Information injection-pump assembly
ZEXEL
106671-9640
1066719640
Rating:
Cross reference number
ZEXEL
106671-9640
1066719640
Zexel num
Bosch num
Firm num
Name
Calibration Data:
Adjustment conditions
Test oil
1404 Test oil ISO4113 or {SAEJ967d}
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
Outer diameter - inner diameter - length (mm) mm 8-3-600
Overflow valve
131424-4420
Overflow valve opening pressure
kPa
157
123
191
Overflow valve opening pressure
kgf/cm2
1.6
1.25
1.95
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
Right R
Injection timing adjustment
Direction of rotation (viewed from drive side)
Right R
Right R
Injection order
1-5-3-6-
2-4
Pre-stroke
mm
4.4
4.35
4.45
Beginning of injection position
Governor side NO.1
Governor side NO.1
Difference between angles 1
Cal 1-5 deg. 60 59.5 60.5
Cal 1-5 deg. 60 59.5 60.5
Difference between angles 2
Cal 1-3 deg. 120 119.5 120.5
Cal 1-3 deg. 120 119.5 120.5
Difference between angles 3
Cal 1-6 deg. 180 179.5 180.5
Cal 1-6 deg. 180 179.5 180.5
Difference between angles 4
Cyl.1-2 deg. 240 239.5 240.5
Cyl.1-2 deg. 240 239.5 240.5
Difference between angles 5
Cal 1-4 deg. 300 299.5 300.5
Cal 1-4 deg. 300 299.5 300.5
Injection quantity adjustment
Adjusting point
-
Rack position
13.2
Pump speed
r/min
700
700
700
Each cylinder's injection qty
mm3/st.
181
176.5
185.5
Basic
*
Fixing the rack
*
Standard for adjustment of the maximum variation between cylinders
*
Injection quantity adjustment_02
Adjusting point
C
Rack position
R2(5.6)
Pump speed
r/min
300
300
300
Each cylinder's injection qty
mm3/st.
13
11.3
14.7
Fixing the rack
*
Standard for adjustment of the maximum variation between cylinders
*
Injection quantity adjustment_03
Adjusting point
A
Rack position
R1(13.2)
Pump speed
r/min
700
700
700
Average injection quantity
mm3/st.
181
180
182
Basic
*
Fixing the lever
*
Boost pressure
kPa
107
107
Boost pressure
mmHg
800
800
Injection quantity adjustment_04
Adjusting point
B
Rack position
R1
Pump speed
r/min
1100
1100
1100
Average injection quantity
mm3/st.
173.5
169.5
177.5
Fixing the lever
*
Boost pressure
kPa
107
107
Boost pressure
mmHg
800
800
Injection quantity adjustment_05
Adjusting point
E
Rack position
-
Pump speed
r/min
100
100
100
Average injection quantity
mm3/st.
148
128
168
Fixing the lever
*
Boost pressure
kPa
0
0
0
Boost pressure
mmHg
0
0
0
Boost compensator adjustment
Pump speed
r/min
600
600
600
Rack position
R3-3.3
Boost pressure
kPa
3.3
3.3
6.6
Boost pressure
mmHg
25
25
50
Boost compensator adjustment_02
Pump speed
r/min
600
600
600
Rack position
R3
Boost pressure
kPa
93.3
93.3
93.3
Boost pressure
mmHg
700
700
700
Timer adjustment
Pump speed
r/min
750--
Advance angle
deg.
0
0
0
Load
4/4
Remarks
Start
Start
Timer adjustment_02
Pump speed
r/min
0
Advance angle
deg.
1.5
1
2
Load
0/4
Timer adjustment_03
Pump speed
r/min
-
Advance angle
deg.
1.5
1
2
Load
0/4
Remarks
Measure speed (beginning of operation).
Measure speed (beginning of operation).
Timer adjustment_04
Pump speed
r/min
-
Advance angle
deg.
0
0
0
Load
4/4
Timer adjustment_05
Pump speed
r/min
700
Advance angle
deg.
0.5
Load
4/4
Timer adjustment_06
Pump speed
r/min
1100
Advance angle
deg.
2.5
2
3
Load
4/4
Remarks
Finish
Finish
Test data Ex:
Governor adjustment
N:Pump speed
R:Rack position (mm)
(1)Lever ratio: RT
(2)Target shim dimension: TH
(3)Tolerance for racks not indicated: +-0.05mm.
(4)Damper spring setting: DL
(5)Boost compensator stroke
----------
RT=1 TH=(1.8)mm DL=(R2-0.2)-0.2mm
----------
----------
RT=1 TH=(1.8)mm DL=(R2-0.2)-0.2mm
----------
Speed control lever angle
F:Full speed
(1)Fix using the stopper bolt.
----------
----------
a=(17deg)+-5deg
----------
----------
a=(17deg)+-5deg
0000000901
F:Full load
I:Idle
(1)Use the hole at R = aa
(2)Stopper bolt setting
----------
aa=46mm
----------
a=28deg+-5deg b=(39deg)+-3deg
----------
aa=46mm
----------
a=28deg+-5deg b=(39deg)+-3deg
Stop lever angle
N:Pump normal
S:Stop the pump.
(1)Normal engine position (equivalent to R = aa).
(2)Use the hole at R = bb
----------
aa=14mm bb=37mm
----------
a=38deg+-5deg b=(38deg)+7deg-5deg c=(29deg)+-5deg
----------
aa=14mm bb=37mm
----------
a=38deg+-5deg b=(38deg)+7deg-5deg c=(29deg)+-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=325r/min Ra=6.6+-0.1mm
----------
----------
N1=325r/min Ra=6.6+-0.1mm
----------
Timing setting
(1)Pump vertical direction
(2)Coupling's key groove position at No 1 cylinder's beginning of injection
(3)B.T.D.C.: aa
(4)-
----------
aa=12deg
----------
a=(6deg)
----------
aa=12deg
----------
a=(6deg)
Information:
Solution
Do not operate or work on this product unless you have read and understood the instruction and warnings in the relevant Operation and Maintenance Manuals and relevant service literature. Failure to follow the instructions or heed the warnings could result in injury or death. Proper care is your responsibility.
Note: Only perform these troubleshooting steps when the DEF tank is fully thawed and there is no remaining ice crystals/slush in the tank.Note: If any of the troubleshooting indicates the replacement of the DEF manifold, do not replace the DEF manifold. Repair the DEF manifold using the DEF manifold sensor kit.
Use the electronic service tool to download a full Product Status Report (PSR) (including all histograms and histories) before performing any troubleshooting.
Review the PSR to determine which code/events recorded have led to the activation SCR inducement codes:Note: Check the "Aftertreatment Abnormal Shutdown History" for Hot/Cold Shutdown events which may have occurred prior to the current inducement situation and may be an indication the system was incorrectly shut down previously.
A Cold Shutdown is recorded when the ambient temp is below −5° C (23° F) and the system has not completed the cooldown and system purge during the previous key-cycle.
Only investigate a logged 1235-9 (5856-9) code if the code has occurred less than 5 hours prior to the current diagnostic clock value. If the code is not persistent, the code is likely to be generated by either old engine software or a power supply dropping below the min supply voltage. If the code is showing a persistent triggering when on the latest engine software, this condition would indicate a hardware/connection issue.
DEF level codes (1761-xx/E954) are not to be considered a sign of DEF Manifold hardware failure (especially when in low ambient temperatures) unless the codes remain persistent after a tank fill. If there is another code present such as 1761-2/3130-2 (DEF level – Erratic) or 5392-31/E1370 (DEF Loss of Prime), this condition would indicate a system level issue, or the DEF tank has recently been fully drained down for an extended period and may require time for any DEF deposits to dissolve before level readings stabilize.
The order of troubleshooting codes should be SCR Inducement last, with DEF Tank Level codes second from last, always troubleshooting the DEF Volume Erratic (1761-2/3130-2) or DEF – Loss of Prime (5392-31/E1370) codes first.
Prior to beginning any troubleshooting of the codes reviewed in Step 2 and based on analysis, check that the coolant diverter valve is functioning correctly. Not allowing a small coolant flow to heat DEF tank fluid unintentionally above ambient temperature without triggering any codes, refer to Troubleshooting, DEF Tank Temperature Is High.
Ensure that the coolant flow direction is aligned with the flow direction arrow valve on the valve body. Refer to Step 3civ.
Record the ambient air temperature and DEF tank fluid temperature prior to starting the engine. Use these temperature readings as the reference for determining a temperature increase after warming the engine at idle. Refer to Step6.Note: As DEF is used as the
Do not operate or work on this product unless you have read and understood the instruction and warnings in the relevant Operation and Maintenance Manuals and relevant service literature. Failure to follow the instructions or heed the warnings could result in injury or death. Proper care is your responsibility.
Note: Only perform these troubleshooting steps when the DEF tank is fully thawed and there is no remaining ice crystals/slush in the tank.Note: If any of the troubleshooting indicates the replacement of the DEF manifold, do not replace the DEF manifold. Repair the DEF manifold using the DEF manifold sensor kit.
Use the electronic service tool to download a full Product Status Report (PSR) (including all histograms and histories) before performing any troubleshooting.
Review the PSR to determine which code/events recorded have led to the activation SCR inducement codes:Note: Check the "Aftertreatment Abnormal Shutdown History" for Hot/Cold Shutdown events which may have occurred prior to the current inducement situation and may be an indication the system was incorrectly shut down previously.
A Cold Shutdown is recorded when the ambient temp is below −5° C (23° F) and the system has not completed the cooldown and system purge during the previous key-cycle.
Only investigate a logged 1235-9 (5856-9) code if the code has occurred less than 5 hours prior to the current diagnostic clock value. If the code is not persistent, the code is likely to be generated by either old engine software or a power supply dropping below the min supply voltage. If the code is showing a persistent triggering when on the latest engine software, this condition would indicate a hardware/connection issue.
DEF level codes (1761-xx/E954) are not to be considered a sign of DEF Manifold hardware failure (especially when in low ambient temperatures) unless the codes remain persistent after a tank fill. If there is another code present such as 1761-2/3130-2 (DEF level – Erratic) or 5392-31/E1370 (DEF Loss of Prime), this condition would indicate a system level issue, or the DEF tank has recently been fully drained down for an extended period and may require time for any DEF deposits to dissolve before level readings stabilize.
The order of troubleshooting codes should be SCR Inducement last, with DEF Tank Level codes second from last, always troubleshooting the DEF Volume Erratic (1761-2/3130-2) or DEF – Loss of Prime (5392-31/E1370) codes first.
Prior to beginning any troubleshooting of the codes reviewed in Step 2 and based on analysis, check that the coolant diverter valve is functioning correctly. Not allowing a small coolant flow to heat DEF tank fluid unintentionally above ambient temperature without triggering any codes, refer to Troubleshooting, DEF Tank Temperature Is High.
Ensure that the coolant flow direction is aligned with the flow direction arrow valve on the valve body. Refer to Step 3civ.
Record the ambient air temperature and DEF tank fluid temperature prior to starting the engine. Use these temperature readings as the reference for determining a temperature increase after warming the engine at idle. Refer to Step6.Note: As DEF is used as the