SU1629624A1 - Electric hydraulic pump - Google Patents

Abstract

The invention makes it possible to increase the efficiency of an electro-hydraulic pump by more fully utilizing the energy of an electro-hydraulic shock, in particular, the energy of a vacuum front. The inlet 4 and outlet 5 nozzles communicate with the working chamber (K) 2 of the housing 1 by means of the suction 6 and the pressure 7 valves installed in them. The electric discharge device is installed in the parabolic form of the discharge K 3 case 1. The K 2 is made in the form of an annular channel, the inner surface of which is covered with an elastic band 9 of the sawtooth profile. The working body is made in the form of at least two spherical pistons 10 freely mounted in K 2. The K 3 axis is directed tangentially to the K 2 axis. 1 sludge.

Description

The invention relates to a pump engineering industry, relates to electro-hydraulic pumps, and may find application in various sectors of the national economy for pumping various liquids.

The purpose of the invention is to increase the efficiency of the pump by making fuller use of the energy of electro-hydraulic shock, in particular the energy of the rarefaction front.

The drawing shows an electro-hydraulic pump, a section.

The electro-hydraulic pump comprises a housing 1 with a working 2 and parabolic shaped discharge 3 chambers, an inlet 4 and an outlet 5 nozzles in communication with the working chamber 2 through a suction 6 and a discharge 7 valves respectively, an insulated electrode 8 of an electric discharge (not shown) installed in the discharge chamber 3 (the second electrode is the housing 1), and the working body in the discharge chamber 2 (the second electrode is the housing 1), and the working chamber 2 is made in the form of an annular channel, the inner surface of which ryta elastic ribbon 9 sawtooth profile. The working body is made in the form of at least two spherical pistons 10 freely installed in the working chamber 2. The axis of the discharge chamber 3 is directed tangentially to the axis of the working chamber 2.

Electro-hydraulic pump operates as follows.

When a high voltage pulse is applied to the electrode 8 of the discharge chamber, a rapidly expanding vapor-gas plasma bubble arises, creating a spherical shock wave.

The shock wave, reflected from the parabolic walls of the discharge chamber 3, rushes along the working chamber 2, dragging behind itself and pushing in front of itself spherical pistons 10, the movement of which is possible only in one direction, due to the sawtooth profile of the tape coating 9.

The pistons 10, while moving, push the liquid in the working chamber 2 through the discharge valve 7 into the pump outlet 5.

At the next point in time, a reverse front of electro-hydraulic shock occurs in the working chamber 2, directed to the discharge chamber 3 (the zone of greatest rarefaction). In this case, the spherical pistons 10 located above the discharge chamber 3 continue to move along a circular path under the action of a wave of the opposite front, as a result of which the volume of the part of the working chamber 2 adjacent to the discharge chamber 3 free of the piston 10 is sharply reduced, which contributes to intense condensation liquid vapor in the discharge chamber 3. At the same time, due to the vacuum generated in the working chamber 2, the suction valve 6 opens and the pumped liquid fills the working chamber 2 through the inlet pipe 4. the liquid of the working chamber 2 due to the hydrodynamic pressure of the flow opens the discharge valve 7 and part of the liquid rushes through the outlet pipe 5 into the pressure line. After filling the working chamber 2 with liquid through the inevitable gaps between the spherical pistons 10 and the tape 9 and the discharge chamber 3, as a result of pressure equalization, the suction 6 and pressure 7 valves are closed and the pump is ready to repeat the duty cycle.

Claims (1)

Claim An electro-hydraulic pump comprising a housing with a working and parabolic shaped discharge chambers, inlet and outlet nozzles in communication with the working chamber by means of suction and discharge valves respectively installed therein, an electric-discharge device installed in the discharge chamber, and a working body, characterized in that, in order to increase the efficiency of the pump by making fuller use of the energy of electro-hydraulic shock, in particular the energy of the rarefaction front, the working chamber is made in the form of an annular channel la whose inner surface is covered with an elastic ribbon sawtooth profile, while the working member is in the form of at least two freely installed in the working chamber of the spherical pistons, wherein the axis of the discharge chamber is tangential to the axis of the working chamber.