101603-6410 ZEXEL 9 400 615 126 BOSCH INJECTION-PUMP ASSEMBLY 9400615126 1016036410 me056493

Information Cross number Calibration Data Calibration Data Ex

Information injection-pump assembly

BOSCH 9 400 615 126 9400615126

ZEXEL 101603-6410 1016036410

MITSUBISHI ME056493 me056493

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Buy INJECTION-PUMP ASSEMBLY 101603-6410 zexel genuine, new aftermarket engine parts with delivery

Service parts 101603-6410 INJECTION-PUMP ASSEMBLY:

1. _

2. FUEL INJECTION PUMP 101060-4051

3. GOVERNOR 105490-5050

4. SUPPLY PUMP 105210-4790

5. AUTOM. ADVANCE MECHANIS 105614-4100

6. COUPLING PLATE 105662-0590

7. COUPLING PLATE

8. _

9. _

10. NOZZLE AND HOLDER ASSY 105100-6021

11. Nozzle and Holder ME056371

12. Open Pre:MPa(Kqf/cm2) 21.6(220)

13. NOZZLE-HOLDER 105030-5010

14. NOZZLE

105015-5390

15. NOZZLE SET

Include in #1:

101603-6410 as INJECTION-PUMP ASSEMBLY

Include in #2:

104749-6720 as _

Cross reference number

BOSCH 9 400 615 126 9400615126

ZEXEL 101603-6410 1016036410

MITSUBISHI ME056493 me056493

Zexel num

Bosch num

Firm num

Name

101603-6410
101606-1370

9 400 615 126

ME056493 MITSUBISHI

INJECTION-PUMP ASSEMBLY
6D22 * K 14BF INJECTION PUMP ASSY PE6AD PE

Calibration Data:

Adjustment conditions

Test oil
1404 Test oil ISO4113 or {SAEJ967d}

Test oil temperature degC 40 40 45

Nozzle and nozzle holder 105780-8140

Bosch type code EF8511/9A

Nozzle 105780-0000

Bosch type code DN12SD12T

Nozzle holder 105780-2080

Bosch type code EF8511/9

Opening pressure MPa 17.2

Opening pressure kgf/cm2 175

Injection pipe
Outer diameter - inner diameter - length (mm) mm 6-2-600

Overflow valve 131424-5120

Overflow valve opening pressure kPa 255 221 289

Overflow valve opening pressure kgf/cm2 2.6 2.25 2.95

Tester oil delivery pressure kPa 157 157 157

Tester oil delivery pressure kgf/cm2 1.6 1.6 1.6

Direction of rotation (viewed from drive side)
Right R

Injection timing adjustment

Direction of rotation (viewed from drive side)
Right R

Injection order 1-5-3-6- 2-4

Pre-stroke mm 4.5 4.45 4.55

Beginning of injection position
Governor side NO.1

Difference between angles 1
Cal 1-5 deg. 60 59.5 60.5

Difference between angles 2
Cal 1-3 deg. 120 119.5 120.5

Difference between angles 3
Cal 1-6 deg. 180 179.5 180.5

Difference between angles 4
Cyl.1-2 deg. 240 239.5 240.5

Difference between angles 5
Cal 1-4 deg. 300 299.5 300.5

Injection quantity adjustment

Adjusting point -

Rack position 9.6

Pump speed r/min 700 700 700

Each cylinder's injection qty mm3/st. 112 108.6 115.4

Basic *

Fixing the rack *

Standard for adjustment of the maximum variation between cylinders *

Injection quantity adjustment_02

Adjusting point C

Rack position 8+-0.5

Pump speed r/min 225 225 225

Each cylinder's injection qty mm3/st. 18.5 15.7 21.3

Fixing the rack *

Standard for adjustment of the maximum variation between cylinders *

Injection quantity adjustment_03

Adjusting point A

Rack position R1(9.6)

Pump speed r/min 700 700 700

Average injection quantity mm3/st. 112 111 113

Fixing the lever *

Injection quantity adjustment_04

Adjusting point B

Rack position R1(9.6)

Pump speed r/min 1100 1100 1100

Average injection quantity mm3/st. 113.5 111 116

Difference in delivery mm3/st. 9 9 9

Fixing the lever *

Injection quantity adjustment_05

Adjusting point E

Rack position -

Pump speed r/min 100 100 100

Average injection quantity mm3/st. 140 120 160

Fixing the lever *

Remarks
After startup boost setting

Timer adjustment

Pump speed r/min 850--

Advance angle deg. 0 0 0

Remarks
Start

Timer adjustment_02

Pump speed r/min 800

Advance angle deg. 0.5

Timer adjustment_03

Pump speed r/min 900

Advance angle deg. 0.9 0.4 1.4

Timer adjustment_04

Pump speed r/min 1150

Advance angle deg. 3 2.5 3.5

Timer adjustment_05

Pump speed r/min -

Advance angle deg. 4 4 5

Remarks
Measure the actual speed, stop

Test data Ex:

Governor adjustment

N:Pump speed R:Rack position (mm) (1)Lever ratio: RT (2)Target shim dimension: TH (3)Damper spring setting: DL (4)Excess fuel setting for starting: SXL
----------
RT=1 TH=2.2mm DL=6-0.2mm SXL=R1+0.2mm
----------

Speed control lever angle

F:Full speed
----------

----------
a=10deg+-5deg

0000000901

F:Full load I:Idle (1)Stopper bolt setting
----------

----------
a=24deg+-5deg b=29deg+-3deg

Stop lever angle

N:Pump normal S:Stop the pump. (1)At rack position aa, set the stopper screw. (2)Rack position bb (3)Free (at delivery)
----------
aa=5.5-0.5mm bb=16mm
----------
a=12.5deg+5deg-7deg b=34deg+-5deg c=(66.5deg)

0000001501 MICRO SWITCH

Adjustment of the micro-switch Adjust the bolt to obtain the following lever position when the micro-switch is ON. (1)Speed N1 (2)Rack position Ra
----------
N1=325+-5r/min Ra=7.3mm
----------

Timing setting

(1)Pump vertical direction (2)Coupling's key groove position at No 1 cylinder's beginning of injection (3)- (4)-
----------

----------
a=(7deg)

Information:

Do not use the same vacuum sampling pump for extracting oil samples that is used for extracting coolant samples.A small residue of either type sample may remain in the pump and may cause a false positive analysis for the sample being taken.Always use a separate pump for oil sampling and a separate pump for coolant sampling.Failure to do so may cause a false analysis which could lead to customer and dealer concerns.
New Systems, Refilled Systems, and Converted Systems
Perform an S O S coolant analysis (Level 2) at the following maintenance intervals.
Initial 500 service hours
Every Year or every 2000 hours, whichever comes firstPerform this analysis at the interval that occurs first for new systems, for refilled systems, or for converted systems that use Cat ELC (Extended Life Coolant) or use Cat DEAC (Diesel Engine Antifreeze/Coolant). This 500 hour check will also check for any residual cleaner that may have contaminated the system.Recommended Interval for S O S Services Coolant Sample
The following table contains the recommended sampling interval for all coolants that meet Cat EC-1 (Engine Coolant specification - 1). This is also the recommended sampling interval for all conventional heavy-duty coolant/antifreeze.The Level 2 Coolant Analysis should be performed if a problem is suspected or identified.
Table 1
Recommended Interval
Type of Coolant Level 1 Level 2
Cat DEAC
and Conventional Heavy-Duty Coolants Every 250 hours Yearly
Cat ELC
and Commercial EC-1 coolants Optional or every 500 hours Yearly or every 500 hours Note: Check the SCA (Supplemental Coolant Additive) of the conventional coolant at every oil change or at every 250 hours. Perform this check at the interval that occurs first.Refer to your machine OMM for recommendations specific to your machine.S O S Services Coolant Analysis (Level 1)
A coolant analysis (Level 1) is a test of the properties of the coolant.The following properties of the coolant are tested:
Glycol concentration for freeze protection and boil protection
Ability to protect from erosion and corrosion
pH
Conductivity
Visual analysis
Odor analysisThe results are reported, and appropriate recommendations are made.S O S Services Coolant Analysis (Level 2)
A coolant analysis ( Level 2) is a comprehensive chemical evaluation of the coolant. This analysis is also a check of the overall condition of the cooling system.The S O S coolant analysis ( Level 2) has the following features:
Full coolant analysis (Level 1)
Identification of metal corrosion and of contaminants
Identification of buildup of the impurities that cause corrosion
Identification of buildup of the impurities that cause scaling
Determination of the possibility of electrolysis within the cooling system of the engineThe results are reported, and appropriate recommendations are made.For more information on S O S coolant analysis, consult your Caterpillar dealer.