KR920703965A - Rotary piston mechanism seal - Google Patents

Abstract

No content

Description

Rotary piston mechanism seal

[Brief Description of Drawings]

1 is a schematic axial sectional view of a rotating piston mechanism.

2 is a partial cross-sectional view taken along line 2-2 of FIG.

3 is a partial axial cross-sectional view of a multi-piston rotary piston showing radial sealing means and side sealing means.

Since this is an open matter, no full text was included.

Claims (30)

A rotating piston mechanism comprising a casing and a piston which is eccentrically rotatably mounted in a casing between opposing sidewalls having a peripheral working surface in the form of a filter with an outer envelope, the casing being outside the filter line. Frequent radial seals having a sealing surface extending across the peripheral working surface of the piston, which are mounted within the demanding portion at the convex inflection points of the cooperating working surface with the cooperating working surface coincident with the envelope; The sealing body is composed of a plurality of sealing members which are pressed toward the peripheral working surface of the piston while providing the sealing surface together, and the intermediate sealing member, wherein the intermediate sealing member is wedge shaped while being elastically pressed and the intermediate sealing member Opposing wedge-shaped surfaces by means of elastic pressing And cooperating to press the sealing contact with respective ends of the required portions of the opposing end sealing members. 2. A rotary piston mechanism according to claim 1, wherein said cooperating operating surface has two or more convex inflection points and radial seals are mounted in respective requirements at each convex inflection point. 2. The piston mechanism of claim 1 wherein all of the sealing members are elastically pressed against the piston. The rotary piston mechanism according to claim 1, wherein the sealing members are elastically pressed to engage the ends of the request portion. The rotary piston mechanism according to claim 1, wherein the elastic pressing is achieved by the fluid pressure behind the radial seal in the required portion. 6. The method of claim 5, wherein the sealing members are disposed in the demanding portion in such a way that fluid pressure in the casing between the piston and the cooperating operating surface flows into the demanding portion and presses the sealing members into contact with the peripheral working surface of the piston. Rotating piston mechanism characterized by the above-mentioned. The rotary piston mechanism according to claim 1, wherein the elastic pressing is achieved by spring means. 8. The rotary piston mechanism according to claim 7, wherein the spring means consists of a leaf spring. The rotating piston mechanism of claim 1 wherein opposite wedge surfaces of the intermediate sealing member are radially inclined. 10. The rotary piston mechanism according to claim 9, wherein the surfaces of the sealing members which cooperate with the opposed wedge shaped surfaces, which are different from the intermediate sealing members, are correspondingly inclined. 10. The rotary piston mechanism of claim 9 wherein the opposed wedge shaped surfaces are equally oppositely inclined. 10. The rotary piston mechanism according to claim 9, wherein the radial inclination angle of each of the opposing wedge surfaces is between 1 ° and 45 °, preferably between 10 ° and 12 °. The rotary piston mechanism according to claim 1, wherein the intermediate sealing member is composed of 0.1 to 10% of the length of the sealing edge. 2. The rotary piston mechanism of claim 1 wherein the intermediate sealing member has less wear resistance of the remaining sealing member. 2. The rotary piston mechanism of claim 1 wherein opposite wedge surfaces of the intermediate sealing member cooperate directly with the end sealing members. 2. The casing according to claim 1, wherein the casing has a modulus structure and the piston is rotatable in a first modulus in which the request portion is also provided and the request portion is an end axially open in the first modulus. Rotating piston mechanism, characterized in that the ends are provided by adjacent modules. A rotary piston mechanism comprising a casing and a piston which is eccentrically rotatably mounted in the casing between opposing sides having a peripheral working surface in the form of a filter with an outer envelope, the casing being the outer envelope of the filter. The piston has a cooperating operating surface corresponding to the piston extending around each side wall in close proximity to the peripheral operating surface and each peripheral axial seal maintaining sealing contact with the adjacent side wall of the casing. A radial seal having a sealing surface extending across the peripheral working surface of the piston at a convex inflection point, the side sealing means sealing with each side wall of the piston while protruding from one or more side walls of the casing proximate the radial seal; Elastically pressed to contact the radial seal and each Rotary piston mechanism, characterized in that to seal the gap between the peripheral sealing element chukhyang. 18. The rotary piston mechanism according to claim 17, wherein the side sealing means protrudes from each of the side walls of the casing and is elastically pressed into sealing contact with each of the side walls of the piston. 18. The rotary piston mechanism according to claim 17, wherein said elastic pressing is achieved by spring means. 20. A rotary piston mechanism according to claim 19 wherein the spring means consists of a threaded spring. 18. The rotary piston mechanism of claim 17 wherein a portion of the elastic pressing is provided by the fluid pressure. 22. The passage according to claim 21, wherein the passage provides communication between the side sealing means and the required portion in the casing in which the radial seal is received therein, the fluid pressure being developed in the required portion and via the passage. A rotary piston mechanism, characterized in that in communication with. 18. The method of claim 17. The casing has a modulus structure, the piston and the radial seal are disposed in the first modulus and the side sealing means is mounted in the adjacent modul. 18. The portion of the side sealing means engaging the piston according to claim 17, wherein one end of the surface is in contact with the peripheral working surface of the piston and the tip of the radial seal and the other part of the surface is in proximity to the peripheral axial seal. A rotary piston mechanism, characterized in that it is positioned in contact with. 18. The rotary piston mechanism according to claim 17, wherein the portion of the side sealing means in contact with the piston is formed of a material softer than the proximal portion of the radial seal. 18. The rotary piston mechanism according to claim 17, wherein the combustion chamber is provided in a cooperating working surface, the side sealing means being angularly biased from the axial center plane of the radial seal towards the combustion chamber. 27. The rotary piston mechanism according to claim 26, wherein said each deflection amount is in the range of 10 degrees to 21 degrees. 8. The method of claim 7, wherein two opposed combustion chambers are provided in a cooperative working surface and two elastically pressurized side seals are angularly biased towards the respective combustion chambers from the lateral center plane of the radial seal. Rotating perston mechanism, characterized in that provided in a state. 18. The transverse cross-section of the portion of the side seal means in contact with the piston, provided in the cooperating operating surface, wherein the two opposed combustion chambers are in an elongated form and the portion is centered on the axial center plane of the radial seal. And the partial circle ends of the elongated transverse cross section extend to respective sides of the center plane. 18. The rotary piston mechanism of claim 17 wherein the radial seal is in accordance with claim 1. ※ Note: The disclosure is based on the initial application.