Defender 90 110 Workshop Manual 2
Defender 90 110 Workshop Manual 2
Defender 90 110 Workshop Manual 2
CONTENTS
Page
12
2
12
121
- Overhaul
94
12
1191
FUELSYSTEM-Petrol
- Overhaul mechanical fuel lift pump - Petrol & Diesel
- Overhaul electrical fuel lift pump
- Overhaul four cylinder engine carburetter - Tuneand adjust four cylinder engine carburetter - Overhaul V engine carburetter - Zenith $ -Tune and adjust V8 engine carburetters -Zenith - Overhaul V8 engine carburetter -S.U. - Tuneand adjust V8 engine carburetter -S.U. -Fault tracing V8 engine carburetters -Twin tank and in-tank fuel pump installation
1 2 3 6 7 12 15 20 24 25
1191
- Engine protection
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1 1 3 3 4
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INTRODUCTION
This Workshop Manual covers the Land Rover Ninety and One Ten range of vehicles. It i s primarily designed to assist skilled technicians in the efficient repair and maintenance of Land Rover vehicles. Using the appropriate service tools and carrying out the procedures as detailed will enable the operations to be completed within the time stated in the Repair Operation Times. The Manual has been produced in separate books; this allows the information to be distributed throughout the specialist areas of the modern service facility.
A table of contents in Book 1 lists the major components and systems together with the section and book numbers. The cover of each book details the sections contained within that book.
The title page of each book carries the part numbers required to order replacement books, binders or complete Service Manuals. This can be done through t h e normal channels.
REFERENCES
1
References to the left- or right-hand side in the manual are made when viewing the vehicle from the rear. With the engine and gearbox assembly removed, the water pump end of the engine is referred to as the front. To reduce repetition, operations covered in this manual do not includc refcrence to testing the vehicle after repair. It is essential that work is inspected and tested after completion and if necessary a road test of the vehicle is carried out particularly where safety related items are concerned.
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DIMENSIONS
The dimensions quoted are to design cngineering specification. Alternative unit equivalents, shown in brackets following the dimensions, have been converted from the original specification. During the period of running-in from new, certain adjustments may vary from thc specification figurcs given in this Manual. Thcsc adjustments will be re-set by the Distributor or Dealer at the After Sales Service, and thereafter should be maintained at the figures specified in the Manual.
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POISONOUS SUBSTANCES
Many liquids and other substances used in motor vchicles are poisonous and should under no circumstances be consumed and should as far as possible be kept away from open wounds. These substances among others include antifreeze, brake fluid, fuel, windscreen washer additives, iubricants and various adhesives.
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GENERAL
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PetroVgasoline vapour is highly flammable and in confined spaces is also very explosive and toxic. When petrol/gasoline evaporates it produces 150 times its own volume in vapour, which when diluted with air becomes a readily ignitable mixture. The vapour is heavier than air and will always fall to the lowest level. It can readily be distributed throughout a workshop by air current, consequently, even a small spillage of petrol/gasoline is potentially very dangerous. Always have a fire extinguisher containing FOAM CO? GAS, or POWDER close at hand when handling or draining fuel, or when dismantling fucl systems and in areas where fuel containers arc stored. Always disconnect the vehicle battery BEFORE carrying out dismantling or draining work on a fuel system. Whenever petrol/gasoline is being handled, drained or stored, or when fuel systems are being dismantled all forms of ignition must be extinguished or removed, any head-lamps used must be flameproof and kept clear of spillage. N O ONE SHOULD B E PERMITTED TO REPAIR COMPONENTS ASSOCIATED WITH PETROL/ GASOLINE WITHOUT FIRST HAVING H A D SPECIALIST TRAINING.
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Draining or extracting petrol/gasoline from vehicle fuel tank must bc carried out in a well ventilated area. The receptacle used to contain the petroUgasoline must be more than adequate for the full amount of Fuel to be extracted or drained. The receptacle should be clearly marked with its contents, and placcd in a safe storagc area which meets the requirements of local authority regulations. WHEN PETROL/GASOLINE HAS BEEN EXTRACTED O R DRAINED FROM A FUEL TANK THE PRECAUTIONS GOVERNING NAKED LIGHTS AND JGNITION SOURCES SHOULD BE MAJNIAINED.
SPECIFICATION
Purchasers are advised that the specification details set out in this Manual apply to a range of vehicles and not to any one. For the specification of a particular vehicle, purchasers should consult their Distributor or Dealer. The Manufacturers reserve the right to vary their specifications with or without notice, and at such times and in such manner as they think fit. Major as well as minor changes may be involved in accordance with the Manufacturers policy of constant product improvement. Whilst every effort is made to ensure the accuracy of the particulars contained in this Manual, neither the Manufacturer nor the Distributor or Dealer, by whom this Manual is supplied, shall i n any circumstanccs be held liable fer ; ~ j :inaccuracy the consequences ihe,-pof,
COPYRIGHT
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All rights reserved. No part of this publication may be produced, stored in a retrieval system or transmitted in any form, electronic, mechanical, photocopying, recording or other means without prior written permission of Land Rover Limited, Service Department, Solihull, England. ...
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All orders and enquiries from the United Kingdom should be sent direct to V. L. Churchill. Overseas orders should be placed with the local V. L. Churchill distributor, where one exists. Countries where there is no distributor may order direct from V. L . 4NF. Churchill Limited, PO Box 3 Daventry, Northants, England "11
The tools recommended in this Workshop Manual are listed in a multi-language, illustrated catalogue obtainable from Messers. V. L. Churchill at the above address under publication number 2217/2/84 or from Land Rover Ltd., under part number LSM0052TC from the following address, Land Rover Publication Service, P.O. Box 534, Erdington, Birmingham B24 OQS.
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DISMANTLE ANDOVERHAUL
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Special tools:Chain wheel extractor - RO 507231 Tappet guide remover - RO 530101A *Camshaft bearing remover -274388 * 99 adaptor -531760 * 99 guide plug -274394 * 9 reamer -274389 Cork-seal guide -270304 Seal guide - rear main bearing - 18G 1344 Seal replacer - rear main oil seal - 18G 134 - 11 Diesel engine timing gauge -R0605863 Diesel engine timing gauge -MS67B Clutch centralising tool -R0605022 * Whilst these tools are now not obtainable, their use is described for workshops that have them available.
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9. Remove the alternator and drive belt. 10. Remove the fan and pulley. 11. Remove the seven -bolts- and remove the water
pump. 12. Drain the sump and remove the dipstick. 13. Remove the starter motor. 14. Restrain the flywheel, remove the crankshaft pulley nut and withdraw the pulley. (Bolt on later engines). 15. Evenly slacken and remove t h e clutch retaining bolts and withdraw the clutch assembly and centre plate. 16 Remove the two bolts and remove the oil filter assembly complete from the cylinder block. Remove the bowl retaining bolt, drain the oil and discard the element. 17 Remove the cylinder head.
Remove the engine from the vehicle. Clean the exterior and in the interests of safety and efficient working, secure the engine to a recognised engine stand. REMOVE ANCILLARY EQUIPMENT Before commencing, make a careful note of the position of brackets, clips, harnesses, pipes, hoses, filters and other miscellaneous items to facilitate reassembly . Petrol engine
1. Disconnect the spark plug leads, release the distributor clamp bolt and withdraw the distributor complete. Remove the adaptor plate held by three bolts. 2. Remove the inlet and exhaust manifolds complete with carburetter. Removal of the heat shicld will facilitate this operation.
Diesel engine
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3. Release the fuel pipes from the injectors. 4. Rcmove the nuts securing the injector pump and withdraw the pump and the short drive shaft. 5 . Remove the induction and exhaust manifolds. 6 . Remove the six bolts and withdraw the oil filter tube (carly engincs only). At the same time remove the two joint washers and the baffle plate with the timing pointer attached. DO NOT disturb the two bolts retaining the timing pointer. Later engines have a single plate with timing pointer. 7. Remove the vacuum pump.
1121
3. Bend back the lock washer and release the nut securing the strainer to the oil pump body and remove the strainer and sealing ring. 4. Removc four bolts and washers and lift off the oil pump cover and lift out the driven and idler gears. (a) driven gear (b) idler gear 5 . Remove the oil pressure relief valve plug and sealing washer. Withdraw the relief valve spring, plunger and ball.
10. Gears must be renewed in pairs. A worn, but serviceable gear, must not be matched with a new one. 11. If necessary renew idler gear spindle by drilling-out the peened over end of the spindle so that the spindle can be withdrawn from the pump body. TO ensure squareness when fitting the new spindle, asscmble it into the pump body with the two gears. Fit the cover and secure with the four bolts. Support the pump body and peen over the end of the new spindle. Remove the cover and gears and check security of the spindle. 12. If worn, remove the idler gear bush and press in a replacement. Drill the lubrication hole 3,17 mm (0.125 in) and ream the bush to i2,7 mm (0.500 in) diameter.
continued
ST591 M
6. Examine the gears for wear, scores and pits. If the gears appear serviceable check for end-float as follows: 2
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ST911M
13. A scored ball valve seat can be restored by using a locally made lapping tool by silver soldering a new ball (part number 3748) onto a length of suitable tube. 14. Install the tube in a drill and lap-in using coarse grinding paste. Finally hand-lap the seat with fine paste using the same diabalo method as for lapping valves. 15. Thorougly wash the pump body to remove all traces of grinding paste.
REMOVE AND OVERHAUL THE TIMING CHAIN, SPROCKETS AND TENSIONER 1. Remove the timing cover. Before removing the timing chain tensioner notc the ratchet position in relation to the pawl which will give an indication of chain wear. If the last tooth of the ratchet is engaged with the pawl the chain is excessively worn and should be discarded. 2. Remove the ratchet pivot bolt, plain bolt and n u t and withdraw the timing chain tensioner complete. 3. Remove the timing chain and crankshaft sprocket. 4. Remove timing chain damper.
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ST694M
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16. Fit the idler gear to the spindle. 17. Fit the driven gear with plain part of the bore uppermost. See illustration after instruction 9. 18. Smear the joint face of the body with jointing compound and fit the cover over the dowels and secure with the four bolts and spring washers. 19. Hold relief valve bore vertically and insert the ball followed by the plunger with the ball seat end first. Fit the spring, sealing washer and plug. 20. Fit the oil strainer sealing ring to the pump body followed by the lock washer and strainer. Tighten the strainer retaining nut so that when fitted the strainer is positioned parallel to the sump baffle plate. Secure t h e nut with the lock washer tab. Later engines are fitted with a bracket to locatc the strainer.
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1 . Remove the eight tappet guide locating bolts from the right-hand side of the cylinder block.
CAUTION: Do not remove the tappet guides before the rollers otherwise the rollers may fall behind the camshaft.
ST697M
2. Using long nosed pliers or a suitable bent length of wire lift out the tappet slides and identify them with their respective guides for possible refitting.
6. Examine the sprockets and discard if the teeth are worn. 7. Dismantle the tensioner assembly and discard any worn parts. In particular check the condition of the ratchet and pawl. Check the tension of the spring by comparing it with a new one. Examine t h e jockey wheel teeth for wear, and renew bush if worn.
Key to tensioner assembly 1. Piston assembly 2. Cylinder assembly 3 . Cylinder spring 4. Ball 5 . Ball retaining clip 6. Ratchet and spring 7. Ratchet pivot bolt 8. Pawl 9. Jockey wheel 10. Timing chain damper
3. Lift out the tappet rollers and mark the side facing the front of the engine for possible reassembly.
4. Lift out the tappet guides and retain with their respective slides and rollers. If the guides are difficult to remove use special tool 530101A.
8. Assemble the tensioner as illustrated and compress the assembly ready for fitting to the engine.
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ST699M
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1. On initial assembly of the engine the mud shield around the oil seal is rivetted in position but after removal in service the rivets are substituted with self tapping drive screws. 2. Drill out the rivets securing the oil seal mud shield. 3 . Press out the oil seal and clean the mating surfaces. 4. Smear the outside diameter of a new oil seal with Hylomar PL 32-M jointing compound. Press the oil seal into the timing cover, lip side facing crankshaft. 5. Coat the drive screws with Hylomar and secure the mud shield.
1. Remove the skew gear bush retaining scrcw and lift out the skew gear bush assembly. Also withdraw the distributor pump (diesel) or ignition distributor (petrol engine) drive coupling with the skew gcar assembly.
ST596M
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2. Since the camshaft sprockct has already been removed, bend back the lock tabs, remove the two bolts and the camshaft thrust plate. Carefully withdraw the camshaft.
NOTE: Lock tab washers are not used on later engines
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defects are evident. 4. Scored, worn, pitted or chipped cams. Worn, corroded and discoloured journals. Worn and chipped gear teeth.
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7. Drill a 8,0 mm (A in) hole between the root of any two teeth and the inner diameter of the starter ring deep enough to weaken the ring. Do not allow the
drill to enter the flywheel.
8. Secure the flywheel in a soft jawed vice and cover it with a cloth to protect one from personal injury.
Place a cold chisel above the drilled hole and strike it sharply to split the ring gear.
REMOVE AND OVERHAUL THE FLYWHEEL 1. Remove the flywheel retaining bolts and withdraw the flywheel and reinforcing plate.
ST701 M
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2. Wear or scores on the flywheel clutch face can be corrected by machining provided that the overall width of the flywheel is not reduced below the following dimensions: Petrol engines 34,?2 mm (1.37'5 in). Diesel engines 36,96 mm (1.453 in). 3. Check that the flywheel has not been previously machined. 4. Examine the ring gear teeth and if chipped or worn the gear can be renewed.
9. Heat the new ring gear uniformally to between 225C and 250C but do not exceed the higher figure. 10. Place the flywheel, clutch face down, on a flat surface and locate the heated flywheel with the square edge of teeth downward towards the flywheel clutch face and chamfered edge of the teeth uppermost. This applies to both petrol and Diesel engines. 11. Press the starter ring firmly against the flange until the ring contracts sufficiently to grip the flywheel. Allow the ring gear to cool naturally. Do not hasten cooling in anyway.
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6, i"$itcii;ne fly.wheei the the compieic face removing only the minimum material necessary to achieve a smooth flat surface parallel with the crankshaft mating face and within the above width dimensions and fit new dowels.
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OVERHAUL
1. Remove the eight bolts securing the flywheel housing to the cylinder block and remove the housing and rear main bearing oil seal, and 0 ring.
2. Push each piston asscmbly up the bore and withdraw from the cylindcr block. Assemble the caps and shell.? to the connecting-rods and place to one side for inspection with the cylinder block at a later stage.
ST718M
2. Remove the main bearing caps and shells and lift out the crankshaft. Collect the bearing shells from the bearing saddles and the thrust washers from thc centre saddle.
continued
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1121
Inspect crankshaft 3. Degrease the crankshaft and clear out the oil ways, which can become clogged after long service. 4. Examine visually, the crankpins and main bearing journals, for obvious wear, scores, grooves and overheating. A decision at this stage should be made as to whether the condition of the shaft is worth continuing with more detailed examination. 5. With a micrometer, measure and note the ovality and taper of each main bearing journal and crankpin as follows: 6. Ovality - Take two readings at right-angles to each other at various intervals. The maximum ovality must not exceed 0,040 mm (0.0015 in). 7. Taper - Take two readings parallel to each other at both ends of the main bearing journal and crankpin. The maximum permissable taper must not exceed 0,025 mm (0.001 in). 8. To check for straightness, support the front and rear main bearing journals in V blocks and position a dial indicator to check the run-out at the centre main bearing journal. Run-out must not exceed 0,076 mm (0.003 in) taking into account any ovality in the centre journal. The overall allowable wear limit should not exceed 0,11,4 mm (0.0045 in) for main bearing journals and 0,088 mm (0.0035 in) for crankpins. A crankshaft worn beyond the limits of maximum taper, ovality and overall wear can be ground undersize for which bearing shells arc available see data, book 1. When grinding the crankshaft main bearing and crankpin journals, rotation of the grinding wheel and crankshaft must be in the same direction, anti-clockwise, viewed from the flywheel end of the crankshaft. Final finishing of the journals should be achieved by using a static tapping stone with the crankshaft rotating in a clockwise direction viewed from t h e flywheel end of the crankshaft. It is important to ensure that, when grinding, the stone travels beyond the edge of the journal A to avoid formation of a step R as illustrated. Also care must be taken not to machine or damage the fillet radii.C.
1. Degrease the cylinder block and carry out a thorough visual examination checking for cracks and damage. To check the main bearing caps and saddles for distortion. Fit the main bearing cap without bearing shells and tighten to the correct torque. Slacken and remove the bolt on one side of each bearing cap and check with a feeler gauge that no clearance exists at the joint face between the cap and saddle.
2. Mcasure the cylinder bores for ovality, taper and general wear, using any suitable equipment. However, an inside micrometer is best for checking ovality and a cylinder gauge for taper. 3 . Check the ovality of each bore by taking measurement at the top of the cylinder just below the ridge at two points diametrically opposite. The difference between the two figures is the ovality of the top of the bore. Similar measurements should be made approximately 50 mm (2.0 in) up from the bottom of the bore so that the overall ovality may be determined. 4. The taper of each cylinder is determined by taking measurements at t h e top and bottom of each bore at right angles to t h c gudgeon pin line. The difference between the two measurements is the taper. 5 . To establish maximum overall bore wear, take measurements at as many points possible down the bores at right angles to the gudgeon pin line. The largest recorded figure is the maximum wcar and should be compared with the original diameter of the cylinder bore.
Maximum permissible ovality 0,127 mm (0.005 in). Maximum permissible taper 0,254 mm (0.010 in). Maximum permissible overall wear 0,177 mm (0.007 in).
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If the above figures are exceeded the cylinders must be rebored o r sleeved depending upon the general condition of the bores and amount of wear. Alternatively, if the overall wear, taper and ovality are well within the acceptable limits and the original pistons are serviceable new piston rings may be fitted. It is important however, that the bores are deglazed, with a hone, to give a crosshatched finish to provide a seating for the new rings. It is vital to thoroughly wash the bores afterwards to remove all traces of abrasive material. Inspect camshaft bearings
9. Measure the internal diameter of each camshaft bearing at several points using an internal micrometer. A comparison of the bearing diameters with those of the respective camshaft journals will give the amount of clearance. The bearings should be renewed if the clearance exceeds 0,0508 mm (0.002 in). Or, in any event, if they are scored or pitted.
1. Remove t h e rear bucket type plug and using special tool 274388 drift out the front and rear bearings and withdraw them through the side cover apertures.
Fit cylinder sleeves Cylinder bores that cannot be rebored can be restored by fitting sleeves to enable standard size pistons to be fitted. Sleeving one cylinder only will distort the adjacent bore so sleeving must be carried out in pairs, i.e. cylinders 1 and 2 o r 3 and 4. 6. Machine the cylinder bores to accept the sleeves to 94,425 0,012 mm (3.7175 0.0005 in). This will give the sleeve a 0,076 to 0,114 mm (0.003 to 0.0045 in) interference fit. 7. Press the sleeves squarely into the bore using a pressure of two t o three tons. Exccssive pressure could damage the sleeve and cylinder block. The sleeves must not be proud of the cylinder block top face or more than 2,5 mm (0.10 in) below the surface. 8. Borc and hone the sleeves to accommodate the pistons with the required clearances, see piston and connecting-rod examination.
2. With the same tool, drift the two centre bearings into the distributor drive chamber and collapse them to assist withdrawal.
continued
10. Repeat the above instructions for the front bearing. Note that the front bearing is wider and has a small hole in addition to the large oil feed hole. This small hole aligns with a vertical drilling in the block, which in turn feeds a horizontal drilling for the tappet mechanism. Drift this bearing in so that the outer edge is just below the machined surface of the front face. This is to ensure that when the camshaft thrust plate is fitted it will not stand proud on the bearing edge.
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11. Turn the cylindcr block over so that the rear face is uppermost and repeat the foregoing procedures for the two remaining camshaft bearings. The bearings must now be reamed to size as follows: N o lubricant is necessary for this operation since t h e best results are obtained when the bearings are cut dry. 12. Locate the guide plug 274394, into the front camshaft bearing and retain using the thrust plate screws, but do not tighten the screws at this stage. 13. Insert the reamer 274389 from the rear of the cylinder block, locating it through the guide plug at the front. 14. Locate the guide collar immediately in front of the rcamer cutter into the rearmost bearing, then secure the screws retaining the guide plug at the front. 15. Position the cylinder block vertically, rear face uppermost and ream the rear and two centre bearings. As each bearing is cut the reamer should be held steady by the operator whilst an assistant, using a high pressure airline, blows away the white metal cuttings, before allowing the reamer to enter the next bearing. 16. Remove the guide plug 274394 and ream the front bearing. 17. Remove the reamer handle and bolt and withdraw the reamer, turning it in the same direction as tor cutting. 18. Remove the plugs from the ends of oil gallery passage and clean the gallery and oil feed passages to camshaft and crankshaft bearings, using compressed air. Refit the plugs and lock in position.
continued
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9. Maintain the bearing in a level position. Pass the drift through the front bearing housing into the camshaft chamber so that it rests on top of the adaptor. Commence drifting the bearing into the block. Ensure that the bearing is not drifted in too far, and that the oil feed'holes are correctly aligned. 10
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21. Discard scorcd, pitted, cracked and worn bearing shells. 22. To determine the maximum wear, assemble the main bearing shells and caps to the crankcase and tighten the bolts to the correct torque figure. 23. Using an inside micrometer, measure each bearing at several points and note the greatest figure. The maximum wear is the difference between this figure and the smallest diamcter of the corresponding crankshaft journal. The main bearing running clearance is in the data section. 24. The bearing clearances may also be determined by using Plastigauge. Since this method requires the crankshaft to be fitted to the crankcase, the procedure is described under engine assembly.
PISTON AND CONNECTING-ROD INSPECTION The following checks relating to pistons and rings must also be carried out prior to fitting new pistons to rebored and sleeved cylinder blocks. Until it is decided if new components are required all parts must be kept in their related sets and the position of each piston to its connecting-rod should be noted. 1. Remove the piston rings and gudgeon pin from each piston and dctach the connecting-rod.
2. Original pistons - Decarbonise and dcgrease all coi?;poiiefi:s aiid cairj ou: a vimal examinatim cf the pistons and rings and discard any which are unserviceable. Pistons which appear serviceable should be subjected to a more detailed examination described under New Pistons.
ST708M
continued
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3. New Pistons - Original pistons fitted to new engines at the factory are specially graded to facilitate assembly. The grade letter on the piston crown should be ignored when ordering new pistons. Genuine Land Rover service standard size pistons are supplied 0,025 mm (0.001 in) oversize to allow for production tolerances on new engines. When fitting new pistons to a standard size cylinder block the bores must be honed to accommodate the pistons with the correct clearances. In addition Land Rover pistons are available 0,50 and 1,Ol mm (0.020 and 0.040 in) oversize for fitting to rebored cylinder blocks. Clearance limits for new standard size pistons in a standard cylinder bore measured at right angles to the gudgeon pin are in the General specification data section. When taking the following measurements the cylinder block and pistons must be at the same temperature to ensure accuracy.
NOTE: The illustration shows a petrol engine piston but the method is the same for the Diesel engine. 4. Using a suitable micrometer measurc the pistons at thc bottom of the skirt at right angles to the gudgeon pin. 5 . With an inside micrometer or cylinder gauge measure the diameter of the bore at approximatcly half-way down and note the reading. 6. The clearance is determined by subtracting the piston diameter from the bore diameter.
Inspect piston rings Normally when an engine is being overhauled the piston rings are discarded unless the pistons have been removed for a different purpose and the engine has only completed a small mileage. Before refitting the piston the rings should be examined for wear and damage. In addition the rings must be checked for side clearance in the pistons and gap in the bores. The latter two checks must be made when fitting new rings to new and used pistons. 8. Check gap When checking thc ring gap in worn bores, but are nevertheless within the acceptable taper and ovality limits, the ring must be inserted squarely into the bottom of the bore at the lowest point of the piston travel. To ensure squareness of the ring push the ring down the bore to the correct position with a piston. With newly machined bores, the ring may be inserted squarely into any position in the bore. 9. Using an appropriate feeler gauge check the gaps of all the rings, in turn, including the oil control ring assembly. The correct gaps are listed in the Data Section. If any gap IS less than that specified, remove the ring, and file the ends square, whilst holding the ring in a filing jig or vice. Should any gap be excessively wide and not likely to close-up to within the specified limits when hot, an oversize ring should be fitted.
continued
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NOTE: Eariy 2.25 Diesel pistons have a piston ring groove below the gudgeon pin. This has been deleted on later engines.
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Compression rings - 0,046 to 0,097 m m (0.0018 to 0.0038 in). Oil control ring - 0,038 to 0,089 mm (0.0015 to 0.0035 in). Side clearance - d i e d engine
Compression rings - 0,06 to 0,11 m m (0.0025 to 0.0045 in). Oil control ring - 0,038 to 0,064 mm (0.0015 to 0.0025 in).
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Check piston ring side clearance Petrol engine pistons have two compression rings and one oil control ring assembly. The diesel engine has three compression rings and one oil control ring assembly. The method of checking clearances are the same for both engines but the clearances are different. It is important that clearances are correct. Rings that are too tight will bind when hot, imparing the radial pressure causing possible loss of compression. Excessive clearance will allow the rings to rock in the grooves and the resulting pumping action could cause excessive oil consumption and eventually broken rings. 10. Diesel engine pistons - Fit the oil control ring to the bottom groove (not groove in skirt). Fit the two unpolished rings with the word TOP uppermost to the middle two grooves. Insert to polished chrome ring with the internal chamfer to the top groove with the word TOP uppermost. A ring groove is provided at the bottom of the diesel engine piston skirt for the fitment of an oil control ring in cases of excessive oil consumption on high mileage engines (early engines only). 11 Petrol engine pistons - Fit the oil control ring to the bottom groove. Fit the unpolished compression ring with the word TOP uppermost to the second groove. Insert the polishcd chrome ring with an internal chamfer and the word TOP uppermost to the top groove. 12. After fitting each ring, roll it around thc piston groove to ensure that it is free and does not bind. 13. Using an appropriate feeler gauge check the clearance between the rings and piston grooves. Clearances in excess of 0,106 to 0,152 mm (0.004 to 0.006 in) are unacceptable and the ring and or the pistons shouid be renewed.
14. Check the gudgeon pin for wear, cracks, scores and overheating. 15. The gudgeon fit in the piston must be a tight push fit at a temperature of 68F (20C). Check the gudgeon pin for ovality and taper using a micrometer.
Connecting-rod inspection 16 Check the connecting-rods and caps for distortion as follows; fit the correct cap, less the bearing shells, to each connecting rod as denoted by the number stamped near the joint faces. This number also indicatcs the crankshaft journal to which it must be fitted. 17 Tighten the nuts to the correct torque and release the nut on one side only. Check, with a feeler gauge, that no clearance exists between the joint faces. i f there is a gap the connecting-rod is distorted and should be renewed.
NOTE: Whilst the illustration shows a Diesel piston the method for the petrol is the same.
continued
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ST716M
theck the rods for bend and twist. The maximum allowable for both conditions must not exceed 0,127 mm (0.005 ins). 19. Examine and check t h e small-end bush for wear. If necessary renew the bush. The correct clearance of the gudgeon pin in the small-end bush is given in General specification data. When renewing a bush ensure that the oil hole in 20. the bush lines up with the hole in the connectingrod. Finish the bush to the correct size and clearance. 21. Connecting-rod bearings that are worn, pitted, scored and show signs of overheating must be discarded. If more than one of the bearings show these signs they must all be replaccd. When fitting new or used bearings to reground (petrol engines only) or serviceable crankpins the clearances must be checked. Connecting-rod bearing nip and clearance New bearing halves are supplied with a protective coating and must be degreased before fitting. 22. Fit the bearing halves t o the connecting-rod and cap and secure the assembly with thc correct torque. Slacken the nut on one side only and check the clearance between the joint faces with a feeler gauge. The clearance should be between 0,lO and 0,20 mm (0.004 and 0.008 in). The bearing nip can be adjusted by the selective assembly of the bearing shells which are available in slightly varying thicknesses. Do not file or machine the caps or rods to vary the bearing nip, Make a final check to prove the clearance by inserting a 0,063 (0.0025 in) shim paper between the crankpin and one half of the bearing and tightening to the correct torque. The connecting-rod should resist rotation and move freely with the shim paper removed.
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26. Fit the connecting-rods complete with bearings to their respective crankpins. Move the connectingrod to one side and check the clearance, with a feeler, on the opposite side. The correct clearance is between 0,20 and 0,30 mm (0.007 and 0.012 in).
continued
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ASSEMBLE ENGINE
FIT CRANKSHAFT
Main bearing nip and clearance New main bearing halves are supplied with a protective coating and must be degreased beforc fitting. 1. Fit the bearing halves in the crankcase saddlcs and caps and secure the caps to the crankcase and tighten to the correct torque. Slacken the bolts on one side of the caps only and, with a feeler gauge, check t h e gap between the joint faces. The clearance or nip must be within 0,lO to 0,15 m m (0.004 to 0.006 in). The bearing nip can be adjusted by selective assembly of the bearing halves available in varying thicknesses. Do not file or machine thc caps or saddles to achicvc the corrcct clearance. Note that the rear main bearings are wider than thc rcmaining four. 2. T o make a final check that the clearance is correct, leave the bearing halves in the crankcase saddles and carefully lower the crankshaft into position. Check each bearing in turn by inserting a 0,063 m m (0.0025 in) shim paper between the bearing cap and crankshaft journal and tighten the bolts to thc correct torque. If the clearance is correct, there should be a slight increase in t h c rcsistancc to rotation of the crankshaft.
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27. Petrol engine pistons can be fitted either way round, except those that are being refitted to their original bores in which case they must be fitted to the connecting-rod in the same position in accordance with the mark made during removal. 28. Inscrt a circlip in one side of the gudgeon pin boss and assemble the piston to the connecting-rod with t h e gudgeon pin. Secure the assembly with a circlip on the opposite side of the piston. 29. Diesel engine pistons must only be fitted one way in relation to the connecting-rod. The piston must be assembled with the point of the V, on the piston crown, on the same side as the lubrication hole in the connecting-rod. Assemble the piston to the connecting-rod in the same manner as for the petrol engine. Place the piston and connecting-rod assemblics to one side ready for fitting to the cylinder block. It is good practice to renew thc connecting-rod bolts
As an alternative Plastigauge may bc used to check the clearance in the same manner as with the connecting-rod bearings. This material may also be used to determine the amount of wear in used bearings and j o t .
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ST722M
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3. Locate the crankshaft in position on the upper bearing halves in the crankcase and wipe any oil from the journals since Plastigauge is soluble in oil. Place a piece of Plastigauge across the lower half of each crankshaft journal or lower bearing cap shell. Fit the cap and tighten to the correct torque. Remove the cap and bearing and using the scale supplied with the Plastigauge measure the flattened Plastigauge at its widest point. The graduation that most closely corresponds with the width of the Plastigauge indicates the bearing clearance. The correct clearance with new or overhauled components is included in General specification data section. If new bearings are being fitted use selective assembly to obtain the correct clearance. Wipe off, not scrape the Plastigauge with an oily rag from the journals o r bearings.
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4. Lift out the crankshaft and insert a standard size thrust washer both sides of fhe centre main bearing saddle with the grooves towards the crankshaft.
8. Lubricate the crankshaft main journals with clean engine oii and fit the appropriate bearing caps and
lower shells to the crankcase with the exception of number five main bearing. Ensure that the caps locate properly over the dowels. Using new bolts and washers evenly tighten to the correct torque figure.
continued
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10. To prevent any cork seal material becoming trapped between t h e bearing cap and crankcase, chamfer the inner edge of the corks 0,40 to 0,80 mm (id to &in) wide as illustrated. Immerse the cork seals in engine oil and fit them to the bearing cap.
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13. Check that the crankshaft oil seal journal is undamaged and clean. Make sure the seal housing is clean and dry and free from burrs. Do not touch the seal lip and ensure that the outside diameter is clean and dry. The P.T.F.E. Seal Part N o ETC 5369 which should be used, is supplied with a former to maintain t h e correct shape and must not be removed until the seal is to be fitted. 14. Using special seal replacer 18G 134-11 and with the lip side leading drive-in the scal as far as the tool allows. If t h e tool is not availablc fit the seal to the bottom of the housing to ensure squareness.
1 I . Fit the bearing cap and lower shell to the crankcase and secure with new bolts and washers and tighten to the appropriate torque. 12. To allow for shrinkage after fitting leave t h e cork seais standlng proud of the crankcase-sump face. If possible delay the fitting of the sump for approximately twelve hours and leave the seal protruding 2,40 mm (& i n ) and then place a 6,350 mm ( % in) washer over the seal and cut off the surplus. If it is necessary to fit the sump
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ST731 M
7. Check that the bearing shell is properly located in the connecting-rod and pull the rod onto the crankpin. Locate t h e bearing shell correctly and f i t the cap so that the identification numbers are together on the camshaft side of thc engine. Fit and tighten new nuts to the correct torque figure. Repeat the foregoing instructions for fitting the remaining piston and connecting-rod assemblies.
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insert the camshaft into the cylinder block. Temporarily secure a new thrust plate with the two bolts.
1. If the same parts are being refitted ensure that they are returned to their original positions. Ensure that the tappct slides move freely in the guides. 2. Insert the tappet guides into the cylinder block and align the locating screw holes. 3. Fit the tappet rollers ensuring that they are fitted in accordance with the marks made during removal. New rollers, however. may be fitted either way round. 4. Before fitting the tappet slides make sure the oilways are clear to t h e tappet bearing surface, the cross drilling and the oil feed to the push rod. 5 . Insert t h e tappet slides with the word 'FRONT' towards the front of the engine. 6. Secure the tappet guides with NEW Micro encapsulated screws and tighten to thc correct torque figure. Micro encapsulated screws should also be used on engines where the screws were originally wired for security.
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2. To check the camshaft end-float, f i t the woodruff key and temporarily f i t the camshaft chain wheel and mount a dial test indicator, as illustrated, so that the stylus rests in a loaded condition upon the machined face of the cylinder block. Zero the dial and move the camshaft back and forward and note the reading. The end-float should be within 0.06 to 0,13 nim (0.0025 to 0.0055 in). If the end-float is outside these limits, f i t different thrust plates until the correct tolerance is achieved. 3. Removc the test indicator and chain wheel and secure the thrust plate with the two bolts and tab washers. (Tab washers ommitted on later engines).
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1. Examine the flywheel and crankshaft mating faces and remove any burrs or imperfections that could prevent the flywheel locating correctly. Check that the dowel is in position. 2. Offer up the flywheel to the crankshaft and secure with the reinforcing plate and retaining bolts, Evenly tighten the bolts to the correct torque figure. 3. To check the flywheel run-out, mount a dial test indicator so that the stylus rests, in a loaded condition, on the clutch pressure face at a radius of 114 mm (4.5 ins). 4. Turn the flywheel, and check that the run-out does not exceed 0,05 to 0,07 mm (0.002 to 0.003 in). Should the run-out be excessive, remove the flywheel, and check again for any irregularities on flywheel and crankshaft mating faces and dowel.
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ST 927M
Diesel engine 3. Turn the crankshaft in a clockwise direction until the E.P. mark on the flywheel is in line with the pointer on the flywheel housing. The pointer on later engines has been omitted but can be obtained from Land Rover spares stockists under part number E R C 2250. If the crankshaft is inadvertently turned beyond the E.P. mark, do not turn it back but continue on round in a clockwise direction until the mark is exactly in-line with the pointer. To avoid serious damage to the valves and pistons once the cylinder head has been fitted, the crankshaft must not be rotated until the valves have been timed.
continued
1. Temporarily fit the timing cover with pointer and crankshaft pulley. 2. Turn the crankshaft clockwise, in the normal running direction, to bring numbers one and four pistons to T.D.C. If the crankshaft is inadvertently turned beyond T.D.C. do not turn it back, but continue on round until the T.D.C. mark on the pulley coincides with the pointer on the timing cover. D o not allow the crankshaft to be moved again until the valves are timed.
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VALVE TIMING
Petrol engines
1. Check that numbcrs one and four pistons are still at T.D.C. and without disturbing thc crankshaft, remove the pulley and timing cover. 2. One of the keyways in the camshaft sprocket is stamped with the letter 'P' and this must locate on the camshaft key. 3. Fit the camshaft chain wheel, as above, and rotate the camshaft in a clockwise direction until the tooth also marked with a letter 'P' is in line with the top stud hole as illustrated.
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10. Tighten the cylindcr head rctaining bolts, evenly, to the correct torque figure in the sequence illustrated below. 11. Fit and tighten t h e rocker shaft, small bolts to the specified torque.
4. Fit the crankshaft chain whccl with the large shoulder towards the cylinder block. 5 . Without moving either chain wheel, fit t h c timing chain, keeping it taut on the drive side. If it is not possible to obtain a taut fit on the drive side of the chain with the chain wheel in the set position, withdraw the camshaft chain wheel without disturbing the camshaft, and rcfit the chain wheel on one of t h e alternative keyways. This procedure may be repeated until a taught chain is obtained on the drive-side with the camshaft and crankshaft in their previously set positions. 6. Secure the camshaft sprocket to the camshaft with a new special micro encapsulated treated bolt and tighten to the correct torque figure.
NOTE: Early engines use an ordinary bolt and tab was her.
7. Fit and adjust the timing chain damper SO that there is a maximum clearance of 0 2 5 mm (0.010 in) between the timing chain and damper. Tighten the retaining bolts and secure with new lock tabs.
continucd
13. Do not allow the crankshail to be turned, until the valves are timed.
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Diesel engines
8. Maximum engine performance and efficiency depends upon the care and accuracy excerciscd
during the following instructions. 9. Check that the E.P. mark on the flywheel is still cxactly aligned with the pointer on thc flywheel liousi n g . 10. Thc valve timing is based upon the exhaust valve peak of number one cylinder. To determine the point at which the valve is fully open mount a dial test indicator, as illustrated, with the bracket attached to the number one exhaust valve rocker and the stylus resting, in a loaded condition o n a cylinder head bolt head.
15. Turn the camshaft anti-clockwise and watch the needle move back to zero. Then continue turning until the necdlc indicntcs 0.25 inn1 (0.010 in) which represents a point down the right-hand sick of the cam and n:::ke ::nother ;xark in !inc wi!h !!le pointer.
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17. Remove the dial indicator, and turn the camshaft until the middle mark lines up with the pointer. The number one cylinder exhaust tappet roller should now be resting in the centre of the four degree flat period of the cam and the camshaft and crankshaft are in their correct relationship.
I . Assemble the timing chain tensioner in accordance with t h e illustration in Dismantling. 2. Compress the assembly against the spring and fit to the engine whilst engaging thc ratchet pivot bolt in the cylinder block. 3 . Ensure that the piston housing locates on the dowels and single stud and the cylinder spigot fits into the milled slot in the cylinder block. 3 . Allow the jockey wheel to take up the slack in the chain. Tighten the retaining n u t and two bolts to secure t h e assembly. Do not rotate enginc, see tappet adjustment.
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remaining keyways until the best position is obtained. It is preferable to choose a keyway which gives ;I slightly tight chain on the drive side rather than a slack one. 20. Secure the camshaft chain wheel to the camshaft with a new, special, micro encapsulated treated bolt and tighten to t h e correct torque figure - See Petrol en, (rine. 21. Fit and adjust the timing chain damper so that there is a maximum clearance of 0 3 m m (0.010 i n ) between the timing chain and damper. Tighten the two bolts and secure with new lock tabs.
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1. If the crankshaft is rotated with excessive valve clearances, it is possible that the push rods may become dislodged from the tappet seating and fracture the tappet slide. To prevent damage, eliminate all clearance from any loose rockers bcfore turning the crankshaft to adjust the clearances. 2. Turn the engine over until number eight valve (counting from front of engine) is fully open. 3. Using a 0,25 mm (0.010 in) feeler gauge check the clearance between the valve tip and rocker pad of number one valve. 4. Adjust the clearance by slackening the locknut and turning the tappet adjusting screw clockwise to reduce clcarance and anti-clockwise to increase clearance. Recheck the clearance after tightening the lock nut.
ST1269M
3. Fit the crankshaft pulley and secure with the special washer and bolt. Tighten to the correct torque figure.
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FITTHESKEW GEAR
Petrol engine 1. Turn the crankshaft to bring number one piston to T.D.C. with number four cylinder valves on thc 'rock'. Check that the timing gear pointcr coincides with the mark on the crankshaft pulley. 2. Lubricate and insert the skew gear assembly into mesh with the camshaft gear. Due to the helex angle of the teeth the gear will turn anti-clockwise as it slides into mesh. The broad master spline must be at 20" to t h e centre line when correctly seated, as illustrated, but i t may take scvcral attempts to achieve this.
joint washers secure the assembly, together with the elbow, to the cylinder head. Tightcn the three bolts to the correct torque. Connect the thermostat elbow to the water pump with a new hose and secure with hose clips.
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ST 882M
3 . The skew gear assembly is located in its final position by a special screw. Without this screw the gear will go deeper into mesh resulting in an incorrect anglc when t h e assembly is lifted up to locate the screw. The angle must therefore be checked again after the screw is fitted. Align the location hole in t h e bush and fit a new location screw i n t o the cylinder block and re-check the angle. 4. Fit the distributor drive coupling, and ensure that it locates properly in the off-set slot of the skew gear. 5. Using a new joint washer, fit t h e side covcr.
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6. Turn the crankshaft in the direction of rotation until both valves of number one cylinder are closed and the piston is ascending the bore on the compression stroke. 7. Continue to turn the crankshaft until the timing pointer aligns with the 13" mark on the flywheel, that is 13" BTDC. This must be done carefully. If the flywheel in inadvertently turned too far and the timing mark goes past the pointer do not turn the flywheel back but repeat the operation. 8. Ensure that a correct line of vision is taken when lining up t h e timing marks. An incorrect line of vision can result in the timing being 1" to 2" out.
10. The skew gear assembly is located in its final position by a special screw. Without this screw the gear will go deeper into mesh rcsulting in a n incorrect angle when the assembly is lifted up to locate the screw. The angle must therefore be checked again after the screw is fitted. 11. Align the location hole i n the bush and f i t a new location screw into the cylinder block and re-chcck the angle. 12. Fit D.P.A. pump drive shaft long-splined-end leading and locate the master spline in the corresponding spline i n the skew gear.
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9. Lubricate and insert the skew gear assembly into mcsh with the camshaft gear. Due to the helex angle of the teeth the gear will turn anti-clockwise as it slides into mesh. The broad niaster spline must be at 20" to the centre line when correctly seated, as illusti-ated, but it may take several attempts to achieve this.
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I . Fit the distributor adaptor plate using a new joint washer and evenly tighten the thrcc retaining bolts to the correct torque figure.
6. Fit the correct spark plugs and washers and tighten to the specified torque figure. 7 . Fit the distributor cap and connect t h e H.T, leads to the spark plugs in thc sequcnce illustrated.
ST 877M
1. Using a new joint washer fit the camshaft front side cover with t h e timing pointer. Tighlcn the retaining bolts evenly to the correct torque. 2. Earlier engines with the side oil filter, cmploy a baffle plate, with two joint washcrs interposed between the side filter plate and the cylinder block.
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3. Insert the timing gauge, 605863, into the driving gear, then twist gauge in a clockwise direction to take up backlash and any wear in the gears. 4. Hold in this position, then, if necessary, slacken off bolts retaining the timing pointer on the side of the cylinder block. Adjust pointer so that it coincides with the line on the timing gauge, as illustratcd, then retighten the bolts and remove the timing gauge.
9. Check that the drive shaft is correctly located with the longer splined-end in thc skew gear. 10. Assemble the scribing arm of the timing gauge to the gaugc body. 11. Set gauge by loosening knurled screws and sliding bracket around until chamfcred edge aligns with the required angle of 22", tighten knurled screw in this position.
5. Rotate the driving gear on the distributor pump so that the master spline lines up with the mastcr spline on the engine driving gear. 6. Check that the pump drive shaft is correctly located with the longer splines in thc skcw gear. 7. Fit the distributor pump to the engine engaging the master splines on the pump and the drive shaft. Do not tighten the fixings at this stage. 8. Align the vertical mark o n the pump flange with t h e pump timing pointer, then tighten the pump fixings.
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12. Insert the gauge into the vacant injection pump position and engage the gauge gear into injection pump drive splines.
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20. If the injectors have already been fitted, during cylinder head assembly, fit the injector feed pipes to the injector pump to prevent the ingress of dirt into the system. See FUEL SYSTEM - Section 19 for correct fitting of injectors.
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NOTE: When the distributor pump is timed as detailed above, that is, with the timing pointer on the engine altered to take up backlash and wear on the gears, it ensures that optimum distributor pump timing is achieved. Should there be any fall-off of power during the life of the engine, retiming the distributor pump to take up gear wear could well make a significant improvement to engine performance, provided the engine is generally in good condition.
continued
5 . Clean the sump and crankcase mating faces and fit a new joint washer. Secure the sump with the
twenty-one bolts and spring washers and one nut. Evenly tighten to the correct torque. 29
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FIT FUEL LIFT PUMP If the fuel lift was separatcd from the side cover, fit the pump to the cover first using a new joint washcr and evenly tighten the retaining nuts. Place a new cover plate joint washer in position and f i t the cover and pump assembly to the cylinder block. Ensure that the pump actuating lever ridcs on top of the camshaft. Secure the cover, evenly tightening the retaining
bolts.
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of plug. D o not ovcr tighten. 2. Fit the leads, washcrs and nuts as illustrated.
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NOTE: The illustration shows a petrol engine fuel pump but the fitting procedure is the same for the Diesel engine pump.
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1. Clean the flywheel face and place the centre plate with the side marked Flywheel side towards the flywheel. 2 . Fit the clutch assembly locating i t over the three dowels and loosely secure with the six bolts. 3. Centralise the centre plate using special tool RO 605022 or a spare primary shaft and tighten the six bolts evenly to the correct torque figure. Smear the splines of the centre plate with Molybdenum disulphide grease, such as Rocol MTS 1000.
1. Using a new hot spot joint washer asscmblc the inlet manifold to thc exhaust manifold. 2. Secure with the four nuts and evenly tighten to the correct torque, then slacken off but retain the nip of the four nuts.
ST764M
1 . Connect the oil feed pipe, for lubrication of the rocker shaft assembly, to the cylinder head. 2. Secure with the two banjo bolts and f o u r joint washers.
3 . Coat the face of the exhaust manifold with Rocol anti-seize compound Foliac J 166 (paste) and the corresponding face of the cylinder head. 4. Fit t h e joint washcrs of inlet manifold with the raised rings towards the cylinder head. 5 . Fit and tighten the securing nuts and bolts to the correct torque including the two common bolts and clamps. Note the two outer bolts at both ends of the exhaust manifold have lock plates. 6. Finally tighten the four hot spot joint nuts cvcnly to correct torque. 7. Fit the heat shield.
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Diesel engine
7. Using a new gasket fit the manifolds and secure with the retaining nuts and clamps. Evenly tighten to the specified torque figure.
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4. Fit the drive belt and pivot the alternator away from the engine, but d o not apply pressure to the stator or slip-ring end bracket or damage may result. Tighten the clamp bolt and with thumb pressure, check the belt tension between the Can and altcrnator pulleys which should be 7 to 9 mm (Y4 to ?4 in) at the mid-point. 5 . When the tension is correct fully tighten the clamp bolt and the pivot nuts and bolts.
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I . Clean the carburettcr and manifold mating faces. 2. Place a joint washer, over the studs to the manifold. 3. Fit the packing piece. 4. Fit a second joint washer. 5 . Fit the carburetter and secure with the four nuts and washers tightening evenly to thc correct torque.
1. Fit the pump attachment bracket to engine with two bolts. 2. Secure pump to bracket with pivot bolt and nuts leaving it slack. 3. Fit the tensioning clamp bolt and drive belt. Tension the belt and tighten the clamp bolt. 4. Check that the belt can bc deflected 12 mm (E i n ) by thumb pressure, at t h e mid-point of its r u n (A). 5 . Tighten the pivot bolt and n u t and finally tighten the clamp bolt.
1. Secure the starter motor to the flywheel housing noting that the petrol engine starter is held by two studs, nuts and washers. The startcr for the diesel engine is retained by one stud, one bolt and one nut and bolt. Tighten the fixings evenly to the correct torque. 2. In addition, the rear of the Diesel engine starter motor is secured by two bolts to a support bracket attached to thc cylinder block.
6. Turn the pump pulley so that t h e indicating marks on the pulley hub and pump body line up. 7. Remove the oil level plug and inject a rccommended SAE 15W-50 oil up to t h e level of the hole. Refit the plug. See Maintenance Section.
MISCELLANEOUS iTEit'iS Fit any other parts, if removed, such as engine mounting brackets, lifting eyes and the dipstick. Also any other items of non-standard equipment peculiar to the vehicle concerned. Make a careful inspection of the engine and check that all plugs are fitted and properly tightened. 33
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REMOVE OVERHAUL AND REFIT Special tools: Drift inlet valve guides 274400 Drift exhaust valve guides 274401 Drift exhaust valve guide 600959 Drift inlet valve guide 601508 Seat cutters MS621 MS627 Insert replacer 530625 Before the cylinder head can be removed the following ancilliary items, common to petrol and diesel engines, need to be removed or disconnected for access and safety. I . Disconnect the battery for safety. 2. Drain the cooling system. 3. Remove the bonnet. 3. Disconnect heater rail pipes and move aside. 5 . Disconnect top hose from thermostat housing. 6.. Disconnect hcater control cables. 7 . Release fan cowl from bracket attached to t h e r m os t a t ho usi n g . 8. Disconnect lead from coolant temperature sensor. 9. Disconnect oil gallery pipe at rcar of engine. 10. Disconnect coolant by-pass hose. 1 1 . Disconnect the exhaust pipc from the manifold. The following items concern the petrol engine only
ST674M
I?. Disconnect the air cleaner hose from the carburetter. 13. Disconnect brake vacuum hose from the manifold. 14. Disconnect mixture control cable from carburetter. 15. Disconnect throttle cable. 16. Disconnect fuel shut-off valve lead from carburetter. 17. Disconnect vacuum ignition advance pipe. 18. Remove H.T. leads from spark plugs.
The following items concern only the diesel engine
19. Disconnect the fuel spill return union conncctcd
28. Remove the eight bolts and three nuts and remove the inlet and exhaust manifolds complete with carburetter (petrol engine). 29. Remove three bolts and lift-off the thermostat housing, elbow and thermostat. 30. Removc spark plugs, (pctrol cnginc) tcmpcrature sensor and engine lifting eyes. 31. Using valve spr-ing compressor 276102 or ;I suitable alternative, remove the valve and spring assemblies, keeping them identified with their original locations for possible refitting. Discard the valve spring and valve guide oil seals. Remove carbon deposits from the valves and combustion chambers and dcgrcase all parts ready for examination.
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to spill rail. 20. Disconnect injector supply pipes from the injectors. 21. Remove injectors complete with spill rail. 22. Disconnect air hose from manifold. 23. Disconnect the heater plug electrical connections. Remove the cylinder head The following instructions for removing and overhauling the cylinder head are common to petrol and diesel engines unless otherwise stated. 24. Remove the rocker cover and slacken the tappet screw lock nuts. Turn the adjusting screws to release them from the push rods. 25. Remove the rocker shaft retaining bolts, lift-off the rocker shaft assembly, invert it and secure i t to the rocker cover studs to prevent the assembly from falling apart. 34
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34. To remove a hot plug, insert a thin soft metal drift through the injector shroud throat and tap the hot plug from the inside. Once removed a faulty hot plug cannot be restored and must be renewed. 35. I f the injector shroud is damaged, drift the shroud out towards the injector bore. 36. Thoroughly clean out the combustion chamber. The hole in the side of the injector shroud is for manufacturing purposes only but at the same time can be used as a guide when refitting the shroud. 37. Smear a little oil on t h e shroud and insert into the cylinder head with the hole pointing towards the centre of t h e cylinder head, and drift into position.
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EXAMINATION OF COMPONENTS
Petrol engine 32. Examine t h e cylinder head for cracks and distortion. Burnt, pitted and pocketed seats must be repaired. Diesel engine 33. Same as for petrol engine and in addition, worn or damaged exhaust seat inserts should be renewed, as described later.
38. Fit the hot plugs by tapping with a hidc-faced mallet, and locate with a new roll pin. If thc hot plugs are loose in the cylinder head they may be retained with a little grease. 39. When fitted, the hot plugs must be checked with ii dial test indicator to ensure that they do not protrude above the level of the cylinder head Cace more than 0,025 mm (0.001 in) and are not recessed below the level of the cylinder head face more than 0.05 mm (U.002 i n ) .
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When carrying out normal top overhaul work on the cylinder head i t is not necessary to rcmove either the injector shrouds o r the hot plugs. Small surface cracks in the hot plug, extending from the opening to approximately 8,O inn1 (,0.312i n ) in length can be ignored. However i f any severe cracks appear on the face of the hot plug, before attempting to remove i t , closely inspect t h e cylinder head for signs of cracks, particularly between the inlet and exhaust valve seats. Such cracking indicates that the engine has overheated, usually through lack o f coolant, and the cylinder head hhould be scrapped.
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Petrol and diesel engines 40. Chcck the valve guides for wear by inserting a new valve in the appropriate guide 8 mm above the seat. If movement across the head exceeds 0,15 m m (0.006 in) renew the guide. 41. Inspect the valves and discard any that are burnt, bent or distorted. Check the stems for wear by inserting in a new guide. If wear is excessivc, discard the valve. Valve faces that are pitted o r ridged but otherwise serviceable may be refaced. 42. Renew push rods that are bent or have worn or scored ball or socket ends. Renew push rod tube seals (Diesel only) 43. Whilst this is rarely necessary the procedure is nevertheless as follows. 44. Drive out the old push rod tubes using a suitable drift. *
NOTE: Later engines are fitted with tubes without seals. See 2.5 litre Diesel engine for renewal.
Renew valve guide 48. Support the cylinder head, combustion chamber uppermost on pieces of timber of sufficient thickness to allow clearance for the valve guides to be driven out. 49. Using special drift 274400 for inlet guides and 274401 for exhaust guidcs or suitable alternatives drive out the old guides from the combustion face side.
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45. Fit new sealing rings to new push rod tubes and smear with silicone MS4 grease. 46. Insert the new tubes, chamfered end first from t h e combustion chamber side. Align the flat on the push rod tube at right angles to an imaginary line between the centre of the push rod tube and centre of the hot plug. 47. Press the push rod tubes into position whilst maintaining the alignment. Also ensure that the chamfers on the tubes and in the cylinder head are fully engaged.
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50. Turn the cylinder head over so the combustion chambers face downwards. Since the inlet and
exhaust valve guides are dimensionally different it is important that the correct guides are fitted to the appropriate ports. 51. Lubricate new guides with engine oil and using special drift 600959 for the exhaust and 601508 for the irrlet valve guides or suitable alternatives, drive in the new guides until the shoulder is flush with the casting.
53. The special set of hand tools recommended for refacing include expandable pilots that fit tightly into new or worn guides to ensure that the valve seat is concentric with valve guide. The refacing tool has tungsten carbide cutters and can be used to cut a seat in a new exhaust seat insert. 54. Select the correct expandable collet for the valve guide concerned i.e. 8 mm for inlet guides and 8 3 mm for exhaust. 55. Loosely assemble the collet, expander and nuts. Ensure that the chamfered end of the expander is towards the collet.
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52. Damaged or worn valve seats can be refaced provided they are not abnormally wide due to repeated refacing operations. See instruction 64.
56. Insert the assembled pilot into the valve guide from the combustion face side of the cylinder head until the shoulder contacts thc valve guidc and the whole of the collet is inside the valve guide. 57. Expand the collet in the guide by turning the tommy bar clockwise whilst holding the knurled nut. 58. Select the appropriate angled cutter for the seats to be cut.
continued
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ST668M
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NOTE: MS 621 is a 45" and 15" cutter and MS 627 is 30" only.
A - Petrol engine - inlet valve seat 30" + W exhaust valve seat 45" + 9' " 13 - Diesel engine -inlet valve seat 45" 'h" exhaust valve seat 45" %"
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59. Ensure that the cutter blades are correctly fitted to the cutter head with the angled end of the blade downwards facing the work, as illustrated. Check that the cutter blades are adjusted so that the middle IJf the blade contacts the area of material to be cut. Use the key provided in the hand set MS 76.
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60. Fit the wrench to the cutter head and turn clockwise using only very light pressure. Continue cutting to approximately the centre of the existing seat.
65. Hold the cylinder head firmly in a vice, wear protective goggles and grind the old insert away until thin enough to be cracked and prised out. Take care not to damage the insert pocket. 66. Remove any burrs and swarf from the pocket. Failure to do this could cause the new insert to crack when being fitted. 67. Assemble the new insert to the replacer tool number 530625 so that the chamfered edge of the insert is l a d i n g . Using it suitable bolt and n u t draw the insert into the cylinder head pocket. Cut ii new 45" seat using cutter MS 621.
61. T o check. the effectiveness of [ne cutting operation use engineers' blue or a feeler gauge made from cellophane. 38
112I
.
c .
Lap-in valves
68. Valves that are satisfactory for further service can be rcfaced. This operation should be carried out using a valve grinding machine. Only the minimum of material should bc rcmoved from the valve face to avoid thinning of the valve edge. The valve is refaced correctly when all pits are removed and the face concentric with the stem.
70.
71.
B. Diesel engine Inlet valve face - 4 " 4 5 - %" Exhaust valve face 45" - %"
72.
A
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h
73.
ssE9?LJE
ST690M
I
ST670M
74. Insert the inlet valves into the guides and fit new oii seais with the piain exterior and circuiar spring. Ensure that t h e seal locates in the groove in t h e valve guide. 75. Insert the exhaust valves and fit the oil seals with the ridged exterior and n o spring.
ST691 M
continued
39
1121
76. Fit the double valve spring and retainer assembly to each valve in turn and using valve spring compressor, 18G106A with adaptor 18G106A/10 secure the assembly with the split collcts.
74
75
ST6
ST669M
79 Examine the rocker shaft for wear and discard i f the bearing surfacc is worn more than 0,025 mm (0.001 i n ) . Inspect thc rockers and discard if the pads are worn. It is not permissible to grind pads in an attempt to reclaim the rockers. 80 Renew bushes if the clearance between shaft and bush is in excess of 0,101 to 0,127 mm (0.004 to 0.005 in). 6 Press in replacements ensuring that thc pre-drilled oil holes coincide with the holcs in the rockcrs. Illustration A. Cross section of petrol engine rocker. Illustration B. Cross section of diesel engine rocker.
ST
OVERHAUL ROCKER SHAFT ASSEMBLY Most of thc rocker shaft assembly components are not interchangeable between the petrol and diesel engines although the assembly method is the same.
ST684M
81. Using a reamer finish the bushes to 13,4 mm + 0,02 mm (0.530 in + 0.001 in) and clear swarf from the oil holes. 82. Examine the ball-end of t h e adjusting screws and discard any that are worn. Regrinding is not permissible. Check the threads for damage and that t h e oil relief drilling is clear.
1121
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83. Check that the oil-ways in the rocker shaft are clear and fit number two rocker shaft bracket to the shaft and retain with the locating screw and washer. Note that the locating screw on petrol
engines also secures the splash plate.
84. Using new spaccrs and springs, assemble the rockers and brackets to the shaft as illustrated, ensuring that the rockers move freely on the shaft. Note that the Diesel engine assembly has double spacers each side of the centre pedestal.
.
85. Fit the tappet adjustment screws and lock nuts to the rlxkers. 86. Invert the rocker assembly and locate it on the rocker cover to prevent i t falling apart.
continued
D
f
ST688M
84 1
41
1121
87. Cleaii the cylinder head and cylinder block mating faces and fit a new gasket, dry, without grease or sealing compound. The gasket will have either 'DIESEL' or 'PETROL' stamped in the position illustrated and the gasket must be fitted with these uppermost. 88. Place the cylinder head in position and engage all the cylinder head bolts and washers except those used to secure the rocker assembly. Use new bolts and ensure that the correct bolts for the petrol and diesel engine are fitted. They are not interchangeable.
No. 8 valve fully open. No. 6 valve fully open. N o . 4 valve fully open. No. 7 valve fully open. N o . 1 valve fully open. No. 3 valve fully open. N o . 5 valve fully open. No. 2 valve fully open.
locknuts
93. Recheck the clearances with the tightened and adjust as necessary.
ST687M
'
'
89. Insert the push rods into position ensuring that the ball-ends fit correctly into the spherical seats i n the tappet slides. 90. Fit the rocker shaft assembly ensuring that the hole in the front and rear rocker bracket locates properly in the corresponding dowel in the cylinder head. Also, make sure that thc ball-end of all the rockers fit into the spherical seats of the push rods. Evenly tighten the rocker shaft retaining bolts to the correct torque. 91. Tighten the cylindcr head and rocker shaft securing nuts and bolts strictly in the sequence illustrated to avoid distortion of the cylinder head. Tighten to the torque figures given in the data section. The arrow points to the front of the engine
2.25 LITRE PETROL AND DIESEL CYLINDER HEAD _94. Using a new gasket fit the rocker cover and secure with the rubbers, cups and dome nuts. Tighten to the correct torque figure. Do not over-tighten.
A . Petrol.
B. Diesel
: , .
ST671 M
ST672M
95. Fit the inlet and exhaust manifolds complete with carburetter (petrol engine). Sec Engine overhaul. 96. Fit the air intake and exhaust manifolds (diesel enginc). See Engine overhaul. 97. Fit the spark plugs (petrol engine). 98. Fit the injectors- see Diesel fuel system. 99. Fit thc engine lifting cycs. 100. Fit the water temperature sensor.
Fit the thermostat housing assembly 101. IJsing a new joint washcr secure the thermostat housing to the by-pass housing. 102. Fit the two hose adaptors. 103. Inscrt the thcrmostat into its housing. 104. Place a ncw joint washer on the cy!inder head. 105. Using ii new joint washer fit the thermostat cover and cowl mounting bracket. 106. Using the. three bolts sccurc the complete assembly to the cylindcr head. Note that one bolt is shorter and is fitted in-board.
107. Refit or reconnect the items disturbed for access to the cylinder head. 108. Refill the cooling system when engine is refitted to vehicle.
43
This Supplement should b e used in conjunction with t h e 2.25 litre petrol engine overhaul procedures. Details of the differences between the 2.25 and 2.5 litre engines are listed below. Some of the new features were, however, introduced o n later 2.25 pctrol engines.
I
Capacity increased to 2495 cc by lengthening the piston stroke from 89 mm to 97 mm. Crankshaft and main bearings same as the 2.5 litre Diesel engine.
0 0
Modified oil pump with gear having only ten teeth. Bush deleted from idler gear and ball ommitted from the pressure relief valve.
0
The 0 ring scal between the flywheel housing and cylinder block deleted. Sealing now achieved by a bead of sealant on the flywheel housing mating face with the cylinder block. Sump joint washer deleted and a liquid sealant, RTV Hylosill 102, now used.
44
112
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1. Remove the sump. 2. Bend back the lock washers and remove the two bolts securing the oil pump to the crankcase. Withdraw the oil pump complete with strainer and oil pump drive shaft.
3. Bend back the lock washer and release the nut securing the strainer to the oil pump body and remove the strainer and sealing ring. 4. Remove four bolts and washers and lift off the oil pump cover and lift out t h e driven and idler gears. (a) driven gear (b) idlcr gear 5 . Remove the oil pressure relief valve plug and sealing washer. Withdraw the relief valve spring and plunger.
6. Examine the gears for wear, scores and pits. If the gears appear serviceable check for end-float as follows: 7. Clean the pump body and assemble t h e gears. Place a straight edge across the pump body face, as illustrated, and using a feeler gaugc, measure the clearance between the body and gears and the backlash between the gcars. The correct clearances are given in Data.
ST1636M
STlG35M
)121
10. Fit the idler gear to the spindle. 11. Fit the driven gear with plain part of the bore uppermost. See illustration after instruction 9.
ST1637M
12. Smear thc joint face of the body with jointing compound and fit the cover over the dowels and secure witli the lour bolts and spring washers. 13. Hold relief valve bore vertically and insert the plunger with the solid end first. Fit the spring, sealing washer and plug. 14. Fit the oil strainer sealing ring to the pump body followcd by the lock washer and strainer. Tighten the strainer retaining nut so that when fitted the strainer is positioned parallel to the sump baffle plate. Secure the nut with the lock washer tab.
ST1665M
6. Withdraw the camshaft sprocket together with the timing chain and crankshaft sprocket. If necessary use special tool 507231.
1. Remove the bolts and withdraw the timing cover. 2. Before removing the timing chain tensioner check dimension 'A', which with a new chain and sprockets should be 14,22 mm (0.5 in) approximately. This will give an indication of chain wear. The dimension for a fully worn chain is 27 mm (1.06 in). 3. Remove the three bolts and whilst holding the pad inwards, to prevent it falling apart, remove thc tensioner asscmbly. 4. Remove timing chain damper.
46
12
ST7657M
16. To prevent the tensioner releasing, insert a spaccr approximately 2.3 mm thick between the tensioner body and back of the slipper prior to fitting to engine.
12. Assemble the tensioner body to the mounting plate with the two socket headed screws, spring washers and nuts. 13. Insert the spring into the slipper bore. 14. Fit the ratchet over the spring and against spring pressure, insert the ratchet into the slipper bore so that the groove in the ratchet locates over the small dowel inside the slipper bore. Push and turn the ratchet clockwise until it locks in the bore. 15. Insert the slipper assembly into the tensioner body ensuring that the small flat on the slipper shaft faces the mounting plate.
ST 1 662M
47
6 . Fit and adjust the timing chain damper so that there is a maximum clearance of 0,25 mm (0.010 in) between the timing chain and damper.
Tighten thc retaining bolts and secure with new lock tabs.
II
3. Remove the camshaft sprocket. 4. Encircle the camshaft and crankshaft sprockets with the timing chain and keeping it taut on the drive side and with the large shoulder of the crankshaft sprocket towards t h e cylindcr block, fit the sprockets and chain assembly to the engine. 5. Secure the camshaft sprocket to the camshaft with a new special micro encapsulated treated bolt and tighten to the correct torque figure.
1. Fit t h e timing chain tensioner and mounting platc assembly to t h e cylinder block locating i t ovcr the two dowels. 2. Secure the assembly with the three bolts and evenly tighten. 3. Remove the spacer and to release the ratchet, to tension the chain, prcss the pad at point A.
'1
. .: . . .:: . . _..
1. Hold the cylinder head firmly in a vice, wear protective goggles and grind the old insert away until thin enough to be cracked and prised out. Take care not to damage the insert pocket. 2. Remove any burrs and swarf from the pocket. Failure to d o this could cause the new insert to crack when being fitted.
NOTE: Since no special tool is available for fitting a new insert, it is recommended that this work is entrusted to a cylinder head overhaul specialist. FITTING PISTONS AND CONNECTING RODS
2. Check that the crankshaft oil seal journal is undamaged and clean. Make sure the scal housing is clean and dry and free from burrs. Do not touch the seal lip and ensurc that thc outside diameter is clean and dry. 3 . The P.T.F.E seal Part N o ETC 5369 which should be used is supplied with a former to maintain the correct shape and must not be removed until the seal is to be fitted. 4. Using special seal rcplacer 18G 134-11 and with the lip side leading drive-in the seal as far as the tool allows. If the tool is not available fit the seal to the bottom of t h e housing to ensure squarcness.
The delection of the oil spray hole in the connecting rod precludes the necessity of fitting this towards the camshaft side of the engine. See page 18 instruction 5.
. . -.
REMOVE AND REFIT FLYWHEEL HOUSING AND REAR MAlN OIL SEAL
1. Remove the eight bolts securing t h e flywheel housing to the cylinder block and remove the housing and rcar main bcaring oil seal.
.... ..
ST1842M
ST1 699M
50
I 121
NOTE: RTV Liquid Sealant is available under part number RTC 3254 from Land Rover Parts and Equipment Ltd.
-4
5. The gear should revolvc freely in the bush with a clearance of 0,051 to 0,203 mm (0,001 to 0,007 in) between thrust washer and bush.
SKEW GEAR
I . To renew t h e bush, hold thc gear firmly i n a vice without damaging the teeth. If possibie insert a scrap drive shaft in the gear internal splines and grip the shaft. 2. Turn the locknut clockwisc (left-hand thread) to remove and withdraw the thrust washer and bush. 3. Fit a new bush removing any burrs before hand and ensure that the location hole is towards t h e lower end of the gear. 4. Fit a new thrust washer, if the original is worn or scored. Apply Loctite 601 to the thread and fit the locknut turning anti-clockwise and tighten to 27 34 Nm (20 - 25 Ibf.tt).
51
1121
ST1922M
52
Remove the engine from the vehicle. Clean the exterior and in the interests of safety and efficient working, secure the engine to a recognised engine stand. Before commencing, make a careful note of t h e position of brackets, clips, harnesses, pipes, hoses, filters and other miscellaneous items to facilitate reassembly . Removal of the following components is a reversal of the fitting procedure described in engine assembly. 1. 2. 3. 4. Remove the alternator and mounting brackets. Remove the power steering pump and bracket. Rcmove the fan and pulley. Remove the inlet and exhaust manifolds. Disconnect and remove the fuel supply pipes from the injectors and D.P.S. pump and cover the ports. Disconnect coolant by-pass hose from the water pump, release the seven bolts and remove t h e water pump. Drain the sump and remove the dipstick. Remove the starter motor. Restrain the flywheel, remove the crankshaft pulley bolt and withdraw the pulley. Evenly slacken and remove the clutch retaining bolts and withdraw the clutch assembly and centre plate. Remove the two bolts and remove the oil filter assembly complete from the cylinder block. Unscrew t h e filter element and discard. Remove the six bolts and withdraw the rear side plate complete with fuel pump.
Remove injectors complete with spill rail. Disconnect the heater plug electrical connections. Remove the engine lifting brackets. Disconnect oil gallery pipe at rear of engine. Remove three bolts and lift-off the thermostat housing, elbow and thermostat. 6. Remove the rocker cover and slacken the tappet screw lock nuts. Turn the adjusting screws to release them from t h e push rods. 7. Remove the rocker shaft retaining bolts, lift-off the rocker shaft assembly, invert it and secure it to the rocker cover studs to prevent the assembly from falling apart, see instruction 25, page 34 2.25 litre Petrol and Diesel engine. 8. Withdraw the push rods and retain them in numbered sequence. 9. Evenly slacken the remaining cylinder head retaining bolts and lift-off t h e cylinder head. 10. Remove the engine lifting eyes. 11. Using valve spring compressor 276102 or a suitable alternative, remove the valve and spring assemblies keeping them identified with their original locations for possible refitting. 12. Discard the valve spring and valve guide oil seals. Remove carbon deposits from the valves and combustion chambers and degrease all parts ready for examination.
1. 2. 3. 4. 5.
Examine components 13. Examine the cylinder head for cracks and distortion. 14. Burnt, pitted and pocketed seats must be repaired. 15. In addition, worn or damaged valve seats should be renewed, as described later. Hot plugs and injector shrouds -examine and renew
5.
6.
7. 8. 9. 10.
11.
When carrying out normal top overhaul work on the cylinder head i t is not necessary to remove either the injector shrouds or the hot plugs. Small surface cracks in the hot plug, extending from the opening to approximately 8,O mm (0.312 in) in length can be ignored. However, if any severe cracks appear on the face of the hot plugs before attempting to remove it, closely inspect the cylinder head for signs of cracks, particularly between the inlet and exhaust valve seats. Such cracking indicates that the engine has overheated, usually through lack of coolant, and the cylinder head should be scrapped.
12.
53
121
16. To remove a hot plug support the cylinder head, face downwards on two pieces of timber and insert a thin soft metal drift through the injector shroud throat and tap the hot plug from the inside. Once removed, a faulty hot plug cannot be restored and must be scrapped.
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STl422M
ST1428PJ
A - Shroud
B - Hot Plug
20. Fit the hot plugs by tapping with a hide-faced mallet, and locate with a new roll pin. If the hot plugs are loose in t h e cylinder head they may be retained with a little grease. 21. When fitted, the hot plugs must be checked with a dial test indicator to ensure that they do not protrude above the level of the cylinder head face more than 0,76 mm (0.003 in) and are not recessed below the level of the cylinder head face more than 0.025 m m (0.001 in).
17. If the injector shroud is damaged using a 13 mm (1.05 in) t~all bearing and drift, drift the shroud out towards the injector bore.
22
17
,
ST1 429M
/-
Fitting shrouds
18. Thoroughly clean out the combustion chamber. Thc hole in the side of the injector shroud is for manufacturing purposes only bur at the same time can be used as a guide when rcfitting the shroud. 19. Turn the cylinder head lace down. Smear a little oil on the shroud and insert into the cylinder head with the hole pointing towards the centre of the cylinder hcad, and drift into position.
54
22. Check the valve guides lor wcar by inserting a new valve in the appropriate guide 8 mm above the seat. If movement across the head exceeds 0,15 mm (0.006 in) renew the guide. 23. Inspect the valves and discard any that arc burnt, bent or distorted. Check the stems for wear by inserting a new guide. !f *Area: is exces>;i.,re,discard the valve. Valve faces that are pitted or ridged but otherwise serviceable may be refaced. 24. Renew push rods that are bent or have worn or scored ball o r socket ends.
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12
Whilst this is rarely neccssary the procedure is nevertheless as follows: 25. Using an 8 mni taper tap, cut a thread 30 mm (1,2 in) deep in the combustion face end of the tube to be removed. 26. Screw an appropriate bolt into the tube and press out the tube as illustrated. 27. Smear both ends of a new tube with silicone rubber sealant ancl press i t into the cylinder head.
chambers face downwards. Since the inlet and exhaust valve guides are dimensionally different it is important that the correct-guides are fitted to the appropriate ports. 31. Lubricate ncw guides with engine oil and using special drift 600959 for the exhaust and 601508 for the inlet valve guides or suitable alternatives, drive in the n e w guides until the shoulder is flush with the casting.
ST1444M
28. Support the cylinder head, combustion chamber uppermost on pieces of timber of sufficient thickness to allow clearance for the valve guides to be driven out. 29. Using special drift 274400 for inlet guides and 274401 for exhaust guides or suitable alternatives drive out the old guides from the combustion face side.
32. Damaged or worn valve seats can be refaced provided they are not abnormally wide due to repeated refacing operations. See instruction 43.
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55
1121
33. The special set of hand tools recommended for refacing include expandable pilots that fit tightly into new or worn guides to ensure that the valve seat is concentric with valve guide. The refacing tool has tungsten carbide cutters and can be used to cut a seat in a new exhaust seat insert. 34. Select the correct expandable collet for the valvc guide concerned i.e. 8 mm for inlet guides and 8,5 mm for exhaust. 35. Loosely assemble the collet, expander and nuts. Ensure that the chamfered end of the expander is towards the collet.
ST1440 M
ST1439M
36. Insert thc assembled pilot into the valve guide lrom the combustion face side of t h e cylinder head until the shoulder contacts the valve guide and the whole of the collet is inside the valve guide. 37. Expand the collet i n the guide by turning the tommy bar clockwise whilst holding the knurled nut.
39. Fit the wrcnch to the culter head and turn clockwise using only very light pressure. Continue cutting to approximatcly t h c centre of the existing seat.
36
40. To check the effectiveness of the cutting opcration use engineers blue or a feelcr gauge maclc from ceilophane. 41. Smear a m a l l quantity of cngineers blue round thc valve seat and revolve 11 properly ground valve against the seat. A continuous fine line should appear round the valve. If there is a gap of not more thar !2mni it can be corrected by lapping.
56
1121
: -4 ...
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42. Alternatively, insert a strip of cellophane between the valve and seat, hold the valve down by the stein and slowly pull out the cellophane. If there is drag the seal is satisfactory in that spot. Repeat this in at least eight placcs. Lapping-in will correct a small open spot. 43. After several trueing-up or lapping-in operations valve seats may have an excessive width which can be reduced by obtaining special correction cutters which narrow the seat by removing metal from the top and bottom of the seat. A 60" cutter is recommended for bottom narrowing and for top narrowing use a 30" cutter.
Renew inlet and exhaust seat inserts
ST691 M
/ L
.. . . .,.
44. Hold the cylinder head firmly in a vice, wear protective goggles and grind the old insert away until thin enough to be cracked and prised out. Take care not to damage the insert pocket. 45. Remove any burrs and swarf from the pocket. Failure to do this could cause the new insert to crack when being fitted. 36. Assemble the new exhaust insert to the replacer tool number 530625 so that the chamfered edge of the insert is leading. Using a suitable bolt and nut draw the insert into the cylindcr head pocket. 47. Since no tool is available for the inlet scat, use a suitable adaptor to press-in the new seat. Cut a new 45" seat using cutter MS 621.
Inlet valve seat face -45" + %" Exhaust valve seat facc -45" + %"
Inlet valve face -45" - %" Exhaust valvc face -45" - %"
Lap-in valves
49. To ensure a gas tight scal betwccn thc valvc facc and valve seat it is ncccssary to lap-in the appropriatc valve to its seal. It is essential to keep the valve idcntificd with its seat once the lapping-in opcration has bccn completed. 50. Unless the faces to bc lappcd are in poor condition it should only be necessary to usc fine valve lapping paste. Smear a m a l l quantity of paste on the valve face and lubricate the valve stem with engine oil. 51. Insert the valve in t h e appropriatc guide and using a suction type valve lapping tool employ a light reciprocating action while occasionally lifting the valve off its seat and turning i t so that the valvc returns to a different position on the seat.
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48. Valves that are satisfactory for further service can be refaced. This operation should be carried out using a valve grinding machine. Only the minimum of material should be removed from the valve face to avoid thinning of t h e valve edge. The valve is refaced correctly when all pits are removed and t h e face concentric with the stem.
57
1121
52. Continue the operation until a continuous matt grey band round the valve face is obtained. To check that the lapping operation is successful, wipe off the valve paste from the valvc and seat and make a scries of pencil lines across the valvc face. Insert the valve into the guide and while pressing the valve onto t h e seat rcvolve the valve a quarter turn a few times. If all the pencil lincs are cut through no further lapping is required. 53. Wash all traces of grinding paste from the valves and cylinder head seats.
Assembly valves to cylinder head 54. Insert the inlet valves into the guides and fit new oil h seals ~ i t the plain exterior. Ensure that the seal locates i n the groove in the valve guide. 55. Insert the exhaust valves and fit the oil seals with the ste?ped exterior. They are largcr than thc inlet valve scals. 56. Fit the doublc valve spring and cup to each valvc in turn arid using valve spring compressor, 276102 or a suitable alternative, secure the assembly with the multi-groove butting cotters.
ST1431M
56
A
59. Examine the rocker shaft for wear and discard if the bearing surfacc is worn more than 0,025 mm (0.001 in). 60. Inspect t h e rockers and discard if the pads arc worn. It is not permissible to grind pads in an attempt to reclaim the rockers. 61. Renew bushes if the clearance betwecn shaft and bush is in excess of 0,101 to 0,127 m m (0.004 to 0.005 in). 62. Press in replacements ensuring that thc prc-drilled oil holes coincide with the holes in t h e rockers. The following cross section o f a rocker shows thc oil drillings.
54
55
ST1430M
ST1433M
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-4
63. Using a A reamcr 133 nim + 0,2 mm (0.530 in + 4 0.001 in) finish the bushes and clear swarf from the oil holes. 64. Examine the ball-end of t h e adjusting screws and discard any that are worn. Regrinding is not permissable. Check the thrcads for damage and that the oil relief drilling is clear.
Assemble rocker shaft assembly
65. Check that thc oil-ways in t h e rocker shaft are clcar and fit number two rocker shaft bracket to the shaft
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Si1432M
66
2. Wear or scores on the flywheel clutch face can be corrected by machining provided that the overall width of t h e flywheel is not rcduccd bclow 36,96 mm (1.453 in). 3. Check that the flywhccl has not been previously machined. 4. Examine the ring gear teeth and if chipped or worn thc gcar can be renewed.
Reface the flywheel
.. . ...
..
.
,
5. Remove the clutch location dowels. 6 . Machine thc flywheel over the complete clutch face removing only thc minimum niaterial necessary to achieve a smooth flat surface parallel with the crankshaft mating face and within the above width dimensions and fit new dowels.
Renew the ring gear
7. Drill a 8,O mm (& in) hole betwecn the root of any two teeth and the inner diametcr of the starter ring decp enough to weaken the ring. Do not allow the drill to enter the flywheel.
59
ST701 M
9. Heat the new ring gear uniformally to between 225C and 250C but do not exceed the higher figure. 10. Place thc flywheel, clutch face down, on a flat surface and locate the heated flywheel with the square cdge of teeth downward towards the flywheel clutch face and chamfered edge of the teeth uppermost. 1I . Press the starter ring firmly against the flange until the ring contracts sufficiently to grip the flywheel. Allow the ring gear to cool naturally. Do not hasten cooling in anyway.
3 Bend back the lock wa\her and release the n u t securing the strainer to the oil pump body and remove the strainer and sealing ring. 4. Remove four bolts and washers and l i f t off the oil pump cover and lift out the driven and idler gears. (a) driven gear (b) idlcr gear
10
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ST 928M
REMOVE AND OVERHAUL OIL PUMP - Early type 1. Remove the sump. 2. Bend back the lock washers and remove the two bolts securing the oil pump to the crankcase. Withdraw thc oil pump complete with strainer and oil pump drive shaft.
ST591 M
60
12
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6. Examine the gears for wear, scores and pits. If the gears appear serviceable check for end-float as fo1I0ws : 7. Clean t h e pump body and assemble the gears.
Place a straight edge across [he pump body face, as illustrated, and using a feeler gauge, measure the clearance between the body and gears. The correct clearances are as follows: 8. Idler gear 0,07 to 0,015 mm (0.003 to 0.006 in). 9. Driven gear 0,05 to 0,12 mm (0 002 to 0.005 in).
ST911M
12
13. A scored ball valve seat can be restored by using a locally made lapping tool by silver soldering a new ball (part number 3748) onto a length of suitable tube. 14. Install the tube in a drill and lap-in using coarse grinding paste. Finally hand-lap the seat with fine paste using the same diabalo method as for lapping valves. 15. Thoroughly wash the pump body to rcmovc all traces of grinding paste.
10. Gears must be renewed in pairs. A worn, but serviceable gear, must not be matched with a new one. 11. If necessary renew idler gear spindle by drilling-out the peened over end of the spindle so that t h e spindle can be withdrawn from the pump body. To ensure squareness when fitting the new spindle, assemble it into t h e pump body with the two gears. Fit the cover and secure with the four bolts. Support the pump body and peen over the end of the new spindle. Remove the cover and gears and check security of the spindle. 12. If worn, remove the idler gear bush and press in a replacement. Drill the lubrication hole 3.17 mm (0.125 in) and ream the bush to 12,7 m m (0.500 in) diameter.
4
ST694M
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i6. Fit the idler gear to the spindie. 17. Fit the driven gear with plain part of the bore uppermost. See illustration after instruction 9. 18. Smear t h e joint face of the body with jointing compound and f i t the cover over the dowels and the strainer bracket and secure with the four bolts and spring washers. 19. Hold relief valve bore vertically and insert the ball followed by the plunger with the ball seat end first. Fit t h e spring, sealing washer and plug. 20. Fit the oil strainer sealing ring to the pump body followed by the lock washer and strainer. Tighten the strainer retaining nut so that when fitted the strainer is positioned parallel to the sump baffle plate. Secure the n u t with the lock washer tab. 21. Secure the lower end of the bracket to the strainer with the single bolt, spring and plain washer. 61
121
REMOVE AND OVERHAUL OIL PUMF -Later Type I . Remove the sump. 2. Bend back the lock washers and remove the two bolts securing the oil pump to the crankcase. Withdraw the oil pump complete with strainer and oil pump drive shaft.
6. Examine the gears for wear, scores and pits. If the gears appear serviceable check far end-float as follows: 7. Clean the pump body and assemblc the gears. Place a straight edge across the pump body face, as illustrated, and using a feeler gauge, measure the clearance bctween the body and gears. The correct clearances arc given in the Data section 05 book one.
ST1636M
ST1635M
8. Gears must be renewed in pairs. A worn, but serviceable gear, must not be matched with a new one. 9. If necessary renew idler gear spindle by drilling-out the peened over end of t h e spindle so that the spindle can brt withdrawn from !he pump hody. To ensure squareness when fitting the new spindle, assemble it into the pump body with the two gears. Fit the cover and seclire with four bolts. Support t h e pump body and peen over the end of the new spindle. Remove t h e cover and gears and check security of the spindle.
continued
62
1121
10. Fit the idler gear to the spindle. 11. Fit thc driven gear with plain part of the bore uppermost.
ST1637M
12. Smear the .joint face of the body with jointing compound and fit the cover over the dowels and sccurc with the four bolts and spring washers. 13. Hold relief valve bore vertically and insert the plunger with the solid cnd first. Fit the spring, sealing washer and plug. 14. Fit the oil strainer sealing ring to the pump body followed by t h e lock washer and strainer. Tighten the strainer retaining nut so that whcn fitted the strainer is positioned parallel t o the sump baffle plate. Secure the nut with the lock washer tab.
ST1456M
8. Use special puller tool 18G1464/2/6, as illustrated and withdraw the camshaft pulley.
63
)2 11
9. Withdraw t h e crankshaft pulley using complete tool 18G1464/2 and button 18G1464/5.
ST1457M
10. Remove the high and low pressure pipes from the D.P.S. pump and injectors. (If not already removed) and cover, not plug, the ports. 11. Disconnect the pump operating link from the lever on the bracket. (If not already removed). 12. Remove the nut and bolt securing the rear of the pump to thc support bracket. 13. Remove the three nuts retaining the pump to the front cover and withdraw the pump and joint washer.
Fan blades Spacer Fan pulley Special bolt - Later engines, starter dog early engines. 5 . Crankshaft pulley 6. Wading plug 7. Timing cover vent 8. Inspection cover 9. Front cover plate 10. Front cover plate oil scal 11. Water pump 12. Water pump joint washer 13. Cover 14. Timing belt 15. D.P.S. pump pulley 16. Camshaft pulley 17. Jockey pulley (tcnsioner) 16. Coolant gallery joint washer 19. Front cover to cylinder block joint washer 20. Front cover plate joint washcr 21. Camshaft front cover oil seal 22. Crankshaft cover oil seal 23. Triangular joint washer 24. Fibre washer
1. 2. 3. 4.
CAUTION: Do not remove the tappet guides before the rollers otherwise the rollers may fall behind the camshaft.
2. Using long nosed pliers or a suitable bent length of wire lift out t h e tappet slides and identify them with their respectivc guides for possible refitting.
14. Remove the retaining bolts and remove the front cover and gaskets from the cylinder block. Prise out the old oil seals.
64
65
Assemble
7. Fit t h e rotor blades to t h e rotor with thc radius outwards and insert thc rotor into the body. 8. Place a new 0ring seal i n position in the body groove and fit t h e end platc and sccure with the four bo 1t s tight en i n g eve n I y . 9. When fitting pump to engine use a new joint washer and ensure that t h e drive slot fits correctly over the coupling drivc pin.
ST699M
OVERHAUL
SKEW
GEAR
The coupling can be overhauled without separating i t from the skew gear.
Remove skew gear assembly
1. Remove the oil filter housing complete with filter and joint washer. 2. Remove the skew gear bush locating screw. 3. Using long-nosed pliers l i f t out thc skew gear assembly.
pump body.
+ ;; ::.;
e
4
8
ST868M
ST614M
=/ /
1 \I
66
1121
Dismantle
4. With circlip pliers remove t h e retaining circlip. 5 . Withdraw the seal collar and remove the inner and outer seals. 6. Remove the lower circlip and withdraw the sleeve.
Assemble
7. Reassemble the coupling with a n y new parts necessary ensuring that the sleeve fits correctly over the lower cross-pin and secure with the circlip. 8. Lubricate and fit new seals to the collar and insert into the coupling and retain with the circlip. Make sure that the seals are properly located since damaged or misplaced seals could cause reduced engine oil pressure.
1. Position the skew gcar and coupling assembly in a press and support it, as illustratcd, with 18G705-1A or suitable metal bars. 2. Insert a suitable mandrel betwccn the press ram and end of the coupling shaft and press out the coupling from the skew gear.
.'
.. .
Fit new coupling to skew gear 3. Dismantle the new coupling, as described in This is necessary, sincc in thc 'Coupling Ovet-ha~il'. assembled condition there is no suitable surface for the press tool to bear upon. NOTE: See 2.5 litre petrol engine supplement for details of the latest skew gear bush retension.
67
I12I
4 Dismantle also the old coupling and use the sleeve to manufacture a suitable press tool. Use a round section file to increase the depth of t h e cross-pin slot so that i t will not bear upon the cross-pin when used to press in the new coupling. Weld a suitable length of steel bar or tube to the sleeve to complete the tool. 5 . Fill the annular groove round the splines of the coupling with silicone rubber sealant. 6 . Assemble the skew gear and coupling with the manufactured press tool in position inside the coupling a n d place under the press and slowly press in the new coupling. Clean o f f surplus sealant and swarf from the internal splines of the skew gear.
During the following instructions it is important that all components are kept in related sets and the pistons are identified with their respective bores. 1. Turn the crankshaft to bring the connecting-rod caps to an accessible position and remove each cap and lower shell in turn. Note that the connectingrod caps arc numbered one to four.
2. Push each piston assembly up the bore and withdraw from the cylinder block. Assemble the caps and shells to the connecting-rods and place to one side for inspection with the cylindcr block at a later stage.
REMOVE AND INSPECT CRANKSHAFT
1. Remove the eight bolts securing the flywheel housing to the cylinder block and remove the housing and rear main bearing oil seal, and 0 ring. ring has been deleted o n later engincs. The 0
ST7 1 8M
68
1121
.- , ;
,: * ..2
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2. Remove the main bear~ng caps and shells and lift out the crankshaft. Collect the bearing shells from the bearing saddles and the thrust washers from the centre saddle.
1. Remove the four jet tubes, see Engine assembly for illustrations and details. Degreasc the cylinder block and carry out a thorough visual cxamination checking for cracks and damage. To check the main bearing caps and saddles for distortion. Fit the main bearing cap without bearing shclls and tighten to the correct torque. Slacken and remove the bolt on one side of each bearing cap and check with a feeler gauge that no clearance exists at the joint face between thc cap and saddle.
-ST719M
>, vJ
3. Degrease t h e crankshaft and clear out the oil ways, which can become clogged after long service. 4. Examine visually, the crankpins and main bearing journals, for obvious wear, scorcs, grooves and overheating. A decision at this stage should be made as to whether the condition of the shaft is worth continuing with more detailcd examination. 5 . With a micrometer, measure and note the ovality and taper of each main bearing journal and crankpin as follows: 6. Ovality - Taketwo readings at right angles to each other at various intervals. The maximum ovality must not exceed 0,040 mm (0.0015 in). 7. Taper - Take two readings parallcl to each other at both ends of the main bearing journal and crankpin. The maximum permissable taper must not cxcccd 0,025 mm (0.001 in). 8. To check for straightness, support thc front and rear main bearing journals in V blocks and position a dial indicator to check the run-out at the centre main bearing journal. Run-out must not exceed 0,076 mm (0.003 in) taking into account any ovality in the centre journal. The overall allowable wear limit should not exceed 0,114 mm (0.0045 in) for main bearing journals and 0,088 mm (0.0035 in) for crankpins. A crankshaft worn beyond the limits of maximum taper, ovality and overall wear can be ground to 0.25 mm (0.010 in) undcr size. NOTE: Fer regrindhg inf3r1m?icr.see page 8 2.25 litre petrol and Diesel engine overhaul.
2. Measure t h e cylindcr borcs for ovality, taper and general wear, using any suitable equipment. However, an inside micrometer is best for checking ovality and a cylinder gauge for taper. 3. Check the ovality of each bore by taking measurement at the top of the cylinder just below t h e ridge at two points diametrically opposite. The difference between the two figurcs is t h e ovality of the top of the bore. Similar measurements should be made approximatcly 50 mm (2.0 in) up from the bottom of the bore $0 that t h e overall ovality may be determined. 4. Thc taper of each cylinder is dctermined by taking measurements at the top and bottom of each bore at right angles to the gudgeon pin linc. The difference between the two measurements is the taper. 5. To establish maximum overall bore wear, take measurements at as many points possible down the bores at right angles to the gudgeon pin line. The largest recorded figure is the maximum wear and should be compared with the original diameter of the cylinder bore. Maximum permissible ovality 0,127 mm (0.005 in). Maximum permissible taper 0,254 mm (0.010 in). Maximum pcrmissiblc overall wear 0,177 mm (0.007 in). 69
E [
If the above figures are exceeded the cylinders must be rebored or sleeved depending upon the general condition of the bores and amount of wear. Alternatively, if the overall wear, taper and ovality arc wcll within t h e acceptable limits and the original pistons are serviceable new piston rings may be fitted. It is important however, that t h e bores arc deglazed, with a hone, to give a crosshatched finish to provide a seating for the new rings. It is vital to thoroughly wash the bores afterwards to remove all traces of abrasive material.
inspect camshaft bearings
12. Press the sleeves squarely into the bore using a pressure of two to three tons. Excessive pressure could damage the sleeve and cylinder block. The sleeves must not be proud of the cylinder block top face or more than 2,54 mm ( 0 , l O in) below the surface. 13. Bore and hone the sleeves to accommodate the pistons with the required clearances, see piston and connecting-rod examination. PISTON AND CONNECTING-ROD INSPECTION
The following checks relating to pistons and rings must also be carried out prior to fitting new pistons to rebored and sleeved cylinder blocks. Until it is decided if new components are required all parts must be kept in their related sets and the position of each piston to its connecting-rod should be noted. 1. Remove the piston rings and gudgeon pin from each piston and detach the connecting-rod.
7. Discard scored, pitted, cracked and worn bearing shells. 8. To determine the maximum wear, assemble the main bearing shells and caps to the crankcase and tighten the bolts to the corrcct torque figure. 9. Using a n inside micrometer, measure each bearing at several points and note the greatest figure. The maximum wear is the difference between this figure and the smallest diameter of t h e corresponding crankshaft journal. The main bearing running clearance is in the data section. 10. The bearing clearances may also be determined by using Plastigauge. Since this method requires the crankshaft to be fitted to the crankcase, the procedure is described under engine assembly.
Fit cylinder sleeves
ST1452M
Cylinder bores that cannot be rebored can be restored by fitting sleeves to enable standard size pistons to be fitted. Sleeving one cylinder only will distort the adjaccrrt bore so sleeving must be carried out in pairs, i.e. cylinders 1 and 2 or 3 and 4. 11. M2chine the cylinder bores to accept the sleeves to 94,425 + 0,012 mm (3.7175 + 0.0005 i n ) . This will givc the sleeve a 0,076 to 0 , I14 mm (0.003 to !!.!!!!45 in) interference fit.
2. Original pistons - Decarbonise and degreasc all components and carry out a visual examination of the pistons and rings and discard any which art u n se rv i cea b I e. Pis tons w h ic h appe it r service ab I e should be subjected to a more detailed examination described under New Pistons.
70
ST1450M -
Normally when an engine is being overhauled the piston rings are discarded unless the pistons have been removed for a different purpose and the engine has only completed a small mileage. Before refitting the piston the rings should be examined for wear and damage. In addition the rings must be checked for side clearance in the pistons and gap in the bores. The latter two checks must be made when fitting new rings to new and used pistons. 8. Check gap When chccking the ring gap in worn bores, but are neverthclcss within the acceptable taper and ovality limits, the ring must be inserted squarely into the bottom of the bore at the lowest point of the piston travel. To ensure squareness of the ring push the ring down the bore to the correct position with a piston. With newly machincd bores, the ring may be inserted squarcly into any position in the bore. 9. Using an appropriate feeler guage check the gaps of all the rings, in turn, including the oil control ring assembly. The correct gaps are listed in the Data Section. If any gap is less than that specified, remove thc ring, and file the ends squarc, whilst holding the ring in a filing jig or vice. Should any gap be excessively wide and not likely to close-up to within the specified limits when hot, an ovcrsizc ring shou!d be fitted.
7 . If garige equipment is not available the clearance can be assessed by placing a long, suitably sized, feeler gauge down the thrust side of the bore and inserting the appropriate piston, upside down, in the bore and position it with the gudgeon pin parallel to the crankshaft axis. Push the piston down the bore and stop at the tightest point and whilst holding the piston still, slowly withdraw the feeler gauge. If a steady resistance of approximately 2,s kg (6 Ibs) is felt, the clearance is satisfactory.
E l
10. It is important that clearances are correct. Rings that are too tight will bind when hot, imparing the radial pressure causing possible loss of comprcssion. Excessive clearancc will allow the rings to rock in the grooves and the resulting pumping action could cause excessive oil consumption and eventually broken rings. 11. Fit the oil control ring to t h e bottom groove. Fit the unpolished compression ring with the word TOP uppermost to the second groove. Insert the polished chrome ring with an internal chamfer and the word TOP uppermost to the top groove. 12. Alter fitting each ring, roll it round the piston groove 10 ensure that i t is free and does not bind. 13. Using an appropriate feeler gauge check the clearance betwcen the rings and piston grooves. Clcarances in excess of 0,012 to 0,152 mm (0.004 t o 0.006 in) are unacceptable and the ring and or the pistons should be renewed. Compression rings - 0,06 to 0,011 mm (0.0025 to 0.0045 in). Oil control ring - 0,038 to 0,064 m m (0.0015 to 0.0025 in).
16. Check the connecting-rods and caps for distortion as follows; fit the correct cap, less the bearing shells, to each connecting-rod as denoted by the number stanipcd near the joint faces. This number also indicates the crankshaft journal to which it must be fitted. 17. Tighten the nuts to the correct torque and release the nut on one side only. Check, with a feeler gauge, that no clearance exists between the joint faces. If there is a gap the connecting-rod is distorted and should be renewed.
13
ST716M
ST1449M
14. Check the gudgeon pin for wcar, cracks, scores and overheat i n g . 15. The gudgeon pin fit in the piston must be tight push fit at a lcmperature of 68F (20C). Chcck the gudgeon pin for ovality and taper using a micrometer.
18. Use an accurate connccting-rod alignment gauge to check thc rods for bend and twist. The maximum allowable for both conditions must not exceed 0,127 m m (0.005 in). 19. Examinc and check the small-end bush for wear. If necessary rcnew the bush. The correct clearance of the gudgeon pin in the small-end bush is given in Gencral specification data. 20. When rcnewing a bush ensure that the oil hole in the bush lines up with the hole in the connectingrod. Finish the bush to the correct size and clearance. 21. Connecting-rod bearings that are worn, pitted, scored and show signs of ovcrheating must be discarded. If more than one of the bearings show these signs they must all bc rcncwed. When fitting new o r used bearings to serviceablc crankpins the clearances must be checked.
Connecting-rod bearing nip and clearance
!f-.U
New bcaring halves are supplied with a protective coating and must be degreased before fitting. 22. Fit the bearing halves to the connecting-rod and cap and secure the assembly with the correct torque. Slacken the nut on one side only and check the clearance between the joint faces with a feeler gauge.
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72
1121
. .
M .!. + : ; ,
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. .
The clearance should be between 0,lO and 0,20 mm (0.004 and 0.008 in). The bearing nip can be adjusted by the selective assembly of the bearing shells which are available in slightly varying thickncsscs. Do not file or machine the caps o r rods to vary t h e bearing nip. Make a final check to prove the clearance by inserting a 0,063 (0.0025 in) shim paper between the crankpin and one half of the bearing and tightening to the correct torque. The connecting-rod should resist rotation and move freely with the shim paper removed. As an alternative, the bearing clearances can be determined by using Plastigauge which consists of a thin piece of plastic material a few hundreds of a millimeter or thousands of an inch in diameter. When the material is flattened by being squeezed between the bearing and crankpin the width of the plastic is measured by a scale gauge which indicates the clearance. 23. Wipe any oil from the crankpins and place a piece of Plastigauge across the centre o f the bearing in the connecting-rod cap. Assemble the rod to the appropriate crankpin and tighten to the correct torque. Do not rotate thc connecting-rod or crankshaft during this operation. 24. Remove the connecting-rod cap and bearing shell and using the scale supplied measure thc flattened Plastigauge a t its widest point. The graduation that most closely corresponds to the width ol the Plastigauge indicates the bearing clcarance. The correct clearance with new or overhauled components is 0,019 to 0,063 mm (0.0007 to 0.0025 i n ) . 25. Wipe off the Plastigauge with an oily rag. Do not scrape off otherwise it may damage the crankpins.
Connecting-rod end-float
26. Fit the connecting-rods complete with bearings to their respective crankpins. Move the connectingrod to one side and check the clearance, with a feeler, on the opposite side. The correct clearance is between 0,20 and 0,30 mm (0.007 and 0.012 in).
27. The piston must be assembled with the point of the LV,on thc piston crown, on the same side as the bearing shell location slots in the connecting-rod. 28. Inscrt a circlip in one side of the gudgeon pin boss and assemble the piston to the connecting-rod with the gudgeon pin. Secure the assembly with a circlip on the opposite side of the piston.
23
ST 1448 M
73
_.
Oil jet tubes arc fitted to lubricate the pistons and bores directly from thc main oil gallery. 1. The jet iubes are 'Handed' and can only be fitted one way. It is important to note that the jet retaining 'bolt' contains a non-return valve and therefore on no account must an ordinary bolt be used. 2. Clean the recess in the cylinder block using an air line, i f available, to remove any swarf. 3. Assemble and fit t h e jet tube assemblies as illustrated ensuring that the pegs locate in the holes in the cylinder block, and that the larger diameter washer fits under the bolt head. 4 Before tightening the retaining bolts ensure that the small squirt pipes d o not foul the crankshaft or pistons. Firmly tap t h e jet tube assemblies down onto the cylinder block, thus ensuring t h a t the locating dowel is fully home and avoiding any sideways distortion on the retaining bolt. Use ;I tube slightly larger than the bolt head. The old bolt should be discarded and a new bolt fitted. 5 Whcn thc crankshaft and pistons have been fitted slowly turn the crankshaft and check that no fouling occurs. A . Early Type B. Latest Assembly.
New main bearing halves are supplied with a protective coating and must be degreased before fitting. 1. Fit the bearing halves in t h e crankcase saddles and caps and secure the caps to the crankcase and tighten to the correct torque. Slacken the bolts on one side of the caps only and, with a feeler gauge, check the gap between the joint faces. The clearance or nip must be within 0.10 to 0,15 m m (0.004 to 0.006 i n ) . The bearing nip can be adjusted by selective assembly of the bearing halves available in varying thicknesses. Do not file or machine the caps or saddles to achieve thc correct clearance. Note that thc rcar main bearings are wider than the rcmaining four. 2. To make a f i n d check that the clearance is correct. leave the bearing halvcs in the crankcase saddles and carefully lower the crankshaft into position. Check each bearing in turn by inserting a 0,063 mni (0.0025 in) shim papcr between the bearing cap and crankshaft journal and tighten the bolts to the correct torque. If the clearance is correct, thcrc should be a slight increase in the resistance to rotation of the crankshaft.
As an alternative 'Plastigauge' may be used to check the clearance in the same manner as with the connecting-rod bearings. This material may also be used to determine the amount of wear in used bearings and journals.
I
ST1789M
74
.
2.50 LITRE DIESEL ENGINE
3 . Locate the crankshaft in position on the upper bearing halves in the crankcase and wipe any oil from the ,journals since Plastigauge is soluble i n oil. Place a piece of Plastigauge across the lower half of each crankshaft journal or lower bearing cap she!l. Fit the cap and tighten to the correct torque. Remove the cap and bearing and using the scale supplied with the Plastigauge measure the flattened Plastigauge at i t s widest point. The graduation that most closely corresponds with the width of the Plastigauge indicates the bearing clearance. The correct clearance with new or overhauled components is included in General specification data section. If new bearings are being fitted use selective assembly to obtain the correct clearance. Wipe off, not scrape the Plastigauge with an oily rag from the journals or bearings.
!::c;,., ,.!!.>~,,. _ I
5. Place the crankshaft in position in the crankcase and mount a dial test indicator to read-off the end of the crankshaft. A feeler gauge may be used instead of an indicator. 6. Determine the end-float by moving the crankshaft away from t h e indicator and zero the dial. Move the crankshaft in the opposite direction and note the indicator reading. Alternatively measure the clearance with a feeler gauge. The end-float should be 0,OS to 0,15 mm (0.002 to 0.006 in). 7. If adjustment is required substitute with oversize thrust washers. Variation of thrust washer thickness at each side of crankshaft journal must not exceed 0,08 mm (0.003 in) to ensure t h a t the crankshaft remains centralised.
Sl
9. Ensure that number five main bearing cap is clean and free from old cork seal material. Attach the cork seal guides number 270304 to the crankcase, as illustrated, and ensure that they are parallcl ihc ciaiikcase edge.
75
ST
T
10. To prevent any cork seal material becoming trapped between the bearing cap and crankcase, chamfer the inner edge of the corks 0,40 to 0,80 mm(& to B in) wide as illustrated. Immcrsc the cork seals in engine oil and fit them to the bearing cap.
13. Check that the crankshaft oil seal journal is undamaged and clean. Make sure the seal housing is clean and dry and free from burrs. Do not touch the seal lip and ensure that the outside diameter is clean and dry. The P.T.F.E Seal Part No. ETC 5369 which should be used is supplied with a former to maintain the correct shape and must not be removed until the scal is to be fitted. 14. Using special seal replacer 18G 134-1 I and wilh the lip side leading drive-in the seal as far as the tool allows. If the tool is not available fit thc scal to the bottom of the housing to ensure squareness.
P,.:
a -
11. Fit the bearing cap and lower shell to the crankcase and secure with new bolts and washers and tighten to the appropriate torque. 12. To allow for shrinkage after fitting leave the cork seals standing proud of the crankcase sump face. If possible delay the fitting of the sump for approximately twelve hours and leave t h e seal protruding 2,40 mm (:& in) and then place a o.>w mm ( % in) washer over the seal and cui off the surplus. If it is necessary to fit the sump immediately, trim the seals off leaving 0,80 mm ( h in) proud, that is, t h e thickness of the above washer. Apply Hylomar SQ32M to the protruding end of the seals.
I
ST 1828M
m r n
l7:& A . li ~ . i i LIIC r
U I I J I SGCII LU ~
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&-
16. Examine the seal guide number 18G 1344 and repair any damage that could destroy the seal lip. 17. Lubricate the outside diameter of the seal guide and t h e seal journal with concentrated Oildag in a 25% solution with clean engine oil.
T &y..?!
11,.
.J
76
1121
18. Place the seal guide on the crankshaft flange and, using the two dowels protruding from the cylinder block rear face as a guide to ensure initial squareness, fit the flywheel housing and removc the seal guide. Secure the flywheel housing evenly tightening the retaining bolts.
19. In place of the 0 seal a bead of Hylogrip 2000 ring sealant must be applied to the rear facc of the flywheel housing to the dimensions and configuration as illustrated below. The illustration has been produced full size so that a template may be made to facilitate the application of the sealant. The bead should be 5 3 mm wide and 0,25 mm thick. 20. Fit the housing following instructions 17 to 19.
-. ..
ST730M
ST1675M
77
112I
1. Turn the crankshaft to position numbers one and four crankpins at bottom dead centrc to facilitatc fitting thc connecting-rods. 2. When fitting the connecting-rods and pistons ensure that t h e bolts d o not foul and damage the crankpins. As a precaution it is recommended that rubber or soft plastic sleeves are placed over the threads. 3 . The connecting-rod bolts have essentric heads which locate in a recess in the connecting-rod. It is essential that the head of each new bolt is properly located before tightening. 4. Stagger the compression rings so that the gaps are equidistantly spaced round the piston but, so arranged, that n o gap is positioned on the thrust side of the piston i.e. opposite t h e camshaft. Turn the oil control ring so that the gap is in line with the gudgeon pin. 5 . Lubricate the cylinder walls, piston rings and crankpins. Compress t h e pistons rings with a suitable compressor tool and carefully lower the connecting-rod into the bore ensuring that the piston is assembled in accordance with instruction 27 under Assemble pistons to connecting-rods. Also the point of thc arrow hcaded valve clearance indentation in the piston crown, must face the camshaft side of the engine. 6. Using a soft mallet, sharply tap the piston into the bore so that t h e whole of thc piston is just below the surface of t h e cylinder block.
ST1446M
78
1 121
1. If the same parts are being refitted ensure that they are returned to their original positions. Ensure that t h e tappet slides move freely i n the guides. 2. Insert the tappet guides into the cylinder block and align the locating screw holes. 3. Fit the tappet rollcrs ensuring that they are fitted in accordance with the marks made during removal. N e w rollers, however, may be fitted either way round. 4. Before fitting the tappet slidcs make sure the oilways are clear to the tappet bearing surface, the cross drilling and the oil feed to the push rod. 5. Insert the tappet slidcs with the word 'FRONT' towards the front of the engine. 6 . Secure the tappet guides with NEW Micro encapsulated scie'*s and tighten io ccjr,-eci torque figure. Micro encapsulated screws should also be used on engines where the screws werc originally wired for security.
STl674M"/
I I\
79
1121
2 . Offer up the flywheel to the crankshaft and secure with the reinforcing plate and retaining bolts. Evenly tighten the bolts to the correct torque figure. 3. To check the flywheel run-out, mount a dial test indicator so that the stylus rests, in a loaded condition, on the clutch pressurc face at a radius of 114 mm (4.5 in). 4. Turn t h e flywheel, and check that the run-out does not exceed 0.05 to 0.07 mm (0.002 to 0.003 in). Should the run-out be excessive, remove the flywheel. and check again for irregularities o n flywheel and crankshaft mating faces and dowel.
3 . With the lip side leading drive in the new seal using special tool 18G 1456, until the seal is approximately 0,5 mm below the inner face of the cover.
ST1523M
4. Drive in a new seal, lip side leading until flush o r approximately 1.0 mm below the inner surface using special tool 18G1482.
FRONT
COVER,
SEALS
AND
1. Fit new cover joint, triangular gasket, and water gallery gasket, to the cylinder block. 2. Fit and secure the rear cover with the eight bolts refering to the chart for location of the various length bolts (in mm). 30
continued
ST617M
25
80
1121
5. Fit the camshaft front inspection cover complete with thc D.P.S. pump rear rear support bracket. Using a new joint washer evenly tighten the six bolts. 6. Fit pump joint washer and loosely secure pump to cover with the three nuts and to the rear support bracket with the single nut and bolt. Position the pump so that the retaining studs are midway in the flange slots.
ST1521 M
9. Apply Loctite 518 to the pulley face as illustrated; d o not allow sealant to contact chamfercd face. Lightly oil the crankshaft and pulley borc and fit the pulley, with timing dot outwards, and drive into position using a suitable tube as a drift.
7. Fit D.P.S. pump pulley, and loosely secure with thc nut.
ST19?1M
8. Fit pulley, boss towards engine, and loosely secure with special washer, '0' rings, plain washer and new bolt. DO NOT drive pulley onto camshaft. Draw pulley on with a slave 10 m m diameter metric bolt, plain washer and nut.
ST1693M
81
I 121
The D.P.S. pump and valves are timed using the exhaust valve peak of number one cylinder. On early engines the exhaust peak position is determined by the relationship of a line, marked E.P. on the flywheel perifery and a timing pointer on the flywheel housing. The pointer is available under Part Number ERC 2250. 1. Turn the crankshaft in a clockwise direction until the E.P. mark on t h e flywheel lines-up exactly with the pointer. If the crankshaft is inadvertently turned beyond the E.P. mark do not turn it back but continue on round in a clockwise direction until the mark and pointer coincide exactly.
7. Set a dial type torque wrench to 29,O to 23,5 Nm (21 to 17 Ibs ft) and whilst holding it vertically, insert the drive peg into thc square hole in the tensioner base plate. Tension the bclt and tighten the clamp nuts to the correct torque.
2. Check that the dot o n the crankshaft pulley and the cast-on arrow on the rear cover line-up. 3. Fit the timing belt tensioner assembly and loosely secure with the two nuts (strap deleted o n later models). 4. Turn the D.P.S. pump pulley clockwise until the dot lines up exactly with arrows in t h e rear cover. 5 . Similarly, turn the camshaft pulley clockwise so that the dot coincides exactly with the cast-on arrow. 6. Fit the timing belt over the crankshaft pulley and whilst keeping the belt under tension, by hand, run the beii over the carnsiiafi puiiey. if iiie beit does not quite mate with the grooves, turn the pulley clockwise the necessary amount. Feed the belt over the pump pulley and if necessary turn the pulley clockwise to locate in the grooves. Keeping a firm grip on the belt pass i t over the tensioner wheel.
8. Rotate the engine TWO complete revolutions. 9. Slacken the tensioncr clamp nuts. 10. Tension the belt again as described in instruction 7 and tighten the clamp nuts to the correct torque.
CAUTION: The double tensioning procedure is imperative, otherwise the belt could fail resulting in serious engine damage. See CAUTION Page 84 and Care of beits.
11. Rotate the crankshaft until, the E.P. mark on the flywheel and the pointer line-up. 12. Check that the dots on the pump and camshaft pulleys coincide exactly with their respective arrows. If there is any misalignment thc procedure must be repeated.
82
112
, :,
. -.
13. Remove the plug from the side of the D.P.S. pump and insert gauge tool 18G 1458 and if necessary rotate the pump body until the gauge can be fully inserted and screwed home indicating that the inner disc is centrally positioned with the hole. 14. Evenly tighten the three nuts securing the pump to the cover and the single n u t and bolt to the support bracke t . 15. Align timing pointer on rear of cover, with the scribed line on the pump flange and tighten t h e two screws. If a new pump is being fitted and there is n o scribed line, scribe a line in the centre of the machined area on the pump flange. Align the timing pointer and tighten the screws. On later engines the timing pointer has been deleted and instruction 15 can be ignored.
1. Remove the plug from the flywheel housing and fit the body of special tool LST 107 without the pin. 2. Turn the crankshaft in a clockwise direction until the E.P. slot in the flywheel is in-line with the hole in the flywheel housing. If the crankshaft is inadvertently turned beyond the E.P. slot, do not turn the crankshaft back but continue on round in a clockwise direction until the pin of the special tool can be fully located in the flywheel slot.
1
16. Tightcn the D.P.S. pump timing pulley n u t and thc camshaft pullcy retaining bolt to the correct torque. 17. Remove the timing pointer from t h e flywhecl housing, close the cover and secure with the two nuts.
Time D.P.S. PUMP AND VALVES - Later Engines with slot in flywheel for determining the E.P.
The D.P.S. pump and valves are timed using the exhaust valve peak of number one cylinder. This is determined on later engines by the relationship of a slot in the flywheel periphery and a plugged hole in the flywheel housing through which a flywheel timing pin, special tool number LST 107, is inserted.
3. Fit the timing belt tensioner assembly and loosely securc with the two nuts. 4. Turn t h e D.P.S. pump pulley clockwise until the dot on the pulley lines-up exactly with the cast-on arrow inside the front cover. 5. Similarly, t u r n the camshaft pulley clockwise until t h c dot lines-up with the cast-on arrow in the front covcr. 6. Fit a new timing belt over the crankshaft pulley and whilst keeping t h e belt under tension, by hand, run the belt over the camshaft pullcy. Should thc belt not quite mate with the grooves, turn the pullcy clockwise the necessary amount. Fced the belt over t h e D.P.S. pump pulley and if necessary turn the pulley clockwise to locate in the grooves. Keeping a firm grip on t h e belt, pass i t over the tensioner jockey pulley. 7. Withdraw the special tool timing pin from the flywheel slot. 8. Set a dial type torque wrench to 20.0 to 23.5 N m (21 to 17 Ibs f t ) and whilst holding it vertically, insert the drive peg into the square hole in the tensioner base plate. Tension the belt and tighten iiie ciamp n u t s to the correct torquc. 9. Rotate t h e crankshaft TWO complete revolutions. 10. Slacken the tensioner clamp nuts. I 1 . Tension the belt again as described in instruction 8 and tighten the clamp nuts to the correct torque.
83
12
CAUTION: The double tensioning procedure is imperative otherwise the belt could fail resulting in serious engine damage. Also, if a new belt is not attainable and it is necessary to refit the old belt it should be only torqued to 19-24 Nm (14-18 Ibs ft).
12. Rotate the crankshaft until the pin of the special timing tool can, once again, bc inserted into the flywheel E.P. slot. 13. Check that t h e dots on the camshaft and D.P.S. pump pulleys coincidc exactly with their respective cast-on arrows on thc rcar covcr. Should there be any misalignment the foregoing procedure must be repeatcd.
STl518M
17. Remove the special tool LST 107 and refit the plug to the flywheel housing. 18. Tighten the D.P.S. pump pulley nut and the camshaft pulley retaining bolt to the correct torque.
Care of belts
14. Remove the plug from the side of the D.P.S. pump and insert special tool 18G 1458 and if necessary rotate the pump body until the tool can be fully inserted and screwrd home indicating that the inner disc is centrally positioned with the hole.
1. Drive belts must be stored on cdge on a clean flat surfacc and in such a manner that bends are not less than 2 in (50 mm) radius. 2. When a belt is handled, it must not be bent at an acute angle or an arc of less than 1 in (25 mm) in diameter, as damage rriay be caused to the glass fibrc reinforcement and premature failure then result. 3. During use, a belt develops a wear pattcrn, thereforc, if it is to be re-used, before removal, mark the direction of rotation, using soft chalk or a similar marker, and refit the belt so that it runs in the original dircction. 4. Belts must be dry and FREE FROM ANY OIL OR OTHER FLUID CONTAMINATION. 5 . Do not turn the crankshaft by applying leverage to the camshaft pulley or its retaining bolt. 6. To remove a belt always use clean hands, or a recommended tool - NEVER use a lever.
t'-S
84
12
1. Place a new joint washer in position and insert the centre 65 mm long bolt into the cover with the fibre washer on thc inside. 2. Fit the cover over the dowels and secure with the remaining various length bolts in accordance with the chart. See Fit timing rear cover, seals and pulleys. Tighten evenly to the correct torque. 3. Fit the vent cover gauze and gasket and secure with the four bolts. 4. Fit a new crankshaft seal. Using special seal replacer tool 18G 1456 and with the lip side leading, drive in the seal up to the shoulder.
5 . Clean the sump and crankcase mating faces and fit a new joint washer. Later engines without a joint washer, apply a bead of RTV HYLOSILL 102 black 7 m m wide to the sump or cylinder block. Secure the sump with the twenty-one bolts and spring washers and one nut. Evenly tighten to the correct torque.
FIT CYLINDER HEAD AND ROCKER SHAFT ASSEMBLY
ST1517M
5. Place a new joint washer in position and offer up the water pump. Fit the different length bolts in accordance with the diagram and evenly tighten to the correct torque. 6. Fit the crankshaft pulley and secure with the special washer and bolt. Tighten to the correct torque figure.
FIT OIL PUMP AND SUMP
1. Clean t h e cylinder head and cylinder block mating faces. Position a new cylinder head gasket on the cylinder block with the word Diesel uppermost. 2. Lower the cylinder head onto the cylinder block using two long bolts to facilitate accurate positioning of the head. 3. Fit the cylinder head retaining bolts except those also used to secure the rocker shaft and leave finger-tight. 4. Insert the push rods ensuring that the ball end locates properly in the spherical seat in the tappet. 5. Whilst holding the rocker shaft assembly together, lower it into position making sure that the hollow dowels locate properly in the cylinder head. Also ensure that the rocker adjusting screw ball end locate in the push rods. 6. Fit the rocker shaft large retaining bolts and leave finger-tight.
1. Fit the longer splined end of the drive shaft into the oil pump. 2. Fit the oil pump and drive shaft to the crankcase, whilst revolving the shaft as necessary to engage the splines of the skew gear. 3. Using new lock washers, secure the pump to the crankcase tightening the bolts to the correct torque and bend over the lock tabs. 4. If necessary adjust the position of the strainer so that it is parallel to the sump baffle plate.
..
I12I
7. Tighten the cylinder head retaining bolts, evenly, to the correct torque figure in t h e sequence illustrated below. 8. Fit and tighten the rocker shaft, small bolts to the specified torque.
6. Using a new gasket, fit the rocker cover and secure with the dome nuts and washers. Tighten evenly to the correct torque. Do not overtightcn.
ST 880M
FIT THE CLUTCH 1. Clean the flywheel face and place the centrc plate with the side marked Flywheel side towards the flywheel. 2. Fit the clutch assembly locating i t over the three dowels and loosely securc with thc six bolts. 3. Centralise the centre plate using special tool RO 605022 or a spare primary shaft and tighten thc six bolts evenly to the correct torque figure. Smear thc splines of thc centrc plate with Molybdenum disulphidc grease, such as Rocol MTS 1000.
5 ,
-Fit.-
%-:
clearances. 2. Turn the engine over until number eight valve (counting from front of engine) is fully open. 3. Using a 0,25 mm (0.010 in) feeler gauge check the clearance between the valve tip and rocker pad of number one valve. 4. Adjust the clearance by slackening the lock nut and turning t h e tappet adjusting screw clockwise to reduce clearance and anti-clockwise to increase clearance. Rechcck the clearance after tightening the lock nut.
ST764M
86
112)
. ...,. .> .
. .. .. . ... ,
1
- 2
1. Connect the oil feed pipe, for lubrication of the rocker shaft assembly, to thc cylinder head 2. Secure with the two banjo bolts and four join! washers.
1. If the fuel lift was separated from the side cover, fit the pump to the cover first using a new joint washer between the pump flange and rear cover, evenly tighten the retaining nuts. 2. Place a new cover plate joint washer in position and fit the cover and pump assembly to the cylinder block. 3. Ensure that the pump actuating lever rides on top of the camshaft. 4. Secure t h e cover, evenly tightening the retaining bolts.
3 . Smear a little clean enginc oil on the rubber washer of thc new filter, then screw the filter on clockwise until the rubber sealing ring touches the machined
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LULL,
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L I I L L L LI~IILLII
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87
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1. Place a new joint washer on the cylinder block face. 2. Fit the D.P.S. pump control bracket. 3. Insert the vacuum pump drive shaft into the skew gear coupling ensuring that the shaft engages properly over the cross pins in the coupling. The hose connection should be towards the front of the engine. 4. Secure the pump and control bracket to the cylinder block with the three socket headed screws.
Used when an oil cooler is fitted. 1. Remove the two bolts and carefully withdraw the thermostat extension housing. 2. Remove t h e 0 ring. 3. Withdraw the thermostat. 4. Remove the washer. 5 . Remove the spring. 6. Clean the adaptor housing with lint-free cloth. 7. Fit the spring and washer. 8. Fit a new thermostat with the pin uppermost. 9. Fit the extension housing using a new 0 ring. Ensure that the pin protruding from thc thermostat locates in the hole in the extension housing. 10. Secure the housing with the two bolts and washers.
5 . Connect the D.P.S. pump control rod to the control bracket lever.
88
12
The steel sealing washer fitted below the injector nozzlc is to ensure that combustion does not take place around the nozzle body and cause it to overheat. A washer which has been used more than once, o r an incorrectly fitted washer may cause the nozzle to overheat and result in that cylinder misfiring. 1. Ensure that the new washers are separated from each other and are clean. 2. Use a length of thin welding wire to guide one washer only into each port with the domed side toward the injector as illustrated. Ensure that only one washer is fitted to each port.
1. Fit the starter motor to the flywheel housing and secure with: a) one stud and n u t b) one single bolt c) one nut and bolt. Evenly tighten to the correct torque.
continued
3 . Lightly grcasc the copper washer into position o n each injector before fitting to the cylinder head. 4. Fit the injector and evenly tighten the retaining nuts to the correct torque. Uneven or overtightening of the injector nuts could distort the nozzle and cause misfiring when normal running temperature is reached.
Fit the injector pipes 2. Fit t h e injcctor pipes to the injectors and D.P.S. pump. Counting from the front of the engine connect the pipes as follows: A. To number 1 injector. B. To number 2 injector. C. To number 3 injector. D. To ilurriber 4 injector. Do not overtighten the union nuts.
89
1121
2. Secure the rear of the motor to the bracket with two bolts and tighten to the correct torque.
1. Using a new gaskct fit the manifolds and secure with the retaining nuts and clamps. Evenly tighten to the specified torque ligure. 2. Connect the breather hose to the oil filler cap.
ST 1550M
Turbo-charged engines 3. Fit a new gasket to the cylinder head. 4. Fit thc air intake manifold and evenly lighten the bolts to the correct torque.
I
L
L -
5. Fit the exhaust manifold and secure with the four socket headed bolts and clamps.
90
12
STl
ST769M
I.
. _.
.,..
4. Fit the drive belt and pivot the alternator away from the engine, but do not apply pressure to the stator or slip-ring end bracket o r damage may result. Tighten t h e clamp bolt and with thumb pressure, check the belt tension between the fan and alternator pulleys which should be 7 to 9 mm at the mid-point. 5 . When the tension is correct fully tighten the clamp bolts and the pivot nuts and bolts.
91
1 121
92
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POSSIBLE CAUSE
34. Low oil level in sump 35. Low oil pressure 36. Excessive bearing clcarance 37. Burnt-out bearings 38. Loose bearing caps
CURE
Replenish as necessary to high mark on dipstick Worn bearings. Faulty skew, gcar assembly. &cylinder engine . Renew bearings; and o r crankshaft Renew and investigate reason for failure Tightcn to correct torque Chcck for leaks, check expansion tank level Check fan and belt, pump, radiator fins not >locked rest and renew, if necessary Renew Renew Filter, Check pump, Clean strainer. :heck oil circulation. Renew oil temperature :hermosta t . Drain and rcfill with correct oil and renew filter Replensih to high mark on dipstick :lean Rectify Rectify Renew :heck circuit Remove and ascertain cause Pencw 3verhaul oil pump 4sccrtain which bearings and rectify lheck skew gear bearing. Check plug not leakinf )r seals in 2.5 diesel engine. Scc engine overhaul Xemovc and clean
ENGINE O V E R H E A T I N G
- ..
.,,. .....
...:
..
44. 45. 46. 47. 48. 40. 50. 51. 52. 53. 54.
Thin or diluted oil Low oil level Choked pump strainer Faulty release valve Excessive bearing clearance Oil pressurc switch unscrviccablc Elcctrical fault Rclicf valve plunger sticking Weak rcliefvalvc spring Pump rotors cxcessively worn Excessively worn hearings; main. connecting rod. big cnd. camshaft, etc. 55. Faulty skcw gear assembly. 4-cylinder engines
~
I A T T L E IN LUBRICATION ;YSTEM
. ... .
.
57. Sticking valves 58. Weak valvc springs 59. Tappet clearance too wide 60. Deterioration of timing belt Big-end bearing slack o r run Main bearing slack o r run Loose flywheel o r excessive crankshaft end-float Worn gudgeon pins Exccssive valve clcarancc Excessive piston clearance -more apparanl when cold
AECHANICAL NOISES: >owpitch knock >owpitch thud ntermittcnt thuds iigh pitch tap .ight tapping #lapping
93
V8 CYLINDER ENGINE
DISMANTLE AND OVERHAUL Remove the engine from the vehicle and clean the exterior. I n the interests of safety and efficient working secure the engine to a recognised engine stand. Drain and discard the sump oil. Remove induction manifold
Special tools:Guide bolts -605351 Torque wrench - 18G537 Clutch centralising tool - 18G79 Gudgeon pin removerheplacer -Basic tool - 18G1150 Adaptor remover/replacergudgeon pin. - 18G1150E o r 605350 Spring compressor - lSG106A or R0276102 Valve guide drift exhaust -600959 Valve cutter handle set -MS76 8.5 Adjustable pilot -MS150 Valve seat cutter - MS621 Distance piece for valve guide -R0605774 Drift for guide removal - inlet and exhaust R0274401 Crankshaft rear seal sleeve -R01014
3 . Disconnect miscellaneous pipes and hoses from the induction manifold and the carburetters. 4. Evenly slacken and remove the twclve bolts and lift off the induction manifold complete with carburetters. 5 . Wipe away any surplus coolant lying on the manifold gasket and remove the gasket clamp bolts and remove the clamps. 6. Lift off the manifold gasket and seals.
REMOVE ANCILLARY EQUIPMENT Before commencing, and whilst dismantling, make a careful note of the position of brackets, clips harnesses, pipes, hoses filters and other miscellaneous and nonstandard items to facilitate reassembly.
1. Remove the following itemsof equipment: Starter motor. Alternator and mounting bracket. Power stecring pump -whcre fitted. Disconnect spark plug H.T. leads and remove the distributor. Clutch. Fan blades, pulley and drive belt. Remove pulse air rails from cylinder heads. Dipstick and engine mounting brackets.
7. Remove the fifteen bolts and withdraw the water pump and joint washer.
2. Bend back the lock tabs, and remove the eight bolts securing each manifold, and withdraw the manifolds.
94
V8 CYLINDER ENGINE
. .. *.,
.1
1. Remove t h e four screws and lift off the rocker covers 2. Remove the four rocker shaft rctaining bolts and lift off t h e assembly complete with baffle plate.
5 . Remove the split pin from one end of the rocker shaft. 4 . Withdraw the following components and retain them in the correct sequence for reassembly: 7 . A plain washcr. 8. A wave washer. 9. Rocker arms. 10. Brackets. 11. Springs. 12. Examine each component for wear, in particular the rockers and shafts. Discard weak or broken springs.
3. Withdraw the pushrods and retain in the sequence removed. 4. Remove the hydraulic tappets and place to one side with their respective pushrods. If a tappet cannot be removed leave i n position until the camshaft is removed.
S l
13. Hydraulic tappet; inspect inner and outer surfaces of body for blow holes and scoring. Replace hydraulic tappet if body is roughly scored or grooved, or has a blow hole extending through the wall i n a position to permit oil leakage from lower chamber. 14. The prominent wear pattern just above lower end of body should not be considered a defect unless it is definitely grooved or scored. I t is caused by side thrust of t h e cam against thc body while the tappet is moving vertically in its guide. 15. Inspect the cam contact surface of t h e tappets. Fit new tappets if the surface is exccssively worn or damaged. 16. A hydraulic tappet body that has been rotating will have a round wear pattern and a non-rotating tappet body will have a square wear pattern with a very slight depression near the centre. 17. Tappets MUST rotate and a circular wear condition is normai. Tappets wiih ihis w e a r paiierri can be refitted provided thcre are no other defects. 18. I n the case of a non-rotating tappet, fit it new replacement and check camshaft lobes for wear; also ensure the new tappet rotates freely in the cylinder block.
con1inued
95
1121
V8 CYLINDER ENGINE
25. Compress the springs, brackets and rockers, and fit a wave washer, plain washer and split pin to the end of the rocker shaft. 26. Locate the oil baffle platc in place over the rockers furthest from the notched end of thc rocker shaft and fit the bolts through the brackets and place the assemblies to one side.
REMOVE HEADS
AND
OVERHAUL
THE CYLINDER
1. Evenly slacken the fourteen cylinder head bolts reversing the tightening order. 2. Before removing the heads mark them relative to the L.H. and R.H. side of the engine. 3. Lift off the cvlinder heads and discard the gasket.
RR750M
19. Fit a new hydraulic tappet if the area where the pushrod contacts is rough or otherwise damaged. 20. Renew any pushrod having a rough or damaged ball end or seat. Also bent rods must be renewed.
NOTE: Two different rocker arms are used and must be fitted so that the valve ends of the arms slope away from the brackets, as indicated by the dotted lines 'A' on the illustration. 24. Assemble the rocker arms, brackets and springs to the rocker shaft.
4. Remove the spark plugs. 5 . Using the valve spring compressor 276102, or a
suitable alternative, remove the valves and springs and retain in sequence for refitting.
E r _. " - /
--
, ,
/
ST788M
i
. 7
96
V8 CYLINDER ENGINE
6. Clean the combustion chambers with a soft wire
brush. 7. Clean the valves. 8. Clean the valve guide bores.
112)
m-
Fit new valve guides 14. Lubricate the new valve guide and place in position. Using guide drift 600959 drive the guide into the cylinder head until it protrudes 19 mm (Xi in) above the valve spring recess in the head.
9. Regrind or fit new valves as necessary. 10. If a valve must be ground to a knife-edge to obtain a true seat, fit a new valve. 11. The correct angle for the valve face is 45 degrees. 12. The correct angle for the seat is 46 + '/4 degrees, and the seat witness should be towards the outer edge.
NOTE: Service valve guides are 0,02 mm (0.001 in) larger on the outside diameter than the original equipment to ensure interference fit.
ST 793M
15. Check the valve seats for wear, pits and burning and renew the inserts if necessary.
13. Check the valve guides and fit replacements as necessary. Using the valve guide remover 274401, drive out the old guides from the rocker shaft side of the cylinder head.
continued
? :
97
12
V8 CYLINDER ENGINE
16. Remove the old seat inserts by grinding them away until they are thin enough to be cracked and prised out. 17. Heat the cylinder head evenly to approximately 65 degrccs C (1 50 degrees F). 18. Press thc new insert into the recess in the cylinder head.
NOTE: Service valve seat inserts are available in two over-sizes: 0,25 and 0,50 mm (0.010 and 0.020 in) larger on the outside diameter to ensure interference fit. 19. If necessary, cut t h e valve seats to 46 + '14 degrees. 20. The nominal seat width is 1,5 mm (0.031 in). If t h e seat exceeds 2,O mm (0.078 in) it should be reduced to the specified width by the use of 20 and 70 degrec cutters. 21. The inlet valve seat diameter, A is 37,03 mm (1.358 ins) and the exhaust valvc seat is 31,50 mm (1.240 ins) diametcr.
ST1024M
23. Smear a small quantity of engineers' blue round the valve seat and revolve a properly ground valve against the seat. A continuous fine line should appear round the valve. If there IS a gap of not more than 12 mm it can be correctcd by lapping. 24. Alternatively, insert a strip of cellophane between t h e valve and seat, hold the valve down by thc stem and slowly pull out the cellophane. If there is a drag the seal is satisfactory in that spot. Repeat this in at least eight places. Lapping-in will correct a small open spot.
Assemble valves to cylinder head 25. Before fitting the valves and springs the height of each valve above the head must be checked. Insert each valve in turn in its guide and whilst holding the head firmly against the seat, measure the height of the stem above the valve spring seat surface. This dimension must n o t exceed 47,63 mm (1.875 ins). If necessary renew the valve or grind the end of the valvc stem. 26. Lubricate the valve stcms and assenible the valves, springs and caps and secure with the collets using valve spring compressor 276102. NOTE: Seals are fitted to the inlet valves on later engines, but these can also be fitted to early engines if required.
P;;
$ . .* -2 .
ST797M
22. Ensure that the cutter blades are correctly fitted to the cutter head with t h e angled end of the blade downwards facing t h e work, as illustrated. Check that the cutter blades are adjusted so that the middle of the blade contacts the area of material to be cut. Use the key provided i n the hand set MS 76. Use light pressure, and remove only the minimum material necessary.
98
V8 CYLINDER ENGINE
--
1121
Damaged or stripped threads in the cylinder head can be salvaged by fitting Helicoils as follows: I~Ioles - These threc holes may be drilled 0.3906 in. A dia. x 0.937 + 0.040 in. deep. Tapped with Helicoil Tap No. 6 CPB or 6CS x 0.875 in. (min.) deep (g UNC 1%D insert). Holes B - These eight holes may be drilled 0.3906 in. dia. x 0.812 + 0.040 in. deep. Tapped with Helicoil Tap No. 6 CBB 0.749 in. (min.) deep UNC 1MD insert). Holes C - These four holes may be drilled 0.3906 in. dia. x 0.937 0.040 in. deep. Tapped with Helicoil Tap No. 6 CPB or 6CS x 0.875 in. (min.) deep ($U N C 1 %D insert).
(a
Holes D - These four holes may be drilled 0.261 in. dia. x 0.675 + 0.040 in. deep. Tapped with Helicoil Tap No. 4CPB or 4CS x 0.625 in. (min.) deep ( % UNC 1 KD insert).
Holes E - These six holes may be drilled 0.3906 in. dia. x 0.937 0.040 i n . deep. Tapped with Hclicoil Tap No. 6 CPR or 6CS x 0.875 i n . (min.) deep (iUNC lW3 insert).
F Exhaust manifold face G Inlet manifold face H Front face I Rear face J Front of engine
/\
ST 799M
99
E l
V8 CYLINDER ENGINE
6. Place a chisel immediately above the drilled
hole and strike it sharply to split the starter ring gear.
2. Examine the flywheel clutch face for cracks, scores and overheating. If the overall thickness of the flywheel is in excess of the minimum thickness i.e. 39,93 mm (1.572 in) it can be refaced provided that after machining it will not be below the minimum thickness. Remove the three dowels before machining. 3. Examine the ring gear and if worn or the teeth are chipped and broken it can be renewed as follows:
7. Heat the new ring gear uniformly t o between 170 degrees and 175 degrees C (338 degrees to 347 degrees F) but do not exceed the higher temperature. 8. Place the flywheel, clutch side down, on a flat surface. 9. Locate the heated starter ring gear in position on the flywheel, with the chamfered inner diameter towards the flywheel flange. If the starter ring gear is chamfered both sides, it can be fitted either way round. 10. Press the starter ring gear firmly against the flange until the ring contracts sufficiently to grip the flywheel. 11. Allow the flywheel to cool gradually. Do NOT hasten cooling in any way or distorting may occur. 12. Fit new clutch assembly location dowels to the flywheel.
f-3
v . :
ST803M
4. Drill a 10 mm (.375 in) diameter hole axially between the root of any tooth and the inner diameter of the starter ring sufficiently deep to weaken the ring. D o NOT allow the drill to enter the flywheel. 5 . Secure the flywheel in a vice fittcd with soft jaws and piace a cioth over the fiywheei to protect rhe operator from flying fragments.
WARNING: Take adequate precautions against flying fragments when splitting the ring gear.
I
ST804M
100
V8 CYLINDER ENGINE
REMOVE TIMING GEAR COVER AND WATER PUMP Renewing timing cover oil seal
S. Remove the seven drive screws and withdraw the
1. Place an oil drip-tray beneath the timing cover and remove the oil filter element. 2. Remove the crankshaft pulley bolt and special washer and withdraw the pulley. 3. Remove the two bolts securing the sump to the bottom of the timing cover.
ST805M
4. Remove the remaining timing cover retaining bolts and withdraw the cover complete with oil pump.
REMOVE AND OVERHAUL THE OIL PUMP
1. 2. 3. 4.
Remove the bolts from the oil pump cover. Withdraw t h e oil pump cover. Lift off the cover gasket. Withdraw the oil pump gears.
101
12
5. 6. 7. 8.
V8 CYLINDER ENGINE
Assemble pump
Dismantle pump
0 ..__ ...<.
.
,,-,-..
Unscrew the plug from the pressure relief valve. Lift off the joint washer for the plug. Withdraw the spring from the relief valve. Withdraw the pressure relief valve.
17. Insert the relief valve spring. 18. Locate the sealing washer on to the relief valve plug. 19. Fit the relief valve plug and tighten to 4,0 to 4,9 kgf m (30 to 35 Ibf ft). 20. Fully pack the oil pump gear housing with petroleum jelly. Use only petroleum jelly; no other grease is suitable. 21. Fit the oil pump gears so that t h e petroleum jelly i s forced into every cavity between the teeth of the gears.
IMPORTANT: Unless the pump if fully packed with petroleum jelly it may not prime itself when the engine is started.
ST809M
22. Place a new gasket on the oil pump cover. 23. Locate the oil pump cover in position. 24. Fit the special fixing bolts and tighten alternately and evenly to the correct torque.
e:* :.
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..
Examine pump
9. Check the oil pump gears for wear or scores. 10. Fit the oil pump gears and shaft into t h e Front cover. 11, Place a straight-edge across the gears. 12. Check the clcarance betwccn the straight-edge and the front cover. If less than 0,05 mm (0.0018 in), check the front cover gear pocket for wear.
CHAIN
GEARS
AND
1. Remove the retaining bolt and washer a n d withdraw the distributor drive gear and spacer.
continucd
13. Chcck the oil pressure relief valve for wear or scores. 14. Check the relief valve spring for wear at the sides or signs of collapse. 15. Clz.!n the gauze filter for the relief valve. 16. Check the fit of the relief valve in its bore. The valve must be an easy slide fit with no perceptible side movement.
102
ST81lM
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V8 CYLINDER ENGINE
,/ , . : . d h %
112
c.
6. Measure the camshaft journals for overall wear, ovality and taper. The diameters of the five journals are as follows commencing from the front of the shaft. Number 1 journal Number 2 journal Number 3 journal Number 4 journal Number 5 journal 1.786 to 1.785 ins 1.750 to 1.755 ins 1.726 to 1.725 ins 1.696 to 1.695 ins 1.666 to 1.665 ins
7. To check the camshaft for bow, rest the two end journals i.e. numbers 1 and 5 on V blocks and mount a dial gauge on the centre journal. Rotate t h e shaft and note the reading. If the run out is more than 0,05 mm (0.002 in) it should be renewed.
3. Withdraw thc camshaft whilst taking particular carc not to daniagc thc bearings in t h e cylinder block.
REMOVE AND OVERHAUL CONNECTING-RODS AND PISTONS \
1. Withdraw the remaining bolts and remove [he sump. 2. Remove the sump oil strainer. 3. Removc the connccting-rod caps and retain them in sequence for reassembly. 4. Screw the guide bolts 605351 onto the connectingrods.
continued
Examine components
4. Visually examine all parts for wear. Check t h e camshaft bearing journals and cams for wcar, pits, scores and overheating. Should any of these conditions be present the shaft should be renewed. 5. Examine the links and pins of the timing chain for wcar and compare its condition with that of a I.ew chain. Similarly the teeth of t h e chain wheels should be inspected a n d if necessary the wheels should be renewed.
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_ , .
103
V8 CYLINDER ENGINE
5 . Push the connecting-rod and piston assembly up the cylinder bore and withdraw it from the top. Retain the connecting-rod and piston assemblies in sequence with their respective caps. 6. Remove the guide bolts 605351 from the connecting-rod.
d . Locate the piston adaptor 18G 1150 E with its long spigot inside the bore of the hexagon body. e . Fit the remover/replacer bush of 18G 1150 on the centre screw with the flanged end away from the gudgeon pin. f. Screw the stop-nut about half-way onto the smaller threaded end of the centre screw, leaving a gap Aof 3 mm (B in) between this nut and the remover/replacer bush. g. Lock the stop-nut securely with the lock screw. h. Check that the remover-replacer bush is correctly positioned in the bore of the piston. i. Push the connecting-rod to the right to expose the end of the gudgeon pin, which must be located in the end of the adaptor d. j. Screw the large nut up to the thrust race. k. Hold the lock screw and turn the large nut until the gudgeon pin has been withdrawn from the piston. Dismantle the tool.
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continued
Overhaul
NOTE: The connecting-rods, caps and bearing shells must be retained in sets, and in the correct sequence. Remove the piston rings over the crown of the piston. If the same piston is to be refitted, mark it relative to its connecting-rod to ensure that the original assembly is maintained.
7. Withdraw the gudgeon pin, using tool 18G 1150 as follows: a. Clamp the hexagon body of 18G 1150 in a vice. b. Position the large nut flush with the cnd of the centre scrcw. c. Push the screw forward until the nut contacts the thrust race.
b !
ST777M
104
V8 CYLINDER ENGINE
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New pistons Pistons are available in service standard sizc and in oversizes of 0,25 mm (0.010 in) and 0,50 mm (0.020 in). Service standard size pistons are supplied 0,0254 mm (0.001 in) oversize. When ..fitting new service standard size pistons to a cylinder block, check for correct piston to bore clearance, honing the bore if necessary. Bottom of piston skirt-bore clearance should be 0,018 to 0,033 mm (0.0007 to 0.0013 in).
NOTE: The temperature of the piston and cylinder block must be the same to ensure accurate measurement. When reboring the cylinder block, the crankshaft main bearing caps must be fitted and tightened to the correct torque.
9. Check the cylinder bore dimension at right angles to the gudgeon pin, 40 to 50 mm (1'/2 to 2 in) from the top.
-.
Original pistons
Remove the carbon deposits, particularly from the ring grooves. Examine the pistons for signs of damage or excessive wear; refer to 'new pistons' for the
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pistons if necessary.
10. Check the piston dimension at right angles to the gudgeon pin, at the bottom of the skirt. 11. The piston dimension must be 0,018 to 0,033 m m (0.0007 to 0.0013 in) smaller than the cylinder. 12. If new piston rings arc to be fitted without reboring, deglaze the cylinder walls with a hone, without incrcasing the bore diameter to provide a cross-hatch finish.
continued
105
l [ z
V8 CYLINDER ENGINE
13. Check the compression ring gaps in the applicable cylinder, held square to thc bore with the piston. Gap limits: 0,44 to 0,56 mm (0.017 to 0.022 in). Use a fine-cut flat file to increase the gap if required. Select a new piston ring if the gap exceeds the limit.
17. Fit the expander ring into the bottom groove making sure that the ends butt and do not overlap. 18. Fit two ring rails to the bottom groove, one above and one below the expander ring. 19. Fit the second compression ring with the marking TOP uppermost and the chrome compression ring in the top groove, either way round.
ST819M
14. Temporarily fit the compression rings to the piston. 15. The ring marked TOP must be fitted with the marking uppermost and into the second groove. The chrome ring is for the top groove and can be fitted either way round. 16. Check the compression ring clearance in the piston mm (0.002 to groove. Clearance limits: 0,Oj to O , ~ O 0.004 in).
ST821M
Examineconnec*ing-rods
20. Check the alignment of the connecting-rod. 21. Check the connecting-rod small end, the gudgeon pin must be a press f i t .
cont inucd
106
V8 CYLINDER ENGINE
Check crankshaft bearings
112
22. Locate the bearing upper shell into the connectingrod. 23. Locate the connecting-rod and bearing on to the applicable crankshaft journal, noting that the domed shape boss on the connecting-rod must face towards the front of the engine on the right-hand bank of cylinders and towards the rear on the left-hand bank. 24. When both connecting-rods are fitted, the bosses will face inwards towards each other. 25. Place a piece of Plastigauge across the centre of the lower half of the crankshaft journal. 26. Locate the bearing lower shell into the connectingrod cap. 27. Locate the cap and shell on to the connecting-rod. Note that the rib on the edge of the cap must be the same side as the shape boss On the connecting-rod. 28. Secure the connecting-rod cap, and tighten to the correct torque.
IR/II'ORTANT: The connecting-rods, caps and bearing shells must be retained in sets, and in the correct sequence,
....
29. Do not rotate the crankshaft or connecting-rod while the Plastigauge is in USC. 30. Remove the connecting-rod cap and shell. 31. Using the scalc printed on the Plastigauge packet, measure t h e flattened Plastigauge at its widest point. 32. The graduation that most closely corresponds to the width of the Plastigauge indicates the bearing clearance. 33. The correct bearing clearance with new or overhauled components is 0,013 to 0,06 mm (0.0006 !e 0.0022. in>. 34. If a bearing has been in service, i t is advisable to fit a new bearing if t h e clearance exceeds 0,08 mm (0.003 in). 35. I f a new bearing is being fitted, use selective assembly to obtain the correct clearance. 36. Wipe off the Plastigauge with an oily rag. DO NOT scrape i t off.
dismantling, refit cach piston to its connccting-rod as follows: a. Check that the base of tool 605350 and the guide tube are fitted as follows:Place the base of tool 605350 on the bed of a n hydraulic press which has a capacity of 8 tons (8 tonnes). Fit the guide tube into the bore of the base with its countersunk face uppermost. b. Fit the long mandrel inside the guide tube. c. Fit the connccting-rod into the piston with the markings together if the original pair arc being used, then place the piston and connecting-rod assembly over the long mandrel until the gudgeon pin boss rests on thc guidc tube. d . Fit the gudgeon pin into the piston up to the connecting-rod, and the spigot end of the small diameter mandrel into the gudgeon pin. e. Press in the gudgeon pin until it abuts the shoulder of the long mandrel.
continucd
107
V8 CYLINDER ENGINE
d . Lubricate t h e gudgeon pin and bores of the connecting-rod and piston with graphited oil (Achesons Colloids Oildag). Also lubricate the ball race and centre screw of 18G 1150. e. Fit the connecting-rod and the piston together onto the tool with the markings together if the original pair are being used and with the connecting-rod around the sleeve up to the groove. f . Fit the gudgeon pin into the piston bore up to the connecting-rod. g. Fit the removerheplacer bush 18G 115013 with its flanged end towards the gudgeon pin. h . Screw the stop-nut onto the centre screw and adjust this nut to obtain a 1 mm (& in) end-float A on the whole assembly, and lock the nut securely with the screw. i. Slide the assembly back into the hexagon body and screw on the large nut up to the thrust race. j. Set the torque wrench 18G 537 to 12 Ibf ft. This F~::, ,e:>; represents t h e minimum load for an acceptable interference fit of the gudgeon pin in the con necti ng-rod. k . Using the torque wrench and socket 18G 587 on t h e large nut, and holding the lock screw, pull t h e gudgeon pin in until the flange of the remover-rcplacer bush is 4 m m (0.160 in) B from the face of the piston. Under no circumstances must this flange be allowed to contact the piston.
CAUTION: If the torque wrench has not broken throughout the pull, the fit of the gudgeon pin to the connecting-rod is not acceptable and necessitates the renewal of components. The large nut and centre screw of the tool must be kept well-oiled.
D 37
38. If tool 18G 1150 was used for dismantling, refit each piston t o its connecting-rod as follows: a. Clamp the hexagon body of 18G 1150 in a vice, with the adaptor 18G 1150 E positioned as in 4d. b. Remove the large nut of 18G 1150 and push the centre screw approximately 50 mm (2 in) into the body until the shoulder is exposed. c. Slide t h e parallel guide sleeve, grooved end last, onto the centre screw and up to the shoulder.
39. Remove the tool and check that the piston moves freely on the gudgeon pin and that no damage has occurred during pressing.
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ST778M
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V8 CYLINDER ENGINE
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109
112I
V8 CYLINDER ENGINE
10
14
RR1793E
13
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26,97s-27,020 26,97527,026 27,22927,280
10. When a crankshaft is to be reground, the thrust faces on either side of the centre main journal must be machined in accordance with the dimensions on the following charts.
Main bearing journal size Standard 0.25 mm 0.010 in) undersize 0,50 mm t0.020 in) undersize Thrust face width Standard Standard 0,25 mm (0.010 ovcrsize in)
2.0000-2.0005
1.9900- 1.9905 1.9800-1 .'I805
11. For example: If a 0,50 mm (0.020 in) Undersize bcaring is to be fitted, then 0,12 m m (0.005 in) must be machined off each thrust face of thc centre journal, maintaining the correct radius.
16. Remove the oil seals from the cylinder block and the rear main bearing cap. 17. Locate the upper main bearing shells into the cylinder block. These must be the shells with the oil drilling and oil grooves. 18. Locate the flanged upper main bcaring shell in the centre position. 19. Place the crankshaft in position on the bearings.
Crankshaft dimensions 12. The radius for all journals except the rear main bearing is 1,90 to 2,28 mm (0.075 to 0.090 in). 13. The radius for the rear main bearing journal is
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14. Main bearing journal diameter, sec the following charts. 15. Thrust face width, and connecting-rod journal diameter, see t h e following charts.
continued
110
V8 CYLINDER ENGINE
20. Place a piece of Plastigauge across the centre of the crankshaft main bearing journals. 21. Locate the bearing lower shell into the main bearing cap. 22. Fit numbers one to four main bearing caps and shells. Torque: 7,O to 7,6 kgf m (50 to 55 Ibf ft). 23. Fit the rear main bearing cap and shell. Torque: 9,0 to 9,6 kgf m (65 to 70 Ibf ft). Do not allow the crankshaft to be rotated while the Plastigauge is in use. 24. Remove the main bearing caps and shells. 25. Using the scale printed on the Plastigauge packet, measure the flattened Plastigauge at its widest point. 26. The graduation that most closely corresponds to the width of the Plastigauge indicates the bearing clearance.
112
ASSEMBLING ENGINE
FIT CRANKSHAFT AND MAIN BEARINGS
1. Locate the upper main bearing shells into thc cylinder block; these must be the shells with the oil drilling and oil grooves. 2. Locate the flanged upper main bearing shell in the centre position. 3. Lubricate the crankshaft main bearing journals and bearing shells with clean engine oil and lower the crankshaft into position.
27. The correct bearing clearance with new or overhauled components is 0,023 to 0,065 mm (0.0009 to 0.0025 in). 28. If the correct clearance is not obtained initially, use selective bearing assembly. 29. Wipe off the Plastigauge with an oily rag. Do NOT scrape it off. 30. Maintain the bearing shells and caps in sets and in the correct sequence.
31. Carefully remove the old bearing. 32. Fit the spigot bearing flush with, or to a maximum of 1,6 m m (0.063 in) below the end face of the crankshaft. 0,025 mm 33. Ream the spigot bearing to 19,177 (0.7504 + 0.001 in) inside diameter. Ensure all swarf is removed.
Ill
E l
V8 CYLINDER ENGINE
NOTE: The lubricant coating must cover the seal guide outer surface completely to ensure that the oil seal lip is not turned back during assembly. Position the oil seal, lipped side towards the engine, onto the seal guide. The seal outside diameter must be clean and dry.
4. Lubricate the lower main bearing shells and fit numbers one to four main bearing caps and shells only, leaving the fixing bolts finger tight at this stage. 5 . Fit the cruciform side seals to the grooves each side of the rear main bearing cap. Do not cut the side seals to length, they must protrude 1,5 mm (0.062 in) approximately above the bearing cap parting face. 6. Apply Hylomar PL32M jointing compound to thc rearmost half of the rear main bearing cap parting face or, if preferred, to the equivalent arca on the cylinder block as illustrated. 7. Lubricate the bearing half and bearing cap side seals with clean engine oil. 8. Fit the bearing cap assembly to the engine. Do not tighten the fixings at this stage but ensure that the cap is fully home and squarely seated on the cylinder block. 9. -Tension the cap bolts equally by one-quarter turn approximately, then back off one complete turn on each fixing bolt.
12. Push home the oil seal fully and squarely by hand into the recess formed in the cap and block until it abuts against the machined step in the recess. Withdraw the seal guide.
13. Tighten the main bearing cap bolts to the corrcct torque noting that the bolts for numbers one to four bearings have a different torque to number five bearing cap bolts. 14. Using a feeler gauge or a dial indicator check the crankshaft end-float, 0,lO to 0,20 mm (0.004 to 0.008 in).
ST831M'
CAUTION: Do not handle the seal lip, visually check that it is not damaged and ensure that the outside diameter remains clean and dry.
10. Position the seal guide RO 1014 on the crankshaft flange. 11. Ensure that the oil seal guide and the crankshaft journal are scrupulously clean, then coat the seal guide and oil seal journal with clean engine oil.
CAUTION: DO not exceed 1,000 engine rev/min when first starting the engine, otherwise the crankshaft rear oil seal will be damaged.
112
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V8 CYLINDER ENGINE
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112
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1. Locate the applicable crankshaft journal at B.D.C. 2. Place the bearing upper shell in the connectingrod. 3. Retain the upper shell by screwing the guide bolts 605351 onto the connecting-rods. 4. insert the connecting-rod and piston assembly into its respective bore, noting that the domed shape boss on the connecting-rod must face towards the front of the engine on the right-hand bank of cylinders and towards the rear on the left-hand bank. When both connecting-rods are fitted, the bosses will face inwards towards each other.
7. Using a piston ring compressor, locate the piston into the cylinder bore, until the piston crown is just below the cylinder block top face.
5. Position the oil control piston rings so that the ring gaps are all at one side, between t h e gudgeon pin and piston thrust face. Spacc t h c gaps in the ring rails approximately 25 m m (1 in) each side of thc expander ring joint. 6 . Position the compression rings so that their gaps are on opposite sides of the piston between the gudgeon pin and piston thrust face.
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ST835M
9. Place the bearing lower shell in thc connecting-rod cap. 10. Locate the cap and shell onto t h e connecting-rod, noting that the rib on the edge of the cap must be towards the front of the engine on the right-hand bank of cylinders and towards the rear on the left-hand bank. 11. Check that the connecting-rods move freely sideways on the crankshaft. Tightness indicates insufficient bearing clearance or a misaligned connecting-rod.
continued
I13
12 11
V8 CYLINDER ENGINE
3. Temporarily fit the camshaft chain wheel with the marking FRONT or F outwards. 4. Turn the camshaft until the mark on the camshaft chain wheel is at the six oclock position, then remove the chain wheel without disturbing thc camshaft. 5. Encircle the chain wheels with the chain keeping the timing marks aligned.
12. Check the end-float between the connecting-rods on each crankshaft journal. Clearance limits: 0,15 to 0,37 mm (0.006 to 0.014 in). 13. Tighten thc connecting-rod nuts to the correct torque. Fit the oil straincr and joint washer.
-.5
R R 1800E
114
V8 CYLINDER ENGINE
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CAUTION: The space between the key and keyway acts as an oilway for lubrication of the drive gear. Ensure that the key is seated to the full depth of the keyway. The overall dimension of shaft and key must not exceed 30,15 mm (1.187 in). Dimension A below.
spigot, with the ring gear towards the engine. 2. Align the flywheel fixing bolt holes which arc off-set to prevent incorrect assembly. 3 . Fit the flywheel fixing bolts and before finally tightening, take up any clearance by rotating the flywheel against the direction of engine rotation. Tighten the bolts evenly to the correct torque.
-. .
-. I
- ST841 M
7. Check that the timing marks line-up and fit t h e spacer with the flange to the front. 8. Fit the distributor drive gear ensuring that the annular grooved side is fitted to the rear, that is towards the spacer. 9. Secure the drive gear and camshaft chain wheel assembly with the bolt and washer and tighten to the correct torque.
FIT CYLINDER HEADS
1. Fit new cylinder head gaskets with the word TOP uppermost. Do NOT use sealant.
continucd
RR 1799E
115
E V8 CYLINDER ENGINE l
2. Locate the cylinder heads on the block dowel pins. 3. Clean the threads of the cylinder head bolts then coat them with Thrcad Lubricant-Sealant Loctite 572.
FIT TAPPETS, ASSEMBLIES
PUSH
RODS
AND
ROCKER
1. Fit the tappets and push rods to their original locations. Ensure that the tappets move freely in their respective bores. Before fitting the tappets immerse them in clean engine oil to reduce tappet noise when the engine is first started after the overhaul.
4. Locate t h e cylinder head bolts in position as illustrated and fit dipstick tube. Long bolts - 1 , 3 and 5 . Medium bolts-2,4,6, 7 , 8 , 9 and 10 Short bolts - 11,12, 13 and 14.
5 . Tighten the cylinder head bolts a little at a time in the scqucnce shown to t h e following figures:
Bolts 1 to 10 65 to 70 Ibf f t (88 to 95 Nm). Bolts 11 to 1440 to 45 Ibf ft (54 to61 Nm).
6. When all bolts have been tightened, re-check the torque settings.
2. The rocker shafts are handed and must be fitted correctly to align the oilways. 3 . Each rocker shaft is notched at one end and on one side only. The notch must be uppermost and towards the front of the engine on the right-hand side, and towards the rear on t h e left-hand side.
continued
p.
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Note: Left-hand cylinder head illustrated. Arrow points to front of vehicle. 116
V8 CYLINDER ENGINE
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4. Fit the rocker shaft assemblies. Ensure that the push-rods engage the rocker cups and that the baffle plates are fitted to the front on the left-hand side, and to the rear on the right-hand side. Tighten the bolts.
3. Apply Hylomar sealing compound SQ32M on the corners of the cylinder head, manifold gasket and
manifold, around the water passage joints. 4. Fit the manifold gasket with the word FRONT to the front and the open bolt hole at the front R.H. side. 5. Fit the gasket clamps but do not fully tighten the bolts at this stage.
It should be noted that tappet noise can be expected on initial starting-up after an overhaul due to oil drainage from the tappet assemblies or indeed if the vehicle has been standing over a very long period. If excessive noise should be apparent after an overhaul, the engine should be run at approximately 2,500 rev/min for a few minutes (subject to the following caution), when the noise should be eliminated.
CAUTION: Do not exceed 1,000 engine rev/min when first starting the engine, otherwise the crankshaft rear oil seal will be damaged. FIT THE INDUCTION MANIFOLD
ST848
\ %
6. Locate the manifold onto the cylinder head. 7. Clean the threads of t h e manifold securing bolts and apply Loctitc 572 to the threads. 8. Fit all the manifold bolts and tighten them a little at a time, evenly, alternate sides working from the centre to each end and finally tighten to the correct torque. 9. Tighten the gasket clamp bolts to the correct torque.
1. Coat both sides of new manifold gasket seals with silicon grease. 2. Locate the seals in position with their ends engaged in the notches formed between the cylinder head and block.
117
V8 CYLINDER ENGINE
FIT THE TIMING COVER AND CRANKSHAFT PULLEY
1. Place a new timing cover joint washer in position and fit the timing cover locating it on the two dowels. 2. Clean t h e threads of the timing cover securing bolts, then coat them with Thread LubricantSealant Loctite 572. 3. Fit and evenly tighten the timing cover bolts to the correct torque figure. 4. Fit the crankshaft pulley and tighten the retaining bolt to the correct torque. 5 . Fit timing pointer.
ST850M
W
ST849M
2. Place the sump gaskct in position, fit the sump and evenly tighten the retaining bolts to the correct torque. Hylosil is used o n later engines instead of a
1. Lightly grease a new joint washer and place i t in position on the the timing cover. 2. Clean thc threads of t h e four long bolts and smear them with Loctite 572 thread lubricant-sealant. Locate the water pump in posiiion. 3 . Locate the alternator adjusting link on the water Pump. 4. Leave the alternator adjusting link loose and tighten the remaining water pump housing bolts evenly and to t h e correct torque.
118
V8 CYLINDER ENGINE
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1. Remove the two bolts securing the thermostat housing to the induction manifold. 2. Remove the housing gasket. 3. Withdraw t h e thermostat.
ST858M
ST856M
8. Clean the induction manifold and thermostat housing mating faces. 9. Fit the thermostat with the jiggle pin uppermost at 12 o'clock. 10. Fit the housing using a new gasket, and evenly tighten the two bolts.
4. Note the temperature stamped on the thermostat at which it should be fully open.
ST857M
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Centigrade thermomelcr in a laboratory beaker, or a suitable alternative, half full of water. 6. Heat the water and observe the temperature at which the thermostat opens. 7. If faulty discard the thermostat.
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119
1121
V8 CYLINDER ENGINE
FIT ROCKER COVERS
4. Fit distributor t o engine and check that centre line of rotor arm is now in line with number one sparking plug lead in cap. Reposition distributor if nccessary. The vacuum capsule should be at 90 to the camshaft. 5 . If distributor does not seat correctly in front cover, oil pump drive is not engaged. Engage by lightly pressing down distributor while turning engine. 6. Fit clamp and bolt leaving both loose at this stage.
1. Remove all traces of old gasket on the covers and cylinder heads. 2. Clean and dry the gasket mounting surface, using Bostik cleaner 6001. 3 . Apply Bostik 1775 impact adhesive to the seal face and the gasket, using a brush to ensure an even film. Allow the adhesive to bccome touch-dry, approximately fifteen minutes.
NOTE: The gasket fits one way round only and must be fitted accurately first time; any subsequent movement would destroy the bond.
4. Place one end of the gasket into the cover recess with the edge firmly against the recess wall; at the same time hold thc remainder of thc gasket clear; then work around the covcr, pressing the gaskct into place ensuring that the outer edgc firmly abuts the recess wall.
7. Rotate distributor anti-clockwise until contact points just start to open. 8. Secure distributor in this position by tightening clamp bolt. 9. Fit the distributor cap and spark plugs and connect the H.T. leads in accordancc with the illustration below.
NOTE: The above distributor setting is to enable the engine to be run so that the correct setting given in Engine Tuning data can be achieved once the engine is refitted to the vehicle.
5 . Allow the cover to stand for thirty minutes before fitting i t to t h e engine. 6. Secure the rocker covers to t h e enginc with the four screws. Short screws - in board, long screws - outboard.
120
V8 CYLINDER ENGINE
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1. Secure the fan to the viscous coupling with the four bolts and tighten evenly. 2. If removed, fit the pulley to hub assembly adaptor and secure with the four nuts. 3. Screw the viscous coupling onto the adaptor thread by inserting a tommy bar in the hole in the pulley to restrain it while tightening the coupling. 4. Fit the fan and any other drive belts.
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plate. 2. Fit the centre plate and t h e clutch assembly and loosely secure to thc flywheel with the retaining bolts. 3. Insert centralising tool 18G 79 or a slave primary shaft and finally tighten the clutch assembly retaining bolts in a diagonal sequence, to the correct torque. 4. Smear the centre plate splines with Rocol MV3 or Rocol MTS 1000 grease.
(IILb'IILILVL
continued
3
ST854M
121
V8 CYLINDER ENGINE
FIT THE CARBURETTERS
If removed, fit the carburetters to the induction manifold, using new joint washers in the correct sequence as illustrated according to the engine serial number. See Section 19 for S.U. Carburetters. Illustration A from serial number 1400001A Nondetoxed. 1. Fit the liner. 2. Fit the two joint washers. 3. In between the washers fit the insulator.
3
ST855M
Illustration B from serial number 15G00001A detoxed. 4. Fit the three joint washers. 5. Fit the saw toothed deflector. 6. Fit the insulator.
1. Ensure that the mating surfaces of the cylinder head and exhaust manifold are clean and smooth and coat the faces with Foliac J 166 or Moly Paul Foiiac J 166 is anti-seize compound. manufactured by Rocol Ltd., Rocol House, Swillington, Leeds, England. Moly Paul is manufactured by K.S. Paul Products Ltd., Nobel Road, London N18. 2. Place the manifold in position on the cylinder head and fit the securing bolts, lockplates and plain washers. The plain washers are fitted between the manifold and lockplates. Evenly tighten the manifold bolts to the correct torque figure and bend over the lock tabs. 3. Fit pulse-air rails to cylinder heads.
Fit any other items of equipment and miscellaneous hoses, pipes, filters, clips and brackets to the positions noted during dismantling.
122
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FAULT DIAGNOSIS
PETROL ENGINE
FAULT DIAGNOSIS
12
..
SYMPTOM
ENGINE FAILS TO S T A R T
POSSIBLE CAUSE
1. Incorrect starting procedure 2. Starter motor speed too slow 3. Faulty ignition system 4. Water o r dirt in fuel system 5 . Carburetter(s) flooding 6 . Defective fucl pump 7. Defective starter motor 8. Starter pinion not engaging 1. Low idling speed 2. Faulty sparking plugs 3. Faulty coil o r condenser 4. Faulty distributor points 5. Incorrect mixture 6. Foreign mattcr in fuel system
1. Poor compression
CIJRE
See owners handbook Check battery and connections Check each component in system Flush out system with clean fuel Check float chaniber needle valve Remove, overhaul or renew Overhaul or rcnew Remove starter motor and overhaul Adjust carburetter(s) Clean and test; renew if necessary Renew Rectify or renew Adjust carburettcr(s) Investigate source of foreign matter and cleai as necessary
ENGINE STALLS
LACK OF POWER
Badly seating valves Faulty exhaust silencer Incorrect ignition timing Leaks or restriction in fucl system Faulty sparking plugs 7. Excessive carbon deposit 8. Brakes binding 9. Faulty coil, condenscr or battery ENGINE RUNS ERRATICALLY
I. Faulty clcctrical connections Defectivc sparking plugs Low battcry charge Dcfectivc distributor Foreign matter i n fuel system 6. Faulty fuel pump 7. Sticking valves 8. Defective valve springs 9 . Incorrect ignition timing
2. 3. 4. 5. 6.
If the compression is appreciably less then thc corrcct figure, the piston rings or valves are faulty. Low pressure i n adjoining cylinders indicates a faulty cylinder head gasket Overhaul cylinder head(s) Renew Check and adjust using electronic equipment Check through system Clean, test and renew, if necessary Decarbonize Adjust brakes or overhaul Determine which component and renew
,heck sccurity o f all ignition connections ,lean, test and renew if necessary Recharge battery and test for condition Remove and overhaul 3ctermine source of dirt, and clcan systcm Pcmove and overhaul o r rcncw 3verhaul cylinder head s 3vcrhaul cylinder headis] ?heck timing with electronic equipment, if )ossible 3verhaul cylinder hcad(s) ienew gaskets Xectify o r renew iefit pipes -heck HT leads for cracked insulation; check ow tension circuit letermine source of matter and clean system iemove, overhaul o r renew icplcnish Xdjust as necessary iemove, overhaul o r renew 3verhaul cylinder head(s) knew
-~
2. 3. 4. 5.
12. Damaged exhaust system 13. Vacuum pipes, disconnected at inlet manifold. distributor o r gearbox ZNGINE STARTS, B U T STOPS 'MMEDIATELY
ZNGINE F A I L S T O I D L E
I. 2. 3. 4. 5.
1. 2. 3. 4.
Distributor points incorrectly set Faulty coil o r condenser Faulty sparking plugs Faulty carburetter(s) Vacuum pipes disconnected at inlct manifold
;et to correct dwell angle tenew ,lean, tcst o r renew herhaul -heck all vacuum connectlons. Renew faulty Jipes idjust using elcctronic equipmcnt lecarbonise idjust idjust ignition timing to suit octane rating h e r h a u l engine {enew capsule and re-check :!can, :es: and iciicw if nccessary :heck all ignition components and timing h e r h a u l carhuretter(s)
ZNGlNE KNOCKS
Ignition timing advanced Excessive carbon deposit Incorrect carburetter setting Unsuitable fuel 5 . Worn pistons o r bearings 6. Distributor advance mechanism faulty 7 . Defective sparking p!ugs
1. Ignition defect 2. Carburetter defect 3. Sticking valve 4. Weak valve springs 5 . Badly seating valves 6. Excessively worn valve stems and guides 7. Excessive carbon deposit X. Incorrect sparking plug gap 9. Air lcak in induction o r exhaust systems
ZNGlNE BACKFIRES
123
12
FAULT DIAGNOSIS
SYMPTOM
B U R N E D VALVES
POSSIBLE CAUSE
~~
1 . Sticking valves 2. Weak valve springs 3. Excessive deposit on valve seats 4. Distorted valves 5. Excessive mileage between overhauls
1
]
NOISY V A L V E MECHANISM
I . Excessive oil in sump, causing air bubbles in hydraulic tappets -V8 engine 2. Worn o r scored parts in valve operating mechanism 3. Valves and seats cut down excessively, raising end of valve stem, 1,27 mm (0.050 in) above normal position 4. Sticking valves 5. Weak valve springs 6 . Worn timing chain o r chain wheels
Drain and refill t o correct level on dipstick Replace faulty parts Grind off end of valve stem o r replace parts V8 engine only Overhaul cylinder head Renew worn parts
- V8 E N G I N E ONLY
2. Intermittent rapping noise 3. Noise on idle and low speed 4. General noise at all speeds
I. Oil too heavy for prevailing temperature Excessive varnish in tappet 2 . Leakage at check ball 3. Excessive leakdown 4. High oil level in sump Leakage at check ball Worn tappet body Worn camshaft 5. Excessive leak-down rate o r scored lifter plunger
Drain and refill with correct grade Replace tappet Replace tappet Replace tappet Drain and refill t o correct level on dipstick Replace tappet Replace tappet Replacc camshaft Replace tappet
~~
Replenish as ncccssary to high mark on dipstick Worn bearings. Faulty skew, gear asscmbly. 4-cylinder enginc Renew bearings; grind crankshaft - NOT diesel Renew and investigate reason for failure Tighten to correct torque Drain and refill with correct oil and renew filter Replcnish to high mark on dipstick Clean Rectify Rectify Renew Check circuit Remove and ascertain cause Renew Overhaul oil pump Ascertain which bearings and rectify Check skew gear bearing. Chcck plug not leaking or seals in 2.5 diesel engine. See Zngine overhaul Remove and clean Chcck for leaks. Check expansion tank level Check fan and belt, pump, radiator fins ?ot blocked rest and renew, if necessary Check and adjust using electronic equipmcnt Renew filter. Check pump. Clean strainer. :heck oil circulation
ENGINE O V E R H E A T I N G
Tncorrcct timing
MECHANICAL NOISES Medium low pitch knock Low pitch thud High pitch tap Intermittent thuds Continual tapping Continual slapping
3ig-end bearing slack o r run dain bearing slack or run Worn gudgeon pins aose tly wheel or excessive crankshaft end-float Zxcessive valve clearance .- N O T V8 'iston clearance excessive. - moreapparent vhen sngine cold may disappear when engine
101
124
FAULT DIAGNOSIS
DIESEL ENGINE MECHANICAL FAULTS
SYMPTOM
MAIN BEARING R A T T L E
POSSIBLE CAUSE
34. Low oil level i n sump 35. Low oil pressure
CURE Replenish as necessary to high mark on dipstick Worn bearings. Faulty skew, gear assembly. 4-cylinder engine Renew hearings; and or crankshaft Renew and investigate rcason for failure Tighten to correct torque Check for Icaks, check expansion tank level Check fan and belt, pump, radiator fins not blocked Test and renew, if necessary Renew Renew Filter, Check pump. Clean strainer. Check oil circulation Drain and refill with correct oil and renew filter Replenish to high mark on dipstick Clean Rectify Rectify Renew Check circuit Remove and ascertain cause Renew Overhaul oil pump Ascertain which bearings and rectify Check skew gear hcaring. Check plug not leaking or seals in 2.5 diesel engine. See engine overhaul Remove and clean
~~ ~ ~
36. Exccssive bearing clearance 37. Burnt-out bearings 38. Loose bearing caps
ENGINE OVERHEATING
39. Low coolant level 40. Faulty cooling system
41. Faulty thermostat 42. Cracked cylinder head 43. Defcctive lubrication system LOW O I L PRESSURE WARNING LIGHT REMAINS O N , ENGINE RUNNING
44. 45. 46. 47. 48. 49.
55.
___
~
Thin o r diluted oil Low oil level Choked pump strainer Faulty release valve Excessive bearing clearancc Oil pressure switch unserviceable Electrical I'ault Relicf valvc plunger sticking Weak rclicfvalvc sprin: Pump rotors excessively worn Excessively worn bearings) main, connecting rod. big end, camshaft, ctc Faulty skew gear assembly, 4-cylinder engines
vlECHANICAL NOISES: ,ow pitch knock ,ow pitch thud ntermittent thuds 4igh pitch tap .ight tapping ;lapping
Big-end bearing slack o r run Main bearing slack 01' run Loose flywhecl o r excessive crankshaft end-float Worn gudgeon pins Excessive valve clearance Excessive piston clearance - more apparent whcn cold
DIESEL ENGINE
FAULT DIAGNOSIS DPA AND DI'S PUMPS -2.25 and 2.5 litre diesel engines
SYMPTOM
DIFFICULT STARTING
POSSIIILE CAUSE
1. Lack of fucl 2. Stop solenoid faulty
CHECK
8. Starting aid ineffective 9. Injcction timing incorrect 10. Timing bclt slipped
1 I. B x k Icakagc restricted
Fuel level in tank Audible opcration when switched -Check electrical supply, replace solenoid Starting procedure correct -Throttle c!osed and heater plugs in operation All joints and unions arc tight Filter not chocked and feed pipes clear Diesel fucl being used. not pctrol, free of water. dirt, ice. wax. Battery, startcr, cable connections. Correct engine lubricating oil Correct functioning of heater plugs Punip to engine timing using timing tool Belt condillon and tcnsion. Pump rotor not seized Tank return clear, flow from cam box valve when cranking. Replace pump if blocked Inlet and back leak pipes correct way round. Banjo bolts of correct type for pump injector scating Cylinder compression, valve timing and clearances. Air filter not choked Injectors; correct type, opening pressure. spray condition Tank vent and outlet unrestricted H P pipe joint tightncss If all other relevant checks salisfiictory, replace pump
continued
125
11 21
FAULT DIAGNOSIS
SYMPTOM
I R R E G U L A R IDLE
, POSSIBLECAUSE
Any of the following items: 4,5,6,9,11, 12,13, 14, 16, 17. Plus: 18. HP pipe restriction 19. Idlingspeed incorrect 20. Anti-stall setting incorrect 21. Manual idle advance faulty 22. Accelerator linkage faulty 23. Engine vibration 24. Injection pump loose
CHECK
HP pipes not kinked or bore reduced at nipples Idling speed given in engine tuning data Recovery from acceleration, engine warm (Reset idling and anti-stall) Cable and lever operation satisfactory Lever tight on pump reaches stop screws, linkage wear, adjustment Engine mountings tight and effective Tightness of pump drive mounting bolts and rear support bracket nut and bolt
~
INSUFFICIENT MAXIMUM S P E E D
Any of items 4,5, 17,22. Plus the following: 25. Max. speed setting incorrect 26. Vehicle brakes binding
Seal intact. Engine maximum speed in Engine tuning data - adjust Brake freedom, all wheels in turn and transmission brake
Any of items I , 2 , 4 , 5 , 9 , 1 2 , 1 3 , 14,155, 16, 17, 18.27.23.24. Anv of items 6.9. 13. 14 and 17 Any of items 9,14,24,23. Plus the following: 27. Cambox pressure IOW A n y o f i t c m s 4 , 5 , 6 , 9 , 11, 12, 13, 14.IS.16, 18,22,24,25,26. Plus the following: 28. Exhaust system defective 29. L.P. leakage
~~
Pressure with gauge a t control cover vent screw. Replace pump if pressure too low
LACK O F POWF,R
System is unrestricted Feed and return pipes, filter and tank for leak
Anyofitems9,13, 14, 16.17, 19,26. Any of the following items; 4,5, 6 , 9 , 1 1 , 13, 17,19,20.21. Any of the following items; 17,20,22 Either of the following two items: 2 and 17. Plus: 30. Stop solenoid valve leaking Items 8 , 9 , 13 or any of the following: 31, Injectors sticking 32. Lack coolant in radiator 33. Lack of oil in engine
Engine stops when supply lead removed. Replace solenoid if faulty Injectors individually -see Injector overhaul Cooling system and expansion tank level. Radiator fins not blocked Oil level o n dipstick
126
119
x2
DISMANTLE
1. Remove the sediment bowl, where fitted, and collect the filter gauze and sealing washer. 2. Mark the upper and lower halves of pump casing to ensure correct alignment on reassembly. 3. Remove top cover fixing screws, and while pressing diaphragm tab against pump body, lift top cover clear.
5 . Turn, whilst pressing down the metal part of the diaphragm through 90" in either direction and withdraw the diaphragm and spring. 6 . Unstake the oil seal housing and lever-out the oil scal and retainer.
ST1096M
4. If necessary remove the valves by cutting away the retaining stakes with a scraper. Warm the top cover, note the position of the valves and withdraw them from the cover.
7. Using a small chisel, rcmovc thc staking from the rocker arm retainers. 8. Withdraw the retainers. 9. Withdraw the rocker arm. 10. Withdraw the rocker arm pin and washers. 11. Dctach the operating link. 12. Withdraw thc rocker arm spring.
,",. ., , .
. I
13. It is unlikely that t h e hand priming mechanism will ever require replacement, but i t can be removed by filing the hexagon each side of the operating lever and springing the hand lever clear, withdraw the cork washers and hand rocker. 1
Inspect
14. Clean all parts in paraffin (Kerosene) and examine for wear and renew as necessary including all gaskets . 15. Sediment bowl filter disc must be free of damage and fit tightly around inlet neck of upper casing. 16. Renew diaphragm assembly if any sign of hardening, cracking or porosity is present. 17. Only very slight wear should be tolerated at the rocker arm contact face, pivot pin, operating link and diaphragm pull rod slots. 18. Springs should be renewed ensuring that the correct type are used. 19. Test valves for air tightness, by suction. 20. Check upper and lower casing flanges for distortion, using a straight edge.
Assemble
29. Fit the filter gauze and sealing ring on pumps with a sediment bowl and fit the bowl and secure with the retaining clip. Ensure that the bowl and seal are located squarely. Do not overtighten securing n u t to prevent cracking the bowl.
Test fuel pump
& > :.
Fit the rocker arm spring. Fit the operating link. Fit the rocker arm pin and washers. Fit the rocker arm assembly to the pump body and secure with the retainers and stake. 25. Fit the oil seal and retainer and secure by staking.
c-."
OVERHAUL ELECTRICAL FUEL PUMP NOTE: The electrical components of the pump are sealed and cannot be repaired. DISMANTLE
1. Remove pump from the vehicle, and clean outside of pump before dismantling. 2. Release the end-cover from the bayonet fixing. 3. Remove the following items: a) filter and seal b) magnet c) gasket
Pump piston assembly
p. ": ._
"_
_-
26. To refit the diaphragm assembly, hold the pump body with the diaphragm rcturn spring in position, and the rocker arm held outwards. Position the diaphragm over the spring with t h e flattened end of the pull rod in line with the slot in the opcrating link. Push t h e diaphragm inwards and turn to lock. 27. Fit the inlet and outlet valves and secure by staking. 28. Place top cover assembly in position, aligning the marks made before dismantling. Fit securing screws, but do not tighten at this stage; using hand priming lever, fully depress diaphragm and fully tighten securing screws. r edges should be The diaphragm the outer edge of the approximately flush pump joint faces when 2
01
4. Carefully prise out the retaining clip. 5 . The following parts will then bc released: a) plain washer b) rubber seal c) one-way valve 6. Withdraw the piston return spring with the piston. If the piston remains in the pump tube, hold the pump body vertically (in the fitted position) and tap t h e closed end until the piston is released from its magnetic hold and drops out.
NOTE: The piston is fitted with a one-way valve which should not be disturbed.
con t I nued
4'
3 0 -J
1 .
1191
ENGINE
... *. ,
I-
7. Remove the short rebound spring. 8. Clean all components in paraffin. 9. Immerse pump body i n petrol and use air-line inside pump tube.
FOUR
CYLINDER
la
/
--.
2
ST 1015M
d.
The twin bored 32 - 34 DMTL Weber carburetter is a fixed choke instrument with a staggered throttle opening. The carburetter is divided, operationally, into two sections namely the primary and secondary carburetters with 32 mm and 34 mm bores respectively. The delayed throttle opening occurs in the secondary carburetter. The primary carburetter, which incorporates fuel and air jets for idling, is used for starting, and normal running, up to approximately two thirds throttle opening. Shortly before this stage the secondary carburetter butterfly will begin to open and become increasingly more involved as the throttle is opened further. To ensure a smooth transition during the various stages of throttle opening both sections of the carburetter contain progression fuel and air jets and ports. To prevent fuel vaporisation and air locks in the system fuel is continuously pumped back to the fuel tank from the carburetter float chamber. The top of thc float chamber is so designed that fuel is drawn off from thc main stream via the needle valve as dictated by the fuel level in the chamber.
DISMANTLE
NOTE: The fuel filter assembly, instructions 2 and 3, can be carried out with the pump on the vehicle. ASSEMBLE Pump piston assembly 10. Fit the short rebound spring. 11. Fit the return spring over the opposite end of the piston. 12. Slide the piston assembly into the pump body. 13. Fit the following items: a) plain washer b) rubber seal c) one-way valve 14. Secure t h e assembly with the spring clip. Fuel filter assembly
Fit the filter and seal. Fit the magnet. Fit the end cover with a new gasket. Fit pump to vehicle and ensure that the earth connection lead and its mounting point is clean.
Remove the carburetter. Disconnect the fast idle cam assembly. Disconnect the chokc link. Disconnect the pull-down lever and linkage. Remove the top cover from t h e carburetter body. 6. Withdraw the float pivot and detach the float. 7. Remove the needle valve attached to the float tag. 8. Remove znd discard the gasket from the top cover. 9. Withdraw t h e needle valve housing. 10. Remove the fuel filter plug and filter. 11. Remove the pull-down capsule. 12. Remove the fuel cut-off solenoid and valve. 13. Withdraw both primary and secondary idle jct holders noting their positions for ease of reassem bl y. 14. Withdraw both primary and secondary main jet assemblies, comprising main jet, emulsion tube and air correction jets. 15. Lift out the pump jet. 16. Remove the accelerator pump cover, diaphragm, gasket and spring. 17. Detach the economy pump assembly, comprising cover, spring and diaphragm. 18. Remove the idle mixture control screw. When the adjustment is tamper-proofed, the tamperproofing cap must be removed to expose the screw.
continued
1. 2. 3. 4. 5.
19-49
5.47
21.30
ST 535 M
119I
,, ..
19. Mark-up for reassembly purposes and remove the choke butterfly followed by the choke spindle and linkage. 20. Prior to removal, mark each throttle butterfly. 21. Remove the throttle linkage, springs and washers, noting their sequential positions to aid rcassembly. 22. If required remove the primary and sccondary throttle butterflies (after marking-up) followed by the respective spindles.
35. Fit the pump jet with a new '0' ring into the
carburetter body. 36. Reassemble the primary jet to the jet holder and fit to the carburetter body. 37. Fit the secondary main and air correction jets to the secondary emulsion tube, locate and secure assembly to the carburetter body. 38. Assemble the secondary jet to the jet holder and fit assembly to the carburetter body. 39. Reassemble the primary main and air correction jets to the emulsion tube; and fit assembly to the carburetter body. 40. Fit the fuel filter and filter plug to the top cover. 41. Fit the needle valve seating and washer. 42. Place a new gasket into position. 43. Fit the needle valve into the needle valve seating. 44. Position the float tag in the needle valve wire loop. Align the float carrier with the pin holes and float carrier flange lugs. Sccure the float carrier with the hinge pin. 45. With the needle valve on its seating and the float carrier tag resting against the necdle valve (ensuring that neither the valve plunger n o r the valve ball are depressed) measurc the distance between the casing and thc front cdge of the float. 46. The dimension required is 7 mm (0.27 in). Any adjustment must be made by bending thc float carrier tag. Adjustments must NOT be made by bending the float carrier arms.
continued
. ,;..
I
.,
..,:
23. When cleaning fuel passages, DO NOT use metal tools which could cause dimensional changes in the drillings or jets. Cleaning should be effected using clean fuel, and, where necessary, a moisture free air blast. 24. If the joint faces on the emulsion block, top cover or carburetter body show any signs of distortion or the edges are burred, these faces may be reclaimed by flatting, using fine grade abrasive cloth and a surface plate. Examine the faces for deep scores which would lead to leakage taking place when assembled. 25. New gaskcts and seals should be used throughout the carburetter rebuild. A complete set of gaskets is available for replacement purposes. 26. Examine the throttle spindle bushes for wcar, if oval or badly worn, replace the carburetter body. 27. Examinc the idle mixture volume screw for wear or damage, replace as required.
Reassembly
. . . .. ,, ,. .. .'.
:F
".... . ..
28. If previously dismantlcd, insert the primary and sccondary throttle spindles into their respective positions. 29. Locate the primary and secondary throttle butterflies on to their respective spindles and loosely retain with the special screws. Operate each buttcrfly to centralise it on each spindle and secure the screws and lock them by peening. 30. Refit the throttle spindle assembly to thc carburetter ensuring the pin on the free lever locates in the slot on t h e primary shaft plate, ensuring that the first spring is located on the spacer, whilst the second spring is engaged on the free lever. 31. Fit the accelerator pump assembly comprising spring, gasket, diaphragm, spring and pump cover. 32. Refit t h e economy pump assembly comprising diaphragm, spring and pump cover. 33. Replace the fuel cut-off valve and solenoid. 34. Fit the idle mixture control screw and carefully turn until fully home, then turn the screw 1 '/r to 2 turns in the reverse direction to serve as an initial setting.
7mm
ST567 M
0.27in
1191
47. Fit and secure the top cover assembly evenly, to the carburetter body. 48. Fit the choke spindle into its housing. 49. Locate the choke buttcrfly on the spindle and loosely retain with the two special screws. Operate the butterfly to centralise it on the spindle, then secure the screws and lock them by preening. 50. Refit the pull-down capsule, cable retaining bracket, spacer and fixings. 51. Fit the pull-down lever engaging the pivot with the pull-down capsule arm. Secure lever assembly with washer and circlip. 52. Fit the float idle cam ensuring the spring is engaged correctly to the cam. 53. Refit the choke link to t h e choke spindle, securing with a new split pin. Engage the opposite end of the choke link to the idle cam. 7. Push the mixture control fully in and confirm that flap B is open, that is in the vertical position.
p?
=-#
2. Check that the throttle pedal, cable and linkage operate smoothly. 3. Remove the elbow from the top of the carburetter. 4. If necessary adjust the pedal stop bolt so :hat no strain is exerted on the throttle cable. Depress thc throttle pedal and check that both the butterflies are fully open, then adjust the pedal stop bolt so that it touches t h e floor, without strain on t h e cable and tighten the locknut 5 . Ensure that when the throttle pedal is released both butterflies are closed completely.
Mixture control (cold start) 6. Pull the mixture control cable fully out and chcck that lever A is against its stop and the choke flap B is fully closed. If necessary adjust the inner cable clamp C to achieve this condition.
8. Pull the mixture control out until the dimension between the crank in the vertical rod D and the underside of the carburetter top cover, without compressing the spring Fis 12,5 mm (0.5 in). Adjust the fast idle screw E so that it just makes contact with the fast idle cam.
ST 1094M
19
.. ..
I 7
Idle adjustment NOTE: The idle mixture adjustment screw provides mixture variation at idle speed only. Above idle speed the mixture is determined by fixed size jets.
ZENITH
CARBURETTER
9. Start the engine and run until the normal operating temperature is attained. 10. Turn the throttle butterfly adjustment screw to obtain an idle speed of 600 to 700 r.p.m. 11. Turn the idle mixture adjustment screw clockwise or anti-clockwise by one-quarter turn increments to obtain the highest engine r.p.m. When this has been achieved, re-adjust, if necessary, the butterfly adjustment screw to maintain the 600 to 700 r.p.m. idle speed. 12. Fit the air intake elbow to the carburetter top.
1. Remove the carburetters from the engine. 2. Release the four screws and withdraw the top cover and spring. 3 . Withdraw the air valve, shaft and diaphragm assembly . 4. Remove the metering needle retained by a locking screw. 5 . Release the four screws and separate the diaphragm from the air valve.
Remove the float chamber
6. Release the six screws and remove the float chamber and joint washer. 7. Release the float assembly and spindle from the two clips. 8. Unscrew the needle valve and washer from carburetter body.
Dismantle carburetter body
9. Make location marks, as illustrated, to assist correct asscmbly, on the throttlc buttcrfly, spindlc and carburetter body. 10. Right-hand carburetter Release the two screws and remove the butterfly and withdraw thc spindlc.
ST1095M
..
-.
ST1119M
11. Left-hand carburetter Remove the iefi-iiand iever assembly. Release the two screws, remove the butterfly and withdraw the spindle. 12. Left-hand carburetter Release the two retaining screws and shake-proof washers and remove the cold start assembly and joint washers.
continued
I19I
1191
LY
2,
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3
C m
2
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13. Dismantle the cold start assembly but D O N O T remove the discs from the spindle. 14. If necessary, dismantle the throttle spindle lever assemblies from both carburctters.
Slow-running adjustment screws
-U
D o not attempt to remove these screws or break the tamper-proof seals. See Cautionary note under Tune and Adjust.
Remove temperature compensator
15. Release the two screws and withdraw the temperature compensator unit complete. 16. Remove t h e large and small rubber washers.
rc 0
Cleaning
2
m U
-0
C .-
C .C .m
VI
*
0
17. When clcaning fuel passages d o not use metal tools (files, scrapers, drills etc.) which could cause dimensional changes in t h e drillings or jets. Cleaning of all components should be effected using clean fuel and, where necessary, a moisturefree air blast.
Joint washers and seals
18. New gaskets and seals should be used throughout carburetter rebuild. A complete sct of gaskets is available for replacement purposes. Inspect metering needle; it is machined to very close limits and should be handled with care. Examine for wear, bend and twist; renew if necessary. 19. Examine the faces for deep scores which would lead to leakage taking place when assembled.
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0
L-
Diaphragm
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09
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20. Examine the diaphragm for deterioration, damage and punctures. Do not use any cleaning chemicals on the diaphragm only clean lint free rag.
Float assembly
: :
21. Examine the two plastic floats and check for punctures and damage. 22. Check t h e spindle and retaining clips for wear. 23. Inspect the needle valve assembly for wear. Renew the valve if there is any tendency for the needle to stick.
Cold start assembly
O.k .k
. .
t-bQ
24. Examine all the cold start components for wear and corrosion and the machined faces for scores.
continued
1191
ASSEMBLE CARBURETTERS
Cold start -L.H. carburetter
25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35.
Place the spring on the cold start spindle. Fit the spring retaining clip. Check that the discs slide easily on the spindle. Place the cold start spindle on the starter face. Place t h e starter cover in position. Fit the return spring over the spindle. Rotate the spindle until the oval port in the end disc is aligned with the oval port in the starter face. Fit the cold start lever. Engage the return spring over the lug on the starter cover and the back of the cold start lever. Place the cold start gasket onto the carburetter body. Fit ;he cold start assembly to the carburetter body, and check for ease of operation.
STl120M
45. Place return spring over threaded end of the spindle. 46. Fit the throttle stop and fast idle lever. 47. Fit the bushed washer, bush outwards. 48. Fit the throttle lever on t h e bushed washer. 49. Fit the plain washer. 50. Fit the tab washer. 5 1. Fit the throttle adjust,ment lever. 52. Secure the assembly with the nut and lock with a tab. 53. Fit thc throttle butterfly as described in instruction 39 and anchor the return spring as illustrated. See note before instruction 39.
ST1116M
continued
36. Place the return spring over either end of the spindle. 37. Fit the throttle stop and fast idle lever and secure with spacers, tab washer and nut. 38. Insert t h e throttle spindle from the cold start side of the carburetter body and fit the throttle return spring on the fast idle adjustment lug. Tension the spring half a turn. NOTE: Slacken the idle adjustment screw clear of lever to facilitate centralisation of the butterfly. 39. Fit the throttle butterfly, maintaining t h e previously marked alignment. Leave the retaining screws loose. Actuate the throttle several times to centralize the butterfly, then tighten t h e retaining screws and lock by peening ends. 40. E: the thr=tt!e !eve: tc the spind!e at the ~ p i ; c ~ : t e end. 41. Place the spacer on the spindle. 42. Place the tab washer o n the spindle. 43. Fit t h e sleeve nut, sleeve end last, and engage the tab washer. 44. Fit t h e throttle adjusting lever.
10
s5"1:
51
Y& .
ST1121 M
PETROL F U E L SYSTEM
Float chamber assembly
119
54. Fit the needle valve and new washer. 55. Locate t h e spindle in the float arm and fit the assembly into the retaining clips. 56. Invert the carburetter so that the needle is on its seating and thc float tab is contacting the needle. Measure the dimension A between the carburetter gasket face and the highest point on the floats. The correct measurement should be 17 to 18 mm (0.67 to 0.71 in). Adjust by bending the float tab. This dimension must be the same for both floats. The float carrier tab must be maintained at right angles to the needle in the closed position. 57. Fit the float chamber and new gasket and evenly tighten the retaining screws.
62
.. ... .. ..
ST7 1 17M
----
Temperature compensator
64. Clean the carburetter and compensator mating faces. 65. Fit a new inner and outer rubber washer and securc the temperature compensator with thc two screws and shake-proof washers.
Fast idle adjustment -L.H. carburetter only
ST1123M
66. Slacken the fast idle adjusting screw. 67. Hold the cold start cam lever in the maximum position. 68. Adjust thc fast idle adjusting screw against the cam lever until there is 0,61 to 0,66 m m (0.024 to 0.026 in) gap between t h e top edge of the throttle butterfly and t h e carburetter barrel wall. Use feeler gauges or a 0,65 mm diameter (No. 72) drill to measure the gap. 69. Secure the locknut on the fast idle adjusting screw without disturbing the adjustment.
58. Fit the diaphragm to the air valve with the inncr tag locating in the air valvc recess. 59. Fit the diaphragm retaining ring and secure with the four screws. 60. Fit the metering needle into the air v2!ve and secure with the locking screw. 61. Insert the air valve and needle into the carburetter and locate the diaphragm outer tag into the recess in the carburetter body. 62. Fit the spring and top cover and secure with the four screws. 63. Fit the damper.
11
I19I
CAUTION: Unauthorised breaking of tamper-proofing devices, adjustment of carburetter settings or the fitting of incorrectly related parts may render the vehicle user liable to legal penalties according to local territory legislation. Whenever adjustments are made to the settings of tamper-proof or emission specification carburetters an approved type CO meter must be used to ensure that the final exhaust gas analysis meets with local territory requirements. 6. Start the engine and check the idle speed using a reliable proprietary tachometer. 7 If necessary, adjust the slow running screw to give the correct idle speed, see 'Engine tuning data'. If a tamper-proof sleeve is fitted over this screw the slow running speed can only be adjusted using special tool MS86 or B25243.
;$ ;,
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Emission Specifications
All carburetters fitted to the Land-Rover conform at the time of manufacture to particular territory requirements in respect of exhaust and evaporative emissions control. However, in some cases changes to the basic carburetters may have been necessary to achieve this.
$3,
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Service tools: 605330 -Carburetter balancer MS80 -Mixture adjusting tool MS86 or B25243 - Tamper-proofed adjustment tool
throttle
The service tool 605330 carburetter balancer must be used to adjust the carburetters. Primarily, this instrument is for balancing the air-flow through the carburetters, but it also gives a good indication of the mixture setting. Investigation has shown that incorrect mixture setting causes either stalling of the engine or a considerable drop in engine rev/min if the balancer is fitted when the mixture is too rich or a considerable increase in r v t (anin when used wit;] tule mixture setting too weak. B r \ ) r e balancing the carburetters it is most important therefore that the following procedure be carried out:
12
continued
119I
8. Remove the piston damper plug, and using special tool MS80 adjust the mixture. Locate the outer sleeve of the tool to engage a machined slot to prcvent the air valve twisting. Turn the inner tool clockwise to enrich the mixture and anti-clockwise to weaken it. After every adjustment the tool should be removed from the carburetter to allow engine to stabilise. Run engine at 2000 rev/min to aid stabilisation. 9. When t h e mixture is correctly adjusted, the engine speed will remain constant or may fall slowly a small amount as the air valve is lifted.
17. Remove balancer. With the mixture setting and carburetter balance correctly adjusted the difference in engine rev/min with the tool 605330 on o r off will be negligible, approximately plus or minus 25 r e v h i n .
...
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Check CO level
ST1127M
. .:: . : .. . . ,. .: .
Use a proprietary non-dispersive infra-red exhaust gas analyser. 18. Insert the probe of the analyser as far as possible into the exhaust tail pipe, start t h e engine and allow a one to one and a half minute stabilisation period. 19. Check that the correct idle speed (slow running) is maintained and observe the C O reading against that given in the data section. If necessary re-adjust the mixturc setting to achieve the correct C O level.
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10. Check, and if necessary, zero the gauge on balancing tool 605330. 11. Place balancer on the carburetter adaptors, cnsuring that there are no air leaks. If the engine stalls or decreases considerably in speed, thc mixture is too rich. If t h e engine speed increases, the mixture is too weak. 12. If necessary, remove balancer and re-adjust the mixture, then refit the tool. 13. Check balancer gauge reading. 14. If the gauge pointer is in the zero sector, no adjustment is required. 15. If the gauge pointer moves to the right, decrease the air-flow through the left-hand carburetter by unscrewing the s!ew ruxnixg screw G r increase the air-flow through the right-hand Carburetter by turning clockwise the slow running screw. Reverse the procedure if the pointer moves to the left. 16. If the engine idle speed (slow running) rises too high or drops too low during balancing adjust to the correct idle speed, whilst maintaining the gauge pointer in the zero sector.
ST 1102M
13
20. On the left-hand carburetter, place a 0,15 m m (0.006 in) feeler between the underside of the roller on the countershaft lever and the throttle lever. 21. Apply pressurc to the throttle lever to hold the feeler. 22. Tighten the screw to secure the throttle adjusting lever, then withdraw the feelcr.
20
26. The fast idle adjustment is pre-set on the left-hand carburetter and should not normally require adjustment. If adjustment is required, the correct procedure is to remove the left-hand carburetter and carry out instructions 66 - 69 under carburetter overhaul. Alternatively the fast idle can be approximately set by pulling the choke cable until the mark on the cam is in-line with t h e head of the adjusting screw. Slacken the locknut and adjust the screw against the cam until the correct idle speed is achieved see Engine tuning data. Tighten the locknut.
23. On the right hand carburettcr, place a 0,15 m m (0.006 in) feeler between the left leg of the fork on the adjusting lever and the pin o n the throttle lever. 24. Apply light pressure t o the linkage to hold thc feeler. 25. Tighten the screw to secure the throttle adjusting lever, then withdraw thc fcclcr.
ST1
27. Fit t h e air cleaner elbows. 28. Remove the piston damper plug on both carburetters and replenish t h e damper reservoir with S.A.E.20 oil to within 12 mm (0.5 in) from thc top of thc tube and refit damper plug.
STl130M
14
1191
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1. Remove the carburetters from the engine and clean the exteriors with a suitable solvent. 2. Remove the two nuts and spring washers and withdraw the air intake adaptor and joint washer. 3. Unscrew and remove the piston damper assembly and drain the oil. 4. Remove the three screws and lift-off the suction chamber complete with piston and spring. 5. Remove the spring clip from the top of t h e piston rod and withdraw the piston and spring. 6. Unscrew the fuel metering needle guide locking screw. If the needle cannot be removed from the piston with the fingers, hold the needle as close to the piston as possible, in a soft jawed vice and with - a sharp pull withdraw the needle, guide and spring assembly. 7. Remove the four screws and withdraw the float chamber cover plate and scaling ring. 8. Remove the jet adjusting lever retaining screw and spring. 9. Withdraw the jet complete with the bi-metal lever and seperate the lever from the jet. 10. Unscrew and remove the float pivot spindle and plain washer, and remove the float. 11. Lift-out the needle valve. 12. Unscrew and remove the needle valve and filter. 13. Unscrew and remove thc jet bearing nut. 14. Invert the carburetter body to allow the jet bearing to fall out. If the bearing sticks, carefully tap it out from the bridge side. 15. Remove the piston guide peg. 16. Remove t h e suction chamber-to-body sealing ring. 17. Unscrew and remove the mixture adjusting screw and seal. Use thin nosed pliers to finally withdraw the screw. 18. Bend-back t h e cam lever n u t lock tabs and remove the nut and lock washer. 19. Remove the cam lever and spring. 20. Remove the end seal cover and seal. 21. Remove t h e two screws and withdraw the cold start valve body and seal together with the valve spindle. Also collect the paper joint washer. 22. Note the position of the throttle levers and return spring. 23. Bend-back the lock washer tabs and remove the throttle lever nut. 24. Remove the lock washer, bush washer and throttle actuating lever. 25. Re!eise the thro!t!e retErn spring and remmve the throttle adjusting leaver from the throttle butterfly spindle and remove the return spring. 26. Hold the butterfly closed and mark the relationship of the butterfly to the carburetter flange. 27. Remove the butterfly two retaining screws and withdraw the butterfly from the spindle.
28. Withdraw the throttle butterfly spindle from the carburetter body together with the two seals. 29. Clean all components with petrol or de-natured alcohol ready for inspection. Do not use abrasives for the removal of stains or deposits.
INSPECTION
30. Examine the throttle spindle and bearings for excessive axial clearance. 31. Check the float needle and seating for wear and the float for punctures and renew if necessary. 32. Check the condition of all rubber seals, 0rings and joint washers and renew if necessary. The float cover plate seal must be renewed. 33. Examine the carburetter body for cracks and damage. 34. Ensure that the inside of the suction chamber is clean and fit the piston into the chamber without the spring. Hold t h e assembly horizontally and spin the piston. The piston should spin freely in the suction chamber without any tendency to stick. 35. Inspect the metering needle for wear, scores and distortion. Check also that it has the correct designation number - see Engine Tuning Data, Section 05. 36. Examine the bi-metal jet lever for cracks. 37. Check all springs for cracks and distortion. ASSEMBLE
Fit throttle butterfly
38. Fit the throttle spindle to t h e carburetter body and insert the throttle disc into the spindle in its original position. Secure the disc with new screws and ensure that before tightening the throttle disc is correctly positioned and closes properly. Splay the split ends of the screws to prevent turning. 39. Fit new seals to both ends of t h e throttle spindle ensuring that they are fitted the correct way round.
Fit cold start assembly 40. Fit a new 0 ring to the valve body and assemble t h e valve spindle to the valve body.
43
4.0
ST1873M
41. Fit a new paper joint washer to the valve noting that the half-moon cut-out in the washer is clearance for the top retaining screw.
continued
15
CT?374M
45
32. 33. 34. 35. 36. Cold start and cam lever assembly. Throttle adjusting lever and lost motion assembly. Throttle actuating lever. Bush washer. Throttle lever assembly retaining nut and lock washer.
continued
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Fit throttle lever assembly 47. Fit the return spring so that the longest leg rests against the throttle adjusting screw housing. 48. Fit the throttle adjusting lever and lost motion assembly and tension the return spring. 49. Fit the throttle actuating lever. 50. Fit the bush washer and lock washer. 51. Fit and tighten the special nut and bend the lock tabs over a convcnient flat.
56
52. Fit the jet bearing, long end towards the float. 53. Fit the jet bearing nut. 54. Clean or renew the filter and fit the float needle seat. 55. Fit the needle valve, spring loaded pin uppermost. 56. Fit the float and secure with the pivot pin. 57. Hold the carburetter in the inverted position so that the needle valve is closed by the weight of the float only. Check using a straight edge that the point o n the float, arrowed on the illustration, is 1.0 to 1.5 mm (0.04 to 0.062 in) below the level of the float chamber face?dimension A. 58. Adjust the float position by carefully bending the brass pad until the correct dimension is achieved. After adjustment, check that the float pivots freely about the spindle.
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ST1876M
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continued
18
19
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59. Assemble the jet to the bi-metal jet lever and ensure that the jet head moves freely in the
cut-out. 60. Fit the jet and bi-metal jet lever to the carburetter and secure with the spring loaded jet retaining screw. 61. Fit the mixture adjustingscrew.
ST1879M
62. Adjust the mixture screw until the jet is flush with the carburetter bridge, then turn the scrcw a further three and one half turns clockwise.
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63. Using a new sealing ring. f i i the float chamber cover, noting that it can only be fitted one way. Secure with the four screws and spring washers and evenly tighten.
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66. Fit the piston key to the carburetter body using a new screw. Tighten thc scrcw and splay the end. 67. Fit a new suction chamber sealing ring to the groove in the carburetter body. 68. TO prevent the piston spring being 'wound-up' during assembly, tcmporarily fit the piston and suction chamber less thc spring to the body, and pencil mark the relationship of t h e chamber to the body. Remove the suction chamber and fit the spring to the piston. Hold the suction chamber above t h e spring and piston, align the pencil marks and lower the chamber over the spring and piston, taking care not to rotate the suction chamber. Secure the chamber to the body with the three scrcws, tightening evenly and check that the piston moves freely. 69. Hold the piston at the top of its stroke and fit the spring clip. 70. Fit the piston damper. 71. Using a new joint washer, fit the air intake adaptor and secure with t h c two nuts and spring washers. 72. Fit the carburetters to the inlet manifold ensuring that the joint washers, dcflector and insulator are fitted in the sequence illustrated. The insulator must be fitted with the arrow hcad uppermost and pointing inwards towards the manifold. Secure with the four nuts and spring washers and tighten evenly to the correct torque. A. Joint washer. B. Deflector-teeth pointing inwards. C . Joint washer. D. Insulator. E. Joint washer.
continued
19
72
be repeated as often as required. It is important that the above cycle is adhered to, otherwise overheating may result and settings may be incorrect. The piston dampers must always be kept topped-up with the correct grade of oil. Before any attempt is made to check settings a thorough check should be carried out to ensure that the throttle linkage between the pedal and carburetters is free and has n o tendency to stick. Ensure that the choke control lever is pushed fully down. NOTE: References to left and right hand are as from the drivers seat.
TAMPER -PROOFING
ST1880M
73. Connect the linkages and top-up the carburetter dampers with a recommended oil to the top of the hollow piston rod. 74. Tune and adjust the carburetters.
To comply with E.C.E. regulations the idle speed and mixture adjusting screws must be tamper - proofed following any adjustments. A red blanking plug; Part number - JZX 1258 must be fitted into the mixture screw resess and a red cap; Part number JZX 1197 fitted over the idle adjustment screw (throttle adjustment screw).
continued
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ST1914M
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Accurate engine speed is essential during carburetter tuning, therefore the distributor pick up air gap and ignition timing must be checked together with the vacuum advance system. Whenever possible the ambient air temperature of the tuning environment should be between 15" to 26C (60" to 80F). When checking engine speed, use an independent and accurate tachometer. Idling adjustments should be carried out on a fully warmed up engine, that is, at least 5 minutes after the thermostat has opened. This should be followed by a run of one minute duration at an engine speed of approximately 2,500 revhin before further adjustments or checks are carried out. This cycle may 20
Using balancer B89 3. Disconnect the inter-connecting throttle link between the two carburetters. 4. Back-off t h e idle adjusting screw on each carburetttcr, clear of the throttlc Icver. 5. 'Turn each throttle adjusting screw so that i t touches the throttle lever. then turn the screws by equal amounts to achieve an approximate idle speed of 700 to 800 rev/min. 6. Press the balancer firmly over the carburetter intake. Press or withdraw the control on the side of the balancer to adjust the meter needle reading to approximately half scale, and note the reading.
con t I n ued
21
8. Alternatively, adjust and check the balance of both carburetters until an idle speed of 700 to 800 rev/min is obtained. 9. Reconnect the throttle inter-connecting link, and again check the idle spced and balance.
Mixture setting 10. Ensure that the engine is still at normal operating temperature. 11. Mark t h e relationship of the suction chamber to the carburetter body, remove the retaining screws and lift off the suction chamber complete with pistons. 12. To achieve a datum setting for the mixture screw, turn it anti-clockwise until the jct is level with t h e carburetter bridge. Check by placing a straight edge across the bridge and adjust as necessary so that the jet just touches the straight edge. 13. Refit the suction chamber and piston, evcnly tighten the retaining screws. Check that the piston moves freely without sticking. Top-up the piston damper.
14. Turn the mixture adjustment screw three and one half turns clockwise. 15. Insert the probe of an infra-red exhaust gas analyser as far as possible up the exhaust pipe, start the engine and allow a one and one half minute stabilisation period. 16. Adjust the mixture screw on both carburetters by equal amounts, rich or weak to achieve a CO reading of 0.5 to 2.5%. 17. If after approximately two minutes the CO level is not satisfactory run the engine at 2000 rev/min for one minute to stabilise the cquipment, continue the setting procedure until a stablc CO reading of 0.5 to 2.5% at an idle speed of 700-800 rev/min is obtained.
/
, I
ST1915M
18. Check that the engine is at normal operating temperature. 19. Slacken the nut, at the left hand carburetter securing the inter-connecting link ball to the throttle cam lever.
continued
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1191
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20. Disconnect the inter-connecting link between the carburetters at the left hand carburetter. 21. At the right hand carburetter, release the lock nut and slacken off the lost motion adjustment screw, until it is well clear of the spring loaded pad. 22. 'If necessary adjust the idle screw to maintain the correct idle speed. Check the CO level and carburetter balance, adjust if required. 23. Re-connect the inter-connecting link to the left hand carburetter. 24. Hold the right hand throttle lever against the idle screw stop and adjust the lost motion screw until contact is made with the spring loaded pad, tighten the lock nut. 25. Check the idle speed and balance. Adjust the lost motion screw to restore balance if necessary. 26. Ensuring that the roller is firmly seated in the lower corner of the cam lever, tighten the nut which secures the inter-connecting link ball to the cam * lever.
Fast idle adjustment
27. Pull out the cold start control (choke) until the scribed line on the left hand fast idle cam is in-line with the centre of the fast idle screw head. 28. Check that the scribed line on the right hand fast idle cam is similarly in-line with the fast idle screw head. If there is mis-alignment, slacken the fast idle cam link rod screw at the right hand carburetter and move the cam until the scribed line coincides with the centre of the screw head. Tighten the cam rod screw. 29. Turn the fast idle screw clockwise, on each carburetter, until just clear of the cam. 30. Turn the fast idle screw of the leading (left-hand) carburetter down (clockwise) until a slight change in engine speed is noted. 31. Similarly turn t h e fast idle screw of the second carburetter (right-hand) down until a further slight change of engine speed is noted. 32. Adjust the fast idle screws of both carburetters by equal amounts to achieve a fast idle speed of 1100 to 1150 redmin. 33. Tighten the fast idle screw lock-nut on both carburetters. Push the cold start (choke) fully home then pull it out again to its full extent and recheck the fast idle speed. 34. Fit the appropriate blanking plug and cap to the mixture screw recess and idle adjusting screw. 35. Fit the carburetter air intake elbows and air cleaner.
23
19
SYMPTOM
DIFFICULT STARTING W H E N C O L D
POSSIBLE CAUSE
Insufficient choke action
CURE
Check action of cold start unit to ensure that the choke is being applied fully - adjust choke cable. Check position of cold start adjuster - move outward Check and adjust fast idle setting. Check linkage between choke and throttle for distortion Check needle valve for sticking - (closed). Chcck tloat level setting. Chcck inlet corinection filter for blockage. Check externa fuel system in accordance with fuel system fault diagnosis Check needle valve for sticking- (open) Float punctured Fuel pump pressure too high Float level too high Check filters and pump for blockage Check fuel tank breather and fuel lines for blockage Removc fuel pump and check operation Overhaul or fit new pump Check to ensure choke is returning to fully 'off' position; reset as necessary Fit new air cleaner elements Check float level setting. Check float arms for distortion. Check needlc mlve for sticking. Punctured float. fuel pump xessure too hieh Zhcck level of oil in damper, and fill to corrcc eve1 with oil o a viscosity of S.A.E.20 f lheck air valve assembly moves freely and -eturns under spring load -centre jet issem bl y lheck diaphragm for cracks or porosity- Zenitt
Carburetter llooding
Choke sticking 'on' Blocked air cleaner Float chamber level too high
A C K OF ENGINE P O W E R
Water in fuel
f water is present in float chamber, the omplete fuel system should be drained, fuel omponcnts should be dismantled, inspected 'or contamination, paying particular attention o filters.
Sheck float chamber level -heck for needle valve sticking :heck and reset jet settings in accordance vith carburetter overhaul instructions :heck throttle spindle and bearings for wear -heck inlet manifold gaskct for leakage. :heck inlet manifold for cracks and distortion if mating faces. Check gaskct between arburetter and manifold. Check condition 1f vacuum advance pipe and connections. :heck vacuum servo pipes and connection> ?heck and refill to correct level with oil pecificd :lean and check freedom
:it new air clcaner elements
Float level too low Incorrect jet sctting Zarburctter air leaks Vlanifold air leaks
l a m p e r oil too thick. N o oil in damper 4ir valve sticking :XCESSIVE FUEL CONSUMPTION 3locked air cleaner l a m p e r oil too thick
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iith carburetter tune and iidjusr instructions 'loat level too high Norn jets and necdlc ncorrect needle :hoke sticking 'on' <ngine fault :heck and reset float lcvcl k c k and repiacc a s ncccssary :heck needlc typc :heck to ensure choke is rcturning to fully ~ f f position. r c x t a s ncccssary ' r e Engine Fault diapnci\is
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ST1683M
..
..
LAND ROVER 110 REAK TANK AND 90 SIDE TANK INSTAL1,ATION Description Fuel drawn by the electrically operated in-tank pump, is delivered to a paper element type filter. Situated bencath the right-hand front footwell attached to a chassis outrigger from the filtcr, fuel enters a vapour separator located on the left-hand side of the bulkhead in the engine compartment. Fuel finally cntcrs the carburetter float chamber from the port at the base of the vapour separator. The vapour separator comprises part of the spill return system and its purpose is to prevent fuel vapour causing air locks in the supply to the carburetter. Vapour and excess fuel flows back into the file! t m k t h r o ~ g h2 restricter fitted !e the spi!! return port on the vapour separator. The restrictor is designed to assist in maintaining a constant fuel level in the vapour separator bowl and to prevent fuel flowing back to the tank at the same rate as the delivery.
FUEL FILTER
*.From fuel filter totocarburetter via vapour separator From fuel pump filter pipc C.
A . Fuel Iter
25
119
NON-RETURN VALVE
.
VAPOUR SEPARATOR A. Vapour separator
B. Spill return to side tank C. Restrictor and spill return to solenoid valve D. Outlet from separator to carburetter
SPILL RETURN SOLENOID VALVE A. Solenoid valve B. Spill return to side tank C. Spill return to rear tank D. To carburetter via filter and vapour separator
W
ST1844M
FUEL PUMP A. Pump and motor B. Filter C . Gasket D. Electrical terminals E. Outlet pipe F. Fixing plate to tank G. Plastic tie clip - See CAUTION - remove and refit pump
27
28
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29
1191
1. In-tank fuel pump. 2. Fuel gauge tank unit. 3. Fuel supply pipe to filter via connector. 4. Fuel filter. 5 . Fuel supply pipe filter to vapour separator 6 . Vapour separator.
7. 8. 9. 10. 11.
Vapour separator, outlet to carburetter. Spill return pipe to fuel tank via restrictor. Fuel filler. Breather hose. Restrictor. 12. Fuel tank drain plug.
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I. In-tank fuel pump. 2. Fuel tank gauge unit. 3 . Fuel supply pipc to filter. 4. Fuel filter. 5. Fuel supply pipe filter to vapour separator 6. Vapour separator.
Vapour separator, outlet to carburctter. Spill return pipc to fuel tank via restrictor. Fuel filler. Breather hose. Restrictor. Fuel tank drain plug.
E l
To renew the pump it is first necessary to remove the fuel tank from the vehicle. Before commencing the following instructions it is essential that the WARNINGS and safety precautions concerning fuel tank draining and removal are studied and observed. These precautions are included in the introduction to this and each of the five books comprising the workshop manual for the Ninety and One-Ten vehicles.
1. Move vehicle to well ventilated area and disconnect the battery. 2. Remove the fuel tank drain plug and allow the fuel to drain into a suitable receptacle and refit the Plug. 3. Working from the right-hand side of the vehicle disconnect the fuel feed pipe and the spill return at the rubber connections. 4. Disconncct the fuel filter hose and breather hose from the tank. 5. Whilst, noting the cable colours, disconnect the electrical leads from the fuel gauge unit at the left-hand side of the vehicle. 6. If the vehicle is fitted with a towing ball drop-plate with support bars the bars must be removed. 7. Remove the eight nuts and bolts securing the anti-roll bar to the chassis and push the roll bar down to provide access to the tank. 8. Remove the left-hand lashing eye to facilitatc removal of the tank. 9. Place a support under t h e tank, preferably one which will enable the tank to be progressively lowered. 10. Remove the two nuts retaining the forward end of the tank. 11. Remove t h e two nuts securing the rear of the tank. 12. Carefully lower the tank sufficiently to enable the electrical leads to the fuel pump to be diconnected. 13. Finally rcmove the tank from the vehicle together with the pump and rear section of the fuel feed pipe. 14. Disconnect the rear section of the feed pipe from the pump. 1.5. Remove the five retaining screws and withdraw the fuel pump and sealing ring from the tank. 16. Cover the pump aperture in the tank to prevent the ingress of foreign matter. Fitting fuel pump
18. Offer-up tank to thc chassis and connect thc electrical leads black to negative (-) white to positive (+). 19. Locate front of t h e tank on the two captive bolts and secure with the mounting rubber, flat and spring washer and nut.
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CAUTION: On some early models a modification was carried out to the fuel pump to prevent the possibility of the contacts earthing. These pumps can be recognised by a black plastic tie clip as illustrated. See Fuel System description. If the fuel tank only is being renewed and the original pump is being re-fitted, ensure that the tie clip is correctly positioned.
19
ST1679M
32
1191
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20. Secure the rear of the tank with the two captive bolts, plain washer and nyloc nut.
ST1676M
7. Cover the pump aperture in the tank to prevent the ingress of foreign matter.
CAUTION: On some early models a modification was carried out to the fuel pump to prevent the possibility of the contacts earthing. These pumps can be recognised by a black plastic tie clip as illustrated. See fuel system description. If the fuel tank only is being renewed and the original pump is being re-fitted, ensure that the tie clip is correctly positioned.
21. Connect the fuel feed pipe. 22. Connect the spill return pipe. 23. Connect the fuel filter hose and breather pipe to the tank. 24. Fit the left-hand lashing eye. 25. Fit the anti-roll bar. 26. Fit the drop plate support bars- if fitted. 27. Connect the fuel gauge unit leads. 28. Reconnect battery, and check operation of pump and change-over solenoid - if fitted.
Refitting
8. Insert the pump and new sealing washer into the tank so that the outlet pipe is directed towards the left-hand side of the vehicle and the electrical
connections to the right.
REMOVE SIDE TANK FUEL PUMP 1. Move the vehicle to a well ventilated area, extinguish all naked lights and disconnect the vehicle batteries. 2. Remove the right-hand side front seat cushion. 3. Move the carpet aside, where fitted and unclip and remove the seat base cover. 4. Disconnect the two Lucars from the fuel pump. 5 . Disconnect the fuel outlet pipe from the pump. 6 . Remove the five retaining screws and withdraw the pump and sealing ring.
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33
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WARNING: Do not allow the fuel spray to contact the person otherwise injury may result from skin penetration.
When an injection nozzle is considcrcd to be t h e cause of irregular running and loss of power, a quick check may be made by loosening the fuel feed pipe union nut on each nozzle in turn, whilst the engine is idling at approximately 1,000 rev/min. If the injection nozzle assembly being checked has been operating properly, there will be a distinct reduction i n engine speed accompanied by obvious roughness, but a faulty injection nozzle may make little or no difference to the engine note when its fuel feed pipe is loosened. Spray check 1. Remove the fuel spill gallery pipe complete from the injection nozzles. 2. Disconnect the fuel feed pipe (injection pump to nozzle) from the nozzle to bc testcd and from the injection pump. 3. Rcleasc t h e fixings and withdraw the suspected injection nozzle assembly; reconnect t h e pipe and nozzle assembly to t h e injection pump in a position whereby fuel ejection may be observed.
PRIME FUEL SYSTEM Procedure following fuel filter or sedimentor service When models fitted with a sedimentor have had thc water drained only from the sedimentor bowl, no priming is necessary as t h e water is replaced by fuel automatically syphoned from thc tank. However, if the sedimcntor has been dismantled and air has entered the body, or where the fuel filter element has been replaced and the filter bowl cleaned, then the system must be primed as follows: NOTE: The above illustration shows the D.P.A. pump fitted to the 3.25 iitre diesei engine.
34
1191
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1. D o not attempt to start the engine hoping to draw the fuel through in this way, othcrwisc the full priming procedure will be necessary. 2. Slacken the bleed pipe banjo bolt on the top of the main fuel filter.
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3. Operate the hand priming lever on the mechanical pump, until fuel free from bubbles emerges. Always ensure that fuel pump lever is on the bottom of the operating cam when priming the fuel system, otherwise maximum movement of the priming lever cannot be achieved. 4. Tighten the bleed pipe banjo bolt whilst the fucl is still emerging. 5 . Operate the hand priming lever once or twice to clear t h e last bubbles of air into the filter bleed pipe. 6. Start engine in normal way and check for leaks.
Procedure when fuel system has been drained
., ... ... .. .,.
'.I
9. Operate t h e fuel pump hand priming lever until fuel free of air cmerges. 10. Rctighten the air vent screw. 11. To ensure that all air is exhausted from the pump i t may also be nccessary to slacken air vent screw in the distributor control cover and repeat instructions 9 and 10. 2.25 litre engine D.P.A. pump only. 12. Start the engine in the normal way and check for leaks.
Procedure when distributor pump has been drained 13. Carry out instructions 8 to 12 inclusive.
..
I..
, . .
., .. ...
FUEL INJECTION PUMP -Altitude compensation When Diesel engines are operated at high altitude it is recognised that the reduced air density causes a reduction in the weight of air drawn into the engine cylinders, which results i r i incomplclc combustion of the injected fuel at full throttle, unlcss this is rcduced in proportion to the reduction in air density. To compensate for these variations and to avoid excessive fuel consumption, accompanied by excessive exhaust smoke, the amount of fuel delivered to the cylinders must be reduced to suit the conditions under which the engine is required to operate. For every 330 metres (I000 feet) above 990 metres (3000 feet) the fuel delivery must be reduced by 3%. Adjustments to the D.P.S. pump, however, must only be carried-out by an authorised C.A.V. Dealer.
....... . . i
STllOl M
35
0 -,:5, ,
1. Remove the injectors from the engine. 2. Disconnect the injectors from the fuel spill rail. 3. Remove the combined locknut and end cap. 4. Withdraw the sealing washer. 5. Unscrew the pressure adjusting screw. 6. Withdraw the pressure spring. 7. Withdraw the valve spindle. 8. Unscrew the cap nut. 9. Withdraw the nozzle valve and body.
- . +
---
ST 1107M
14. Remove the carbon from the valve seat, using the appropriate tool with a rotary motion. 15. Select the appropriate size probe from t h e pocket of cleaning kit and secure it in the pintle hole cleaner. Insert the probe into the bore of nozzle valve body and allow the end to extend through the main fuel outlet, then turn in a rotary manner to remove carbon.
ST 1106M
14
Cleaning and inspecting
10. Soak the component parts of the assembly in Shell Calibration Fluid to loosen carbon deposits, but do not allow parts of any one assembly to be interchanged with those of another. 11. Brush away all external carbon deposits from component parts with a brass wire brush and return them to the fluid bath. Particular care must be exercised when cleaning the pintle and seat of nozzle valve to avoid scratching or scoring, which could result in spray distortion.
36
15
ST 1108M
continued
E l
I.\..*:-;
:
16. Carbon may be removed from the nozzle valve cone by inserting the valve into the tool illustrated and then rotating it alternately in a clockwise then anti-clockwise manner whilst pressing the valve inward. If the nozzle is blued or the seating has a dull circumferential ring indicating pitting or wear, the nozzle body and valve should be returned to a CAV Service Agent and replacement parts fitted. Do not attempt to lap the nozzle valve to body. This process requires special equipment and training. 17. Clean the auxiliary spray hole using the special tool fitted with probing wire 0,20 mm (0.008 in) diameter.
NOTE: Allow 1,s mm (0.062 in) only to extend from the chuck and thus minimise the possibility of the wire bending or breaking while probing. Great care must be taken to prevent breakage of the wire inthehole.
19. With the flushing tool secured to the nozzle testing outfit, fit the nozzle body (spray holes uppermost) to the flushing tool and pump test oil through vigorously. This flushing process is necessary for the removal of any tiny carbon parricles which may have become lodged in the body after scraping and probing.
ST 1111M
. . . . .
\
Assemble
W
ST 1109M
18. Examine the pressure faces of nozzle body and nozzle holder to ascertain their freedom from scoring and scratches. These surfaces must be perfectly smooth.
20. Fit the nozzle valve to nozzle and check for freedom of movement. 21. Immerse the nozzle body and valve in the fluid bath and assemble whilst submerged. 22. Wash the remaining components and assemble the injector in the sequence illustrated during the dismantling. 23. Set the injection nozzle assembly in accordance with the following test procedure.
Bench test injector nozzle and holder assembly
24. To check a nozzle assembly and to ensure that it is functioning correctly, a setting outfit, as illustrated, is essential. A bench covered with linoleum or non-ferrous sheet metal is most suitable for mounting the outfit; such a surface facilitates the cleanliness essential when checking nozzle parts. Between the bench and setting outfit, a tray, also -c --- c U 1 I1u1I-lc1fuu> l 1 l ~ l a i , >IIOUIU be positioned to prevent spilt fuel spreading. Small containers may be attached to the bench to isolate the component parts of each assembly. These parts are carefully mated by t h e manufacturers and must not be interchanged. Lastly, a small bath with a cover, containing Shell Calibration Fluid for washing components, should be kept conveniently near. 37
--.1
-L-..lJ
35. Check externally the top and bottom of nozzle cap nut and pressure pipe union nuts for signs of oil leakage. If leakage occurs at the nozzle cap nut, remove the nut and examine the pressure faces of nozzle holders and nozzle body (see item 18) for presence of foreign matter or surface scoring, before tightening further. A leak-proof nozzle assembly with an excessive rate of pressure drop indicates a worn nozzle valve; the nozzle valve and nozzle body should be renewed.
32 30 35
29
ST 1 1 127M
Pressure setting 36. The selected operational opcning pressurc of the nozzle valve is 135 atmosphcrcs. Readjust to this setting in t h e manner described in item 32. Seat tightness 37. Wipe the bottom face of the injection nozzle dry and raise the pressure in the system to 125 atmospheres. A slight dampness on the bottom dripping face is permissible, but blob formation 01' indicates a badly seating valve in which case the assembly should be dismantled for further examination. Spray form 38. Fuel delivery to the injection nozzle assembly when testing spray form must be characteristically similar to fuel delivery under normal operating conditions and to effect these conditions an adaptor (CAV Y7044872) must be fitted between the injection nozzle assembly and the pressure pipe.
continued
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~ ., ,
-'
f~
;, .
.
I
. .
:: .T
.
Y .
39. The adaptor differs mainly in the cap nut and nozzle valve from the ordinary type of injection nozzle and holder assembly as fitted to the engine; the nozzle valve has no pintle. 40. The cap nut is extended, bored and threaded to receive nozzles for testing. 41, Connect the adaptor assembly to the pressure pipe. 42. Remove the end cap and adjust the opening pressure of the nozzle valve to 220 atmospheres. 43. Screw the injection nozzle and holder assembly to be tested, into the adaptor. 44. With the check valve closed, operate the handle smartly to expel air from the system. The auxiliary spray form may be tested at 60 strokes per minute and the main spray at 140. Spray development from starting to running speeds is illustrated, this illustration should be referred to and compared with the spray form of nozzles under test. Spray formation should be well formed and free from splits or distortion. A slight centre 'core' can be disregarded. Observe the main spray through 360 degrees to ensure a uniform spray.
*
d
ST 1115M
45. When satisfactory, fit the combined locknut and end cap, connect the injectors to the fuel spill rail and fit them to the engine.
FITTING FUEL INJECTORS The steel sealing washer fitted below the injector nozzle is to ensure that combustion does not take placc around the nozzle body and cause it to overheat. A washer which has been used more than once, or an incorrectly fitted washer may cause the nozzle to overheat and result in that cylinder misfiring. 1 . Ensure that the new washers are separated from each other and are clean. 2. Use a length of thin welding wire to guide one washer only into each port with the domed side toward the injector as illustrated. Ensure that only one washer is fitted to each port.
continued
. .
ST1114M
'
39
1191
3 . Lightly grease the copper washer into position on each injector before fitting to the cylinder head. 4. Fit the injector and evenly tighten the retaining nuts to the correct torque 6 to 8 Nm (4 to 6 Ibs ft). Uneven or overtightening of the injector nuts could distort the nozzle and cause misfiring when normal running temperature is reached. 5 . Reconnect the injector pipes but do not overtighten thc union nuts.
.. .
ST1835M
STlfiR8M
40
19
4 90,47 mm (3.562 ins) 97,OO mm (3.822 ins) 2495 cc 21:l 0.h.v. pushrod operated Garrett T2
63,487-63,500 mm (2.4995-2.500 in) Use 0.010 in U/S bearings 58,725-58,744 mm (2.312-2.31275 in) Use 0.010 in U/S bearings Taken on thrust washers at centre main bearing 0,05-0,15 mm (0.002-0.006 in)
.
.
Floating Hand push fit 30,1564-30,1625 mm (1.18726-1.18750 in) 0,0196-0,0036 mm (0.00077-0.U0014 in)
. .
41
1191
Camshaft
Drive ................................................................. Location ............................................................ End-float ............................................................. Number of bearings .............................................. Material ............................................................. Valves Seat angle: Inlet ............................................................ Exhaust ....................................................... Head diameter: Inlet ............................................................ Exhaust ....................................................... Stem diameter: Inlet ............................................................ Exhaust ....................................................... Valve lift: Inlet ............................................................ Exhaust ....................................................... Cam lift: Inlet ............................................................ Exhaust ....................................................... Valve springs Type ................................................................. Inner: Length, free .................................................. Length, under 8.0 kg (17.7 lb) load .................... Outer: Length, free .................................................. Length, under 21 kg (46 Ib) load ........................ Lubrication System ............................................................... System pressure, engine warm at 2000 rpm ................. Oil pump: Type ........................................................... Drive ........................................................... End-float of both gears .................................... Radial clearance of gears .................................. Backlash of gears ........................................... Oil pressure relief valve: Type ................................................................. Relief valve spring: Full length .................... ,.. ............................. Compressed length at 2.58 kg (5.7 lb) load ........... Oil filter: Type ...........................................................
25,4 mm (0.1 in) wide dry toothed belt Right-hand side (thrust side) 0,l-0,2 mm (0.004-0.008 in) 4 Steel shell, white metal lined
45" 45" 39,12-39,37 mm (1.540-1.550 in) 33,25-33,50 mm (1.309-1.319 in) 7,912-7,899 mm (0.3114-0.3109 in) 8,682-8,694 mm (0.3418-0.3422 in) 9,85 mm (0.388 in) 10,26 mm (0.404 in) 6,81 mm (0.268 in) 7,06 mm (0.278 in)
Wet sump, pressure fed 2,5-4,57 kgf cm2 (35-65 Ibf in2) Double gear 10 teeth, sintered iron gears Splined shaft from camshaft skew gear 0,0260,135 mm (0.0009-0.0045 in) 0,025-0,075 mm (0.0008-0.0025 in) 0,l-0,2 mm (0.0034-0.0067 in) Non-adjustable 67,82 mm (2.670in) 61,23 mm (2.450 in) Screw-on disposable canister
F :
a -
FUEL SYSTEM
Inspection pump .................................................. Fuel lift pump type ............................................... Pressure range ..................................................... Fuel filter ........................................................... Air cleaner ......................................................... See 'ENGINE TUNING DATA' Mechanical with hand primer 0,35-0,56 cm2 (5-8 Ibf in2) kgf Paper eiement Paper element type
continued
42
E l
::::.:> :
......:;....? . ..,..
::'
COOLING SYSTEM Type ................................................................. Pressurized spill return system with thermostat control, pump and fan assisted Thermostat opening temperature ............................. 82C 1,0 kgf cm2 (15 Ibf in2) Pressure cap ........................................................ Water pump type ................................................. Centrifugal 7 blade with viscous coupling Fan type ............................................................. Combined engine coolant and oil cooler Radiator .............................. ,....,........................
CLUTCH
Type ................................................................. Centre plate diameter (friction plate) ........................ Facing material .................................................... Number of damper springs ..................................... Damper spring colour ............................................ Verto diaphragm spring 235 mm (9.25 in) Verto 791 8 2 off white/green -Suffix 'C' 2 off pigeon blue - Suffix 'A' 4 off ruby red - Suffix 'B' Ball journal
TRANSMISSION Type ................................................................. Ratios Ninety and One Ten .................................... LT230T. Two-speed reduction on main gearbox output. Front and rear drive permanently engaged via a lockable differential High 1.4109:l Low 3.3198:l
Rear axle Type-Ninety models .............................................. Type-One Ten models ........................................... Ratio-All models .................................................. Front axle Type-Ninety models .............................................. Front wheel drive ................................................. Ratio ................................................................. Overall ratio (including final drive) Ninety and One Ten models ....................................
Spiral bevel Enclosed constant velocity joint 3.54: 1 In high transfer Fifth (Cruising gear) 4.15:l Fourth 4.991 Third 7.53: 1 1 1.49:1 Second First 17.90:l Reverse 18.48:l
ELECTRICAL Starter motor ...................................................... Paris Rhone type D9R91 12 volt, with reduction gear
....
43
1191
ENGINE
Firing order ........................................................ . . . Injection timing ................................................... Timing marks: . . Valve timing ....................................................... Injection timing ................................................... Tappet clearances inlet and exhaust .......................... Valve timing Inlet opens .......................................................... Inlet closes .......................................................... Inlet peak ........................................................... Exhaust opens ..................................................... Exhaust closes ..................................................... Exhaust peak ...................................................... Valve lift Inlet .................................................................. Exhaust ............................................................. Maximum governed speeds Full load ............................................................. N o load (flight speed) ............................................ Idle speed ........................................................... Dic-down time ..................................................... DlSTKlBUTOK PUMP Makehype .......................................................... 4000 r.p.m. 4400 k 80 r.p.m. 670 20 r.p.m. 4 seconds 16"B.T.D.C. 42" A.B.D.C. 103" A.T.D.C. 51" B.B.D.C. 13" A.T.D.C. 109" R.T.D.C. 1-3-4-2 13" R.T.D.C.
Slot for peg in flywheel and TDC mark on front pulley Special tool 18G 1458 inserted in D.P.S. pump 0,25 m m (0.010 in)
Direction of rotation ............................................. Advance box (two stage) ........................................ Back leakage rate 150-100 Atm: New nozzle ................................................... Original nozzle .............................................. Despatch nozzle ............................................. INJECTORS Makehype .......................................................... Nozzle size .......................................................... Opening pressure (working pressure) ........................ Injector pipe type ................................................. size .................................................. length .............................................. HEATER PLUGS
CAV DPS type with boost control and two speed mechanical governor with auto advance and solenoid electrical shut-off. Tamper proof sealing on flight speed and fuel adjustment screws. Clockwise, viewed from drive cnd 7" advance with 3" start retard 7 seconds 5 seconds 8520A290A
CAV Pintaux DES5385001 BDNO/SPC 6209 135 to 140 Atmosphercs High pressure multi-bundy 1,94 to 2,06 m m 457,2 mm (18 ins)
rrobe type, C'nampion CE63 i i v ~ i i 90 waits iicjiiiiiiai s Time to reach operating temperature of 850C ............ 8 seconds
., iviaiteitype ..........................................................
I 191
TURBO-CHARGER FlXINCS Stud-Turbo charger to exhaust manifold Nut-Turbo charger to exhaust manifold Adaptor-Oil feed to cylinder block Adaptor-Oil drain to cylinder block Pipc-Oil feed to turbo charger Pipe-Oil drain Stud-Outlet elbow to turbo charger Nut-Outlet elbow to turbo charger Heat shield support to inlet manifold Stud-Exhaust manifold to cylinder head Nut-Exhaust manifold to cylinder head Screw-inlet and exhaust manifold to cylinder head RECOMMENDED ENGINE OILS
Nm 22-28 2 1-26 22-28 22-28 15-22 32-48 22-28 2 1-26 22-28 30-40 28-36 30-40
Ibf.ft
16-21 15-19 16-21 16-21 11-16 23-35 16-21 15-19 16-21 22-30 2 1-26 22-30
The following list of recommended engine oils for temperate climates - ambicnt temperaturc range - 10C to 35C should be used for oil changes and topping up. They are SHPD (Super High Performance Diesel) oils that allow a maximum of 10,000 km (6,000 miles) between oil and filter changes. BP CASTROL MOBIL SHELL Vanellus C3 Extra 15/40 Deusol Turbomax 15/40 Delvac 1400 Super 15/40 Myrina 15/40
The following list of oils is for emergency use only if the above oils arc not availablc. They can be used for topping-up without detriment, but if used for engine oil changing, they are limited to a maximum of 5,000 km (3,000 miles) between oil and filter changcs.
BP Vanellus C3 Multigradc 15/40 CASTROL Dcusol RX Super 15/40 DUCKHAMS Hypergrade 15/50 ESSO Essolube XD-3 15/40 MOBIL Delvac Super 15/40 PETROFINA Fina Dilano HPD 15/40 Rimula X 15/40 SHELL TEXACO URSA Super Plus 15/40 Use only oils to MIL-L-2104C/D or API Service levels C D or SE/CD-ISW/40 SECTION 10
MAINTENANCE SCHEDULE
The following additional maintenance is required for the turbo charged engine to that contained in t h c main schcdulc for the non-Turbo Charged 2.5 Litre Diesel cngine.
At 1,600 km (1,000 miles), 10,000 km (6,000 miles) and 20.000 k m (12,000 miles) then every 20,000 km (12,000 miles) - Check tappets, and adjust if n e c e s s q Every 80.000 k m (48,000 miles)
19
TURBO-CHARGER
Removing 1. Remove thc bonnct. 2. Remove the hose connecting the air clcancr to the turbo-charger. 3 . Remove the turbo-charger heat shield fixings and remove the heat shield. 4. Release the clamp securing the turbo-charger elbow to the exhaust downpipe. 5 . Remove the inlet manifold to the turbo-charger hose. 6. Disconnect the boost control hose from t h e turbocharger. 7. Disconnect from t h e turbo-charger the lubrication inlet pipe.
10. Release the lock tabs and removc the four nuts securing the turbo-charger to the exhaust manifold and remove the turbo-charger and gasket.
+ -
.
:
*= -
\ \ \
\ \ \
\\
11. Fit the raised bead side of a new gasket uppermost to the exhaust manifold and fit and secure the turbo-charger with the four nuts, tightening evenly to the correct torque and secure with lock tabs. 12. Fit the exhaust elbow, using a new gasket, to thc turbo-charger and retain with the five nuts tightening evcnly to the correct torque.
46
119
ST1863M
13. Fit the exhaust downpipe to the turbo-charger elbow and tighten the clamp bolt. 14. Connect the lubrication inlet pipe to the turbocharger. 15. Fit the oil drain pipe to the flexible connection. 16. Connect the boost control pipe to t h e turbocharger. 17. Fit the hose connecting the inlet manifold to turbocharger. 18. Fit the heat shield. 19. Fit the air cleaner to turbo-charger hose. 20. Immediately prior to starting the engine release the oil inlet pipe to the turbo-charger and fill the centre housing with a recommended makc and grade of engine oil and re-fit the pipe.
CAUTION: Use only the threaded rod-end to make adjustments. Forcing the entire rod in or out will change the calibration with the possibility of damaging engine over-boost
7. Screw the rod-end in either direction until the rod end eye will locate easily over the wastegate pin and secure with retaining clip. 8. Release the calibration pressure and tighten the rod end locknut. Reconnect the hose. 9. Check the boost pressure, on the road, as described earlier. The pressure should not fall below 44 or exceed 50 cm HgG (8.5 -9.7 p.s.i.g.)
47
11911
TURBO-CHARGER FAULT TRACING It is important to be aware that when tracing a suspected fault in a turbo-charger that a turbo-charger cannot compensate for incorrect engine operation deficiencies in the air, or fuel intake systems, exhaust emission components or for damaged and worn engine internal parts such as valves and pistons. Before suspecting the turbo-charger, the engine should be checked against the tuning data in Section 05. Replacing a sound turbo-charger with another will not correct engine deficiencies. Systematic fault tracing of a suspected turbo-charger failure is important for two reasons. First, it must be found what, if anything, is wrong with the turbocharger so that it can be cxchanged. Second, it must be decided what action is necessary to prevent a repeat failure.
In many cases, evidence pointing to the cause of a failure is destroyed while removing the turbo-charger from the engine. For example, if a turbo-charger failed because of a faulty installation, such as loose connections that allowed dirt to enter the compressor, this would not be evident once the turbo-charger was removed from the engine. Failure to correct the installation, such as reinstalling defective manifold flange Connections, could cause an identical failure of the replacement unit. The hose connecting the air cleaner to the compressor, which could contain dirt or harmful particles, should bc cleaned or renewed if necessary.
In general, the fault tracing procedures that can be done with the least effort and in the least amount of time should be done first. Do not remove and renew the turbo-charger until the following visual checks and repairs that can be made with the turbo-charger installed, have been done. DO NOT, UNDER ANY CIRCUMSTANCES, DISMANTLE THE TUKBOCHARGER.
48
COOLING SYSTEM
-... . .! ..
I
1261
ENGINE PROTECTION
DRAIN AND FILL VS ENGINE COOLING SYSTEM WARNING: Do not remove the radiator filler cap when the engine is hot because the cooling system is pressurized and personal scalding could result. 1. Remove the radiator filler plug.
To prevent corrosion of the aluminium alloy engine parts it is imperative that the cooling system is filled with a solution of clean water and the correct type of anti-freeze, winter and summcr, or water and inhibitor if frost precautions are not required. Never fill or top-up with water only, always add an inhibitor (Marstons SQ36) if anti-freeze is not used. NEVER USC salt water with an inhibitor otherwise corrosion will occur. In certain territories where the only available water supply may have some salt content, use only clean rainwater or distilled water.
Recommended solutions Universal Anti-freeze or Anti-freeze Unipart permanent type ethylene base, without methanol, with a suitable inhibitor for aluminium engines and engine parts. Use one part of anti-freeze to one part water. Inhibitor Marston Lubricants SQ36 inhibitor concentrate. Use 100 cc of inhibitor per litre of water. Anti-freeze can remain in the cooling system and will provide adcquatc protection for two years provided that the specific gravity of the coolant is checked before t h e onset ofthe second winter and topped-up with new anti-freeze as required. Land Rovers leaving the factory have the cooling system filled with 50% of anti-freeze mixture. This gives protection against frost down to minus 47C (minus 53F). Vehicles so filled can be identified by a label affixed to t h e windscreen and radiator. After the second winter the system should be drained and thoroughly flushed. Before adding new anti-freeze examine all joints and renew defective hoses t o make sure that the system is leakproof. Inhibitor solution should be drained and flushed out and new inhibitor solution introduced every two years, or sooner where the purity of the water is qucstionablc. See the General specification data section for protection quantities.
. ,
2. Remove t h e radiator drain plug and allow thc coolant to drain, if neccssary, into a suitable container. Refit thc drain plug and ncw washer. The drain plug is situated on the left-hand side of thc radiator towards t h e bottom facing the engine compartment. NOTE: Disconnect bottom hose to drain on radiators without a drain plug. Connect hose after draining.
3 . Remove the engine drain plugs, one each side of the cylinder block, beneath the exhaust manifolds. Allow the coolant to drain and refit plugs and washers.
1
1261
COOLING SYSTEM
DRAIN AND FILL 2.25 LITRE PETROL AND DIESEL AND 2.5 DIESEL SYSTEMS WARNING: Do not remove the radiator or expansion tank filler caps when the engine is hot because the cooling system is pressurized and personal scalding could result.
4. To drain the expansion tank remove it from the vehicle, empty, flush-out and refit. If necessary renew the expansion tank hose. 5 . Make up a solution of anti-freeze and water in a scparatc container in the concentration required. The cooling system capacity is quoted in the data scction. Therefore to allow for topping up and the expansion tank make up a quantity in excess of this quantity. 6 . If anti-freeze is not required use Marstons SQ36 in the concentration recommended as described under Engine protection. Make up a quantity in excess of capacity for topping up and expansion tank. 7. Make sure all drain plugs are tight and fill the system through the radiator filler plug until the coolant is just below the filler neck. Fit the plug but do not over tighten. 8. Half fill the expansion tank with coolant and secure the cap correctly.
2. Remove the radiator drain plug and allow the coolant to drain, if necessary into a suitable container. Refit the drain plug with a new washer. The plug is located on t h e left-hand side of the radiator facing the engine compartment.
9. Start and run the engine until normal operating temperature is reached. Allow the engine to cool and check the levels in the radiator and expansion tank and top up if necessary. Finally check all hose connections for leaks.
2
ST1146M
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I
....... : . :.,. .
.I,
.-._ ... ; .
NOTE: Radiator without a drain plug, disconnected the bottom hose to drain. Reconnect after draining.
3. Remove the cylinder block drain plug, on the lefthand side of the engine, and allow coolant to drain completely before refitting the plug.
REMOVING THE RADIATOR (2.25 litre petrol and 2.25 and 2.50 diesel)
1. Disconnect the battery. 2. Drain the radiator by removing the drain plug at the bottom left-hand side of the radiator and releasing the expansion tank filler cap. See drain and fill cooling system. 3. Disconnect the overflow hose from the radiator. 4. The radiator is held in position by two brackets each secured by three screws. Remove the screws and brackets. 5. Disconnect the top and bottom hoses from the radiator. 6. Diesel engine 7. Disconnect thc vacuum pump hose from the pump and release it from the clips on the radiator cowling.
. ., ,. ,. . . ..
Petrol engine
ST1149M
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\ - ..
.: . . . , .
.:
, I
4. To drain the expansion tank, disconnect the hose from the tank to the water pump. Drain and flush and reconnect the hose. 5 . Make up a solution of anti-freeze and water in a separate container in the concentration required. The cooling system capacity can vary so rcfer to Capacities under General specification data. To allow for topping up and the expansion tank prepare a quantity in excess of the capacity of the system concerned. 6. If anti-freeze is not required, use Marstons inhibitor SQ36 in the recommended concentration, see under Engine protection. Prepare a quantity in excess o f the capacity for topping up and the expansion tank. 7. Check all hoses and drain plugs for security and fill the system through t h e expansion tank until approximately three quarters full. 8. Fit the expansion tank cap and radiator filler plug and run the engine until normal operating temperature is reached. Allow the engine to cool completely. Remove the expansion tank cap and if necessary top up to half full. Remove the radiator filler plug and check that the coolant level is just below the filler neck. Finally examine the cooling system for leaks. Tighten the radiator filler plug to 40-50 Ibs. in.
8. Disconnect the air cleaner hose from the carburetter and remove the air cleaner. 9. Release the three fixings securing cowling to the engine. 10. Pull back the cowling towards the radiator and lift radiator and cowl. 11. Remove the five screws securing the cowling to the radiator and separate the two units noting that the cowling is held to the bottom of the radiator by two clips.
continued
1261
COOLING SYSTEM
14. Secure the top of the radiator with the two brackets and bolts. 15, Secure the cowling to the engine. 16. Connect the top, bottom and overflow hoses. 17. Diesel engine Fit the hose t o the vacuum pump and secure it with the clips on the cowling. Fit the air cleaner and connect the hose to the air intakc manifold. 18. All engines
Check that the radiator drain plug (where fitted) is tight and f i l l t h e cooling system.
a
FITTING THE RADIATOR 12. Locate the cowling into thc clip at the bottom of the radiator and secure it at the top with the five screws. 13. Lower the radiator and cowl assembly into position in the vehicle ensuring that the two pegs at the bottom of the radiator locate in the corresponding rubber pads in the crossmember brackcts.
ST1151 M
A . Oil from engine to oil cooler. B. Cooled oil from cooler to engine.
e--. -+
ST1684M
RADIATOR ASSEMBLY -TURBO-CHARGED VEHICLES. Removing 1 . Disconnect the battery. 2. Remove the split pin and clevis pin securing the lower end of the bonnet stay and lift-off the bonnet. 3 . Remove the three screws each side securing the radiator left-hand and right-hand retaining brackets and remove the brackets. 4. Remove the four screws and withdraw the radiator cooling fan cowl. 5 . Disconnect the bottom hose from the radiator and drain the coolant. 6. Disconnect the oil cooler inlet and outlet pipes from the radiator and blank-off the pipes and radiator aperturcs to prevent ingress of dirt. 7. Disconnect the radiator top hose from the radiator and thermostat housing. 8. Disconnect expansion tank hose from radiator. 9. Lift the radiator from the engine compartment. 10. If the radiator is to be renewed, remove t h e oil cooler unions from the radiator and fit to the replacement radiator.
Fitting
11. Fit the radiator into position ensuring that the two pegs at the bottom of the radiator locate in the corresponding rubber pads in the cross member brackets.
ST18GYM
12. Fit the radiator top hose to the radiator and thermostat housing. 13. Conncct the radiator bottom hose. 14. Fit the expansion tank hosc to radiator. 15. Fit the fan cowl and secure with the four screws. 16. Fit the radiator left-hand and right-hand rctaining brackets. 17. Fit the oil cooler inlet and outlet hoses to the radiator. Hose A to top of radiator. Hose B to bottom of radiator.
18. Fit the bonnet and stay securing with the clevis pin and new split pin.
JI l 0 U O l V l
CTInCnl"
.... ., *:.
.,.:..::
Filling radiator
19. Check that all hose clips are tight. 20. Remove the expansion tank cap.
25. Connect the battery and run the engine until normal running temperature is attained whilst checking for coolant leaks. 26. Stop the engine and allow it to cool completely. 27. Remove the radiator plug and check thc level and fit and tighten plug. 28. Top-up level of expansion tank and fit the cap.
22. Fill the system with coolant using a mixture of water and anti-freeze or anti-corrosion inhibitor, through the expansion tank until1 the coolant is just below the level of the radiator plug hole. Continue filling until the expansion tank is half-full. 23. Fit the expansion tank cap and radiator plug. Tighten the plug to 40- 50 Ibs. in. 24. Check the engine oil level in sump and top-up.
POSSIBLE CAUSE
I. Loose hose clips 2. Defective rubber hose 3 . Damagedra d'iator seams 4. Excessive wear in the water pump 5. Loose core plugs 6 . Damaged gaskets 7. Leaks at the heater connectionsor plugs 8. Leak at the water temperature gauge Plug
CURE
1 . Tighten
2. 3. 4. 5. 6. 7. 8.
B- INTERNAL L E A K A G E
I . Renew. Check engine oil for contamination and refill as necessary 2. Renew cylinder block 3. Tighten. Check engine for oil contamination and refill as necessary
C-WATER LOSS
1. Boiling
1. Ascertain the cause of engine overheating and correct as ncccssary 2. See items A and B 3. Flush radiator o r renew the thermostat as necessary
2. Insufficient coolant
3 . Inoperative water pump 4. I.oosc fan belt 5. Inoperative therinostat
1. Check hoses for crimps, reverse-flush the radiator, and clear the system of rust and sludge 2. Replenish 3 . Renew 4. Adjust 5. Renew
1. Use only soft, clean water together with correct anti-freeze or inhibitor mixture 2. The cooling system should be drained and flushed thoroughly at least once a year 3 . Certain anti-frecze solutions have a corrosive cffect on parts of the cooling system. Only rccommcnded solutions should be used.
F-OVEKHEATING
1. Poor circulation 2. Dirty oil and sludge in engine 3 . Radiator fins choked with chaff, mud. etc.
4. Incorrect ignition timing 5. Insufficient coolant 6. Low oil level 7. Tight engine
8. Choked or damaged exhaust pipe or silencer 9. Dragging brakes 10. Overloading vehicle 1 I. Driving in heavy sand or mud 12. Enginc labouring on gradients 13. Low gear work 14. Excessive engine idling 15. Inaccurate tcmperature gauge 16. Defective thermostat
1. Sce item D 2. Refill 3. Use air prcssure from the engine side of the radiator and clean out passages thoroughly 4. Check using electronic equipment 5. S e e i t c m D 6. Rcplenish 7. New engines arc very tight during the 'running-in' period and moderate speeds should be maintained for the first 1,000 miles (1500 km) 8. Rectify o r renew
9. Adjust brakes 10. I n the hands of the operator 11. In thc hands of the operator 12. In the hands of the operator 13. In the hands of the operator 14. In the hands of the operator 15. Renew 16. Rcnew
G-OVEKCWOLING
I. Renew 2. Renew
CLUTCH
33
. ,
.. .
. ..
.
..
,
I . Remove the clutch slave cylinder from the bell housing. 2. Withdraw the retaining staple, if fitted. 3. Remove the release bearing assembly. 4. Remove spring clip retaining bolt and spring- V8. 5 . Remove the slipper pads - 4-cylinder engines only. 6. Withdraw the relcase lever. 7. Discard worn parts. 8. Smear the pivot with grease and fit the release lever and retain with the spring clip and bolt -V8. 9. Smear the release bearing sleeve inner diameter with Molybdenum disulphide base grease. 10. Fit the slipper pads. 11. Fit the release bearing assembly and retain with the staple. The staple is to aid assembly and has no other purpose. It may become dislodged in service, without detriment.
Illustration A . V8 engine
12. Coat both sides of the backing plate with a waterproof joint compound such as Hylomar PL32M and locate the backing plate and dust cover in position on the slave cylinder. 13. Check that the push-rod clip is in position. 14. Fit the slave cylinder, engaging the push-rod through the centre of the dust cover and with the bleed screw uppermost. Secure the cylinder with the two bolts, tightening cvenly to the correct torque.
OVERHAUL MASTER CYLINDER -All models DISMANTLE 1. Remove the master cylinder from the vehicle. 2. Remove the circlip. 3. Withdraw the push-rod and retaining washer.
ST1136M
ST1134M
,, i
7
4. Withdraw the piston assembly. If neccssary, apply a low air pressure to the outlct port to expel the piston.
continucd
-.
ST1135M STl137M
(33)
CLUTCH
Assemble 14. Smear the seals with Castrol-Girling rubber grease and the remaining internal items with CastrolGirling brake and clutch fluid. 15. Fit the valve seal, flat side first, onto the end of the valve stem. 16. Place the spring washer, domed side first, over the small end of the valve stem. 17. Fit the spacer, legs first.
5. Prise the locking prong of the spring retainer clear of the piston shoulder and withdraw the piston. 6. Withdraw the piston seal. 7. Compress the spring and position the valve stem to align with t h e larger hole in the spring retainer.
15
8. Withdraw the spring and retainer. 9. Withdraw the valve spacer and spring washer from the valve stem. 10. Remove the valvc seal.
STl140M
18. Place t h e coil spring over the valve stem. 19. Inscrt the retainer into the spring. 20. Compress the spring and engage thc valve stem in the keyhole slot in the retainer.
ST1139M
Inspection
ST1141M
11. Clean all components in Girling cleaning fluid and allow to dry. 12. Examine the cylinder bore and piston, ensure that they are smooth to the touch with no corrosion, score marks or ridges. If there is any doubt. fit new replacements. 13. The seals should be replaced with new
components.
2
21. Fit the seal, large diameter last, to the piston. 22. Insert the piston into the spring retainer and engage the locking prong.
continued
c-
.I
CLUTCH
OVERHAUL SLAVE CYLINDER
DISM ANTL,E 1. Remove the slave cylinder from the vehicle. 2. Withdraw the dust cover. 3. Expel the piston assembly, applying low pressure air to the fluid inlet. 4. Withdraw the spring. 5 . Prise off the seal from the piston.
STl142M
23. Smear the piston with Castrol-Girling rubber grease and insert the assembly, valve end first, into * the cylinder. 24. Fit the push-rod, retaining washer and circlip.
ST1144M
Inspection
ST1143M
6. Clean all components with Girling cleaning fluid and allow to dry. 7. Examine the cylinder bore and piston, ensure that they are smooth to the touch with no corrosion, score marks or ridges. If there is any doubt, fit ncw replacement. 8. The seal should be replaced with a new com pon e n t .
Assemble
BLEED CLUTCH HYDRAULIC SYSTEM When the gearbox and bcll housing assembly has been fitted to the vehicle the hydraulic clutch release system must be bled to expel air. NOTE: During the following procedure, keep the fluid reservoir topped-up to avoid introducing air into the system. Use only the fluid recommended in the Lubrication chart. Use only new fluid from a sealed container.
1. Attach a length of suitable tubing to the slave cylinder bleed screw and immerse the free end of the tube in a glass jar containing new clutch fluid. 2 . Slacken the bleed screw and depress the clutch pedal, pausing at the end of each stroke, until the fluid issuing from the tubing is free of air with the tube free end below the surface of t h e fluid in the container. Whilst holding the clutch pedal down and with the free end of the tube below the fluid, tighten the bleed screw.
9. Smear the seal with Castrol-Girling rubber grease and the remaining internal items with CastrolGirling brake and clutch fluid. 10. Fit the seal, largc diameter last, to the piston. 11. Locate the conical spring, small diameter first, over the front end of the piston. 12. Smear the piston, with Castrol-Girling rubber grease and insert the assembly, spring end first, into the cylinder. 13. Fill the dust Cover with Castrol-Girling rubber grease and fit the cover to the cylinder.
*,
. .
AND
MASTER
CYLINDER
1. The correct height for the clutch pedaI from the floor of the footwell, without a mat, to the lower edge of the pedal is 140 mm (5.5 in), dimension 'A'. Adjust 2. Withdraw the six screws and remove the top plate. 3 . Slacken master cylinder push-rod locknuts to provide free movement of the push-rod through the pedal trunnion. 4. Slacken the adjustment screw locknut. 5. To increase the pedal height, turn the adjustment screw anti-clockwise. To reduce turn clockwise. When correct tighten the locknut. 6. To adjust the master cylinder push-rod, check that <he push-rod has free-play through thc trunnion. 7. Adjust the locknuts until the push-rod has 1,5 m m (0.062 in) free-play between the push-rod and master cylinder. When correct tighten the locknu ts . 8. Check that there is 6 mm (0.350 in) free movement of the pedal at the pad. If necessary readjust the push-rod. 9. Refit the top plate.
ST1535M