RU122531U1 - DEVICE FOR HYDRAULIC PROTECTION OF SUBMERSIBLE OIL-FILLED MOTOR - Google Patents

Abstract

A device for hydraulic protection of a submersible oil-filled electric motor, containing housings, a shaft with support bearings, a head, a base, nipples located along the shaft in the axial direction with the formation of chambers, a heel fixed on the shaft, a thrust bearing located in the upper part of the filter-heat exchanger housing, fixed in the base and located in the chamber formed by the nipple, the base and the body, characterized in that the filter-heat exchanger is made in the form of a stepped cylinder with a through axial channel, in the lower cylindrical part of which a cylindrical groove is made with two rows of radial holes, over which the filter element is fixed , while on the shaft in the area of the filter element there is a circulation pump made in the form of a screw, and the auxiliary part of the screw is located in the axial channel of the filter-heat exchanger body in the area of the radial input holes, and the main part of the screw is located in the axial channel connecting the input radial bore holes with a cavity for axial support.

Description

The utility model relates to electrical engineering and can be used in installations of submersible electric pumps for oil production.

A device is known for hydraulic protection of a submersible electric motor (PED), comprising nipples connected by housings, a shaft with radial and thrust bearings, hydraulic chambers with mechanical seals and a heel assembly with a cooler and a filter element (see RF Patents No. 88749, F04D 13/10, published on November 20, 2009, No. 91784, Н02К 5/12, published on February 27, 2010).

The disadvantage of this design is that during operation there is wear of the antifriction layer of the thrust bearing, as well as wear of the radial bearings, as a result of which wear products, due to the directed circulation of oil created by the pump installed in the heel, fall into the area of the filter element and are deposited on him. This leads to clogging of the filter and disruption of oil circulation in the heat exchanger zone, which can lead to overheating of the axial support and its failure.

The technical task of the utility model is to increase the reliability of the device for hydraulic protection of a submersible oil-filled electric motor by creating a filter-heat exchanger design that allows you to remove wear products from the surface of the filter element.

This problem is solved by the device for hydraulic protection of a submersible oil-filled electric motor, comprising housings, a shaft with thrust bearings, a head, a base, nipples located along the shaft in the axial direction with the formation of chambers, a heel mounted on the shaft, a thrust bearing located in the upper part of the housing a heat exchanger filter fixed in the base and placed in a chamber formed by a nipple, a base and a housing, characterized in that the heat exchanger filter is made in the form of a stepped cylinder with a through axial channel, in the lower cylindrical part of which there is a cylindrical groove with two rows of radial holes, over which the filter element is fixed, while on the shaft in the area of the filter element there is a circulation pump made in the form of a screw, moreover, the auxiliary part of the screw is located in the axial channel of the filter-heat exchanger housing in the area of the inlet radial holes, and the main part of the screw in the axial channel connecting the inlet radial holes with the cavity of the axial support.

The essence of the utility model is illustrated by drawings.

Figure 1 presents a longitudinal section of the inventive device for hydraulic protection of a submersible oil-filled electric motor.

Figure 2 presents the element I of figure 1

A device for hydraulic protection of a submersible oil-filled electric motor contains a head 1, upper 2, middle 3 and lower 4 nipples, bodies 5, 6, and 7 and the base 8, connected in series with each other by a thread. The shaft 9 rotates in bearings 10 installed in the nipples 2, 3, 4 and the base 8. The axial load on the shaft 9, through the heel 11 fixed on it, is perceived by a thrust bearing 12 located in the upper part of the filter-heat exchanger housing 13, which is fixed in the base 8 and is placed in turn in a chamber formed by a lower nipple 4, a base 8 and a housing 7. The housing 13 of the filter-heat exchanger is a stepped cylinder with a through axial channel 14, while spiral grooves for oil circulation are made on the upper cylindrical part 15 , in the lower part 16 a cylindrical groove 17 is made with two rows of radial holes 18, over which the filter element 19 is fixed. On the shaft in the area of the filter element 19 is a circulation pump 20 made in the form of a screw, and the auxiliary part 21 of the screw is located in the axial channel of the housing 13 in the zone of the inlet radial holes, and the main part 22 of the screw in the axial channel connecting the inlet radial holes with the cavity of the axial support 23. The diaphragm chamber 24, which serves to compensate for changes in oil pressure in the electric vigatele formed on supports fixed diaphragm 25, and communicates through an opening in the lower cavity of the pin 4 with the axial support and the filter-heat exchanger. The labyrinth chamber 26 formed by the upper 2 and middle 3 nipples, the protective tube 27, the labyrinth tube 28 and the mechanical seal 29 serves to protect the mechanical seal 30 of the diaphragm chamber from direct contact with the formation fluid. To relieve excess oil pressure and remove gases from the motor cavity in the middle nipple, a system of bypass (check) valves 31 is provided.

During the operation of the electric motor, the wear products of the upper and lower thrust bearings and radial bearings as a result of forced circulation of oil by the circulation pump enter the filter element area. However, the auxiliary part of the screw, rotating in the area of the filter element, carries some oil through the radial holes, periodically creating a "countercurrent" on the filter element, preventing wear particles from settling on the filter surface. This constantly ensures the necessary filter cross-section, unobstructed oil circulation and efficient cooling of the axial support of the device.

The implementation in this way of a device for hydraulic protection of a submersible oil-filled electric motor allows to increase the reliability of its operation, increases the service life of the electric motor and the entire pump installation.

Claims (1)

A device for hydraulic protection of a submersible oil-filled electric motor, comprising housings, a shaft with thrust bearings, a head, a base, nipples located axially along the shaft to form chambers, a heel mounted on the shaft, a thrust bearing located in the upper part of the filter-heat exchanger housing fixed at the base and placed in the chamber formed by the nipple, the base and the housing, characterized in that the filter heat exchanger is made in the form of a stepped cylinder with a through axial channel m, in the lower cylindrical part of which there is a cylindrical groove with two rows of radial holes, over which a filter element is fixed, while on the shaft in the area of the filter element there is a circulation pump made in the form of a screw, and the auxiliary part of the screw is located in the axial channel of the filter housing heat exchanger in the area of the inlet radial holes, and the main part of the screw in the axial channel connecting the inlet radial holes with the cavity of the axial support.