Ficha Tecnica Komatsu 400 -7

 PRODUCT  PRODU CT BULLETIN BULLETIN

PC400LC-7  Hydrauli c Exc Excavators  avators  INTERNAL USE ONLY

Introducing the PC400LC-7  Hydraulic Excavators  Excavators 

TABLE OF CONTENTS

TABLE OF CONTENTS 1 2 3 4 5

6

7

8

9

10

11

12 13 14

P UR UR PO POS E AN D S CO COP E........................... ......................................... ............................ ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ................. 2 D ES I GN GN CO CON CE CEPT............................. ........................................... ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. .................... ...... 3 S UM UM M AR AR Y OF FEATU RE RES ............................ .......................................... ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................4-7 .....4-7 HIGHLIG HIGHLIGHTS HTS AND AND TECH TECHNIC NICAL AL SELL SELLING ING POINTS POINTS............................. ........................................... ............................ ............................. ............................. ............................ ............................. ...........................8-9 ............8-9 PRODUCTIVITY FEATURES INCREASED PRODUCTION, PRODUCTION, REDUCED REDUCED FUEL CONSUMP CONSUMPTION TION.......... ..................... ..................... .................... ..................... ..................... .................... ..................... ..................... ..................... ................ ..... 10 WORKING WORKING MODE MODE SELECTION........... SELECTION.......................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ .................. .... 11 HIGH ENGINE ENGINE OUTPUT, LOW FUEL CONSUMP CONSUMPTION TION........... ..................... .................... ..................... ..................... .................... ..................... ..................... ..................... ..................... .................... ................... ......... 12 LARGER LARGER DIGGING DIGGING FORCE................. FORCE................................ ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ .................. .... 13 PROVEN PROVEN HYDRAULIC HYDRAULIC SYSTEM.................................... SYSTEM.................................................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ................ 14-15 14-15 EXCELLEN EXCELLENT T MACHINE MACHINE STABILITY ............................ ........................................... ............................. ............................ ............................ ............................. ............................. ............................ ............................. ....................... ........ 16  TWO  TWO BOO BOOM SETT SETTING INGS S ...... ......... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ......16 ...16 LIFT CAPACITY CAPACITY ............................ ........................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ ....................... ......... 17 SWING TORQU TORQUE E ............................. ........................................... ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................. ............................. .................... ...... 18  TRAC  TRACTIVE TIVE EFFO EFFORT..... RT........ ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ...... ..... .. 18 RELI RELIA ABILITY ILITY & DURAB DURABILITY ILITY FE FEATURE TURES S INCREASED CLEARANCE CLEARANCE BETWEEN BETWEEN REVOLVING REVOLVING FRAME/TRACK................. FRAME/TRACK...... ..................... .................... ..................... ..................... .................... ..................... ..................... .................... .............. .... 19 IMPROV IMP ROVED ED DURABILITY DURABILITY OF TRACK TRACK LINK ............................ ........................................... ............................. ............................ ............................. ............................. ............................ ............................ ......................... ........... 19 HIGH-CAPAC HIGH-CAPACITY ITY AIR CLEANER CLEANER ............................ .......................................... ............................ ............................. ............................. ............................ ............................ ............................. ............................. ........................... .............19 19 IMPROV IMP ROVED ED RELIABILITY OF ELECTRIC ELECTRIC PARTS ............................ .......................................... ............................ ............................ ............................. ............................. ............................ ............................ .................. .... 20 DT CONNE CONNECTO CTORS RS ........................... ......................................... ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................ ............................. ..................... ...... 20 O-RING -RI NG FACE FACE SEAL..................................... SEAL................................................... ............................ ............................. ............................. ............................ ............................. ............................. ............................ ............................ ....................... ......... 21 HIGH-PRESSURE HIGH-PRESSURE IN-LINE IN-LI NE FILTERS.......................... FILTERS......................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................... ........ 21 LARGE CASTINGS............... CASTINGS............................. ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ .................. .... 22 OPERATOR COMFORT LARGE-SI LARGE-SIZ ZED CAB.......................... CAB........................................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................. ............................. .................... ...... 23 SUPER SILENT CAB............................... CAB............................................. ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................ .............24 24 CAB DAMPER........................ DAMPER....................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................. ................. 25 CIRCULATION CIRCULATION OF AIR IN CAB FOR CLEANLINESS CLEANLINESS ........................... .......................................... ............................. ............................ ............................. ............................. ............................ ........................... .............26 26 INCREASED INCREASED CAB CAB PRESSURIZATION...... PRESSURIZATION..................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ........................... .............26 26 WASHABLE WASHABLE FLOOR FLOOR MAT............................. MAT........................................... ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................. ....................... ........ 26 CONVE CONVENIENT NIENT CAB ACCE ACCESSORIES SSORIES ............................ ........................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................... ........ 27 CONVE CONVENIENC NIENCE E OPTIONS OPTIONS ............................ .......................................... ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................... ........ 27 COUNTERBALANC COUNTERBALANCE E ASSISTED ASSI STED PULL-UP PULL -UP FRONT FRONT WINDOW WINDOW .................... .......... ..................... ..................... .................... ..................... ..................... .................... ..................... ..................... ................... ......... 28 IMPROV IMP ROVED ED VISIBILI TY ............................. ........................................... ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ ......................... ........... 28 EASY MAINT MAINTE ENANC NANCE E & INSP INSPE ECTION TION RADIATO RADIATOR R AND OIL COO COOLER ............................ .......................................... ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ................. 29 EASY ACCESS ACCESS FOR FOR ENGINE ENGINE INSPECTIO INSP ECTION....... N.................. ..................... .................... ..................... ..................... .................... ..................... ..................... .................... ..................... ..................... .................... ................... ......... 29 ENGINE ENGINE OIL ........................... .......................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................. ................. 30 FUEL FUEL LINE............. LINE ........................... ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................. ............................. ............................ .................. .... 30 FUEL FUEL TANK................... TANK................................. ............................ ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ......................... ........... 31 ENGINE ENGINE AND HYDRAULIC HYDRAULIC OIL FILTER.............................. FILTER............................................ ............................ ............................. ............................. ............................ ............................ ............................. ............................. ................ 32 LONG LONG REPLACEMENT REPLACEMENT INTERVAL INTERVAL PARTS ........................... ......................................... ............................ ............................. ............................. ............................ ............................ ............................. ............................ .............33 33 SAFETY FEATURES GLOBAL GLOBAL SAFETY SAFETY DESIGN DESIGN ........................... ......................................... ............................. ............................. ............................ ............................ ............................. ............................. ............................ ............................. ....................... ........ 34 FULLY PRESSED CAB................................... CAB.................................................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. .................... ...... 35 OPG TOP GUARD GUARD (OPTION), FRONT FRONT FULL HEIGHT HEIGHT GUARD GUARD (OPTION)..................... (OPTION)........... ..................... ..................... .................... ..................... ..................... ..................... ..................... ............ .. 35 ENVIRONMENT NVIRONMENTAL AL FEAT FEATURE URES S LOW EMISSIO EMISSI ON ENGINE............ ENGINE........................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ............................ ......................... ........... 36 LOW NOISE AROUND AROUND MACHINE................ MACHINE...... .................... ..................... ..................... .................... ..................... ..................... .................... ..................... ..................... ..................... ..................... .................... ..................... .............. ... 36 ECON ECONOMY OMY MODE....................... MODE..................................... ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ......................... ........... 37 DESIGNED DESIGNED FOR FOR EFF EFFECTIVE ECTIVE USE OF RECYCLABLE RESOURCES RESOURCES .................... .......... ..................... ..................... .................... ..................... ..................... .................... ..................... ..................... ............ .. 37 M ULTI-FUNCTION COLOR COLOR MONITOR OVERVIEW................ OVERVIEW............................... ............................. ............................ ............................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................ .............38 38 SIMPLIFIED SIMP LIFIED WORKING WORKING MODE MODE ........................... .......................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ................ 39 HYDRAULIC HYDRAULIC PUMP OIL FLOW FLOW ADJ ADJ USTMENT USTMENT SYSTEM....................... SYSTEM..................................... ............................ ............................. ............................. ............................ ............................ ......................... ........... 39 AUTOMATIC AUTOMATIC THREE-SPEED TRAVEL/LIFTING TRAVEL/LI FTING MODE.................. MODE........ ..................... ..................... .................... ..................... ..................... .................... ..................... ..................... ..................... ..................... .......... 40 EQUIPMENT EQUIPMENT MANAGE MANAGEMENT MENT MONITORING MONITORING SYSTEM (EMMS) ............................. ........................................... ............................ ............................. ............................. ............................ ...................... ........ 40 EMMS MAINTENANC MAINTENANCE E FUNCTIO FUNCTION N ............................ ........................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................... ........ 41 EMMS DATA DATA MEMORY FUNCTIO FUNCTION N ........................... .......................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................... ........ 41 GREASING GREASING INTERVAL INTERVAL EXTEN EXTENDE DED D ............................ ........................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................... ........ 42 ATTA ATTACH CHMENT MENTS S & OPTIO OPTIONA NAL L EQUIPME EQUIPMENT NT WORK WORK EQUIPM EQUIPMENT ENT AVAILABILITY AVAILABILITY ........................... .......................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ....................... ........ 43 PIPING PIP ING FOR FOR ONE ONE ATTACH ATTACHMENT................... MENT.................................. ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ................ 44-46 44-46 INTERCHANGEABILITY ............................ ........................................... ............................. ............................ ............................. ............................. ............................ ............................ ............................. ............................. ......................... ........... 47 COMPETITIVE SPECIFICATIONS ............................. ........................................... ............................ ............................. ............................. ............................ ............................ ............................. ............................. ....................48-49 ......48-49

1

1

PURPOSE AND SCOPE

Japanese Market ' 90

' 91

' 92

' 93 ' 94 ' 95 November

PC400-5

' 96

' 97 ' 98 October

' 99

' 00

'01

' 02

' 03 September

PC400-7

PC400-6 August

December

September

CAT CA T E450B

3 50 February

3 45 B L November

345BL Series II February

HITACHI EX400-1

EX400-3

EX400-5 M/C

ZX450

m/c

Evaluation in Japan Caterpillar 345B Series II Slow compound operation is a weak point of this machine. The boom will not rise when boom is raised, arm is moved in, and bucket is curled simultaneously. simultaneously.

Hitachi ZX450 Lack of response from work equipment is a weak point of this machine. When arm OUT operation is started  just after arm IN operation, the work equipment response is very slow.

TREND OF REGULATIONS FOR CONSTRUCTION EQUIPMENT Emission Stricter emission regulations will be applied to construction equipment worldwide in order to preserve

the global environment. The time to enforce the new emission regulations will depend on the engine output range.

*4.7/0.40 *4.0/0.30 *4.0/0.20 *4.0/0.20 *4.0/0.20

*4.7/0.40 *4.0/0.30 *4.0/0.20 3rd Stage

The PC400-7 is Komatsu’s genuine answer for customers around the world.

2

DESIGN CONCEPT

2

1. Largest production production and lowest lowest fuel consumption consumption in in its class with improved improved proven proven HydrauMind HydrauMind system 2. Improved Improved fundamental fundamental performance performance such as digging digging force, force, stability stability, lift capacity capacity,, etc. 3. High Higher er reliab reliabili ility ty and dura durabi bilit lity y 4. Easy maintenance maintenance and high serviceability serviceability to avoid waste and time-consuming time-consuming work work as much much as possible 5. Low-noise Low-noise and low-vibration low-vibration design design for for the highest operator comfort 6. Meets Meets EPA, EPA, EU and and Japan Tier II emissio emission n regulatio regulations ns 7. Set new leading edge edge world world standards standards for quality, quality, reliability reliability and and safety 8. Multi-fu Multi-functi nction on color color monito monitorr — First First in the the industry industry

PC400LC-7 Product Concept

3

3

SUMMARY OF FEATURES

Comparison of selling features

Unit

Komatsu PC400LC-7

Komatsu PC400LC-6

—

SAA6D125E

SA6D125E

kW/rpm (HP/rpm)

246/1850 330/1850

228/2050 306/2050

—

Active

Active

* Production (ratio)

—

108

100

* Fuel cosumption (ratio)

—

90

100

* Efficiency (ratio)

—

120

100

—

Economy

Heavy duty

—

97

95

—

81

91

—

120

104

kN/ton/US ton

200/20.4/22.5

198/20.2/22.3

kN/ton/US ton

214/21.8/24.0

N/A

kN/ton/US ton

256/26.1/28.8

252/25.7/28.3

kN/ton/US ton

275/28.0/30.9

N/A

Bucket digging force

ton

28.0**

25.7

* Bucket digging time

sec

3.6

3.6

ton/sec

7.78**/7.25**

7.14

—

109**

100

—

115

100

Engine model Flywheel horsepower Working mode, for production oriented customer

   E Working mode, for fuel consumption oriented customer    C * Production (ratio)    N    A * Fuel consumption (ratio)    M    R * Efficiency (ratio)    O    F w/o Power max.    R    E Arm crowd force    P w/Power max.    C    I w/o Power max.    S    A Bucket digging force w/Power max.    B

Comparison of bucket power

Digging force/digging time Bucket power (ratio) * Lateral stability (ratio) Two boom mode settings

—

Available

Available

m3 (yd3)

2.67 (3.49)

2.34 (3.06)

Width

mm (in)

930 (36.6)

920 (36.2)

Length

mm (in)

1650 (65.0)

1560 (61.4)

Height

mm (in)

1595 (62.8)

1584 (62.4)

Seat reclining angle

degree

72

36

Seat slide amount

mm (in)

160 (6.3)

100 (3.9)

mm (in)

180 (7.1)

120 (4.7)

mm (in)

922 (36.3)

809 (31.9)

dB

75

81*

dB (A)

83

87

dB (A)

75

81*

—

Cab damper

Multi-layer viscous

dB (VL)

115

120

mmAq (inAq)

6.0 (0.2)

1.5 (0.06)

Type of air conditioner (optional)

—

Full-auto

Manual

Cooling capacity (SAE) [optional]

kcal/h

6900

6900

Heating capacity (SAE) [optional]

kcal/h

6500

6500

—

With assist

w/o assist

Cab volume Cab interior dimensions

   T    R Console slide amount    O    F Foot space (distance from travel lever to seat)    M    O Working    C Swinging    R * Noise level at operator ear    O    T Relief    A    R    E Cab mount method    P    O

Vibration at floor on the foot * Pressurization

Front window pull up method * Measured value ** With power max.

4

3

SUMMARY OF FEATURES : PC400LC-7 Far superior Caterpillar 345BL Series II

Hitachi ZX450

3176CATAAC

AA-6WG1TQA

239/2000 321/2000

**231/1800 **314/1800

one mode only

H/P mode

106

100

97

95

109

105

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

199/20.3/22.4

200/20.4/22.5

N/A

N/A

258/26.3/29.0

259/26.4/29.1

N/A

N/A

26.3

26.4

4.9

4.4

5.37

6.0

75

84

83

90

N/A

N/A

2.6 (3.4)

2.67 (3.49)

937 (36.9)

920 (36.2)

1610 (63.4)

1625 (64.0)

1590 (62.6)

1565 (61.6)

54

42

180 (7.1)

160 (6.3)

180 (7.1)

120 (4.7)

910 (35.8)

860 (33.9)

75.9*

76.7*

INA

INA

82.9*

76.2*

Single-layer viscous

Single-layer viscous

INA

INA

Full-auto

Full-auto

INA

4300/6900

With assist

W/o assist

: PC400LC-7 Superior

: PC400LC-7 Equivalent

Superiority against PC400LC-6

345BL

ZX450

Active mode is for production oriented customers

Economy mode is for fuel consumption oriented customers

** Note: The output in the catalog is 231 kW {314 HP}/1,800 rpm in the H/P mode, but only 226 kW {307 HP} is used normally. The output is increased to 231 kW {314 HP} only when a large load is applied in the H/P mode.

5

3

SUMMARY OF FEATURES

Comparison of selling features

Unit

Komatsu PC400LC-7

Komatsu PC400LC-6

—

Multi-function

Black & White segment

Variable flow adjustment

1/2 flow at “B” mode

Monitor

Manual

Active mode

Available

Available

Economy mode

Available

N/A

—

Available

Available

—

Available

N/A

—

Available

Available

Abnormality check function

—

Available

Available

Maintenance (Filter & oil change inter val)

—

Available

Available

Password function

—

Available

N/A

Trouble history memory function

—

Available

Available

Travel speed

—

3 speed

3 speed

Shift control

—

Automatic

Automatic

degree

64

97

—

Available

N/A

   Y Type of seat belt    T    E Thermal guard    F    A    S Fully covered fan guard

—

Retractable (Opt)

Optional

—

Available

Available

—

Available

Available

Engine neutral start

—

Available

Available

Type of cab front window glass

—

Safety

Safety

—

Conformity

N/A

dB

107

109.1*

Possible

N/A

Type of monitor Oil flow adjustment function for attachment Adjustment method of oil flow

—

Working mode/Power mode

Breaker mode    R    O Lifting mode    T    I    N Maintenance, Troubleshooting, etc.    O    M Abnormality display

Blind angle at operator eye Capability for OPG top guard level 1

 . EPA Tier 2 emission regulations    V    N Ambient noise level    E (Sound power level)

Individual installation/removal of radiator Individual installation/removal of oil cooler

—

Possible

N/A

Fuel strainer

—

Standard

Optional

Fuel drain valve remote mount

—

Available (Std)

N/A

   E Fuel tank capacity    C Fuel tank rust prevention    N    A    N Engine oil drain valve (Eco valve)    E    T Replacement interval    N    I Engine oil    A    M

Itr (US gal)

650 (172)

605 (160)

—

Available

N/A

—

Available (Std)

Available (Opt)

hours

500

250

Engine oil filter

hours

500

250

Hydraulic oil

hours

5000

5000

Hydraulic oil filter

hours

1000

500

Lubrication for bucket

hours

250

50

Lubrication for work equipment (except bucket)

hours

500

100

mm (in)

201 (7.9)

154 (6.1)

mm (in)

122 (4.8)

142 (5.6)

—

O-ring face seal

Taper seal

mm (in)

381 (15)

356 (14)

   & Clearance between revolving frame    Y    Y    T    I    T    I    L    I Projection of travel motor cover    L    I    B    B    ASeal of hydraulic piping    A    I   R    L    U    E    DSize (Diameter) of air cleaner    R

Legend

6

N/A: Not available INA: Information not available

and track

* Measured value ** Automatic greasing

3

SUMMARY OF FEATURES : PC400LC-7 Far superior Caterpillar 345BL Series II

Hitachi ZX450

Black & White multi

Black & White segment

1/2 flow

1/2 flow

Switch

Switch

One mode

: PC400LC-7 Superior

: PC400LC-7 Equivalent

Superiority against PC400-6

345BL

ZX450

 —

—

Available Available

Available

Available

N/A

Available

Available

INA

Available

INA

INA

N/A

N/A

N/A

INA

Available

2 speed

2 speed

Automatic

Automatic

81

89

Available

Available

Retractable

Retractable

INA

N/A

Available

INA

Available

Available

Laminate

INA

Conformity

Conformity

107.9*

109*

INA

INA

INA

INA

Standard

Standard

N/A

N/A

720 (190)

650 (172)

INA

INA

N/A

N/A

250

500

250

500

2000

4000

500

1000

50

10 (Manual)

50

50**

115 (4.5)

122 (4.8)

98 (3.9)

103 (4.1)

INA

INA

INA

INA

7

4

HIGHLIGHTS AND TECHNICAL SELLING POINTS

High Production and Low Fuel Consumption Production is increased with larger output during Active mode, while fuel efficiency is fur ther improved. Fuel efficiency is increased 20%. (Compared with PC400LC-6) •

High-output and low-fuel consumption engine Low fuel consumption attained by an electronically controlled fuel injection system. •

Larger digging force Arm crowd force is increased 8% when the Power Max. function is applied Bucket digging force is increased 9% when the Power Max. function is applied (Compared with PC400LC-6) •

•

Excellent machine stability Machine stability and balance is improved by a new counterweight design. Two-mode setting for boom Switch selection allows either powerful digging or smooth boom operation.

Excellent Reliability and Durability • • •

Reduced risk of revolving frame damage Hydraulic piping with O-ring face seal Highly durable track link (Improved durability of track link)

Easy Maintenance •

•

• •

• • •

8

Replacement interval is extended for engine oil, engine oil filter and hydraulic filter Easy removal and installation of the radiator and oil cooler. (Side-by-side cooling) Fuel tank capacity increased New bushing on work equipment extends lubricating interval from 50 hours to 250 hours for bucket pin bushings, excluding bucket (Optional) Easy troubleshooting with self-diagnostic monitor Easy access for engine inspection High-capacity air cleaner

4 Harmony with Environment •

• • •

Low emission engine A powerful turbocharged and air-to-air aftercooled Komatsu SAA6D125E provides 246 kW 330 HP. This engine is EPA, EU and Japan Tier 2 cer tified, without sacrificing power or machine productivity. Economy mode saves fuel consumption Low noise operation Designed for effective use of recyclable resources

Large Comfortable Cab The new PC400LC-7’s cab volume is increased by 14%, offering an exceptionally roomy operating environment Highly pressurized cab with automatic air conditioner Low noise design Low vibration with cab damper mounting FOG capable with optional bolt-on top guard OPG (Operator Protective Guards) top guard level 2 by ISO 10262 (formerly FOG) •

• • •

Variable Track Gauge (optional) •

•

•

Lateral stability is significantly improved when operating with the gauge extended. Lateral stability is increased by 30% (compared with the fixed gauge of the current model). Complies with transportation regulations by retracting the gauge.

Photo may include optional equipment.

9

5 PRODUCTIVITY FEATURES INCREASED PRODUCTION, REDUCED FUEL CONSUMPTION Increase of production in Active mode

The PC400LC-7 produces 8% more than the PC400LC-6 by increasing the engine horsepower, digging force, and work equipment speed. Fuel consumption is reduced and fuel efficiency is increased by approx. 20%.

Production

8% increase (Compared to PC400LC-6)

Production priority Production (Index) Active mode PC400LC-7

Fuel consumption (Index) 90

108

Active mode PC400LC-6

100

HD mode PC400LC-6

120

Large production

100

95

104

106

97

100 90

100

109

95 110

Condition: 90˚ swing, dump truck loading on the same level, sandy soil

100

91

CAT 345BLII Hitachi HP ZX450 mode

Fuel efficiency ( Index)

80

90

105 100

90

100 110 120 FVPM3262

Active Mode Production of PC400LC-7 in Active mode is 8% greater than PC400LC-6, and fuel efficiency is 20% better. Production of PC400LC-7 in Active mode is 2% greater than 345BL and fuel efficiency is 10% better. Production of PC400LC-7 in Active mode is 8% greater than ZX450 and fuel efficiency is 15% better. Fuel saving priority Production (Index) Economy mode PC400LC-7

Fuel consumption ( Index)

97

HD mode PC400LC-6

81

91 100

110

120

Low fuel consumption

95 90

Fuel efficiency ( Index)

80

90

100 100

90

100 110 120 FVPM3263

Note: Index shows PC400LC-6 Active mode as 100.

Economy Mode Production of PC400LC-7 in Economy mode is 2% greater than PC400LC-6 Heavy Duty mode and fuel consumption is 10% lower. Fuel efficiency of PC400LC-7 in Economy mode is 20% better than PC400LC-6 Heavy Duty mode.

10

Condition: 90˚ swing, dump truck loading on the same level, sandy soil

5

PRODUCTIVITY FEATURES

WORKING MODE SELECTION

WORKING MODE SELECTION continued  [New E mode setting] PC400LC-7 engine performance curves In the current PC400LC-6 E-mode, the hydraulic pump adjusts to the speed and load of the engine. In the new PC400LC-7, the engine has a common rail type fuel injection system and the fuel injection rate is

controlled electronically. Therefore, in the new Emode, the engine controller adjusts the engine speed, and the hydraulic pump is matched accurately by sensing the engine RPM.

Current E-mode pump matching line

   )   m   g    k    (   e   u   q   r   o    T

A-mode New E-mode pump matching line (Engine)

New E-mode (Engine) The matching point under heavy load is set similarly to that in the current E-mode to reduce fuel consumption.

 The work equipment speed during light duty work is nearly the same as that in A-mode.

Isochronous control Current E-mode (Engine)

Engine speed (rpm) FVPM3242

11

5

PRODUCTIVITY FEATURES

HIGH ENGINE OUTPUT, LOW FUEL CONSUM PTION

HIGH ENGINE OUTPUT, LOW FUEL CONSUM PTION

The PC400LC-7 utilizes a newly developed Komatsu SAA6D125E engine with air-to-air aftercooler.

This engine has high output, low fuel consumption and low emission.

(1) Highest output in its class Model

Komatsu PC400LC-7

Komatsu PC400LC-6

Komatsu PC400LC-6 EXCEL

KOMATSU SAA6D125E

KOMATSU SA6D125E

246/1850 {330/1850}

228/2050 {306/2050}

Item Engine name Rated output

kW/rpm {HP/rpm}

* The output in the catalog is 231 kW {314 HP}/1,800 rpm in the H/P mode, but only 226 kW {307 HP} is used normally.

CAT

Hitachi*

Kobelco SK450-6 SK480-6

345BL II

ZX450

KOMATSU SAA6D108E

CAT 3176CATAAC

ISUZU AA-6WG1TQA

MITSUBISHI 6D24-TLE2A

228/1950 {306/1950}

239/2000 {321/2000}

231/1800 {314/1800}

235/2000 {315/2000}

The output is increased to 231 kW {314 HP} only when a large load is applied in the H/P mode.

(2) Low fuel consumption Air cooled with the air-to-air aftercooler is supplied to the combustion chamber for higher combustion efficiency.

1. Since the displacement of the hydraulic pump is increased, sufficient pump capacity is secured and the work equipment speed is increased while the engine speed is lowered and set at the highest fuel efficiency point. 2. Fuel consumption is reduced by utilizing the electronically controlled fuel injection system. The high-pressure fuel injection is optimized electronically to reduce the fuel consumption. 3. The engine speed is kept level by the isochronous control to reduce the fuel consumption and noise.

Model

PC400LC-7

PC400LC-6

cc/rev

190 + 190

160 + 160

Fuel injection pressure

MPa {kgf/cm2}

120 {1224}

70 {714}

Engine speed

rpm

1850

2050

Item Displacement of pump

Fuel consumption is improved by reducing hydraulic loss The quick return circuit is added to the arm cylinder bottom circuit. Since a part of the return oil is sent to the tank directly when the arm is moved OUT, the hydraulic loss is reduced about 30%. The result is a reduction in fuel consumption. Two return hoses

12

5

PRODUCTIVITY FEATURES

LARGER DIGGING FORCE

LARGER DIGGING FORCE

● 

Larger Arm Crowd Force and Bucket Digging Force Provide Increased Production  Arm crowd force is increased 8% and bucket digging force is increased 9% when the Power Max function is applied. (Compared with PC400LC-6)

Reference: Comparison of arm crowd force Model

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450

Kobelco SK450-6

W/o Power kN Max. {ton/US ton}

200 {20.4/22.5}

198 {20.2/22.3}

199 {20.3/22.4}

200 {20.4/22.5}

202 {20.6/22.7}

With Power kN Max. {ton/US ton}

214 {21.8/24.0}

N/A

N/A

N/A

221 {22.5/24.8}

Item

Arm crowd force

Comparison of bucket digging force

Measured with ISO rating Model

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450

Kobelco SK450-6

W/o Power kN Max. {ton/US ton}

256 {26.1/28.8}

252 {25.7/28.3}

258 {26.3/29.0}

259 {26.4/29.1}

264 {26.9/29.7}

With Power kN Max. {ton/US ton}

275 {28.0/30.9}

N/A

N/A

N/A

289 {29.5/32.5}

Item Bucket digging force

FZPM2827

Comparison of bucket digging power

Measured with 3380 mm (11'1") arm and ISO rating Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450

W/o Power Max. With Power Max.

 —

—

—

Model Item ton {US ton}

26.1 {28.8}

28.0 {30.9}

25.7 {28.3}

26.3 {29.0}

26.4 {29.1}

Bucket speed (digging)*

sec

3.6

3.6

3.6

4.9

4.4

Bucket digging force/speed

 —

7.25 {8.0}

7.78 {8.58}

7.11 {7.86}

5.37 {5.92}

6.0 {6.61}

Bucket power ratio

 —

1.02

1.09

1.00

0.76

0.84

Bucket digging force

* Measured value.

13

5

PRODUCTIVITY FEATURES

PROVEN HYDRAULIC SYSTEM The high output engine combined with Komatsu’s proven HydrauMind system provides high production and easy operation.

What is HydrauMind? The HydrauMind system symbolizes the new technology featured on the Avance series where the load sensing valves and pressure compensation valves handle all adjustments for individual work applications based on the proportional pressure and

lever stoke sensed. The load sensing valves are the “brains” of the Avance excavators allowing full automatic oil flow control without the need for computer control in all operations.

Benefits of HydrauMind system •

•

You can operate all work equipment easily and as desired. For example, when the ground condition changes in digging, the required oil amount automatically flows to the actuators. You do not have to worry about lever stroke or the computer program.

•

•

•

1. Work equipment speed is determined only by lever stroke. Whatever the position of the work equipment control lever, all the oil flow from the pump goes to the actuator. Even if the load on the actuator changes, actuator speed remains the same.    t   n   e   m   p   d    k   e   r   i   e   o  u   q  p    W  e  s

No speed change due to load

  r   e   w   o    P

Max.

Under heavy/light load Lever stroke

Lever stroke FVPM2867

When moving the boom, arm and bucket at the same time, all equipment works, just like a human hand, at the optimum combination of speed and power without using any electronic device. The finest controllability you have ever experienced. Changing or adding valves and work equipment is easy.

2. Compound operations not affected by load. When two or more actuators are operated at the same time, the oil is divided and sent to each actuator corresponding to the lever stroke, regardless of the size of the load. There is no problem of excess oil flowing to the circuit at light load, and operations can be carried out simply in accordance with the operating feel.    t   e   d    k  e   c  e   u  p    B  s

Righthand lever

   d   e   m  e   r   p    A  s

Lefthand lever Time FVPM2868

Effective work using HydrauMind system Fine control with lifting operations is easy. The work equipment speed corresponding to the control lever stroke is constant, so it is easy to start movement without being affected by the size of the load being lifted.

Reverse scraping operations are easy. The arm can be moved slowly under full power, ensuring easy operation.

Inching FVPM2869

14

FVPM2870

5

PRODUCTIVITY FEATURES

PROVEN HYDRAULIC SYSTEM continued  Work with additional attachments is easy Even when attachments such as breakers or crushers (which require a different amount of oil) are used, the flow of oil can be adjusted simply by adjusting the movement of the control pedal for the attachment. (= spool operating area) Breaker

It is to easy transport fresh concrete. Fine control of compound operations can be carried out easily.

Crusher

FVPM2875

FVPM2871

It is easy to scrape down. Even without operating the lever to the maximum position, maximum digging power can be obtained, making it possible to carry out slow control.

It is easier to fully load the bucket. During simultaneous operation, the work equipment moves slowly at maximum power, without being influenced by the other actuators, so it is easy to fully load the bucket.

Slowly

FVPM2876 FVPM2872

It is easy to carry out digging work along the faces of walls. Lateral power pushing is powerful allowing digging operation to be carried out efficiently.

It is easy to operate the crusher and work equipment simultaneously. The oil flow is divided according to the movement of the lever, regardless of whether the load is heavy or light.

FVPM2873 FVPM2877

The machine can carry out operations easily without any undue chassis vibration. During simultaneous operations, there is no change in the work equipment speed caused by change in load, thus, there is minimal chassis vibration.

It is easy to dig soft rock or dig up boulders. It is easy to control the boom RAISE, so the cutting edge does not deviate from the boulders.

Steady No shaking or jerking FVPM2874

FVPM2878

15

5

PRODUCTIVITY FEATURES

EXCELLENT M ACHINE STABILITY The tail swing radius is increased by 145 mm (5.7") and the counterweight is increased by 612 kg (1,350 lb.) to

Lateral stability

PC400LC: 15% increase Model

Item Lateral stability (ratio)

improve the balance and stability of the machine.

(Compared with PC400LC-6)

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450H

115/110

100/100

83

90

TWO BOOM SETTINGS

1. Smooth mode While gathering blasted rocks with the arm, lifting of machine front portion is prevented and shock due to machine falling is reduced. As a result, gathering material with arm is executed smoothly. (This is especially effective for gathering work from 1m (3'3") under-ground to the surface.) In addition, this is effective for scraping down facings loosened by blasting (dealing with floating stones).

Two boom settings switch Scraping of cutting face Boom raise

FVPM3211

FVPM3212

2. Power mode Boom pushing force is increased, ditch digging and box digging operation on hard ground are improved.

FVPM3213

Model Item Two boom setting

16

 —

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450/450H

Equipped

Equipped

Not equipped

Not equipped

PRODUCTIVITY FEATURES

5 LIFT CAPACITY

The PC400LC-7 has excellent lift capacity. To achieve the large lifting capacity the counterweight has been moved 6 inches further from the center of the machine and weight of the counterweight has been increased by 1,350 lbs. to 20,950 lbs.

The John Deere 450C LC is only available with the variable gauge track frame. Over the side it does have a slight advantage vs. the PC400LC-7. If this is an issue,

All machines are equipped with 35.5" track shoes Arm PC400LC-7

13'1"

PC400LC-6

13'1"

CAT 345BL2

12'10"

JD 450C LC

12'10"

please use the PC400LC-7 Variable Gauge machine and you will see a significant lift capacity advantage.

17

5

PRODUCTIVITY FEATURES

SWING TORQUE

The PC400LC-7 has excellent swing capability. Powerful swing torque provides quick swing acceleration that results in fast cycle times. Model Item Foot Pounds

Ratio

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

John Deere 450C LC

111,059

110,457

110,260

107,004

100

99

99

96

TRACTIVE EFFORT

The PC400LC-7 has excellent travel capabilities. Although drawbar pull is not class leading, the steering index is a very good providing great maneuverability.

(Drawbar Pull x Track Gauge) Steering Index (Operating Weight x Track Length)

Non-Variable Gauge Model

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

John Deere 450C LC*

Operating Weight

98,226

97,740

99,590

104,000

Drawbar Pull

73,880

73,880

74,380

79,590

Track on Ground

4350

4350

4360

4470

Standard Track Gauge

2740

2740

2740

2890

Steering Index

0.474

0.476

0.469

0.495

100

100

99

104

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

John Deere 450C LC*

100,457

99,971

104,340

104,000

73,880

73,880

74,380

79,590

Track on Ground

4350

4350

4360

4470

Standard Track Gauge

2890

2890

2890

2890

Steering Index

0.489

0.491

0.473

0.495

100

100

97

101

Item

Ratio

Variable Gauge Model Item Operating Weight Drawbar Pull

Ratio

* The John Deere 450C LC does not have a standard (non-variable) undercarriage option.

18

RELIABILITY & DURABILITY FEATURES

6 INCREASED CLEARANCE BETWEEN REVOLVING FRAME/TRACK

Increased clearance between revolving frame and track to reduce risk of revolving frame damage The clearance between the track and revolving frame is increased by about 5 cm to reduce the risk of revolving frame damage from stones.

154 mm (6.1")

➝

 201 mm (7.9")

Photo may include optional equipment

IMPROVED DURABILITY OF TRACK LINK The PC400LC-7 track link has a durable strut similar to that of the PC400LC-6. In addition, the square nuts are utilized to reduce drag and allow higher working efficiency. Strut added Square nut used

FZPM2821

Grease Sealed Track provides excellent undercarriage durability

HIGH-CAPACITY AIR CLEANER High-capacity air cleaner for large-sized machines The life of the air cleaner is increased and clogging and power reduction in a shor t period are prevented. In addition, the sealing method is changed to increase the reliability (Radial seal type). The outside diameter is increased from 14 inches to 15 inches and the life is at least 1.84 times longer than the current model.

19

6

RELIABILITY & DURABILITY FEATURES

IM PROVED RELIABILITY OF ELECTRIC PARTS Improvement in reliability of electrical parts •

•

Waterproofing at junctions in the wiring harness is improved. Junction parts of electric har ness is covered by thermal shrinking tube with seal.

•

Ground connection improved Following measures are used to improve ground connection performance. Tightening of plural ground connection cables is discontinued. Centralized ground connection is discontinued, and individual ground connection is utilized to improve reliability of ground connection. •

•

DT CONNECTORS

The PC400LC-7 comes standard with the DT-type electrical harness connectors that can withstand higher terminal voltage. The connecting wires are individually sealed with rubber for improved water and vibration resistance. DT connectors are adopted in the electrical harness for improved reliability and durability i n severe environmental conditions due to heat, water and vibration.

20

RELIABILITY & DURABILITY FEATURES

6 O-RI NG FACE SEAL

The hydraulic hose seal method has been changed from a conventional taper seal to the O-ring seal. This provides improved sealing performance during vibration and shock loads. PC400LC-7

PC400LC-6

FZPM2908

HIGH-PRESSURE IN-LINE FILTERS The PC400LC-7 has high pressure in-line filters installed at the pump discharge ports. This protects the hydraulic system from contamination due to the unlikely event of a pump failure.

21

6

RELIABILITY & DURABILITY FEATURES

LARGE CASTINGS

Large Castings are utilitzed in the work equipment, improving strength and durability. The castings smoothly transfer forces and loads, improving the work equipment and main frame life. They also improve torsional strength.

Boom Foot

Arm Tip

Boom Tip

22

7

OPERATOR COMFORT

LARGE-SIZED CAB The operating space inside the cab conforms to the working space standard of ISO (PC400LC-6 does as well). Even a large operator should be satisfied with the wide space in the cab. Since the wide door is installed, the operator can get in and out easily.

Height +11 mm (0.4") (Conforms to ISO)

Width +10 mm (0.4") (Conforms to ISO)

Cab volume

14% increase (Compared to PC400LC-6) Foot space +29 mm (1.1") Model

Komatsu PC400LC-7

Komatsu PC400LC-6

m3 (yd3)

2.67 (3.49)

2.34 (3.06)

2.60 (3.40)

2.67 (3.49)

Width

mm (ft.in)

930 (3'1")

920 (3'0")

937 (3'1")

920 (3'1")

Length

mm (ft.in)

1650 (5'5")

1560 (5'1")

1610 (5'3")

1625 (5'4")

Height

mm (ft.in)

1595 (5'3")

1584 (5'2")

1590 (5'3")

1565 (5'2")

Item Volume Inside dimensions

PC400LC-7

PC400LC-6

72°

36°

Reclining angle •

•

Hitachi ZX450/450H

Full flat reclined seat with headrest The large cab enables full flat reclining of the seat back with headrest for relaxing rest on a break. Seat sliding travel is increased Seat sliding travel is increased 120 mm (4.7") from 220 mm (8.7") to 340 mm (13.4") by use of large cab.

PC400LC-7

PC400LC-6

mm (in)

160 (6.3")

100 (3.9")

Console sliding travel mm (in)

180 (7.1")

120 (4.7")

Seat sliding travel

•

CAT 345BL II

Foot space (distance from travel control lever to seat) is enlarged 113 mm (4.4").

23

7

OPERATOR COMFORT

SUPER SILENT CAB

The engine sound, swinging sound, and hydraulic relief sound are lowered significantly.

Operate the PC400LC-7 and you will appreciate the low noise design.

Noise at operator’s ear

Countermeasure to lower noise

Dynamic noise

High-rigidity pressed cab

 – 6 dB (A)

Blocking of holes on floor Seal between cab and floor

Swing noise

 – 4 dB (A)

Relief noise

 – 6 dB (A)

Cab damper mounting Optimum arrangement of sound suppressing material

Comparison of noise level at the operator’s ears Model Item

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450/450H

Noise working

dB

75*

81*

75.9*

76.7*

Noise swinging

dB (A)

83*

87

—

—

Noise relief

dB (A)

75*

81*

82.9*

76.2*

* Measured value

Measures taken to reduce noise 1. Low-noise engine and installation of large-sized low-noise muffler 2. Large-capacity swing motor Since the swing motor speed is lowered, the swing noise is reduced. The displacement of the swing motor is increased from 160.7 cc/rev to 229.4 cc/  rev. 3. Large-capacity pump Since the engine speed is decreased, the fan noise and engine noise are reduced. Engine speed: 2,050 rpm 1,850 rpm (–200 rpm)

24

Displacement of pump: 160 ∞ 2 cc/rev 190 x 2 cc/rev

4. Use of cab damper mount 5. Use of high-rigidity pressed cab Improvement of airtightness of cab PC400LC: 1.5 mmAq (0.06") 6 mmAq (0.24")

7

OPERATOR COMFORT

CAB DAM PER

The revolutionary cab damper mounting is a first in the industry. This cab damper mounting prevents the operator from vibrating even if the machine body vibrates.

Vibration is reduced significantly by the effects of this cab damper mounting and the reinforced deck on both sides.

Vibration of floor under operator’s feet

 –5 dB (VL)

(PC400LC-6: 120 dB (VL))

Vibration of floor under the operator's foot [dB (VL) ] 130

120

120

              e   l          c                     a  t          s            b          o          r          e     v          o          g                 n   i            l          e     v               ar            T

110 100 90

96            l          e     v               e   l            l          e     v               ra            T

80

           d          n         u                or          g  

           k          c               ar            t          e                   di          s          e          n          o                  t h            i     w

115

-5

-2

FVPM2753

94

Multi-layer cab Damper viscous mounting damper “dB (VL)” is an index of vibration level. As it is increased, vibration is increased and operator comfort is lowered. Floor vibration (When either track rides over object at forward Hi gear) Multi-layer viscous

Rubber

Silicon oil

Cab damper mount Rubber Spring Silicon Oil

Comparison of cab mount Model Item Cab mount

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450/450H

Cab damper mounting

Multi-layer viscous

Single-layer viscous

Single-layer viscous

25

7

OPERATOR COMFORT

CIRCULATION OF AIR IN CAB FOR CLEANLINESS Automatic air conditioner A 6,900 kcal (SAE) air conditioner is utilized. The bilevel control function keeps the operator’s head and feet cool and warm respectively. This improved air flow function keeps the inside of the cab comfortable throughout the year.

INCREASED CAB PRESSURIZATION Pressurized cab with air conditioner The airtight cab is utilized to prevent entry of dust even in dusty environments. Since the airtightness of the cab is improved, the internal pressure is increased to 6.0 mmAq (0.2 inAq) when the air conditioner is operated (in the fresh-air-in mode).

The internal pressure of the cab of PC450LC-6 is increased to 9 mmAq (0.35 inAq) by employing the fixed one-piece glass for the front window. This internal pressure prevents dust from entering the cab.

Comparison of air conditioner

(Measured value) Model

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450/450H

 —

Full-auto

Manual

Full-auto

Full-auto

Cooling capacity

[SAE] (kcal/h)

6900

6900

6900

6900

Heating capacity

[SAE] (kcal/h)

6500

6500 INA

INA

Item Type

Pressurized value

[mmAq (inAq)]* 6.0 (0.2) / 10.0 (0.39)

WASHABLE FLOOR MAT

The flanged floor mat is employed so that the inside of the cab can be washed with water. Since the floor inclines gently toward the door of the cab, water is drained easily. Additional water can be drained off through the draining holes at the front part of the floor under the mat.

26

1.5 (0.06)

7

OPERATOR COMFORT

CONVENIENT CAB ACCESSORIES Hot and cool box Remote intermittent windshield wiper with washer Defroster (Conformed to defrosting standard of ISO)

Cup holder Magazine rack

FM/AM auto-tuning radio Air conditioner

Ashtray Cigarette lighter

CONVENIENCE OPTIONS

The rain visor, sun visor, 12-V power supply are optional.

Rain visor

Sun visor (PC400-7 only) (Front and ceiling window)

27

7

OPERATOR COMFORT

COUNTERBALANCE ASSISTED PULL-UP FRONT WINDOW The front window utilizes an assisted opening method, facilitating front window operation.

Additionally, a front lower window glass storage space is provided in front of rear window.

Roller unit

Front lower window glass storage space

One-touch lock

IM PROVED VISIBILITY

Total blind angles at eye point have been reduced from 97 to 64 degrees. Front visibility Since the cab is made by pressed steel, the pillars have proper rigidity and the front blind angle is reduced by about 25%. Ultra wide visibility is obtained.

Right visibility The right pillar is eliminated to increase the right visibility. Blind angle

Front

97 degree

64 degree FVPM2812

28

EASY MAINTENANCE & INSPECTION

8 RADIATOR AND OIL COOLER

Side-by-side cooling The radiator and oil cooler are installed side-by-side so they can be removed and installed separately for easy maintenance. In addition, the system efficiency has been improved.

Removal and installation simulated by 3D CAD

Removal and installation of only oil cooler

Removal and installation of only radiator

EASY ACCESS FOR ENGINE INSPECTION Since the engine-related inspection parts such as the engine oil dipstick, engine oil filler, fuel filter, etc. are centralized on the left side of the engine, the operator can easily maintain them.

Photo may include optional equipment

29

8

EASY MAINTENANCE & INSPECTION

ENGINE OIL

The “Eco drain valve” is installed with which the operator can drain the engine oil easily.

Engine oil drain valve (Eco valve)

FUEL LINE

A fuel strainer is installed between the fuel tank and fuel filter to remove coarse dirt. The additional filter having a water separator function is also standard. The fuel hose joints have highly reliable face seals. The operator can drain water from the fuel system easily with the remote fuel drain valve.

Fuel strainer

Fuel drain valve (Remote mounted) Model

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450/450H

Fuel strainer

Standard

Optional

Standard

Standard

Fuel drain valve remote mount

Standard

Not available

INA

Not available

Fuel hose joint seal

Face seal

Clip

INA

INA

Item

30

EASY MAINTENANCE & INSPECTION

8 FUEL TANK

•

•

The fuel tank capacity is increased from 605 to 650 liters (160 to 172 U.S. gal). The inside (bottom) of the fuel tank is made of a ZINC plated steel sheet to prevent rust.

•

The fuel filler and strainer are improved so that a large-sized fuel gun can be used and fuel will not spout out while fuel is supplied. Fuel can be supplied automatically (The operator may release the fuel gun while supplying fuel).

56 (2.2")

   )    "    1  .    5    (    0    3    1

   )    "    7  .    8    (    0    2    2

48 (1.9")

FVPM2828

Model Item Fuel tank capacity

liter (U.S.gal)

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450/450H

Kobelco SK450-6

650 (172)

605 (160)

720 (190)

650 (172)

650 (172)

31

8

EASY MAINTENANCE & INSPECTION

ENGINE AND HYDRAULIC OIL FILTER The replacement interval of the oil and filters is extended by employing high-performance filtration material.

Since the high-performance filtration material has finer fibers and more pores, the dirt capturing capacity of the filter is increased.

(1) Hydraulic oil filter The replacement interval is increased and the filter size is reduced by using microglass (highperformance filtration material).    )    "    7  .    7    1    (    0    5    4

Conventional hydraulic oil filter

New hydraulic oil filter

Conventional hydraulic oil filter

   )    "    9  .    7    (    0    0    2

New hydraulic oil filter FZPM2775

Model Item

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450/450H

Kobelco SK450-6

Engine oil

h

500

250

250

500

500

Engine oil filter

h

500

250

250

500

500

Hydraulic oil

h

5000

5000

2000

4000

2000

Hydraulic oil filter

h

1000

500

1000

500

500

Fuel filter

h

500

500

500

500

(2) Engine oil filter The filter paper is changed from the cellulose type to strata pore type having higher dirt capturing capacity.

Layer to capture medium particles Layer to capture fine Layer to capture coarse particles particles

FWPM2669

32

EASY MAINTENANCE & INSPECTION

8 LONG REPLACEM ENT INTERVAL PARTS

PC400LC-7

Up to 5000 hour lubricants and filter cost calculation table Interval No. of (hour) replacements

Parts unit price

A

Parts cost Ax

Refill Amount of Lubricants Lubricants Man Total Labor capacity lubricants cost/liter cost hour man hour charge [liter (US gal)] [liter (US gal)] (hour) (hour) B

AxB

AxBx

C

AxC

1.0

10.0

Engine oil filter

500

10

Engine oil

500

10

Fuel filter

500

10

0.5

5

Air cleaner element*

2500

2

0.125

0.25

Hydraulic filter

1000

5

0.5

2.5

Hydraulic oil

5000

1

2.0

2.0

Hydraulic tank breather

500

10

0.125

1.25

Swing machinery oil

1000

5

16.2 (4.3)

81.0 (21.5)

1.0

5.0

Final drive oil

2000

2

24 (6.3)

48 (12.6)

1.0

2.0

53 (14.0)

248 (65.5)

Total

530 (140)

248 (65.5)

907 (239.6)

PC400LC-6

28

Up to 5000 hour lubricants and filter cost calculation table Interval No. of (hour) replacements A

Parts unit price

Parts cost Ax

Refill Amount of Lubricants Lubricants Man Total Labor capacity lubricants cost/liter cost hour man hour charge [liter (US gal)] [liter (US gal)] (hour) (hour) B

AxB

AxBx

C

AxC

1.0

20.0

Engine oil filter

250

20

Engine oil

250

20

Fuel filter

500

10

0.5

5

2500

2

0.125

0.25

500

10

0.5

5

5000

1

2.0

2.0

Hydraulic tank breather

500

10

0.125

1.25

Swing machinery oil

1000

5

21.5 (5.7)

107.5 (28.5)

1.0

5.0

Final drive oil

2000

2

23 (6.1)

46 (12.2)

1.0

2.0

Air cleaner element* Hydraulic filter Hydraulic oil

41 (10.8)

270 (71.3)

Total

820 (216)

270 (71.3)

1243.5 (328)

40.5

* Replacement interval depends on job condition.

Please fill local parts unit price and lubricant cost per liter (US gal) and calculate parts, lubricants and labor cost.

33

9

SAFETY FEATURES

GLOBAL SAFETY DESIGN

The PC400LC-7 sets the world safety standards. Cab has capability for OPG top guard level 2 compliance with bolt-on top guard

Large-sized handrail

Anti-skid sheet

The operator can get on and off the machine safely.

The operator does not slip easily during inspection, etc.

Full-cover fan guard and thermal guard These guards prevent the operator from touching a hot part or the fan during inspection of the engine.

Large side mirror

Oil splash prevention wall (Fire wall) If a hydraulic leak occurs, the bulkhead between the pump chamber and engine compartment prevents the oil from spraying over the hot parts. Lock lever

Tempered green glass

Retractable-type seat belt

The front glass is tempered green glass having high strength. It also blocks out ultraviolet rays.

Attention: “OPG top guard level 2” is the formal name changed by ISO for FOG (or FOGS) .

34

Large-sized steps Large-sized steps are installed to front and rear so that the operator can get on and off easily.

This lever locks hydraulic system to prevent operation by mistake. Since the engine neutral start system is utilized, the engine can start only when the lock lever is at the LOCK position.

9

SAFETY FEATURES

FULLY PRESSED CAB

The newly designed, fully pressed, and reinforced cab is manufactured by a solid press forming process to attain an ideal strong frame structure having high rigidity. This cab has capability to comply OPG top guard level 2 (FOG) with bolt-on top guard.

FVPM2747

Model Item Bolt-on OPG top guard level 2 capable cab

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450

Available

N/A

Available

Available

OPG TOP GUARD (OPTION), FRONT FULL HEIGHT GUARD (OPTION) The optional bolt-on OPG top guard level 2 and front full guard level 2 are available particularly for operations in jobsites where there is high possibility of falling rocks, etc. OPG top guard

Front full height guard

FVPM2748A

FVPM3209

35

10

ENVIRONMENTAL FEATURES

LOW EMISSION ENGINE

The engine meets Tier 2 emission regulations in USA, and Europe and Japan.

Tier 2 emission regulations The quantity of NOx and PM (Particulate) must be the following values or below.

Regulation values Regulated substances

Exhaust gas

EU regulation

Unit

EPA regulations

Output range of engine

kW

130 – 560

225 – 450

CO

g/kW-h

5.0

5.0

NOx/HC

g/kW-h

6.0/1.0

6.4 (Including HC)

Particulate

g/kW-h

0.2

0.2

2002

2001

Tier 2 emission

PC400LC-7’s discharge amount of NOx and PM are reduced by 29% and 15% compared with than that of PC400LC-6 respectively. Compliance of various machines to Tier 2 regulations Komatsu Komatsu PC400LC-7 PC400LC-6

CAT 345BL II

Hitachi ZX450

Kobelco SK480

Remarks

: Conformance  : Non conformance

LOW NOISE AROUND MACHINE PC400LC-7 meets the Noise regulation of EU.

• •

The engine sound, swinging sound, and oil relief sound are lowered significantly by the following countermeasures.

•

•

•

High cooling efficiency aluminum oil cooler is used Sound suppression cover is installed to seal between cab and engine room Sound absorbing materials are optionally arranged Noise when swinging is reduced by use of large capacity low-speed swing motor Engine fan revolution reduced

Comparison of dynamic noise Model Item Ambient noise level (Sound power level) * Measured value

36

dB

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL II

Hitachi ZX450

107

109.1*

107.9*

109*

10

ENVIRONMENTAL FEATURES

ECONOMY MODE

The Economy mode is an environment-friendly mode: Fuel consumption is reduced Noise is lowered while machine is used at night or in a jobsite adjacent a residential area Discharge of CO2 should be reduced by 20% •

When Eco mode is selected

•

•

Fuel consumption Discharge of CO2 Production

Ratio to Active mode Ratio to Active mode Ratio to PC400-6

Reduction by 20% Reduction by 20% Equivalent

Heavy duty mode

DESIGNED FOR EFFECTIVE USE OF RECYCLABLE RESOURCES

The cab ceiling is made of kenaf (natural fiber)

Recyclable material symbols are put on all resin parts

Recyclable sound absorbing material made of PET (polyethylene terephthalate) is utilized

All exterior parts are made of steel FVPM3229

37

11

MULTI-FUNCTION COLOR MONITOR

OVERVIEW

A newly developed Multi-Function Color Monitor has multiple functions, such as Working mode selection,

hydraulic pump oil flow adjustment for matching to attachment, and maintenance interval notice, etc. Service meter

Working mode Engine water temperature

Travel speed

Hydraulic oil temperature Fuel level Screen adjustment switch

Selector switch Maintenance switch

Windshield wiper and washer switch

Working mode selector switch

Automatic deceleration selector switch

Travel speed selector switch

OUTLINE of MULTI-FUNCTION COLOR MONITOR

Brightness adjustment

Display caution when abnormality found

Selection by input operation

Normal screen

Automatically selected

Checks before starting (2 sec) Display caution and error code when fault occurs

Working mode and travel speed display (2 sec) Initial screen (2 sec)

When maintenance time is exceeded  (30 sec)

Maintenance table Change Working Mode Oil flow setting for breaker in B mode

38

A

B

L

E

Oil flow setting for attachment when A and E mode

Setting of travel speed, auto-decel, wiper and swing holding brake

11

MULTI-FUNCTION COLOR MONITOR

SIM PLIFIED WORKING MODE Working Mode Selection PC400LC-7 working mode is changed from 6 to 4modes to concentrate hydraulic excavator fundamental performance. Working Mode

The Multi-Function Color Monitor has Lifting mode in addition to the standard three-mode selection ( A, E, and B modes).

Application

Advantage

A

Active mode

• Maximum production/power • Fast cycle times

E

Economy mode

• Excellent fuel economy

L

Lifting mode

• Lifting capacity is increased by 7%

B

Breaker mode

• Optimum engine r pm, hydraulic flow for breaker operation

HYDRAULIC PUMP OIL FLOW ADJUSTMENT SYSTEM Hydraulic Pump Oil Flow Adjustment System When installing attachments (breaker, crusher, etc.) and B, A, or E mode is selected, it is possible to adjust engine and hydraulic pump discharge flow to match attachment characteristics. Selection is possible throughout the LCD (Liquid Crystal Display).

This system also allows throttling of the attachment side discharge flow to provide smooth work equipment movement and compound operation with work equipment and attachment.

Flow rate can be selected from menu according to breaker. (When B-mode is selected)

Flow rate can be set, regardless of menu.

Selected with selector switch

Flow rate can be adjusted when crusher is used. (When A-mode or E-mode is selected)

39

11

MULTI-FUNCTION COLOR MONITOR

AUTOMATIC THREE-SPEED TRAVEL/LIFTING MODE Automatic Three-Speed Travel Travel speed is automatically shifted from high to low speed according to the pressure of the travel. This optional system is available as part of the MultiFunction Color Monitor.

Travel Speed

High

Mid

Low

5.5 km/h (3.4 mph)

4.4 km/h (2.7 mph)

3.0 km/h (1.9 mph)

Lifting Mode When the Lifting mode is selected, lifting capacity is increased by 7 % raising hydraulic pressure.

EQUIPM ENT M ANAGEM ENT M ONITORING SYSTEM (EMMS) EMMS (Equipment Management Monitoring System) Fault display function If the engine oil level, cooling water level, etc. is abnormal, it is displayed on the LCD monitor in the operator’s cab.

Machine condition check function The oil pressure, engine speed, etc. can be displayed on the LCD monitor. With this function, the downtime can be minimized.

When abnormal

In check mode

40

MULTI-FUNCTION COLOR MONITOR

11 EMMS MAINTENANCE FUNCTION

Maintenance Function Monitor informs replacement time of oil and filters on LCD when the replacement interval is reached.

Time to replace is displayed.

Set item/time and current time are displayed.

Selection with maintenance switch

EMM S DATA MEMORY FUNCTION Maintenance History Data Memory Function Monitor stores maintenance data, such as engine oil replacement etc.

Trouble Data Memory Function Monitor stores abnormalities for effective troubleshooting.

PASSWORD FUNCTION Color monitor has password function. For details, please refer “manual for Password setting and cancel”. Important Precautions for setting a password Once the customer sets a password, only he (she) knows it and any distributor cannot find or cancel it. Accordingly, if the customer forgets the set password, the whole monitor must be replaced. When delivering, explain this matter carefully to the customer.

41

11

MULTI-FUNCTION COLOR MONITOR

GREASING INTERVAL EXTENDED Bushing for Work Equipment BMRC bushings are used for the boom foot and boom cylinder connecting pin of the work equipment. OMRF bushings are used for the other parts of the work equipment and bucket. CRHF is applied to the bushing end of arm top to lengthen the greasing interval. BMRC (Beta Matrix Reinforced Copper Alloy) A bushing made by combining a sintered copper layer impregnated with oil for better fitting and a backing metal. It is used for severe application parts which receive low rocking stresses and high loads to prevent creaking and scuffing because of its excellent sliding characteristics.

Work equipment lubrication interval PC400LC-7

PC400LC-6

Bucket pin bushings

50

50

Boom foot and boom cylinder bottom bushings

500

50

Other bushings

500

100

Sintered Al bronze layer impregnated with high-performance lubricating oil

Backing metal (steel)

OMRF (Ordered Matrix Reinforced Ferrous Alloy) A bushing made of a hardened phase of hard FerroAluminum having high wear resistance and an Al bronze phase. It has high hardness, high scuffresistance, and high wear resistance.

unit: hours

Sintering pores filled with high-performance lubricating oil

FVPM3247

Ferro-Aluminum martensite phase Al bronze phase FVPM3217

CRHF (Carbide Reinforced Hard facing Ferrous Alloy) A hard alloy is fixed to the end of a bushing by sintering to reduce wear, seizure, and play of the contact surfaces.

Hard alloy Fixed by sintering S45C FVPM3215

Changed from steel bushing to OMRF bushing Changed from steel bushing to BMRC bushing

Arm top: CRHF is fixed to bushing

Changed from high tensile strength brass bushing to BMRC bushing

Changed from steel bushing to SCSH bushing

Resin made shim Resin made shims are used for work equipment pin connections (except bucket connections) to reduce noise.

42

FVPM3216

12

ATTACHMENTS & OPTIONAL EQUIPMENT Work equipment availability Spec Item

PC400LC-7 Deluxe

Lubricating interval

Bucket

50 hours

Boom foot and boom cylinder bottom

500 hours

Others

500 hours

7060 mm (23'2") Boom

7060 mm (23'2") HD

—

7060 mm (23'2") with attachment piping 7060 mm (23'2") HD with attachment piping

—

2400 mm (7'10") 2900 mm (9'6") 2900 mm (9'6") with attachment piping 3380 mm (11'1") 3380 mm (11'1") HD

Arm

—

3380 mm (11'1") with attachment piping 3380 mm (11'1") HD with attachment piping

—

4000 mm (13'1") 4800 mm (15'9") 1.3 m3 (1.70 yd3) bucket VT w/SC Bucket

1.6 m3 (2.09 yd3) bucket HT w/SC 1.9 m3 (2.49 yd3) bucket VT/HT w/SC + adj

Legend : Available VT : HT : SC : +adj : HD : SS :

Vertical type pin Horizontal pin Side cutter Clearance adjustable type Heavy duty type Side shroud

43

12

ATTACHMENTS & OPTIONAL EQUIPMENT

PIPING FOR ONE ATTACHMENT 1. Outline of piping for one attachment Piping is provided to the top of arm to install one attachment (breaker or crusher etc.) easily.

Added filter for breaker

Stop valve

Accumlator  (low-pressure)

In-line filter

Control pedal

(1) Low-pressure accumlator The low-pressure accumulator is installed as standard on the return side to reduce the effects of deterioration of the breaker on the machine body. The optional high-pressure accumulator on the feed side is also available. Added filter for breaker

FVPM2850

(2) Stop valve

Low-pressure accumlator

(5) In-line filter The in-line filters are installed as standard to protect the hydraulic equipment on the machine. In-line filter

Automatic changer valve

(3) Added filter for breaker The additional filter is installed as standard to the breaker circuit. (4) Automatic changer valve The automatic changer valve for selecting single and double operations is installed.

44

12

ATTACHMENTS & OPTIONAL EQUIPMENT

PIPING FOR ONE ATTACHMENT continued  2. Automatic changeover function for attachments circuit Automatic changeover function is added to attachment circuit by selection of working mode. When Selecting A or E mode

Double-acting attachmnent circuit, two-pump discharge and high pressure safety valve are selected. (When simultaneous operation, oil flow to attachment is throttled)

When Selecting B mode

Single-action attachment circuit, one-pump discharge and low-pressure safety valve are selected.

3. Function of adjusting oil flow amount in attachment with multi-color monitor With the multi-color monitor, the operator can select oil flow amount matched to the characteristics of the

installed attachment, watching the liquid crystal display panel in the operator’s cab.

Selection of oil flow amount

Breaker (B) mode

Oil flow amount matched to installed breaker can be selected.

Oil flow amount other than the left can be selected.

45

12

ATTACHMENTS & OPTIONAL EQUIPMENT

PIPING FOR ONE ATTACHMENT continued  Detail of Control The throttle EPC valve is installed on the upstream side of the attachment PPC valve. If the operator adjusts the oil flow amount on the monitor, the EPC valve is throttled (the pressure is lowered) to adjust the flow amount.

46

If the boom is raised and the attachment is operated simultaneously, the oil flow amount on the attachment side is reduced automatically. With this function, the operator can move the work equipment smoothly (in the “A” or “E” mode).

13

INTERCHANGEABILITY Interchangeability between PC400LC-7 and PC400LC-6 Device

New

Main pump ass’y

New

Main valve ass’y

New

Swing motor ass’y Boom cylinder

New New

Arm cylinder

New

Bucket cylinder Swivel joint Swing circle Swing machinery Idler Idler cushion  Track roller Carrier roller Shoe Final drive  Travel motor Sprocket

New New New New New New New New New New New New New

Operator cab Operator seat Hydraulic tank Fuel tank Boom ass’y Arm ass’y Bucket ass’y Quarry bucket ass’y Revolving frame

New New New New New New New New New

 Track frame

New

Machine cab Controller Monitor Work equipment PPC valve  Travel PPC valve Engine control

New New New New New New

Solenoid valve

New

Air conditioner Counterweight

New New

Engine oil filter

New

Hyd. oil return filter

New

Fuel filter

New New New New New New New New New New

  s    t   r Air cleaner element   a   p   e Fan belt    l    b   a Hyd. hose   m   u Bucket tooth   s   n   o    C Quarry bucket tooth

Bucket adapter Quarry bucket adapter Side cutter Side shroud

: Not interchangeable

Interchange

Engine ass’y

   t    i   n Cooling ass’y    U

: Interchangeable

Reason for non interchangeable  Tier 2 emission certified. Model changed (SAA6D125E ← SA6D125E). Current Output increased (330 HP ← 228 HP). Fan diameter changed ø870 (34.3") ← ø850 (33.5"). Model changed (HPV190 +190 ← HPV160 +160). Pump capacity changed (190 cc/rev ← 160 Current cc/rev). TVC replaced with PC valve. LS-EPC valve mounted on pump. Pump merge-divider valve assembly changed (Equipped with built-in self-pressure reducing Current valve). Boom lock valve and lift check valve mounted on valves. Main relief pressure changed. Current Large capacity motor used (229.4 ← 160.7 cc/rec). Common with PC300-7 Current BMRC bushing (Greasing interval: 500 H). Shapes of wear ring, cushion plunger, and cast bottom changed. Piping changed. Current BMRC bushing (Greasing interval: 500 H). Min. length reduced. Current Min. length reduced. Stroke changed. OMRF bushing (Greasing interval: 250 H). Current Port position changed. Common with PC300-7. Current Bolt length changed. Current Reduction ratio changed. Current Weight reduced. Current Spring changed. Current Current Size reduced. Current Square nut utilized. Current Reduction ratio increased. Current Travel motor capacity changed (200 cc/rev ← 270 cc/rev) Current Aluminum oil cooler used. Side-by-side cooling system utilized. Current Air cooled aftercooleer utilized. Current New design Current Sliding distance increased. Color and design of seat changed (Same with PC200-7). Current Size reduced. Current Capacity increased (650 l ← 605 l) Current BMRC bushing (Greasing interval: 500 H). Current Cylinder boss position changed. OMRF bushing (Greasing interval: 500 H). Current CRHF bushing (Greasing interval: 250 H). Current Corner tooth utilized. Tooth installation angle changed. CRHF bushing. Current Structure changed. Installation of carrier roller different. Current Installation of swivel different. Current New design Current New system Current New design (Multi-color monitor). Work mode changed. Current Current Current Depends on engine. New 8-spool valve Current DT connector utilized. Current Automatic air conditioner utilized. Current Length changed. Replacement interval changed (500 H ← 250 H). Current Common with PC600-7 and PC750-7 Replacement interval changed (1000 H ← 500 H). Current Overall length reduced. Current Depends on engine. Common with PC600-7 and PC750-7 Current Model changed. Size increased (diameter 15 in ← 14 in) Current Length changed. Current Length and hydraulic line changed. Current Current Current Current Installation angles of corner tooth and tooth changed. Current Current Installation structure changed.

47

14

COMPETITIVE SPECIFICATIONS

Komatsu PC400LC-7

Komatsu PC400LC-6

CAT 345BL-2

John Deere 450CLC

Hitachi ZX450LC

99,661

95,147

100,400

104,000

101,900

330@1850

306@2050

321@2000

316@1800

314@1800

gpm

2 x 91

2 x 86

2 x 95.1

2 x 100

2 x 95.1

Max. System Pressure

PSI

5,400

5,050

4,980

4,410/4,620

4,410/4,620

Swing Speed

rpm

9.0

9.3

8.6

9

9

Max. Travel Speed

mph

3.4/2.7/1.9

3.4/2.8/2.0

2.7/np/np

3.4/na/2.1

3.4/na/2.1

Max. Drawbar Pull

lb

73,880

73,880

74,380

79,590

71,600

.74

.78

.74

.77

.70

MANUFACTURER MODEL Operating Weight

lb

Net FWHP @ RPM Max. Oil Flow

Drawbar Pull/ Operating Weight Ratio

48

Max. Crowd Force - Arm

lb

46,080

43,210

40,100

40,026

43,700

Max. Digging Force - Bucket

lb

53,790

50,490

52,200

53,028

52,500

Max. Lift Capacity (F), GL

lb

28,700@25'

27,100@25'

25,850@25'

27,300@25'

27,900@25'

Max Lift Capacity (S), GL

lb

16,700@25'

15,800@25'

16,250@25'

17,500@25'

17,400@25'

Fuel Tank Capacity

gal

172

160

190

171

171.7

Hydraulic Tank Capacity

gal

65.5

71.3

55

74

74

Overall Track Length

17'7"

17'7"

17'7"

17'11"

17'11"

Length of Track on Ground

14'3"

14'3"

14'3.6"

14'8"

14'8"

Number of Carrier and Track Rollers

2/8

2/8

2/9

3/9

3/9

Max. Digging Height

35'10"

35'10"

np

36'8"

36'4"

Max. Dumping Height

24'10"

24'10"

24'

25'6"

25'2"

Max. Digging Depth

25'8"

25'6"

27'4"

27'1"

25'6"

Max. Vertical Wall Digging Depth

22'6"

22'6"

21'7"

23'1"

21'10"

Max. Depth for 8' Level Bottom

25'2"

25'

25'11"

26'8"

25'

Max. Digging Reach at Ground Level

38'9"

38'9"

40'9"

40'3"

38'9"

Min. Swing Radius of Implement

15'6"

15'8"

np

15'9"

15'11"

 

14

COMPETITIVE SPECIFICATIONS PC400LC-7 vs. COMPETITIVE MACHINES Continued  MANUFACTURER MODEL Operating Weight

lb

Net FWHP @ RPM Max. Oil Flow

gpm

Komatsu PC400LC-7

Link-Belt 460LX

Volvo EC460B

Case CX460

Kobelco SK480LC

99,661

101,200

102,800

101,257

108,045

330@1850

316@1950

306@1900

316@1950

315@2000

2 x 91

2 x 95.1

2 x 91

2 x 95.1

2 x 97.7

5 ,400

4,550/4,970

4,550/4,980

4,554/4,975

4,550/4,980

Max. System Pressure

PSI

Swing Speed

rpm

9.0

9

8.5

9

9

Max. Travel Speed

mph

3.4/2.7/1.9

3.3/na/1.9

3.0/na/1.8

3.3/na/1.9

3.5/na/2.2

Max. Drawbar Pull

lb

73,880

78,860

72,990

78,908

90,600

.74

.78

.71

.78

.84

Drawbar Pull/ Operating Weight Ratio

 

Max. Crowd Force - Arm

lb

46,080

46,310

46,970

51,481

48,100

Max. Digging Force - Bucket

lb

53,790

60,700

54,900

60,698

57,500

Max. Lift Capacity (F), GL

lb

28,700@25'

28,900@25'

31,480@25'

28,964@25'

29,990@25'

Max Lift Capacity (S), GL

lb

16,700@25'

16,400@25'

20,380@25'

16,483@25'

18,470@25'

Fuel Tank Capacity

gal

172

161

181

161

172

Hydraulic Tank Capacity

gal

65.5

58

71

58

107

Overall Track Length

17'7"

17'11"

17'7"

17'11"

17'11"

Length of Track on Ground

14'3"

14'5"

14'4"

14'5"

14'5"

Number of Carrier and Track Rollers

2/8

2/9

2/9

2/9

2/9

Max. Digging Height

35'10"

36'7"

36'

36'7"

35'11"

Max. Dumping Height

24'10"

25'5"

25'1"

25'5"

24'11"

Max. Digging Depth

25'8"

25'4"

25'3"

25'4"

25'7"

Max. Vertical Wall Digging Depth

22'6"

21'7"

22'5"

21'7"

22'10"

Max. Depth for 8' Level Bottom

25'2"

24'10"

24'9"

24'10"

25'2"

Max. Digging Reach at Ground Level

38'9"

38'7"

38'8"

38'7"

38'10"

Min. Swing Radius of Implement

15'6"

np

16'8"

16'4"

16'10"

49