ad blue LAND ROVER DEFENDER 1999 Workshop Manual
[x] Cancel search | Manufacturer: LAND ROVER, Model Year: 1999, Model line: DEFENDER, Model: LAND ROVER DEFENDER 1999Pages: 667, PDF Size: 8.76 MB
Page 29 of 667
04GENERAL SPECIFICATION DATA
6
INFORMATION SUSPENSION
Type Coil springs controlled by telescopic dampers front.................................................................................
and rear.
Front Transverse location of axle by Panhard rod, and fore.................................................................................
and aft location by two radius arms. Anti-roll bar fitted
as standard on 90 models with 265/75 tyres and 130
models.
Rear Fore and aft movement inhibited by two tubular trailing.................................................................................
links. Lateral location of axle by a centrally positioned
’A’frame, upperlink assembly, bolted at the apex to a
ball joint mounting. Anti-roll bar fitted as standard on
90 models with 265/75 tyres, 110 models with self
levelling unit, and 130 models.
ROAD SPRING DATA
90 (2400 Kg) Part No. Colour Code
Front - Driver’s side NRC 9446 Blue/green
Front - Passenger side NRC 9447 Blue/yellow
Rear - Driver’s side NRC 9448 Blue/red
Rear - Passenger side NRC 9449 Yellow/white
90 (2550 Kg)
Front - Driver’s side NRC 9446 Blue/green
Front - passenger side NRC 9447 Blue/yellow
Rear - Driver’s side NRC 9462 Green/yellow/red
Rear - Passenger side NRC 9463 Green/yellow/white
110 (3050 Kg)
Front - both sides NRC 8045 Yellow/yellow
Rear - both sides NRC 6904 Red/green
110 Levelled (2950 Kg)
Front - both sides NRC 8045 Yellow/yellow
Rear - both sides NRC 7000 Green/white
110 (3400 Kg)
Front - both sides NRC 8045 Yellow/yellow
Rear - both sides NRC 6904 Red/green
Rear helper springs - both sides RRC 3266 No colour code
110 (3600 Kg)
Front - Driver’s side NRC 9448 Blue/red
Front - passenger side NRC 9449 Yellow/white
Rear - both sides NRC 6904 Red/green
Rear helper springs - both sides RRC 3226 No colour code
130 (3500 Kg)
Front - driver’s side NRC 9448 Blue/red
Front - passenger side NRC 9449 Yellow/white
Rear - driver’s side NRC 6389 Red/red
Rear - passenger side NRC 6904 Red/green
Front/rear helper springs - both sides RRC 3266 No colour code
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Page 115 of 667
12ENGINE
30
DESCRIPTION AND OPERATION CAMSHAFT COVER COMPONENTS
The camshaft cover 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
thirteen 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 and camshaft carrier.
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.
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 the 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. An
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.
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12ENGINE
34
REPAIR
23.Fit camshaft sprocket to timing chain with timing
mark between the 2 bluelinks.
24.Fit timing chain to crankshaft sprocket aligning
blue link to timing mark.
25.Clean timing cover and mating face.
26.Apply an even film of sealant, Part No. STC
4600 to timing cover and spread to an even film
using a roller.
CAUTION: Assembly and bolt tightening
must be completed within 20 minutes of
applying sealant.
27.With assistance, fit timing cover, connect
vacuum pump drain hose and working
progressively, tighten bolts to27 Nm (20 lbf.ft).
28.Secure vacuum hose clip.
29.Fit cylinder head gasket.See this Section.
30.Fit sump gasket.See this Section.
31.Fit crankshaft front oil seal.See this Section.
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Page 174 of 667
ENGINE
15
OVERHAUL Valves - Lapping-in
1.Lap each valve to its seat using grinding paste.
2.Apply Prussian Blue to valve seat, insert valve
into guide and press it firmly, without rotating on
to seat.
3.Remove valve and check that a continuous,
even line of Prussian Blue has been transferred
on to valve face.
NOTE: Line does not have to be across
whole width of valve face.
4.Remove all traces of grinding paste on
completion.
5.Check valve head stand-down.See this
Section.
Valve head stand down
1.Insert each valve into its respective guide.
2.Using a straight edge and feeler gauges, check
and record stand down of each valve head.
3.Compare figures obtained with figures given
below.
Valve head stand down:
Inlet valveA= 0.555 to 0.825 mm (0.022 to
0.032 in)
Exhaust valveB= 0.545 to 1.35 mm (0.021 to
0.053 in)
CAUTION: If any valve has a stand down
greater than specified, repeat check using
a new valve. If, after checking with a new
valve, stand down is still excessive, cylinder head
assembly must be replaced. It is not possible to
replace valve seat inserts.Rocker shaft - Dismantling
1.Suitably identify each rocker arm to its fitted
position.
CAUTION: Identify type of rocker arm
fitted. Engine Serial No. Prefixes 10P to
14P - Type A rocker arms. Engine Serial
No. Prefixes 15P to 19P - Type B rocker arms.
Type B rocker arms and type B rocker shaft may
be fitted to Engine Serial No. Prefixes 10P to 14P
as an assembly.
2.Remove and discard spring ring retaining rocker
arm on shaft.
3.Remove rocker arm.
4.Remove and discard 2nd spring ring.
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Page 177 of 667
12ENGINE
18
OVERHAUL
4.Assemble valves, springs and valve spring caps
ensuring that they are in their original fitted
order.
5.Compress valve springs using toolLRT-12-034,
fit collets.
6.Using a wooden dowel and mallet, tap each
spring cap lightly to seat collets.
7.Lubricate new injector’O’rings with engine oil.
8.Using toolLRT-12-154/2, fit’O’ring to each
injector.
9.Using toolLRT-12-154/3, fit new sealing washer
to each injector.
10.Support each end of cylinder head on blocks of
wood.
CAUTION: Ensure blocks are clear of
valves.
11.Position reaction posts in their original fitted
order.
12.Carefully fit EUI’s, ensuring they are in their
original fitted order and that each retainer is
located on its dowel.
CAUTION: If new EUI’s are fitted, ensure
replacements are correct. Engine Serial
No. Prefixes 10P to 14 - Push rod bushes
are coloured BLACK or BLUE. Engine Serial No.
Prefixes 15P to 19P - Push rod bushes are
coloured GREEN.
13.Fit new retainer bolts and tighten to32 Nm (24
lbf.ft).
CAUTION: If new injectors are fitted they
must be programmed for use with the ECM
using Testbook.
14.Lubricate lash adjusters and bores with engine
oil.
15.Fit lash adjusters ensuring they are in their
original fitted order.
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Page 181 of 667
12ENGINE
22
OVERHAUL Refit
1.Clean crankshaft rear oil seal housing mating
face on cylinder block, ensure bolt and dowel
holes are clean and dry. Remove all traces of oil
from oil seal running surface on crankshaft.
2.Position seal protectorLRT-12-061over
crankshaft boss. Fit new seal and housing,
removeLRT-12-061.
CAUTION: Oil seal must be fitted dry.
3.Fit oil seal housing bolts and using sequence
shown, tighten to9 Nm (7 lbf.ft).
4.Fit sump gasket.See this Section.
5.Fit flywheel.See Repair.STARTER RING GEAR
Service repair no - 12.53.19
Remove.
1.Remove flywheel.See Repair.
2.Drill a 3 mm (0.12 in) diameter hole at root of 2
teeth.
3.Apply a cold chisel to root of teeth, break ring
gear and remove from flywheel.
WARNING: SUITABLE EYE PROTECTION
MUST BE WORN.
Refit
1.Heat ring gear evenly to 350°C, indicated by
light blue colour.
2.Locate ring gear on flywheel and press on to
flange.
WARNING: Handle hot ring gear with care.
3.Allow ring gear to air cool.
4.Fit flywheel.See Repair.
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Page 204 of 667
EMISSION CONTROL
3
DESCRIPTION AND OPERATION 1.EGR Solenoid
2.Vacuum hose (light brown)
3.T-piece
4.Vacuum hose to brake servo
5.Non-return valve
6.Brake servo
7.Inlet manifold
8.Exhaust manifold
9.EGR pipe
10.Vacuum pump/alternator assembly
11.Air intake hose from intercooler
12.EGR valve assembly
13.Vacuum hose to vacuum pump
14.Vacuum hose to EGR valve suction port (blue)
15.To atmosphere
16.In-line filter
17.Vent hose - EGR solenoid to in-line filter (green)
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Page 206 of 667
EMISSION CONTROL
5
DESCRIPTION AND OPERATION
CAUTION: Inset A shows the Pre-EU3 condition for the EGR pipe. Inset B shows the Pre-EU3
condition filter and venting.
1.ILT valve modulator
2.ILT modulator vacuum hose (brown)
3.EGR valve modulator
4.EGR modulator vacuum hose (brown)
5.Vent hose - EGR modulator to in-line filter (green)
6.Vacuum hose to ILT valve suction port (blue)
7.Vacuum hose to EGR valve suction port (blue)
8.’T’-piece (4-way)
9.Vacuum hose to brake servo
10.Non-return valve
11.Brake servo
12.Inlet manifold
13.Exhaust manifold
14.ILT valve
15.EGR cooler - EU-3 models
16.Vacuum pump/alternator assembly
17.Air intake hose from intercooler
18.EGR valve (incorporating ILT valve) assembly
19.Vacuum hose to vacuum pump
20.Vent hose - ILT valve modulator to in-line filter (green)
21.3-way connector
22.Vent hose to air cleaner
23.ILT modulator harness connector (green)
24.EGR modulator harness connector (black)
25.To atmosphere - Pre-EU3 models
26.In-line filter - Pre-EU3 models
27.EGR pipe - Pre-EU3 models
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Page 210 of 667
EMISSION CONTROL
9
DESCRIPTION AND OPERATION EGR MODULATOR
1.Port to vacuum source (white band)
2.Port to EGR valve (blue band)3.Port to atmosphere via in-line filter (green band)
4.Harness connector
The EGR modulator is located on a plate fixed to the inner RH front wing. The modulator is attached to the plate
by two studs, each with two nuts which secure the assembly to a rubber mounting, which helps reduce noise. The
modulator must be mounted vertically with the two vacuum ports uppermost.
Modulator operation is controlled by a signal from the ECM which determines the required amount of EGR needed
in response to inputs relating to air flow, engine operation, and ambient conditions. The modulator has a two pin
connector at its base to connect it to the ECM via the engine harness.
The modulator features three ports:
The top port is identified by a white band and connects to a T-piece in the vacuum line via a small bore light
brown plastic hose. The two other ports on the T-piece connect to the vacuum line hoses of black vinyl tubing
between the vacuum pump and the brake servo assembly attached to the bulkhead. The vacuum pump end of
the tubing terminates in a rubber elbow, which gives a vacuum tight seal on the suction port of the vacuum
pump. The brake servo end of the tubing terminates with a non-return valve in a plastic housing which plugs
into the front face of the brake servo housing.
The middle port is identified by a blue band, and connects to the suction port on the EGR valve through a small
bore blue plastic hose.
The lower port is identified by a green band and connects to atmosphere through an in-line filter via a small
bore green plastic hose.
The blue and brown vacuum hoses are protected by corrugated plastic sheaths. The ends of the hoses are fitted
with rubber boots to ensure vacuum tight seals at the component ports.
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Page 211 of 667
17EMISSION CONTROL
10
DESCRIPTION AND OPERATION INLET THROTTLE (ILT) MODULATOR
1.Port to vacuum source (white band)
2.Port to ILT valve (blue band)
3.Port to atmosphere via in-line filter (green band)
4.Harness connector (green)
The ILT modulator is located on a plate fixed to the inner wing on the RH side of the engine below the EGR
modulator. The modulator is attached to the plate by two through-studs, each with two nuts which secure the
modulator assembly to a rubber mounting which helps to reduce noise. The modulator must be mounted in the
vertical orientation with the two vacuum ports uppermost.
The modulator operation is controlled by a signal from the ECM which determines the required ratio of exhaust
gas to fresh inlet air needed in response to inputs relating to air flow and engine operating and ambient conditions.
The modulator has a green two-pin connector at its base to connect it to the ECM through the engine harness.
The ILT valve modulator features three ports:
The top port is identified by a white band and connects to a’T’-piece in the vacuum line via a small-bore brown
plastic hose where it is connected in parallel with the vacuum source line to the EGR valve modulator. The two
other ports on the’T’-piece connect vacuum line hoses of black vinyl tubing between the vacuum pump
attached to the alternator and the brake-servo assembly attached to the bulkhead.
The middle port is identified by a blue band and connects to the suction port on the ILT valve through a
small-bore blue plastic hose.
The lower port is identified by a green band and connects to atmosphere through an in-line filter via a green
plastic hose and a three-way connector positioned in-line between the modulators and the filter. The ILT
modulator hose is connected opposite to the two parallel ports at the three-way connector which connect the
vent lines to the EGR valve modulator and the in-line filter. The other port of the in-line filter vents directly to
atmosphere.
The blue and brown vacuum hoses are protected by corrugated plastic sheaths. The ends of the hoses are fitted
with rubber boots to ensure vacuum tight seals at the component ports.
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