SU1078124A1 - Straight-flow piston compressor - Google Patents

Abstract

A piston pinhole compressor, comprising a housing with an end cap, a cylinder installed therein with a valve plate, a piston and a pressure manifold positioned in the cylinder to form a compression cavity, and a discharge manifold located between the cover and the valve plate. the housing is axially movable, and the collector is made in the form of a bellows rigidly fixed on the end cap and valve plate.

Description

This invention relates to compressor rostroic) and concerns 11infirmed crank compressors.

And: the news is a turret compressor, a cased body, a cylinder mounted in it, placed in it with the formation of a nopujeHb compression chamber and a discharge manifold 1.

However, this compressor has a low capacity due to a significant dead volume.

The closest to the invention in terms of its technical essence and the effect achieved is a piston straight compressor room, containing an H.1 case with an end cap, a cylinder installed therein with a valve plate, placed in the cylinder with the formation of a compression cavity, a piston and a discharge manifold located between the cap and klag (with 2 plate).

However, for a known reciprocating rotary compressor, performance is not sufficiently high.

The aim of the invention is to increase productivity.

This goal is achieved by the fact that in a reciprocating piston compressor, comprising a housing with an end cap, a cylinder installed in it with a valve plate, a piston and discharge manifold placed in the cylinder to form a compression cavity, the cylinder is axially displaced in the housing, and the manifold is made in the form of a bellows, rigidly fixed on the end cover n valve plate.

The drawing schematically shows the proposed piston ramotochnym compressor, a longitudinal section.

The device comprises a housing (not yet iHisaH) with an end cap I, a cylinder 2 mounted therein with a valve plate 3, located on the cylinder 2 with the formation of a cavity 4 of a compression piston 5 and a fertile collector located between the cover 1 and the valve plate 3.

o Cylinder 2 is installed in a housing with an end cap 1 with the possibility of axial

movement. The collector is made in the form of a splice 6, rigidly fixed on the toric cover 1 and the valve plate 3. On the fiopntHe 5 there is a suction valve 7, and on the valve plate 3 - the discharge valve 8.

Piston compressor operates as follows.

When the piston 5 moves upwards, the suction valve 7 closes and the gas in the cavity 4 is compressed. As piston 5 moves further, the gas is compressed to the injection pressure, the valve 8 opens and the gas from the cavity 4 begins to flow into the bellows 6. Because of the pressure in the cavity 4 compression above the discharge pressure, which is set in the bellows 6, by the amount of loss of the discharge valve 8, the difference between the pressures in the cavity 4 and the bellows 6 causes the valve plate 3 to move upwards, while the volume of the bellows 6 decreases and It compresses it, and the volume of the cavity 4 increases and the part of the bellows 6 to the valve plate 3 expands.

By the end of the pumping process, the piston

5 approaches the top dead center, the difference between the pressures in the cavity 4 and in the force of Phase 6 decreases, the valve plate 3 under the action of the elastic force of the bellows

6 begins to move downward, and at the moment when the piston 5 is at the top dead center, it interacts with the piston; 5. In this case, the linear dead volume is almost zero.

At the same time, the gas from the bellows 6 is supplied to the consumer. When the piston 5 moves downward, the pressure in the compression chamber 4 decreases and the valve 8 closes. Upon further downward movement of the piston 5, the pressure in the compression cavity 4 continues to decrease, the suction valve 7 opens and a new portion of gas enters the compression cavity 4.

Thus, the application of the invention allows to reduce the linear dead volume and, therefore, increase the productivity of the compressor.

Claims (1)

A PISTON DIRECT COMPRESSOR COMPRESSOR, comprising a housing with an end cap, a cylinder with a valve plate mounted in it, a piston placed in the cylinder with the formation of a compression cavity, and a discharge manifold located between the cover and the valve plate, characterized in that the cylinder is installed in order to increase productivity housing with the possibility of axial movement, and the collector is made in the form of a bellows, rigidly mounted on the end cap and valve plate.