SU1442701A1 - Method of cooling rotary compressor with rolling rotor - Google Patents

Abstract

The invention makes it possible to increase the efficiency of operation and the production of a compressor. Coolant is injected into the working chamber from the moment the dead volume communicates with the displacement of the compressor and until the working volume is cut off from the suction line. The injected fluid forms an oil wedge, which destroys the gas from the dead volume, which contributes to an increase in the cooling efficiency of the gas. The amount of gas that has not burst through the oil wedge enters the suction cavity after the rotor has cut off this cavity from the suction port. 1 il.

Description

4 GO

The invention relates to the field of compressor engineering and to be used in rotary compressors with a rolling rotor,

The purpose of the invention is to increase the efficiency and performance of the compressor.

The drawing shows schematically a rotary compressor with a rolling rotor, which implements the proposed cooling method, a transverse section.

The rotary compressor contains a cylinder 1 in which the rotor 2 is mounted eccentrically, the separating plate 3 interacting with it is located in cavity 4 and has throttle holes 5 made in the working end of plate 3, radial hole 6 and axial channel 7. Cavity 4 connected to a source of cooling and lubricating fluid and forms, together with the plate 3, a piston pair. Hole 6 through the groove 8 and the pipe 9 is in communication with a calibrated slot 10, made along the generatrix of the cylinder 1 in the radial direction. Gas is sucked through the window 11, and the discharge through the valve 12. The separator plate 3 divides the compressor cylinder into two working cavities: the suction cavity 13 and the injection cavity 14.

The method is carried out as follows.

As the rotor 2 turns, the gas through the window 11 enters the working cavity 13 of the compressor, is compressed and through

valve 12 is provided to the consumer. At the moment when the gas release cycle through valve 12 ends, the suction cavity 13 communicates with the dead volume of the compressor. At this moment, liquid is injected through the calibrated slit 10 into the working chamber, which continues until the suction port 11 closes the rotor 2 of the gas. The gas, breaking through the dead cavity, sprays the liquid wedge, which contributes to the cooling efficiency of the working gas. the camera. The amount of gas that did not break through the liquid wedge enters the cavity 13 after cutting off the suction port 11 by the rolling rotor 2 of this cavity, which leads to an increase in compressor capacity.

Claims (1)

Invention Formula A method of cooling a rotary compressor with a rolling rotor, in which a cooling fluid is injected into the chamber, characterized in that, in order to increase the operating efficiency and productivity of the compressor, the fluid is injected from the moment the dead volume is communicated to the displacement of the compressor and until the cut off the volume from the suction line, whereby an oil wedge is formed from the injected fluid, which is destroyed by gas from the dead volume. "