RU2014520C1 - Cylindrical device - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: piston with an annular groove is mounted in a body to form a working chamber. A flexible toroidal seal member is positioned in the groove for rolling. The groove is made with an annular notch on the side of the chamber, the notch mates the cylindrical surface of the groove. The body is made with an annular bore on the side opposite to the piston notch, the bore mates the inner cylindrical surface of the body. The mating surfaces are parallel to each other. The bore diameter is equal to the outer diameter of the seal member positioned in the piston notch. The notch depth is determined on condition of providing necessary preliminary compression of the seal member. EFFECT: improved structure. 1 dwg

Description

 The invention relates to mechanical engineering, in particular to pneumatic and hydraulic devices for moving organs from one position to another.

 A device is known comprising a body with a cylindrical chamber, a piston and an elastic elastic toroidal sealing element operating on the principle of friction-rolling, which increases its service life.

 This design ensures the operation of devices only of the type of piston sealing rings and cannot be used in cylindrical devices designed to move organs from one position to another, in which there is a skew of the sealing element when it enters with the piston into the cylinder body, i.e. at the beginning of the piston stroke, if a special tool is not provided for its elimination. As a result, the device is depressurized and unsuitable for operation.

 The technical result consists in ensuring the sealing of the device by eliminating the skew of the sealing element when it enters with the piston into the cylinder body.

 To do this, in a cylindrical device containing a housing installed in it with the formation of the working chamber, a piston with an annular groove, in which an elastic toroidal sealing element is placed with the possibility of rolling, an annular groove of the piston on the side of the working chamber is made with an annular groove associated with the cylindrical surface of the groove, and the housing on the side opposite the piston groove is made with an annular bore associated with the inner cylindrical surface of the housing. The said mating surfaces are parallel to each other, the diameter of the annular bore of the housing is equal to the outer diameter of the sealing element located in the piston groove, and the depth of the latter is determined from the conditions for creating the necessary preliminary compression of the sealing element.

 The drawing shows a cylindrical device according to the invention, where I is the working position of the piston, II is the initial position of the piston when it enters the housing.

 The device comprises a housing 1, a piston 2 installed therein, with the formation of a working chamber 3 having an annular groove 4, as well as a toroidal sealing element 5. An annular groove 6 is made in the annular groove 4, mating with the cylindrical surface of the groove 4 by means of surface 8. In the housing 1, from the side of the opposite groove 6 of the piston 2, an annular bore 7 is made, which is mated by the surface 9 with the inner cylindrical surface of the housing 1. The mating surfaces 8 and 9 are made parallel to each other. The diameter of the annular bore 7 of the housing 1 is equal to the diameter of the toroidal sealing element 5, located in the groove 6 of the piston 2, which is determined from the conditions for creating the necessary preliminary sealing element 5.

 The device operates as follows.

 A toroidal sealing element 5 made of an elastic material is placed between the annular groove 6 and the annular bore 7, as shown in pos. II, where the initial position of the piston 2 is indicated when it enters the housing 1 of the cylindrical device. When the working stream enters the cavity of the housing 1 under pressure, the piston 2 begins to move to the operating position indicated by pos. I in the direction indicated by the arrow.

 The implementation of the mating surfaces 8 and 9 in the manner described above ensures the transmission of the same torques from the side of the piston 2 and the housing 1 to all circles forming an elastic toroidal sealing element 5. In this case, the elastic toroidal elastic element 5 is compressed uniformly and further inserted and installed without distortion in the cavity between the annular groove 4 and the inner wall of the housing 1. This provides reliable sealing and operation of the device, increases its durability.

Claims (1)

 A CYLINDER DEVICE comprising a housing mounted therein with the formation of a working chamber a piston with an annular groove, in which an elastic toroidal sealing element is placed with the possibility of rolling, characterized in that the annular groove of the piston on the side of the working chamber is made with an annular groove mating with the cylindrical surface of the groove and the housing on the side of the opposite piston groove is made with an annular bore associated with the inner cylindrical surface of the housing, while the mentioned surfaces are mated parallel to each other, the diameter of the annular bore of the housing is equal to the outer diameter of the sealing element located in the piston groove, and the depth of the latter is determined from the conditions for creating the necessary preliminary compression of the sealing element.

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