Information bleeder screw
BOSCH
9 411 617 683
9411617683
ZEXEL
141124-1300
1411241300
MITSUBISHI-HEAV
4106505016
4106505016
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$126.92
02 May 2019
Parts Expr: Parts Express
BOLT FOR MITSUBISHI: 1411241300
MITSUBISHI || All Brand new & rebuilt items comes with 1 year warranty. || BOLT FOR MITSUBISHI: Â FORKLIFT. MB1411241300 MB1411241300 MITSUBISHI 1411241300 MB 1411241300 1411241300 MITSUBISHI1411241300 Â Â Â Â Â Â THIS PART IS ALSO LISTED UNDER THE FOLLOWING PART NUMBERS:
MITSUBISHI || All Brand new & rebuilt items comes with 1 year warranty. || BOLT FOR MITSUBISHI: Â FORKLIFT. MB1411241300 MB1411241300 MITSUBISHI 1411241300 MB 1411241300 1411241300 MITSUBISHI1411241300 Â Â Â Â Â Â THIS PART IS ALSO LISTED UNDER THE FOLLOWING PART NUMBERS:
Include in ###:
Cross reference number
Zexel num
Bosch num
Firm num
Name
141124-1300
9 411 617 683
4106505016 MITSUBISHI-HEAV
BLEEDER SCREW
C 24XX BOLT PF parts PF
C 24XX BOLT PF parts PF
Information:
Procedure
Illustration 1 g06220548
(1) TC Mark (Flywheel Housing)
(2) TC Mark (Flywheel)
Remove valve cover, and injector and rocker arm. Bring the piston of cylinder 4 to TDC.
Illustration 2 g06220554
(3) Dial Gauge
(4) Valve
(5) O-ring
Remove the #4 exhaust valve bridge arm and valve spring. Insert a small O-ring (5) so the valve does not fall into the cylinder.
Set dial gauge (3) on the tip of the valve (4).
Illustration 3 g06220569
(6) Tri - Square
(7) Flywheel Housing
(8) Flywheel
Illustration 4 g06220573
(7) Flywheel Housing
(8) Flywheel
(9) Reference Line
Turn the flywheel counterclockwise and measure the position where the tip of the valve is the highest.
Stop the flywheel at the position where the tip of the valve is the highest. Put a tri - square (6) on the flywheel housing (7) and the flywheel (8) and draw a reference line (9).Do not drop the valve (4) into the cylinder. When measuring the highest position of the tip of the valve, do not rotate the flywheel clockwise. If you go past the highest point of the valve, back up the flywheel slightly and measure the highest point of the valve. The reference line (9) indicates the TDC of the crankshaft.
Illustration 5 g06220579
Rotation Sensor Signal Interface Unit
Application: Use for reading rotation sensor signal.
(1) 9V Battery
(2) Switch
(3) 3-Terminal Regulator
(4) LED
(5) Clip (Red)
(6) Clip (Black)
(A) for Panasonic
(B) for Denso
(C) for Bosch cam angle
(D) for Bosch crank angle
((E)) Connector Side
(a) +9 V
(b) Signal
(c) GND
(d) +5 V
(e) Signal
(f) GND
Schematic to build Rotation Sensor Signal Interface.
Illustration 6 g06220581
(10) Rotation Sensor Signal Interface (Tool not available. Schematic to build tool available. Refer to Step 6.
(11) Tester
Illustration 7 g06220587
(12) Ground Terminal
(13) Output Terminal
(14) Crankshaft Position Sensor
Connect a connector of the rotation sensor signal interface unit (10) to the crankshaft position sensor (14). Connect each clip of the rotation sensor signal interface unit (10) to the same test lead color of the tester (11). Switch on the rotation sensor signal interface unit (10).
Illustration 8 g06220590
(15) Pulsar Gear
(16) 14th Tooth
(17) Missing Teeth
Turn the flywheel and make sure that the voltage of the crankshaft position sensor goes from 0→ 5 V or 5 → 0 V.
Rotate the flywheel and align the crankshaft position sensor to the part of the pulsar gear (15) that is missing teeth (17). The 14th tooth (16) from the missing teeth is standard.
Slowly turn flywheel counterclockwise and stop flywheel at the point where needle of the tester changes momentarily from 0 → 5 V, the 14th tooth.That point is where the crankshaft position sensor detects TDC.
Illustration 9 g06220608
(18) Crankshaft TDC
(19) Detection Point of Crankshaft Position Sensor TDC
Illustration 10 g06220612
(20) Interval
Set the tri - square (6) on the reference line (9) on the flywheel housing side and mark the detection point of crankshaft position sensor TDC (19) on the flywheel.
Measure the interval (20) between the crankshaft TDC (18) and the detection point of the crankshaft position sensor TDC (19).
Calculation of fuel injection timing correction 1.0 mm (0.039 in.): 0.321°.Corrected Angle = 0.321° X actual interval
Overwrite the injection timing correction value on the engine ecm registration website refer to REHS9707, "Registering Diesel Particulate Filter (DPF), Diesel Oxidation Catalyst (DOC),
Illustration 1 g06220548
(1) TC Mark (Flywheel Housing)
(2) TC Mark (Flywheel)
Remove valve cover, and injector and rocker arm. Bring the piston of cylinder 4 to TDC.
Illustration 2 g06220554
(3) Dial Gauge
(4) Valve
(5) O-ring
Remove the #4 exhaust valve bridge arm and valve spring. Insert a small O-ring (5) so the valve does not fall into the cylinder.
Set dial gauge (3) on the tip of the valve (4).
Illustration 3 g06220569
(6) Tri - Square
(7) Flywheel Housing
(8) Flywheel
Illustration 4 g06220573
(7) Flywheel Housing
(8) Flywheel
(9) Reference Line
Turn the flywheel counterclockwise and measure the position where the tip of the valve is the highest.
Stop the flywheel at the position where the tip of the valve is the highest. Put a tri - square (6) on the flywheel housing (7) and the flywheel (8) and draw a reference line (9).Do not drop the valve (4) into the cylinder. When measuring the highest position of the tip of the valve, do not rotate the flywheel clockwise. If you go past the highest point of the valve, back up the flywheel slightly and measure the highest point of the valve. The reference line (9) indicates the TDC of the crankshaft.
Illustration 5 g06220579
Rotation Sensor Signal Interface Unit
Application: Use for reading rotation sensor signal.
(1) 9V Battery
(2) Switch
(3) 3-Terminal Regulator
(4) LED
(5) Clip (Red)
(6) Clip (Black)
(A) for Panasonic
(B) for Denso
(C) for Bosch cam angle
(D) for Bosch crank angle
((E)) Connector Side
(a) +9 V
(b) Signal
(c) GND
(d) +5 V
(e) Signal
(f) GND
Schematic to build Rotation Sensor Signal Interface.
Illustration 6 g06220581
(10) Rotation Sensor Signal Interface (Tool not available. Schematic to build tool available. Refer to Step 6.
(11) Tester
Illustration 7 g06220587
(12) Ground Terminal
(13) Output Terminal
(14) Crankshaft Position Sensor
Connect a connector of the rotation sensor signal interface unit (10) to the crankshaft position sensor (14). Connect each clip of the rotation sensor signal interface unit (10) to the same test lead color of the tester (11). Switch on the rotation sensor signal interface unit (10).
Illustration 8 g06220590
(15) Pulsar Gear
(16) 14th Tooth
(17) Missing Teeth
Turn the flywheel and make sure that the voltage of the crankshaft position sensor goes from 0→ 5 V or 5 → 0 V.
Rotate the flywheel and align the crankshaft position sensor to the part of the pulsar gear (15) that is missing teeth (17). The 14th tooth (16) from the missing teeth is standard.
Slowly turn flywheel counterclockwise and stop flywheel at the point where needle of the tester changes momentarily from 0 → 5 V, the 14th tooth.That point is where the crankshaft position sensor detects TDC.
Illustration 9 g06220608
(18) Crankshaft TDC
(19) Detection Point of Crankshaft Position Sensor TDC
Illustration 10 g06220612
(20) Interval
Set the tri - square (6) on the reference line (9) on the flywheel housing side and mark the detection point of crankshaft position sensor TDC (19) on the flywheel.
Measure the interval (20) between the crankshaft TDC (18) and the detection point of the crankshaft position sensor TDC (19).
Calculation of fuel injection timing correction 1.0 mm (0.039 in.): 0.321°.Corrected Angle = 0.321° X actual interval
Overwrite the injection timing correction value on the engine ecm registration website refer to REHS9707, "Registering Diesel Particulate Filter (DPF), Diesel Oxidation Catalyst (DOC),
Have questions with 141124-1300?
Group cross 141124-1300 ZEXEL
Mitsubishi-Heav
141124-1300
9 411 617 683
4106505016
BLEEDER SCREW