 330 kg 4 Power train underguard (front) : 340 kg 2. Remove cover (1). fl At the right track frame, disconnect 4 blade tilt cylinder hoses from the cover. fl The front of the machine is raised using the blade, so install a blind plug securely in the hose at the tilt cylinder end. 3. Remove seal (2) together with washer (3). 1 4. Remove washer (4), then remove spacer (5). fl Oil will flow out from the pivot case, so catch it in an oil container. 6 Pivot case : 26 ¬ 5. Set stand and hydraulic jack 1 (294 kN {30 ton}) under radiator guard.

6. Remove cover (6). 7. Remove cover (7). 8. Remove main bolt (8) of side pin.

9. Using eyebolt 2, remove side pin (9). 3 fl It is difficult to remove the pin if the centers of the equalizer bar hole and track frame hole are not aligned, so use hydraulic jack 1 to adjust the height at the equalizer bar end before removing. fl Repeat Steps 6 to 9 to remove the side pin on the opposite side.

30-201-1 6

D475A-3


EQUALIZER BAR

10. Operate hydraulic jack 1 slowly and lower chassis to point where equalizer bar contacts left and right track frames. 11. Disconnect lubrication tube (10). 12. Remove lock plate (11).

4

13. Using tool N1, remove center pin (12). 5 fl It is difficult to remove the pin if the centers of the equalizer bar hole and main frame hole are not aligned, so use hydraulic jack 1 to adjust the height at the main frame end before removing.

14. Operate blade and raise front of chassis, and set hydraulic jack under radiator guard. 15. Raise equalizer bar (13), move it past main frame and track frame, and remove.  After removing the equalizer bar, do not lower the chassis. 4 Equalizer bar assembly : 600 kg

D475A-3

30-201-2 6


EQUALIZER BAR

INSTALLATION OF EQUALIZER BAR Serial No.: 10685 and up • Carry out installation in the reverse order to removal. 1 fl After removing the grease from the pressfitting surface of the seal, coat with gasket sealant (LG-6). fl Be careful not to install with the seal displaced in the direction of twisting. 2 3 Main mounting bolt of side pin: 2,450 – 2,695 Nm {250 – 275 kgm} fl After tightening main mounting bolts (8) of the side pin, tighten the mounting bolts of covers (6) and (7). fl Take care of the tightening order of min mounting bolts (8) of the side pin and the mounting bolts of covers (6) and (7). 3 2 Inside surface of bushing : Grease (G2-LI) fl Before installing the pin, operate hydraulic jack 1 to adjust the height of the main frame and align the center of the equalizer bar hole and track frame hole. fl Set the pin with the grease hole facing the outside of the machine. 4 2 Lock plate mounting bolt : Tread tightener (LT-2) 3 Lock plate mounting bolt : 1,519 – 1,911 Nm {155 – 195 kgm} 5 2 Equalizer bar bushing and main frame bushing: Grease (G2-LI) fl Before installing the pin, operate the crane to align the center of the main frame hole and the equalizer bar hole. •



30-201-3 6

D475A-3

DISASSEMBLY

AND ASSEMBLY

DISASSEMBLY BAR BUSHING 1.

EQUALIZER

BAR BUSHING

OF EQUALIZER

Center bushing Remove center bushings

(I).

J CDD01922

2.

Side bushing 1) Remove seals (2). 2) Remove snap ring (3).

2

2

CDD01923

3)

Set tool N2 in position and remove bushing (4) from equalizer bar (5).

CDD01924

side

CED01925

30-202 0

D475A-3


EQUALIZER BAR BUSHING

ASSEMBLY OF EQUALIZER BAR BUSHING 1. Side bushing 1) Set side bushing (4) and tool N2 in position, then press fit side bushing (4) to equalizer bar (5). 2 Outer circumference of bushing : Anti-friction compound (LM-P) fl Align the direction of installation of the side bushing as shown in the diagram on the right. i) Make split surface (mating surface) a of outer bushing horizontal. ii) Set inner bushing and outer bushing grease hole b at an angle. fl Side bushing press-fitting force : 47 – 96 kN {4.8 – 9.8 ton}

2) Install snap ring (3). fl After installing the snap ring, fill front and rear portion c of side bushing with grease (G2-LI). 2 Amount of grease to fill side bushing: 0.45 ¬ 3) Using press, press fit seal (2). fl Seal press-fitting force : 9.8 – 29.4 kN {1 – 3 ton} fl Press fit so that the mouthpiece of the seal does not extend from the end face of the equalizer bar. 2 Lip of oil seal : Grease (G2-LI) 2. Center bushing Using press, press fit bushing (1). 2 Outer circumference of center bushing : Anti-friction compound (LM-P) fl Center bushing press-fitting force : 68.6 – 233.2 kN {7 – 23.8 ton}

D475A-3

30-203 2 4


HYDRAULIC PUMP

REMOVAL OF HYDRAULIC PUMP ASSEMBLY a

g 1.

Lower the work equipment to the ground and stop the engine. Release the remaining pressure in the hydraulic piping. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. Then loosen the oil filler cap slowly to release the pressure inside the hydraulic tank. Disconnect the cable from the negative (-1 terminal of the battery. Drain oil from hydraulic tank. -

2.

3. 4. 5. 6.

:

Hydraulic

tank : 340 e

Remove floor frame assembly. For details, see REMOVAL OF FLOOR FRAME ASSEMBLY. Disconnect hydraulic oil temperature sensor connector KN452)(1). Disconnect hoses (21, (31, (41, (51, (61, and (7). Disconnect suction tubes (8) and (9). m Sling hydraulic assembly (IO), then remove mounting bolts, and remove. & kg

Hydraulic

pump assembly

: 80 kg

INSTALLATION OF HYDRAULIC PUMP ASSEMBLY l


w

w

l

in the

reverse

order

to

Coupling

clamp bolt of tube (8): 27.1 - 29.4 Nm I2.76 - 3.0 kgm} Coupling clamp bolt of tube (9): 14.7 - 18.6 Nm {I.5 - 1.9 kgm}

Refilling with oil (hydraulic tank) Add oil through the oil filler to the specified level, and run the engine to circulate the oil through the system. Then check the oil level again.

30-204 0

D475A-3

DISASSEMBLY

BLADE LIFT VALVE

AND ASSEMBLY

REMOVAL OF BLADE LIFT VALVE ASSEMBLY a

A

1.

Lower the work equipment to the ground and stop the engine. Release the remaining pressure in the hydraulic piping. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. Then loosen the oil filler cap slowly to release the pressure inside the hydraulic tank. Disconnect the cable from the negative (-) terminal of the battery. Drain oil from hydraulic tank. -

2. 3. 4.

5. 6. 7. 6.

:

Hydraulic

tank : 340 e

Remove operator’s cab right cover. Disconnect connector (I 1. Disconnect 2 PPC hoses (2). Ir The PPC hoses are distinguished by color m bands. Disconnect 3 main hoses (3). Disconnect PPC relief valve (4) and move towards front of chassis. Disconnect hoses (5) and (6). Sling blade lift valve (71, then remove mounting bolts, and lift off. &I kg

Blade lift valve assembly

CWD03224

: 70 kg

INSTALLATION OF BLADE LIFT VALVE ASSEMBLY l


in the

reverse

order

to

Band DBD03015

w *

.

The connecting position of the PPC hoses is distinguished by the band color at the quick coupler portion, so check the colors when installing.

Transparent ram

Opel

.ator's cad)


.

Bleeding air Bleed the air from the piping. For details, see TESTING AND ADJUSTING, Bleeding air from hydraulic cylinder.

D475A-3

+

Red/White

DAD03016

30-205 0

DISASSEMBLY

AND ASSEMBLY

BLADE LIFT VALVE

DISASSEMBLY OF BLADE LIFT VALVE ASSEMBLY

ASSEMBLY OF BLADE LIFT VALVE ASSEMBLY

1. Disassembly of main spool assembly I) Remove case (I), then remove bolt (2). * Loosen the bolt with the spool assembled inside the body. 2) Remove washer (31, retainer (41, spring (51, spacer (61, retainer (7) and spacer (8). 3) Remove case (91, then remove spring (IO), retainer (11) and spacer (12). 4) Remove case (13) and spacer (14), then remove spool (15). * If the result of disassembly shows that there is any abnormality in the spool or body, replace the whole assembly.

*

2.

Disassembly 1) Remove 2)

3.

4.

5.

6.

1.

2.

3.

of demand valve assembly case (161, then remove spring

(17). Remove case (181, then remove spool (19) and seal (20).

Disassembly of main relief, shuttle valve assembly Remove main relief and shuttle valve assembly (21). Ir If the adjustment screw of the main relief valve is turned, the set pressure will change, so do not disassemble unless necessary. Disassembly of suction valve assembly 1) Remove plug (221, then remove spring (23) and valve (24). 2) Remove plate (25), then remove seat (261, spring (27) and valve (28). Disassembly of check valve assembly Remove plug (291, then remove spring and valve (31).

(30)

Clean all parts, and check for dirt or damage. Coat the sliding surfaces of all parts with engine oil before installing. Assembly of shuttle valve assembly Assemble ball (33), then fit O-ring and install plug (32). m Plug : 34.3 + 4.9 Nm 13.5 = 0.5 kgm1 Assembly of check valve assembly Assemble valve (31) and spring (301, then fit O-ring and install plug (29). w Plug : 367.5 + 24.5 Nm I37.5 + 2.5 kgm1 Assembly of suction valve assembly 1) Assemble valve (28) and spring (271, then fit O-ring and seat (261, then fix by plate

2)

4.

*

(25). w Mounting bolt : 276.85 + 31.85 Nm 128.25 f 3.25 kgm} Assemble valve (24) and spring (231, then fit O-ring and install plug (22). m Plug : 514.5 + 24.5 Nm i52.5 f 2.5 kgm}

Assembly of main relief, shuttle valve assembly Fit O-ring and install main relief and shuttle valve assembly (211. * Tighten the mounting bolts in the order @ - 0. w Mounting bolt : 1st step 34.3 + 4.9 Nm 13.5 + 0.5 kgm1 2nd step 66.15 t. 7.35 Nm (6.75 f 0.75 kgml If the main relief valve was disassembled, carry out adjustments after installing the valve assembly to the chassis. For details, see TESTING AND ADJUSTING, Measuring and adjusting work equipment hydraulic pressure.

Disassembly of shuttle valve assembly Remove plug (321, then remove ball (33).

CDD02t56

30-206 0

D475A-3

DISASSEMBLY

BLADE LIFT VALVE

AND ASSEMBLY

a

CWDO3225

5.

Assembly of demand valve assembly 1) Assemble seal (20) and spool (19), then fit O-ring and install case (18). w Mounting bolt : 276.85 = 31.85 Nm (28.25 t: 3.25 kgm} 2) Assemble spring (17) and install case (16). w Mounting bolt : 276.85 f 31.85 Nm I28.25

6.

4) t. 3.25 kgml

Assembly of main spool assembly 1) Assemble spool (15) and spacer (141, then fit O-ring and install case (13). 2) Assemble spacer (12), retainer (II) and spring (IO), then fit O-ring and install case (9).

D475A-3

3)

Assemble spacer (8), retainer (71, spacer (6), spring (51, retainer (41, and washer (31, and install bolt (2). w Mounting bolt : 110.25 z 12.25 Nm 111.25 = 1.25 kgml * Tighten the bolt with the spool assembled inside the body. Fit O-ring and install case (I). * When tightening the bolts of cases (I), (91, and (131, tighten the bolts gradually in turn and be careful not to let any case become misaligned with the center of the spool.

30-207 0



REMOVAL OF BLADE TILT, RIPPER LO VALVE ASSEMBLY a

a 1.

Lower the work equipment to the ground and stop the engine. Release the remaining pressure in the hydraulic piping. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. Then loosen the oil filler cap slowly to release the pressure inside the hydraulic tank. Disconnect the cable from the negative (-1 terminal of the battery. Drain oil from hydraulic tank. - :

2. 3. 4. 5. 6. 7.

8.

Hydraulic tank : 340 e

Remove operator’s cab right cover. Disconnect connector (1). Remove bracket (2). Disconnect hose (3) and clamp (4). Disconnect block (5) and move towards center of chassis. Disconnect 6 PPC hoses (61, 5 rear main hoses (71, and 3 front main hoses (8). * The PPC hoses are distinguished by color bands. a Sling blade tilt and ripper Lo valve assembly (91, then remove mounting bolts, and lift off. & kg

Blade tilt, ripper Lo valve assembly : 50 kg

ASSEMBLY OF BLADE TILT, RIPPER LO VALVE ASSEMBLY l


I Band


DBD03015

u *

The connecting position of the PPC hoses is distinguished by the band color at the quick coupler portion, so check the colors when installing.

.


.

Bleeding air Bleed the air from the piping. For details, see TESTING AND ADJUSTING, Bleeding air from hydraulic cylinder.

30-208 0

Distinguishing color bands

Blue/ Black Black White 4

4

t t t

Yellow

Green

(:~~~,o~~~a-

4

Brown

DXD03208

D475A-3

DISASSEMBLY

AND ASSEMBLY

DISASSEMBLY OF BLADE TILT, RIPPER LO VALVE ASSEMBLY 1.

Disassembly

of spool assembly


ASSEMBLY OF BLADE TILT, RIPPER LO VALVE ASSEMBLY *


1.

Assembly

1) Remove case-(l) and flange (2). 2) Remove case (3). 3)

4)

2.

Remove bolt (4), then remove washer (5), retainer (61, spring (71, spacers (81, and retainer (9). * When loosening the bolt, always loosen with the spool assembled inside the valve. Pull out spool (IO) from body (II). Ir If the result of disassembly shows that there is any abnormality in the spool or body, replace the whole assembly.

2.

2)

Disassembly

3.

Disassembly

of check valve assembly

of shuttle

valve assembly

Fit O-ring and assemble seat (15), then install bar (14) and tighten bolt (13). w Mounting bolt : 110.25 + 12.25 Nm ill.25 t 1.25 kgm}

Assembly

of main relief valve assembly

Fit O-ring and install main relief valve assembly (12). w Main relief valve assembly : 93.1 + 4.9 Nm 19.5 t 0.5 kgm1 * If the main relief valve was disassembled, carry out adjustments after installing the valve assembly to the chassis. For details, see TESTING AND ADJUSTING, Measuring and adjusting work equipment hydraulic pressure.

Remove mounting bolts (131, then remove bar (141, seat (151, spring (161, and valve (17). 4.

of shuttle

Assemble ball (19). Fit O-ring and install plug (18). m Plug : 34.3 t. 4.9 Nm 13.5 + 0.5 kgml

Assembly of check valve assembly 1) Assemble valve (17) and spring (16).

Main relief valve assembly

Remove main relief valve assembly (12). Ir If the adjustment screw is turned, the set pressure will change, so do not disassemble unless necessary. 3.

I) 2)

valve assembly

Remove plug (18), then remove ball (19). 4.

Assembly of spool assembly 1) Assemble spool (IO) to body (II).

2)

Set retainer (91, spacers (8), spring (71, retainer (61, and washer (5) in position, then tighten bolt (4). Ir Tighten the bolt with the spool assembled inside the body. m Mounting bolt : 30.9 t 3.4 Nm f3.15 + 0.35 kgm} 3) Fit O-ring and install case (3). 4) Fit O-ring, then install flange (2) and case (I).

30-210 0

D475A-3

DISASSEMBLY


AND ASSEMBLY

a

/ 4

17

0

IEiv

s2 0

(7

8 --a A

15

0

0

0

14

134

D475A-3

CWD03229

30-211 0

DISASSEMBLY

AND ASSEMBLY

RIPPER HI VALVE

REMOVAL OF RIPPER HI VALVE ASSEMBLY a

Lower the work equipment to the ground and stop the engine. Release the remaining pressure in the hydraulic piping. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. Then loosen the oil filler cap slowly to release the pressure inside the hydraulic tank.

1. Drain oil from hydraulic tank.

- : 2. 3. 4. 5. 6. 7.

Hydraulic tank : 340 e

Disconnect 4 left hoses (1). Disconnect 4 right hoses (2). Disconnect 2 top hoses (3). Disconnect 3 hoses (4) at center portion of valve. Disconnect hose (5). Lift off ripper Hi valve assembly (6). & kg

Ripper Hi valve assembly : 95 kg

INSTALLATION OF RIPPER HI VALVE ASSEMBLY l

.

Carry out installation removal. Refilling

with


oil (hydraulic

tank)

Add oil through the oil filler to the specified level, and run the engine to circulate the oil through the system. Then check the oil level again. l

Bleeding

air

Bleed the air from the piping. For details, see TESTING AND ADJUSTING, Bleeding air from hydraulic cylinder.

30-212 0

D475A-3

DISASSEMBLY

DISASSEMBLY OF RIPPER HI VALVE ASSEMBLY 1. 2. 3.

4.

5.

6. 7.

RIPPER HI VALVE

AND ASSEMBLY

Remove blocks (1) and (2). Remove plug (31, then remove ball (4). Disassembly of fixed pressure difference valve assembly 1) Remove plug (51, then remove retainer (61, spring (71, and retainer (8). 2) Pull out spool (9). * When loosening the plug, always loosen with the spool assembled inside the valve. Main relief valve assembly 1) Remove spring (IO), then remove retainer (11) and plug (12). 2) Remove spring (131, then remove retainer (14) and plug (15). 3) Remove spool (16). Ir When loosening the plug, always loosen with the spool assembled inside the valve. Disassembly of ripper tilt Hi valve assembly Disassemble in same way as for disassembly of ripper lift Hi valve. Remove plug (171, then remove spring (18) and check valve (19). Remove plug (201, then remove seat (211, spring (221, and valve (23).

ASSEMBLY OF RIPPER HI VALVE ASSEMBLY Clean all parts, and check for dirt or damage. Coat the sliding surfaces of all parts with engine oil before installing. 1. Assemble valve (231, spring (221, and seat (21), then fit O-ring and install plug (20). w Plug : 514.5 + 24.5 Nm 152.5 + 2.5 kgm} 2. Assemble check valve (19) and spring (181, then fit O-ring and install plug (17). m Plug : 210.8 + 29.4 Nm I21.5 + 3 kgm} 3. Assembly of ripper lift Hi valve assembly I) Assemble spool (16). 2) Fit O-ring and tighten plug (151, then set retainer (14) and spring (13) to spool. w Plug : 66.15 z 7.35 Nm (6.75 t 0.75 kgml 3) Fit O-ring and tighten plug (121, then set retainer (11) and spring (IO) to spool. m Plug : 66.15 + 7.35 Nm (6.75 t. 0.75 kgm} * When tightening the plug, always tighten with the spool assembled inside the valve. 4. Assembly of ripper tilt Hi valve assembly Assemble in same way as for assembly of ripper lift Hi valve assembly. of constant pressure difference 5. Assembly valve assembly 1) Assemble spool (9). 2) Set retainer (81, spring (71, and retainer (6) to spool, and install plug (5). Ir When tighten the plug, always tighten with the spool assembled inside the valve. 6. Assemble ball (41, then fit O-ring and install

*

7.

30-214 0

plug (3). w Plug : 34.3 + 4.9 Nm I3.5 + 0.5 kgm} Fit O-ring and install blocks (2) and (1).

D475A-3

DISASSEMBLY

D475A-3

AND ASSEMBLY

RIPPER HI VALVE

30-215 0

PPC RELIEF VALVE


REMOVAL OF PPC RELIEF VALVE ASSEMBLY g

Lower the work equipment to the ground and stop the engine. Release the remaining pressure in the hydraulic piping. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. Then loosen the oil filler cap slowly to release the pressure inside the hydraulic tank.

1.

Remove

operator’s

2.

Remove

hoses (I), (2), (31, and (4).

3.

Remove

PPC relief valve assembly

cab right cover.

(5).

INSTALLATION OF PPC RELIEF VALVE ASSEMBLY l


30-216 0

in the

reverse

order

to

DA75A-3

DISASSEMBLY

AND ASSEMBLY

HYDRAULIC

CYLINDER

DISASSEMBLY OF HYDRAULIC CYLINDER ASSEMBLY 1.

2.

Cylinder Remove

tube cylinder

tube.

Quick drop valve assembly * Blade lift cylinder only. I) Remove quick drop valve assembly

2)

(1).

Disassemble quick drop valve assembly as follows. i) Remove elbow (2). ii) Remove spring (31, washer (41, and valves (5) and (61, and pull out collar (7).

CWDO3233

3.

Piston rod assembly 1) Set cylinder assembly (8) to tool Ul. 2) Remove head assembly (9). 3) Pull out piston rod assembly (IO). * Put an oil container under the cylinder catch the oil.

I

4.

Piston assembly I) Set piston rod assembly

CWDb3234

(IO) to tool Ul.

UI

D475A-3

CWD03.235

30-217 0

HYDRAULIC CYLINDER


2) 3) 4) 5)

6)

Remove Remove Remove ring (15). Remove

spacer (I I). piston assembly (12). backup rings (13) and (14, retainer

Disassemble i) Remove ii) Remove

and O-

(16).

piston assembly wear ring (17). piston ring (18).

as follows.

17

I8

5.

Head assembly 1)

Remove head assembly

Blade

Blade ripper

lift

(19) from piston rod.

CWD03.237

tilt, lift.tilt

DXD03210

2)

Disassemble head assembly as follows. i) Remove O-ring (20) and backup ring (21).

21

30-218 0

20

CWD03239

D475A-3

DISASSEMBLY

AND ASSEMBLY

HYDRAULIC CYLINDER

Remove snap ring (221, then remove seal (23). iii) Remove packing (24), then remove bushing (25). ii)

CWD03240

D475A-3

30-2 19 0


HYDRAULIC CYLINDER

ASSEMBLY OF HYDRAULIC CYLINDER ASSEMBLY Ir

Coat the sliding surfaces of all parts with engine oil before installing. Be careful not to damage the packings, dust seals, and O-rings when installing.

1.

Head assembly I) Assemble

i)

Using head. ii) Install iii) Using iv) Install

head assembly

as follows.

tool U2, press fit bushing

(25) to

packing (24). tool U3, press fit seal (23). snap ring (22).

CED02091

v)

Install backup

ring (21) and O-ring

CED02092

(20).

CWD03239

2)

Install head assembly

(19) to piston rod.

Blade

lift

I Tl-

El'lade tilt. r ipper lift,tilt

30-220 0

DXDO3210

DISASSEMBLY

2.

AND ASSEMBLY

HYDRAULIC

CYLINDER

Piston assemblv 1) Assemble o&ton assemblv as follows. i) Using tool U4, expand piston ring (18). * Set the piston ring on the expander and turn the handle 8 - 10 times to expand the ring. ii) Remove piston ring (18) from tool U4, then install to piston. iii) Set tool U5 in position and compress piston ring (18). CED02093

iv) Install wear

CED02094

ring (17) to piston.

CWD03237

2) 3)

4) 5)

3.

Install retainer (16). Install O-ring (15) and backup rings (14) and

-

(13). * Coat the O-ring and backup ring portion with grease, and secure the backup ring to prevent it from opening. Install piston assembly (12). Assemble spacer (II) and tighten mounting bolts. 6 Mounting bolt : Thread tightener (LT-2) m Mounting bolt : Blade lift : 98 - 123 Nm I10 - 12.5 kgml Blade lift, ripper lift, ripper tilt : 157 - 196 Nm {IS - 20 kgm}

CWD03236

Piston rod assembly I) Set cylinder (8) to tool Ul.

I

D475A-3

CWD03241

30-221 0

DISASSEMBLY

2)

3)

4.

HYDRAULIC

AND ASSEMBLY

Assemble piston rod (IO) to cylinder (8). * Coat the seal portion of the piston with grease. * Push in the piston rod fully. Push head assembly to cylinder and tighten mounting bolts. -k Coat the backup ring with grease. m Mounting bolt : Blade lift : 490 2 49 Nm I50 + 5 kgm1 Blade tilt, ripper lift, ripper tilt : 1,320 1: 140 Nm (135 t 15 kgm1

I

CYLINDER

CWDb3234

Quick drop valve assembly Ir Blade lift cylinder only. 1) Assemble quick drop valve assembly as follows. i) Assemble collar (7), and install valves (6) and (51, washer (41, and spring (3). ii) Install elbow (2).

CWD03233

2) 5.

Install quick drop valve assembly

Cylinder tube Install cylinder

(I).

tube.

CWD03232

30-222 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

RIPPER PIN-PULLER

CYLINDER

DISASSEMBLY OF RIPPER PINPULLER CYLINDER ASSEMBLY 1.

Cylinder assembly 1) Set pin-puller cylinder assembly (I) to tool Ul. 2) Using tool U6, loosen cylinder head assem3)

2.

bly (2). Remove piston rod (3) together with cylinder head assembly (2). * Put an oil container under the cylinder to catch the oil.

Cylinder head assembly I) Remove cylinder head piston rod (3).

assembly

(2) from

CD002194

2) 3) 4) 5)

Remove O-ring (5) and backup ring (6). Remove O-ring (7). Remove snap ring (81, then remove dust seal (9). Remove rod packing (IO), then remove bushing (II).

CED02184

3.

Piston rod assembly Remove piston ring (12) from piston rod (3).

CED02185

D475A-3

DISASSEMBLY

AND ASSEMBLY

RIPPER PIN-PULLER

CYLINDER

ASSEMBLY OF RIPPER PINPULLER CYLINDER ASSEMBLY U5 f

Coat the sliding surfaces of all parts with engine oil before installing. Be careful not to damage the packings, dust seals, and O-rings when installing.

1.

Piston rod assembly 1) Using tool U4, expand piston ring (12). Ir Set the piston ring on the expander and turn the handle 8 - 10 time to expand the ring.

2) 3)

h 0 I2 Q

CEO02186

CDD02187

Remove piston ring (12) from tool, then install to piston rod (3). Using tool U5, compress piston ring (12).

CED02185

2.

Cylinder head assembly 1) Using tool U2, press fit bushing inder head (4).

(I I) to cyl-

CDD02188

2)

30-224 0

Using tool U3, press fit dust seal (9) to cylinder head (4).

DISASSEMBLY

3) 4) 5)

AND ASSEMBLY

RIPPER PIN-PULLER

CYLINDER

Install snap ring (8) and rod packing (IO). Install O-ring (7). Install backup ring (6) and O-ring (4).

CED02184

6)

3.

Install cylinder rod (3).

head assembly

(2) to piston

Cylinder assemblv 1) Set cylinder ;o tool Ul and support with block 0. 2) Install piston rod (3) together with cylinder head assembly (2). * Coat the seal portion of the piston with grease. * Coat the backup ring with grease. * Push in the piston fully. 3) Using tool U6, tighten cylinder head assembly (2). w Cylinder head assembly : 441 t. 44.1 Nm I45 + 4.5 kgm}

D475A-3

30-225 0

DISASSEMBLY

AND ASSEMBLY

BLADE

REMOVAL OF BLADE ASSEMBLY a

Lower the work equipment to the ground in a horizontal place, and set blocks @ securely under the left and right straight frames.

1.

Remove cap (I) of lift cylinder. * Check the number and thickness (21, and keep in a safe place.

2.

Sling lift cylinder assembly (3), then start engine and retract piston rod fully, fit cylinder lock tool and secure to radiator guard. Ir Tie the piston rod with wire to prevent it from coming out. . Repeat the same procedure to disconnect the cylinder from the blade on the opposite side.

g

m of shims

CWD03242

Release the remaining pressure from the hydraulic circuit. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit. Then loosen the oil filler cap slowly to release the pressure inside the hydraulic tank.

3.

Remove

4.

Disconnect hoses (5). Ir Mark the hoses before disconnecting. Ir Fit blind plugs to prevent dirt or dust from entering the piping.

5.

Remove

6.

Remove blade assembly (7). Ir Start the engine, drive the machine slowly in reverse, and disconnect the blade assembly from the trunnions.

CWD03243

left and right covers (4).

left and right trunnion

caps (6).

v

30-226 0

CWD03245

D475A-3

DISASSEMBLY

AND ASSEMBLY



BLADE

OF BLADE

in the

reverse

order

to

Adjust so that play a in the axial direction within 0.5 mm and so that the rotation smooth. * Standard shim thickness: 4 mm

is is

m *

pJ *

Adjust with block @ so that height b and width c of the left and right straight frames are the dimensions given below. . Height b of trunnion portion : .

l

Brace width

Refilling Add oil Run the system.

D475A-3

c : Approx.

Approx. 3,840 mm

981 mm

with oil (hydraulic tank) through oil filler to the specified level. engine to circulate the oil through the Then check the oil level again.

30-227 0

DISASSEMBLY

GIANT RIPPER

AND ASSEMBLY

DISASSEMBLY OF GIANT RIPPER ASSEMBLY 1.

2. 3.

Mount machine on block @ and lower blade to ground. g Lock the brake securely. Sling shank, then operate pin-puller switch and pull out shank pin. Raise ripper fully, and lower shank (I) to remove. &I kg

Shank : 1,050 kg

4.

Set stand @ under arm and beam.

5.

Sling lift cylinder assembly and remove pin (2). * Start the engine, retract the piston rod fully, and lower on top of the arm. Sling lift cylinder assembly and remove pin (3). * Start the engine, retract the piston rod fully, and lower on top of the lift cylinder. A Release the remaining pressure from the hydraulic circuit. For details, see TESTING AND ADJUSTING, Releasing remaining pressure from hydraulic circuit.

6.

7.

D

CED02128

CED02129

CED02130

CEO02131

Disconnect 4 lift cylinder hoses (41, 4 tilt cylinder hoses (51, and 2 pin-puller cylinder hoses (6).

8.

Sling tilt cylinder assembly (7), then remove pin (8) and lift off tilt cylinder assembly (7). &I kg

Tilt

cylinder

assembly

: 410 kg

I 30-228 0

CED02133

GIANT RIPPER


9.

Sling lift cylinder assembly (91, then remove pin (IO) and lift off lift cylinder assembly (9). &I kg

Lif? cylinder

assembly

: 400 kg

CED02134

IO. Sling beam (II), then remove (12) and lit? off beam (11). l+I kg

left and right pins

Beam : 2,450 kg

CED02135

11. Sling arm (131, then remove

left and right pins

i14) and lift off arm (13). PI kg

D475A-3

Arm : 1,800 kg

30-229 0

DISASSEMBLY

AND ASSEMBLY

ASSEMBLY ASSEMBLY

GIANT

RIPPER

OF GIANT RIPPER

1. Raise arm (13) and set in mounting position, then fit left and right pins (14) and secure with lock plate. kg lF?l

*

2.

Arm : 1,800 kg

Set a stand under the arm.

Raise beam (11) and set in mounting position, then fit left and right pins (12) and secure with lock plate. kg CF?l *

Arm : 2,450 kg

Set a stand under the beam.

CED02135

3.

Raise lift cylinder assembly (9) and set in mounting position, then fit pin (IO) and secure with lock plate. &I kg

4.

Lift cylinder

assembly

: 400 kg

I

CED02134

I

CED02133

Raise tilt cylinder assembly (7) and set in mounting position, then fit pin (8) and secure with

lock plate. r+ kg

30-230 0

Tilt cylinder assembly : 410 kg

D475A-3

DISASSEMBLY

GIANT RIPPER

AND ASSEMBLY

5.

Connect 2 pin -puller cylinder hoses (61, 4 tilt cylinder hoses (51, and 4 lift cylinder hoses (4).

6.

Sling tilt cylinder assembly, start engine, extend piston rod and align with pin hole, then install pin (3) and secure with lock plate.

7.

Sling lift cylinder assembly, start engine, extend piston rod and align with pin hole, then install pin (2) and secure with lock plate.

8.

9.

CED02131

CED02130

CED02129

CED02128

Mount machine on block @ and lower blade to ground. a Lock the brake securely. Operate

ripper and raise slightly to remove stand

0. 10. Raise ripper fully, pass wire through shank holder, then raise shank (I) slowly, align with pin hole, and operate pin-puller switch to insert shank pin.

11. Raise blade and lower machine

from block 0.

12. Bleed air from cylinder. For details, see TESTING AND Bleed air from hydraulic cylinder.

D475A-3

I

ADJUSTING,

30-231 0

DISASSEMBLY

REMOVAL

AND ASSEMBLY

ROPS GUARD

OF ROPS GUARD

1. Sling ROPS guard (I) and remove bolts (2).

2.

16 mounting If

Lift off ROPS guard (I). I3 kg

ROPS guard : 1,000

kg

CWDO3246

INSTALLATION GUARD l

Carry out removal.

m

installation

OF ROPS

in the

reverse

order

ROPS guard mounting bolt : 1,960 - 2,450 Nm I200 - 250

to

kgm} CWD03247

30-232 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

OPERATOR’S CAB

REMOVAL OF OPERATOR’S CAB ASSEMBLY a

Disconnect the cable from the negative (-1 terminal of the battery. 1. Remove ROPS guard. For details, see REMOVAL OF ROPS GUARD. 2. Open left cover (I) of operator’s cab. 3. Disconnect wiring connectors (CN-19) (2) and (CN-20, CN-21) (3). Pull out the wiring from inside of the opera* tor’s cab. 4. Disconnect 4 washer hoses (4). m Pull out the hoses from inside of the opera* tor’s cab. 5. Remove step (51, then remove cover (6).

6.

Remove garnishes

7.

Remove covers

or/

-

CWOO3256

(71, (81, and (9).

(IO) on both sides, and cover

(II).

D475A-3

30-233

DISASSEMBLY

AND ASSEMBLY

OPERATOR’S

8.

Remove

9.

Remove 19 mounting bolts, then lift off operator’s cab assembly (16). r&Ikg

CAB

angle (14) and angle (15) inside cab.

Operator’s

cab assembly

: 150 kg

INSTALLATION OF OPERATOR’S CAB ASSEMBLY l


in the

reverse

order

to

m *

30-234 0

When connect the washer colors of their bands.

hoses, match the

D475A-3

FLOOR FRAME


REMOVAL OF FLOOR FRAME ASSEMBLY 1.

2.

Remove operator’s cab assembly. For details, see REMOVAL OF OPERATOR’S ASSEMBLY. Remove

CAB

covers (11, (2) and (3).

3

3.

Remove

4.

Lift off operator’s seat (6). * Remove the seat together with the undercover. I+ kg

5.

CWDO3259

step cover (5).

Operator’s seat : 85 kg

Disconnect 2 air conditioner hoses (7).

a

Loosen the sleeve nut slightly and release the air conditioner gas (R134a) completely before disconnecting the hoses. Disconnect at the air conditioner end, then

move the hoses towards the engine. Fit blind plugs to prevent dirt or moisture from entering the hoses. Be careful not to damage or drop the Orings. 6.

7.

Disconnect 2 heater hoses (8). +r Close the heater valve at the engine

CWDO3260

end.

Remove 2 side covers (9).

D475A-3

30-235 0

DISASSEMBLY

8.

Disconnect

AND ASSEMBLY

FLOOR FRAME

blade PPC hose (IO) and hose clamp

(II). 9.

Disconnect blade PPC hoses (121, (131, and (14). Single tilt specification machine only. m

l

I4

10. Disconnect

CWD03261

ripper PPC hoses (151, (161, (171, and

(18).

a

16

11. Disconnect

accumulator

12. Disconnect

tank return hoses (20) and (21).

CWD03262

hose (19).

13263

13. Disconnect clamps (22) (2 places) for wiring ness and washer tank hose. 14. Disconnect

ground

wiring

har-

(23) (SX-8).

15. Disconnect wiring connectors (24) (CN-1221, (25) (CN-4211, (26) (CN-5991, (27) (CN-5061, (28) (CN5771, (29) KN-992), and (30) (CN-993).

30-236 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

FLOOR FRAME

16. Disconnect directional control cable (311, speed control cable (321, and parking brake cable (33) at lever end, then remove from bracket. * Before disconnecting, check the mounting dimensions of the cables. m

CWD03.265

17. Disconnect Ir *

brake pedal linkage (34) at turnbuckle.

If Before disconnecting, check the mounting dimension of the brake rod. The turnbuckle has a reverse thread.

18. Disconnect steering linkage (35) at lever end of servo valve. * After disconnecting, secure the steering rod to the floor frame with rope.

19. Remove

arm rest (36).

I

20. Remove right console (37). * Disconnect the wiring connectors (CN-262, CN-263) inside the console. Ir Remove the lever boot from the console, then remove the console. 21. Remove left console (38). * Remove the lever boot from then remove the console.

the console, CWD03266

D475A-3


FLOOR FRAME

Serial No.: 10601 – 10732, 10736 22. Remove rear mount bolts (39) (left and right: 4 each). 23. Remove front mount bolts (40) (left and right: 4 each).


24. Lift off floor frame assembly (41). 4 Floor frame assembly : 500 kg fl Use a chain block to adjust the balance in all directions (front, rear, left, and right), and lift off slowly.

30-238 8

DISASSEMBLY

AND ASSEMBLY

FLOOR FRAME

INSTALLATION OF FLOOR FRAME ASSEMBLY .


in the

reverse

order

to

m Ir Ir

*

Install the hoses without twisting or interference. Install the air conditioner circuit hoses carefully to prevent dirt, dust, or water from getting inside the hoses. Check that there are O-rings at the piping connection of the air conditioner hoses before installing. Coat the O-rings thoroughly with compressor oil (Shell Suniso 4G or 5G). m Tighten the air conditioner gas piping to the following tightening torques.

0-hng DBD02985

Tightening torque (Nm {kgmI)

I Band DE003015

Adjust the directional, parking brake linkage.

speed

control,

and

For details, see TESTING AND ADJUSTING, Adjusting joystick (steering, directional, gear shift lever) parking brake linkage. Adjust the brake pedal linkage. For details, see TESTING AND ADJUSTING, Adjusting brake pedal linkage. m Brake pedal linkage turnbuckle : 34.3 - 58.8 Nm (3.5 - 6 kgml l

.


circuit


D475A-3

30-239 0


DASHBOARD

REMOVAL OF DASHBOARD ASSEMBLY 1.

Remove operator’s cab assembly. For details, see REMOVAL OF OPERATOR’S CAB ASSEMBLY.

2.

m Disconnect 2 air conditioner hoses (1). Loosen the sleeve nut slightly and release the air conditioner gas (R134a) completely before disconnecting the hoses. Disconnect at the air conditioner end, then move the hoses towards the engine. Fit blind plugs to prevent dirt or moisture from entering the hoses. Be careful not to damage or drop the Orings.

3.

Disconnect 2 heater hoses (2). Ir Close the heater valve at the engine end.

4.

Disconnect wiring connectors (3) (CN-S13), (4) (CN-2141, (5) KN-2161, and (6) (CN-2151, and ground connection (CN-206).

5.

Lift off dashboard assembly (7). r+ kg

30-240 0

Dashboard assembly : 120 kg

D475A-3

DISASSEMBLY

DASHBOARD

AND ASSEMBLY

INSTALLATION OF DASHBOARD ASSEMBLY l

Carry out removal.

m

installation

in the

reverse

order

to

Install the hoses without twisting or interference. Install the air conditioner circuit hoses carefully to prevent dirt, dust, or water from getting inside the hoses. Check that there are O-rings at the piping connection of the air conditioner hoses before installing. Coat the O-rings thoroughly with compressor oil (Shell Suniso 4G or 5G). Tighten the air conditioner gas piping to the following tightening torques.

Thread

size

O-ring DEW2985

Tightening torque (Nm IkgmI)

16 x 1.5

13.23k1.47 {1.35?0.15}

22 x 1.5

22.05k2.45 (2.2520.251

24 x 1.5

31.85k2.45 (3.25-cO.251


circuit


D475A-3

30-241 0

DISASSEMBLY

CONTROLLER

AND ASSEMBLY

REMOVAL OF CONTROLLER ASSEMBLY A

Disconnect the cable from the negative (-1 terminal of the battery.

1.

Remove cover (I).

2.

Disconnect wiring connectors of main controller (2). (CN- S40, Mll, M21, M31, M41, M51)

3.

Disconnect wiring connectors of engine controller (3). (CN-Eli, E21, E31, E32, E41, E51, E52)

4.

Remove main controller (2) and engine controller (3).

I

INSTALLATION OF CONTROLLER ASSEMBLY l


30-242 0


D475A-3

AIR CONDITIONER COMPRESSOR


REMOVAL OF AIR CONDITIONER COMPRESSOR ASSEMBLY (g

Disconnect the cable from the negative minal of the battery

1.

Open engine right side cover side covers (2) and (3).

2.

Disconnect air conditioner connector KN-351) (4).

3.

m Disconnect 2 compressor hoses (5). Ir Loosen the sleeve nut slightly and release the air conditioner gas (R134a) completely before disconnecting the hoses. Ir Fit blind plugs to prevent dirt or moisture from entering the hoses. Ir Be careful not to damage or drop the Orings.

4.

Loosen 4 mount

bolts (6).

5.

Loosen locknut, (7), then remove

and remove adjustment belt from pulley.

6.

Remove 4 mount bolts (61, then remove ditioner compressor assembly (8).

D475A-3

(I)

(-1 ter-

and remove

compressor

clutch

bolt m

air con-

30-243 0


AIR CONDITIONER COMPRESSOR

INSTALLATION OF AIR CONDITIONER COMPRESSOR ASSEMBLY l



/FJ Ir

*

w

*

l

Install the air conditioner circuit hoses carefully to prevent dirt, dust, or water from getting inside the hoses. Check that there are O-rings at the piping connection of the air conditioner hoses before installing. Coat the O-rings thoroughly with compressor oil (Shell Suniso 4G or 5G). Air conditioner hose mounting bolt : IO + 2 Nm Il.0 + 0.2 kgm}

Adjust the belt tension. For details, see TESTING AND ADJUSTING, Testing and adjusting tension of air conditioner compressor belt.

Charging with air conditioner gas Using tool X, charge the air conditioner circuit with air conditioner gas (R134a).

30-244 0

D475A-3

DISASSEMBLY

AND ASSEMBLY

AIR CONDITIONER CONDENSER

REMOVAL OF AIR CONDITIONER CONDENSER ASSEMBLY 1.

Open engine right side cover side cover (2) and (3).

2.

Disconnect hoses (4). m * Loosen the sleeve nut slightly and release the air conditioner gas (R134a) completely before disconnecting the hoses. Ir Fit blind plugs to prevent dirt or moisture from entering the hoses. * Be careful not to damage or drop the Orings.

3.

(I)

Remove air conditioner condenser from right side of chassis.

and remove

assembly

I

CWD03275

(5)

CWD03278

INSTALLATION OF AIR CONDITIONER CONDENSER ASSEMBLY l


in the

reverse

order

to

m Ir

*

w

l

Install the air conditioner circuit hoses carefully to prevent dirt, dust, or water from getting inside the hoses. Check that there are O-rings at the piping connection of the air conditioner hoses before installing. Coat the O-rings thoroughly with compressor oil (Shell Suniso 4G or 5G). Air conditioner hose sleeve nut: Outside : 22.05 t 2.45 Nm (2.25 t. 0.25 kgm1 Inside : 1325 t 1.47 Nm II.35 t. 0.15 kgm)


D475A-3

circuit

30-245 0


AIR CONDITIONER

UNIT

REMOVAL OF AIR CONDITIONER UNIT ASSEMBLY 1.

Remove left and right covers (I) and cover (2).

2.

m Disconnect 2 air conditioner hoses (3). Loosen the sleeve nut slightly and release the air conditioner gas (R134a) completely before disconnecting the hoses. Disconnect at the air conditioner end, then move the hoses towards the engine. Fit blind plugs to prevent dirt or moisture from entering the hoses. Be careful not to damage or drop the Orings.

3.

Disconnect 2 heater hoses (4). * Close the heater valve at the engine end.

4.

Disconnect wiring connectors (5) (CN-SIB), (6) (CN-2141, (7) (CN-2161, and (8) (CN-2151, and ground connection (CN-206).

CWD03280

CPDO3281

5.

Remove covers (12) and (13).

30-246 0

D475A-3

DISASSEMBLY

AIR CONDITIONER

AND ASSEMBLY

6.

Remove

step (141, then remove

7.

Remove

panel (161, then remove

8.

Remove

ducts (18) and (19).

9.

Remove

monitor

UNIT

covers (15). cover (17).

(20) and cover (21).

10. Remove RECIRC air filter (22) and FRESH air filter (23). * There is 1 mounting bolt for the air conditioner unit beyond the FRESH air filter bracket.

D475A-3

30-247 0

DISASSEMBLY

AND ASSEMBLY

11. Disconnect

bracket (24) and clamp (25).

AIR CONDITIONER

UNIT

12. Disconnect relays (26) (CN-RI ), (27) (CN-RS), (28) (CN- R3) and connector (29) (CN-M26) inside right side of dashboard.

13. Remove air conditioner 14. Remove blower

30-248 0

unit (30).

motor (31).

D475A-3

DISASSEMBLY

INSTALLATION CONDITIONER l

Carry out removal.

w

AIR CONDITIONER

AND ASSEMBLY

installation

OF AIR UNIT in the

reverse

order

to

i I

Install the hoses without twisting or interference. Install the air conditioner circuit hoses carefully to prevent dirt, dust, or water from getting inside the hoses. Check that there are O-rings at the piping connection of the air conditioner hoses before installing. Coat the O-rings thoroughly with compressor oil (Shell Suniso 4G or 5G). Tighten the air conditioner gas piping to the following tightening torques.

22 x 1.5

22.05k2.45

(2.2520.25)

24 x 1.5

31.85k2.45

{3.25*0.25)

M6 bolt (receiver portion)

5.3921.47

{0.55*0.151

M6 bolt (compressor portion)

UNIT

9.821.96

0-iing

DEW2985

{I .0+0.2)


circuit


D475A-3

30-249 0

DISASSEMBLY

AND ASSEMBLY

HOOD

REMOVAL OF HOOD ASSEMBLY a

Disconnect the cable from the negative minal of the battery.

1. Remove

radiator

sub tank hose (I)

(-) ter-

and clamp

(2).

I 2.

Remove

precleaner

3.

Remove

exhaust

4.

Disconnect CN-HRN).

5.

Lift off radiator

CWD03283

tubes (3) and (4).

pipe (5).

front

Radiator

u

lamp

connectors

(6) (CN-209,

top cover (7). top cover assembly

: 85 kg

CWDO3285

6.

Lift off hood (8). &I kg l

Hood assembly

Open the side cover and raise.


: 210 kg

Carry out removal.

30-250 0

installation

OF HOOD in the

reverse

order

to

40

MAINTENANCE STANDARD

Engine mount ............................................... 40- 2 Damper, universal joint .............................. 40- 3 Torque converter ........................................ 40- 4 Torque converter valve ............................... 40- 6 TORQFLOW transmission ........................... 40- 8 Transmission control valve ......................... 40-10 Power train, hydraulic, lubrication pump ................................... 40-13 Transfer, bevel pinion ................................. 40-14 Bevel gear shaft, steering clutch, brake ...................................................... 40-16 Steering control valve ................................ 40-18 Final drive ..................................................... 40-20 Main frame ................................................... 40-22 Track frame ................................................... 40-24 Recoil spring .............................................. 40-25-1 Idler ................................................................ 40-26 Track roller bogie ......................................... 40-28 Track roller .................................................... 40-30 Carrier roller ................................................ 40-32 Track shoe ................................................... 40-34 Equalizer bar ................................................ 40-38 Pivot shaft ..................................................... 40-40 Hydraulic pump ........................................... 40-41 Work equipment control pump ................. 40-42 Main control valve ...................................... 40-43 PPC valve ..................................................... 40-47 Work equipment cylinder ........................... 40-50 Cylinder stay ................................................ 40-52 Blade ............................................................. 40-54 Ripper equipment ....................................... 40-60

D475A-3

40-1 1 5

MAINTENANCE

STANDARD

ENGINE MOUNT

ENGINE MOUNT

Unit: mm

Check item

,

Clearance between and cushion

Clearance between

2

Remedy

bracket

bracket

and bushing

Standard size

Tolerance Shaft

Hole

Standard clearance

Clearance limit

78

-0.030 -0.060

+0.006 -0.048

-0.018 0.066

0.1

200

-0.043 -0.083

+0.072 0

0.043 0.155

0.1

I

Repair

Standard 3

Free height mount

40-2 0

of rubber 118

size

I

116

limit

Replace

I I

D475A-3

MAINTENANCE

STANDARD

DAMPER,

UNIVERSAL

DAMPER, UNIVERSAL JOINT

JOINT

SJOO3043

Unit: mm

NO

1

Check item

Criteria Tolerance

Standard size

Clearance between flywheel housing and cover

Shaft

Hole

Standard clearance

Clearance limit

647.7

-0.224 -0.105

+0.080 0

0.024 0.185

0.2

571.5

-0.022 -0.092

+0.070 0

0.022 0.162

2

Clearance between flywheel and damper

1

Standard 3

4

Outer diameter of oil seal contact face on coupling

Remedy

I

size

I

0.2 Replace

I

Repair limit I 119.9

Outer diameter of bearing contact face on output shaft

f

D475A-3

-

40-3 0

MAINTENANCE

TORQUE CONVERTER

STANDARD

TORQUE CONVERTER

i /

/3 -----4

A-A

SJDO3044

40-4 0

D475A-3

MAINTENANCE

TORQUE CONVERTER

STANDARD

Unit: mm No. -

Remedy

Check item Standard

1

3utside diameter of oil seal contact surface of coupling

size

Repair limit

Tolerance

125

0 -0.100

-

124.8 Repair hard chrome plating or replace

2

Inside diameter of seal ring contact surface of seat

115

+0.035 0

3

Inside diameter of seal ring contact surface of retainer

190

+0.046 0

190.5

4

Inside diameter of seal ring contact surface of sleeve

120

+0.035 0

120.2

5

Backlash of input shaft gear and scavenging pump drive gear

-

Standard

0.204 - 0.516

Backlash of input shaft gear and driven gear

0.204 - 0.516 Standard

Wear of stator shaft seal ring

8

5 ‘; 0 g & 2

=

Width: 5.35 Height: 5.85

Thickness of disc

5.4

5.0

Thickness of plate

5.0

4.5

Thickness of total assembly

26.2

24.0

Replace

Thickness of disc

5.1

5.4

I

I

G

g Z5

-

Thickness of plate

5.0

4.5

Thickness of total assembly

15.8

14.7

Standard

IO

Stator clutch spring

I D475A-3

Repair limit

size

Width: 5.95 Height: 6.50

5 9

Clearance limit

clearance

size

Free length

Installation length

54.1

37.0

Repair limit Installation load

Free length

Installation load

25.5N {12.8 kg)

50.9

106.9N (10.9 kg}

40-5 0

MAINTENANCE

STANDARD



r

-1

\--

i 10

4 D-D

E-E

40-6 0

SAD01225

D475A-3

MAINTENANCE


STANDARD

Unit: mm

Clearance between main relief valve and valve

converter

relief valve

Clearance between

lock-up

8

Stator clutch valve spring modulating

103.5

92.7

197.1 N (20.1 kg)

100.4

117.5 N (18.1 kg)

9

clutch Lock-upspring (outer) modulating valve

141.4

88.7

158.6 N (16.18 kg)

137.16

150.7 N (15.37 kg)

lo

Lock-up clutch modulating valve spring (inner)

80.5

78.09

675.7 N I68.9 kg)

II

Lock-up valve spring

97

27.9 N 12.85 kg)

D475A-3

110.07

41.8 N 72.5 (4.26 kg) (Normalhsight) (Normal load) 100.0

29.4 N (3.0 kg)

40-7 0

MAINTENANCE

TORQFLOW 13

\


STANDARD

TRANSMISSION

m

373+19. 6Nm (38f2kaml

16 ,

\

SVD03045

Unit: mm

No

_I

Criteria

Check item Standard size Free length

No. 1 clutch spring (12 PCS)

1

Installation length

100.0 No. 2 clutch spring (12 PCS)

2

1

3 clutch spring PCS)

4


6


40-8 0

I 1

loo.0

90.0

1

84.0

81.7

103.5

94.0 72.0

1

63.0

76.0

Remedy

I

Repair limit

Installation load

Free length

Installation load

40.2 N 114.3 kg}

94.0

119.6 N (12.2 kg}

1 E;k;]

1

150 N (15.3 kg}

1 :1;926k;I 238.3 N (24.3 kg}

94.0 79.0

1

76.5 97.0

1 T&;)

Replace

127.4 N I13 kg}

1 {::4Ok;j 203 N 120.7 kg1

D475A-3

MAINTENANCE

STANDARD


Unit: mm

NC -

I

Check item I

Standard 6

I

7

Thickness of total assembly for No. 2 clutch

I

8


I

9


I

IO


11

Thickness of a clutch disc

12

Thickness of a clutch plate

-

-

size

I

72.6

72.6

50.2

Repair limit

Tolerance

I


Remedy

I

I

I I

I

I

0.36

i

68.9

0.36

I

68.9

0.30

I

47.5

39.0

0.26

36.9

61.4

0.33

58.2

5.4

I

kO.1

I

5.8

4.9

I

I I I

I

5.2

-

13

14

15

Wear of seal ring on transmission input shaft

Wear of seal ring on transmission output shaft

t-Thickness Width

Wear of seal rina for No. 5

-

-

Width

I

Thickness I

4.0

-0.01 -0.03

3.5

5.0

20.15

4.85

6.0

-0.01 -0.03

5.65

II

+0.15

I

16

Backlash between each sun gear and planetary pinion

0.16 - 0.35

17

Backlash between each planetary pinion and inner gear on ring gear

0.18 - 0.38

D475A-3

40-9 0

MAINTENANCE

TRANSMISSION

STANDARD

TRANSMISSION

CONTROL VALVE

CONTROL VALVE

UPPER VALVE 15

6

7

16

.I

LOWER VALVE

SJD03046

40-l 0 0

D475A-3

MAINTENANCE

TRANSMISSION

STANDARD

CONTROL VALVE

Unit: mm

No

1

Clearance between pilot reducing valve, priority valve and body

2 3 4 5 -

6

Priority valve spring (large)

7 8 -

100.0

76.0

688.4 N (70.2 kg1

97.0

654.1 N 166.7 kg}

80.0

71.5

266.7 N (27.2 kg}

77.6

253.0 N {25.8 kg}

Reducing valve spring

70.5

56.0

283.4 N (28.9 kg}

68.4

269.7 N f27.5 kg}

12

Lubrication

valve spring

78.0

48.0

169.6 N 117.3 kg}

75.7

160.8 N 116.4 kg}

I?

Directional, spring

speed valve

78.0

45.0

113.7 N Ill.6 kg}

75.7

107.9 N {I 1.O kg)

14

Thickness of modulating valve shim

9

Modulating (large)

valve spring

10

Modulating (small)

valve spring

11

-

-

-

-

Large

3 mm (One shim changes pressure by 37.3 kPa IO.38 kg/cm?

Small

I mm (One shim changes

pressure by 41.2 kPa IO.42 kg/cm*1

15

Thickness of priority shim

16

Pilot reducing valve shim adjustment

(One shim changes pressure by 31.4 kPa 10.32kg/cmzI

17

Reducing valve shim adjustment

(One shim changes pressure by 54.9 kPa (0.56 kg/cm*}

18

Lubrication adjustment

(One shim changes pressure by 3.92 kPa jO.04 kg/cr+I

-

3 mm (One shim changes pressure by 136 kPa (1.39 kg/cm*) Adjust

-

-

-

valve

D475A-3

valve shim

40-11 a

MAINTENANCE

TRANSMISSION

STANDARD

SPEED AND DIRECTIONAL SELECTOR VALVE SPOOL

CONTROL VALVE

I-

LI-LI

LUJ

SWD03048

Unit: mm

No

Check item

Clearance between selector valve spool and body

1

-

Repair limit

Standard size 2

Detent spring

3

Installation length of directional selector valve spool yoke

4 5

-

Installation length

Installation load

Free length

Installation load

Standard size

Repair limit

29.1

20.3

Installation length of speed selector spool yoke

29.2

20.3

Installation length of speed selector lever stoooer

34.0

+l.O

40-12 0

Free length

Replace

Adjust

D475A-3

MAINTENANCE

POWER TRAIN, HYDRAULIC, LUBRICATION PUMP

STANDARD

POWER TRAIN, HYDRAULIC, LUBRICATION PUMP (BALI60

+ 112 + 112)

BAL112+112

IA-A

A -I

SJD03073

Unit: mm

No.

TvDe

1

2

Clearance between gear case and side plate, gear

Clearance between plain bearing inner diameter and gear shaft outer diameter

Pin insertion depth

1

Standard

Clearance limit

1

clearance

BALI60

0.04 - 0.10

0.13

BALI12

0.04 - 0.10

0.13

0.060 - 0.145

0.20

BALI60 ?eplace

BALI12

Type 3

Remedy

Criteria

Check item

Standard

size

I

Repair limit

Tolerance

I

I

BALlGO 0 -0.5

14

-

BALI12 4

Rotating torque of spline shaft

BALI60

II

II

2.94 I301

288 I

II

266

I

BALI 12 I

D475A-3

2,000

Delivery limit (Q/min.)

Standard delivery (Q/min.)

Delivery pressure MPa Ikg/cm*I

Speed (rpm)

Type Delivery EOIO - CD 45 - 55°C

5.88 Nm IO.6 kgm1

I

2,000

I

2.94 1301

I

205

I

188

40-13 0

MAINTENANCE

BEVEL GEAR SHAFT, STEERING CLUTCH, BRAKE

STANDARD


_/

-------

40-l 6 0

\ ‘\

SWD03050

D475A-3

MAINTENANCE


STANDARD

Unit: mm

Check item

No -

Remedy

Criteria

Thickness of brake, clutch plate

Replace &

Warping of brake, clutch plate

Correct or replace Standard

l--rsi;kness of brake, clutch

size

5.4 Tolerance

Warping of brake, clutch disc 3

Thickness of total brake plate and disc assembly

4

Thickness of total brake plate and disc assembly

5

Backlash of brake, clutch disc, and brake hub

6

Backlash between gear and pinion

less than 0.3

Standard

I

Repair limit

I

5.1

I

Repair limit

I

0.4

78.5

76.8

I 1

clearance

Repair limit 1.o

0.3 - 0.4

0.75

seal ring seal ring groove

0.5 - 0.8

0.8

8

Clearance between seal ring and cage seal ring groove

0.5 - 0.8

9

Inside diameter of seal ring contact surface of cage

7

IO

Clearance between and piston

-0.5 -0.7

350

Inside diameter of seal ring contact surface of piston

1

300

::;;‘:

/

Standard 11

12

13

Brake belleville

Clutch belleville

Free length

spring

spring

Interference between bevel I gear and reamer bolt

Hole

Standard clearance

+0.089 0

0.5 0.789

Shaft

+:-052

( “y,,,

Clearance limit

Replace

/ Repair limit

size

Installation length

Adjust or replace

0.8

I Tolerance

Standard size

Replace

74.1

0.4 - 07

bevel

Correct or replace

Repair limit

size

82.2

Standard

Replace

Installation load

Free length

Installation load

19.7

12.9

46.97 kN (4,790 kg1

19.1

44.62 kN 14,550 kg}

20.4

12.9

55.7 kN 15,680 kg1

20.0

53.35 kN 15,440 kg}

Tolerance

Standard size

Shaft

Hole

20

+0.023 +0.002

+0.033 0

Standard interference

Interference limit

Replace -0.032 0.019

0.02

Service limit: 0.05 (measure after installing to bevel gear shaft)

14

Runout of rear face of bevel gear

15

Preload of bevel gear shaRt taper roller bearing

16

Standard shim thickness of bearing cage

1

Correct or replace

Standard rotating torque: 9.8 - 11.8 Nm Il.0 - 1.2 kgm1 (When bevel pinion and gear are not meshed, at tip of bevel gear: 51.0 - 61.8 N (5.2 - 6.3 kg1

Adjust

2.0

Adjust shim

&

D475A-3

40-17 0

MAINTENANCE

STANDARD



__II__ts!?>

-r-I

4

I

I

\

\

\

3

CL=

13.23*1.47Nm (1.35*0.15kom)

SAD01231

40-18 0

D475A-3

MAINTENANCE


STANDARD

Unit: mm

Criteria

No

Check item

1

Clearance between clutch, brake valve and valve body

5

Tolerance Shaft

Hole

Standard clearance

Clearance limit

19

-0.020 -0.030

+0.013 0

0.020 0.043

0.06

Clearance between clutch, brake valve sleeve and guide

18.35

-0.034 -0.043

+0.013 0

0.034 0.056

0.08

Clearance between clutch, brake valve sleeve and guide

16

-0.034 -0.043

+O.Ol 1

0.034 0.054

0.07

Clearance between clutch, brake valve and piston

9

-0.03 -0.04

+0.015 0

0.030 0.055

0.08

Clearance between parking brake valve and body

16

-0.016 -0.034

+0.043 0

0.016 0.077

0.10

Standard size

Standard 6

Remedy

Clutch modulating

spring

Free length

0

Repair limit

size

Installation length

Installation load

Free length

Installation load

57.3

19.0 88.3 kg} N

59

I

1

60.1

1

38

/ r:k;]

/

58.3

/ :$k;I

1

77.2

1

39.5

1 :;k;]

1

74.9

1 $i;l

I

38

19.46 92.77kg} N

Replace

7

Brake modulating

8

Clutch valve return spring

9

Brake valve return spring

10

Parking brake valve spring

D475A-3

spring

62.4

40.5

148.1 N i15.1 kg)

60.5

141.2 N I14.4 kg)

28

15.0

1.67 N IO.17 kg}

27.2

1.57 N iO.16 kg}

40-19 0

MAINTENANCE

FINAL DRIVE

STANDARD

FINAL DRIVE m,549.?*5+8Nm

3

-\

I

I

I

SJD03051

40-20 0

D475A-3

MAINTENANCE

STANDARD

FINAL DRIVE

Unit: mm

No -

Check item

Criteria

Remedy

Standard clearance

Clearance limit

1

Backlash between No. 1 pinion and No. 1 gear

0.26 - 0.96

1.5

2

Backlash between sun gear and planet pinion

0.25 - 0.70

1.5

3

Backlash between planet pinion and ring gear

0.26 - 0.83

1.5

Outside diameter of No. 1 pinion oil seal contact surface

Standard size

Repair limit

4

120.0

119.9

-

5 6 7

Replace

Thickness of thrust collar of inner body roller bearing Thickness of thrust collar of No. 1 gear boss roller bearing Dimension from mounting face of cover to head of

24.8

24.6

14.0

13.5

72.0

70.5

-

8

Clearance between pinion shaft and carrier

Standard size 110

9 10 -

Tolerance Shaft

Hole

Standard clearance

Clearance limit

-0.035 -0.054

-0.024 -0.059

-0.024 0.030

0.1

Standard shim thickness for No. 1 pinion bearing cage Dimension of end face of final drive cover and end face of bearing

11

Clearance of floating seal guard

12

Wear of sprocket teeth bottom

13

Wear of sprocket teeth tip

2 7.3 - 8.3

Adjust

3.1 - 4.7 Standard size

Repair limit

30

24

486

470

-

Rebuild or replace

-

DA75A-3

40-21 0

MAINTENANCE

STANDARD

MAIN FRAME

MAIN FRAME

F

C

C

a

a

/----------

A-A

13

_-

5

_-

-_

WC! F-F

IY I2

D-D

_

4

_

_-_

G-G

E-E

40-22 0

SWD03052

D475A-3

MAINTENANCE

MAIN FRAME

STANDARD

Unit: mm

No -

Remedy

Criteria

Check item Standard

Repair limit

size

I 1

2

3

Interference between steering case and bushing

Clearance between steering frame and final drive cage learance between

Tolerance

I Standard clearance

Standard size

Shaft

Hole

315

+0.108 +0.056

+0.052 0

(Std. interference) 0.004 0.108

390

-0.018 -0.075

+0.057 0

0.018 0.132

Clearance limit

Above 0

0.2

bracket

4

5 Replace 6 7

radiator

guard mounting

Protrusion of rubber at end face of seal I IO

Free height of front mount rubber

11

Free height of rear mount rubber

-

Ii

16

Press-fitting force for ripper arm mounting bushing Press-fitting force for ripper cylinder mounting bushing Press-fitting force for radiator guard mounting bushing Press-fitting force for .radiator . guard mounting busnmg Press-fitting force for equalizer bar shaft mounting bushing

D475A-3

II

1

0.5

118

116

56

58 I

126.5 - 253 kN 112.9 - 25.8

tOnI

111.8 - 267.7 kN {I 1.4 - 27.3 ton1

62.8 - 142.2 kN (6.4 - 14.5 tOnI

I

Adjust

53.9 - 106.9 kN 15.5 - 10.9 ton1

65.7 - 153 kN 16.7 - 15.6 ton1

40-23 0


TRACK FRAME

TRACK FRAME Serial No.: 10601 – 10684

Unit: mm

No.

Check item

Criteria Item

Deformation of track frame outer pipe

1

Clearance between inner pipe and adjustment cylinder protrusion

2

Repair limit

Curvature

7 (for length of 3,000)

Twisting

3 (for level length of 3,000)

Dents (pipe portion)

12

Tolerance

Standard size

Shaft

70

–0.15 –0.35

Standard clearance Clearance between idler bogie and guide

3

Press-fitting force for cartridge

4

40-24 1 5

Remedy

Hole +0.3 0

Standard clearance

Repair or Replace

Clearance limit Replace

0.15 – 0.65

2.0

Clearance limit Adjust

0 – 0.5 323 – 529 kN {33 – 54 ton}

3.0 —

D475A-3


TRACK FRAME


Unit: mm

No.

Check item

Criteria Item

1

2

Deformation of track frame outer pipe

Clearance between inner pipe and adjustment cylinder protrusion

Repair limit

Curvature

7 (for length of 3,000)

Twisting

3 (for level length of 3,000)

Dents (pipe portion)

12

Tolerance

Standard size

Shaft

70

–0.15 –0.35

Standard clearance 3

4

Clearance between idler bogie and guide Press-fitting force for cartridge

D475A-3

Remedy

Hole +0.3 0

Standard clearance

Repair or Replace

Clearance limit Replace

0.15 – 0.65

2.0

Clearance limit Adjust

0 – 0.5 275 – 510 kN {28 – 52 ton}

3.0 —

40-25 1 5


RECOIL SPRING

RECOIL SPRING Serial No.: 10601 – 10684

Unit: mm

No.

Check item

Criteria Standard size

Recoil spring

1

Free length 1,713

Clearance between inner cylinder and outer cylinder of outer cylinder bushing

2

Clearance between adjustment cylinder and bushing Press-fitting force for outer cylinder bushing (outer cylinder side) Press-fitting force for outer cylinder bushing (inner cylinder side) Clearance between recoil spring mount nut and lock plate

3 4 5 6

40-25-1 5

Remedy Repair limit

Installation Installation length load

Free length

Installation load

725.2 N {74,000 kg}

1,687

659.5 N {67,300 kg} Clearance limit 0.8

1,425

Tolerance

Standard size

Shaft

Hole

Standard clearance

445

–0.068 –0.165

+0.323 +0.060

0.128 – 0.488

165

–0.100 –0.550

+0.063 0

0.100 – 0.613

Replace

51.0 – 99 kN {5.2 – 10.1 ton} 129.4 – 389.1 kN {13.2 – 39.7 ton}

Adjust

0 – 1.0

D475A-3


RECOIL SPRING


Unit: mm

No.

Check item


1

Recoil spring

Free length 1,731

2

3 4 5 6

Clearance between inner cylinder and outer cylinder of outer cylinder bushing

Clearance between adjustment cylinder and bushing Press-fitting force for outer cylinder bushing (outer cylinder side) Press-fitting force for outer cylinder bushing (inner cylinder side) Clearance between recoil spring mount nut and lock plate

D475A-3

Remedy Repair limit

Installation Installation length load

Free length

Installation load

788.3 N {80,435 kg}

1,705

715.4 N {73,000 kg} Clearance limit

1,455

Tolerance

Standard size

Shaft

Hole

Standard clearance

445

–0.068 –0.165

+0.323 +0.060

0.128 – 0.488

0.8

165

–0.100 –0.550

+0.063 0

0.100 – 0.613

—

Replace

51.0 – 99 kN {5.2 – 10.1 ton} 129.4 – 389.1 kN {13.2 – 39.7 ton}

Adjust

0 – 1.0

40-25-2 5


IDLER

IDLER Serial No.: 10601 – 10684

40-26 1 5

D475A-3

MAINTENANCE

IDLER

STANDARD

Unit: mm

No

Remedy

Criteria

Check item Standard size

Repair limit

1,043

-

1

Outside diameter of protruding part

2

Outside diameter of tread surface

990

3

Depth of tread

26.5

-

4

Overall width

325

-

5

Width of tread

85

-

6

7

Clearance between shaft and bushing

Interference between idler and bushing

959

Tolerance Hole

Standard clearance

+0.168 +0.003

0.353 0.581

Standard size

Shaft

180

-0.350 -0.413

Standard size

Shaft

Hole

190

+0.194 +0.122

+0.046 0

1

Tolerance

Width of shaft flange

-

D475A-3

335.0

Clearance limit

I

-

Standard Interference limit interference 0.076 0.194 Repair limit

Standard size 8

Rebuild or replace

-

Replace bushing

Rebuild or replace

40-27 0


IDLER


40-27-1 5

D475A-3


IDLER

Unit: mm

No.

1

Check item

Criteria

Remedy

Standard size

Repair limit

1,043

—

Outside diameter of protruding part

2

Outside diameter of tread surface

990

959

3

Depth of tread

26.5

42

4

Thickness of tread

36

20.5

5

Overall width

347

—

6

Width of tread

96

105

7


Tolerance

Standard size

Shaft

180

–0.350 –0.413

Hole

Standard clearance

Clearance limit

+0.168 +0.003

0.353 – 0.581

—

Standard size 8

9


Interference between ring and shaft

Repair limit

335.0 Tolerance

Standard size

Shaft

Hole

115

+0.046 0

–0.15 –0.20

Standard Interference interference limit Replace ring 0.15 – 0.246

—

Repair limit

End play

Replace ring 0.52 – 0.98

D475A-3

Replace bushing

Rebuild or replace

—

Standard size 10

Rebuild or replace

—

40-27-2 5


TRACK ROLLER BOGIE

TRACK ROLLER BOGIE Serial No.: 10601 – 10684

40-28 1 8

D475A-3

MAINTENANCE

TRACK ROLLER BOGIE

STANDARD

Unit: mm Check item

No.

Clearance between and bushing

1

Clearance between

Criteria

shaft

Tolerance

Remedy

Standard size

Shaft

Hole

Standard clearance

Clearance limit

110

-0.195 -0.230

+0.092 +O.OlO

0.205 0.322

0.8

collar

2

fitted) and outer bogie (press-

175

+O.llO +0.075

+0.048 0

-0.027 -0.110

-

3

Clearance between collar and outer bogie (pressfitted)

177

+0.043 +0.003

+0.048 0

0.045 -0.043

-

4

fitted) and inner bogie (press-

176

+0.196 +0.161

+0.048 0

-0.113 -0.196

-

5

Clearance between shaft and collar (press-fitted)

110

-0.195 -0.230

-0.288 -0.323

-0.058 -0.128

-

6

Clearance between shaft and collar (press-fitted)

110

-0.195 -0.230

-0.130 -0.165

-0.003 -0.10

-

7

Clearance of collar

8

Press-fitting bushing

9

Press-fitting washer

force for

Press-fitting

force for

Clearance between

1o

collar

11

Press-fitting

0.3

force for

I collar

6.9 - 39.2 kN IO.7 - 4.0 ton}

1.0 - 3.9 kN IO.1 - 0.4 ton}

I force for outer

II bogie -

I

117.6 - 264.6 kN I12 - 27 ton}

Press-fitting I bogie

force for inner

Press-fitting bogie

force for outer

I

13

II

-

D475A-3

I

Adjust

61.7 - 194.0 kN f6.3 - 19.8 ton1

I

I

I

12

Replace

447.9 - 725.2 kN ( 45.7 - 74.0 ton1 I 0 - 62.7 kN 1 0 - 6.4 ton)

40-29 0


TRACK ROLLER

TRACK ROLLER Serial No.: 10601 – 10684

40-30 1 5

D475A-3

MAINTENANCE

TRACK ROLLER

STANDARD

Unit: mm

No. -

Criteria

Check item

Remedy

Standard size

Repair limit

344

-

Outside diameter of flange (inside)

335

-

3

Outside diameter of tread

300

250

4

Thickness of tread

67.5

42.5

5

Overall width

394

-

(Single flange)

155

-

(Double flange)

100

-

1

Outside diameter of flange (outside)

2

-

6

Inside width

Rebuild or replace

7

Width of tread (single flange)

8 9 10 11


12

13


Replace bushing

14

Interference between bushing and roller

Replace

-

D475A-3

40-31 0


TRACK ROLLER


40-31-1 5

D475A-3


TRACK ROLLER

Unit: mm

No.

Check item

Remedy

Standard size

Repair limit

344

—

332

—

(Single flange)

300

230

(Double flange)

300

246

(Single flange)

71.5

36.5

(Double flange)

7.15

44.5

1

Outside diameter of flange (outside)

2

Outside diameter of flange (inside)

3

Outside diameter of tread

4

Criteria

Thickness of tread

5

Overall width

423

—

6

Width of tread (single flange)

99.5

—

7

Width of tread (double flange)

99.5

—

8

Width of flange (Outside of double flange)

34.5

19.5

9

Width of flange (Inside of double flange)

27.5

12.5

10


379

—

11


Standard size 147

12

13

Interference between shaft and ring

End play

D475A-3

Tolerance

Rebuild or replace

Shaft

Hole

Standard clearance

Clearance limit

–0.350 –0.413

+0.170 0

0.350 – 0.583

—

Tolerance

Standard size

Shaft

Hole

84

+0.046 0

–0.15 –0.20

0.44 – 0.91

Replace bushing

Standard Interference interference limit Replace 0.150 – 0.246 —

— Adjust or replace

40-31-2 5


CARRIER ROLLER

CARRIER ROLLER Serial No.: 10601 – 10684

Unit: mm

No.

Check item

Criteria

Remedy

Standard size

Repair limit

Outside diameter of flange

275

—

2

Outside diameter of carrier roller tread

240

215

3

Width of carrier roller tread

85

93

4

Thickness of tread

50

37.5

5

Width of flange

25

17

1

Interference between bearing and roller

6

7

Interference between bearing and shaft

8

Play in axial direction of roller

Tolerance

Standard size

Shaft

Hole

140

0 –0.018

–0.028 –0.068

0.010 – 0.068

—

80

0 –0.019

0 –0.015

–0.019 – 0.015

—

Standard clearance

40-32 1 5

Rebuild or replace

0 – 0.22

Standard Interference interference limit

Replace

Clearance limit 0.3

D475A-3


CARRIER ROLLER


Unit: mm

No.

Check item

Criteria

Remedy

Standard size

Repair limit

Outside diameter of flange

275

—

2

Outside diameter of carrier roller tread

240

215

3

Width of carrier roller tread

4

Thickness of tread

5

Width of flange

1

6

Interference between shaft and ring

7

Clearance between shaft and support

8

Play in axial direction of roller

Standard size

96

—

49.5

37

25

14 Tolerance


Shaft

Hole

95

+0.046 0

–0.15 –0.20

0.150 – 0.246

—

90

0 –0.2

+0.35 0

0 – 0.55

—

Standard clearance

D475A-3

Rebuild or replace

0 – 0.22

Replace

Clearance limit 0.3

40-33 1 5


TRACK SHOE

TRACK SHOE Serial No.: 10601 – 10684

fl Portion P shows the link on the side where the bushing is pressed fitted.

40-34 1 5

D475A-3


TRACK SHOE

Unit: mm

No.

1

Check item


Repair limit

317.8

—

Link pitch

Bushing outside diameter 116

Normal load

Impact load

107.5

110

Standard size 3

Repair limit

Link height 199

4

Thickness of link metal (bushing press-fitting portion)

Reverse or replace

When turned

Standard size 2

Remedy

181

Rebuild or replace

53.5 276

5

Replace 6

Shoe bolt pitch

84

7 8 9

226

Link

10

Inside width

162

Overall width

83

Tread width

78

11

Protrusion of pin

2.9

12

Protrusion of regular bushing

1.6

13

Overall length of pin

367

Repair or replace

Adjust or replace 14

Overall length of bushing

244

15

Thickness of bushing metal

21.5

16

Thickness of spacer

17

Press-fitting force

18

D475A-3

Bushing

13 225 – 392 kN {23 – 40 ton} —

Regular pin

490 – 686 kN {50 – 70 ton}

40-35 1 4

MAINTENANCE

TRACK SHOE

STANDARD

NO -

Check

Tightening

Additional angle

torque

(Nm IkgmI) a. Regular

180 2 10

Shoe bolt Tightening torque (Nm {kgmII

19

Additional angle

No. of shoes (each side)

Interference between bushing and link

-

2:

Interference between regular pin and link

Clearance between regular pin and bushing

Standard size

40-36 0

Tolerance


Shaft

Hole

113

+0.652 +0.522

+0.087 0

0.465 - 0.652

70

+0.496 +0.396

-0.126 -0.200

0.522 - 0.696

Standard size

Retighten

-

40

70 -

Lower limit torque (reference value) (Nm {kgrnl) 2,940 {3001

180 + 10

I

21

tightening (deg.)

link 785 + 78 180 f 8)

20

tightening (deg.)

link 785 f 78 {80 + 81

b. Master

r

Remedy

Criteria

item

Unit: mm

Tolerance Shaft

Hole

+0.496 +0.396

+I.236 +0.736

Adjust or replace

Standard clearance 0.240 - 0.840

D475A-3


TRACK SHOE


fl Portion P shows the link on the side where the bushing is pressed fitted.

40-36-2 5

D475A-3


TRACK SHOE

Unit: mm

No.

Check item


Repair limit

317.8

320.8

Height of grouser

105

35

Overall height of shoe

133

63

1

Link pitch

2 3

5

6

116

107.5

110

22.5

14

16.5 Repair limit

109

181 (ª Note 1)

53.5

35.5 (ª Note 2)

One side

1.6

—

Both sides

3.2

—

Height of link

Thickness of link (bushing press-fitting portion)

8

Clearance between links

10

Heavy load

Standard size

7

9

Weld lug, rebuild, or replace

Load

Outside diameter of bushing

Thickness of bushing

Turn or replace

Turning

Standard size 4

Remedy

Interference between bushing and link

Interference between regular pin and link

Standard size

Tolerance


Shaft

Hole

113

+0.652 +0.522

+0.087 0

0.465 – 0.652

70

+0.496 +0.436

+0.124 +0.050

0.312 – 0.446

Tightening torque (Nm {kgm})

Tightening angle (deg)

785 ± 78 {80 ± 8}

180 ± 10

980 ± 98 {100 ± 10}

180 ± 10

Turn or replace

Rebuild or replace

Adjust or replace

a. Regular link 11

Shoe bolt b. Master link

Retighten

ª Note 1: If wear has reduced the outside diameter of the double flange track roller to less than 250 mm, the limit is 183 mm. ª Note 2: If wear has reduced the outside diameter of the double flange track roller to less than 250 mm, the limit is 37.5 mm. D475A-3

40-36-3 5

MAINTENANCE

SHINGLE

STANDARD

TRACK SHOE

SHOE

Unit: mm

Check item

NO.

Criteria Standard

Repair

size

1

Height

2

Thickness

28

3

Length of base

52

4

Length

36

D475A-3

105

at tip

Remedy limit

35 Repair by build-up welding or replace

40-37 0

MAINTENANCE

STANDARD

EQUALIZER

EQUALIZER BAR

BAR

n I

I

-_-__-__

h-7

c-c

SJD03060

40-38 0

D475A-3


EQUALIZER BAR ª1: For Serial No.: 10684 and up

Unit: mm

No.

1

Check item

Clearance between center pin and bushing

2

Clearance between side pin and bushing

3

Clearance between side pin and spherical surface of bushing

4

Interference between side pin boss and bushing

Criteria Tolerance

Remedy

Standard size

Shaft

Hole

Standard clearance

Clearance limit

140

–0.043 –0.083

+0.225 +0.143

0.186 – 0.308

1.0

115

–0.048 –0.078

+0.015 –0.015

0.033 – 0.093

1.0

130

–0.1 –0.3

+0.3 +0.1

0.2 – 0.6

1.0

Tolerance

Standard size

Shaft

Hole

200

+0.051 +0.031

–0.033 –0.079

Standard Interference interference limit 0.064 – 0.130

5

Press-fitting force for side pin bushing

121.5 – 294 kN {12.4 – 30 ton}

6

Press-fitting force for center pin bushing

68.6 – 232.2 kN {7 – 23.8 ton}

7

Press-fitting force for side pin bushing

47.0 – 96.0 kN {4.8 – 9.8 ton}

D475A-3

Replace bushing

—

—

40-39 1 5


PIVOT SHAFT

PIVOT SHAFT

Unit: mm

No.

Check item

Criteria Tolerance

Remedy

Standard size

Shaft

Hole

270

+0.216 +0.086

–0.234 –0.286

0.320 – 0.502

—

2

Interference between thrust washer and seal

194

+0.096 +0.050

–0.075 –0.147

0.125 – 0.243

—

3

Interference between pivot shaft and seal

263

+0.108 +0.056

–0.122 –0.203

0.178 – 0.311

—

Interference between thrust washer and seal

1


Replace

Clearance between pivot shaft and bushing

4

Clearance between pivot shaft and bushing

5

40-40 1 5

Tolerance

Standard size

Shaft

Hole

Standard clearance

Clearance limit

260

–0.190 –0.271

+0.138 +0.026

0.216 – 0.409

1.0

220

–0.170 –0.242

+0.114 +0.038

0.208 – 0.356

1.0

Replace bushing

D475A-3

MAINTENANCE

HYDRAULIC (SAL140

HYDRAULIC PUMP

STANDARD

PUMP

+ 100)

176.5519.6Nm ~16*2bml

SAR-100

SAR-140

SWD03071

Unit: mm

No

1

Check item

Clearance between gear case and side plate gear

Remedy

Criteria

I

Type

Standard clearance

SAL1 40

0.11 - 0.16

SAL100

0.13 - 0.18

SAL140

0.069 - 0.140

Clearance limit

0.22

-

2

Clearance between plain bearing I.D. and gear shaft O.D.

0.20 SAL100

SAR-140 3

Pin insertion depth

4

Rotational torque of spline shaft I

3eplace

0.078 - 0.149 SAR-100

-

Type

-

16.67 - 26.48 Nm Il.7 - 2.7 kgml Revolution (rpm)

Discharge pressure

Standard discharge Wmin)

Discc;ge Wmin)

Discharge EOIO - CD 45 - 55°C

D475A-3

40-41 0

MAINTENANCE

MAIN CONTROL VALVE

STANDARD

MAIN CONTROL VALVE BLADE LIFT VALVE

m

278*31.9Nm (28.3*3.25bml

m ksml

QKi 368*24.5Nm (37.5*2.50kPml

1 A-A

‘3

G= 34.3*4.90Nm (3.50*0.50kPml

278*31.9Nm ~28.3*3.25ksml

D-D SJD03063

0475A-3

40-43 0

MAINTENANCE

MAIN CONTROL VALVE

STANDARD

BLADE LIFT VALVE

f

Main relief, valve

SBD01246

Unit: mm Remedy

1

Spool return spring

2 3

4

Replace

5

Check valve spring

6

Suction valve spring

7

Demand spool spring

8

75.9

38.5

11.38 N II.16 kg)

68.4

9.12 N lo.93 kg)

94.03

60

401.8 N 141 kg1

114.7

321.4 N i32.8 kg}

Main relief valve spring

41.1

32.6

258.9 N I26.4 kg}

39.4

206.9 N I21.1 kg?

9

Shuttle valve spring

42.7

22.0

8.14 N IO.83 kg1

38.6

6.47 N IO.66 kg)

IC

Height of main relief pressure adjustment screw

-

-

40-44 0

8 (I turn of screw adjusts by 2.4 MPa l24.8 kg/cm%

Adjust

D475A-3

MAINTENANCE

MAIN

STANDARD

CONTROL

VALVE

BLADE TILT, RIPPER LOW VALVE

Es=

34.3*4.90Nm i3.50*0.50bml

30.9*3.43Nm 13.15*0.35kml

w

39.2*9.61Nm t4.0*l.Oksml

34.3*4.90Nm

w 66.7*961Nm (7.0*l.OkPml w 93.2-t490Nm (9.50*0.50bml

A-A

34.3*4.90Nm ~3.50~0.50kml

%3*4.90Nm ~3.50*0.50kom1

SJD03064

Unit: mm Criteria

NC

1

Remedy

Spool return spring

Replace 2

3

4 5

Adjust

-

D475A-3

40-45 0

MAINTENANCE

MAIN CONTROL VALVE

STANDARD

RIPPER HIGH VALVE

a=

211*29.4Nm (21.5~3.0kPml

Unit: mm

No

Criteria

Check item

Repair limit

Standard size

1

Spool return spring

2

Check valve spring

3

Suction valve spring

4

Fixed differential pressure valve spring

Free length

Installation length

Remedy

Installation load

Free length

Installation load

-

40-46 0

D475A-3

MAINTENANCE

PPC VALVE

STANDARD

PPC VALVE .

FOR RIPPER

112.8&14.7Nm (11.5~1.5kgm) 13.2t1.5Nm (1.35+0.15kgm)

44.124.9Nm (4.5+0.5kgm)

39.2*4.9Nm (4?0.5kgm)

8.5+2.5Nm (0.85+0.25kgm)

SYDoO454

Unit: mm

No.

1

I

Standard size

I

Centering spring (for P3, P4)

Centering

spring

(for PI, P2) 3

I

Metering spring

D475A-3

Criteria

Check item

Remedy Repair limit

I

I

Free length x OD

Installation length

Installation load

Free length

50.05 x 15.5

34

71.39 N 17.28 kg)

-

50.35 x 15.5

34

55.9N

26.53x8.15

24.9

15.7 kg1 16.7 N (1.7 kg}

56.9 N 15.8 kg} 45.1 N

-

-

I

Installation load I

14.6 kg)

Replace spring if damaged or deformed

17.7 N Il.4 kg}

40-47 a

MAINTENANCE

.

PPC VALVE

STANDARD

FOR BLADE LIFT, BLADE TILT

m

P3

113* 14.7Nm (tl.5* 1.5kml

P4 A-A

P2

Pl c-c

SJD03066

40-48 0

D475A-3


PPC VALVE

Unit: mm

Check item

No -


1

-

2

Centering spring (for PI)

Metering spring

3

Centering spring (for P2)

4

Centering spring (for P3, P4)

5

Detent spring (for PI)

6

Ietent spring (for P2)

D475A-3

Remedy

Free length Installation Installation x O.D. 1 length 1 load 1

lLL:h

37.9 x 15.6

32.5

156 N l15.9 kg}

-

26.53x8.15

24.9

16.7 N il.7 kg}

-

48.6x 15.5 /

32.5

j {;190”Fgl 1

1

Repair limit

I

-

Installation load 124.5 N (12.7 kg} 13.7 N il.4 kg)

86.2 N i8.8 kg)

Replace spring if damaged or deformed

86.2 N 18.8 kg}

134 N 113.7 kg1

45.36 x 7.5

26

38.44 N (3.92 kg}

-

30.79 N 13.14 kg}

40-49

MAINTENANCE

WORK EQUIPMENT

STANDARD

CYLINDER

WORK EQUIPMENT CYLINDER .

BLADE ~STD

LIFT CYLINDER :343*34.5Nm {35.0*3.5kPml Super dozer:490f49.ONm ~50.0*5.Okom~

m

112.8*14.7Nm

A

4mm

SXD03129

.

BLADE TILT CYLINDER, SUPER DOZER PITCH CYLINDER 1

2

SJD03075

.

RIPPER CYLINDER

1323.9*147.1Nm

.

PIN PULLER CYLINDER ~,::\~;$l~rn

2

1

SWD03077

40-50 0

D475A-3

MAINTENANCE

WORK EQUIPMENT CYLINDER

STANDARD

Unit: mm

NC -

1

Criteria

Check item

Clearance between piston rod and bushing

Tolerance

Remedy

Standard size

Shaft

Hole

Standard clearance

Clearance limit

Blade lift

110

-0.036 -0.123

+0.274 +0.060

0.096 0.397

0.72

Blade tilt

140

-0.043 -0.143

+0.277 +0.061

0.104 0.480

0.82

Ripper lift

120

-0.036 -0.123

+0.277 +0.062

0.098 0.400

0.70

Ball 125

-0.300 -0.200

+0.300 0

0.300 0.500

0.8

Ripper tilt Pin puller

-

Blade lift

2

Clearance between piston rod support shaft and bushing

3 -

4

1: -

Clearance between cylinder support shaft bushing and yoke

Clearance between cylinder bottom surx~ort shaft and bushing

Blade tilt Ripper lift Ripper tilt I

110

Pin puller

Ball 29

-0.100 -0.200

Blade lift

145

-0.145 -0.245

Blade tilt

90

-0.200 -0.300

Ripper lift

110

+0.207 +0.120

1.0

Ripper tilt

110

+0.195 +0.122

1.0

26

zo. 1

Clearance between cylinder bottom support shaft and boss

D475A-3

Replace +0.207 +0.120

I

+0.457 +0.390

0.570 0.757

1.0

40-5 1 a

MAINTENANCE

CYLINDER STAY

STANDARD

CYLINDER STAY

SJD03067

Unit: mm Criteria

Clearance between cylinder yoke and bushing

40-52 0

DA75A-3

MAINTENANCE

STANDARD

BLADE

BLADE l

SEMI U-BLADE

13 /‘I E

E-E

’

I-e

D

F-F

H-H

G-G

K-K

J-J

A-A

M-M SWD03068

40-54 0

D475A-3

MAINTENANCE

BLADE

STANDARD

Unit: mm

NC -

Check

Remedy

item

Clearance between pin and brace

Tolerance

Standard clearance

Clearance limit

+0.5 +0.3

0.5 - 0.8

2

-0.2 -0.3

+0.3 +O.l

0.3 - 0.6

2

90

-0.2 -0.3

+O.l 0

0.2 - 0.4

1

Standard size

brace

Shaft

Hole

90

-0.2 -0.3

90

2

Clearance between pin and bracket

brace

3


brace

4

Clearance between brace pin and joint bushing

90

-0.2 -0.3

+O.l 0

0.2 - 0.4

1

5

Spherical clearance between arm and

200

-0.2 -0.3

+0.3 0

0.2 - 0.6

1

6

Clearance between and bracket

joint

7

Clearance between pin and joint

frame

8


frame

9

Spherical clearance f.e$e;;fl;;fe;ushings

IO

Spherical clearance between trunnion and cap 1

250

/

::z

/

+zm5

1 o-5- 1.5 /

11

Clearance between and bracket

joint

1

240

/

2:;

1

1;:;

1 0.3 - 0.7

1

3

12


blade

1

120

/

2:;

/

+;‘3

1 0.3 - 0.8

1

3

13


blade

1

120

/

-g

/

1;:;

I 0.5-

1

2

14

Spherical clearance between arm and cap

1

200

1

21%

1

+is3

1 0.2 - 0.6 1

1

15

Clearance between pin and arm

arm

0.6 - 1.0

2

16


arm

-

Replace

-

-

-

cap

1

240

/

2:;

1

1;:;

/ 0.3 - 0.7

1

3

1

120

1

;I;

/

+;‘3

1 0.3 - 0.8

1

3

120

1

2:;

/

1;:;

10.5-1.0

1

2

165

1

/ 0.3 - 0.4

/

I

Adjust shim or replace

-

-

of 1

/

-

Replace

8

-

1.0


-

90

-0.3 -0.5

+0.5 +0.3

90

-0.3 -0.5

io.3 +O.l

Replace 0.4 - 0.8

2

-

D475A-3

40-55 0

MAINTENANCE

l

STANDARD

BLADE

U-DOZER, SUPER DOZER

A,

A-A

D-D

G-G

i

‘7 E-E

F-F

H-H

J-J SED01257

40-56 0

D475A-3

MAINTENANCE

BLADE

STANDARD

Unit: mm

No -

Criteria

Check item

Remedy

1

Clearance between pin and brace

brace

2


brace

3


brace

4

Clearance between pin and bushing

brace

5

Clearance between center brace and cap spherical surface

200

-0.2 -0.3

+0.3 0

0.2 - 0.6

1

6

Clearance between joint and bracket

240

-0.2 -0.4

+I.5 +I.0

1.2 - 1.9

3

7


frame 120

-0.3 -0.5

+0.3 0

0.3 - 0.8

3


frame

8

120

-0.3 -0.5

+0.207 +0.120

0.420 0.707

2

-0.152 -0.266

-

(

90

-0.2 -0.3

+0.3 +O.l

0.3 - 0.6

2

90

-0.3 -0.4

+O.l 0

0.3 - 0.5

1

90

1

2:;

1

+y

1 0.3 - 0.5

1

1

Replace

1

-

-

-

-

Clearance between 9

straight bushings frame joint

185

+0.206 +0.166

-0.014 -0.060

10

Clearance between trunnion and cap spherical surface

250

-0.5 -1 .o

+I.0 0

0.5 - 2.0

8

11

Clearance and bracketbetween

joint

240

-0.2 -0.4

+0.3 +O.l

0.3 - 0.7

3

12


blade

120

-0.3 -0.5

+0.3 0

0.3 - 0.8

3


blade

13

120

-0.3 -0.5

+0.208 +0.118

0.418 0.708

2

14

Clearance between center link pin and blade bracket

145

-0.043 -0.108

iO.225 +0.106

0.149 0.333

2

15

Clearance between center link pin and center link

145

-0.043 -0.108

+0.225 +0.106

0.149 0.333

2

16

Clearance between center link and blade bracket

550

-0.2 -0.8

+0.3 0.

0.2 - 1.1

2

Clearance between center brace spherical surface

200

-0.2 -0.3

+0.3 0.

0.2 - 0.6

1

-


-

Replace

-

-

-

17 -

and cap

D475A-3


40-57 0

MAINTENANCE

.

CUlTING

BLADE

STANDARD

EDGE, END BIT

w

3344* 373Nm (341*38kPml /

s=

3344* 373Nm (341*38kPmI I

.-__---------------------------------------------

4

SWD03069

Unit: mm

Criteria

Check item

No.

Standard of end bit outside

1

Height

2

Width

3

Height

of end bit inside

4

Height

of cutting

40-58 0

of end bit

edge

size

Remedy Repair

limit

510

383

720

635

393

330

405

351 (240 after turned)

Replace

Replace or turn

D475A-3

MAINTENANCE

RIPPER EQUIPMENT

STANDARD

RIPPER EQUIPMENT .

VARIABLE

GIANT

_-________\

RIPPER

,_._

____.___* ___---_-,--L______-_ --------_____

__-______

__-J

D-D

c-c

E-E

40-60 0

SWD03070

D475A-3

MAINTENANCE

STANDARD

RIPPER EQUIPMENT

Unit: mm

1

Clearance between bushing and bracket and arm mount pin

2 3

4

Clearance between shank and mount pin

5

6

D475A-3

40-61 0

90

OTHERS

Work equimpmet hydraulic circuit diagram Single tilt specification ......................................................................... 90- 3 Dual tilt specification (Serial No.: 10601 – 10674) ............................. 90- 5 Dual tilt specification (Tandem circuit specification) (Serial No.: 10675 and up) ...... 90- 5-2 Dual tilt specification (Parallel circuit specification) (Serial No.: 10675 and up) ....... 90- 5-4 Super dozer specification ..................................................................... 90- 7 Electrical circuit diagram Single tilt and dual tilt specifications Chassis electrical circuit diagram (1/3) ......................................... 90- 9 Chassis electrical circuit diagram (2/3) ......................................... 90-11 Chassis electrical circuit diagram (3/3) ......................................... 90-13 Super dozer specification Chassis electrical circuit diagram (1/3) ......................................... 90-15 Chassis electrical circuit diagram (2/3) ......................................... 90-17 Chassis electrical circuit diagram (3/3) ......................................... 90-19 Heavy-duty specification Chassis electrical circuit diagram (1/3) ...................................... 90-19-2 Chassis electrical circuit diagram (2/3) ...................................... 90-19-4 Chassis electrical circuit diagram (3/3) ...................................... 90-19-6 Electrical circuit diagram for inside cab ............................................. 90-21

D475A-3

90-1 8

OTHERS

WORK EQUIMPMET HYDRAULIC CIRCUIT DIAGRAM

WORK EQUIMPMET HYDRAULIC CIRCUIT DIAGRAM DUAL TILT SPECIFICATION (Serial No.: 10601 – 10674)

D475A-3

90-5 8

OTHERS


WORK EQUIMPMET HYDRAULIC CIRCUIT DIAGRAM DUAL TILT SPECIFICATION (TANDEM CIRCUIT SPECIFICATION) (Serial No.: 10675 and up)

D475A-3

90-5-2 8

OTHERS


WORK EQUIMPMET HYDRAULIC CIRCUIT DIAGRAM DUAL TILT SPECIFICATION (PARALLEL CIRCUIT SPECIFICATION) (Serial No.: 10675 and up)

D475A-3

90-5-4 8

OTHERS


ELECTRICAL CIRCUIT DIAGRAM CHASSIS ELECTRICAL CIRCUIT DIAGRAM (SINGLE TILT SPECIFICATION AND DUAL TILT SPECIFICATION) (1/3)

D475A-3

90-9 8

OTHERS


ELECTRICAL CIRCUIT DIAGRAM CHASSIS ELECTRICAL CIRCUIT DIAGRAM (SINGLE TILT SPECIFICATION AND DUAL TILT SPECIFICATION) (2/3)

D475A-3

90-11 8

OTHERS


ELECTRICAL CIRCUIT DIAGRAM CHASSIS ELECTRICAL CIRCUIT DIAGRAM (HEAVY-DUTY SPECIFICATION) (1/3)

D475A-3

90-19-2 8

OTHERS



D475A-3

90-19-4 8

OTHERS



D475A-3

90-19-6 8

OTHERS


ELECTRICAL CIRCUIT DIAGRAM INSIDE CAB

90-21 0

Komatsu America international Company 440 North Fairwav Drive I Vernon Hills, IL 66061-8112 U.S.A. Attn: Technical Publications Fax No. (847) 970-4186

PROPOSAL

1

FOR MANUAL

REVlslON

FOR INTERNAL USE ONLY -- No. PMR 2

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PFMRl 081696

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Seb d 017208

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