108622-8020 ZEXEL 9 400 613 191 BOSCH INJECTION-PUMP ASSEMBLY 9400613191 1086228020 220402471a

Information Cross number Calibration Data Calibration Data Ex

Information injection-pump assembly

BOSCH 9 400 613 191 9400613191

ZEXEL 108622-8020 1086228020

HINO 220402471A 220402471a

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Buy INJECTION-PUMP ASSEMBLY 108622-8020 zexel genuine, new aftermarket engine parts with delivery

Service parts 108622-8020 INJECTION-PUMP ASSEMBLY:

1. _

2. FUEL INJECTION PUMP 108062-4090

3. GOVERNOR 105923-5120

4. SUPPLY PUMP 105237-4690

5. AUTOM. ADVANCE MECHANIS

6. COUPLING PLATE 105664-0740

7. COUPLING PLATE 156638-7720

8. _ 159640-2320

9. _

10. NOZZLE AND HOLDER ASSY 105101-8451

11. Nozzle and Holder 23600-3270B

12. Open Pre:MPa(Kqf/cm2) 16.7{170}/27.5{280}

13. NOZZLE-HOLDER 105030-3750

14. NOZZLE

15. NOZZLE SET 105019-2220

Include in #1:

108622-8020 as INJECTION-PUMP ASSEMBLY

Cross reference number

BOSCH 9 400 613 191 9400613191

ZEXEL 108622-8020 1086228020

HINO 220402471A 220402471a

Zexel num

Bosch num

Firm num

Name

108622-8020
108622-8021

9 400 613 191

220402471A HINO

INJECTION-PUMP ASSEMBLY
P11C-UB * K 14CP TICS HD-TI6F TICS

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 134424-4120

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. 407980-2 24*

Digi switch no. 33

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 6.4 6.37 6.43

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 14.7

Pump speed r/min 750 750 750

Average injection quantity mm3/st. 169.5 166.5 172.5

Max. variation between cylinders % 0 -2 2

Basic *

Fixing the rack *

PS407980-224* V 2.2+-0.0 1

PS407980-224* mm 4+-0.05

Standard for adjustment of the maximum variation between cylinders *

Injection quantity adjustment_02

Adjusting point Z

Rack position 7.7+-0.5

Pump speed r/min 410 410 410

Average injection quantity mm3/st. 11 10 12

Max. variation between cylinders % 0 -15 15

Fixing the rack *

PS407980-224* V V1+0.05+ -0.01

PS407980-224* mm 6.3+-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(14.7)

Pump speed r/min 750 750 750

Average injection quantity mm3/st. 169.5 167.5 171.5

Basic *

Fixing the lever *

Boost pressure kPa 54 54

Boost pressure mmHg 405 405

PS407980-224* V 2.2+-0.0 1

PS407980-224* mm 4+-0.05

Injection quantity adjustment_04

Adjusting point B

Rack position R1+0.3

Pump speed r/min 1075 1075 1075

Average injection quantity mm3/st. 148.5 142.5 154.5

Fixing the lever *

Boost pressure kPa 54 54

Boost pressure mmHg 405 405

PS407980-224* V 2.2+-0.0 1

PS407980-224* mm 4+-0.05

Boost compensator adjustment

Pump speed r/min 300 300 300

Rack position R2-1.6

Boost pressure kPa 28.7 27.4 30

Boost pressure mmHg 215 205 225

Boost compensator adjustment_02

Pump speed r/min 300 300 300

Rack position R2(R1-1. 55)

Boost pressure kPa 40.7 40.7 40.7

Boost pressure mmHg 305 305 305

0000001601

Pre-stroke mm 6.4 6.37 6.43

Remarks
When the timing sleeve is pushed up

_02

Connector angle deg. 11.5 11 12

Remarks
When the eccentric pin is tightened

_03

Supply voltage V 24 23.5 24.5

Ambient temperature degC 23 18 28

Pre-stroke mm 2.4 2.35 2.45

Output voltage V 2.95 2.94 2.96

Adjustment *

_04

Supply voltage V 24 23.5 24.5

Ambient temperature degC 23 18 28

Pre-stroke mm 6.4 6.37 6.43

Output voltage V 1.2 1 1.4

Confirmation *

Remarks
Output voltage V1

_05

Supply voltage V 24 23.5 24.5

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)Stop lever normal position setting (4)Boost compensator stroke: BCL (5)Damper spring setting
----------
T1=AF90 BCL=1.6+-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=54mm
----------
a=35.5deg+-3deg b=40deg+-5deg

Stop lever angle

N:Pump normal S:Stop the pump. (1)Set the stopper bolt at rack position = approximately aa. (2)Set the stopper screw so that speed = bb and the rack position = cc (after setting apply red paint). (3)Use the hole above R = dd
----------
aa=19.3mm bb=0r/min cc=2.9+-0.3mm dd=35mm
----------
a=20deg+-5deg b=34deg+-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=6.4+-0.03mm
----------
a=(50deg)

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

G:Red paint H:Pump end face P/N: part number of suitable shim (1)Threaded type rack block (2)Welded type rack block Rack sensor adjustment 1. Threaded type rack sensor (-5*20, P type, no TICS rack limit). (1)Screw in the bobbin (A) until it contacts the joint (B). (2)Fix the pump lever. (3)At speed N1 and rack position Ra, adjust the amount that the bobbin is screwed in so that the amp's output voltage is V1. (4)Fix using the nut (F). (5)Affix the caution plate to the upper part of the joint (B). (6)Apply (G) at two places. Connecting part between the joint (B) and the nut (F) Connecting part between the end surface of the pump (H) and the joint (B) 2. Range for screw-in adjustment between the bobbin (A) and the joint (B) is 9 threads. Screw in to the end from (the position where the bobbin (A) is rotated 9 turns). Speed N1, rack position Ra, output voltage V1, rack sensor supply voltage 5+-0.01 (V)
----------
Ra=R1(14.7)+0.3mm N1=1075r/min V1=3+-0.01V
----------

Information:

Delco-Remy Alternator
(1) Regulator. (2) Roller bearing. (3) Stator winding. (4) Ball bearing. (5) Rectifier bridge. (6) Field winding. (7) Rotor assembly. (8) Fan.Alternator (Bosch)
The alternator is driven by V-belts from the crankshaft pulley. This alternator is a three phase, self-rectifying charging unit. The regulator is part of the alternator.
Bosch Alternator
(1) Fan. (2) Stator winding. (3) Field winding. (4) Regulator. (5) Ball bearing. (6) Roller bearing. (7) Rotor. (8) Rectifier assembly.This alternator design has no need for slip rings or brushes, and the only part that has movement is the rotor assembly. All conductors that carry current are stationary. The conductors are: the field winding, stator windings, six rectifying diodes, and the regulator circuit components.The rotor assembly has many magnetic poles like fingers with air space between each opposite pole. The poles have residual magnetism (like permanent magnets) that produce a small amount of magnet-like lines of force (magnetic field) between the poles. As the rotor assembly begins to turn between the field winding and the stator windings, a small amount of alternating current (AC) is produced in the stator windings from the small magnetic lines of force made by the residual magnetism of the poles. This AC current is changed to direct current (DC) when it passes through the diodes of the rectifier bridge. Most of this current goes to charge the battery and to supply the low amperage circuit, and the remainder is sent to the field windings. The DC current flow through the field windings (wires around an iron core) now increases the strength of the magnetic lines of force. These stronger lines of force now increase the amount of AC current produced in the stator windings. The increased speed of the rotor assembly also increases the current and voltage output of the alternator.The voltage regulator is a solid state (transistor, stationary parts) electronic switch. It feels the voltage in the system and switches on and off many times a second to control the field current (DC current to the field windings) for the alternator to make the needed voltage output.Alternator (Nippondenso)
The alternator is driven by a V-belt from the crankshaft pulley. The only part in the alternator which has movement is rotor assembly (9). Rotor assembly (9) is held in position by a ball bearing at each end of rotor shaft (8).The alternator is made up of a frame (3) on the drive end, rotor assembly (9), stator assembly (5), rectifier assembly (11), brushes (7) and holder assembly, slip rings (13), rear end frame (12) and regulator (6). Drive pulley (1) has a fan (2) for heat removal by the movement of air through the alternator.
Alternator Schematic (With Regulator Attached)
(1) Pulley. (2) Fan. (3) Drive end frame. (4) Stator coils. (5) Stator assembly. (6) Regulator. (7) Brushes. (8) Rotor shaft. (9) Rotor assembly. (10) Field windings. (11) Rectifier assembly. (12) Rear end frame. (13) Slip rings.Rotor assembly (9) has field windings (10) (wires around an iron core) which make magnetic lines of force when direct