In the Beginning


| February/March 1991



Otto-Langen engine

Fig. 1: Original style Otto-Langen engine as shown at the Paris Exposition of 1867, utilizing vertical cross head rods and depicting the original patent.

34 Redway Street, Grand Island, New York 14072.

Probably the most historically significant engine ever in production was the Otto-Langen atmosphere engine, designed and produced by Nicolaus Otto and Eugene Langen between 1864 and 1878. It was an important stepping stone for the introduction of the 4 stroke cycle engine later developed by Otto in 1876 (see fig. #1). Several unique mechanisms appeared in this engine. Most famous was the overriding, or roller-wedge clutch that engaged only the downward movement of the piston and rack assembly, which resulted with the spinning of the main shaft and flywheel (see photo #2). Secondly, the free piston concept: where the piston movement was independent of the main shaft. As the engine fired, the piston was allowed to travel as far as the explosion carried it. The rack, connected to the piston in conjunction with a gear, housing the directional clutch, made this mechanical movement possible-similar to a rack and pinion gearing system engaging in only one direction. Use of a crankshaft was unnecessary with this system. Another mechanism was the noncontinuous rotating cam. Even though the camshaft itself spun continuously with the main shaft, the cam and follower only cycled at one revolution intervals, at such time the piston returned to its lowest point. As this happened, a spring loaded pawl engaged a ratchet, thus spinning the shaft. Nearing one complete revolution, a tail on the pawl caught a lever, disengaging it and ending the cycle. Slide valve operation and piston/rack lifting (for the intake stroke) were both controlled by this momentary operation.

OPERATION

Otto-Langen atmospherics use a gaseous fuel for combustion and flame ignition in conjunction with a slide valve for ignition. The operational cycle of this engine develops its power from atmospheric pressure rather than from the explosion itself. Otto and Langen's cycle is neither 4 cycle, 2 cycle, sterling, nor any other common form of engine operation. This German based cycle is both noncompression as well as atmospheric. Gas and air are introduced into the cylinder by a vertical movement of the piston via a chamber contained within a flat sliding valve affair, under negative pressure conditions. At this point, the slide valve closes, capturing within it a flame (lit from an external pilot) to the cylinder, exposing it to the air-gas mixture. Compression of the air/gas mixture does not happen in this cycle, rather ignition occurs immediately after the intake of air and gas (hence the term, noncompression). Upon ignition, the piston rockets upward, with momentum carrying it beyond the expansion point of combustion, creating a substantial negative pressure or vacuum within the cylinder. At the apex of the piston's travel, atmospheric pressure, as well as the piston/rack assembly's weight, takes over pushing the piston downward for the cycle's useful power stroke of approximately the first half of its travel. Downward motion and energy of the piston is captured to the main shaft by means of the directional roller clutch contained within the main shaft gear, in which the piston's rack gear meshes. Remainder of the piston's half downward movement creates a slight positive pressure within the cylinder. This positive pressure is released through an adjustable hand valve, located on the face of the slide valve assembly. Adjustment of this valve regulates speed of the engine. Restricting this outward exhaust flow retards the engine speed by slowing down the piston velocity for the last half of its downward stroke. As the piston approaches the cylinder bottom, a boss near the top of the piston rack depresses a lever, releasing the pawl that engages the cam shaft, revolving it for one revolution. With the cam now in motion, two important things happen. First, the piston is raised, and secondly the slide valve is raised exposing the cylinder inlet ports thus drawing in a mixture of air and gas. As the cam nears half of a revolution, the flame is reintroduced to the cylinder repeating the below cycle (fig #3).

Carburetion for this engine consists of merely an air port and a valved gas port both leading to an area adjacent to the inlet of the engine. As the slide valve raises, a chamber contained within it unites the air inlet, gas inlet and he cylinder opening together. Upward motion of the piston draws air and gas through the chamber into the cylinder.

HISTORY

Earliest engines manufactured in a glorious Grecian column style were the result of several years of research by Otto and his counterpart Eugene Langen. Initial production of these engines commenced in 1864 and continued until 1872 from their factory in Cologne, Germany. Langen, the cosmetic mastermind of the project, designed the Greek pillar cylinder. This early design incorporated two shafts, a main shaft which the flywheel was attached to and a cam shaft that intermittently engaged the cam followers.

From compiled information, these early Otto-Langen engines appeared to vary somewhat with almost each example. The first few used a precarious pair of vertical rods to guide the piston/rack assembly with the main shaft gear. Acting as a crosshead it can be assumed that this system was very prone to misadjustment by jarring of these rods. The most famous and important of the Otto-Langen examples incorporated this design; it was exhibited in the Paris Exposition of 1867 and was almost overshadowed by the Lenoir noncompression engine. Fortunately for the German duo, engines were judged by efficiency and performance. After several long tests, the grand prize was awarded to them. For its day it was the most efficient gas engine ever produced. None used less fuel per HP per hour, a consequence of the free piston, allowing unrestricted expansion of the gasses. Complete expansion utilizes more power from the expansion and allows for cooler operation. As strange as this engine appeared, not to mention its spastic running characteristics and reportedly loud operation, the beginning of its success started here. Some were produced with two slide valves, the second valve controlling incoming gas to the main slide valve. Later versions were manufactured without vertical 'cross head' rods and incorporated a simple notched bar contacting the smooth side of the rack to maintain gear contact. Some versions had spoked gears, some had individual bearing pedestals, etc. All early units were built without governors.