RU82278U1 - PISTON COMPRESSOR - Google Patents

Abstract

1. A piston compressor comprising a housing, a cylinder with a rod installed in the housing with the possibility of reciprocating movement, and a piston mounted in the cylinder with the formation of two working chambers and rigidly connected to the guide with the housing, while the cylinder has gas windows, and the housing from the side of both working chambers - suction and discharge openings arranged to be combined with the gas windows of the cylinder, characterized in that the cylinder is mounted with the possibility of rotational movement, in the housing you olneny helical grooves communicated with the suction hole and disposed to communicate with gas windows, wherein the suction hole from both cameras and injection holes are formed in mutually perpendicular planes. ! 2. The compressor according to claim 1, characterized in that a guide groove is made on the outer surface of the cylinder, and stops fixed to the groove are fixed in the housing, the cylinder being connected to the rod by a swivel joint.

Description

The utility model relates to compressor engineering and can be used in compressors with a movable sleeve and a spool valve.

An analogue closest to the claimed utility model is a valveless piston compressor (Utility Model Patent No. 74424, published June 27, 2008, Bull. No. 18).

In Fig.1 shows a compressor, a General view; figure 2 is a view of figure 1; figure 3 - node 1 in figure 1; figure 4 is a view of B in figure 1; figure 5 is a view In figure 1; in Fig.6 is a view of G in Fig.3.

The piston compressor comprises a housing 1, a cylinder 2 with a rod 3 mounted in the housing 1, with the possibility of reciprocating movement, and a piston 4 installed in the cylinder 2 with the formation of two working chambers 5 and 6 and rigidly connected to the guide 7 with the housing 1, this in the cylinder 2 is made of gas windows 8 and 9, and in the housing. 1 on the side of both working chambers 5 and 6 — suction and discharge openings 10 and 11 arranged for communication with gas windows 8 and 9 of the cylinder. The cylinder 2 is installed with the possibility of rotational movement, in the housing 1 there are screw grooves 12 connected with the suction holes 10 and arranged to communicate with the gas windows 8 and 9, while the suction holes 10 on the side of both chambers 5 and 6 and the discharge hole 11 are made in mutually perpendicular planes.

On the outer surface of the cylinder, a guide groove 13 is made, and in the body 1, stops 14 are mounted in the groove 13, while the cylinder 2 is connected to the rod 3 by a swivel joint 15.

In the guide 7 and the piston 4, channels for supplying and removing the cooling medium of the piston 4 are made.

The compressor operates as follows.

The driving force is transmitted through the rod 3 to the cylinder 2, which, due to the presence on its surface of the guide groove 13, interacting with the stop 14, and the swivel connection 15 with the rod 3 performs a rotational-reciprocating movement, in which there is alternate absorption, compression and forcing of gases in the working chambers 5 and 6. In this case, during the suction in each of the chambers 5 and 6, the gas windows 8 and 9 in the cylinder are aligned with the corresponding screw groove 12 in the housing 1, in communication with the corresponding suction hole 10 Nia in the casing 1. After the suction process in each of the working chambers 5 and 6 of gas compression occurs before combination gas windows 8 and 9 with the corresponding discharge hole 11, after which there is injection of a gas consumer.

The location of the suction holes 10 from the side of both chambers 5 and 6 and the injection holes 11 in mutually perpendicular planes gives the most efficient differentiation of the suction and discharge cycles in the compressor.

Claims (2)

1. A piston compressor comprising a housing, a cylinder with a rod installed in the housing with the possibility of reciprocating movement, and a piston mounted in the cylinder with the formation of two working chambers and rigidly connected to the guide with the housing, while the cylinder has gas windows, and the housing from the side of both working chambers - suction and discharge openings arranged to be combined with the gas windows of the cylinder, characterized in that the cylinder is mounted with the possibility of rotational movement, in the housing you olneny helical grooves communicated with the suction hole and disposed to communicate with gas windows, wherein the suction hole from both cameras and injection holes are formed in mutually perpendicular planes. 2. The compressor according to claim 1, characterized in that a guide groove is made on the outer surface of the cylinder, and stops fixed to the groove are fixed in the housing, the cylinder being connected to the rod by a swivel joint.