SU1548509A1 - Rotary-piston compressor - Google Patents

Abstract

The invention can be used in refrigeration machines. The purpose of the invention is to improve the reliability of the rotary piston compressor in operation. The rotor 6 with pistons (P) 10 is concentrically located in the housing 1. In the rotor 6 on the diameter, the center of which is on its axis of rotation, cylindrical bores 8 are evenly made, in which the working chambers 9 are located. At each U 10, at least two pins 13, 14 are fastened. Pin 14 is mounted to cooperate through the tapered roller 15 with the profiled groove 12 of the guide sleeve 7, pin 13 with the longitudinal groove 11 of the rotor 6. Suction and discharge windows 4, 5 made in the end cap 2 with the possibility of their alternate with Messages with chambers 9. The synchronous movement of the P 10 in the bores 8 ensures a constant static and dynamic balancing of the rotor 6 and, therefore, the minimum level of vibration. 3 il.

Description

The invention relates to mechanical engineering, in particular, to compressor engineering, and can be used to compress various gases or vapors, for example, in refrigerating machines.

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

Figure 1 shows a rotary piston compressor, axial section; in FIG. 2 —JQ is the same, the cross section is cut through the end cover with channels for supplying and discharging the working medium; on fig.Z - unless rmka profiled groove sleeve0

The rotary piston compressor so j5 holds the housing 1, the end caps 2 and 3 with 5 suction and discharge windows located in the housing

I rotor 6 and the cylindrical sleeve 7. g In the rotor 6 on the diameter, the center of which is 2 on the axis of rotation of the rotor

6, cylindrical bores 8 are uniformly formed, in which pistons are placed with the formation of working chambers 9 (O, moreover, grooves 11 are formed in the walls formed by the outer cylindrical surface of the rotor 6 and cylindrical bores 8 8. On the outer cylindrical surface sleeve 7 is formed profiled closed groove 12. Each piston 10 is equipped with pins 13 and 1, and the pin 1 is equipped with a tapered roller 15 and is included in the profiled groove 12 of the sleeve 7. The pin 13 is located in the groove

II rotor 6. Sleeve 7 is fixed fixedly on the cover 3. In the windows 5 of the discharge, discharge valves 16 are installed. Profile of the closed groove

11 on the sleeve 7 is selected based on the number of pistons 10 and ensuring that the center of mass of the moving pistons is permanently located on the axis of rotation of the rotor 6. For the four pistons, the shape of the groove is made to ensure synchronous movement of the opposite rotor 6 in the bores 8 of the rotor 6.

The rotary piston compressor operates as follows.

When the rotor 6 rotates, the pistons 10 also rotate with it. Pin AND re30

35

40

45

50

five

about

five

0

five

0

five

0

placed along the profiled groove 12, which causes the reciprocating movement of the pistons 10 in the cylindrical bores 8 of the rotor 6 and the change in the volume of the working chambers 9. The pin 13 moves in the groove 11 of the rotor 6, which prevents the pistons 10 from rotating around their axes. Rolling the profiled surface of the groove 12 with the tapered roller 15 minimizes the friction of the pin And in the groove 12. During one revolution of the rotor 6, each piston 10 carries out two suction and discharge cycles. The synchronous movement of the pistons 10 in the bores 8 ensures a constant static and dynamic balancing of the rotor, and hence the minimum level of vibration of the entire machine.

Claims (1)

Invention Formula A rotary piston compressor, comprising a housing, end covers with suction and discharge windows and valves located therein, and a rotor concentrically located in the housing with pistons installed in cylindrical working chambers with the possibility of reciprocating motion, characterized by reliability, the compressor is equipped with a guide bushing with a profiled groove, pins and tapered rollers; cylindrical working chambers with axes parallel to the axis of rotation of roto are made in the rotor a, and longitudinal grooves, at least two pins are fixed on each piston, one of which is installed with the ability to interact through a tapered roller with a profiled groove, and on the other, with the longitudinal groove of the rotor, while the pistons are located in the rotor evenly around the circumference and the same distance from the center, and the suction and discharge windows are made in the end cap with the possibility of their alternate communication with the working chambers. j $ Compiled by S. Puzikov Editor A. Shandor Tehred A. Krachchch-k Order 128 Circulation +87 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113935, Moscow, Zh-35, Raushsk nab., T./5 Production and Publishing Combine Patent, Uzhgorod, Gagarin st., 101 FIG. g Fig.Z / Proofreader M.Pojo Subscription