RU9906U1 - SUBMERSIBLE MULTI-STAGE PUMP - Google Patents

Abstract

A submersible multistage pump, the sections of which contain a pump housing, a shaft, axial, radial end and intermediate bearings and stages — impellers and guide vanes, characterized in that an elastic element or elements, for example, a rubber o-ring, are installed between the bearing housings and the pump housing placed in a groove made in the bearing housing to reduce leakage in the gap between the guide vanes and the pump housing, to compensate for misalignment and damping of rotor vibrations.

Description

SUBMERSIBLE MULTI-STAGE PUMP

The utility model relates to the field of petroleum engineering and is a pump for the extraction of oil, industrial iodine-bromine and thermal waters and water.

Multistage submersible pumps are known, the sections of which contain a housing, shaft, axial, radial end bearings, intermediate bearings, and impeller stages and guiding devices (see, for example, KONNAS brochure, centrifugal submersible pumps in a modular design, type 2ETsNM, 1994).

In the known design of the stage in the pump section to prevent rotation of the guide vanes during rotation of the rotor and fluid flow through the gap between the housing and the guide vanes during assembly, the guide vanes are compressed, but this does not exclude fluid flow. In addition, during operation of the pump, grease is gradually washed out of the gap, which makes it difficult or impossible to disassemble the section during repair. In addition, due to the large number of steps in the section, the assembled package of steps is not aligned with the internal bore of the pump casing.

MKI R04D 13/10 Object-utility model Authors: Ageev Sh.R. Protas E.S.

Multistage submersible pumps are also known, the sections of which contain a housing, a shaft, radial bearings and impeller stages and guide vanes {see, for example, Reda's brochure, 1990). In sections of such a pump for switching the fluid flow on each guide vanes in the aforementioned gap, an annular groove into which, when assembled through a certain number of apparatuses, a sealing element is installed, which also compensates for misalignment between the apparatus and the housing.

The above constructions have drawbacks in that in the first case, the seal occurs only due to the compression of the joints of the guide devices, and in the second, the design of the guide device is complicated due to the need to provide a place for the groove under the ring, which increases the mounting height of the device This increases the complexity of their manufacture, since the grooves are performed on all devices, and the sealing elements are installed on 15-20% of the devices.

This technical solution is aimed at improving the efficiency and reliability of the pump. This is achieved by the fact that an elastic element or elements are installed between the bearing housings and the pump housing, for example, a rubber o-ring placed in a groove made in the bearing housing, which reduces leakage in the gap between the guide devices and the pump housing, to compensate for misalignment of the package steps and boring of the pump casing, and as a result, wear of friction pairs in the section and vibration are reduced, and during the repair, it is easier to remove the package of steps from the casing.

The essence of the utility model is illustrated by the drawing, which shows the proposed design.

In the housing 1, guide vanes 2 and impellers 3 mounted on the shaft 4 are installed. Intermediate bearings 5 are installed through a number of guide vanes 2.

On the outer surface of the intermediate bearing 5 there is a groove 6 for accommodating the sealing elements 7, for example, rubber rings.

When the pump is operating, due to the differential pressure created by the steps, fluid leaks may occur in the gap between the guides and the pump housing. An elastic rubber ring 7 placed in the groove 6 prevents leakage of fluid in this section, thereby significantly reducing the amount of leakage. The pairing of the bearing housing with the pump housing through the elastic element to a certain extent allows you to compensate for the misalignment of the package of stages relative to the bore of the pump housing and to absorb the vibration of the rotor during operation.

Claims (1)

A multi-stage submersible pump, the sections of which contain a pump housing, a shaft, axial, radial end and intermediate bearings and stages — impellers and guide vanes, characterized in that an elastic element or elements, for example, a rubber o-ring, are installed between the bearing housings and the pump housing placed in a groove made in the bearing housing to reduce leakage in the gap between the guide vanes and the pump housing, to compensate for misalignment and damping of rotor vibrations.