SU1657738A1 - Peristaltic type machine - Google Patents

Abstract

The invention makes it possible to increase the efficiency of a peristaltic type machine when used as a compressor. In case 1, annular conical drive chambers (K) 2 are successively located. Along each K 2 axis, an elastic tubular pump K 3 is installed. On larger 4 and smaller 5 bases 2 electrodes 6 and 7 of electrodistractor 57 О о о 2 х are installed, placed at different diameters, the ratio of which is proportional to the angle of taper of the outer wall 8 of each K 2. Facing 4 with the base facing 4, each subsequent K 3 in the direction from the entrance to the exit is made with a reduced internal volume. The electrodes 6 and 7 are made annular. Each subsequent K 3 m. made with a decreasing cross section in the direction from the inlet to the outlet. The K 3 in the points of interface with the bases 4 and 5 are equipped with profiled annular protrusions 9. In the case 1, the response profile grooves 10 are made. By reducing the volume of the subsequent K 3, the pumped medium is compressed and its pressure is increased. 2 hp ff, 1 ill. 645 (L S o ate VJ VJ from 00

Description

The invention relates to pumping engineering, peristaltic-type machines and can be used in various industries for pumping fluids; mainly gaseous.

The purpose of the invention is to increase the efficiency of the machine when using it as a compressor.

The drawing shows the machine.

The peristaltic type machine comprises a housing 1 with successively arranged annular conical drive chambers 2, along the axis of each of which an elastic tubular pump chamber 3 is installed, and on the larger and smaller bases, respectively 4 and 5, electrodes b and 7 of the electric discharge are installed, placed on different diameters, the ratio of which is proportional to the angle of conicity of the outer wall 8 of each drive chamber 2 facing the exit with a large base 4. Each subsequent elastic pump chamber 3 is directed towards from the inlet and outlet of the hydraulic machine is provided with a reduced internal volume, and the electrodes 6 and 7 are circular. In this case, each subsequent elastic pump chamber 3 can be provided with a decreasing cross section in the direction from the inlet to the outlet. The elastic pump chambers 3 at the interfaces with the bases 4 and 5 of the drive chambers 2 are provided with profiled annular protrusions 9, and in the case 1 there are response profile grooves 10 in which these protrusions 9 are placed. The drive chambers 2 are filled with driving medium.

When a high voltage is applied to the electrodes 6 and 7, a breakdown of the interelectrode gap occurs in the drive medium and its instantaneous evaporation in the annular discharge channel. The shock wave formed from the annular conic line reflected from the wall 8 and the expanding vapor-gas region of increased pressure act on the elastic pump chamber 3, successively compressing it from the inlet to the outlet and expelling the pumped medium in the latter direction. Wherein

Following the electrodes 6 and 7 of the previous chamber 2, the voltage is applied to the electrodes 6 and 7 of the next chamber, and the pumped medium is incidentally pumped further. By reducing the volume of the subsequent pump chamber 3, the pumped medium is compressed and its pressure is increased. This achieves an increase in the efficiency of the machine in the compressor mode.

Claims (3)

1. A machine of peristaltic type, comprising a housing with successively arranged annular conical drive chambers, along the axis of each of which there is an elastic tubular pump chamber, and on the larger and smaller bases there are electrodischarge electrodes placed on different diameters, the ratio of which is proportional to the angle of taper of the outer wall of each drive chamber facing the exit with a large base, in order to increase efficiency of the machine when it is used as a compressor, each subsequent elastic pump chamber in the direction from the inlet to the outlet of the hydraulic machine is made with a reduced internal volume, and the electrodes are annular. 2. The machine according to claim 1, wherein each subsequent elastic pumping chamber is made with a decreasing cross section in the direction from the entrance to the exit. 3. Machine on PP. 1 and 2, characterized in that the elastic pump chambers at the interfaces with the bases of the drive chambers are provided with profiled annular protrusions, and corresponding profile grooves are made in the housing.