SU819395A1 - Piston compressor - Google Patents

Description

(54) PISTON COMPRESSOR

one

This invention relates to a compressor industry and concerns reciprocating compressors.

A piston compressor is known, which contains a cylinder with a liquid cavity and a suction valve, is placed in a cylinder to form a camshaft rotating piston with a rod, having internal strips and forming a hydrostatic bearing with the side surface of the cylinder, powered by channels connected to the source of liquid, and discharge valve 1 . The disadvantage of this reciprocating compressor is that it has insufficient efficiency.

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

The goal is achieved. . the fact that the piston cavity is made closed and ribs are installed on its side wall, a hole is made in the piston bottom with a non-return valve located in it, which connects the compression chamber with the piston cavity, and the axial channel is in the rod, and the discharge valve is installed in the latter. The hole in the bottom is located tangentially to the side

the wall of the cavity, and the channels connected to the source of fluid, are made in the wall of the piston. In this case, the compressor further comprises a pipeline connected to the liquid cavity and to KEiMepe compression, respectively, via a check valve and a spray device.

The drawing shows a longitudinal

o cut piston compressor.

The compressor contains a cylinder 1 with a liquid cavity 2 and a suction valve 3 placed in the cylinder 1 to form a compression chamber 4 rotating piston 5 with rod 5, having an internal cavity 7 and forming a hydrostatic bearing with cylinder 1 side, fed by channels 8,. connected to the source of fluid 9, and the discharge valve 10 ..

At the same time, the cavity 7 of the piston 5 is made closed and the ribs 11 are mounted on its side wall, an opening 12 is made in the bottom of the piston 5

5 with a revolving valve 13 located therein, communicating the compression chamber 4 with the cavity 7 of the piston 5, and in the piston rod b of the piston 5 an axial channel 14, and the discharge valve 10 is installed in,

but

last one. The hole 12 in the bottom of the piston 5 is located tangentially to the juice wall of the cavity 7, and the channels 8 connected to the source of liquid 9 are made in the wall of the piston 5. In addition, the proposed compressor further comprises a pipeline .15 connected to the liquid cavity 2 and to the chamber 4 compressions, respectively, through a check valve 1b and a spray device 17.

When the piston compressor operates. When the piston 5 moves downward, the suction valve 3 opens and the gas enters the compression chamber 4. The gas pressure under the piston 5 rises, the check valve n 16 opens and the fluid from the liquid cavity 2 through the pipeline 15 through the spray device 17 is fed into the compression chamber 4. When the piston 5 moves upwards, the suction valve 3 closes and the gas is compressed in the compression chamber 4. The presence of a significant amount of dispersed liquid in a compressible gas improves the cooling of the latter and brings the process closer to isothermal. During further piston stroke 5, the check valve 13 opens and the gas flows into the inner cavity 7 of the piston 5. Due to the rotation of the piston 5, particles of dispersed liquid, hitting the fins 11, are partly related to the lateral surface and the inner cavity 7, and partially deposited on the ribs 11,. from where then, due to the inclination of the latter, flows down to the side surface of the internal cavity 7. Under the action of the fluid sieve from the side surface of the internal cavity 7 of the piston 5 flows into the source of Liquid 9, from which under the action of the center Beam forces and gas pressure forces through channels 8 to hydrostatic bearing, centering piston 5. Compressed gas from cavity 7 through supercharger valve 1, and axial channel 14 is supplied to the consumer. Thus, this constructive implementation of the compressor improves the cooling process of the compressible , gas to bring the process of compression to isothermal and thereby increase the efficiency of the compressor as a whole.

Claims (3)

1. Reciprocating compressor containing a cylinder with a liquid cavity and a suction valve, placed in the cylinder to form a compression shaft rotating piston with a rod, having an internal cavity and forming a hydrostatic bearing with the side surface of the cylinder, fed by channels connected to the source of liquid , and an injection valve. The valve, in order to increase efficiency, the piston cavity: is made closed and, on its side wall, there are ribs, in the piston bottom there is a rotary hole with nnym therein and a check valve, to reporting the compression chamber with the cavity of the piston, and a rod - axial passage, and a pressure valve installed in the latter. 2. A compressor according to claim 1, characterized in that the hole in the bottom is located tangentially to the side wall of the cavity, and the channels connected to the source of liquid are made in the wall of the piston. 3. A compressor according to claim 1, characterized in that it further comprises a pipeline connected to the liquid cavity and to the compression chamber, respectively, via a check valve and a spray DEVICE. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2650112 / 25-06, cl. F 04 B 39/00, 1978. t ////// У //////// Have /// //// U ////// // U /. at / 15