Land Rover Defender 1999 2002my Workshop Supplement Body Repair 3rd Edition Rover Manual

							12ENGINE
6
DESCRIPTION AND OPERATION Cylinder head components 
						

							ENGINE
7
DESCRIPTION AND OPERATION 1.Camshaft carrier
2.Dowel - rocker shaft to camshaft carrier (1 off)
3.Cylinder head bolts (12 off)
4.Rocker shaft to camshaft carrier bolts (6 off)
5.Rocker shaft
6.Circlips (10 off)
7.EUI Rocker arms (5 off)
8.Camshaft carrier to cylinder head screws (13 off)
9.Finger follower (10 off)
10.Valve spring collets (20 off)
11.Lash adjuster (10 off)
12.Valve spring retainer (10 off)
13.Valve spring (10 off)
14.Valve stem seal (10 off)
15.Valve guide (10 off)
16.Valve seat insert (10 off)
17.Inlet valve (5 off)
18.Exhaust valve (5 off)
19.Camshaft
20.Camshaft bore seal (rear)
21.Coolant jacket core plug
22.Cylinder head block
23.Water jacket threaded plug
24.Engine lifting bracket (LH)
25.Engine lifting bracket bolts (2 off)
26.Coolant outlet elbow to cylinder head bolts (3 off)
27.Coolant outlet elbow
28.Coolant outlet elbow gasket
29.Cylinder head gasket
30.Non-return valve (not removable, integral in cylinder head)
31.Camshaft bore end cap (front)
32.End cap seal
33.Cylinder head to cam carrier dowel (2 off)
34.Engine lifting bracket (RH)
35.Engine lifting bracket bolts (2 off) 
						

							12ENGINE
8
DESCRIPTION AND OPERATION Camshaft cover and engine cover 
						

							ENGINE
9
DESCRIPTION AND OPERATION 1.Acoustic cover
2.Oil filler flap
3.Rear acoustic cover
4.Rear acoustic cover inserts (2 off)
5.Rear acoustic cover grommets (2 off)
6.Rear acoustic cover screws (2 off)
7.Acoustic cover grommets (3 off)
8.Acoustic cover bolts (3 off)
9.Camshaft cover isolators (13 off)
10.Camshaft cover flange screws (13 off)
11.Breather hose clip
12.Breather hose
13.Breather hose to breather valve clip
14.Breather valve
15.Camshaft cover gasket
16.Oil separator plate
17.Oil separator plate gasket
18.Camshaft cover
19.Acoustic cover to camshaft cover seal
20.Oil filler cap and seal 
						

							12ENGINE
10
DESCRIPTION AND OPERATION Camshaft timing chain components 
						

							ENGINE
11
DESCRIPTION AND OPERATION 1.Vacuum pump stub pipe
2.Cylinder head to timing chain cover bolt
3.Cylinder head to timing chain cover nut
4.Cylinder head to timing chain cover stud
5.Tensioner assembly pivot screw
6.Tensioner adjuster
7.Tensioner arm assembly
8.Duplex timing chain - crankshaft to camshaft sprocket
9.Camshaft sprocket bolts (3 off)
10.Camshaft sprocket
11.Fixed chain guide
12.Fixed guide pin
13.Fixed chain guide to cylinder block screws
14.Oil pump drive chain
15.Oil pump sprocket
16.Oil pump sprocket screw
17.Crankshaft sprockets
18.Bearing to viscous fan shaft
19.Viscous fan to cover bearing
20.Circlip
21.Hub - viscous fan to bearing flange
22.Timing chain cover
23.Timing chain cover to crankshaft seal
24.Timing chain to cylinder head screws (8 off) 
						

							12ENGINE
12
DESCRIPTION AND OPERATION GENERAL
The Td5 diesel engine is a 2.5 litre, 5 cylinder, in-line direct injection unit having 2 valves per cylinder, operated by
a single overhead camshaft. The engine emissions on pre EU3 models comply with ECD2 (European Commission
Directive) legislative requirements. EU3 models comply with ECD3 legislative requirements. Both units employ
electronic engine management control, positive crankcase ventilation and exhaust gas recirculation to limit the
emission of pollutants. The unit is water cooled and turbo-charged and is controlled by an electronic engine
management system.
The cylinder block is a monobloc cast iron construction with an aluminium stiffening plate fitted to the bottom of the
cylinder block to improve lower structure rigidity. The cylinder head and sump are cast aluminium. An acoustic
cover is fitted over the upper engine to reduce engine generated noise.
The engine utilises the following features:
Electronic Unit Injectors (EUI’s)controlled by an Engine Management System for precise fuel delivery under
all prevailing operating conditions.
Turbochargingwhich delivers compressed air to the combustion chambers via an intercooler for improved
power output.
Fuel Cooler
Oil Cooler
Centrifuge Oil Filter
Hydraulic Lash Adjusterswith independent finger followers 
						

							ENGINE
13
DESCRIPTION AND OPERATION CYLINDER BLOCK
The cylinders and crankcase are contained in a single cast iron construction. The cylinders are direct bored and
plateau honed with lubrication oil supplied via lubrication jets for piston and gudgeon pin lubrication and cooling. It
is not possible to rebore the cylinder block if the cylinders become worn or damaged. Three metal core plugs are
fitted to the three centre cylinders on the right hand side of the cylinder block.
Lubrication oil is distributed throughout the block via the main oil gallery to critical moving parts through channels
bored in the block which divert oil to the main and big-end bearings via oil holes machined into the crankshaft. Oil
is also supplied from the cylinder block main gallery to the five lubrication jets which cool and lubricate the piston
and gudgeon pins. Plugs are used to seal both ends of the main oil gallery at front and rear of the engine block.
An oil cooler is fitted to the LH side of the engine block; ports in the oil cooler assembly mate with ports in the
cylinder block to facilitate coolant flow. Oil is diverted through the oil cooler, centrifuge filter and full-flow filter
before supplying the main oil gallery. A tapping in the oil filter housing provides a lubrication source for the
turbocharger bearings and an oil pressure switch is included in a tapping in the oil cooler housing which
determines whether sufficient oil pressure is available to provide engine lubrication and cooling.
Cylinder cooling is achieved by water circulating through chambers in the engine block casting. A threaded coolant
jacket plug is located at the front RH side of the cylinder block.
Cast brackets are bolted to both sides of the engine block for mounting the engine to the chassis on the LH and
RH hydramount studs.
The gearbox bolts directly to the engine block; a gearbox shim plate is located between the adjoining faces of the
gearbox and the flywheel side of the engine block and is fixed to the rear of the engine block by two bolts. Two
hollow metal dowels locate the rear of the cylinder block to the shim plate. The gearbox casing provides the
mounting for the starter motor.
A port is included at the rear left hand side of the cylinder block which connects to the turbocharger oil drain pipe
to return lubrication oil to the sump. A plug sealing the lubrication cross-drilling gallery is located at the front right
hand side of the cylinder block and plugs for the main lubrication gallery are located at the front and rear of the
cylinder block. Two plastic dowels are used to locate the cylinder head to the cylinder block and must be replaced
every time the cylinder head is removed from the cylinder block. 
						

							12ENGINE
14
DESCRIPTION AND OPERATION Connecting rods
1.Small-end oil holes
2.Small-end bushing3.Connecting rod
4.Serrated fracture
The connecting rods are machined, H-section steel forgings which feature a fracture-split at the big-end between
the connecting rod and the bearing cap. The connecting rod features a serrated fracture across the big-end at
right angles to the length of the connecting rod, this forms a unique mating surface between the connecting rod
and the fractured end which is used as the big-end cap. The use of a fracture split in the big-end of the connecting
rod ensures a perfect match for assembly on the crankshaft bearing journals and provides the connecting rod with
strong resistance to lateral movement.
The end-cap fixing bolts are offset to ensure that the cap is fitted to the connecting rod in the correct orientation. If
the end-cap is fitted incorrectly and the end-cap bolts tightened, the connecting rod must be replaced, since the
matching serrations will have been damaged.
The big-end bearing shells are plain split halves without location tags. On EU2 vehicles the two halves of the
bearing shells are of different construction. The upper half bearing shell fitted to the connecting rod is treated
using the sputtering process to improve its resistance to wear. The connecting rod bearing shell can be identified
by having a slighter darker colouration than the big-end bearing cap shell, and the back face of the connecting rod
bearing shell has a shinier finish than the front face.
On EU3 vehicles both bearing shells are of the same construction as the connecting rod bearing shell.
The small-end of the connecting rod has a bushed solid eye which is free to move on the gudgeon pin, the
bushing is a hand push, interference fit. The steel bushing has two slots machined in its upper surface for
providing oil lubrication to the moving surface of the gudgeon pin. The oil slots must be correctly aligned to the oil
slots provided in the small end of the connecting rod. The small-end lubrication is supplied by squirt feed from the
piston lubrication jets. 
						

							ENGINE
15
DESCRIPTION AND OPERATION Pistons
1.Bowl in piston head
2.Piston ring grooves3.Graphite coated aluminium alloy skirt
4.Gudgeon 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 crowns also
provide clearance for the valve heads.
CAUTION: 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.