SU1721309A1 - Submersible electrohydraulic pump - Google Patents

Abstract

The invention relates to a pumping facility, a. specifically to the designs of explosive type pumps for pumping various slurries. The aim of the invention is to increase the productivity of a compact submersible pump by reducing the cross-section of the pump in the horizontal plane. The pump disks 7, 8 have the shape of hemispheres of rotation ellipsoids with a long axis of symmetry located vertically; The discs 7, 8 have holes 10, which are mated with hollow guides 6 on the running fit; Disc springs 17, 18 vary in stiffness. The pump is immersed in the pumped liquid so that its level is not lower than the discharge pipe. The fluid through the suction inlets 2 fills the pump around the working chamber 9 and fills the channels 15, 14, the chamber 16 and the discharge pipe 4 above the check valve 5 to the level of the pumped liquid. Through the channels 12, a mixture of fuel and air, such as gas and air, is fed under pressure into the working chamber 9 at concentrations at which the gas explodes. When the pressure in the chamber 9 is about 0.7-0.9 MPa, the supply of the combustible mixture is stopped and the ignition of the combustible mixture is ignited using a spark plug 11 and an electric cable. The combustion of the combustible mixture in the form of an explosion occurs, with the result that the pressure in chamber 16 rises sharply. Under the action of high pressure, the resilient convex discs open, and the fluid is displaced into the discharge pipe. Thereafter, the pressure in the chamber 9 is supplied, the disks 7, 8 are slammed, and a new portion of the liquid enters the chamber 9. 1 il. Ё VJ y so about yu

Description

The invention relates to pumping engineering and can be used for lifting liquids and slurries from various containers, for example, from wells, wells, tanks.

A hydraulic pump is known, comprising a housing with spiral outlets, an outlet branch pipe with a check valve, a central inlet branch pipe and an axisymmetric working chamber located in it, which is equipped with a spark plug and is made isolated from the Spiral outlet in the form of two closed elastic convex discs, and B the bodies are made up of channels with check valves installed in them for supplying the components of the combustible mixture to the working chamber. The disadvantage is a large cross section in the horizontal plane.

Also known is a hydraulic pump that supports the housing, an outlet with a brotherly valve, a central outlet and located in the housing of the working chamber, made in the form of two closed discs, equipped with a spark plug and a channel for supplying a combustible mixture and a gas outlet channel having a valve, and in the housing through grooves are made, one of the disks is connected to the ends of the fingers installed in the grooves, and is made in the form of a paraboloid of rotation, and the disk mounted for axial movement is provided with coaxial m with it a hollow truncated cone with a rounded base facing towards the outlet nozzle and protruding fingers formed over the surface and of a tight housing coupled to the housing.

The disadvantage is the fact that the explosive power is used to move one upper disk, hence the pump performance is relatively small.

The aim of the invention is to increase the productivity of a compact submersible pump by reducing the cross-section of the pump in the horizontal plane.

The goal is achieved by the fact that in a submersible electro-hydraulic pump containing a hollow body with suction inlets and a discharge pipe with a check valve installed in it, placed in the housing on the guides with the formation of the working chamber are spring-loaded convex disks located in the working chamber of the spark plug channel supplying the combustible mixture and power supply wire, the disks are made in the form of rotation ellipsoids, the short axes of which are parallel to the axes of the guides, the latter are hollow, the channel The supply of combustible mixture and power supply wire are placed in them, and the disc springs have different stiffness.

The drawing shows a schematic diagram of the pump.

The submersible pump contains a hollow body 1 with a suction 2 and a discharge 3 holes and a discharge 4 branch pipe with a check valve 5 installed in it. In the housing 1 on the hollow guide 6 with springs there are elastic convex discs 7 and 8 which are closed and form a working chamber 9 There are holes 10 on the disks, mating with the hollow guides 6. In the working chamber 9 there is an ignition plug 11, a channel 12 for supplying components of the combustible mixture and a power supply wire 13, Case 1 has channels 14 and 15 connecting the injection chamber 16 with pressure lnym pipe 4. The springs 17 and 18 of the respective disks 7 and 8 have different stiffness.

The pump works as follows. The pump is immersed in the pumped

liquid so that its level was not lower than the discharge pipe. The fluid through the suction holes 2 fills the pump around the working chamber 9, fills the channels 15,14, the chamber 16 and the discharge nozzle

4 above the check valve 5 to the level of the pumped liquid. Through the channels 12, a mixture of fuel and air, such as gas and air, is fed under pressure into the working chamber 9 at concentrations at which the gas explodes. When the pressure in the chamber 9 is approximately 0.7-0.9 MPa, the supply of the combustible mixture is stopped and the ignition of the combustible mixture is ignited using a spark plug 11 and an electric cable. There is a combustion of the combustible mixture in the form

explosion, resulting in a sharp increase in pressure in chamber 9. Under the action of high pressure, the resilient bulging discs open. The disk 7 from the side of the suction holes 2 has a spring 18 with a smaller

stiffness than the spring 17 from the side of the second disk 8 opposite the discharge chamber. Therefore, the spring 18 to the left of chamber 9 will first be compressed and the disk 7 with its outer surface will block the suction openings 2. Then, with a slight delay (due to rigidity), the spring 17 will compress to the right of chamber 9 and the disc 8 will move along the hollow guides 6. The pumped liquid channels 14 and

15 from the injection chamber 16 is moved to the discharge nozzle 4 and further along the injection pipeline. After the displacement of fluid and gases in the pipe 4 and then the pressure in the injection chamber

the check valve 5 is closed, the convex discs 8 and 7 are closed by the action of the springs 17 and 18. The new portion of the pumped liquid through the suction holes 2 fills the cavity around

working chamber 9. channels 15 and 14 and discharge chamber 16. Then the cycle is repeated.

Claims (1)

Claims of the invention A submersible electrohydraulic fluid containing a hollow body with suction inlets and a discharge pipe with a check valve installed in it, placed in the housing on the guides to form a working chamber spring-loaded convex discs located in the working chamber of the spark plug supply channel for combustible mixture and a power supply cable characterized in that in order to improve performance; The discs are made in the form of semi-ellipsoids of rotation, the short axes of which are parallel to the axes of the guides, the latter are made hollow, the combustible mixture supply channel and the power supply wire are placed in them, and the disc springs have different stiffness.