RU2018036C1 - Rotary compressor - Google Patents

Abstract

FIELD: compressors. SUBSTANCE: compressor has a case with suction and pressure windows which communicate with working fluid feed and bleed channels and a radial channel. The compressor also has a spring-loaded partition made in the form of two members spring-loaded relative to each other and positioned in the case slot. Moreover, the compressor has a rotor mounted on an eccentric shaft for continuous engagement with the partition and to form working chambers in the case. The slot cavity above the partition communicates with the feed channel, and the slot cavity between the plate members communicates with the working medium bleed channel. EFFECT: improved structure. 1 dwg

Description

 The invention relates to rotary compressors and can be used in compressor engineering for microcryogenic and refrigeration machines.

 A known rotary compressor comprising a housing, a rolling rotor, a shaft with an eccentric, a spring and a separation plate installed in the groove of the housing (ed. St. N 901631, class F 04 C 18/356, 1982).

 The disadvantage of this compressor is its low efficiency and fragility due to the large forces arising in the rotor separation plate pair. This is due to the fact that the spring acting on the separation plate presses with the same force under different operating modes of the compressor.

 The closest technical solution is a rotary compressor containing a housing, a rolling rotor, a shaft with an eccentric, a spring and a separation plate installed in the groove of the housing.

 The disadvantage of this rotary compressor is its low efficiency and fragility due to the large forces arising in the separation plate-rotor pair due to the pressure drop and constant spring force at different compressor operating modes.

 The aim of the invention is to increase the efficiency and durability of the compressor by reducing the pressing force of the separation plate to the rotor.

 The goal is achieved by the fact that in a rotary compressor containing a housing, a rolling rotor, a shaft with an eccentric, a spring and a separation plate installed in the groove of the housing, the housing has suction and discharge windows in communication with the channels for supplying and discharging the working medium, the plate is made of two elements with a spring installed between them, and the cavity of the groove above the plate is in communication with the feed channel, and the cavity of the groove between the plate elements is connected to the channel for removing the working medium.

 The drawing shows a compressor, a cross section.

 The rotary compressor comprises a housing 1, a rolling rotor 2 mounted on an eccentric shaft 3, a spring 4, a separation plate made in the form of elements 5 and 6 with a spring 7 located between them, mounted in a groove 8 of the housing 1. The cavity of the groove above the plate 6 is in communication with a supply channel 9, and a groove cavity between the elements 5 and 6 of the plate with a channel 10 of the working medium.

 Rotary compressor operates as follows.

 When the compressor starts, the pressure in the working chambers is the same, the element 5 of the separation plate is pressed against the rotor 2 by the spring 4. The spring force 4 is determined by the position of the plate element 6, pressed by the spring 7. When the eccentric shaft 3 rotates, the rotor 2 rolls along the inner surface of the housing 1, the pressure increases in the working chambers, accordingly, the pressure in the groove cavity increases between the elements 5 and 6 of the separation plate. Under the action of the differential pressure, the element 6 is shifted away from the separation plate 5, unclenches the spring and compresses the spring 4. The displacement of the element 6 in the groove 8 of the housing 1 occurs until the forces of the springs 4 and 7 equalize with the differential pressure acting on the element 6 plates. Since the spring 7 is weakened, the main pressing of the plate to the rotor 2 is carried out by pressure from the cavity in communication with the channel of the outlet 10 of the working medium. When the compressor stops, the pressure in the working chambers is equalized and the plate element 6 under the action of the spring 4 moves to the plate element 5, compressing the spring 7.

 Thus, the spring force in the operating mode of the compressor is reduced and thereby the durability and energy characteristics of the compressor are increased.

Claims (1)

 A ROTARY COMPRESSOR, comprising a housing with suction and discharge windows in communication with the channels for supplying and discharging the working medium, and a radial groove, a spring-loaded separation plate placed in the groove of the housing, and a rotor mounted on an eccentric shaft with the possibility of constant contact with the separation plate and forming the housing of the working chambers, characterized in that, in order to increase the efficiency and durability of the compressor by reducing the force of pressing the plate against the rotor, the plate is made integral in the form of two the elements suppressed between each other, while the groove cavity above the plate is in communication with the supply channel, and the groove cavity between the plate elements is connected to the channel for discharging the working medium.

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