107692-5110 ZEXEL 9 400 619 068 BOSCH INJECTION-PUMP ASSEMBLY 9400619068 1076925110 16714z5574

Information Cross number Calibration Data Calibration Data Ex

Information injection-pump assembly

BOSCH 9 400 619 068 9400619068

ZEXEL 107692-5110 1076925110

NISSAN-DIESEL 16714Z5574 16714z5574

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Cross reference number

BOSCH 9 400 619 068 9400619068

ZEXEL 107692-5110 1076925110

NISSAN-DIESEL 16714Z5574 16714z5574

Zexel num

Bosch num

Firm num

Name

107692-5110

9 400 619 068

16714Z5574 NISSAN-DIESEL

INJECTION-PUMP ASSEMBLY
FE6TA K

Calibration Data:

Adjustment conditions

Test oil
1404 Test oil ISO4113 or {SAEJ967d}

Test oil temperature degC 40 40 45

Nozzle and nozzle holder 105780-8250

Bosch type code 1 688 901 101

Nozzle 105780-0120

Bosch type code 1 688 901 990

Nozzle holder 105780-2190

Opening pressure MPa 20.7

Opening pressure kgf/cm2 211

Injection pipe
Outer diameter - inner diameter - length (mm) mm 8-3-600

Overflow valve 131425-0520

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 255 255 255

Tester oil delivery pressure kgf/cm2 2.6 2.6 2.6

PS/ACT control unit part no. 407910-3 03*

Selector switch no. 01

PS/ACT control unit part no. 407980-2 24*

Digi switch no. 15

Direction of rotation (viewed from drive side)
Right R

Injection timing adjustment

Direction of rotation (viewed from drive side)
Right R

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

Pre-stroke mm 5.6 5.57 5.63

Beginning of injection position
Drive side NO.1

Difference between angles 1
Cal 1-4 deg. 60 59.75 60.25

Difference between angles 2
Cyl.1-2 deg. 120 119.75 120.25

Difference between angles 3
Cal 1-6 deg. 180 179.75 180.25

Difference between angles 4
Cal 1-3 deg. 240 239.75 240.25

Difference between angles 5
Cal 1-5 deg. 300 299.75 300.25

Injection quantity adjustment

Adjusting point -

Rack position 13.8

Pump speed r/min 1400 1400 1400

Average injection quantity mm3/st. 112 110 114

Max. variation between cylinders % 0 -4 4

Basic *

Fixing the rack *

PS407980-224* V 2.25+-0. 01

PS407980-224* mm 3.6+-0.0 5

PS407910-303* V 2.25+-0. 01

PS407910-303* mm 3.6+-0.0 5

Standard for adjustment of the maximum variation between cylinders *

Injection quantity adjustment_02

Adjusting point Z

Rack position 8+-0.5

Pump speed r/min 465 465 465

Average injection quantity mm3/st. 10.6 8.8 12.4

Max. variation between cylinders % 0 -10 10

Fixing the rack *

PS407980-224* V V1+0.05+ -0.01

PS407980-224* mm 5.5+-0.0 3

PS407910-303* V V1+0.05+ -0.01

PS407910-303* mm 5.5+-0.0 3

Standard for adjustment of the maximum variation between cylinders *

Remarks
Refer to items regarding the pre-stroke actuator

Injection quantity adjustment_03

Adjusting point A

Rack position R1(13.8)

Pump speed r/min 1400 1400 1400

Average injection quantity mm3/st. 112 111 113

Basic *

Fixing the lever *

Boost pressure kPa 24 24

Boost pressure mmHg 180 180

PS407980-224* V 2.25+-0. 01

PS407980-224* mm 3.6+-0.0 5

PS407910-303* V 2.25+-0. 01

PS407910-303* mm 3.6+-0.0 5

Injection quantity adjustment_04

Adjusting point B

Rack position R1-1.7

Pump speed r/min 900 900 900

Average injection quantity mm3/st. 105 101 109

Fixing the lever *

Boost pressure kPa 24 24

Boost pressure mmHg 180 180

PS407980-224* V 2.25+-0. 01

PS407980-224* mm 3.6+-0.0 5

PS407910-303* V 2.25+-0. 01

PS407910-303* mm 3.6+-0.0 5

Injection quantity adjustment_05

Adjusting point C

Rack position R2-0.6

Pump speed r/min 350 350 350

Average injection quantity mm3/st. 33 29 37

Fixing the lever *

Boost pressure kPa 0 0 0

Boost pressure mmHg 0 0 0

PS407980-224* V 2.25+-0. 01

PS407980-224* mm 3.6+-0.0 5

PS407910-303* V 2.25+-0. 01

PS407910-303* mm 3.6+-0.0 5

Boost compensator adjustment

Pump speed r/min 350 350 350

Rack position R2-0.6

Boost pressure kPa 5.3 4 6.6

Boost pressure mmHg 40 30 50

Boost compensator adjustment_02

Pump speed r/min 350 350 350

Rack position R2(R1-3. 35)

Boost pressure kPa 10.7 10.7 10.7

Boost pressure mmHg 80 80 80

0000001601

CU407980-224* *

Actuator retarding type *

Supply voltage V 12 11.5 12.5

Ambient temperature degC 23 18 28

Pre-stroke mm 2.5 2.45 2.55

Output voltage V 2.83 2.82 2.84

Adjustment *

_02

CU407980-224* *

Supply voltage V 12 11.5 12.5

Ambient temperature degC 23 18 28

Pre-stroke mm 5.6 5.57 5.63

Output voltage V 1.2 1 1.4

Confirmation *

Remarks
Output voltage V1

_03

CU407980-224* *

Supply voltage V 12 11.5 12.5

Ambient temperature degC 23 18 28

Output voltage V 3.05 3.05

Confirmation of operating range *

_04

CU407910-303* *

Actuator retarding type *

Supply voltage V 12 11.5 12.5

Ambient temperature degC 23 18 28

Pre-stroke mm 2.5 2.45 2.55

Output voltage V 2.83 2.82 2.84

Adjustment *

_05

CU407910-303* *

Supply voltage V 12 11.5 12.5

Ambient temperature degC 23 18 28

Pre-stroke mm 5.6 5.57 5.63

Output voltage V 1.2 1 1.4

Confirmation *

Remarks
Output voltage V1

_06

CU407910-303* *

Supply voltage V 12 11.5 12.5

Ambient temperature degC 23 18 28

Output voltage V 3.05 3.05

Confirmation of operating range *

Test data Ex:

Governor adjustment

N:Pump speed R:Rack position (mm) (1)Torque cam stamping: T1 (2)Tolerance for racks not indicated: +-0.05mm. (3)Boost compensator stroke: BCL
----------
T1=AB57 BCL=0.6+-0.1mm
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Speed control lever angle

F:Full speed I:Idle (1)Use the hole at R = aa (2)Stopper bolt set position 'H'
----------
aa=93.5mm
----------
a=18.5deg+-5deg b=34.5deg+-3deg

Stop lever angle

N:Pump normal S:Stop the pump. (1)Use the pin at R = aa (2)Set the stopper bolt at rack position = bb (speed = cc).
----------
aa=37mm bb=1.5+-0.3mm cc=0r/min
----------
a=20deg+-5deg b=45deg+-5deg

0000001301

(1)Pump vertical direction (2)Coupling's key groove position at No 1 cylinder's beginning of injection (3)Pre-stroke: aa (4)-
----------
aa=5.6+-0.03mm
----------
a=(20deg)

0000001401

(1)Pointer (2)Injection timing aligning mark (3)Fly weight (4)The actual shape and direction may be different from this illustration. Operation sequence 1. Turn the prestroke actuator OFF. 2. Turn the camshaft as far as the No.1 cylinder's beginning of injection position. 3. Check that the pointer alignment mark of the injection pump and the alignment mark of the flywheel are matching. 4. If they are not matching, erase the alignment mark on the flywheel side, and stamp an alignment mark on the flywheel position that matches with the pointer side alignment mark. 5. Check again that the coupling's key groove position is in the No.1 cylinder's beginning of injection position.
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0000001701

A : Stopper pin B: Connector
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0000001801

C:Shim
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0000001901

A:Sealing position B:Pre-stroke actuator 1. When installing the pre-stroke actuator on the pump, first tighten the installation bolts loosely, then move the actuator fully counterclockwise (viewed from the drive side). Temporary tightening torque: 1 - 1.5 N.m (0.1 - 0.15 kgf.m) 2. Move the actuator in the clockwise direction when viewed from the drive side, and adjust so that it becomes the adjustment point of the adjustment value. Then tighten it. Tightening torque: 7^9 N.m (0.7^0.9 kgf.m) 3. After prestroke actuator installation adjustment, simultaneously stamp both the actuator side and housing side.
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0000002201 RACK SENSOR

(VR) measurement voltage (I) Part number of the control unit (G) Apply red paint. (H): End surface of the pump 1. Rack sensor adjustment (-0620) (1)Fix the speed control lever at the full position (2)Set the speed to N1 r/min. (If the boost compensator is provided, apply boost pressure.) (3)Adjust the bobbin (A) so that the rack sensor's output voltage is VR+-0.01. (4)At that time, rack position must be Ra. (5)Apply G at two places. Connecting part between the joint (B) and the nut (F) Connecting part between the joint (B) and the end surface of the pump (H)
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N1=1400r/min Ra=R1(13.8)mm
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0000002301 SPEED SENSOR

(A) Flyweight projection (B) Pickup sensor (c) Lock nut Speed sensor installation (1)Install the speed sensor so that the clearance between the sensor and the flyweight projection is L. (This gap is the gap when the pickup sensor is returned 1 turn from where it contacts the flyweight tooth.)
----------
L=0.8~1mm
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Information:

Scheduled Oil Sampling (S O S) oil analysis is the best indicator for determining what is happening inside your engine.S O S oil analysis is a diagnostic tool used to determine oil performance and component wear rates. S O S oil analysis uses a series of tests designed to identify and measure contamination such as: * soot, sulfur, etc.* degradation such as the presence of fuel, water and antifreeze in a sample of oil.* the amount of wear metals present in the oil sample.Wear metals present in the oil sample are compared to established Caterpillar norms to determine acceptability. S O S oil analysis must be performed on a continuing basis to be effective as an indicator. Intermittent sampling does not allow wear rate trend lines to be established. Obtain S O S samples at regularly scheduled intervals to monitor the condition and maintenance requirements of your engine. Each oil sample should be taken when the oil is warm and well mixed to ensure that the sample is representative of the oil in the engine crankcase.Consult with your Caterpillar dealer for complete information and assistance in establishing an S O S oil analysis program for your engine(s).S O S Oil Analysis
S O S oil analysis is composed of three basic tests: * Wear Analysis* Chemical and Physical Tests* Oil Condition Analysis Wear analysis is performed with an atomic absorption spectrophotometer to monitor component wear by identifying and measuring concentrations, in parts per million, of wear elements present in the oil. Based on known normal concentration data, maximum limits of wear elements are established. Impending failures can be identified when test results deviate from concentration levels established as acceptable, based on normal wear. Chemical and physical tests detect the presence of water, fuel and glycol (antifreeze) in the oil and determine whether or not their concentrations exceed established maximum limits. Oil condition is evaluated with infrared analysis. This test determines the presence and measures the amount of contaminants such as soot, sulfur products, oxidation, and nitration products in the oil. Infrared analysis can also assist in customizing (reducing, maintaining or extending) oil change intervals for particular conditions and applications.Infrared analysis should always be accompanied by wear element analysis and chemical and physical tests to assure accurate diagnosis. Infrared analysis must be used to determine oil change intervals. Oil analysis must include Infrared (IR) in the analysis.The test results of the oil samples will then be used as a basis for determining the oil change interval for your engine, giving you the ultimate time between oil changes without the risk of engine damage.Refer to PEDP1129, Listen To Your Oil, for information and benefits of S O S oil analysis.