Morgan 4/4 Series 1 - Morgan Owners Club of Australia
Contents
1. 3 00 WHEELS Part No Description Cost RW 001 Doomed Wheel Nut Stainless 2 50 RW 002 Hub Cap Early 1800 RW 003 Hub Cap Late 18 00 RW 004 Wheel Spinner threaded for hub 3200 RW 005 Wheel Spinner for spare wheel 32 00 BODY DASH Part No Description Cost 001 Dash Board wooden 80 00 BD 002 Instrument Panel steel 20 00 003 Choke Cable 24 00 004 Starter Cable 24 00 005 Speedo Cable Early Head 42 00 006 Speedo Cable Late Head 42 00 BD 007 Slow Running outer cable 7 00 BD 008 Switch marked P 11 00 009 Windscreen Pillar Pads pair 8 60 4 4 SERIES 1 SPARES PRICE LIST LIGHT ACCESSORIES Part No Description Cost LA 001 Lamp Side Window 2 00 LA 002 Pork Pie Lamp Side window 2 50 LA 003 Pork Pie Lamp Bulb Holder 6 00 LA 004 Front Side Light Red Glass Lens 3 00 LA 005 Headlight Glass Clips 0 29 LA 008 Dynamo Termina Cover 3 18 Morgan Series 1 Standard Special Motor doc Page 20 of 22 4 4 Morgan Technical Specification 16 Standard in India The Standard name lasted into the 1980s in India where Standard Motor Products of Madras manufactured the Triumph Herald with the basic 948 cm engine as the Standard Herald in the 1960s After 1970 Standard Motor Products split with British Leyland and introduced a restyled four door saloon based on the Herald called the Standard Gazel in 1971 using the2. water jacketing around the cylinder bores whereas the Standard Specials are siamised This means that the cylinder centres on the Standard Special engine are to the same spacings as the 8 hp engine rather than the 10 hp one whose centre two cylinders are at different spacings The 10 hp crankshaft can be fitted to the Standard Special engine but the two centre connecting rods will require modification Note that the flywheels for the 10 hp and 8 hp Flying Standard engines are the same except the clutch pressure plate and driven plate are smaller in the 8 hp engine hence their attachment holes are at a smaller diameter FIG 1B 1 Sectional view of Standard Special engine 1939 showing manifold and Solex carburettor Top insert shows overhead rockers and pushrods Bottom insert shows combustion chamber and position of valve Morgan Series 1 Standard Special Motor doc Page 5 of 22 4 4 Morgan Technical Specification 5 Pricing and Quality Issues According to Laban s research the price of the Standard Special engine in November 1937 was around 25 pounds compared with Climax engines which had risen to 36 pounds from 29 pounds When compared further HRG were paying 34 pounds for the Meadows 4ED engine in 1935 Dussek This makes the Standard Special engine seem a comparative bargain and even more so when contemporary reports indicate it was available as an option for an extra 5 pounds but there is no such thing as a free l
3. 0 85 Morgan Series 1 Standard Special Motor doc Page 18 of 22 Part No RA 001 RA 002 RA 003 RA 004 RA 005 RA 006 Part No TS 001 TS 002 TS 003 TS 004 TS 005 TS 006 Part No BB 001 4 4 SERIES 1 SPARES PRICE LIST MEADOWS GEARBOX No parts are in stock at present MOSS GEARBOX No parts are in stock at present MOSS REAR AXLE Description Cost Crownwheel and pinion BAS 360 00 Crownwheel and pinion 360 00 Half Shafts 6 splined out of stock Half Shafts 10 splined out of stock Half Shaft bearing adaptor both axles pair 20 02 Planet gears BAS 180 00 TRANSMISSION SUSPENSION Description Cost Drive shaft 15600 Drive shaft coupling 37 00 Silent Bloc bush bellhousing front engine mount 47 00 Silent Bloc bush rear springs 14 00 Trunnion rear springs 30 00 U Bolt set 15 00 STEERING Description Cost Steering Box Nut 88 12 4 4 Morgan Technical Specification Morgan Series 1 Standard Special Motor doc Page 19 of 22 4 4 Morgan Technical Specification 4 4 SERIES 1 SPARES PRICE LIST BRAKES Part No Description Cost 001 Hand Brake cable 44 00 BR 002 Front Brake cables pair 68 00 003 Front Brake cable distance bolt 9 00 BR 004 Front Brake compensator 18 00 BR 005 Rear Brake Rod connecting sleeve 7 00 BR 006 Rear brake Rod Rubber Boots pair 8 00 BRO07 Shoe Spring 225 008 Brake Light Spring
4. mm by 100 mm Pistons for the Standard Special are JP 0459 Pistons are occasionally available at auto jumbles or obsolete parts specialists e g Wellworthy Ref231 Specialloid M5 Repco HX 1602 They are commonly marked for the Flying Standard 10 engine 1937 on These pistons are almost always of the 4 ringed variety with a plug in the bottom land to stop the bottom ring rotating and potentially fouling on the hole tapped through into the cylinder for the retaining bolts for the camshaft follower housings The Repco HX1602 piston does not have this plug however and no damage would appear to ensue from its deletion The pistons came with either three or four rings The three ring ones haven t been around for a long time and were faulty in that the top rings were prone to breakage With the four ring pistons fitting is a bit complicated as the big end will not pass down the bore You can fit from below if you are good but with the spring inherent in new rings it is sometimes very problematical What it means is that the process takes a bit longer than usual i e put the bottom ring on noting that some pistons have a plug in the middle of the land push it in from below up out of the block the bottom ring won t come out because the biog end will catch fit the top three rings and lower down The NOS pistons were generally extremely well made but care should be exercised in selecting and using them now because of possible rust pitt
5. of Motor Q571E eene nemen enne n 13 13 Moss Gearbox EE Leo tea a ain ae ae eae Sa or RE Ret 14 14 Burman Douglas Steering Box 15 14 1 Steering Components iiec ette Ere iG Geto e ae 15 14 2 Adjustment for Worm Loading 15 14 2 Steering Box Description 16 14 2 Repairing the Steering BOx ssssssssssssseeeeeeeeeeeeere enne 17 15 5 ETT 18 16 Standard INN Gia sect soccer 21 17 Morgan Front Suspension 21 18 References oie edic eT tete Mb t e test rt e eae t t dus 22 Morgan Series 1 Standard Special Motor doc Page 1 of 22 4 4 Morgan Technical Specification The information collected herein has been assembled from various sources but in particular one person has generously made available his expertise The sources are listed separately at the end of the document John Merton has provided most of the material on the motor and was instrumental in the restoration of my own motor Q571E in 2008 The Standard Special motor as fitted to the Series 1 Morgan 4 4 is long out of production Detailed technical information has been collected to assist with the continued operation and maintenance of the motor and various ot
6. of the crankshaft are via scroll threads machined on to the pulley shaft at the front and the crankshaft at the rear These are effective at returning the oil but the front one especially is even more effective at drawing dust and other muck into the engine Neither the by pass filter normally fitted nor the full flow modification which some owners have carried out can cope adequately with this British cars from around the 1950 s period used in Australia had a propensity for main bearing wear particularly the front main for this reason It is recommended for this reason that the oil change intervals for this engine be reduced to 1 000 miles or 6 months whichever the sooner 9 Manifold There is a one piece cast iron manifold for both inlet and exhaust It has a hotspot The exhaust section runs over the top of the inlet towards the front of the car whence it curves downward and joins an exhaust pipe that exits through a hole in the chassis rail The manifold is on the right hand side of the engine unlike those on its side valve Standard contemporaries which are on the left Carburetion is via a single Solex downdraft model 30 FAI 10 Cooling Water cooling on all engines was by the thermosyphon principle assisted by a two blade fan The triangular boss and shaft on which this fan and its associated pulley are mounted is bolted with three 5 16 BSF bolts to the right hand front of the block and covers a 3 4 diameter access hole to th
7. return from the oil filter is direct to the sump These oil filter pipes were originally Bundy There has been a tendency to replace these pipes with copper ones a huge mistake as they will work harden and the one to the sump in particular will fracture just where it enters the sump Not a matter of if but when and the author has heard of several engines being ruined because of this The fittings are common BSP ones and it is best to have a hydraulic hose specialist make up new flexible pipes Morgan Series 1 Standard Special Motor doc Page 10 of 22 4 4 Morgan Technical Specification There is a ball and spring type oil pressure relief valve Oil return at the ends of the crankshaft is by scroll thread arrangements At the front the thread is machined onto the alloy fan pulley assisted by a dished thrower just inside the timing case At the rear both the crankshaft and the one piece alloy covering plate the rear oil retainer have scrolls machined on them It is critical that both the rear oil retainer and the front pulley be centred correctly on reassembling one of these engines otherwise some awfully funny noises may result and also the thread on the pulley and rear oil retainer plate ground off Lubrication of the bores and gudgeon pins is assisted by a small hole drilled through the big end of each connecting rod offset to the right hand side Although superficially the connecting rods look identical they are in fact matched pairs the
8. same 948 cm engine but with a different rear axle as the Herald s swing arm one was not liked much by Indian buyers and mechanics alike The Gazel was built in small numbers until 1977 Production of Standard cars ceased until the Standard 2000 a rebadged Rover SD1 was launched in 1985 The car had a slightly modified old 1 991 cm Standard Vanguard engine as the company could not procure the license to use the original Rover engine on this car and was thus not successful It ceased production in 1987 and was the last car to bear the Standard name 17 Morgan Front Suspension History As far as John Merton can determine the earliest use of sliding pillar independent front suspension was in 1873 IThe actual vehicle still exists in Paris The first use in a conventional petrol engined car was Decauville in 1898 These cars were also made under licence as the Eisenach in East Germany by a company which was a forerunner of BMW This was a rather crude device which had the stubs fixed to the bottom of a kingpin pillar which slid through a single bushing at the end of a transverse axle attached to the front of the chassis The tops of the pillars were sprung by a transverse leaf spring Several Decauvilles have survived and there is an Eisenach in the Henry Ford Museum This system was adopted virtually unchanged by Sizaire Naudin in around 1906 and was pretty well a suspension dead end The real breakthrough was around 1903 4 by the New Jerse
9. 4 4 Morgan Technical Specification Morgan 4 4 Series 1 Technical Notes for Standard Special Motor Burman Douglas Steering Box Moss Gearbox History Components amp Suppliers By Anthony Browne Morgan Owners Club of Australia January 2008 INDEX Page 1 Standard Special Motor Introduction and History 2 2 Standard Special Motor General Description ssssssssssseeeene 3 3 Relationship to Other Standard Motors sssssssssssssseeeeemee eee 3 4 Design Antecedents ee eee aede Sanden Mls Woah tek a 4 5 Pricing and Quality Issues enne 6 6 Design Features eae HER PORE ice ERE Ee e e 6 Te Motor Detail Wa ete A cent ees 7 7 1 Pistons and Bore rec 52592 eee Ree ted REED e pee dots 7 7 2 Pushrods and Valves bd eere crie te eid dee hie 8 7 8 M QT Ru 9 7 4 Timing Chain and Tensioner 9 7 5 DE 9 7 6 Grankshaft n hesterno qaid sese 10 Be UbriCatiOn eed ete 10 8 1 OU Way E EE 12 8 2 Oil Change nnne nnn 12 MN ecc ey eee 12 10 COOOIIMG e CLER 12 11 MI Em 13 12 Condition
10. and they are very rough and shoddy indeed despite which it is quite a strong little engine It has bearing sizes big ends and mains common to the 8 9 and 10 hp engines plus the same bore stroke dimensions as the 10 i e 63 5 mm by 100 mm It uses the pistons and connecting rods from the 10 the crankshaft from the 8 and the higher capacity oil pump from the 12 14 hp engines In some respects it is quite modern in others archaic The camshaft runs direct in the block as did early Vanguard engines the bores are desaxed and there are springs at the bottom of the pushrods as well as the top Surprisingly perhaps most replaceable parts i e bearings thrusts pistons valves are readily available new New timing chain tensioners aren t hard to come by while the chain itself can be modified from a Mazda chain Morgan Series 1 Standard Special Motor doc Page 3 of 22 4 4 Morgan Technical Specification There are no detailed manuals on the motor but the notes of John Merton that this part of the document is based on have had a fairly wide circulation including a copy to George Proudfoot UK many years ago The notes tell some of the various tricks and pitfalls The equivalent Standard motors of the time were all side valves The ones they provided to the SS Jaguar were OHV but John does not know if there is any component interchangability between these motors This point may need further research The pulley may be Standard which is hig
11. ard Motor Company developed a range of side valve motors for its new cars described as Flying Standards because of some elementary streamlining The motor was used almost exclusively in Morgans because it was only ever used in one other car the very first prototype Triumph Mayflower just after the war They didn t proceed with its use in Mayflowers after that first car According to allocated engine numbers only 700 Standard Special engines were ever made The last Q700E is fitted to Graeme Donaldson s car in Western Australia In May 1939 the Climax engine was replaced in the Series 1 4 4 by the 1 267cc Standard Special engine This engine was produced especially for Morgan and had the Morgan name cast into the rocker cover There were 525 cars manufactured with the Standard Special engine and production restarted after WW2 In 1947 the announcement by the Standard Motor Co of their One Engine Policy meant that no more 1 267 cc units would be available after 1949 and Morgan found it necessary to consider alternative power units My own car left the factory on 8 May 1950 so it seems that there were still a few motors left over at that time 3 Relationship to Other Standard Motors The Standard Special motor is claimed variously to be descended from the Standard 9 Morgan factory books the Standard 10 to be an OHV conversion of the Standard 10 etc but itis really none of these things The block and head castings are unique
12. available and has almost no adjustments As it wears it has to be rebuilt There are no known sources of parts for these boxes A serious drawback to the system is that it does not collapse as it has a single old type shaft steering column that can impale the driver in a front end collision It is essential that smooth driving habits are employed Do not yank at the steering wheel and do not try to operate the steering while the car is stationary Splines for hofding arag ink FIG 9 1 Diagram of Burman Steering Gear 14 2 Adjustment for Worm Loading The Burman box has an adjustment for loading the worm The bolts on top of the steering box should also be checked to ensure they haven t vibrated loose Morgan Series 1 Standard Special Motor doc Page 15 of 22 4 4 Morgan Technical Specification To check the worm loading it is necessary to jack up the car and disconnect the Pittman arm which is the heavy steel arm coming out from the bottom of the box from the drag link which is the cross bar connecting to the tie rod Carefully turn the steering wheel from lock to lock There should be a very slight 12 in pounds increase in the force required to move the steering wheel through centre If there is no increase loosen the locking nut on the screw adjuster located at the top of the steering box Turn the adjusting screw slightly tighten the locking nut and re test Once there is some resistance felt no further adjustment is re
13. ay simply because the front timing case cover wasn t centred properly On these engines incidentally if this or the alloy back cover are not done you will get a noise on the overrun indicative of bad bearing trouble John has just about sorted things out on my engine side now except he ll have to make up a new oil thrower washer get a new front crank nut and get a broken distributor mounting base cast iron welded up There is a rocker cover with the engine and the engine is actually pretty well complete except the front crankshaft pulley is buggered It will also need a jackshaft The motor is generally in recoverable condition One stud has snapped at the back it s one of the ones that attach the back plate which carries the bell housing but should be removable Morgan Series 1 Standard Special Motor doc Page 13 of 22 4 4 Morgan Technical Specification and is not really critical anyway Most of the other bolts came out easily but are badly rusted and will need replacing Interestingly the engine has been bored and sleeved at some stage and the job was done properly 13 Moss Gearbox The Moss gearbox in the Series 1 is considerably different and smaller than the one in the Plus 4 Jaguars which were basically but not quite entirely the same As far as John Merton can make out the gearboxes were unique to Morgans It is a smaller box and uses herringbone gears a system quite common in the British industry in the 1930 s Spares are
14. ch is that the driven cogwheel on the distributor driveshaft can sometimes come loose on the shaft and ride up e g if the engine backfires and jumps out of mesh with the camshaft gear This can be remedied with a snug fitting thin wall brass tube over the driveshaft to bridge the distance between the driven gear and the distributor s drive sleeve 12 Condition of Motor Q571E This motor is the original motor for my Series 1 that was able to buy back The motor had been kept as a spare for another car and John Merton began to sort out and clean various bits when the owner delivered the motor to him All the major bits are there but it will probably need new studs and bolts for the sump etc The bits are in Canberra until delivery to Melbourne can be arranged The motor is short a starter and generator There is a bell housing for it and a steering box in good condition as part of the purchase Some other parts are with me in Melbourne What happened was that the motor was dismantled by John Pettit and left lying around for some time and not always well protected from the weather The rocker gear was frozen and corroded up but John managed to get it free and working again He advises that it is generally in good order The rocker shaft is a little worn but in better condition than any of his spare ones The front pulley is in very poor condition as is the only spare that John has The problem is that the scroll oil return thread has been worn aw
15. cker to the pads bearing on the valve stems These shafts have a felt wick or a piece of twisted wire in them to control oil feed and would almost certainly have clogged up over time and will need to be cleaned out The pushrods have a spring at their bottoms where they bear on the tappets with a 015 clearance This is as well as the return springs on the valves themselves where the specified clearance is 022 While there have been cases where the valve clearance has been reduced this practice is fraught with danger In a number of cases it has led to the springs binding i e being forced beyond their limits of compressibility with rocker breakage and or impacting of the pushrods resulting more on this later Morgan Series 1 Standard Special Motor doc Page 11 of 22 4 4 Morgan Technical Specification 8 1 Oil Ways The aluminium plugs in the horizontal oil way on the L H block side are from memory 1 2 BSF Take these out to clean the oil ways and make new plugs out of an aluminium stick cutting it off flush when screwed home 8 2 Oil Change Intervals The original service recommendations were for oil changes at 2 500 mile intervals and the sump removed and cleaned out every 10 000 miles Some authorities have suggested that with modern oils these oil change intervals can be extended This is inadvisable The difficulty especially in dusty conditions is the engine design itself The oil return arrangements at the front and rear
16. cting of the valve springs i e the movement is greater than their compressibility resulting in broken rockers and or impact damage to the pushrods In cases where the valve gear is unduly noisy with correctly set clearances the reason is almost certainly that the oil ways in the valve rockers which commonly have a felt or wire wick to provide a drip feed to the valve stems etc have become clogged 7 3 Bearings The Main bearing is 3M 2212 which is a BMC B series specification For Morgan use the centre shells have to be machined to a width of 1 187 and the oil holes checked The Big End bearing is 4K B 3071 which is for the Austin A40 Each top shell requires a new offset oil hole drilled to match that in the connecting rod The Thrust bearing is Federal Mogul 2056BF which is the specification for the Nissan J13 and J15 engines and is also listed for the Ford 100E engine Bearings are also sometimes available from obsolete parts suppliers or autojumbles including mains Repco 3k3064 Vandervell VP412 VP48272 etc big ends 3063 VP1369 VP411 VP226 etc Standard Special bearings were as fitted to the Flying Standard 8 9 10hp cars from 1937 and some NOS bearings will be marked thus Big end bearings fitted to the early post war Austin A40 are the same size and can be easily modified to suit Once again any NOS bearings should be checked carefully for rust moisture damage 7 4 Timing Chain and Tensioner The timing chain is a R
17. e and Marendaz 1936 had gone out of business and Crossley ceased the car production side of its business in 1937 Triumph which had made its own 4 and 6 cylinder engines to Coventry Climax designs under a licensing arrangement ceased this when it completed the move to its own in house OHV designs from 1936 Faced with the vagaries of the car trade Lee decided in 1937 to cease the manufacture of engines for the car trade concentrating instead on a government contract for the manufacture and supply of fire pump trailers using two existing old engine designs the smaller design being the side valve unit from the defunct Swift Faced with the fact that its existing contract with Coventry Climax would not be renewed Morgan was forced to look for another engine supplier The Standard Special engine was the result Incidentally there is no truth whatever in the claims that surface from time to time that Triumph rather than Coventry Climax itself supplied these engines to Morgan Nor is there any substance to the parallel stories that Triumph either owned or had some management control of Coventry Climax in the pre war period Morgan Series 1 Standard Special Motor doc Page 2 of 22 4 4 Morgan Technical Specification 2 Standard Special Motor General Description The motor for this particular Morgan 4 4 is known as the Standard Special It is a purpose built overhead valve motor OHV developed at the same time around 1937 as the Stand
18. e of side valve engines for its Flying series of cars The offer also appears to coincide with Coventry Climax s decision to exit the car engine trade Why Standard decided to develop this engine is unclear although they were producing OHV engines in larger sizes for SS Jaguar Incidentally although Weslake has a claimed involvement in the development of the OHV cross flow cylinder heads for the Jaguar engines it seems unlikely he was so involved in the Standard Special arrangement As far as can determine the engine was never used in any production vehicle other than Morgan However apparently it did power the first Triumph Mayflower prototype after the War and it is tempting on this basis that it may have been tested earlier also in some of the Flying Standard prototypes Perhaps we will never know The cylinder block casting is unique and is narrower than that used in either the Standard 8 or 10 hp engines There are 10 head studs each in two rows of five unlike the side valve Morgan Series 1 Standard Special Motor doc Page 4 of 22 4 4 Morgan Technical Specification engines which had three rows of studs As well as using the oil pump from the 12 14 hp engines the Standard Special engine uses the crankshaft from the contemporary Standard 8 with its oil light spigot bush rather than that from the 10 hp cars which had a roller bush The reason for this is that both the 8 hp engine and the author is advised the 10 hp engine had full
19. e water jacketing These bolts will work loose over time leading to coolant loss and should be checked for tightness periodically say at 5 000 mile intervals These engines were never fitted with a water pump This is an error in a number of books and articles which appears to have originated in an Autocar article of July 5 1946 which incorrectly referred to a water impeller unit Morgan Series 1 Standard Special Motor doc Page 12 of 22 4 4 Morgan Technical Specification 11 Timing The engine is designed to fire at top dead centre at rest There is a timing arrow on the flywheel and another at the top of the rear engine cover plate Timing is 1 3 4 2 from the rear cylinder With the engine in the car it is easier to centre the timing arrow on the flywheel in the bottom hole in the bell housing and to time off number 2 cylinder The distributor is of a type common to many British light cars of the time A sleeve is pinned to its shaft this engaging with the end of the vertical driveshaft from the cam This can have a tendency to wear the base of the distributor over time causing the shaft to ride up and the rotor button to grind into the distributor cap The only spark advance provided is by bob weights vacuum advance and retard was not fitted For hawkeyed originality freaks the flat side of the distributor body will have month and year of manufacture stamped on it e g 2 49 An arrow will point to this Another issue to wat
20. ead rather than the BSF used for the other sump attachment bolts and the threads into the alloy blocks are all too easy to strip if these are over tightened The camshaft is on the left side of the motor and generally runs direct in the block the author has seen one engine with one piece shell bearings There are four journals that bear on the block and these are 1 11 16 1 15 32 1 7 16 and 1 13 32 going from front to rear Supposedly the camshaft has been ground to a greater degree of overlap than those in either the Flying 8 or 10 hp side valve engines but on measurement the author has found no discernable difference between the Morgan camshaft and that from an 8 hp engine There is a single row timing chain and a spring steel tensioner blade which is attached to the inside of the timing cover not to the block Timing gear alignment is via shims under the timing gear on the crankshaft Distributor drive is via a vertical shaft from a cogwheel at the centre of the camshaft this shaft continuing downward to activate the oil pump Camshaft location and end float are via a steel plate the camshaft locating plate at the front which has a half moon cut out and is fastened to the block with two bolts The pistons can be of either the three or four ring variety although most replacement these days seem to be the latter The top ring has a tendency to break on the former The pistons and connecting rods are as for the Standard 10 hp engine The connec
21. ee quarter turns lock to lock This steering box also continued in use on early 4 s with minor differences up to 1953 54 the Burman box was then abandoned for Cam Gears a cam and peg design used on the 4 s until replaced by the Gemmer and rack and pinion systems The Cam Gears is quite a different box to the Burman although externally there are superficial similarities The Burman box can only be tested properly for wear on the car i e under load conditions when it is connected up and the car has all wheels on the ground The steps are as follows 1 Make sure there is no end float and the box is securely fastened Remove the top and end covers and have an assistant jiggle the steering wheel while you check for play between the worm and nut i e wear in the thread and between the nut and the side of the box 3 Check for wear in the bushes i e movement in the shaft Morgan Series 1 Standard Special Motor doc Page 16 of 22 4 4 Morgan Technical Specification It is unlikely there will be wear between the peg and the hardened steel bush in the top of the nut If you are desperately unlucky the bush may be loose in which case you will need to look for another nut as there is not an established method to make these stay permanently tight again The drop arm must also be tight on the bottom of the rocker of course and note there is an oil seal above this The seal is usually rope or felt held in place with a washer with the box ho
22. h I followed successfully in the early 2000 s MSSC website 4 4 Series Technical Advisor amp Spares George Proudfoot 34 Kiln Road Fareham Hants PO16 7UW Tel 01329 236217 Workshop amp Fax 01329 826246 Gomog website There is a lot of technical information here mainly for later models The emog and NBC email discussion groups are also excellent sources of assistance and information Indian site for Standards as Triumph Herald 948cc motor and later models with 2 0 litre motors http www standardmotorclub org Hari s Motor World for Indian Standard parts http www geocities com greatkalam index html Morgan Four Owners Workshop Manual OWM 796 published by Brooklands Books for reproduction of the illustrations of the motor gearbox and steering Anthony Browne Australia for collation of information provided and listing of Australian sources for components My car was originally fitted with a Standard Special motor which was repurchased in 2007 The plan is to rebuild this motor and refit it to my car A radiator bell housing generator and starter motor drive shaft a manifold and few other parts are already on hand for this A gearbox is required to complete the assembly and when this has been collected and fixed will be refitted to the car Morgan Series 1 Standard Special Motor doc Page 22 of 22
23. her components The information contained within has been collected in good faith and issued not for profit Responsibility for the accuracy of information cannot be taken by any party involved in the presentation of the information Corrections additions suggestions etc will be gratefully received and will be included for the benefit of other interested parties The information is not necessarily complete and is meant to supplement the Morgan Manuals and other available technical data with information that is pertinent today Some original parts are no longer available but can be replaced with parts from other sources As this document developed other information came to hand and has been added when specific to the Series 1 or the history of Morgan design in general 1 Standard Special Motor Introduction and History In 1937 Leonard P Lee head of Coventry Climax Engines Ltd and the son of that company s founder took a decision that was to lead directly to the adoption of the Standard Special engine by the Morgan Motor Company Coventry Climax was a long standing manufacturer and supplier of engines to the car and commercial vehicle industry They built and supplied the 1122cc inlet over exhaust engine which had powered most production Morgan 4 4 s since that car s introduction in late 1935 However the car engine trade had become increasingly problematical for Coventry Climax Several of its smaller customers including Swift 1931 Val
24. hly likely as they had the same oil thrower arrangement It is worth checking a pre war Flying Standard vehicle but any pulleys lying around are likely to have the same problem i e they will be damaged The Standard 8 10 12 and 14 hp service manual for the years 1939 1946 has quite a deal of information on fixing the side valve engines and a lot of it overlaps with what John Merton has provided The bore and tunnel dimensions therein are very slightly different to John s details which he sourced from Repco bearing data This manual was published by Scientific Magazine of Rockdale and is worth getting Power output went from 38 8 bhp at 4 500 rpm pre war with compression of 6 8 to 1 to 40 bhp at 4 300 rpm post war with a rise in compression to 7 to 1 Torque quoted postwar is 61 6 Ib ft at 2 500 rpm Spark Plugs are Champion N8 Points L10 GL 10 4 Design Antecedents The Morgan Company claimed that the Standard Special engine was based on the earlier Standard 9 side valve unit Given that engine s stroke of 100mm this is more feasible than tracing its origins to the earlier 10 hp engine which had a stroke of 106mm However others have claimed it is an OHV version of the Standard Flying 10 engine or even an OHV conversion of that engine None of these claims is strictly correct Laban claims that this engine was first offered to Morgan in 1937 If so its development appears to have paralleled the development by Standard of its new rang
25. ing on the rings and the gudgeon pin Mild rust on the rings can sometimes be removed by soaking in deoxidene phosphoric acid followed by careful cleaning with steel wool but gudgeon pins should always be discarded if pitted Gudgeon pins in these engines are held in place with wire clips which can usefully be replaced with modern circlips New JP pistons come with rings and gudgeon pins 7 2 Pushrods and Valves The pushrods have a spring at the bottom to provide a 15 thou clearance at the cam tappet The valve clearance at the top end is 22 thou The problem in reducing this is that the head casting is so crappy that you may well exceed the compressibility of the top valve springs as a result leading to broken rockers and or compacted pushrods Valves for the Standard Special are 2131 ST from the E3ES Mazda engine and require only slight modification to fit Valve Seats were originally cut to a 30 degree angle With the new Mazda and Ford Laser in Australia for replacements the angle is normally re cut to 45 degrees Morgan Series 1 Standard Special Motor doc Page 8 of 22 4 4 Morgan Technical Specification Both inlet and exhaust valve clearances should be set to 0 022 A feature of this engine is that an additional spring is fitted to the bottom of each pushrod to maintain 0 015 clearance between the follower and the back of the cam Never discard these springs or otherwise reduce the valve clearances This may well lead to compa
26. l Motor doc Page 17 of 22 4 4 Morgan Technical Specification 15 MSCC Spares 4 4 SERIES 1 SPARES PRICE LIST STANDARD SPECIAL ENGINE PartNo Description Cost SS001 Cylinder head 1 850 00 55002 Cylinder head stud 3 25 55 003 Cylinder head nut SS004 Cylinder head gasket 48 00 SS005 Core plug 0 50 55 006 Engine mount 14 00 SS007 Engine bearings big end set 25 00 SS008 Engine bearings mains set 25 00 55 009 Exhaust down pipe mild steel 55010 Exhaust tail pipe stainless steel 55 00 55011 Exhaust silencer stainless steel 11000 SS012 Exhaust valve set 70 00 55013 Exhaust valve guide 1 75 55014 Exhaust valve springs set of 4 8 00 55015 Exhaust manifold gasket 4 95 55016 Inlet valve set 53 00 55017 Inlet valve guide 1 75 SS018 Inlet valve springs set of 4 8 00 SS018 Oil filter conversion plate 18 50 55 020 Pistons ask for details SS021 Radiator hose 4 00 55 022 Rocker arm set 4 LH 4 RH 38500 55 023 Starter Motor Pinion and Sleeve 28 00 55 024 Starter Motor Pinion Spring 3 00 55 025 Starter Motor Bush 0 75 SS028 Dynamo Bush 4 00 55027 Armature Pulley nut 1 15 55028 Coupe Wiper Motor 65 00 55 029 Coupe Wiper Shafts and Switch 13 00 55 030 Wiper Arm Securing Nut Chrome finish 2 00 SS031 Distributor Plate c w soldered Condenser 11 00 55032 Distributor Cap Carbon Bush and Spring 0 60 55 033 Distributor Lower Bush
27. more pronounced big end flange on No 1 connecting rod facing that on No 2 and similarly for 3 and 4 Likewise the big end bearing shells do not have the centre oil hole common to most these days but two holes offset either side of centre If using modern replacements a suitable hole may need to be drilled in each top shell The sump is alloy It has heavy internal baffling and there is a flat horizontal steel plate bolted to the top of these baffles to help control oil surge This plate has a cut out at left centre to allow oil pump access There is a much smaller cut out opposite this for the dipstick The oil pump is a compact design more later with a fixed gauze filter It does not have a floating filter and pick up as claimed in several publications and as was used in the Standard 8 and 10hp engines This error appears to have originated in an article in The Light Car of May 26 1939 In fact the design of the sump is such that it would not be possible to fit a pump with a floating gauze uptake The actual pump used is the higher capacity one from the Standard 12 14 hp engines not that from the 8 10hp engines Valve gear lubrication is via the pipe from the gallery to the left rear of the cylinder head up through the rear rocker support pillar into the centre of the rocker shaft and hence to each rocker The bushes in the rockers are two piece straddling and forming a central channel which conveys oil down a shaft drilled down the ro
28. ning direct in the block have been mentioned earlier Mind you many of these comments also apply to the small Standard engines HFS may have been a shrewd businessman but so was John Black the head of Standard 6 Design Features The Standard Special engine is a reasonably conventional in line 4 cylinder engine of 1 267 cc with a bore of 63 5mm and a stroke of 100mm The crankshaft is De Saxed the offset being to the left or camshaft side of the engine Consequently there is a small cut out at the right hand bottom of each bore to allow clearance for the connecting rods One two three and four cylinders are siamised more later The crankshaft runs in three main bearings and together with the big end bearings are of the shell type The thrust is taken by washers on each side of the rear main bearing The big ends of the connecting rods will not pass down through the bore and the pistons have to be inserted from underneath There is a Morgan Series 1 Standard Special Motor doc Page 6 of 22 4 4 Morgan Technical Specification lead at the bottom of each bore to assist this There are alloy sealing blocks and filling pieces covering the two end main bearing caps to ensure a flat surface for the sump to bolt onto These are held to the block with two 5 16 BSF set screws At the rear there are also two horizontal set screws through this block into the rear oil retainer The bolts attaching the sump at these two points are Whitworth thr
29. olon SR901 but it does require removal of several links If a competitor product is purchased ensure it has a removable link The timing chain tensioner is a T42425 which is a single row Triumph type 7 5 Rocker Gear The rockers are worth a mention They use a split bush i e in two halve the space between forming an oil passage Most likely the pad end has been soldered over If this is unsoldered you will find a small plug about one eighth of an inch both in diameter and length which covers the oil way drilled from the pad to the centre where it bears on the shaft Morgan Series 1 Standard Special Motor doc Page 9 of 22 4 4 Morgan Technical Specification This oil way originally had either a felt wick or a piece of wire with another coiled around it like a bass piano or guitar string to provide a drip to the valve top both for lubrication and to cushion the noise a bit given the very wide valve clearances All these passages will be clogged so there are some happy hours ahead to clean them out John Merton has previously used a broken bass string from a guitar to do this Cut the heads off some flat head galvanised nails or similar as they are an exact replacement fit for the plugs and then solder them over 7 6 Crankshaft The Crankshaft journal sizes as follows Mains Shaft diameter 1 9995 2 0000 Tunnel bore 2 1460 2 1465 Wall section bearing 0 0720 0 07225 Length 1 375 ends and 1 187 cent
30. pretty well impossible aside from bearings and seals The box itself has the Continental shift pattern also quite common in the 20 s and 30 s as does the earlier Meadows gearbox This puts 3rd and top in the plane where first and second normally are and vice versa This arrangement is commonly but wrongly referred to as back to front by people who should know better and who haven t done their homework properly Unlike the Morgan books except perhaps for Alderson from memory left over Meadows gearboxes were fitted to quite a number of post war cars The Jowett Javelin also used a Meadows box but don t think this would be the same 359 D rom rs OPTED mona LEE At F ue FIG 6 4 Section through early Moss gearbox 4 4 Series 1 Morgan Series 1 Standard Special Motor doc Page 14 of 22 4 4 Morgan Technical Specification 14 Burman Douglas Steering Box 14 1 Steering Components Morgan has had three or four different steering arrangements The first 4 4 s were similar to that of the trikes and simply had a reduction gear mounted on the steering column This was quickly changed and a Burman Douglas worm and nut box was installed that Morgan used until about the 1954 season This box was then dropped for a much cruder Bishop Cam design made by Cam Gears Ltd This was the box used up until the 8 s when the steering box was changed to a Gemmer box A rack and pinion system was used later The old Burman box is no longer
31. quired 14 2 Steering Box Description Apart from a few early cars that had a reduction gear mounted halfway down the steering column all Series 1 cars were fitted with a Burman Douglass worm and nut steering box Variations to this steering box were fitted to many different makes of contemporary British cars The system involves a thread usually a six start but sometimes five on mainly left hand drive cars machined on the end of the inner column carrying the bronze nut Right hand drive cars have a left hand thread and vice versa There is a hardened steel bush screwed into the top of the nut using a special process A peg at the end of the L shaft at the top of the rocker arm transmits motion via the rocker arm shaft to the steering drop arm at the bottom of the box attached to the rocker arm via a splined shaft and pinch bolt It should be noted that some cars may have been subsequently modified so a check is required before too much work is carried out The shaft of the rocker arm rides in two bronze bushes the top of which has a diagonal cut for about three quarters of its length to provide clearance for the nut The only provision for adjustment is for the end float in the column via two large thin nuts under the steering wheel The inner column is supported at the top by a ball race At the bottom it is free floating The location is provided by the nut which is a sliding fit inside the box casing The system provides one and thr
32. re Big ends Shaft diameter 1 7495 1 7500 Tunnel bore 1 8555 1 8560 Length 0 934 These are specifications to match the original bearings and may be marginally different to those listed in some workshop manuals for the Standard 8 10 range of engines Crankshaft End float Tolerances should be 0 003 to 0 008 8 Lubrication The oil pump transmits oil to a horizontal gallery on the let hand side of the motor which feeds the crankshaft and the tappets The tappets cam followers are held in place by two blocks each fastened to the engine block by two bolts tapped right through into the bores themselves It is of course critical in reassembly to ensure these bolts do not intrude into the bores There is a small horizontal channel behind each block for oil transmission A piece of copper wire suitably half mooned where the oil holes go through to the tappets sits in these grooves to control flow and there is a thin paper gasket between these assemblies and the engine block A side mounted tappet cover plate with rounded ends covers this area of the engine It is held on by two domed brass bolts which also secure the two engine breather pipes The horizontal oil gallery has takeoffs for a pipe to the rear of the cylinder head to lubricate the rocker gear for the oil pressure gauge and for the feed to a by pass oil filter Each end of this gallery is sealed by a half inch aluminium plug which is screwed in then cut off flush The
33. ting rods from the 8 hp engine are similar but have a smaller gudgeon pin diameter There is a steel plate bolted to the front of the engine which incorporates the feet for the engine mounts At the rear there is another steel plate or engine cover which provides the mounting base for the bell housing and also the starter motor which is at the bottom right hand rear of the engine block The generator is attached to two brackets off the top left of the engine block 7 Motor Details 7 1 Pistons and Bore All the engine replacement parts are better sourced in Australia than from UK The new pistons for this engine are made by JP Engineering in South Australia and the valves are Ford Laser Mazda These are also unleaded compatible Contact details for the JP Group are as follows JP Pistons 25 Innes Rd Windsor Gardens South Australia 5087 Phone 08 8261 7222 Fax 08 8261 9171 Email pistons iweb net au Web Page www jp com au Morgan Series 1 Standard Special Motor doc Page 7 of 22 4 4 Morgan Technical Specification The bores are Siamese twinned i e 1 to 2 and 3 to 4 This means that the bore centres are the same as the Standard Flying 8 which like the Flying 10 has fully water jacketed bores It also means the Flying 10 centres are a bit further apart than the Standard Special engine The 10 crank can be fitted but the two centre conrods have to be modified to get the offsets correct The bore and stroke dimensions are 63 5
34. unch While it is quite a strong little engine main bearing journals of 2 in diameter compared with the 1 75 in the Austin A40 for example which also had big end dimensions the same at 1 75 it is a shoddy piece of work The block head and manifold castings in particular are rough examples indeed of foundry practice Expect to find left over casting ridges and dags in the porting and jacketing also left over bits of core wire in the water jackets The cylinder head casting is so rough that doubt whether Weslake would have wished association with it any way We have found considerable weight variations between connecting rods and some crankshafts have been well nigh impossible to get in balance without the removal of considerable amounts of metal In the case of the connecting rods balance has been achieved several times by juggling big end bolts and nuts with those from the Armstrong Siddeley 16 18 hp engines which are waisted and a much superior design each weighing about 8 grams less than the Morgan ones The starter ring gear is cut into the circumference of the flywheel The two centre studs on the water exit manifold are drilled through into the two centre exhaust ports All of the head studs are tapped through into the water jacketing The problem with rocker breakage when valve clearances are tightened appears to be as much due to shoddy finishing of the head as much as anything else The single row timing chain and the camshaft run
35. using peened over to hold it in place This seal can be replaced with a modern neoprene seal 14 2 Repairing the Steering Box The wear in the thread can be addressed as follows 1 Clean the nut thoroughly with Prepsol or similar then tin the inside of the nut lightly with solder 2 Grease the thread on the shaft with a good axle grease but not WD40 or similar is it may flash then screw the nut on about half way along the thread 3 Melt babbit metal heat up the nut and pour the metal down the bush hole rotating the shaft until the metal appears at the ends of the nut 4 Keep rotating the shaft as it cools to prevent binding This will get rid of the play in the thread but the effectiveness of the repair may be limited if the thread on the shaft has much hourglass wear in it Play between the nut and the side of the box is addressed similarly ie by building up the nut with babbit metal and machining it to a tight sliding fit in the box Addressing other areas of wear eg in the bushes should be straight forward On reassembly work the bits together using a moly compound and clean up thoroughly by removing all metal dags and filings Assemble and disassemble several times to ensure everything is scrupulously clean This procedure is effective in reducing play at the steering wheel from around 8 to around 74 There are other measures to improve the steering but these are not included here Morgan Series 1 Standard Specia
36. y inventor J Walter Christie who combined front wheel drive with a vertical pillar sliding through fixed supports Springing was provided by a helical coil at the top surrounding the pillar and a smaller snubber or rebound spring at the bottom This was copied virtually holus bolus in the Lancia Lambda of 1922 except Lancia also built in an hydraulic shock absorber into the pillar The principle was also largely followed by Morgan except Morgan made the innovation of having the pillar fixed and the separate stub axle sliding pillar sliding up and down on it The Morgan approach is not a sliding pillar design at all but is actually better because it potentially means less unsprung weight John is now investigating when the Morgan system was first erroneously labelled sliding pillar It is still only early days but it looks as if it could have been as late as around 1951 Morgan Series 1 Standard Special Motor doc Page 21 of 22 4 4 Morgan Technical Specification It also seems that the British journalists do not acknowledge that the invention was American or that the Europeans ever got anything important from the Yanks 18 References John Merton Australia has provided the bulk of technical information contained herein including information already included on Gomog that has been further revised to only include references to the Standard Special motor John also provided the instructions for rebuilding the steering box whic
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