DE2112617C3 - Rotary piston internal combustion engine in trochoid design - Google Patents

Description

The invention relates to ei '«? Rotary piston internal combustion engine with a housing, which is composed of a jacket with a multi-arched inner surface and side parts, and an eccentric shaft is penetrated, on whose eccentric an oil-cooled piston is rotatably mounted, the axial gas seals carries, which slide along the housing side walls, with between the piston and the eccentric or one with this revolving component at least one oil seal is provided, which under the action of the from a working chamber over the axial gas seals overflowing compressed gas sealing to their Opposite surface is printed, and wherein in the piston end wall in question a surrounding the oil seal Sealing ring is used, which sealingly rests against the adjacent housing side wall.

Such a rotary piston internal combustion engine is known from DE-OS 14 51 809.

In order for the gas pressure to act on the oil seal in the known machine during operation, the The sealing ring is designed so that it is lifted off the side wall of the housing by the pressure of the pressurized gas will. This training of the sealing ring presents structural and functional difficulties, as the Sealing ring tends to chatter during operation, which is due to the fact that compressed gas after it has been lifted off can also get into the groove and behind the sealing ring, causing the lifting force momentarily will be annulled.

The invention is based on the object of providing a rotary piston internal combustion engine of the specified type to create in which the supply of pressurized gas to the oil seal with constantly sealing to the relevant Housing side wall adjacent sealing ring is made possible.

For this purpose, it is proposed according to the invention that the sealing ring is bridged by a channel that of a region of the adjacent housing side wall which extends radially within the inner envelope curve of the axial gas seals and opens radially outside the outer envelope curve of the sealing ring and into which a check valve is arranged, which the kajial only releases when radially outside of the sealing ring there is a higher pressure than within it.

The proposal according to the invention prevents with security that oil from the space radially inside the Sealing ring can get into the working chambers, on the other hand it ensures the supply of Pressurized gas to the space radially inside the sealing ring and thus to the oil seal when in the space A corresponding pressure is present radially outside of the sealing ring, and it allows the function of the Sealing ring, namely to prevent oil from entering the working chambers when the machine is at a standstill, unaffected

An embodiment of the invention is described below with reference to the drawings described:

F i g. 1 shows a schematic view of a rotary piston internal combustion engine of the trochoid type, with the front housing side part being omitted
2 shows a schematic representation of the housing with the envelope curves of the axial gas seals and the sealing ring, and

FIG. 3 shows a partial section along line AA in FIG. 1.
The rotary piston internal combustion engine has a ge

J5 housing 1 (Fig. 1), which consists of a jacket 2 with two-arched inner surface 3 and two mutually parallel side parts 4 composed In the An eccentric shaft S is mounted on the side parts 4, on the eccentric 6 of which an oil-cooled triangular piston 7 is rotatably arranged. The piston 7 has inner cavities 8 through which the cooling oil flows. Of the Piston 7 is provided with radial seals 25 at its corners and with axial seals at its end walls 9 (FIG. 3) Provided gas seals, which consist of sealing strips 10 and sealing bolts 11 and by springs to the adjacent housing side walls 12 are pressed. This will seal three against each other Working chambers 13 formed.

In order to prevent cooling oil from escaping from the Kolbenhohiso 8 into the working chambers 13, is an oil seal 14 acting between the piston 7 and the eccentric 6, preferably on each piston side provided, in the embodiment the form of an externally clamping slotted piston ring with gas-tight Shock arranged in a groove IS of a disk 16 connected to the eccentric in a rotationally fixed manner is. The oil seal 14 is only effective when it is powered by pressurized gas that flows through the axial gas seals 10, 11 passes into the space 17, against which the piston cavity 8 facing wall of the groove 15 is pressed. In order to prevent cooling oil from flowing out of the machine when the machine is at a standstill and there is no gas pressure To prevent piston cavity 8 in the working chambers 13, a closed-

hi ner sealing ring 18 is provided by a spring 19 is pressed against the housing side wall 12. This sealing ring 18 is through a channel 20 bridged by an area 21 of the housing part

i 12 starts, which lies radially inside the hell curve 22 of the axial gas seals 10, IJ Hai outside the outer envelope curve 23 of the gsring 18. This area 21, which is shown in shaded lines, is len twice in machines with ier jacket surface 3 in the form of a two-arched loid on each housing side wall, so that the channel 20 can start from the one and / or its area 21. Through the! 0, compressed gas that has escaped from the working chambers via the axial gas seals 10, 11 can get into the space 17. In order to avoid that oil is sucked out of the space 17 into one of the working chambers 13 when the pressure in the space radially outside of the sealing ring 18 is lower than in the space 17, a spring-loaded check valve 24 is arranged in the channel 20.

The one shown in Figure 3 for the left side of the piston The arrangement can of course also be provided for the right-hand side of the piston.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Rotary piston internal combustion engine in trochoid design with a housing that consists of a Sheath composed of a multi-arched inner surface and side parts and an eccentric shaft is penetrated, on whose eccentric an oil-cooled piston is rotatably mounted, the axial gas seals carries, which slide along the housing side walls, between the piston and at least one oil seal is provided for the eccentric or a component rotating with it, which under the action of the overflowing from a working chamber via the axial gas seals Compressed gas is pressed sealingly against its counter surface, and wherein in the relevant piston end wall a sealing ring surrounding the oil seal is used, which seals against the adjacent Housing side wall, characterized in that the sealing ring (18) by a K & rud (20) bridged by a Area (21) of the adjacent housing side wall (12) starts out, which radially inside the inner Envelope curve (22) of the axial gas seals (10, 11) and radially outside the outer envelope curve (23) of the Sealing ring (18) opens and in which a check valve (24) is arranged, nozzle the channel (20) only releases when there is a higher pressure radially outside the sealing ring (18) than radially within it.