RU43042U1 - ROTARY COMPRESSOR - Google Patents

Abstract

1. Rotary compressor, comprising a housing with a cylindrical cavity with input and output channels, a sleeve located in the specified cavity of the housing with a shaft cantileverly mounted in the housing by means of a bearing, a rotor eccentrically placed in the specified sleeve with radially movable plates and with a shaft cantilevered in the housing by means of a bearing, separated from the specified cavity of the housing by a seal, characterized in that each of these shafts is fixed in the housing by at least two bearings, with it seals said bearings are separated from said cavity korpusa.2. Rotary compressor according to claim 1, characterized in that the thickness of said rotor plates is in the range from 4 to 10 mm. The rotary compressor according to claim 1, characterized in that said seals are located outside the zone of influence of elevated temperatures arising from the compression of gas in the specified cavity of the housing. A rotary compressor according to claim 1, characterized in that the radially movable plates are made of metal. The rotary compressor according to claim 4, characterized in that said plates are made of steel or bronze.

Description

The utility model relates to rotary vane type machines, such as a compressor, a vacuum pump, a hydraulic pump, a hydraulic and air motor, an external combustion engine.

Known rotary compressor, comprising a housing with a cylindrical cavity with input and output channels, a sleeve located in the specified cavity of the housing with a shaft cantileverly mounted in the housing by means of a bearing, a rotor eccentrically placed in the specified sleeve with radially movable plates and with a shaft, cantilevered in the housing by a bearing separated from the specified housing cavity by a seal (see US 4527968, F 04 C 2/348, 1985).

A disadvantage of the known design is low reliability and durability due to the influence of high temperatures on the bearing on which the sleeve shaft is installed, and also the presence of only one bearing for fixing the shaft of the sleeve and rotor leads to distortions and vibrations of the shafts and, accordingly, of the sleeve and rotor, which also reduces the reliability and durability of the known design. In addition, the known design does not allow to achieve in one pressure stage of the order of 7-9 bar due to the small thickness of the rotor plates.

The objective of the patented utility model is to increase the reliability and durability of operation by eliminating the effects of high temperatures that occur during compressor operation on bearings and eliminating distortions and vibrations of the shaft of the sleeve and rotor. In addition, the objective is to achieve a pressure of about 7-9 bar in one step by increasing the thickness of the rotor plates.

This problem is achieved by the fact that in a rotary compressor, comprising a housing with a cylindrical cavity with input and output channels, a sleeve with a shaft located in the specified cavity of the housing, cantileverly mounted in the housing by means of a bearing, a rotor eccentrically placed in the specified sleeve with radially movable plates and

with a shaft cantilevered in the housing by means of a bearing sealed from the housing cavity, each of these shafts is mounted in the housing by at least two bearings, said bearings being sealed from said housing cavity.

And also the fact that the thickness of these rotor plates is in the range from 4 to 10 mm. The most effective thickness value is 6-8 mm.

And also the fact that these seals are located outside the zone of influence of elevated temperatures arising from the compression of gas in the specified cavity of the housing.

And also because radially movable plates are made of metal.

And also the fact that these plates are made of steel or bronze.

Figure 1 shows a longitudinal section of a rotary compressor;

Figure 2 is a cross section of figure 1 along the line aa.

A rotary compressor includes a housing 1 with a cylindrical cavity 2 formed, for example, by a cover (not shown) and a housing, and with an input 3 and output 4 channels. In the specified cavity 2 of the housing 1 there is a sleeve 5 with a shaft 6, cantilevered in the housing 1 by means of at least two bearings 7. In the specified sleeve 5 an eccentric rotor 8 with radially movable plates 9 and a shaft 10, cantilever mounted in the housing 1 by means of at least two bearings 11. These bearings 7 and 11 are separated from the specified cavity 2 of the housing 1 by seals 12 and 13, which are installed, for example, outside the zone of influence of elevated temperatures arising from the compression of gas in the specified cavity of the housing.

The thickness of these plates 9 of the rotor 8 is in the range from 4 to 10 mm, the most effective thickness is 6-8 mm. These plates are made of metal, for example, steel or bronze.

Bearings 7 and 11 can be placed in special cavities 14 and 15 of the housing 1, which are separated from the cylindrical cavity 2 (working area) of the housing 1 by seals 12 and 13. These seals 12 and 13 are located

outside the zone of influence of elevated temperatures that occur during gas compression in the specified cavity 2 of the housing 1. A rotary compressor operates as follows. When the rotor 8 is rotated, the plates 9 are pressed against the inner surface of the sleeve 5 by the ends, and the latter rotates in the same direction as the rotor 8 due to friction forces. Due to the rarefaction between the plates 9, the gas enters the inlet channel 3, then it is compressed and ejected during movement into the outlet channel 4. Since the plates interact with the sleeve rotating in the same direction, their wear on the end surfaces is significantly reduced. The presence of two bearings on each of the shafts 6 and 10 eliminates distortions of these shafts and, thereby, the occurrence of vibrations on the sleeve 5 and rotor 8. removal of these bearings 7 and 11 from the hot working zone of the housing 1, i.e. from its cylindrical cavity 2, provides them with normal operation with the necessary cooling and lubrication. As shown by the compressor on the bench, their temperature is 3-4 times lower than the temperature of the rotor and the sleeve. This is a condition for their reliable and durable operation. In addition, the patented design of the compressor allows you to select the minimum possible thermal and technological gaps between rotating and stationary parts (housing, sleeve and rotor), which reduces gas leakage. The placement of seals outside the hot zone increases the reliability and durability of their work.

Claims (5)

1. Rotary compressor, comprising a housing with a cylindrical cavity with input and output channels, a sleeve located in the specified cavity of the housing with a shaft cantileverly mounted in the housing by means of a bearing, a rotor eccentrically placed in the specified sleeve with radially movable plates and with a shaft cantilevered in the housing by means of a bearing, separated from the specified cavity of the housing by a seal, characterized in that each of these shafts is fixed in the housing by at least two bearings, with it seals said bearings are separated from said body cavity. 2. The rotary compressor according to claim 1, characterized in that the thickness of these rotor plates is in the range from 4 to 10 mm. 3. The rotary compressor according to claim 1, characterized in that said seals are located outside the zone of influence of elevated temperatures arising from the compression of gas in the specified cavity of the housing. 4. The rotary compressor according to claim 1, characterized in that the radially movable plates are made of metal. 5. The rotary compressor according to claim 4, characterized in that said plates are made of steel or bronze.