[JT] Rover OHC Engines

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The following comes from James Taylor's facebook page.

There's so much to say about this week's subject that I've decided to divide it into two. Part 2 therefore comes next week. Usual rules apply, please: share, copy or whatever, but don't forget to acknowledge where you found it. And meanwhile, all the best for 2023!

The Rover OHC engines

The OHC engine designed for the Rover 2000 turned out to be a very versatile design, although only a few of the projected variants ever went into production. Unfulfilled plans included Land Rover variants, three-cylinder, five-cylinder and six-cylinder derivatives, plus a 16-valve four-cylinder.
Rover’s Chief Engineer, Robert Boyle, introduced the idea of a new Rover saloon to a number of his senior engineers at a meeting on 21 September 1956. At this stage, the concept was very much in outline, but ideas for what would become the Rover P6 firmed up during 1957. Notable among them were that the car should have both four-cylinder and six-cylinder engines. Boyle had encouraged Jack Swaine, the Chief Engine Designer, to look at the four-cylinder engine in the Mercedes-Benz 190, which he described as “a good example of about the best that can be done.” This engine had a modern OHC (overhead camshaft) design that had not featured in any earlier Rover engines, and delivered 75bhp from 1897cc.
How much inspiration Swaine actually took directly from the Mercedes engine is not clear, but he did draw up a modern OHC design for the new Rover. No surviving paperwork suggests that he planned the engine as a modular design, and in any case interest in the forthcoming new Rover very quickly focused on the four-cylinder variant. However, it is very likely that Swaine reasoned he would be asked for a six-cylinder version later and therefore had this in mind when doing the detail design on the engine.
A few characteristics of the design stand out. One was the large openings in the block (which would be covered by bolted steel plates). These were designed partly to save weight, but also partly to give good access to the waterways and ensure they were clear of swarf after the initial casting process. Another was the two-stage chain drive for the camshaft, with a hydraulic tensioner to take up wear and reduce the noise to which OHC designs were prone.
The four-cylinder engine entered production in 1963 for the Rover 2000, with a swept volume of 1978cc, a 9:1 compression ratio, and a single SU carburettor. That combination gave 90bhp at 5000rpm on the test bench – almost as much as the old six-cylinder Rover 90 engine produced from 2.6 litres, and a good indication of how modern OHC technology was affecting engine design.

Three-cylinder
There would be no more serious work on a six-cylinder derivative of the engine before 1960, but in the mean time – and five years before the Rover 2000 entered production – there would be a call for a three-cylinder type.
This was a pretty radical idea for the late 1950s, when three-cylinder engines were by no means common. The background to it was that Rover were beginning to worry that the Land-Rover was becoming too sophisticated (Land-Rover enthusiasts may laugh at this idea) and, more importantly, too expensive. The Series II models launched in April 1958 were quite a bit larger than the original 80-inch type of ten years earlier, and were correspondingly more costly. There was a feeling in some quarters that the Land-Rover should go back to basics, and the job of investigating the possibilities was given to Jack Pogmore. Colonel Jack Pogmore had been recruited from the Army in late 1958 to look at expanding the Land-Rover model range, and at one end he looked into a 129-inch wheelbase model to rival the Dodge Power Wagon, while at the other end he oversaw investigations into a new smaller model with a 79-inch wheelbase. It was known as the L4, the L for “Light” or “Lightweight” and the 4 presumably for four-wheel drive.
First thoughts during 1958 had suggested a detuned, 60bhp derivative of the new four-cylinder engine for the L4, but once the initial layouts had been done it became clear that this would be too big. So Pogmore proposed a three-cylinder. Using the same bore and stroke dimensions as the OHC four-cylinder, this would have a swept volume of 1.5 litres. A few calculations suggested that it should deliver 60bhp at 5000rpm and 78 lb ft of torque at 3250rpm, which would be quite enough for the job. However, it is almost certain that no three-cylinder prototypes were ever built. Nor was the Land-Rover L4: dealer feedback from overseas in 1960 showed no real market for it and the project lapsed.

Six-cylinder
A six-cylinder derivative had always been part of the overall plan for P6, but the idea had been kept in the background while design of the four-cylinder car was completed. Once that car had been handed over to the development engineers, Spen King’s New Vehicle Projects team began to think about the six-cylinder. Formally, the six-cylinder project was given the green light on 12 December 1960 but, in practice, serious work on the six-cylinder P6 did not begin until the four-cylinder car was about to be signed off for production at the end of 1962.
Design work went ahead in the early months of 1963, and in the autumn of that year the first full prototypes of what was to be called the P7 (or Rover 3000) were constructed. These were built by modifying P6 base-units, extending the nose to accommodate the longer engine, which again had the same bore and stroke as the four-cylinder variant to give a nominal 3-litre size (actually 2968cc). Four cars were built, two with manual gearboxes and two with automatics, and they began the usual test routine. However, their fate was sealed early on. The cost of the base-unit modifications was going to be unacceptably high, and by mid-November, Managing Director William Martin-Hurst had decided to cancel the P7 project (at least in its then-current form).
In a letter he wrote to Bruce McWilliams, who was then running Rover’s North American operation, he said, “I also drove the prototype of the six-cylinder again and, with regret, made the decision to drop it in favour of a new car to take both four and six cylinder engines without major alterations… The reason for the decision is two-fold – firstly, the weight of the six cylinder engine upsets the weight distribution and spoils safe cornering to a marked degree. If you fling the car round corners it feels very front heavy, like a weight on a string, and, with the power of the six it would, I am convinced, be a death trap on wet roads.”
This period in late 1963 would be a pivotal time for Rover. Martin-Hurst’s letter was dated 13 November 1963, when he was holidaying in Mallorca after the autumn round of Motor Shows at which the P6 had been introduced. He reminded McWilliams that he planned to visit Mercury Marine in the USA to persuade them to buy Land-Rover diesel engines for installation in boats. It was while he was there in December that he spotted a lightweight Buick aluminium V8 in the workshop, and realised that it would not only provide the power for US Land-Rovers that McWilliams had asked for but would also fit into the engine bay of the P6 (and P5) with only minor modifications.
The consequences of his decision to buy the rights to that engine for Rover were far greater than he could have imagined at the time. He got the contract for the diesel engines from Mercury Marine, too, and – just to round off this part of the story – Spen King picked up Martin-Hurst’s idea for a single new model to take both four-cylinder and six-cylinder engines. During 1964,he wrote the initial proposal for the car that eventually became the ill-fated P8 saloon.
Even though the six-cylinder P7 project was formally ended in late 1963, its six-cylinder OHC engine took a little longer to die. There had already been suggestions to use it in Land-Rovers: back in July 1961, before it had even been designed, it had been briefly considered as a possibility for the 129-inch model then under development. Now in April 1964, it was suggested as a power unit for the long-wheelbase (109-inch) production models.
Trials in a layout buck showed that it could have been made to fit, too (by moving the grille panel forwards, as was done much later), but the idea did not get production approval. Once the V8 was on the Solihull agenda, all other options fell by the wayside, and when Bruce McWilliams eventually got his more powerful Land-Rover he had to make do with the Weslake-head version of the old 2.6-litre six-cylinder IOE engine as used in the P4 110 saloons.
 
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This little wooden model was the proposal for the L4 Land Rover with three-cylinder engine... yes, seriously!
1672722234172.png
Here's the six-cylinder intended for the P7 saloon.
1672722252213.png
here's the trial of the six-cylinder in a Land Rover buck. The grille panel has been moved forwards and there are steering columns on both sides to help gauge clearances.
1672722280747.png
This is the familiar early four-cylinder, the single-carb 2000 engine
1672722312882.png
And here's the 2000TC variant.
1672722330138.png
 
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I promised last week that I would complete the story of the Rover OHC engine, best known in the Rover 2000 but an engine that had a far more extensive history and very nearly ended up in Land-Rovers as well. So here is the second part of the story. As usual, pictures follow in the Comments and, as usual, please feel free to share or copy this article – but it would be rude not to acknowledge where you found it!

OHC Engines, Part 2
Five-cylinder
The problem with the costly re-engineering of the P6 base unit to take the six-cylinder engine led to another idea, and this time it was a proposal for a five-cylinder variant of Jack Swaine’s OHC design. It would be short enough to fit into the existing engine bay with minimal changes, and with a 2.5-litre (2472cc) swept volume it would in theory give better performance than the 2-litre “four”.
The five-cylinder was on the agenda by January 1964, just over a month after the “six” had been ruled out. It had originated with Gordon Bashford (who was one of the leading designers on P6) and Brian Sylvester, who was then in charge of the Research Department. Sylvester was given the job of overseeing the project, although development and testing remained the responsibility of Jack Swaine’s team.
Swaine had some reservations from the start, mainly associated with carburation issues, but two engines were built and one was installed in a test car. One of these, with a complicated triple-carburettor installation, survives at the British Motor Museum in Gaydon. It could have worked, although initial tests showed few benefits over the twin-carburettor four-cylinder developed for the 2000TC. However, all work on the five-cylinder engine was suspended when Rover committed to building the ex-Buick V8 engine in early 1965.

Land-Rovers again
Once the Rover 2000 had been introduced to the USA in 1964, Bruce McWilliams began to wonder if parts logistics and the training of US workshop staff could not be simplified by using the 2000 engine in the Land-Rover in place of the existing OHV four-cylinder.
The idea was dutifully pursued at Solihull, and several experimental 88-inch Series IIA models were fitted with these engines in 1965-1966. McWilliams meanwhile arranged for some visual proposals to be drawn up of what he called the “2000 Sport” model. Unfortunately, it became clear very early on that the engine he really wanted – the twin-carburettor unit from the 2000TC – could not be made to fit because of a foul between the carburettors and the (obviously LHD) steering column. Work continued for a while with the single-carburettor unit, but eventually petered out.
The OHC-engined Land-Rover never became a production model, but the idea was revived again in the early 1970s when a shortage of Land-Rover engines threatened to hinder global sales. To get the numbers up, Solihull experimented with some readily-available alternatives that included at least one BMC engine, and once again a Rover OHC engine was put into a handful of test vehicles. This time, the engine was actually the later 2200 type (still in prototype form at that stage), but once again there were installation problems. It actually proved easier to convert the 88in prototype from LHD to RHD than to find a way around a foul with the LHD pedal box – and that vehicle still survives today in the Dunsfold Collection. Investigations into using the 2200 engine in Land-Rovers came to an end around July 1973.

The Slant Four
By 1970, Rover was planning to replace the P6 range with a model known as the P10 – which morphed into the SD1 several years later. The P10 was to have three models, with a V8 in the top model and the two cheaper models having a new four-cylinder engine in two different states of tune. This engine was to be a further development of the existing OHC type, and would incorporate an ultra-modern four-valves-per-cylinder (16-valve) top end with twin overhead camshafts. These would make it quite tall, and in order to fit under the sloping bonnet planned for P10, it would be canted over at an angle; for this reason it became known as the Slant Four.
Jack Swaine entrusted the project to Dave Wall in June 1970, and at that stage, engine production for sales was planned to begin in May 1974. There was a tight design brief, which included using the existing P6 2000 engine transfer line tooling in order to save costs, and ensuring that the engine would meet the known and likely future requirements of exhaust emissions control regulations, particularly in the USA. The requirement was for 145bhp in the more powerful version of the engine, and 120bhp in the entry-level version, but Wall and his team aimed for 170bhp in the prototypes in order to give an adequate margin for further development and, of course, for losses caused by changes to meet future exhaust emissions regulations.
Mainly in order to give maximum room for the four valves above each cylinder, Wall’s team enlarged the cylinder bore from 85.7mm to 90.5mm, which took the swept volume up to 2204cc from the original 1978cc. Prototype engines were on test in early 1971 when British Leyland management decided to amalgamate the Rover and Triumph engineering teams and that P10 (and Triumph’s Puma) should be dropped in favour of SD1 as a joint production. Triumph were asked to prepare the two smaller engines (which ended up as the 2300 and 2600 “sixes”) and the Slant Four was cancelled. Again, an example still survives, at the British Motor Museum.

The 2200 engines
The original four-cylinder engine in the Rover 2000 meanwhile was still in production, although by the early 1970s it was becoming increasingly outclassed by newer designs. Once it had become clear that the new SD1 would not arrive in 1974 as planned, a budget was found to upgrade the 2000 range and keep it competitive for a few more years.
The simple solution was an engine upgrade, and the simple way of achieving that was to increase the bore of the single-OHC engine to the 90.5mm size that had been developed for the Slant Four. This in turn allowed the cylinder head to be redesigned with larger exhaust valves, and the end result was an engine that delivered more power, more torque, and greater refinement.
This revised engine, with the same 2204cc swept volume as the Slant Four, went in to the Rover 2200 range that was introduced in autumn 1973. It brought some very real advantages over its 2-litre predecessor, especially in the single-carburettor automatic and twin-carburettor (2200TC) models. It held the fort for Rover until the new six-cylinder SD1s were ready, and the last examples were built in early 1977, bringing to a close the 14-year production life of Jack Swaine’s OHC design.
 
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1673080762719.png
Here's a standard four-cylinder "2000" engine test-fitted to a Land Rover. It did work, and a handful of vehicles were built – but there were clearance problems with LHD types.
1673080847879.png
The Styling Department came up with a rather elegant top cover for the twin camshafts of the Slant Four engine. This one also survives at the BMM in Gaydon.
1673080902888.png
Last of the line.... this is a cutaway drawing of the 2200TC engine. The Styling Department was called on once again to give it a distinctive top cover.
 

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Another great write up with very interesting content covering something I know nothing about.
Reading these it seems a real nightmare keeping up with the opposition and trying to do it on a budget.
Imagine coming up with something new and exciting, just to see someone else comes out with something better shortly afterwards, then you have to try and re design.
Especially during these years of much advanced technology and production methods etc etc 😱
 
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Another great write up with very interesting content covering something I know nothing about.
Reading these it seems a real nightmare keeping up with the opposition and trying to do it on a budget.
Imagine coming up with something new and exciting, just to see someone else comes out with something better shortly afterwards, then you have to try and re design.
Especially during these years of much advanced technology and production methods etc etc 😱
It was always impressive what the smaller British car makers could do before they were amalgamated into British Leyland. Back in the 60s, makers like Rover and Jaguar were a fraction the size of Mercedes-Benz who were a fraction of the size of the big guys like GM, Ford etc.

It's easy to think of the Rover P6 through the lens of the last examples coming off the line in the late 70s, shoddily put together by BL. But if you think about it when it came out in 1963, it was a particularly impressive entry and probably defined the sporty executive saloon, a segment that BMW would come in and make their own after the implosion of BL.

Same goes for the 1st generation XJ6. Compare that to the Mercedes Benz of the time - the W108 was looking decidedly elderly with its swing axles and so on.
 

Patrick_R

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With all of the good intentions, nearly none of these huge amalgamations done to form conglomerates or monopolies rarely ever work.

The same thing happened to all of the amazing shipping lines of the North Atlantic in 1902 to form IMM or the International Mercantile Marine.
Huge injections of cash, like BL, but didn’t last long before as you said Bryce, implosion.
 
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