DE3304117A1 - Rotary internal combustion engine - Google Patents

Abstract

Published without abstract.

Description

Description of the patent application

concerning the rotary internal combustion engine Pei all proposed so far Rotary internal combustion engines of the positive displacement type are either of an unfavorable shape of the combustion chamber or an inadequate or overly complicated sealing option, or both of these Reason for the fact that the development of such engines is not promising from the outset is. Even the "Wankel engine" developed for series production provides for the reciprocating piston engine due to poor combustion processes and vulnerable seals (because too complicated built) is not a real competition, although it runs more smoothly.

The aim of the present invention was therefore the previous above described disadvantages of rotary internal combustion engines in a new design completely turn off.

According to the invention, the basic version of the motor consists of two Rotors that are not aligned with the external axis. Essential feature of the first rotor axis position to each other is the non-collinearity; both axes meet at an angle not equal to zero and one hundred and eighty degrees. Both runners are essentially disk-like 'character.

One of the runners, called "cylinder runners" in the following, has one radius or several radii any number of evenly distributed cylinder-like ones Cavities, hereinafter referred to as "cylinders". The longitudinal axes and openings of the cylinders stand in the direction of the other rotor, hereinafter referred to as "piston rotor". Piston-like parts, referred to below as "pistons", protrude from the piston runner in the cylinders of the cylinder runner.

Both cylinders are circular in the longitudinal direction curved pipe sections, with the rotor center being the center of curvature in each case. The pistons are curved like the cylinders or have a spherical shape according to Fig. 5.

) urine the use of the described flask and ylinaer it is possible to seal with simple piston rings according to the reciprocating piston engine, as well as a to get a favorable interior space shape. Because the motor is not off-axis, it is possible that the seals are constantly in contact with the deflecting surfaces.

Three dynamic variants are possible for the design of the motor: 1. Both runners rotate around their body axis.

2. The cylinder rotor is firmly connected to the housing; the axis of the piston shaft rotates around the axis of the cylinder rotor and at the same time its own axis (pendulum rotation).

3. The piston runner is firmly connected to the housing, the axis of the cylinder rotor6 rotates around the axis of the piston rotor and at the same time around the own axis (pendulum rotation).

The Fig. La-c show the number and distribution of cylinders in the Cylinder rotors of FIGS. 2, 3 and 4.

The position of the cut relates to the direction of view at Figures 2, 3 and 4.

Since the execution of the thirty. 3 is to be regarded as the most interesting , only individual parts are designated there and explained in the text.

ig. 2 shows an embodiment in which inlet and outlet channels are provided via sliding surfaces must be brought to the cylinder.

Fig. 3 shows an embodiment in which the cylinder rotor (1) with the housing (2) is firmly connected. This makes it possible, as in the case of a reciprocating piston engine Valves (3) and ignition (4) as well as water cooling (5) are to be used. Due to the pendulum rotation have an effect on the sealing rings (6) and the piston rotors (7) compared to the version Fig. 2 only minimal flow forces. Because two piston rotors are rigidly coupled are, the forces directed parallel to the axis of rotation are already within the runner eliminated.

Thanks to the favorable mass distribution between the actual rotor and the axle the ellipsoid of revolution of the (, esamtufer becomes a sphere. This leaves the crank (8) free of both centrifugal and centripetal forces. If there is complete freedom from centrifugal forces is required for the sealing rings, they are built into the cylinder walls and designs the piston surface as a sliding surface (not in the drawing shown).

ig. 4 shows the reverse of the previous embodiment.

The piston runner is firmly connected to the housing while the cylinder runner Pendulum rotation.

Claims (6)

Claims X rotary piston engines, compressors and pumps, characterized in that the body axes of two or more runners are below cut at an angle other than zero and one hundred and eighty degrees. 2. Rotary piston engines, compressors and pumps according to claim 1., characterized in that cylinders are circularly curved in the longitudinal axis are to be used. 3. Potations piston motors, compressors and pumps according to claim 1 and 2, characterized in that curved pistons are used according to claim 2 come. 4. rotary piston engines, compressors and pumps according to claim 1 and 2, characterized in that spherical pistons are used in the sealing area come and that a sealing element is used to seal the ball to the inner wall of the cylinder finds which has the curvature according to claim 2 and 3 towards the cylinder inner wall and has the curvature of the spherical surface towards the sphere. 5. Piston according to claim 3, characterized in that im; Vassenzentrpunktdes Piston a swivel joint is attached, which the pistons with the piston runners articulately connects. 6. Potation piston motors, compressors and pumps according to claim 1 and 2, characterized in that the sealing rings are housed in the cylinder and the outer surface of the piston is made as a slide valve.