oil change LAND ROVER DISCOVERY 2002 Workshop Manual
[x] Cancel search | Manufacturer: LAND ROVER, Model Year: 2002, Model line: DISCOVERY, Model: LAND ROVER DISCOVERY 2002Pages: 1672, PDF Size: 46.1 MB
Page 14 of 1672
CONTENTS
CONTENTS 11
MANUAL GEARBOX - R380 .................................................................... 37-1
DESCRIPTION AND OPERATION
R380 gearbox ................................................................................................................................. 37-1
Gearbox casings, gear change and oil pump ................................................................................ 37-2
Selector shaft and forks, synchromesh assemblies and gear train ................................................ 37-4
R380 gearbox cross section ........................................................................................................... 37-6
Description ...................................................................................................................................... 37-7
Operation ........................................................................................................................................ 37-8
ADJUSTMENTS
Spring - gear lever bias .................................................................................................................. 37-9
REPAIRS
Housing - gear selector .................................................................................................................. 37-11
Gearbox - V8................................................................................................................................... 37-12
Gearbox - Diesel ............................................................................................................................. 37-16
Seal - gearbox mainshaft ............................................................................................................... 37-20
Seal - input shaft ............................................................................................................................ 37-21
Cooler - oil - gearbox - Diesel ......................................................................................................... 37-22
Cooler - oil - gearbox - V8 ............................................................................................................... 37-23
Switch - Reverse light ................................................................................................................... 37-24
OVERHAUL
Shaft - output ................................................................................................................................. 37-25
Synchroniser - gearbox - set ......................................................................................................... 37-29
Fork - set - selector shaft .............................................................................................................. 37-31
Shaft - gearbox - input .................................................................................................................. 37-32
Extension - gearbox rear ................................................................................................................ 37-35
Pump - gearbox oil ......................................................................................................................... 37-37
Filter - gearbox oil ......................................................................................................................... 37-38
Gear - 5th gear set ........................................................................................................................ 37-38
Synchronizer assembly - 5th/reverse ............................................................................................ 37-39
5th gear - layshaft ......................................................................................................................... 37-40
Bearing - layshaft rear support ...................................................................................................... 37-42
Bearing - output shaft rear support ............................................................................................... 37-43
Shaft - reverse idler ....................................................................................................................... 37-44
Housing - gear selector mechanism ............................................................................................. 37-46
Lever - gear change ...................................................................................................................... 37-47
Housing - clutch ............................................................................................................................ 37-48
Cover - front ................................................................................................................................... 37-49
TRANSFER BOX - LT230SE .................................................................... 41-1
DESCRIPTION AND OPERATION
LT230SE transfer box ..................................................................................................................... 41-1
Transfer box cross section .............................................................................................................. 41-2
Main casing components – Vehicles up to 03 model year .............................................................. 41-4
Main casing components – Vehicles from 03 model year ............................................................... 41-5
Differential components – Vehicles up to 03 model year ................................................................ 41-6
Differential components – Vehicles from 03 model year ................................................................. 41-7
Front output housing components – Vehicles up to 03 model year ................................................ 41-8
Front output housing components – Vehicles from 03 model year ................................................. 41-10
Rear output housing components ................................................................................................... 41-12
Description ...................................................................................................................................... 41-13
Page 41 of 1672
GENERAL INFORMATION
03-6
General Fitting Instructions
Component removal
Whenever possible, clean components and
surrounding area before removal.
lBlank off openings exposed by component
removal.
lImmediately seal fuel, oil or hydraulic lines when
apertures are exposed; use plastic caps or
plugs to prevent loss of fluid and ingress of dirt.
lClose the open ends of oilways exposed by
component removal with tapered hardwood
plugs or conspicuous plastic plugs.
lImmediately a component is removed, place it in
a suitable container; use a separate container
for each component and its associated parts.
lClean bench and provide marking materials,
labels and containers before dismantling a
component.
Dismantling
Observe scrupulous cleanliness when dismantling
components, particularly when brake, fuel or
hydraulic system parts are being worked on. A
particle of dirt or a cloth fragment could cause a
serious malfunction if trapped in these systems.
lBlow out all tapped holes, crevices, oilways and
fluid passages with an air line. Ensure that any
'O' rings used for sealing are correctly replaced
or renewed, if disturbed during the process.
lUse marking ink to identify mating parts and
ensure correct reassembly. Do not use a centre
punch or scriber to mark parts, they could
initiate cracks or distortion in marked
components.
lWire together mating parts where necessary to
prevent accidental interchange (e.g. roller
bearing components).
lWire labels on to all parts which are to be
renewed, and to parts requiring further
inspection before being passed for reassembly;
place these parts in separate containers from
those containing parts for rebuild.
lDo not discard a part due for renewal until after
comparing it with a new part, to ensure that its
correct replacement has been obtained.Cleaning components
Always use the recommended cleaning agent or
equivalent. Ensure that adequate ventilation is
provided when volatile degreasing agents are being
used. Do not use degreasing equipment for
components containing items which could be
damaged by the use of this process.
General inspection
All components should be inspected for wear or
damage before being reassembled.
lNever inspect a component for wear or
dimensional check unless it is absolutely clean;
a slight smear of grease can conceal an
incipient failure.
lWhen a component is to be checked
dimensionally against recommended values,
use the appropriate measuring equipment
(surface plates, micrometers, dial gauges etc.).
Ensure the measuring equipment is calibrated
and in good serviceable condition.
lReject a component if its dimensions are
outside the specified tolerances, or if it appears
to be damaged.
lA part may be refitted if its critical dimension is
exactly to its tolerance limit and it appears to be
in satisfactory condition. Use 'Plastigauge' 12
Type PG-1 for checking bearing surface
clearances.
Page 93 of 1672
TORQUE WRENCH SETTINGS
06-8
Manual gearbox - R380
Transfer box - LT230SE
Note: † New Patchlok nut must be fitted.
TORQUE DESCRIPTION METRIC IMPERIAL
Bias plate bolts25 Nm (18 lbf.ft)
Gearbox to engine bolts 45 Nm (33 lbf.ft)
Coolant pipe housing bolts 25 Nm (18 lbf.ft)
Breather pipe banjo bolt 15 Nm (11 lbf.ft)
Gear lever extension clamp bolt 25 Nm (18 lbf.ft)
Gearbox mounting bolts 85 Nm (63 lbf.ft)
Gearbox mounting nuts 48 Nm (37 lbf.ft)
Seal housing bolts 18 Nm (13 lbf.ft)
Bearing sleeve bolts 25 Nm (18 lbf.ft)
Fork bolt7 Nm (5.2 lbf.ft)
Reverse light switch 24 Nm (18 lbf.ft)
Extension housing bolts 25 Nm (18 lbf.ft)
Gear selector housing bolts 25 Nm (18 lbf.ft)
Oil pump to housing Torx screws 6 Nm (4.4 lbf.ft)
Gear change lever yoke Allen screw 25 Nm (18 lbf.ft)
5th gear stake nut 350 Nm (258 lbf.ft)
Spool retainer bolts 8 Nm (6 lbf.ft)
Centre plate detent spring and ball Torx screw 25 Nm (18 lbf.ft)
Selector lever to housing bolts 25 Nm (18 lbf.ft)
Clutch Bell housing bolts 73 Nm (54 lbf.ft)
TORQUE DESCRIPTION METRIC IMPERIAL
High/low selector cable 30 Nm (22 lbf.ft)
Bottom plate bolts 25 Nm (18 lbf.ft)
Transfer box to gearbox 45 Nm (33 lbf.ft)
Rear cover plate25 Nm (18 lbf.ft)
Differential lock warning lamp switch locknut - Up to 03 MY
11 Nm(8 lbf.ft)
Differential lock warning lamp switches - 03 MY onwards
25 Nm (18 lbf.ft)
Drive flange nut148 Nm (109 lbf.ft)
Output shaft housing 45 Nm (33 lbf.ft)
Oil temperature sensor 42 Nm (31 lbf.ft)
Inhibitor switch to transfer box 26 Nm (19 lbf.ft)
Intermediate shaft nut †88 Nm (65 lbf.ft)
Side cover bolts25 Nm (18 lbf.ft)
Bearing retaining nut 72 Nm (53 lbf.ft)
Output flange nut 162 Nm (119 lbf.ft)
Selector housing bolts 25 Nm (18 lbf.ft)
Bearing housing/cover bolts 25 Nm (18 lbf.ft)
Page 106 of 1672
CAPACITIES, FLUIDS AND LUBRICANTS
09-1
CAPACITIES, FLUIDS AND LUBRICANTS
Capacities
The following capacities are only an approximation of
the amount of fluid required to fill the respective
system.
Capacities - UK EURO ROW
Capacities - NAS
Component Metric Units
Fuel tank 95 litres
Engine - Td5:
Engine oil and filter change 7.2 litres
Fill from dry 8.2 litres
Engine - V8 with oil cooler:
Engine oil and filter change 6.27 litres
Engine oil refill from dry: 7 litres
Engine - V8 without oil cooler:
Engine oil and filter change 5.8 litres
Engine oil refill from dry 6.5 litres
Manual gearbox without oil cooler:
Refill 2.3 litres
Fill from dry 2.6 litres
Manual gearbox with oil cooler:
Refill 2.8 litres
Fill from dry 3.1 litres
Automatic gearbox fill from dry
9.7 litres
Transfer box:
Refill 2.0 litres
Fill from dry 2.3 litres
Front and rear axle:
Refill 1.6 litres
Fill from dry 1.7 litres
Cooling system - Td5 Engine:
Refill 8 litres
Fill from dry 13 litres
Cooling system - V8 Engine:
Refill 12 litres
Fill from dry 13 litres
Component US Units
Fuel tank25.5 gal
Engine - V8 with oil cooler:
Engine oil and filter change 6.6 qt
Engine oil refill from dry 7.4 qt
Engine - V8 without oil cooler:
Engine oil and filter change 6.1 qt
Engine oil refill from dry 6.9 qt
Automatic gearbox fill from dry
19.7 pt
Transfer box:
Refill4.1 pt
Fill from dry 4.8 pt
Front and rear axle:
Page 153 of 1672
ENGINE - TD5
12-1-14 DESCRIPTION AND OPERATION
Pistons
1Bowl in piston head
2Piston ring grooves
3Graphite coated aluminium alloy skirt
4Gudgeon pin bore
The five pistons have graphite-compound coated aluminium alloy skirts which are gravity die cast and machined.
Each of the pistons has phosphated, shaped gudgeon pin bores and a swirl chamber (bowl-in-piston) machined in the
head which partly contains the inlet air that is compressed during the combustion process and helps provide
turbulence for efficient air/fuel mixture to promote complete combustion. The recesses in the piston's crown also
provide clearance for the valve heads.
Pre EU3 and EU3 pistons are not interchangeable due to the EU3 piston combustion bowl being offset.
The pistons are attached to the small-end of the connecting rods by fully floating gudgeon pins which are retained in
the piston gudgeon pin bushings by circlips.
The pistons and gudgeon pins are gallery cooled, oil being supplied under pressure from the piston lubrication jets
when the pistons are close to bottom dead centre.
Piston rings
Each piston is fitted with two compression rings and an oil control ring. The top compression ring is located in a steel
insert ring carrier which helps to provide a minimal reaction to compression forces.
The top ring is barrel-edged and chrome-plated, the 2nd compression ring is taper-faced and the oil control ring is
chrome-plated and features a bevelled ring with spring.
Page 154 of 1672
ENGINE - TD5
DESCRIPTION AND OPERATION 12-1-15
Oil cooler
1Front oil gallery – full-flow filter to oil cooler
matrix
2Full-flow filter adaptor outlet port to oil cooler
(open at >74
° C)
3Full-flow filter inlet port
4Oil cooler housing
5Full-flow filter outlet port to cylinder block
6Coolant inlet port
7Oil cooler banjo bolt seals (2 off)
8Banjo bolts (2 off)
9Banjo bolt oil holes – to oil cooler matrix
10Rear oil gallery – full-flow filter/oil cooler outlet
to cylinder block11Centre oil gallery – from pump to full-flow filter
12Inlet port to centrifuge filter
13Sealing ring – centrifuge filter housing to oil
cooler housing
14Port – oil cooler matrix
15Oil cooler matrix
16Inlet port from pump via cylinder block to oil
cooler housing
17Outlet port from oil cooler housing to cylinder
block
18Rear view of oil cooler housing
The engine oil cooler assembly is located on the left hand side of the engine block behind the oil centrifuge and oil
filter. The housing is bolted to the engine block by seven bolts. A matrix is included in the oil cooler housing which
acts as a heat exchanger. Coolant flow circulates through the oil cooler housing under pressure from the coolant pump
and distributes the flow evenly around the matrix fins and then along the block into three core holes for cylinder
cooling. Coolant enters the oil cooler through a pipe with a rubber hose extension at the rear side of the engine. The
coolant hose is attached to the stub pipe of the oil cooler by a spring clip.
Oil drawn from the sump by the oil pump passes through the oil cooler via the cylinder block. The flow of coolant
around the exterior surface of the oil cooler matrix cools a proportion of the engine oil flow as it passes through the
oil cooler matrix.
The oil cooler is sealed to the cylinder block by a gasket which must be replaced every time the oil cooler housing is
removed.
Page 160 of 1672
ENGINE - TD5
DESCRIPTION AND OPERATION 12-1-21
Crankshaft
1Front end to crankshaft sprocket
2Oil supply cross-drillings
3Main journals
4Big-end journals
5Rear end to flywheel
The crankshaft is constructed from cast iron and is surface-hardened. The areas between the crankshaft journals and
the adjoining webs and balance weights are compressed using the cold roll process to form journal fillets.
Cross-drillings in the crankshaft between adjoining main and big-end bearings are used to divert lubrication oil to the
big-end bearings.
A torsional vibration damper is attached to the crankshaft pulley by three bolts.
The crankshaft is carried in six main bearings, with end-float being controlled by thrust washers positioned on both
sides of No. 3 main bearing.
Main bearings
There are six main bearings used to carry the crankshaft. Each of the bearing caps are of cast iron construction and
are attached to the cylinder block by two bolts.
The bearing shells are of the split cylindrical type. The upper half bearing shells are grooved to facilitate the supply of
lubrication oil to the bearings and fit into a recess in the underside of the cylinder block. The lower half bearing shells
are smooth and fit into the bearing caps.
Steel-backed thrust washers are included at each side of No. 3 main bearing to control crankshaft end-float. One side
of each of the thrust washers is grooved, the grooved side of each of the thrust washers is fitted facing outward from
No. 3 main bearing.
Cylinder head components
The cylinder head components are described below:
Cylinder head
The cylinder head is of aluminium construction. It is not possible to reface the cylinder head if it becomes worn or
damaged. An alloy camshaft carrier is bolted directly to the upper surface of the cylinder head. Two dowels are
included in the cylinder head upper face for correct location of the camshaft carrier.
The EU3 cylinder head has a single internal fuel rail for delivering fuel to the injectors and an external fuel pipe for
returning spill fuel back to the fuel connector block. Therefore, pre EU3 and EU3 model cylinder heads are not
interchangeable.
CAUTION: The cylinder head incorporates drillings for the fuel injection system, any contamination which
enters these drillings could cause engine running problems or injector failure. It is therefore, essential that
absolute cleanliness is maintained when carrying out work on the cylinder head.
Page 165 of 1672
ENGINE - TD5
12-1-26 DESCRIPTION AND OPERATION
Camshaft cover and engine cover components
The camshaft cover and engine cover components are described below:
Camshaft cover
The camshaft cover is cast from aluminium alloy and is fixed to the camshaft carrier/cylinder head assembly by 13
bolts. The cover has spacers and sealing washers inserted into each of the thirteen bolt holes.
A breather hose is connected to a port at the top of the camshaft cover by means of a hose clip which vents crankcase
gases back to the air intake via a breather valve in the air intake tract, located forward of the turbocharger in the
flexible air intake duct.
A rubber seal is fitted between the camshaft cover.
An oil filler aperture is included in the top of the camshaft cover, which is sealed with a plastic cap with integral rubber
seal.
Camshaft timing chain components
The timing chain cover and timing chain components are described below:
Timing chain cover
The timing chain cover is cast and machined aluminium alloy and is attached to the cylinder head by a bolt at the RH
top of the cover and by a stud and nut at the LH top of the cover. Eight screws are used to attach the timing chain
cover to the front of the engine block. The timing cover is located to the cylinder block front face by two dowels.
A viscous fan is attached to an idler pulley at the front of the engine block. The fan bearing is located on a shaft and
held in place by a circlip and a bearing flange, the inner race of the fan bearing is an interference fit on the shaft. The
fan idler pulley is attached to the bearing hub by three bolts, and the fan itself is secured to the pulley and bearing
shaft by a left hand threaded nut.
+ COOLING SYSTEM - Td5, DESCRIPTION AND OPERATION, Description.
The front of the crankshaft passes through a hole in the lower part of the timing cover. An oil seal is pressed into a
recess in the front of the timing cover to seal the interface between the front of the crankshaft and the timing cover.
A stub pipe is fitted to the front RH side of the timing cover which is used to attach the oil drain pipe from the vacuum
pump by means of a hose and spring clip.
Timing chains
The timing chain between the camshaft and crankshaft sprockets is a duplex type, each chain having 56 links. The
timing chain is contained between a fixed plastic guide and an hydraulically adjustable plastic tensioner arm which
are attached to the front of the engine block.
To cope with higher injection loads of the EU3 engine, the timing drive between the camshaft and crankshaft has been
upgraded. This requires thicker chain links to be used, therefore, the individual pre EU3 and EU3 components are not
interchangeable.
To distinguish between the two timing chains the links are different colours. A pre EU3 chain has blue links and a EU3
chain has bronze links.
The oil pump timing chain is a single type and traverses the oil pump sprocket and the rear crankshaft sprocket.
The timing chains are oil lubricated, with oil being provided by a chain lubrication jet and from oil flow returning back
to the sump from the cylinder head. An oil hole is included at the front left hand side of the cylinder head which supplies
oil from the cylinder head oil galleries.
Page 167 of 1672
ENGINE - TD5
12-1-28 DESCRIPTION AND OPERATION
Tensioner adjuster
1Oil supply hole
2Tensioner adjuster body
3Tensioner adjuster plunger
4Sealing ring
The tensioner adjuster is hydraulically operated, oil enters the adjuster from the pressurised oil supply flowing through
the cylinder head to operate a plunger which pushes against a pivoting plastic tensioner arm. The lateral movement
in the tensioner arm causes the timing chain to tension and consequently compensation for chain flutter and timing
chain wear is automatically controlled. The adjuster is located at the front right hand side of the cylinder head, just
above the timing chain cover and below the vacuum pump oil feed port. The adjuster body is threaded and screws
into a tapping in the cylinder head. Holes are contained in the adjuster body to receive oil from the cylinder head
galleries, the oil pressure is used to force the plunger out of the adjuster body to press the tensioner arm against the
timing chain and so using the oil trapped in the adjuster body to perform as a damper.
The internal damping of the hydraulic tensioner is tuned for each application. This means that pre EU3 and EU3
components are not interchangeable.
Drive train sprockets
The camshaft sprocket has a double row of teeth which locate with the duplex timing chain. The sprocket is fitted to
the camshaft by three bolts.
The oil pump sprocket is located on the front of the oil pump housing by a single retaining bolt. The sprocket has a
single row of teeth which locates on the oil pump chain.
The crankshaft sprocket contains three rows of teeth, the rear row locates on the single oil pump chain and the front
two rows locate with the duplex timing chain. The crankshaft sprocket has a slot in its internal diameter which locates
with the Woodruff key on the crankshaft. The front of the crankshaft sprocket has a timing mark.
As a consequence of thicker chain links being used on EU3 models, the thickness of the camshaft and crankshaft
sprocket teeth has been reduced. Individual pre EU3 and EU3 components are therefore not interchangeable.
Page 220 of 1672
ENGINE - TD5
OVERHAUL 12-1-81
54.Remove and discard spring ring retaining
rocker arm on shaft.
55.Remove rocker arm. Remove and discard 2nd
spring ring.
56.Repeat above procedures for remaining rocker
arms keeping them in their fitted order.
57.Clean rocker arms and shaft, ensure oilways
are clear.
CAUTION: Identify type of rocker shaft
fitted. Engine Serial No. Prefixes 10P to 14P
– Type A rocker shaft; Engine Serial No.
Prefixes 15P to 19P – Type B rocker shaft.
Type B rocker shafts and arms may be fitted
to Engine Serial No. Prefixes 10P to 14P as
an assembly.58.Check diameter of each rocker arm journal on
shaft, take 2 measurements at 180°:
lJournal diameter = 26.971 to 26.998 mm
(1.061 to 1.063 in)
59.Using a vernier, check internal diameter of
each rocker arm, take 2 measurements at
180
°:
l Rocker arm internal diameter = 27.0 to
27.013 mm (1.062 to 1.064 in)
60.Fit new spring ring to groove in rocker shaft.
61.Lubricate rocker shaft journals and rocker arms
with engine oil.
62.Fit rocker arm to shaft ensuring it is in its
original fitted order.
63.Fit new spring ring to retain rocker arm.
64.Repeat above procedures for remaining rocker
arms ensuring they are in their original fitted
order.
65.Fit new rocker adjusting screws and locknuts to
rocker arms; do not tighten screws fully into
arms at this stage.
CAUTION: Ensure screws are correct for
type of rocker arms fitted. Replacement
screws for Engine Serial No. Prefixes 15P to
19P have a centre punch mark adjacent to
the adjusting slot. These screws are not
interchangeable with those fitted to Engine
Serial No. Prefixes 10P to 14P.