Information injection-pump assembly
BOSCH
F 019 Z10 077
f019z10077
ZEXEL
107691-3092
1076913092
HINO
220008491D
220008491d
Rating:
Service parts 107691-3092 INJECTION-PUMP ASSEMBLY:
1.
_
7.
COUPLING PLATE
9.
_
11.
Nozzle and Holder
12.
Open Pre:MPa(Kqf/cm2)
21.6{220}
15.
NOZZLE SET
Include in #1:
107691-3092
as INJECTION-PUMP ASSEMBLY
Cross reference number
BOSCH
F 019 Z10 077
f019z10077
ZEXEL
107691-3092
1076913092
HINO
220008491D
220008491d
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
105780-8250
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
Outer diameter - inner diameter - length (mm) mm 8-3-600
Overflow valve
131424-9720
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
Right R
Injection timing adjustment
Direction of rotation (viewed from drive side)
Right R
Right R
Injection order
1-4-2-6-
3-5
Pre-stroke
mm
5.1
5.07
5.13
Beginning of injection position
Drive side NO.1
Drive side NO.1
Difference between angles 1
Cal 1-4 deg. 60 59.75 60.25
Cal 1-4 deg. 60 59.75 60.25
Difference between angles 2
Cyl.1-2 deg. 120 119.75 120.25
Cyl.1-2 deg. 120 119.75 120.25
Difference between angles 3
Cal 1-6 deg. 180 179.75 180.25
Cal 1-6 deg. 180 179.75 180.25
Difference between angles 4
Cal 1-3 deg. 240 239.75 240.25
Cal 1-3 deg. 240 239.75 240.25
Difference between angles 5
Cal 1-5 deg. 300 299.75 300.25
Cal 1-5 deg. 300 299.75 300.25
Injection quantity adjustment
Adjusting point
-
Rack position
11.3
Pump speed
r/min
750
750
750
Average injection quantity
mm3/st.
123
121
125
Max. variation between cylinders
%
0
-2
2
Basic
*
Fixing the rack
*
PS407980-224*
V
2.25+-0.
01
PS407980-224*
mm
3.1+-0.0
5
PS407910-303*
V
2.25+-0.
01
PS407910-303*
mm
3.1+-0.0
5
Standard for adjustment of the maximum variation between cylinders
*
Injection quantity adjustment_02
Adjusting point
Z
Rack position
6+-0.5
Pump speed
r/min
440
440
440
Average injection quantity
mm3/st.
21
20
22
Max. variation between cylinders
%
0
-15
15
Fixing the rack
*
PS407980-224*
V
V1+0.05+
-0.01
PS407980-224*
mm
5+-0.03
PS407910-303*
V
V1+0.05+
-0.01
PS407910-303*
mm
5+-0.03
Standard for adjustment of the maximum variation between cylinders
*
Remarks
Refer to items regarding the pre-stroke actuator
Refer to items regarding the pre-stroke actuator
Injection quantity adjustment_03
Adjusting point
A
Rack position
R1(11.3)
Pump speed
r/min
750
750
750
Average injection quantity
mm3/st.
123
122
124
Basic
*
Fixing the lever
*
Boost pressure
kPa
88
88
Boost pressure
mmHg
660
660
PS407980-224*
V
2.25+-0.
01
PS407980-224*
mm
3.1+-0.0
5
PS407910-303*
V
2.25+-0.
01
PS407910-303*
mm
3.1+-0.0
5
Injection quantity adjustment_04
Adjusting point
B
Rack position
R1+2.25
Pump speed
r/min
1250
1250
1250
Average injection quantity
mm3/st.
129.5
123.5
135.5
Fixing the lever
*
Boost pressure
kPa
88
88
Boost pressure
mmHg
660
660
PS407980-224*
V
2.25+-0.
01
PS407980-224*
mm
3.1+-0.0
5
PS407910-303*
V
2.25+-0.
01
PS407910-303*
mm
3.1+-0.0
5
Injection quantity adjustment_05
Adjusting point
C
Rack position
(R2-2.95
)
Pump speed
r/min
400
400
400
Average injection quantity
mm3/st.
74.5
72.5
76.5
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
3.1+-0.0
5
PS407910-303*
V
2.25+-0.
01
PS407910-303*
mm
3.1+-0.0
5
Boost compensator adjustment
Pump speed
r/min
400
400
400
Rack position
(R2-2.95
)
Boost pressure
kPa
18.7
17.4
20
Boost pressure
mmHg
140
130
150
Boost compensator adjustment_02
Pump speed
r/min
400
400
400
Rack position
R2(R1-0.
35)
Boost pressure
kPa
74.6
74.6
74.6
Boost pressure
mmHg
560
560
560
Timer adjustment
Pump speed
r/min
1180--
Advance angle
deg.
0
0
0
Remarks
Start
Start
Timer adjustment_02
Pump speed
r/min
1130
Advance angle
deg.
0
-0.3
0
Timer adjustment_03
Pump speed
r/min
1250-50
Advance angle
deg.
-1.5
-1.8
-1.2
Remarks
Finish
Finish
0000001601
CU407980-224*
*
Actuator retarding type
*
Supply voltage
V
12
11.5
12.5
Ambient temperature
degC
23
18
28
Pre-stroke
mm
2
1.95
2.05
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
5.1
5.07
5.13
Output voltage
V
1.2
1
1.4
Confirmation
*
Remarks
Output voltage V1
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
1.95
2.05
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
5.1
5.07
5.13
Output voltage
V
1.2
1
1.4
Confirmation
*
Remarks
Output voltage V1
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=AB78 BCL=(2.95)+-0.1mm
----------
----------
T1=AB78 BCL=(2.95)+-0.1mm
----------
Speed control lever angle
F:Full speed
I:Idle
(1)Use the hole at R = aa
(2)Stopper bolt set position 'H'
----------
aa=40mm
----------
a=(40.5deg)+-3deg b=42deg+-5deg
----------
aa=40mm
----------
a=(40.5deg)+-3deg b=42deg+-5deg
Stop lever angle
N:Pump normal
S:Stop the pump.
(1)Position at the normal side lever position (back off the stop screw and move fully to the normal side). Next, screw in the stop screw and set where it contacts the stop lever.
(2)Speed = aa, rack position = bb (confirm non-injection at speed = cc).
(3)Use the hole above R = dd
----------
aa=0r/min bb=1+-0.1mm cc=1465r/min dd=30mm
----------
a=34.5deg+-5deg b=46deg+-5deg
----------
aa=0r/min bb=1+-0.1mm cc=1465r/min dd=30mm
----------
a=34.5deg+-5deg b=46deg+-5deg
0000001301
(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)Pre-stroke: bb
----------
aa=4deg bb=5.1+-0.03mm
----------
a=(50deg)
----------
aa=4deg bb=5.1+-0.03mm
----------
a=(50deg)
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.
----------
----------
----------
----------
0000001701
A : Stopper pin
B: Connector
----------
----------
----------
----------
0000001801
C:Shim
----------
----------
----------
----------
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.
----------
----------
----------
----------
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)
----------
N1=1250r/min Ra=R1(11.3)+2.25mm
----------
----------
N1=1250r/min Ra=R1(11.3)+2.25mm
----------
0000002301 TAMPER PROOF
SW:Inner hexagonal SW14
(F): Apply thread lock adhesive .
(G): Full tamper proof
(H): Full boost (Full rack)
(I): 0 boost
1. Mount (C) and (D) after adjusting the boost compensator.
2. Back off the load lever set screw L1 from the end face of the governor housing..
3. Apply boost pressure and set the full load at tamper set position point aa to obtain N1, Q1 and Ra using the screw C.
4. Fix using the nut (D).
5. Next, after adjusting the stop lever, confirm the point aa.
6. Reset the load lever to the full boost rack.
7. After completion of setting, seal using the plug (E).
----------
L1=6+1mm N1=1250r/min Ra=(R1+3.25)+-0.1mm Q1=- aa=D
----------
T1 T=53.9~73.5N-m(5.5~7.5Kgf-m) T2 T=2.94~4.41N-m(0.3~0.45Kgf-m)
----------
L1=6+1mm N1=1250r/min Ra=(R1+3.25)+-0.1mm Q1=- aa=D
----------
T1 T=53.9~73.5N-m(5.5~7.5Kgf-m) T2 T=2.94~4.41N-m(0.3~0.45Kgf-m)
0000002401 TAMPER PROOF
(A): Rotation tamper proof
(B): Full-speed setting
1. Back off the full-speed set bolt.
2. Confirm that the tamper setting position is N1, R1, Q1.
3. At that time, record the angle of the speed lever.
4. After confirming the above setting, set full speed.
----------
N1=1430r/min R1=(12.3)+2-1mm Q1=-
----------
----------
N1=1430r/min R1=(12.3)+2-1mm Q1=-
----------
Information:
Recommended Procedure
1. Tachometer Error ... To check, connect a tachometer of known accuracy to the engine. Run the engine and make a comparison of the readings of the vehicle and test tachometers. If vehicle tachometer is bad, make repairs as necessary or install a new tachometer.2. Engine Operated at High Altitude ... Less oxygen at higher altitudes causes the engine horsepower to go down. There is no effect on the horsepower of the engine for the first 7500 ft. (2280 m) above sea level of operation.3. Brakes Do Not Completely Release ... Check the brakes by feeling all the brake drums. If the brakes of a wheel do not completely release, the brake drum for that wheel will be hotter than the brake drums for the other wheels. With the truck lifted with a jack, the wheels must have free rotation when turned by hand.4. Vehicle Operated in Too High a Gear ... If the operator does not shift the truck correctly, or operates the truck in a "lug" condition (using the truck in too high a gear for engine rpm to go up as acclerator pedal is pushed farther down, or using the truck in a gear where engine rpm goes down with accelerator pedal at maximum travel), poor vehicle performance is the result.5. Extra Engine Driven Equipment ... Air compressors, hydraulic pumps, alternator, and other engine driven equipment that has damage, or that was not installed correctly, or that is not in correct adjustment, can take more horsepower to drive than expected. If necessary, disconnect the equipment and test the engine.6. Speedometer Error ... A bad speedometer does not give the correct speed or the correct indication of fuel consumption. An indication of low speed can cause the operator to feel that he has a power problem.7. Speeds Too High ... The need for more horsepower is easy to see as the speed of the vehicle is increased. This is especially true if the front of the vehicle has a large surface area. Application personnel can give you the horsepower necessary for different vehicle designs at different speeds.8. Overload on Vehicle ... Application personnel can give you the horsepower needs for different vehicles.9. High Moving Resistance ... Soft ground conditions cause a need for more horsepower. To see if the problem is the engine, test the vehicle on a surface known to be good, or test on a chassis dynamometer.10. High Wind Resistance ... The horsepower needs for a truck can be divided into two parts. Part of the horsepower is used to move the vehicle and part is used to get through the resistance of the wind. The horsepower necessary to get through the resistance of the wind will increase as the vehicle is used at higher speeds. Vehicles with large front area have a higher wind resistance and take more horsepower than those with a small front area. Some types of trucks, for example those used for the transportation of automobiles and/or boats
1. Tachometer Error ... To check, connect a tachometer of known accuracy to the engine. Run the engine and make a comparison of the readings of the vehicle and test tachometers. If vehicle tachometer is bad, make repairs as necessary or install a new tachometer.2. Engine Operated at High Altitude ... Less oxygen at higher altitudes causes the engine horsepower to go down. There is no effect on the horsepower of the engine for the first 7500 ft. (2280 m) above sea level of operation.3. Brakes Do Not Completely Release ... Check the brakes by feeling all the brake drums. If the brakes of a wheel do not completely release, the brake drum for that wheel will be hotter than the brake drums for the other wheels. With the truck lifted with a jack, the wheels must have free rotation when turned by hand.4. Vehicle Operated in Too High a Gear ... If the operator does not shift the truck correctly, or operates the truck in a "lug" condition (using the truck in too high a gear for engine rpm to go up as acclerator pedal is pushed farther down, or using the truck in a gear where engine rpm goes down with accelerator pedal at maximum travel), poor vehicle performance is the result.5. Extra Engine Driven Equipment ... Air compressors, hydraulic pumps, alternator, and other engine driven equipment that has damage, or that was not installed correctly, or that is not in correct adjustment, can take more horsepower to drive than expected. If necessary, disconnect the equipment and test the engine.6. Speedometer Error ... A bad speedometer does not give the correct speed or the correct indication of fuel consumption. An indication of low speed can cause the operator to feel that he has a power problem.7. Speeds Too High ... The need for more horsepower is easy to see as the speed of the vehicle is increased. This is especially true if the front of the vehicle has a large surface area. Application personnel can give you the horsepower necessary for different vehicle designs at different speeds.8. Overload on Vehicle ... Application personnel can give you the horsepower needs for different vehicles.9. High Moving Resistance ... Soft ground conditions cause a need for more horsepower. To see if the problem is the engine, test the vehicle on a surface known to be good, or test on a chassis dynamometer.10. High Wind Resistance ... The horsepower needs for a truck can be divided into two parts. Part of the horsepower is used to move the vehicle and part is used to get through the resistance of the wind. The horsepower necessary to get through the resistance of the wind will increase as the vehicle is used at higher speeds. Vehicles with large front area have a higher wind resistance and take more horsepower than those with a small front area. Some types of trucks, for example those used for the transportation of automobiles and/or boats