SU1583652A1 - Submersible electrically driven pump for oil production - Google Patents

Abstract

The invention can be used to lift formation fluid from wells. The invention allows to increase the durability of the pump and reduce its radial dimensions. The pump includes a housing 1, in the upper part of which the valve assembly 4 is located. In the middle part of the pump, elastic diaphragms 3 are installed in the circumferentially working chambers 3. The cavities of the working chambers 18 communicate with the valve assembly 4, in which the suction 7 and the discharge 5 are installed. valves. Valve assembly 4 is made removable and has annular grooves 16 on the outer surface, each of which is associated with one of the working chambers and with the suction and discharge valves, the number of grooves being equal to the number of working chambers. The internal cavities 2 of the diaphragms 3 are connected with the working cavities of the cylinder block 12 with spring-loaded pistons 13 driven by the shaft 8 with an inclined washer. 3 il.

Description

The arms, elastic diaphragms 3 are installed. The cavities of the working chambers 18 communicate with the valve assembly 4, in which the suction 7 and the pressure 5 valves are installed. The valve assembly 4 is removable and has annular grooves 16 on the outer surface, each of which is connected to one

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from the working chambers and with the suction and discharge valves, and the number of grooves is equal to the number of working chambers. The internal cavities of the diaphragms 3 are connected with the working cavities of the block of 12 cylinders with spring-loaded pistons 13 driven by the shaft 8 with an inclined washer 3 or

This invention relates to a technique for extracting liquid and gaseous fluids from a borehole.

Figure 1 shows a submersible electrically driven pump for oil production, longitudinal section; FIG. 2-2 — view A on FIG. 03 — section BB on

The purpose of the invention is to increase durability and reduce the radial dimension of the pump

The pump consists of a housing 1 in which the working chambers 2 are located around the circumference, elastic diaphragms 3 of cap shape placed in the working chambers, and a valve assembly 4 connected on one side to the cavities of the working chambers 2, on the other through the discharge valve 5 - with a pressure pipe (internal cavity of tubing) connected to the housing 1 by means of thread 6, and through the suction valve 7 to the annular space. A hydraulic actuator is installed in the lower part of the housing; a piston pump, including a drive shaft 8 with an inclined washer, mounted on bearings 9 and 10, and a supporting support bearing 11, a block of 12 cylinders with plungers 13 and return springs 14, In the bore of the case there is a removable valve assembly 4, in the upper part of which the safety device 1 is located which is used for gripping by the cable technique during its replacement operation. On the outer surface of the valve assembly 4 there are grooves 16, separated by one other with sealing rings 17. Each groove 16 is connected to one of the external cavities of the working chambers p 18 and 7 to the suction and discharge valves 5 When the number of grooves 16 equal to the number of working ka5

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five

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five

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measures 18 and the number of suction 7 and injection 5 valves ,,

The internal cavity of the hydraulic drive is filled with oil, the volume change of which as a result of leaks or temperature fluctuations is provided by the compensator of the electric motor, the casing of which is connected to the pump. The oil enters the internal cavity of the diaphragms through the calibrated holes in the plunger tube. there is a groove 19 of rectangular cross section

The pump works as follows. The submersible electric motor rotates the shaft 8 with an inclined washer. In this case, the plungers 13 reciprocate in the 12-cylinder block. Up they move due to the action of the support bearing 11 on them, and down under the action of the return springs 14. The movement of the plungers down leads to a change in volume oil filling the internal cavity of the working chambers 2, as a result of which elastic diaphragms 3 are compressed, and the reservoir fluid flows from the tube space into the valve assembly 4 and through the suction valve 7 flows of Canada are vertical; lambs into one of the grooves 16 and further into the cavity of the working chamber 180. During the upward movement of the plunger 13, the oil from the cylinder cavity is displaced into the internal cavity of the diaphragm 3, the volume bounded by the diaphragm increases, and the formation fluid from the chamber 18 cuts tight along the valve unit 4 through the discharge valve 5 into the internal cavity of the tubing string column. Similar work cycles are performed in each pump working chamber.

la 4 to replace the suction and discharge valves is carried out by the rope technique, which interacts with the safety device 15, along the internal cavity of the tubing string without lifting the pump to the surface, the valve assembly is ejected by free dropping it into the column and subsequent pressure testing what he sits down into the case bore.

Claims (1)

Invention Formula Electric Submersible Pump for oil production, consisting of a casing with working chambers located around the circumference, elastic diaphragms located in the working chambers, a knot connected to one side of the cavity of the working chambers, Bt / #a five FIG. 2 Compiled by A0Molchanov Editor O. Yurkovetska Tekhred L. Serdyukova Corrector M „Maksimishinets Order 2241 Circulation 496 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 1583652 0 five 0 the other, through the discharge valve, with a pressure pipe, and through the suction valve, with the annular space, and a hydraulic actuator installed in the lower part of the housing, the cavities of which are connected to the int. Elastic cavities of elastic diaphragms characterized in that, in order to increase durability and reduce its radial dimension, the valve assembly is made removable and has annular grooves on the outer surface, each of which is connected to one of the working cavities of the chamber and with suction and discharge valves The number of grooves is equal to the number of working chambers, and the hydraulic drive is made in the form of a cylinder block with spring-loaded pistons driven by shafts with an inclined washer Fig.Z Subscription