101431-0500 ZEXEL INJECTION-PUMP ASSEMBLY Calibration Data 1014310500 5156009192


 

Information injection-pump assembly

ZEXEL 101431-0500 1014310500
ISUZU 5156009192 5156009192
101431-0500 INJECTION-PUMP ASSEMBLY
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Service parts 101431-0500 INJECTION-PUMP ASSEMBLY:

1. _
2. FUEL INJECTION PUMP 101043-9230
3. GOVERNOR 105542-6990
4. SUPPLY PUMP 105220-4742
5. AUTOM. ADVANCE MECHANIS 105621-0310
6. COUPLING PLATE
7. COUPLING PLATE
8. _
9. _
10. NOZZLE AND HOLDER ASSY 105151-1451
11. Nozzle and Holder 5-15300-039-1
12. Open Pre:MPa(Kqf/cm2) 11.8{120}
13. NOZZLE-HOLDER 105081-3141
14. NOZZLE 105000-1650
15. NOZZLE SET

Include in #1:

101431-0500 as INJECTION-PUMP ASSEMBLY

Cross reference number

ZEXEL 101431-0500 1014310500
ISUZU 5156009192 5156009192


Zexel num
Bosch num
Firm num
Name
101431-0500 
101431-0550 
 
5156009192  ISUZU
INJECTION-PUMP ASSEMBLY
C240 *

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
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)
Left
  L
Injection timing adjustment
Direction of rotation (viewed from drive side)
Left
  L
Injection order   1-3-4-2
Pre-stroke mm   2.25 2.2 2.3
Beginning of injection position
Drive side
  NO.1
Difference between angles 1
Cal 1-3
deg.   90 89.5 90.5
Difference between angles 2
Cal 1-4
deg.   180 179.5 180.5
Difference between angles 3
Cyl.1-2
deg.   270 269.5 270.5
Injection quantity adjustment
Adjusting point   B
Rack position   11.9
Pump speed r/min   1900 1900 1900
Average injection quantity mm3/st.   42 41 43
Max. variation between cylinders %   0 -2.5 2.5
Basic   *
Fixing the rack   *
Injection quantity adjustment_02
Adjusting point   D
Rack position   8.4
Pump speed r/min   300 300 300
Average injection quantity mm3/st.   8 6.9 9.1
Max. variation between cylinders %   0 -14 14
Fixing the rack   *
Injection quantity adjustment_03
Adjusting point   -
Rack position   -
Pump speed r/min   1900 1900 1900
Average injection quantity mm3/st.   42 41.5 42.5
Remarks
Smoke setting: 3.2 kPa {400 mmAq}
 
Timer adjustment
Pump speed r/min   500+-50
Advance angle deg.   0 0 0
Remarks
Start
 
Timer adjustment_02
Pump speed r/min   800
Advance angle deg.   1 0.5 1.5
Timer adjustment_03
Pump speed r/min   1050
Advance angle deg.   2 1.2 2.7
Timer adjustment_04
Pump speed r/min   1500
Advance angle deg.   4.5 3.9 4.9
Timer adjustment_05
Pump speed r/min   1750
Advance angle deg.   6 5.5 6.5
Remarks
Finish
 

Test data Ex:

Governor adjustment

Test data 101431-0500
N:Pump speed R:Rack position (mm) P:Negative pressure (1)Pneumatic governor (2)Mechanical governor (3)Acting negative pressure: P1 (4)Beginning of idle sub spring operation: L1 (5)Injection quantity Q = Q1 or less
----------
L1=9-0.3mm Q1=3mm3/st
----------

Timing setting

Test data 101431-0500
(1)Pump vertical direction (2)Gear mark Z for the No. 4 cylinder's beginning of injection (3)B.T.D.C.: aa (4)-
----------
aa=14deg
----------
a=(60deg)




Information:

Introduction
This document provides information about fuel degradation, which can cause a flow restriction of fuel through the fuel system and premature plugging of the filters. These guidelines should be used to guide service personnel in the use of fuels within diesel engines and covers recognized tests in identifying degredated fuels and best practices in storing fuels.This document can be used as a guide, but it does not provide all the information on all practices and procedures for degraded fuels. This document does not provide all the information for best practices for storing and handling fuels. Refer to Caterpillar Commercial Diesel Engine Fluids Recommendations, SEBU6251 for more information.The Thermal Stability and Oxidation Stability of Fuel
Diesel fuels can deteriorate rapidly for a variety of reasons. When the fuel is stressed and stored for long intervals, degradation and oxidation can occur. Degradation and oxidation are complex chemical changes. These changes lead to deposits or sediment from certain hydrocarbons and traces of naturally occurring nitrogen and sulfur containing compounds in the fuel. Fuel composition and environmental factors influences the process.Diesel fuel is being used as a coolant for high pressure fuel injection systems with high temperature fuel wetted walls. This can stress the fuel in the fuel system. The thermal stress and an increase in recirculation fuel temperature is often responsible for fuel degradation and the formation of gums, resins and sediment, which can cause fuel flow restriction through fuel filters and fuel injection systems.Certain products are often left with the fuel in the fuel system for long periods. This exposes the fuel to oxygen. Complex reactions between the oxygen and the fuel components can generate fuel particulates. The particulates in the fuel system can turn into the sludge that is found in fuel tanks, fuel lines and the fuel filters. This will deteriorate the performance of the fuel system. Degradation also leads to a plugged fuel filter, a restriction to the fuel line and deposit formation in the fuel injection nozzle.Biodiesel and blends of biodiesel have poor thermal stability and oxidation stability compared to petroleum distillate diesel fuels. The use of these biodiesels and blends of biodiesel can accelerate the problems that are addressed in this Special Instruction. Using biodiesel blends above the maximum level approved for the engine is not recommended.Thermal and oxidative degradation of diesel fuel can result in a darkening of fuel color. Fuel color is not necessarily an indication of excessive degradation that will lead to the problems outlined in thisSpecial Instruction, but can be an indicator or degradation If concerns arise about the stability of darkened fuel, the thermal oxidation and oxidative stability tests should be run to confirm actual degradation.Thermal Oxidation Stability
Caterpillar recommends the use of the Accelerated Fuel Oil Stability Test (ASTM D6468). This is a test method that determines the instability of a fuel subjected to a thermal degradation process. This test exposes the fuel to actual operating conditions when the fuel cools the injectors during the engine operation.The test is performed by

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