SU1370301A1 - Piston borehole pump reciprocating action drive - Google Patents

Abstract

The invention allows to increase the speed of the drive. The ejector 10 is installed between the discharge and working chambers 2 and 4, the annular cavity 11 of the ejector being in communication with the annular space 12. The housing 15 is in communication with the annular space, in which a packer 17 is installed below the end of the pipe 16. evaporates to form a rapidly expanding vapor cavity with high internal pressure. As a result of this, an intensive suction of the working fluid from the cavity 11 occurs, which sharply increases the flow of the working fluid entering the chamber 4. At the same time, the flow and movement velocities of the separator increase. 1 hp f-ly, 1 ill.

Description

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The invention relates to pump construction, in particular, to reciprocating drives of reciprocating borehole pumps and can be used in various industries of the national economy when lifting fluids from wells.

The purpose of the invention is to increase the speed of the drive.

The drawing shows the pump with the proposed drive.

The actuator includes a housing 1, a discharge chamber 2 in which electrodes 3 are placed, and a working chamber 4c with a movable separator 5 connected to a pressure pipe 6 with its upper part in which suction and discharge valves 7 and 8 are installed, respectively, and a pumping cavity is formed 9. The pump drive is equipped with an ejector 10 installed between bit 2 and 4 working chambers. The annular cavity 11 of the dilution of the ejector 10 is in communication with the annular space 12 formed between the pipe 6 and the casing 13, below the level 14 of the working (pumped) fluid in the annular space 12. The housing 1 is enclosed by the casing 15 communicated in the lower part by pipeline 16

with annular space 12, in which a packer 17 is installed below the end of pipeline 16.

A pump with the specified drive is lowered below the level of the pumped liquid in the casing 13 and packs the packer 17. The annulus above the packer 17 is filled with working fluid (water), which in the case of pumping water can also be the pumped liquid. A high-voltage electric pulse is applied to the electrodes 3. An electrical breakdown of the interelectrode gap occurs. The working fluid filling the discharge chamber 2 is evaporated in the discharge zone due to the high temperature of the discharge channel. Forms a rapidly expanding vapor cavity with a high internal pressure, which, acting on the separator 5, sets it in motion. The high-velocity working fluid flows through the ejector 10 and creates a strong vacuum in its constriction. As a result, an intensive suction of the working fluid from the annular cavity 11 of the ejector 10 occurs. The volume of the working fluid in the cavity 11 is replenished due to the inflow of the working fluid into this cavity through the pipe 16 from the tubular space 12 above the packer 1 7,

As a result of the working fluid being sucked from the cavity 11, the flow of this fluid entering the working chamber 4 under the separator 5 increases sharply. This increases the flow rate and the separator 5. Thus, increasing the speed of the pump drive.

The separator 5, acting on the pumped liquid in the pumping cavity 9, forces it to the consumer through the valve 8 and the pipe 6.

After condensation of vapors of the working fluid in chambers 2 and 4, divider 5 under the action of its own weight is lowered, the excess of working fluid is displaced from chambers 2 and 4 through conduit 16 back into the annulus 12. In doing so, the circulation of working fluid in the casing 15 ensures washing of the drive housing 1 and accelerates vapor condensation.

When lowering the separator 5, the volume of the pumping cavity 9 increases and a new portion of the pumped liquid is sucked in through the valve 7. The pump is being prepared for a new duty cycle.

Claims (2)

1. A reciprocating borehole pump reciprocating drive comprising a housing with a discharge chamber containing electrodes and a working chamber with a movable separator connected to a pressure pipe, characterized in that the drive is equipped with an ejector installed in order to increase speed between the discharge and working chambers, with the annular cavity of the ejector being in communication with the annulus below the level of the working fluid in it. 2. The actuator according to claim 1, which is also distinguished by the fact that the casing is additionally equipped with a casing enclosing it, communicated in the lower part by means of a pipeline with annular space in which a packer is installed below the end of the pipeline.