clock ISUZU KB P190 2007 Workshop Manual PDF

Engine Mechanical – V6 Page 6A1–248
Page 6A1–248
50 Unplug the connector from the oil level sensor (1).
51 Remove the attaching bolt (2) holding the ground cable to the engine block.


Figure 6A1 – 429
52 Remove the accessory drive belt using a socket wrench (1), to reduce tension rotate the drive belt
tensioner (2) clockwise, then while holding the
tensioner in the reduced tens ion position, remove the
accessory drive belt (3).


Figure 6A1 – 430
53 Remove the power steering pump bolts (two places),
remove the pump (1) from the mounting bracket and
disconnect the power steering hoses (two places)
from the pump body.

NOTE
Plug the open ends of the power steering hoses
to prevent the ingre ss of contaminants.

Figure 6A1 – 431

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ISUZU KB P190 2007

Engine Cooling – V6 Engine Page 6B1–8

Cooling Fan and Shroud Assembly

Figure 6B1 – 3
Legend
1 Fan Harness Connector
2 Fan Shroud
3 Radiator
4 Fan Shroud Upper Support 5 Oil Cooler, Upper Line Connection (Auto Trans Only)
6 Fan Shroud Lower Support
7 Oil Cooler, Lower Line Connection (Auto Trans Only)
8 Radiator Drain Tap
9 Fan Motor
Fan Motor
W hen the Standard Cooling Fan System is fitted to the HFV6 engine, the fan motor is 12 Volt and variable-speed. The
internal construction of the fan motor consists of two brushes and two permanent magnets. A three-wire pigtail harness is
permanently connected to the motor and is attached to the polypropylene fan shroud by integral clips moulded as part of
the fan shroud.
The enclosed fan motor housing is constructed of yellow zinc coated steel. A drain hole is located in the bottom of the
housing to allow for breathing and draining of any moisture ingress.
The fan motor rotates in an anticlockwise direction when viewed from the fan motor side.
The motor is rated at 400 W atts and drives a (500 mm) diameter fan blade at approximately 2,400 ± 240 rpm at high
speed (stage 4).
The fan and motor is balanced as a unit and the fan blade must not be separated from the motor. The fan motor and
blade are serviced only as an assembled unit. However, it should be noted that the central nut attaching the fan blade to
the motor shaft has a left-hand thread.
Fan Operation
On vehicles with HFV6 engines, the engine cooling fan motor has three terminals; one positive and one negative and
one the drive signal from the ECM. The positive terminal is permanently connected to battery voltage, via fuse SBF –3.
The cooling fan operation is enabled when the ECM via connector C – 56, pin 20 supplies a duty signal which varies
dependant on the engine temperature, vehicle speed, A/C request (where fitted) and A/C system pressure, the speed
varies from low speed (Stage 1) up to high speed (Stage 4). Refer to 6C1 – 1 Engine management general information.

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ISUZU KB P190 2007

Engine Cooling – V6 Engine Page 6B1–16

3 Service Operations
3.1 Service Notes
Safety

• To avoid serious personal injury, never
remove the coolant filler pressure cap on
the coolant outlet housing when the
engine is hot, even if the cooling system
should require filling. Sudden release of
cooling system pressure is very
dangerous.
• The vehicle is fitted with an electric
radiator cooling fan. When working around
the engine compartment, keep clear of the
fan as it may start without warning.
Before removing the coolant filler cap, allow the engine to cool, then place a shop rag over the coolant filler cap and then
slowly turn the cap anticlockwise, approximately 1½ turns, until the pressure relief position is reached. The pressure
relief position will allow any remaining pressure within the system to escape into the coolant recovery reservoir. Continue
to rotate the cap anticlockwise until the cap can be safely removed.
Periodic Servicing
The cooling system requires little attention except for maintaining the coolant to the correct level in the recovery reservoir
and periodic servicing at the time or distance intervals as outlined in 0B Lubrication and Service.
Periodic servicing includes:
1 Checking coolant level. Refer to 3.3 Draining and Filling Cooling System in this Section.
2 Checking coolant concentration. Refer to 3.2 Coolant Maintenance – Testing Coolant Concentration in this Section.
3 Pressure test cooling system and coolant filler cap. Refer to 3.7 Pressure Testing in this Section.
4 Tighten hose clamps and inspect all hoses. Refer to 3.6 Coolant Hoses in this Section. Replace hoses if swollen or deteriorated.

Always wear protective safety glasses when
working with spring type hose clamps. Failure
to do so could result in eye injury.
5 Clean out cooling system, refer to 3.4 Cleaning Cooling System – Cooling System Flush, in this Section and refill. Refer to 3.3 Draining and Filling Cooling System in this Section.
Environmental Issues
To reduce environmental impact and maintenance cost, whenever the coolant is drained from any engine, the service
records are to be checked to determine when the coolant was last changed. If more than six months life is left before the
next coolant change, then the following procedure is to be followed:
1 W hen draining the coolant from the engine, use a clean container to hold at least 12 litres of coolant and ensure that the coolant is not contaminated in the draining process.
2 After repairs have been completed, refill the engine cooling system with the drained coolant.

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Engine Cooling – V6 Engine Page 6B1–41

Figure 6B1 – 42 shows the drive belt routing for the HFV6 engine without air conditioning.

Figure 6B1 – 43
Legend
1 Coolant Pump
2 Generator
3 Idler 4 Power Steering
5 Crankshaft
6 Tensioner
4 Remove the drive belt from the coolant pump pulley:
a Rotate the drive belt tensioner pulley clockwise (arrow) using a 1/2” drive
extension in order to release the drive
belt tension.
b Remove the drive belt from the coolant pump pulley.
c Slowly release the drive belt tensioner.
Figure 6B1 – 44

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Engine Cooling – V6 Engine Page 6B1–52

2 Disconnect the transmission cooler pipes from the
transmission.
• Release the verifier disk (2) by pulling back with
the fingers, then slide back down the cooler line
(1).
• Open the cooler line release tool J-41623-B and
slip over cooler line to be disconnected from the
transmission, above the verifier disk (2), as
shown.
• Slide the release tool along the line to engage
with the quick-connect fitting.
• W hile pushing inwards, rotate the tool about one
sixth of a turn to release the spring clip holding
the line.
• W ith the release tool held in this position, pull
back on the cooler line to release.
• Repeat this process with the remaining line and
quick-connect fitting.
3 Plug both pipe openings and hoses to minimise fluid loss and prevent foreign matter entry.
Figure 6B1 –
––
–
59
4 Disconnect the transmission cooler hose/line assemblies from the radiator quick connect fittings as
follows:
• Pull back the verifier disc (1) from the quick
connect fitting (2) and slide it back along the line.
• Open the release tool, Tool No J-41623-B (3),
slip it over the cooler line to be disconnected
from the radiator, ahead of the verifier disc.
• Slide the release tool along the cooler line and
engage it with the quick-connect fitting (2).
• W hile pushing inwards, rotate the release tool
clockwise, about one sixth of a turn to release
the spring clip holding the cooler line.
• W ith the release tool held in this position, pull
back on the cooler line to release it.
• Plug the openings to prevent fluid loss and/or
contamination.
• Repeat the procedure to remove the remaining
cooler line.
NOTE
If the spring clip and/or O-ring seal in the quick-
connect fitting is damaged during the removal
process, the complete fitting must be replaced.
5 Unclip the outlet cooler line (4) from the radiator fan shroud (5).
Figure 6B1 –
––
–
60

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Engine Cooling – V6 Engine Page 6B1–65

Engine Cooling Fan

Rotational Speed (with 13 ± 0.26 volts negative polarity duty signal applied)

– Stage 1 (25% Duty) ..................... 1,100 ± 110 rpm (3 ± 0.3A)
– Stage 2 (25% Duty) ..................... 1,600 ± 160 rpm (7 ± 0.7A)
– Stage 3 (25% Duty) ..................... 2,100 ± 210 rpm (15 ± 1.5A)
– Stage 4 (25% Duty) ..................... 2,400 ± 240 rpm (22 ± 2.2A)


Number of Blades ............................................................................................................... .... 5
Fan – Design ................................................................. Asymmetrical spaced, curved blades
Material ................................................................................... Nylon Glass, Mineral reinforced
Diameter ...................................................................................................................... 5 00 mm
Fan Motor – Type ..................................................................................................... Brushless
Fan Motor – Power ......................................................................................................... 400W
Fan Motor – Input signal ................................................................................................ 100Hz
Housing ..........................................................Semi-sealed, zinc-coated steel with drain hole
Direction of Rotation .....................................Counter clockwise (as viewed from drivers seat)

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ISUZU KB P190 2007

Fuel System – V6 Page 6C – 25

10 Using tool No. AU469 (3) and a half-inch breaker
bar (1), remove the modular fuel pump and sender
assembly cover retainer lock ring (2) by turning it
anticlockwise.
11 Remove the modular fuel pump and sender assembly cover retainer lock ring.
Figure 6C – 25

The reservoir will be full of fuel. When the
modular fuel pump and sender assembly is
removed from the fuel tank, pour any
remaining fuel in the reservoir into a suitable
container. Do not drain or store fuel into an
open container, due to the possibility of fire
or explosion.
12 Place the modular fuel pump and sender assembly cover retainer lock ring (1) in a safe location away
from the immediate worksite.
13 Carefully lift the modular fuel pump and sender assembly from the fuel tank, taking care not to:
• damage the fuel level sender float and arm (2),
or
• spill any fuel remaining in the reservoir
NOTE
The fuel sender float arm is not serviced
separately. If damaged, the modular fuel pump
and sender assembly is replaced as a complete
assembly.
14 Remove and discard the O-ring (3).
Figure 6C – 26

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Fuel System – V6 Page 6C – 26


Fuel vapour remains in the fuel tank even
when completely empty. Seal all openings in
the fuel tank using suitable material or a
plastic plug. Ensure no naked flames or other
ignition sources are nearby. Ensure all
cellular phones (and transmission devices
that may cause any metal objects to become
unintentional receiving antennas) are
switched off.
15 Place a suitable material over the opening in the fuel tank to prevent any foreign matter from entering the fuel system.
Fuel Level Sender Assembly
Test
1 Measure the resistance across terminals 2 and 3 of the fuel pump connector. Take the following
measurements:
a W ith the float arm assembly in the empty position, the resistance should be approximately
250 Ω.
b W ith the float arm assembly rotated to the full position, the resistance should be approximately
40 Ω.
2 If the resistance at either of these positions is not within tolerance, replace the modular fuel pump and
sender assembly.

Figure 6C – 27
Reinstall
Reinstallation of the modular fuel pump and sender assembly is the reverse of the removal procedure, noting the
following:
1 Fit a new O-ring (3) to the modular fuel pump and sender assembly.
2 Install the modular fuel pump and sender assembly into the fuel tank, taking care not to damage the fuel sender float or arm.
3 Ensure the locator in the pump cover engages in the slot in the fuel tank opening.
4 Using tool No. AU469 and a half-inch breaker bar, install the modular fuel pump and sender assembly cover retainer lock ring by turning it clockwise.
5 Refit the three quick connect fittings.




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Fuel System – V6 Page 6C – 32

4.8 Fuel Filler Cap
The fuel filler cap is a 'screw on' type, with an integrated tightening torque limiting mechanism. W hen installing the fuel
filler cap, tighten it until a ratcheting (clicking) sound is audible, indicating the fuel filler cap is properly tightened. Th e fuel
filler cap is tethered to the fuel filler pocket.
Remove
The fuel filler cap requires a quarter of a turn anticlockwise to be removed.
Vacuum and pressure valves are built into the fuel filler cap
which regulate the pressure in the fuel tank and prevent fuel
tank and system damage.
Inspection
Inspect the fuel filler cap and seal for any signs of damage.
Replace the fuel filler cap if found to be defective.
1 Pressure Valve
2 Vacuum Valve
3 Seal Ring

A replacement fuel filler cap must be the
same type as the original. The fuel filler cap
pressure and vacuum valves are specific to a
particular application and must be replaced
with the same type or fuel system damage
may occur.
Figure 6C – 36

If the fuel filler cap needs replacing, use only
a 'screw on' fuel tank filler cap with an
integrated tightening torque limiting
mechanism. Failure to use the correct fuel
tank filler cap can result in a serious
malfunction of the emission control or fuel
system.
1 Untwist and remove the fuel filler cap (2) from the fuel filler neck opening.
2 Cover the fuel filler opening with a suitable material to prevent foreign objects from entering the fuel tank.
3 To remove the fuel filler cap tether line use a flat- bladed screwdriver to prise the tether line fastener (2)
from it’s mounting hole.
NOTE
Check the fuel filler cap for serviceability and
replace if required.

Figure 6C – 37
Reinstall
Reinstallation of the fuel filler cap is the reverse of the removal procedure.

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Charging System – V6 Page 6D1-1-15

4 Major Service Operations
4.1 Generator
Remove

Refer to 1.2 WARNING, CAUTION and NOTES
before disconnecting the battery.
1 Disconnect the battery ground lead P-5. Refer to 8A Electrical Body and Chassis.
2 Insert a ½ inch drive socket bar into the tensioner arm and rotate the tensioner arm clockwise.
3 Remove the drive belt from the generator pulley and release the tensioner. Refer to 6A1 Engine Mechanical – V6 for further details as required.
4 Pull the battery harness cap back from generator terminal P-9 (3), remove the nut (4) and remove the
positive lead (2) from the generator (5).
5 Disengage the connector retaining clip and remove the connector E-4, (1) from the generator.
Figure 6D1-1 4
6 Remove the three bolts (1, 2, 4) retaining the generator (3) to the generator bracket.

7 Remove the generator assembly from the vehicle.
Figure 6D1-1 5

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