RU1789756C - Rotary compressor - Google Patents

Abstract

Usage: in microcryogenic and refrigeration systems. SUMMARY OF THE INVENTION: A rotor is placed in a casing to form an airtight cavity filled with oil. The rotor is mounted in a housing on an eccentric shaft. The radial plate is placed in the groove of the housing with the possibility of constant contact with the rotor and the formation of working chambers. The channels for supplying and discharging the working medium are made in the lower end cover of the housing. An arc groove is made on the outer cylindrical surface of the eccentric from the side of the outlet channel, and a radial gas distribution channel is made in the bottom cover with the possibility of periodic communication with the eccentric groove. An arcuate shutter is placed in the groove of the cam. An additional gas distribution channel is made in the bottom cover. 1 s.p. f-ly, 2 ill. With

Description

The invention relates to rotary compressors and can be used for microcryogenic and refrigeration systems.

A rotary compressor with a rolling rotor is known, comprising a housing, a dividing plate in a housing groove, a rotor mounted on an eccentric shaft, and end caps, in the lower of which there is a suction window and a discharge window with a valve.

The closest technical solution to the invention is a rotary compressor with a rolling rotor, comprising a casing, a casing with upper and lower end caps and a radial groove placed in the casing with the formation of a sealed cavity filled with oil, a rotor mounted in the casing on an eccentric shaft, a separation a plate placed in the groove of the housing with the possibility of constant contact with the rotor

and the formation of the working chambers, and the channels for supplying and discharging the working medium, made in the lower end cap, a valve is installed in the channel for discharging the working medium.

A disadvantage of a rotary compressor is its low reliability and low durability due to the presence of a valve in the discharge channel of the medium.

The aim of the invention is to increase the reliability and durability of the compressor.

This goal is achieved due to the fact that in a rotary compressor containing a casing, a casing with upper and lower end caps and a radial groove placed in the casing with the formation of a sealed cavity filled with oil, a rotor mounted in the casing on an eccentric shaft, a separation plate placed in the groove of the housing with the possibility of constant contact with the rotor and the formation of working chambers, and channels

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the inlet and outlet of the working medium, made in the lower end cover, an arc groove is made on the outer: cylindrical surface of the eccentric, and a radial gas distribution channel is made in the lower end cover with the possibility of periodic communication with the eccentric groove.

Additionally, in order to increase efficiency, the compressor is equipped with an arcuate shutter placed in the groove of the eccentric; at least one additional channel is made in the lower end cover.

Fig. 1 shows a longitudinal section through a rotary compressor with a rolling rotor during an injection process; figure 2 is a section aa of the lower end cap of figure 1.

The rotary compressor with a rolling rotor includes a housing 1, in the groove of which a separation plate 2 is installed. The rotor 3 is mounted on the eccentric of the eccentric shaft 4 and eccentrically placed in the internal bore of the housing 1. The upper end cover 5 and the lower end cover 6 are hermetically fastened . In the lower end cover 6 there is a channel for discharging the working medium 7 and a channel for supplying the working medium 8. The arc groove 9 with the edges of the front 10 and rear 11 is made on its side: the surface of the eccentric of the eccentric shaft 4, and angular rotation of the eccentric shaft connects through the channel of the working medium 7 gas distribution channels 12, 13, 14 with the compression cavity 16. The suction cavity 15 is connected to the channel for supplying the working medium 8. Installing various arcuate shutters 17 in the arc groove 9, you can change it length. The compressor is housed in accordance with the invention 1. A rotary compressor comprising a casing, a housing with upper and lower end caps and a radial groove placed in the casing to form a sealed cavity filled with oil, a rotor mounted in the housing on an eccentric shaft, a separation plate placed in the groove housing with the possibility of constant contact with the rotor and the formation of the working chambers, and channels for supplying and discharging the working medium, made in the lower end cover, characterized in that, in order to increase

c in a sealed enclosure, the cavity of which is partially filled with oil.

A rotary compressor with a rolling rotor operates as follows.

When the eccentric shaft 4 is rotated in the direction of the arrow (Fig. 2), the rotor 3 rolls along the inner surface of the housing 1, and suction and compression cavities 15 are formed 16. The working medium through the feed channel

8 enters the suction cavity 15 and is simultaneously compressed in the compression cavity 16. At this time, the arc groove 9 rotates together with the shaft 4, and the front edge 10 of the arc groove 9 at some point crosses the channel opening to divert the working medium 7. As soon as the edge 10 crosses hole 7, the compression cavity 16 of the compressor will be connected to the volume of the arc groove 9. With a further rotation of the eccentric shaft 4, the edge 10 of the arc groove 9 will intersect the gas distribution channel 12 and the process of displacing the working medium will begin. When the trailing edge 11 of the arc groove 9 crosses the channel opening

discharging the working medium 7, the process of displacing the working medium will end. In the presence of additional gas distribution channels 13 and 14 located at different angles, a groove 9 sequentially connects the compression cavity of the compressor 16 with additional gas distribution channels 13 and 14.

The presence of several gas distribution channels 12, 13 and 14 ensures the most efficient operation of the compressor in different modes. Depending on the operating mode, the necessary channel is connected or the length of the arc pause 9 is changed, using arcuate shutters 17 of different lengths.

reliability of operation and durability of the compressor, an arc groove is made on the outer cylindrical surface of the eccentric from the side of the exhaust channel, and a radial gas distribution channel with the possibility of periodic communication with the eccentric groove in the lower end cover.

2. The compressor according to claim 1, on the basis of the fact that, in order to increase efficiency, it is equipped with an arcuate shutter placed in the groove of the eccentric, while in the lower end cover is made according to

at least one additional gas distribution channel.