2007 ISUZU KB P190 Workshop Repair Manual

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ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–24
Page 6A1–24
Camshaft Drive System
Three timing chains are fitted:
• primary (1),
• right-hand secondary (2), and
• left-hand secondary (3), re

Page 2802 of 6020

ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–25
Page 6A1–25
1.5 Engine Lubrication System
Lubrication Description
A structural diecast aluminium oil pan is fitted that incorporates an oil suction pipe,

Engine Mechanical – V6 Page 6A1–25
Page 6A1–25
1.5 Engine Lubrication System
Lubrication Description
A structural diecast aluminium oil pan is fitted that incorporates an oil suction pipe, an oil deflector and an oil level
sensor. The oil suction pipe is bolted in to the oil pan and seals to the bottom of the cylinder block with a gasket. The oil
deflector is bolted to the upper portion of the oil pan and ensures oil supply is maintained under all conditions. The oil
level sensor is mounted thr ough the bottom of the oil pan.
A crankshaft driven gerotor oil pump is mounted to the front of the cylinder block. The pump, which incorporates an
internal pressure-relief valve, draws oil from the oil sucti on tube through the lower passage in the cylinder block. Oil is
then directed through an upper passage to the left-hand side of the cylinder block where the oil filter adapter is mounted.
The oil filter adapter incorporat es a top-access, cartridge style oil filter. The filter is accessed through a screw-on cap tha t
incorporates an oil bypass valve. The o il filter adapter housing incorporates a drain back control valve and a threaded oil
pressure sender. Oil flows through a lower passage within the oil filter adapter and through the o il filter cartridge. Filtered
oil travels back through the upper passage of the adapter and into the engine block.
Oil is then directed up and across the front of the cylinder block, through several drilled passages. These front passages
feed oil to each cylinder head, the passage for the main bearings and piston oil jets, the right-hand and left-hand
secondary idler sprockets and to t he primary timing chain tensioner.
Each cylinder head passage directs oil into oiling circuits for the stationary hydraulic la sh adjusters (SHLAs) and the
camshaft bearing journals. An additional passage in the cy linder head also directs oil to the secondary timing chain
tensioner.
The oil passage that supplies oil to the main bearings also s upplies oil to pressure actuated piston cooling oil jets. Each
oil jet is mounted between opposing cylinder bores and directs oil to the two bores to provide extra cooling and control
piston temperatures.
From the front passages, oil is directed to the front of the block where t he right-hand and left-hand intermediate drive
shaft sprockets and the primary timing chain tensioner are mounted. Each camshaft timing chain tensioner relies on a
gasket to maintain an oil rese rve after the engine is turned off. All camshaft timing chain tensioners incorporate a small
oil jet to supply an oil spray onto the camshaft timing chain components.
Oil returns to the oil pan, either through the camshaft timing chain area or through the drain back passages on the
outboard walls of the cylinder heads and cylinder block.

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ISUZU KB P190 2007

Page 2803 of 6020

ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–26
Page 6A1–26
1.6 Service Notes
Cleanliness and Care
Throughout this Section, correct cleaning and protection of machined surfaces and fr iction areas is a

Engine Mechanical – V6 Page 6A1–26
Page 6A1–26
1.6 Service Notes
Cleanliness and Care
Throughout this Section, correct cleaning and protection of machined surfaces and fr iction areas is a part of the repair
procedure. This is considered standard workshop practice, even if not specifically stated.
When any internal engine part is serviced, care and cleanliness is extremely important.
When components are removed for service, they should be ma rked, organised or retained in a specific order for
reassembly.
At the time of installation, components should be installed in the same location and with the same mating surface as
when removed.
Any engine is a combination of many machined, honed, polished and lapped surfaces with tole rances that are measured
in thousandths of a millimetre. Thes e surfaces should be covered or protected to avoid component damage.
A liberal coating of clean engine oil should be applied to fricti on areas during assembly, as the lubrication will protect and
lubricate friction surfaces dur ing the initial engine start-up.
Replacing Engine Gaskets
Re-Using Gaskets and Applying Sealants
• do not reuse any gasket unless specified,
• gaskets that can be reused will be ident ified in the service procedure, and
• do not apply sealant to any gasket or sealing surf ace unless specified in the service information.
Separating Components
• Use a rubber mallet to separate components.
• Bump the part sideways to loosen the components.
• Bumping should be done at bends or reinforced areas to prevent distortion of parts.
Cleaning Gasket Surfaces
• Where required, remove all gasket and sealing materi al from the part using a plastic or wood scraper.
• Care must be used to avoid gouging or scraping the sealing surfaces.
• Do not use any other method or technique to re move sealant or gasket material from a part.
• Do not use abrasive pads, sand paper, or power tools to clean the gasket surfaces as these methods of cleaning
can cause damage to the component sealing surfaces. Abrasive pads also produce fine grit that the oil filter cannot
remove from the oil. This grit is abrasiv e and has been known to cause internal engine damage.
Assembling Components
• When assembling components, use only the sealant specified or equivalent in the service procedure.
• Sealing surfaces should be cl ean and free of debris or oil.
• Specific components such as crankshaft oil seals or valve stem oil seals may require lubrication during assembly.
• Components requiring lubrication will be i dentified in the service procedure.
• When applying sealant to a component, apply the am ount specified in the service procedure.
• Do not allow the sealant to enter into any blind threaded hol es as it may prevent the bolt from clamping correctly or
cause component damage when tightened.
• Only ever tighten bolts to the correct to rque specification. Do not over-tighten.

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Page 2804 of 6020

ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–27
Page 6A1–27
Use of Room Temperature Vulcanising and Anaerobic Sealer
CAUTION
A number of sealant types are commonly
used in engines. Examples are; room

Engine Mechanical – V6 Page 6A1–27
Page 6A1–27
Use of Room Temperature Vulcanising and Anaerobic Sealer
CAUTION
A number of sealant types are commonly
used in engines. Examples are; room
temperature vulcanising (RTV) sealer,
anaerobic gasket eliminator sealer, and
anaerobic thread sealant and pipe joint
compound. The correct type of sealant and
amount must be used in the specified location
to prevent oil leaks. Do not interchange the
different types of sealers.
Room Temperature Vulcanising Sealer
• Room temperature vulcanising (RTV) s ealant hardens when exposed to air. This type of sealer is used where two
non-rigid parts (such as the intake manifold and the engine block) are assembled together.
• Do not use RTV sealant in areas where extreme temper atures are experienced. These areas include the exhaust
manifold, head gasket, or other surfaces w here a gasket eliminator is specified.
• Follow all safety recommendations and di rections that are on the container.
• To remove the sealant or the gasket mate rial, refer to Replacing Engine Gaskets.
• Apply RTV to a clean surface. Use a bead size as specified in the service procedure. Run the bead to the inside of
any bolt holes. Do not allow the sealer to enter any bli nd threaded holes, as it may prevent the bolt from clamping
correctly or cause damage when the bolt is tightened.
• Assemble components while RTV is still wet (within 3 minutes). Do not wait for RTV to skin over.
• Tighten the bolts to the correct torque specification. Do not over-tighten.
Anaerobic Sealer
• Anaerobic gasket eliminator or thread sealant, hardens in t he absence of air. This type sealer is used where two
rigid parts (such as castings) are assembled together, w here fasteners are subjected to vibration, or where the
holes are not blind. When two rigid parts are disassembled and no sealer or gasket is readily noticeable, the parts
were probably assembled using a gasket eliminator.
• Follow all safety recommendations and di rections that are on the container.
• To remove the sealant or the gasket mate rial, refer to Replacing Engine Gaskets.
• Apply a continuous bead of gasket eliminator to one flange or on the bolt/stud thread. All surfaces must be clean
and dry.
• Spread the sealer evenly to achieve a uniform coating on the sealing surface.
• Do not allow the sealer to enter any blind threaded holes as it may prevent the bolt from clamping correctly or
cause damage when tightened.
CAUTION
Anaerobic sealed joints that are partially
tightened and allowed to cure more than five
minutes may result in incorrect shimming and
sealing of the joint.
• Tighten the bolts to the correct torque specification. Do not over-tighten.
• After correctly tightening the fasteners, remove t he excess sealer from the outside of the joint.

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ISUZU KB P190 2007

Page 2805 of 6020

ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–28
Page 6A1–28
Pipe Joint Compound
• Pipe joint compound is a pliable sealer that does not comp letely harden. This type of sealer is used where two non-
ri

Engine Mechanical – V6 Page 6A1–28
Page 6A1–28
Pipe Joint Compound
• Pipe joint compound is a pliable sealer that does not comp letely harden. This type of sealer is used where two non-
rigid parts (such as pressed steel and ma chined surfaces) are assembled together.
• Do not use pipe joint compound in areas where extreme temperatures are expected. These areas include the
exhaust manifold, head gasket, or other surfaces where gasket eliminator is specified.
• Follow all safety recommendations and di rections that are on the container.
• To remove the sealant or the gasket mate rial, refer to Replacing Engine Gaskets.
• Apply the pipe joint compound to a clean surface. Use a bead size or quantity as specified in the procedure. Run
the bead to the inside of any bolt holes. Do not allow the s ealer to enter any blind threaded holes as it may prevent
the bolt from clamping correctly or caus e component damage when the bolt is tightened.
• Apply a continuous bead of pipe joint compound to one seali ng surface. Sealing surfaces to be resealed must be
clean and dry.
• Tighten the bolts to the correct torque specification. Do not over-tighten.
Separating Parts
CAUTION
Many internal engine components will
develop specific wear patterns on their
friction surfaces. When disassembling the
engine, internal components must be
separated, marked and organised in a way to
ensure reinstallation in their original location
and position.
Separate, mark, or organise the following components:
• Piston and the piston pin.
• Piston to the specific cylinder bore.
• Piston rings to the specific piston.
• Connecting rod to the crankshaft journal.
• Connecting rod to the bearing cap.
• Crankshaft main and connecting rod bearings.
• Camshaft and rocker arms.
• Rocker arms and stationary hydraulic lash adjusters to cylinder head location.
• Valve to the valve guide.
• Valve spring and shim to the cylinder head location.
• Engine block main bearing cap location and direction.
• Oil pump drive and driven gears.
Tools and Equipment
Special tools are listed and illustrated throughout this Section with a complete listing at the end, refer to 7 Special Tools.
These tools (or their equivalents) are specially designed to quickly and safely accomplish the operations for which they
are intended. The use of these special tools will also minimise possible damage to engine components. Some precision
measuring tools are required for inspec tion of certain critical components. A commercially available torque wrench and
torque angle wrench, Tool No. EN-7115 are required for the correct tightening of various fasteners.
To correctly service the engine assembly, the following items should be readily available:
• Approved eye protection and safety gloves.
• A clean, well-lit, work area.
• A suitable parts cleaning tank.
• A compressed air supply.
• Trays or storage containers to keep parts and fasteners organised.
• An adequate set of hand tools.
• Approved engine repair stand.
• An approved engine lifting device that will adequatel y support the weight of the components.

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Page 2806 of 6020

ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–29
Page 6A1–29
Fasteners
Fasteners are central to the reliable operation of an engine.
Whenever any bolt or any other threaded component is
removed, allow

Engine Mechanical – V6 Page 6A1–29
Page 6A1–29
Fasteners
Fasteners are central to the reliable operation of an engine.
Whenever any bolt or any other threaded component is
removed, allow the engine to cool (inset A) before
attempting fastener removal.
Because of the greater the rmal expansion of aluminium,
bolt threads will change dimensi on to a greater extent when
hot with this material (inset B) when compared to cast iron.
If a bolt or other threaded com ponent is removed before the
engine is allowed to cool to at least 50 ° C, threads could be
pulled from the cylinder block or cylinder head.
Do not use impact tools to remove bolts during engine
disassembly. While this may be common practice with cast
iron engine components, use of thes e tools is more likely to
pull the aluminium threads in the cylinder block or head of
this engine.

Figure 6A1 – 19
Clamp Load
When torque is applied to a fa stener, the fastener stretches
and the joint compresses. The force developed in the
fastener due to its stretch is called tension (C), while the
force applied to the joint is called clamp load (B).
As shown, only a small portion of the applied torque (A) is
transferred to the clamp load (inset 1). Friction under the
bolt head (inset 3) and in the threads (inset 2) absorbs
much of the applied torque (A). Typically, only 10% (inset 1)
of the torque is available to develop stretch (or tension) in
the fastener and clamp load in the joint.
Therefore, a slight variation in friction in the thread or under
the bolt head, results in a wide variation in the clamp load
applied to the joint.

Figure 6A1 – 20
Torque Angle and Torque to Yield Fasteners
The torque angle method of applying torque to a fastener has been developed to overcome the effects of friction
variation in fastener applications.
The application of the torque angle method does not always mean the fastener has to be replaced after loosening. It is
only when the fastener has been angle tightened to the extent the yield point has been exceeded, that the fastener must
be replaced.
Examples are the main bearing caps that are angle tightened but the bolts can be re-used, whereas the M11 cylinder
head bolts that are torque to yield fasteners, must be replaced after loosening.

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ISUZU KB P190 2007

Page 2807 of 6020

ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–30
Page 6A1–30
2 Diagnosis
2.1 Engine Diagnosis
Begin engine mechanical system diagnosis by reviewing the disassembled views provided in 1.2 Engine Compon

Page 2808 of 6020

ISUZU KB P190 2007 Workshop Repair Manual Engine Mechanical – V6 Page 6A1–31
Page 6A1–31
2.2 Symptoms
Strategy Based Diagnosis
1 Review the system operations to familiarise yourself with the system functions, refer to 1 General I

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