106691-2031 ZEXEL 9 400 617 775 BOSCH INJECTION-PUMP ASSEMBLY 9400617775 1066912031 me050824

Information Cross number Calibration Data Calibration Data Ex

Information injection-pump assembly

BOSCH 9 400 617 775 9400617775

ZEXEL 106691-2031 1066912031

MITSUBISHI ME050824 me050824

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Buy INJECTION-PUMP ASSEMBLY 106691-2031 zexel genuine, new aftermarket engine parts with delivery

Service parts 106691-2031 INJECTION-PUMP ASSEMBLY:

1. _

2. FUEL INJECTION PUMP 106069-5380

3. GOVERNOR 105408-0351

4. SUPPLY PUMP 105207-1210

5. AUTOM. ADVANCE MECHANIS 105636-1261

6. COUPLING PLATE 105662-0710

7. COUPLING PLATE

8. _

9. _

10. NOZZLE AND HOLDER ASSY 105100-6680

11. Nozzle and Holder ME059740

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

13. NOZZLE-HOLDER 105031-3970

14. NOZZLE 105015-6370

15. NOZZLE SET

Include in #1:

106691-2031 as INJECTION-PUMP ASSEMBLY

Cross reference number

BOSCH 9 400 617 775 9400617775

ZEXEL 106691-2031 1066912031

MITSUBISHI ME050824 me050824

Zexel num

Bosch num

Firm num

Name

106691-2031

9 400 617 775

ME050824 MITSUBISHI

INJECTION-PUMP ASSEMBLY
6D22TC * K

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 8-3-600

Overflow valve 131424-4620

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 4.8 4.75 4.85

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 A

Rack position 10.6

Pump speed r/min 1050 1050 1050

Average injection quantity mm3/st. 132.3 129.3 135.3

Max. variation between cylinders % 0 -3 3

Basic *

Fixing the lever *

Injection quantity adjustment_02

Adjusting point B

Rack position 4+-0.5

Pump speed r/min 500 500 500

Average injection quantity mm3/st. 9.9 8.4 11.4

Max. variation between cylinders % 0 -15 15

Fixing the rack *

Injection quantity adjustment_03

Adjusting point C

Rack position 4.9+-0.5

Pump speed r/min 275 275 275

Average injection quantity mm3/st. 12.7 10.8 14.6

Fixing the rack *

Remarks
(check)

Injection quantity adjustment_04

Adjusting point D

Rack position 11.4

Pump speed r/min 400 400 400

Average injection quantity mm3/st. 148.1 142.1 154.1

Max. variation between cylinders % 0 -3 3

Fixing the lever *

Timer adjustment

Pump speed r/min 1050--

Advance angle deg. 0 0 0

Remarks
Start

Timer adjustment_02

Pump speed r/min 1000

Advance angle deg. 0.5

Timer adjustment_03

Pump speed r/min 1100

Advance angle deg. 1.5 1 2

Remarks
Finish

Test data Ex:

Governor adjustment

N:Pump speed R:Rack position (mm) (1)Target notch: K (2)Supplied with torque spring not set. (3)RACK LIMIT: RAL (4)At shipping (5)Idle sub spring setting: L1.
----------
K=15 RAL=14+0.2mm L1=4.8+-0.1mm
----------

Speed control lever angle

F:Full speed I:Idle (1)Stopper bolt setting (2)At shipping (3)Pump speed = aa (4)Pump speed = bb
----------
aa=1100r/min bb=900r/min
----------
a=32deg+-5deg b=(5deg) c=12deg+-5deg d=8deg+-5deg

Stop lever angle

N:Pump normal S:Stop the pump. (1)At shipping
----------

----------
a=39deg+-5deg b=53deg+-5deg

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:

Input Modules
The following modules are input modules:
Thermocouple Module
RTD Input Module
Digital Modules
Analog ModulesWhen you apply a voltage to the channel, the relay is energized. An energized input will close all of the contacts that are normally open. An energized input will open all of the contacts that are normally closed. Digital modules are used to determine whether a circuit is ON/OFF. A number of modules are available. The MMS modules have sixteen channels. Discrete Output Modules
The programmable logic controller discrete output modules consist of analog modules and digital modules. Control of Voltage is provided by the output modules. A module provides power for the following list of functions: energizing the lamps, energizing the relays, energizing the fuel shutoff solenoid and energizing the air shutoff solenoid.Replacing a Module
Disconnect the power supply.
To avoid damage to electronic components, do not remove the processor from the SLC 5/04 Chassis until all power is removed from the power supply.Do not expose memory modules to surfaces or areas that may typically hold an electrostatic charge.
Press the retaining clips at the top of the module and press the retaining clips at the bottom of the module.
Remove the module from the chassis.
To avoid potential damage to the processor, handle all modules by the ends of the carrier or edges of the plastic housing. Skin oil or dirt can corrode metallic surfaces, inhibiting electrical contact.
Align the module and the guides in the chassis.
Gently slide the module in the chassis. Secure the top retainer clips and secure the bottom retainer clips.
Install a wire tie in order to secure the wiring.
Illustration 1 g00563310
Cover any unused slots. This protects the chassis.
Verify that the new module corrects the problem.