RU205411U1 - PUMP UNIT - Google Patents

Abstract

The utility model relates to pumping units, specifically to pumping units for increasing pressure and pumping liquid in a pipeline, and can be used in the oil, oil-producing, petrochemical, chemical, and heat-and-power industries. The pumping unit is equipped with an additional casing on which a cable gland is located, while the casing with a submersible electric motor is connected to the centrifugal pump section through an additional casing with a cable gland by means of a flange connection.

Description

The utility model relates to pumping units, specifically to pumping units for increasing pressure and pumping liquid in a pipeline, and can be used in the oil, oil-producing, petrochemical, chemical, and heat-and-power industries.

Known cluster booster installation, which includes a body in the form of a thick-walled pipe, mounted on a frame or pile base at an angle and connected to the water conduit system with a flange connection and wellhead fittings and placed inside the pipe on centralizers pressure electric centrifugal pump with a submersible electric motor (RU 121319 publ. 20.10 .2012).

The disadvantage of this cluster booster installation is the use of a single housing for placing an electric centrifugal pump and a submersible electric motor, which, in the event of a breakdown of one of the units, leads to the need to dismantle the entire installation as a whole. In addition, the tilted housing makes repair and maintenance difficult.

The closest to the claimed is a pumping unit containing a casing in the form of a pipe, in which a semi-submersible electric motor is installed, a cable gland located on the side surface of the casing, in which the electric motor casing is connected to a section of a centrifugal pump by means of a flange connection (RU 196510 publ. 03.03.2020) ...

The disadvantage of this pumping unit is the location of the cable gland on the side surface of the submersible motor housing, which complicates the assembly process of the pumping unit. The cable passing through the cable gland located in the side surface of the submersible electric motor housing must be connected to the electric motor itself, and due to the large cable cross-section and the strength features of the cable insulation, bending the cable to remove it from the housing at a short distance from the motor mount leads to difficulties and an increase in the time for installation work of the pumping unit.

The technical problem to be solved by the declared utility model is to simplify the installation of the pumping unit at the site of operation, and to increase its maintainability.

The technical result is achieved due to the fact that in a pumping installation containing a casing in the form of a pipe, in which a submersible electric motor with a cable gland is installed, connected to the centrifugal pump section by means of a flange connection, while according to the utility model, the pumping unit is equipped with an additional casing on which cable entry, while the housing with a submersible electric motor is connected to the centrifugal pump section through an additional housing with a cable entry by means of a flange connection.

The use of an additional housing, in which the cable gland is located, makes it possible to simplify the installation technology of the pumping unit at the site of operation, in which, unlike the prototype, where the cable outlet through the cable gland is carried out by maneuvering the electric motor in the pumping unit case, which is a laborious operation due to the weight and size parameters of the electric motor, according to the utility model, the installation is carried out in the following way, in which the electric motor with the cable fixed to it is installed in the pumping unit casing, after which the other end of the cable is led out through the cable gland placed in the additional casing by moving the latter towards the casing with the electric motor until they are completely coaxial connections. This technology makes it possible to reduce the time spent on installation work, increase the maintainability and serviceability of the pumping unit, which is an essential feature when installing in the field.

To increase the pressure characteristics, the pumping unit can contain several sections of the centrifugal pump, connected to each other by means of a flange connection, which provides additional convenience in transportation and installation and dismantling of the pumping unit.

FIG. 1 shows the proposed pumping unit:

1. Housing

2. Submersible motor

3. Section of the centrifugal pump

4. Additional building

5. Cable entry

6. Cable

7. Reducing pipe

8. Reduction pipe

9. Pipeline

10. Working steps.

The pumping unit contains a casing 1 in the form of a pipe, a submersible electric motor 2 installed in a casing 1. By means of flange connections to the casing 1, an additional casing 4 with a cable entry 5 located in it is connected. casing 1, where it is connected to a submersible electric motor 2. By means of flange connections, an additional casing 4 with a cable entry 5 is connected to a single- and multi-section centrifugal pump 3. Each section of the centrifugal pump 3 is equipped with working stages 10. With a difference in the diameters of the pumping unit casing and the pipeline 9, the pumping unit can be equipped with transition pipes 7 and 8, where on one side the transition pipe 7 is fixed between the inlet section of the pipeline 9 and the housing 1, and on the other side the transition pipe 8 between the section of the centrifugal pump 3 and the outlet section of the pipeline 9 by means of flange connections.

The pumping unit works as follows.

The pumping unit is assembled at the site of operation, where it is installed in the existing pipeline.

The pumped liquid through the pipeline 9 through the transition pipe 7 enters the housing 1, where, passing along the submersible electric motor 2 and further through the additional housing 4 with cable entry 5, the liquid enters the centrifugal pump section 3, where, under the action of centrifugal force, interacting with the working stages 10 is subjected to an increase in pressure, after which the pumped liquid under the required pressure is directed into the pipeline 9 through the transition pipe 8.

Claims (2)

1. A pumping unit containing a casing in the form of a pipe, in which a submersible electric motor with a cable gland is installed, connected to a centrifugal pump by means of a flange connection, characterized in that the pumping unit is equipped with an additional casing on which a cable gland is located, while a casing with a submersible electric motor connected to the centrifugal pump section through an additional housing with cable entry by means of a flange connection. 2. Pumping unit according to claim 1, characterized in that the centrifugal pump is multi-sectional.

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