DE3318281A1 - Combustion engine - Google Patents

Abstract

The invention relates to a combustion engine with a housing with an elliptical inside wall, having at least one inlet and at least one outlet, in which housing a piston rotor is supported on a hollow shaft, with which sealing devices rotate which separate the housing inner chamber into at least one intake chamber , at least one compression chamber and at least one expansion chamber, the volumes of which constantly vary with the rotation of the piston rotor. For optimum exploitation of the centrifugal force the piston rotor is of spherical design and has a plurality of hollow blocks tangentially supported on the hollow shaft, the sides of which blocks form ducts in which dividing plates with sintered heads are movably supported. When the piston rotor rotates the dividing plates are acted upon by the centrifugal force, forming a seal against the inside wall of the housing, and their sintered heads slide on the inner wall of the housing.

Description

Internal combustion engine

The invention relates to an internal combustion engine with at least one a housing having an inlet and at least one outlet with an elliptical inner wall, with a piston rotor mounted in the housing on a hollow shaft, with at least three with this rotating sealing devices that the housing interior in at least a suction, at least one compression and at least one expansion chamber separate, the volume of which is constantly changing.

A well-known internal combustion engine of this type, which works according to the Wankel principle is built and works and in particular at the Mazda "Rotary Turbo" of the Japanese Toyo Kogyo company is used, has a triangular piston rotor on, which drives an eccentric shaft through a toothing during its rotation. At the tips of the triangular piston rotor are on the elliptical inner wall of the motor housing sliding sealing strips are provided, which and separate the expansion chamber, the volume of which is constantly changing. In this known internal combustion engine, although the crank and the cam shaft be dispensed with, the use of centrifugal force due to the triangular piston barrel however, it and thus the saving of driving forces are not optimal.

The invention is based on the object of an internal combustion engine to be designed according to the type mentioned so that in order to save driving forces an optimal utilization of the centrifugal force by the piston rotor is possible The object is achieved according to the invention in that the piston barrel is designed to be circular and has a multitude of hollow blocks similar to a sector of a circle9 which are tangential to the hollow shaft are mounted and their sides extending to the hollow shaft are each below Formation of a channel spaced apart from each other, in each of which one is movable The centrifugal force seals the burnt disk against the inner wall of the housing can be charged Advantageous further developments of the invention Internal combustion engine result from the subclaims.

To ensure unbalanced concentricity of the internal combustion engine the circular piston rotor has in particular six hollow blocks similar to a sector of a circle on, of which three in one half of the housing interior between them and the inner wall of the housing one of the suction or compression or

of the expansion chambers, with one for each housing half the inlet or outlet communicating with the corresponding suction or expansion chamber is provided. The channels formed between the sides running towards the hollow shaft are located at their end opposite the hollow shaft at their end in the direction of rotation Side flared outwards and take a suitably shaped, movable one Separating disk attached to the sintered head, whose facing the inner wall of the housing Outer surface slides sealingly on the inner wall.

In particular, in a recess in the outer surface of the sintering head a roll with a diameter of at least 0.5 cm must be stored on the Inner wall of the housing runs sealingly.

The circular piston rotor with the needle rollers in the ducts movably mounted cutting discs, which at the same time serve the function of the conventional piston rings meet, enables optimal utilization centrifugal force and thus a reduction in driving forces and fuel consumption. In particular, there is no loss of power due to the movement of the piston being deflected from given the horizontal in the vertical direction.

The tangential mounting of the hollow blocks on the hollow shaft ensures that the pressure resulting from the explosion is not at an angle that is too acute acts on the cutting disks, as would be the case with a radial mounting.

The compressed fuel is preferably ignited by Glow threads, if the piston rotor is formed by three hollow blocks similar to a sector of a circle, so two such piston sets are in opposition to avoid imbalance Arrangement to be arranged on a shaft, which is especially true for relatively small Combustion engines are used when using a piston rotor with six circular sectors Hollow blocks turns out to be a motor housing with an interior diameter of approx. 30 cm as suitable. The spaces between the cutting discs and the hollow shaft in the channels are used to hold a thick lubricant.

Embodiments of the internal combustion engine according to the invention are now explained with reference to the drawings. In the latter: Fig. 1 is the sectional view a house guide embodying the principle of the internal combustion engine according to the invention with a piston rotor having three hollow blocks similar to a sector of a circle, FIG. 2 the sectional view of another embodiment of the internal combustion engine according to the invention with a piston runner formed from six hollow blocks similar to a sector of a circle and 3 shows a detailed view in section showing a special embodiment of the sintered head seal the cutting discs shows.

As can be seen from FIGS. 1 and 2, the housing 1 of the internal combustion engine an elliptical inner wall 2. A hollow shaft is centrally located in the housing 1 3 arranged, on which a propeller, not shown, for guiding cooling air can be placed through the hollow shaft 3.

In the embodiment according to FIG. 1 there are three on the hollow shaft 3 Circular sector-like hollow blocks 4 mounted tangentially, which have a circular piston rotor 5 form. The inner wall 2 of the housing has a circular section 1200 with the same radius, which gradually becomes a 2400 to comprehensive section The hollow blocks pass over on both sides with a diameter that is 1 to 1.5 cm larger 4 are arranged at a distance from one another around the hollow shaft 3, and their for Hollow shaft 3 extending sides 6 and 7 each form a channel 8 in which a Cutting disc 9 movably mounted on needle rollers 10 and force through the fleeing against the inner wall 2 of the housing 1 can be impacted in a sealing manner0 The hollow blocks 4 rotate with the hollow shaft 3, and the cutting disks 9 separate the interior 11 of the housing 1 in the embodiment of Fig 1 in a suction, a United sealing and an expansion chamber 12 or 13 or 149 whose volume changes when the Hollow shaft 3 constantly changes. The cutting disks 9 each have a sintering head 15 to 9 which slides sealingly on the inner wall 2 of the housing 1 The channels 8 are at their end opposite the hollow shaft 3 at their in the direction of rotation of the Piston rotor 5 located side widened outwards and take the accordingly shaped sintered head 15, creating a favorable seal achieved will. Due to the centrifugal force, the racing disks 9 and thus the sintered heads v in their sliding movement over the inner wall 2 of the housing 1 suitable against the inner wall 2 applied. The material of the sintering heads 15 is chosen so that they are of absorb the load exerted by the centrifugal force in a suitable manner.

Over the 240 0 arc of the housing interior 11 is located Suction and expansion chambers, each with an inlet 16 and an outlet, respectively 17 are connected, which are arranged close together. The elliptical Shape of the housing 1 is a type of cylinder in cross section, the diameter and length can be varied as required, the 120 0 section of the housing interior 11 has the same radius plus 0.1 cm to allow for expansion when heated significantly to have enough space.

As FIG. 3 shows, the sintering head 15 can on its over the inner wall 2 of the housing 1 sliding outer surface 18 have a recess 19 in which a roller 20 with a diameter of at least 0.5 cm is rotatably mounted, which runs on the inner wall 2 of the housing 1 in a sealing manner.

Fig. 2 shows another embodiment of the internal combustion engine at that of the piston rotor 5 six sector-like Has hollow blocks 4 ', three of which are arranged in a housing half and between them and the inner wall 2 of the housing 1 each have a suction or compression or

Form expansion chamber 12 or 13 or 14. The corresponding input and outlets 16 and 17, respectively, with respective suction and expansion chambers 12 and 14 are connected, are in this case opposite each other in terms of diameter, as Fig. 2 shows. Through this circular series connection of the arrangements of intake, compression and expansion chambers is a well balanced internal combustion engine which runs extremely smoothly. This embodiment is suitable for relatively big engines. In the case of relatively small engines, the embodiment according to FIG Fig. 1 application, with two units according to Fig. 1 on a shaft in opposite directions Arrangement are to be provided in order to avoid imbalance.

The inlets 16 are each connected to oil tanks, not shown, is introduced via the oil into the housing interior 11, in order for the required To ensure lubrication of the sintering heads 15 of the cutting disks 9.

As shown in FIG. 2, each hollow block similar to a sector of a circle has 4 on its peripheral surface 21 in the immediate vicinity of the in direction of rotation leading side 6 of the hollow block 4 has a recess 22 which is at least 1/5 the peripheral surface 21 of each hollow block 4 can occupy. Through this recess 22 the compression conditions are significantly improved when the piston rotor runs true. The recesses 22 can also be provided in the embodiment according to FIG. 1 be.

1 shows in the vicinity of the front side 23 in the direction of rotation of the compression chamber 13 an ignition device 24, which is from a conventional spark plug or may suitably be formed by a filament.

The spaces 25 of the channels 8 between the cutting disks 9 and the hollow shaft 3 are used to hold a thick lubricant.

Claims (8)

Patent claims V) internal combustion engine with at least one Inlet and at least one outlet having a housing with an elliptical inner wall, with a piston rotor mounted in the housing on a hollow shaft, with at least three with this rotating sealing devices, which the housing interior in at least a suction, at least one compression and at least one expansion chamber separate, the volume of which changes continuously, characterized in that the piston rotor (5) is circular and has a large number of hollow blocks similar to a sector of a circle (4), which are mounted tangentially on the hollow shaft (3) and their to the hollow shaft (3) extending sides (6 and 7) each forming a channel (8) from one another are spaced, in each of which a movably mounted cutting disc (9) from the Plieh ° force can be acted upon in a sealing manner against the inner wall (2) of the housing (1) is. 2. Internal combustion engine according to claim 1, characterized in that the circular piston runner (5) has three hollow blocks (4) similar to a sector of a circle. 3. Internal combustion engine according to claim 1, characterized in that the cutting disks (9) are mounted on needle rollers (10). 4. Internal combustion engine according to claim 1, characterized in that the circular piston rotor (5) has six hollow blocks (4) similar to a sector of a circle, each of which three in one half of the interior (11) of the housing (1) between and the inner wall (2) of the housing (1) one of the suction or. Compression or Form expansion chambers (12 or 13 or 14), one for each housing half communicating with the corresponding suction or expansion chamber (12 or 14) Inlet or outlet (16 or 17) is provided. 5. Internal combustion engine according to one of claims 1 to 4, characterized in that that the sides (6 and 7) extending between the hollow shaft (3) are formed Channels (8) at their end opposite the hollow shaft (3) in the direction of rotation of the piston rotor (5) located side (6) are widened outwards and one appropriately shaped, attached to the movable cutting disc (9) Take up the sintered head (15) whose inner wall (2) of the housing (1) is facing Outer surface (18) slides sealingly on the inner wall (2). 6. Internal combustion engine according to claim 5, characterized in that a roller (20) in a recess (19) in the outer surface (18) of the sintering head (15) with a diameter of at least 0.5 cm is mounted on the inner wall (2) of the housing (1) runs in a sealing manner. 7. Internal combustion engine according to one of claims 1 to 5, characterized in that that each circular sector-like hollow block (4) on its Um £ angsfläche (21) in the immediate Near the side (23) of the hollow block (4) leading in the direction of rotation, a recess (22). 8. Internal combustion engine according to claim 7, characterized in that the recess (22) occupies at least 1/5 of the circumferential surface (21) of the hollow block (4).