DE1847029U - ROTARY LISTON MACHINE. - Google Patents

Description

Rotary piston machine.

The innovation concerns a rotary piston machine, both as a hydraulic Motor or internal combustion engine, as well as a pump or compressor use Can be found.

Compared to known rotary piston machines, the innovation according to the invention stands out Machine mainly characterized by the fact that by the arrangement of four rotating around fixed axes Rotary lobes of a certain configuration between the rotary lobes a pulsating working space is formed, the volume of which from a maximum value down to the value 0 down is changeable, with the resulting working pressures always passing through the center go to the machine.

The rotary pistons represent spherical two-corners in cross-section central axes of rotation lie in the corners of a square, the radii of curvature the rotary piston and the side lengths of the square equal to the length of the rotary piston divided by V.

Further details of the innovation can be found in the drawings, in which various embodiments of the machine are shown schematically are.

According to Figures 1 to 3, the machine consists of a housing 13, in which four rotary lobes 1, 2, 3 and 4 are mounted. The central axes of rotation 5: 6; ? and 8 of the rotary pistons are in the corners of a square with the length of one side S.

The rotary lobes represent spherical two-corners in cross section, the radii of curvature Rl and R2 of which are divided equal to the side length S of the square and equal to the length (L) of the rotary lobes through v7 are. The housing is equipped with four semicircular guideways 9: 10, 11 and 12 (Fig. 2), the radius R of which is equal to half the length L of the rotary piston and the respective center of which lies in the axes of rotation 5, 6, 7 and 8 of the rotary piston . This creates a central room a and four outer rooms b. Because each of the tips of one of the rotating rotary lobes rolls either on the adjacent rotary lobe or on the associated guide track, the volume of the space a changes from a maximum value (Fig. 1) down to the value 0 (Fig. 3), while the volumes of the spaces b increase at the same time. In any case, however, the sum a + 4b is constant.

Preferably, space a is used as a work space; it can however, rooms b can also be used as work rooms.

A perfect tip seal of the rotary lobes can be achieved according to Figure 4 when the rotary lobes the possibility keif is given, in the longitudinal direction by a small (D CD To shift the amount relative to the axes of rotation. By installing springs 14,15} 16 and 17, you can achieve that each of the tips is pressed on the adjacent rotary piston. The fact that, starting from FIG 10e 11 and 12 are pressed and the inner tips stand out from the adjacent rotary lobes, is of secondary importance if one takes care) that the pressure or delivery medium flowing over from the space a into the spaces b is discharged.

In the embodiment of FIG. 5, this possibility even deliberate use thereby that one of the tips 18 of each rotary piston is rounded, arises at a certain position of the rotary piston between each two rotary pistons 1 and 2 a channel 19, for example when using the machine as an internal combustion engine to discharge the combustion gases from space a the rooms b into the open can serve. This effect can also be used achieve if you have the rotary piston with a low eccentricity on the axes of rotation camps.

As FIG. 6 shows, the power transmission can be relatively with solve simple means. On the axes of rotation 5, 6, 7 and 8 of the rotary pistons 1, 2, 3 and 4, gears 20, 21t 22 and 23 are attached, with a central gear 24 are engaged.

7 shows the use of the machine as an internal combustion engine. The working space a is equipped with an antechamber 25 into which the spark plug 26 protrudes. Opposite the spark plug are the inlet bores 27, the open obliquely into space a for the purpose of vortex formation and communicate with a chamber 28 stand) which can be closed by an inlet valve 29 of any type.

The inlet bores 27 and possibly also those not shown Outlet openings are arranged in accordance with FIG. 4 so that they are successively removed from the rotary lobes opened or closed. The engine can be designed so that it is in Two-stroke or four-stroke works.

The proposed rotary piston machine does not have any eccentric parts and therefore no imbalance forces occur on. The individual parts are easy to manufacture, since all $ Liche bulges run in the shape of an arc of a circle. When standardizing a Elements can increase the performance by connecting several Elements can be enlarged as required. Also combinations z. B. Motor-pump or motor-compressor can be carried out without changing the components.

Claims (1)

S c h u t z ans p r ü eh e: 1. Rotary piston machine, marked by four rotary lobes (1, 2, 3, 4) with a spherical cross-section whose central axes of rotation (5,6,7,8) lie in the corners of a square, the The radii of curvature (R1 s R2) of the rotary lobes and the side lengths (S) of the square are the same are the length (L) of the rotary lobes divided by V 2. 2. Rotary piston machine according to claim 1, characterized in that the rotary lobes are housed in a housing (15) with four semicircular Guideways (9, 10, 11, 12) is equipped, the radius (R3) of which is equal to half Length (L) of the rotary piston and its respective center point in the axes of rotation (5,6,7,8) the rotary piston is located. 3. Rotary piston machine according to claims 1 and 2, characterized in that that the rotary pistons are displaceable in the longitudinal direction and are supported by compression springs Support (14,15, 16, 17) on the axes of rotation (5, 6,7,8). 4. Rotary piston machine according to claims 1 to 3, characterized in that in each case a tip (18) of each rotary piston is rounded. 5. Rotary piston machine according to claims 1 to 4, characterized in that a gearwheel on each axis of rotation (20, 21, 22, 23) is attached, which with a central tooth rad 024) is engaged. 6. Rotary piston machine according to claims 1 to 5, characterized characterized in that the working space (a) is provided with an antechamber (25) into which the spark plug (26) protrudes. 7. Rotary piston machine according to claims 1 to 6, characterized in that that in the working space (a) inclined inlet bores (27) and outlet openings open, which are preferably arranged so that they are successively from the rotary lobes opened or closed.