DE384895C - Internal combustion engine with rotating piston - Google Patents

Description

Internal combustion engine with rotating piston. Subject of the invention is an internal combustion engine with rotating pistons and sickle-shaped work spaces, the piston executes the four phases in the course of a single revolution.

It differs from the previously known machines of this type the invention is characterized in that to form the sickle-shaped chambers exclusively Drums of various widths and diameters are used, which are arranged one inside the other that the outer surface of the ends of a each encapsulated drum on the inner surfaces of the ends of the encapsulating them On the drum.

Furthermore, each encapsulating drum lies on one side with a part their inner circumference against the: outer surface of the encapsulated drum.

Another feature of the invention is, let the piston with a act like a slide len closure member is provided.

The drawing shows a motor with rotating drums as an embodiment of the invention shown.

Oj i is a cross-section along C-P of Fig. 2.

Fig.2 is a longitudinal section according to <1-B of Fig. I.

Fig. 3 to 8 show Iie positions, which the drums during a Ingestion of a revolution.

Fig. 9 shows a detail.

The engine shown consists of three drums of different widths 12, 13, 14th, one of which encloses the following. These drums are on a fixed part traversed by a hollow shaft with interposition of ball bearings 27, 28, 29 rotatably arranged. The outermost drum 12 is concentric, the other two are arranged eccentrically to the shaft, in such a way that the middle drum 13 on the one hand with part of its inner circumference against the 1'Iantelfläche the inner drum i d. and on the other hand with part of their jacket surface against the inner periphery of the outer drum 12 is applied.

With this arrangement, the sickle-free working chambers 1, 2, 3, .I formed. Each of the two inner drums 13 and 14 lies with its side walls against the side wall of the encapsulating drums 12 and 13. The cave Shaft io, which is mounted on a frame s of any design, is with a hollow piston 26 wedged tightly on it, which through the he: the Drums 14, 13 goes through and takes them with it as it rotates. On the upper part the piston 26 is provided with a slide 17 passing through the drum 12, which entrains the outer housing 12 as it rotates. The cavity of the shaft and of the piston is denoted by 9. In the joint piece i i of the drum 14 is a slide 17 attached, which has an opening 16a for the mixture passage. The eccentric Bearing drum 13 is also at the piston passage point with a joint piece i i provided. Both joints have the Purpose, the passage of gases from one chamber to the other, by a different route than through the piston to prevent. The drum 12 is also provided with a nozzle 7 in which the slide 17 can move back and forth.

The two inner drums 13 and 14 are also with over the whole Circumferentially distributed wings 15 provided, which have the purpose of sealing the To secure drums 12, 13 and 14 at the contact points. These in corresponding Slidably arranged grooves 15 wings are at the contact points of the drums pushed into these grooves (see Fig.9). The drums are also with flywheels 18, 19, 20, 21, 22 and 23 provided; 24 denotes a magnet machine, 8 a spark plug or a glowing ignition wire, 25 a carburetor and the air inlet of the carburetor.

The engine works as follows: Fig. 3 shows the piston 26 in such a position where it is closed off by chambers i and 2. In in this position he is in the dead center.

After the motor has been set in rotation in the direction of the arrow, the piston a6 begins to suck, since a negative pressure has arisen between it and the common point of contact (cf. Figs. I and 4). The fresh mixture enters the space 2 directly through the hollow piston 26, with which the suction has started.

In the further cycle (Fig. 5) the piston enlarges the chamber 2, whereby the suction continues.

In Figs. 6, 7 and 8 the space: 2 has increased even further, and in Fig. 8 the suction has almost reached its end. In the course of his further Rotation, the piston 26 has reached the dead point again, d. H. at the contact surface of the two drums (Fig. 3); the first phase is over. Thereupon takes place the piston in chamber i, starting from the position in Fig. 4, the following procedure instead of. While the piston 26 circles and sucks in behind it, it compresses in front of it in: the chamber i the mixture sucked in during the previous revolution, and this compression increases with the circular motion.

In Fig. 6, the compression, i.e. the second phase, has ended. if the piston 26 has come to the position of Fig. 7, the opening is located 16a of the closure piece 17 exactly opposite the passage 16 of the piston, so d'ass the chamber i and the outer chamber 4 are in communication with each other and that before the piston 26 in the chamber i compressed mixture directly through the channels 16a and 16 passes into the explosion chamber 4.

In Fig. 8, the compressed mixture passes even further out of the chamber i into chamber 4.

When the piston z6 is in the position of A.bb. 3 has returned, d. H. in the contact area of the two drums, is the compressed mixture completely passed into the outer chamber 4 behind the piston 26. In this Moment the closure piece 17 has automatically closed the opening 16, the Spark jumps over and the work period begins.

In the in A! Bb. The positions shown in 4 and 5 are relaxation .the gases continue until the piston 26 has reached the dead point, d. H. in the point of contact of drums 12, 13 (Fig. 6).

Looking at this figure one notices that the exhaust 6 is on the point of contact of the drums 12, 13 has passed.

In Fig. 7, the exhaust 6 is connected to the chamber 3, see above that the gases relaxed during the previous revolution during the fourth Phase can escape from the space 4 in front of the piston 26.

It thus effects the piston 26 while he is behind in the inner chamber sucks in and condenses in front of you, relaxation in the outer chamber behind you and in front of you the exhaust.

Claims (3)

PATENT CLAIMS: i. Internal combustion engine with rotating piston and sickle-shaped chambers formed by nested drums, thereby characterized in that the machine consists of three drums, and that the side surfaces of the two inner drums against the side surfaces of the drums surrounding them issue. 2. Internal combustion engine according to claim i, characterized in that that the contact surfaces -the circling walls of the sickle-shaped chambers by approximately 27o ° apart. 3. Combustion engine according to the claims i and 2, characterized in that the piston with one on the innermost drum attached, controlling slide is connected.