Charles Yale Knight advertisement in downtown
Boise, Idaho touting the Knight-type motor In 1901 Knight bought an air-cooled, single-cylinder three-wheeler whose noisy valves annoyed him. He believed that he could design a better engine and did so, inventing his double sleeve principle in 1904. Backed by Chicago entrepreneur L.B. Kilbourne, a number of engines were constructed, followed by the "Silent Knight" touring car, which was shown at the 1906 Chicago Auto Show. Knight's design had two cast-iron sleeves per cylinder, one sliding inside the other with the piston inside the inner sleeve. The sleeves were operated by small connected rods actuated by an eccentric shaft. They had ports cut out at their upper ends. The design was remarkably quiet, and the sleeve valves needed little attention. It was, however, more expensive to manufacture due to the precision grinding required on the sleeves' surfaces. It also used more oil at high speeds and was harder to start in cold weather. Although he was initially unable to sell his
Knight Engine in the United States, a long sojourn in England, involving extensive further development and refinement by
Daimler supervised by their consultant
Dr Frederick Lanchester, eventually secured Daimler and several luxury car firms as customers willing to pay his expensive premiums. He first patented the design in England in 1908. The patent for the US was granted in 1910. As part of the licensing agreement, "Knight" was to be included in the car's name. Six-cylinder Daimler sleeve valve engines were used in the first British tanks in WW1, up to and including the
Mark IV. As a result of the tendency of the engines to smoke and hence give away the tank positions,
Harry Ricardo was brought in, and devised a new engine which replaced the sleeve valve starting with the
Mark V tank. Among the companies using Knight's technology were
Avions Voisin, Daimler (1909–1930s) including their
V12 Double Six,
Panhard (1911–39),
Mercedes (1909–24),
Willys (as the
Willys-Knight, plus the associated Falcon-Knight),
Stearns,
Mors,
Peugeot, and Belgium's
Minerva company that was forced to stop their sleeve-valve line of engines as a result of the limitations imposed on them by the winners of WWII, some thirty companies in all.
Itala also experimented with
rotary and sleeve valves in their 'Avalve' cars. Upon Knight's return to America he was able to get some firms to use his design; here his brand name was "
Silent Knight" (1905–1907)—the selling point was that his engines were quieter than those with standard poppet valves. The best known of these were the
F.B. Stearns Company of Cleveland, which sold a car named the
Stearns-Knight, and the
Willys firm which offered a car called the
Willys-Knight, which was produced in far greater numbers than any other sleeve-valve car.
Burt-McCollum The Burt-McCollum sleeve valve, having its name from the surnames of the two engineers that patented the same concept with weeks of difference, Peter Burt and James Harry Keighly McCollum, patent applications are of August 6 and June 22, 1909, respectively, both engineers hired by the Scottish car maker Argyll, consisted of a single sleeve, which was given a combination of up-and-down and partial rotary motion. It was developed in about 1909 and was first used in the 1911
Argyll car. The initial 1900 investment in Argyll was £15,000 and building the magnificent Scotland plant cost £500,000 in 1920. It is reported that litigation by the owners of the Knight patents cost Argyll £50,000, perhaps one of the reasons for the temporary shutdown of their plant. Another car maker that used the Argyll SSV patents, and others of their own, was Piccard-Pictet (Pic-Pic) Patent GB118407; Louis Chevrolet and others founded
Frontenac Motors in 1923 with the aim of producing an 8-L SSV engined luxury car, but this never reached production for reasons connected to the time limits to the Argyll patents in the USA. The greatest success for single sleeve valves (SSV) was in Bristol's large aircraft engines, it was also used in the
Napier Sabre and
Rolls-Royce Eagle engines. The SSV system also reduced the high oil consumption associated with the Knight double sleeve valve.
Barr and Stroud Ltd of Anniesland, Glasgow, also licensed the SSV design, and made small versions of the engines that they marketed to motorcycle companies. In an advertisement in Motor Cycle magazine in 1922 Barr & Stroud promoted their 350cc sleeve valve engine and listed
Beardmore-Precision, Diamond, Edmund, and Royal Scot as motorcycle manufacturers offering it. This engine had been described in the March edition as the 'Burt' engine. Grindlay-Peerless started producing a SSV Barr & Stroud engined 999cc V-twin in 1923. and later added a 499cc single SSV as well as the 350cc. Vard Wallace, known for his aftermarket forks for motorcycles, presented in 1947 drawings of a Single Cylinder, Air-Cooled, 250 cc SSV engine. Some small SSV auxiliary boat engines and electric generators were built in the UK, prepared for burning 'paraffin' from start, or after a bit of heat-up with more complex fuels. A number of sleeve valve aircraft engines were developed following a seminal 1927 research paper from the
RAE by Ricardo. This paper outlined the advantages of the sleeve valve and suggested that poppet valve engines would not be able to offer power outputs much beyond 1500 hp (1,100 kW).
Napier and
Bristol began the development of sleeve-valve engines that would eventually result in limited production of two of the most powerful piston engines in the world: the
Napier Sabre and
Bristol Centaurus. The
Continental Motors Company, around the years of the Great Depression, developed prototypes of single sleeve-valve engines for a range of applications, from cars to trains to airplanes, and thought that production would be easier, and costs would be lower, than its counterpart poppet valve engines. Due to the financial problems of Continental, this line of engines never entered production. ('Continental! Its motors and its people', William Wagner, Armed Forces Journal International and Aero Publishers, 1983, ) Potentially the most powerful of all sleeve-valve engines (though it never reached production) was the
Rolls-Royce Crecy V-12 (oddly, using a 90-degree V-angle), two-stroke, direct-injected, turbocharged (force-scavenged) aero-engine of 26.1 litres capacity. It achieved a very high specific output, and surprisingly good specific fuel consumption (SFC). In 1945 the single-cylinder test-engine (Ricardo E65) produced the equivalent of 5,000 HP (192 BHP/Litre) when water injected, although the full V12 would probably have been initially type rated at circa . Ricardo, who specified the layout and design goals, felt that a reliable 4,000 HP military rating would be possible. Ricardo was constantly frustrated during the war with
Rolls-Royce's (RR) efforts.
Hives & RR were very much focused on their
Merlin,
Griffon then Eagle and finally
Whittle's jets, which all had a clearly defined production purpose. Ricardo and
Tizard eventually realized that the Crecy would never get the development attention it deserved unless it was specified for installation in a particular aircraft but by 1945, their "
Spitfire on steroids" concept of a rapidly climbing interceptor powered by the lightweight Crecy engine had become an aircraft without a purpose. Following World War II, the sleeve valve became utilised less, Roy Fedden, very early involved in the S-V research, built some flat-six single sleeve-valve engines intended for general aviation around 1947; after this, just the French
SNECMA produced some SSV engines under Bristol license that were installed in the
Noratlas transport airplane, also another transport aircraft, the
Azor built by the Spanish
CASA installed SSV Bristol engines post-WWII. Bristol sleeve valve engines were used however during the post-war air transport boom, in the
Vickers Viking and related military
Varsity and
Valetta,
Airspeed Ambassador, used on
BEA's European routes, and
Handley Page Hermes (and related military
Hastings), and
Short Solent airliners and the
Bristol Freighter and
Superfreighter. The Centaurus was also used in the military
Hawker Sea Fury,
Blackburn Firebrand,
Bristol Brigand,
Blackburn Beverly and the
Fairey Spearfish. The poppet valve's previous problems with sealing and wear had been remedied by the use of better materials and the
inertia problems with the use of large valves were reduced by using several smaller valves instead, giving increased flow area and reduced mass, and the exhaust valve hot spot by Sodium-cooled valves. Up to that point, the single sleeve valve had won every contest against the poppet valve in comparison of power to displacement. The difficulty of Nitride hardening, then finish-grinding the sleeve valve for truing the circularity, may have been a factor in its lack of more commercial applications.
The Knight-Argyll Patent Case When the Argyll car was launched in 1911, the Knight and Kilbourne Company immediately brought a case against Argyll for infringement of their original 1905 patent. This patent described an engine with a single moving sleeve, whereas the Daimler engines being built at the time were based on the 1908 Knight patent which had engines with two moving sleeves. As part of the litigation an engine was built according to the 1905 specification and developed no more than a fraction of the rated
RAC horsepower. This fact coupled with other legal and technical arguments led the judge to rule, at the end of July 1912, that the holders of the original Knight patent could not be supported in their claim that it gave them master rights encompassing the Argyll design. Costs of litigation against claims by Knight patent holders seem having substantially contributed to bankrupt of Argyll in Scotland. == Modern usage ==