RU186987U1 - DEPTH HYDRAULIC DRIVING PUMP DEVICE WITH GROUND DRIVE - Google Patents

Abstract

The utility model relates to devices for the production of highly viscous oil from boreholes and is intended for the production of highly viscous oil from boreholes, as well as to reduce power consumption. energy in oil production per unit of recoverable mass from the well. The submersible hydraulic drive plunger pump device with a ground drive includes a ground pump unit and a submersible pump unit made in the form of a plunger pump, which is kinematically connected to the hydraulic cylinder, which is connected to the mains and a surface pump unit located on the surface in the form of a distributor controlled by a control unit with the possibility of communication of the above-mentioned cavities of the hydraulic cylinder with the tank and by means of hydraulic Battery - a hydraulic pump controlled by said control unit and hydraulically connected to said tank, wherein the pressure accumulator in the critical mode communicates through a check valve to said tank.

The working cavities of the hydraulic cylinders are connected to the mains for supplying a pulsating flow of the working fluid, providing suction and discharge modes in the working chamber of the plunger pump communicated through check valves (11, 12) with the annular space of the well and the tubing tubing.

Using the utility model allows to increase productivity, simplify the design and adjustment, operating modes, as well as increase reliability and reduce power consumption of the device as a whole.

Description

The utility model relates to devices for the production of highly viscous oil from boreholes and is intended for the production of highly viscous oil from boreholes, as well as to reduce power consumption. energy in oil production per unit of recoverable mass from the well.

A deep hydraulic drive device is known comprising a submersible pump lowered into a borehole on a tubing string (tubing), the working cavities of which are connected to the mains for supplying a pulsating flow of the working fluid, providing suction and discharge modes in the working chamber communicated through the valves with the annulus of the well and tubing, and a pump unit consisting of a tank with a working fluid, a hydraulic unit and a hydraulic power unit (see RU 2439367, publ. 10.01.2008). The disadvantages of the known device are limited technical capabilities due to insufficient high efficiency, design complexity and, as a result, not high reliability.

The technical problem of the utility model is to eliminate these drawbacks and expand the arsenal of means of a deep hydraulic pumping device made with a surface drive of a submersible pump. The technical result is achieved by implementing the utility model for its intended purpose with the possibility of increasing productivity, simplifying the design and adjusting operating modes of operation, as well as increasing the reliability of the device as a whole.

The problem is solved, and the technical result is achieved by the fact that the deep hydraulic drive plunger pump device with a ground drive contains a plunger pump lowered into the well on a tubing string connected to a hydraulic cylinder, the cavities of which are connected by highways with a surface pump block located on the surface, made in in the form of a distributor controlled by a control unit with the possibility of communication of the above-mentioned cavities of the hydraulic cylinder with the tank and by means of the hydraulic accumulator torus - with a hydraulic pump controlled by said control unit and hydraulically connected to said tank, moreover, the hydraulic accumulator in critical pressure mode, to which the non-return valve is set, is communicated through this non-return valve to the said tank.

The indicated features of the utility model are essential and interconnected causally with the formation of a set of essential features sufficient to achieve a technical result related to the expansion of the arsenal of means of a deep hydraulic drive pump device.

The essence of the utility model is illustrated by drawings, where:

in FIG. 1 presents a diagram of the proposed device;

in FIG. 2 - plunger pump with hydraulic pump.

Hydraulic deep plunger pumping device with ground drive includes:

1 - tubing string - tubing, which is a pipeline for pumping fluid from a plunger pump to its destination;

2 - distributor of the working environment;

3 and 4 - supply lines of the working medium to the hydraulic cylinder from the ground pump unit 5 and vice versa, respectively;

5 - ground pumping unit;

6 - hydraulic pump;

7 - accumulator;

8 - tank for the working environment;

9 - electrical control unit for the actuator of the distributor 1 and hydraulic pump 3;

10 - working chambers of the plunger pump;

M ₁ , M ₂ - pressure gauges;

11, 12 - check valves of the plunger pump;

13 - centering protective casing;

14 - plunger pump;

15 - a hydraulic cylinder;

16 - the rod of the plunger pump connected to the rod of the hydraulic cylinder 15;

17 - hinged node connecting the rods 16 and 18;

18 - a rod of a hydraulic cylinder;

19, 20 - working cavity of the hydraulic cylinder;

21, 22 - pipelines;

Functionally, the device can be divided into two parts: a ground-based pump unit 5 and a submersible pump unit in the form of a plunger pump 11 kinematically connected to a hydraulic cylinder 12, which are lowered into the well on a string of tubing 1 (tubing).

To supply a pulsating flow of the pumped liquid to the surface, the working cavities 19 and 20 of the hydraulic cylinder 15 are connected to the mains 3.4, providing reciprocating movement of the rods 16, 18 and the formation of suction and discharge modes in the working chambers 10 of the plunger pump 14, one of which is through the return valve 8 communicates with the annulus of the well, and the other through the check valve 9 with the tubing.

At the same time, the ground-based pump unit 5, which supplies the working medium in the cavity of the hydraulic cylinder 15, contains a tank 8 with the working fluid, a hydraulic pump 6, a hydraulic accumulator 7, a distributor 2, and an electric control unit 9.

The ground-based pump unit 5 is installed at a convenient distance from the well in operation.

The device operates as follows.

Interconnected plunger pump 14 and hydraulic cylinder 15 are lowered into the well, to which, in turn, highways 3, 4 are connected to supply the working medium in its cavity, while the tubing conduit, in communication with the plunger pump 14, provides the pumped fluid to its destination. A hydraulic system containing a tank 8 with a working fluid, a hydraulic pump 6, a hydraulic accumulator 7, a distributor 2 and an electric control unit 5, provides control over the operation of the distributor 2 for the functioning of the hydraulic cylinder 15 of the plunger pump 14 and operates in a closed cycle.

The filling of the cavities 10 of the plunger pump 14 with the pumped liquid is carried out through the valve 12 in the mode of supplying the working medium to the cavity 19 of the hydraulic cylinder 15. The pumped liquid is supplied to the tubing pipe when the working medium is supplied to the cavity 20 of the hydraulic cylinder 15.

To do this, include a hydraulic pump 6, the working medium from the tank 8 through pipelines 21, 22 is supplied to the hydraulic accumulator 7. Next, the distributor 2 is turned on, which ensures the supply of the working medium along the highways 3.4 in the cavity of the hydraulic cylinder 15, namely, along the highway 3 - into the cavity 19, and through another line 4, the working medium from the cavity 20 is directed to the distributor 2 and then to the tank 8, and vice versa: when the working fluid is supplied through the distributor 2 to the cavity 20 of the hydraulic cylinder, the working medium is returned through the highway 4 from the cavity 19 to the tank 8. With this the accumulator 7 in critical pressure mode, to which the check valve 23 is configured, communicates through it with the mentioned tank 8 with the possibility of maintaining the pressure in the hydraulic system at the required level by bleeding the working medium through the valve 23 from the accumulator 7 through the pipe 24 to the tank 8. After that , the above modes of operation of the distributor 2 are repeated.

The plunger pump 14 operates in a known manner, namely, when the rod 18 of the hydraulic cylinder 15 moves upward in the operating medium supply to the cavity 20, the upper cavity 10 of the plunger pump 14 is released by opening the valve 11 and closing the valve 12. At this point, the pumped liquid from the annulus fills the lower cavity 10 of the plunger pump 14 (Fig. 2).

In the mode of supplying the working medium under pressure to the cavity 19 of the hydraulic cylinder 15, the rod 18 moves down (Fig. 2), and with it the rod 16 with a plunger, while valve 12 opens due to the pressure difference in the plunger pump, and valve 11 closes, and the pumped liquid fills the lower cavity 10.

The pumped liquid may be oil or an oil-containing medium, and oil and a similar liquid may be used as the working medium.

The use of a device of this design, in which the device essentially consists of a ground-based pump unit 5 and a submersible pump unit, made in the form of a plunger pump 14, kinematically connected to the hydraulic cylinder 15, which are lowered into the well on the tubing string 1 (tubing), expand technical capabilities by ensuring oil production at great depths exceeding one and a half kilometers, increase the efficiency of the device by reducing energy costs per unit of oil produced (compared to nergozatratami the actuator rocking barbell) reduce metal due to the use of a hydraulic cylinder as a drive plunger pump.

Claims (1)

A deep hydraulic actuated plunger pump device with a ground drive, comprising a ground pump unit and a submersible pump unit made in the form of a plunger pump lowered into a borehole on a tubing string for supplying pumped fluid to a surface kinematically connected to a hydraulic cylinder whose cavities are connected by highways with on the surface by a ground-based pumping unit, made in the form of a distributor, provided with the ability to control by means of a control unit, with the possibility of communication of the above-mentioned cavities of the hydraulic cylinder with a tank containing a working medium, and by means of a hydraulic accumulator - with a hydraulic pump, provided with the ability to control the said control unit and hydraulically connected to the said tank, and the hydraulic accumulator in critical pressure mode, to which the check valve is configured, is communicated through this check valve with the mentioned tank.

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