SU1700280A1 - Submersible diaphragm-type electric pump - Google Patents

Abstract

Invention m. used in the oil and gas industry in the operation of low-yield wells. The purpose of the invention is to expand the scope of application by implementing the possibility of controlling the production. The rotor 2 of the electric motor 1 through a bevel gear 3 through the eccentric 4 and the return spring 5 is connected with the plunger 6 of the pump 7, the plunger 6 is installed in the oil-filled housing 8, sealed from the pumped liquid by an elastic working diaphragm 9 and compensator 10. In the body located in the housing 8 of the regulator is made an L-shaped channel 12, which interconnects the cavities of the oil chamber 3 above and below the plunger 6. In the head 15 connected to the electric motor 1 through the cup 14, a suction and discharge valve are placed s 16.17. The channel is equipped with a choke installed in it. The communication of the cavities of chamber 13 is constant. 5 il. (L from XI oo o 00 o - a

Description

The invention relates to oil production technology, in particular, to submersible diaphragm electric pumps, and can be used in the oil and gas industry in the operation of low-flow wells.

The purpose of the invention is to expand the scope of application by implementing the possibility of performance control.

FIG. 1 schematically shows a submersible diaphragm electric pump, a longitudinal section; in fig. 2 is node I in FIG. one; in fig. 3 - middle part of a submersible diaphragm electropump, longitudinal section; in fig. 4 - regulator housing with interchangeable choke; in fig. 5 - the same, top view.

The submersible diaphragm pump contains an electric motor 1, the rotor 2 of which through a bevel gear 3 via an eccentric 4 and a return spring 5 is connected to the plunger 6 of the pump 7 installed in the oil-filled housing 8 sealed from the pumped liquid by an elastic working diaphragm 9 and compensator 10 located In housing 8, a regulator 11, in the body of which an L-shaped channel 12 is made, which interconnects the cavities (not indicated) of the oil chamber 13 above and below the plunger 6 of the pump 7, as well as the associated ktrodvigatelem 1 through the sleeve 14 with the head 15 placed in it the intake 16 and discharge 17 valves.

The l-shaped channel 12 is additionally provided with a choke 18 installed therein with the possibility of changing, wherein the communication of the cavities of the oil chamber 13 above and below the plunger 6 of the pump 7 is constant.

The throttle 13 is made in the form of a fitting 19 (Fig. 3) supported on an elastic gasket 20 and secured with a nut 21 (Fig. 2,

four).

In the head 15, three current leads 22 (Figs. 1, 3) are connected, connected by an additional plug connector 23 (Fig. 3) with the lead ends of the stator winding (not indicated) of the electric motor 1.

The submersible diaphragm electropump is equipped with a screen 24, which protects the separator 25 and the suction valve 16 from large particles. The nozzle 26 and the coupling 27 serve to mount an electropump at the wellhead (not shown is its connection to the column of pump tubes 28, the bottom of which serves to protect the valve 17 of the injection sand from precipitating sand.

When the submersible diaphragm electropump is installed at the wellhead, the cover 29 is removed from the current leads 22 (FIG. 1) and a cable sleeve (not shown) is connected,

Immersion diaphragm pump operates as follows.

The motor 1 through a bevel gear 3 and the eccentric 4 drives the plunger pump 7.

0 Pulses of suction-injection of oil filling the housing 8 are transmitted to the elastic working diaphragm 9 and then with the pumped liquid to the suction 9 and discharge 10 valves.

5 Pumped out of the well fluid through the grid 24 and the suction 16 valve enters the cavity above the working diaphragm 9 and then through the discharge valve and pipe 26 passes into the pumping column

0 pipes 28.

When pumping fluid from the well in large quantities in the L-shaped channel 12, which connects the cavity above the plunger 6 of the pump 7 with its cavity under the plunger,

5, a threaded plug (not shown) is installed.

The flexible working diaphragm 9 moves under the pressure of the oil in the housing 8 for a full stroke and the submersible diaphragm electropump operates at its full capacity.

If necessary, reduce the performance of a submersible diaphragm pump due to a change in the operating mode

5 wells from the L-shaped channel 12 in the body of the electric regulator 11 a threaded plug is removed and a long throttle 18 is installed in the channel in the form of a choke 19, the diameter of the hole in which corresponds

0 required (reduced) performance of this electric pump.

Thanks to the installation of the nozzle, 19 part of the volume displaced by the plunger 6 of the pump 7 is passed through this nozzle to

5 L-shaped channel 12 from the cavity of the working pressure above the plunger into the cavity under the plunger, filled with oil, which is under the pressure of the submersible pump under the dynamic level of the column

0 fluid in the well.

Bypassing part of the oil volume during the working stroke of the plunger 6 of the pump 7 from the cavity above the plunger reduces the stroke of the elastic working diaphragm 9, which leads to a decrease in the performance of the electric pump.

Thus, by installing throttle devices with different hole diameters in a submersible diaphragm electropump, we can get different performance without changing the geometrical dimensions of its parts and assemblies, thereby eliminating the use of a large number of submersible diaphragm electropumps of various drive modes.

Claims (1)

The invention The submersible diaphragm pump containing an electric motor, the rotor of which through a conical gearbox through an eccentric and a return spring is connected with a pump plunger installed in an oil-filled housing sealed from the pumped fluid by an elastic working diaphragm and 0 five a compensator located in the housing of the regulator, in the body of which a G-shaped channel is made, which communicates between the cavities of the oil chamber above and below the pump plunger, as well as the head connected to the electric motor through the glass with the suction and discharge valves placed in it, characterized in that, in order to expand the scope of application due to the implementation of the capacity control capability, the L-shaped channel is additionally equipped with a throttle that can be changed, with a cavity message The oil chamber above and below the pump plunger is made constant. 12 FIG. 2 22 eleven Fig.Z 21 19 12 IT Fig.C