DE142119C - - Google Patents

Description

IMPERIAL

PATENT OFFICE,

M 142119 CLASS 46 «.

The subject of the invention is an explosion engine with oscillating pistons and an annular, orbiting cylinder serving as a flywheel, in which four pistons connected in pairs are provided, which by means of slots in the cylinder wall going levers swing around a fixed hollow axis, with the four located between the different pistons Rooms serve one after the other as intake, compression, explosion and exhaust areas.

The drawing shows:

Fig. Ι the machine in cross section,

Fig. 2 in section through the shaft of the machine.

The explosion engine consists essentially of an annular, circular cylinder c, in which four pistons, connected in pairs _{, move ^ 1} p ₂ p ₃ p ₄ , which swing around a fixed hollow shaft α by means of levers // 'passing through slots in the cylinder wall The four spaces ee 'e "e'" located between the different pistons serve one after the other as intake, compression, explosion and exhaust space. On the levers / V there are joints O ₁ and b on the pins χ and j ^. ₂ provided, which engage the pin bb 'of the gear wheels T ₁ r ₂ attached to the cylinder. The latter run on the ring gear r firmly connected to the shaft α.

O ₁ and O ₂ are the centers of the gears T ₁ and r ₂ , b ' and b are those of the journals.

The radii O ₁ b ' and o ₂ b are half as large as the chords x'y and xy', so that with every movement of the levers I and V from χ to y or from j ^ to x ' the gears T ₁ r ₂ make half a turn.

The machine works as follows:

If the space e is now filled with a compressed mixture, the pistons ρ _λ ρ are ρ λ ρ as soon as this mixture is ignited. ₂ ^{moved in} opposite directions. The lever I describes the circular arc yx ' and the lever Γ the circular arc xy'. As a result of this movement, the gears T ₁ r ₂ are rotated by 180 ° in the same direction and with them in the same direction by means of the gear r of the cylinder c.

In a four-stroke explosion engine, to simplify the control of the ignition elements, the gear wheel r is _{chosen to be twice as large as the gear wheels T 1} T ₂ , so that the gear wheel r rotates through 90 ° when the rotation of the gear wheels r _x and r ₂ i8o ° is.

As soon as the levers I and / 'have moved from y to x' and from χ to y ' , the pistons P ₁ P _{2 are} at the greatest distance from each other. They take one of the piston positions p indicated on the drawing. ₂ and p _{s a} corresponding mutual position.

The pistons p _i and P ₁ have here approached each other and the mixture enclosed in the space e '"has been compressed. The pistons p _i and p _s, on the other hand, have moved apart

removed from the other and fresh mixture is sucked into space e " . Finally, pistons p. ₂ and p _{s have moved} closer to one another and have expelled the burnt gases previously contained in space e '.

While play these phases, the cylinder has rotated through 90 ^0, so that the space e "'has reached the point at which there was before the rotation the space e.

The latter now takes up the position previously occupied by space e ' , etc. At this moment space e "', which is filled with fresh mixture, comes into contact with the ignition organs. The explosion ensues and the cylinder rotates 90 ° further.

In this machine, the gears T ₁ and r _{2 are driven} by means of two rods. This entrainment can take place in a different way, in particular by means of toothed rims arranged concentrically to the shaft α , which mesh with the gearwheels r _x and r ₂ . Latching devices could be used in a similar manner.

The machine can be provided with several rotating cylinders c , which are arranged in parallel planes on the fixed shaft α , whereby the performance of the machine can be increased as desired. For example, the machine can consist of two circling cylinders, in which only the intake and compression of the charge in one cylinder, while the explosion and exhaust take place in the other, so that the machine works in two-stroke.

By suitably choosing the ratios of the gears F ₁ and r ₂ , any number of working periods can be obtained for one revolution of the rotating cylinder c. The number of these working periods is greater as the rotational speed of the cylinder c is low.

The machine can be carried out in the simplest possible way, since all parts are on the lathe can be machined, and by choosing the right planetary gears his Speed can be regulated as required.

Claims (1)

Patent claim: Explosion engine with oscillating pistons and a flywheel ring-shaped, orbiting cylinder, characterized by four connected in pairs Pistons that swing around a fixed hollow axis by means of levers going through slots in the cylinder wall, the four spaces between the different pistons, one after the other, as suction, compression, Serve explosion and exhaust space. 1 sheet of drawings.