SU947396A1 - Installation for producing liquid from well - Google Patents

Description

The invention relates to the supply of water and can be used in the extraction of groundwater. A device for controlling the operation of a pumping installation is known, comprising a shut-off member, a piston with cavities above the piston and under the piston a rod, an adjustable valve with pipes connecting the cavities above the piston and below the piston. The disadvantages of the known device are the impossibility of simultaneously opening or closing the valve . locking organ. It is also known a device for extracting a well from a well, comprising a pump disposed in the well, a valve with a control cavity, a control valve with a cavity above the valve seat, a slip and pressure pipelines and pipelines connecting the control valve to the tubing string, the pressure pipe and control cavity of the valve C2. However, this device is characterized by an inadequate reliability of installation due to blindness and strong impacts when the pump is stopped. The purpose of the invention is to increase the reliability of the installation by preventing hydraulic shocks when the pump is stopped. To achieve this goal, the installation valve is equipped with a valve for communicating the control cavity of the valve with the cavity above the valve seat and the tubing string. FIG. 1 shows the installation, general view; figure 2 - node T in figure 1. The installation consists of a downhole pump 1 with a submersible electric motor, tubing string 2, pressure gauge 3, water-air cap 4 with valve 5 for air inlet, ring valve .6 with control cavity A, membrane 7 of the plate 8, drain pipe 9, control valve 10 with a cavity 8 containing a piston 11, a spring 12 and an aperture 13. A pipeline 14 controls a valve 10 connected to a column 2 of pump-compressor pipes, and a pipe 15 to a pressure pipe 16. Connecting pipes 17 and 18 to a control valve 10 Kra Mr. 19. Crane 19 has channels

20 and 21 and is connected by pipeline 22 to control chamber A of valve 6. In pressure pipeline 16, water is under pressure, coming from other wells working in conjunction with this and from reservoirs.

The installation works as follows.

Water under pressure flows from the pressure pipe 16 through pipe 15 into the additional cavity B and then through pipe 17 | on channel 20 of crane 19 to control room A.

The membrane 7 is moved to the left, thereby moving the plate 8, which is pressed tightly against the seat. In the initial state, the current of the tubing string 2 from the water level to the ring gate 6 is initially filled with air at atmospheric pressure. Valve 5 is closed. When the pump 1 starts up, the water fills the tubing string 2, thereby displacing the air into the water-air cap 4. After reaching the pressure value at which the force acting on the piston 11 becomes greater than the sum of the elastic force of the spring 12 and the force from the water pressure, on the valve 10 from the side of the discharge pipe 16, the piston 11 moves up and closes the pipeline 15. In this case, the cavity B of the control valve 10 and the control cavity A of the ring valve 6 are disconnected from the pressure pipe 16, and the cavity of the control valve 1 0 communicates with drain pipe 9,

Plate 8 under the action of water pressure from the pump. 1 moves smoothly to the right, squeezing the water from the control cavity L into the drain pipe 9 through pipe 22, channel 20 of tap 19, pipe 17, additional cavity B and opening 13 in control valve 10.

By changing the cross-sectional area of the channel 20 and the hole 13, it is possible to change the time of opening and closing the ring gate 6, depending on the parameters of the pump 1.

Pausing the wheel 1 after the reverse flow of water from the pressure pipe 16 is formed, its pressure behind the valve 6 on the side of the pressure pipe 16 is higher than that before the valve 6, by the amount of pressure loss in the valve. Under the action of the spring 12 and the pressure force of the water, acting on the valve 10, the piston 11 moves downward, since teper has a much lower pressure from the side of the pipeline 14 due to the pump 1 stopping.

The valve .10 closes the opening 13 and opens the pipeline 15. The control valve A of the ring gate valve 6 begins.; Pressurized water flows through the pipelines 15 and 17 through the cavity B, the channel 20 of the valve 19 and the pipe 22. The plate 8 moves to the left and the ring gate b closes.

To regulate the flow of the pump 1, the valve 19 is turned clockwise by 90 degrees and now the water enters the control cavity

0 And the annular valve 6 through pipelines 14 and 18, channels 20 and 21, pipeline 22. The plate moves to the left depending on the degree of filling of the control cavity A. After installing

, the pump 1 needs to be supplied, which is ensured by a decrease in the degree of opening of the ring gate 6, the valve 19 is turned 45 counterclockwise, thus isolating the control cavity A of the ring back of the jack 6. In this case, the plate 8 is affected by pressure from water from the pump 1 side which is balanced by the opposite force from the pressure of the water in the cavity

5 of control A, and the plate 8 is in a certain intermediate position, which determines its flow area and the flow of pump 1.

By setting the valve 19 to its original position, the control cavity A of the contour valve 6 is communicated through channel 20 and conduit 17 with additional cavity A of control valve 10, water from control half A through cavity B and opening 13 enters drain outlet 9 and plate 8 is moved to the extreme right. Thus, the adjustment is carried out. pump supply 1. By filling the control chamber A completely with a turn of the valve 19, it is possible, if necessary, to completely block the tubing string 2 with the pump running 1. The use of the proposed installation improves the efficiency of well production by increasing the reliability of the installed equipment , simplify equipment design and control plant operation.

Claims (2)

1. Modern constructions of pipe-wire reinforcement for oil and gas. M., 1976, p. 358-359. 2. Authors testimony of the USSR: 612009, cl. B 21 B 43/00, 1978 (prototype). ig: 2 -75