Triumph slant-four engine

1975 Dolomite 1850 engine bay

The Triumph slant-four is an engine developed by Triumph. According to Triumph historians Graham Robson and Richard Langworth in Triumph Cars, the Complete Story, the engine was developed in-house by a design team led by Lewis Dawtrey and Harry Webster.

The UK engineering and consultancy company Ricardo, which did have a general engine-development contract with Triumph, was not directly involved with its design, but was usually kept informed of anything new being planned. Ricardo was involved in developing a new engine for Saab, for use in their new 99 model. When that development proved too expensive and risky to produce, Ricardo, knowing the slant-four was almost ready for production, brought Saab into contact with Triumph.

Saab first used the Triumph slant-four at 1.7 L (1709 cc) for the Saab 99. Only later, as production capacity increased, did it become available in Triumphs. Development by Saab continued into the 1990s. The engine is a straight-four with the cylinders tilted at 45 degrees (actually in effect half of the Triumph V8 that was used in the Triumph Stag).

The engine was used by Triumph in the Dolomite 1850, the Dolomite Sprint, and the TR7. It was also used by Panther in the Dolomite-based Rio (1975–1977). Triumph ended manufacture of the engine when the TR7 was discontinued in 1981.

Sprint version

Section of a Triumph Dolomite Sprint cylinder head, highlighting the single cam operating both inlet (directly) and exhaust (through a rocker arm) valves.

Triumph added unique SOHC four-valve cylinder heads to the slant-four for 1973's Dolomite Sprint. A team of engineers led by Charles Spencer (Spen) King developed the 16-valve cylinder head with all of the valves being actuated using a single camshaft rather than the more conventional DOHC arrangement. The capacity was also increased to 1,998 cc (122 cu in), and combined with bigger carburettors the output was raised to 127 bhp (95 kW). This represented a significant increase over the smaller 1850cc variant, however it fell short of the original target of 135 bhp (101 kW).

This reduction in specification came about because the production line was unable to build the engines to the same level of quality - production engine outputs being in the region of 125 bhp (93 kW) to 130 bhp (97 kW). This was despite Spen King relating how he "went away on holiday and came back to find an engine running on the bed giving 150 bhp at the first build.",[1] This led to the original model designation, the Dolomite 135, being replaced at short notice with the Sprint name.

As a result of the use of this engine, the Dolomite Sprint has been claimed to be "the world's first mass-produced multi-valve car".[2] While other multi-valve engines (notably the Lotus 907) were produced in volume, they were not used in mass production vehicles until after the introduction of the Dolomite Sprint. The design of the cylinder head won a British Design Council award in 1974.[3]

This 16-valve two-litre engine was also used in a small number of prototype and pre-production TR7 Sprints, built at Speke during 1977.[4]

Saab B engine

Triumph slant-four in a 1973 Saab 99L

Saab later increased the engine size to 1.85 L and in 1972 the company brought production in-house (to Scania) for the 2.0 L B version. This engine shared much with the original Triumph design, including bore centres and bearings, but was substantially redesigned. Previously inadequate and unreliable features, such as the waterpump and its seal, were redesigned and became reliable. Some of these became popular as retrofits to original Triumph engines and cars.

The Saab B engine was replaced by the related Saab H engine.

References

  1. "Triumph Dolomite Sprint", Auto Car, 21 June 1973, Vol 138 No 4021, pages 36-40
  2. Jasper Gerard (23 Mar 2010). "Classic Triumph Dolomite Sprint". The Telegraph. Retrieved 2015-04-30.
  3. "Awards boost British car industry". vads.ahds.ac.uk. Retrieved 2008-02-06.
  4. Piggott B., Clay S., Collector's Originality Guide Triumph TR2 TR3 TR4 TR5 TR6 TR7 TR8, 2009, MotorBooks International Company, ISBN 9780760335765.
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