RU69584U1 - DRIVE PUMP DRIVE - Google Patents

Abstract

The proposed device for driving a well pump is intended for use in the oil industry. The technical task of the proposed technical solution is to ensure compact design, reliable connection of its elements and the operation of the device.

To solve the technical problem, the well pump drive contains a pneumatic accumulator with a hydraulic cylinder and a gas cavity, a hydraulic tank, an electric motor, leakage compensation and reversal systems. The gas cavity of the pneumatic accumulator is made in the form of a frame of four pipes mounted horizontally in pairs in two rows one above the other. A hydraulic tank with a pump and a reversing system is installed on the pipes. The leakage compensation system is connected to the hydraulic cylinder. The pneumatic accumulator hydraulic cylinder is installed at the end of four pipes, and its piston cavity is connected to the pipes through a transition plate with four holes, each of which is eccentric with respect to the axis of the corresponding pipe. 1 n.p. f-ly.

Description

The utility model is intended for use in oil production technology.

The closest technical solution is a borehole pump drive containing a pneumatic accumulator with a hydraulic cylinder and a gas cavity, a hydraulic tank, an electric motor, leakage and reversal compensation systems (utility model patent No. 61367 publ. February 27, 2007). Its disadvantage is the large dimensions of the structure, the large length of the connecting pipelines , the unreliability of the connection of structural elements.

The technical task of the proposed technical solution is to ensure the compactness of the device, the reliability of the connection of structural elements and the operation of the device.

To solve the technical problem, the downhole pump drive contains a pneumatic accumulator with a hydraulic cylinder and a gas cavity, a hydraulic tank, an electric motor, leakage and reversal compensation systems, while the gas cavity of the pneumatic accumulator is made in the form of a frame of four pipes installed horizontally in pairs in two rows one above the other, while a hydraulic tank with a pump and a reversing system is installed on the pipes, and a leak compensation system is connected to the hydraulic cylinder, and the hydraulic cylinder is pneumohydraulic accumulator The socket is installed at the end of four pipes, and its piston cavity is connected to the pipes through an adapter plate with four holes, each of which is eccentric with respect to the axis of the corresponding pipe. A distinctive feature of the proposed design of the downhole pump drive is that the gas cavity of the pneumatic accumulator is made in the form of a frame of four pipes installed horizontally in pairs in two rows one above the other, while a hydraulic tank with a pump and a reversing system is installed on the pipes, and

the leakage compensation system is connected to the hydraulic cylinder, moreover, the pneumatic accumulator hydraulic cylinder is installed at the end of four pipes, and its piston cavity is connected to the pipes through an adapter plate with four holes, each of which is eccentric with respect to the axis of the corresponding pipe.

The essence of the proposed utility model is illustrated by drawings, in which Fig. 1 shows a general diagram of the drive of a borehole pump, in Fig. 2 a section along A-A of Fig. 1.

The downhole pump drive contains, a rod cylinder 1, a pneumatic accumulator with a hydraulic cylinder 2 and a gas cavity, a hydraulic tank 3, an electric motor 4, leakage compensation and reversal systems 6. The gas cavity of the pneumatic accumulator is made in the form of a frame of four pipes 7, 8, 9, 10 installed horizontally in pairs in two rows one above the other. A hydraulic tank 3 with a pump 11 and a reversing system 6 is installed on the pipes 8.9. A leak compensation system 5 is connected to the hydraulic cylinder 2. The hydraulic cylinder 2 of the pneumatic accumulator is installed at the end of four pipes 7, 8, 9, 10 and aero piston cavity is connected to the pipes 7, 8, 9, 10 through the adapter plate 12 with four holes 13, each of which is eccentric with respect to the axis of the corresponding pipe 7, 8, 9, 10.

The work of the proposed utility model is as follows. When applying power to the electric motor 4, the liquid from the pump 11 through the pressure pipe enters the left rod cavity of the hydraulic cylinder 2, acting on its left piston. The cylinder rod under the action of the total effort on the left and right pistons (compressed air from the pneumatic accumulator from four pipes 7, 8, 9, 10 acts on the right piston) starts to move to the left, displacing the liquid from the right stock cavity. The displaced fluid through the pipeline and the vertical tube of the frame enters the rod cavity of the rod cylinder 1 and acts on its piston. The cylinder rod moves up and through the wellhead and

the plunger of the sucker rod pump lifts the pump rod string. From the left piston cavity of the hydraulic cylinder 2, the liquid is discharged through the reversing system 6 into the hydraulic tank 3. When approaching the upper position, the rod of the rod cylinder 1 switches the upper contactless switch, while the electronic unit switches the directional control valves of the reversing system 6, which leads to a change in the direction of fluid flow.

This embodiment of the downhole pump drive provides a compact device, reducing the length of the connecting elements of the drive pipelines. In addition, losses are reduced, drive efficiency is increased and reliability is increased. The proposed design of the well pump drive is used in the sucker rod pump drive of LLC LUKOIL PERM at the Shemetinskoye field at well No. 218 since February 2007. During operation, the device showed that it ensures reliable operation.

Claims (1)

A downhole pump drive comprising a pneumatic accumulator with a hydraulic cylinder and a gas cavity, a hydraulic tank, an electric motor, leakage and reversal compensation systems, characterized in that the gas cavity of the pneumatic accumulator is made in the form of a frame of four pipes mounted horizontally in pairs in two rows one above the other, while a hydraulic tank with a pump and a reversing system is installed in the pipes, and a leakage compensation system is connected to the hydraulic cylinder, and the pneumatic accumulator hydraulic cylinder is installed at the end of four pipes, while its piston chamber connected to the tubes through the adapter plate with four openings, each of which is arranged eccentrically with respect to the corresponding axis of the tube.