SU1585554A1 - Rotary compressor - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to rotary compressors. In order to increase reliability, the rotary compressor is equipped with synchronizing elements 13,14. On the end covers 2.3 of the housing 1 there are cylindrical projections 9, 10. On the side walls of the rotor 7, profiled slots 11, 12 are made, located mutually perpendicular, their axes coincide with the axes of the elliptical rotor 7, and the side surfaces are parallel and mated with each other along arcs. The lateral surfaces of the elements 13,14 are parallel and mated to each other in arcs corresponding to the grooves 11,12. The element 13 is located on the protrusion 10 and moves in the groove 11, the element 14 is located on the protrusion 9 and moves in the groove 12. The inlet channels 4 and release 5 are located on opposite sides of the major axis of the rotor 7 at the time of perpendicularity of the major axis of the rotor 7 and the vertical axis of the housing 1. 1 z.p. f-ly, 2 ill.

Description

The invention relates to mechanical engineering, in particular to rotary compressors.

The purpose of the invention is to increase the reliability of the rotary compressor.

FIG. 1 shows a compressor, a cross-section; in fig. 2, section A-A in FIG. one.

. The rotary compressor contains a cylindrical case 1 with end covers 2.3 and 2.3 inlet channels 4 and release 5 of the working medium, an eccentric drive shaft 6. On the shaft 6 is installed with an ellipse rotor 7 with a central opening and sealing in the case 1 of working chambers 8 elements at the vertices. Two cylindrical protrusions 9, 10 are made on the end covers 2.3. The protrusion 9 is located on the cover 2 coaxially with the housing 1, the protrusion 10 is located on the cover 3 eccentric to the axis of the housing 1. On the side walls of the rotor 7, the shaped grooves 11, 12 are made. The grooves 11, 12 are mutually perpendicular. The axis of the groove 11 coincides with the large, the axis of the groove 12 with the small axis of the rotor 7. The side surfaces of the grooves 11,12 are parallel and mated with each other along arcs. On the protrusions 9, 10, the synchronizing elements 13, 14 are movable in the grooves 11, 12. Elements 13, 14 are made with parallel side surfaces mated to each other in arcs corresponding to grooves 11, 12 of rotor 7. Channels of inlet 4 and release 5 are located on opposite sides of the main axis of the rotor 7 at the moment of perpendicularity of the main axis of the rotor 7 and vertical the axis of the housing 1. In channel 5 release placed a check valve 15.

The compressor operates as follows.

When the drive shaft 6 rotates, the rotor 7 rotates in the housing 1. The synchronizing element 13 moves in the groove 11, and the element 14 moves in the groove 12 of the rotor 7. The working medium enters the working chamber from the inlet channel 4, is compressed and injected through the valve 15 into the channel 5 release.

Claims (2)

1. A rotor compressor containing a cylindrical body with end caps and inlet and outlet channels for the working medium, an eccentric drive shaft, on which, with the formation of an ellipse rotor with a central hole and sealing elements in the tops, in the working chamber case, in the working medium outlet channel a check valve is provided, characterized in that, in order to increase reliability, the compressor is provided with synchronizing elements; two cylindrical protrusions are made on the inside of the end caps one of which is located coaxially, and the other is eccentric to the axis of the body; shaped grooves are made on the side walls of the rotor, the side surfaces of which are parallel and adjacent to each other in arcs, the grooves in the rotor are mutually perpendicular, and their axes coincide with the axes The rotor, the synchronizing elements, are made with parallel lateral surfaces, conjugated between themselves in arcs corresponding to the rotor slots, and are placed on the projections with the possibility of movement in the slots. 2. Compressor pop. 1, characterized by the fact that. The inlet and outlet channels of the working medium are located on opposite sides of the major axis of the rotor at the time of perpendicularity of the major axis of the rotor and the vertical axis of the body. // /five P C 1