DE2439319C3 - Rotary piston internal combustion engine - Google Patents

Description

The invention relates to a Viertaki rotary piston internal combustion engine with a rotor arranged centrally within a stationary housing with two diametrically opposite, axially delimited by the side parts of the rotor, in which in sliding attachment to the surrounding walls of the respective breakthrough a rotationally swiveling power part is provided, which is in the side parts of the The rotor is mounted and rotatably connected to a crankshaft journal of a crankshaft by means of a Lever is pivoted and volume-variable with the inner wall of the rotor Forms working chambers, and with a combustion chamber in the inner casing wall of the rotor.

Such a rotary piston internal combustion engine is known from FR-PS 13 99 767.

This machine contains two sickle-shaped power parts that are rotatably mounted in the rotor and each form a combustion chamber.

Additional rotary valve controls are required for the function, with a different translation rotate the rotor.

The object of the invention is to form two working chambers with a power unit without additional tax funds. This results in a very compact and lightweight construction.

This object is achieved according to the invention in that the power section is designed symmetrically in each case and its storage in the area of its radial

Axis of symmetry is provided, with the zone furthest away from the axis in the area of the axis of symmetry for the purpose of delimitation neighboring working chambers in sealing contact with the inner wall of the rotor is held.

The advantages of the invention lie in the parts and cost-saving construction. Furthermore result a shorter crankshaft, lower torsional forces, a good mass balance and a weaker dimensioning, which in turn means a lower weight has the consequence.

The subject of the invention is explained in more detail in the following part using an exemplary embodiment. It shows

Fig. 1 cross section through a rotary piston internal combustion engine with the power components according to the invention,

F i g. 2 longitudinal section along the line JK of FIG. 1.

Description and function of the subject matter of the invention.

The rotor 53 is rotatably mounted on the crankshaft 48. The directions of rotation of both parts are in the same direction.

The transmission ratio is preferably 1: 3, ie when the rotor 53 rotates through 90 °, the crankshaft 48 has traveled 270 ° in the same direction of rotation. The translation takes place via the toothed gears 49, 50, 51 and 52. In FIG. 1 it is shown that the power part 54, which is rotatably mounted in a pendulum-like manner about the bolt 55, has compressed with the side E and has formed the combustion chamber 58. Ignition is carried out by spark plug 2. The side F of the power unit 54 forms the discharge chamber 59, where the working stroke is ended and the exhaust gases are discharged. Power part 56, which is rotatably mounted about bolts 57, begins with side C to form suction chamber 60.

In the chamber 61, which is formed by the side H of the power section 56, the mixture has already been sucked in and is compressed. After ignition has occurred in combustion chamber 58, the force is transmitted to crankshaft 48 via bolts 67 and connecting rods 69 via crankshaft journals 48a. The work process takes place at a 90 "angle of rotation of the rotor 53. After this work process, the power section 56 has compressed with its side H in the chamber 61 and has now reached the position of the spark plug 2. The fresh mixture was sucked into the suction chamber 60. Combustion chamber 58 after Once the work cycle has taken place, the exhaust gases are still received and the exhaust gases have been ejected in the ejection chamber 59. After this work process, the bolt 67 assumes the inner position and has covered the path from ("to ü.

Simultaneously by means of the connecting rod 69, the crankshaft journal 48a has covered the path from A to B , and the crankshaft 48 has rotated 270 ". When the rotor 53 continues to rotate, a repetitive process now takes place every 90".

For this purpose 2 sheets of drawings

Claims (1)

Claim: Four-stroke rotary piston internal combustion engine
with a rotor arranged centrally within a stationary housing with two diametrically opposed, axially delimited by the side parts of the rotor openings in which a rotationally oscillating power part is provided in sliding contact with the boundary walls of the respective opening, which is mounted in the side parts of the rotor and by means of a is pivoted with a crankshaft journal of a crankshaft rotatably connected lever and thereby forms variable-volume working chambers with the inner wall of the rotor, and with a combustion chamber in the inner wall of the rotor, characterized in that the power part (54, 56) is each symmetrical and its bearing in the area its radial symmetry ".riaxis is provided, wherein the axially distant zone is held in the area of the axis of symmetry for the purpose of delimiting adjacent working chambers in sealing contact with the inner wall of the rotor (53).