RU2747185C2 - Pumping unit (options) - Google Patents

Abstract

FIELD: pumping units.

SUBSTANCE: group of inventions relates to pumping units for increasing and maintaining the pressure in the pipeline in the supply systems of liquid media with different viscosities. The pumping unit includes a hermetically sealed electric motor with cable entry and a centrifugal pump. The unit has a housing in the form of a pipe with supports, is connected to the pipeline by means of flanged connections and is equipped with a branch pipe with a cable entry placed in it. The hermetically sealed electric motor and the centrifugal pump are located in separate pump unit housings, made in the form of pipes with supports. The pipes are connected to each other through a branch pipe with a cable entry. The pumping unit is located horizontally, and its supports are made in the same way as the pipeline supports.

EFFECT: inventions are aimed at simplifying the process of installation and disassembly of the pumping unit, reducing the cost and simplifying the maintenance of the pumping unit parts.

4 cl, 3 dwg

Description

The group of inventions relates to pumping units, and in particular to pumping units for increasing the pressure in the pipeline and can be used to increase the pressure and maintain the pressure in systems for supplying liquid media with different viscosities.

Known installation for increasing reservoir pressure developed by JSC "Novomet-Perm" containing a pumping unit with a submersible electric motor installed in a sealed casing (https://glavteh.ru/equipment-novomet-system-appd/). The installation in the casing is installed on a special support frame and is located in the room of the block pumping station (https://glavteh.ru/vodogasovoe- impact-recycling/).

The disadvantage of this technical solution is the need to install a separate building or modular structure to accommodate the pumping unit, while the pumping unit itself is located on a separate support frame, which requires additional construction and installation work.

The closest technical solution adopted for the prototype is patent RU 121319, priority 07/21/2010, "Cluster booster pumping unit for the traffic control system", including a body in the form of a thick-walled pipe, mounted on a frame or pile foundation at an angle and connected to the system a water conduit with a flange connection and wellhead fittings, and a pressure electric centrifugal pump with a submersible electric motor located inside the pipe on centralizers.

The disadvantage of this useful model is the placement of an electric centrifugal pump with a submersible electric motor in a single casing, which, in the event of a breakdown of one of the units or carrying out technical work with one of the units, leads to the need to remove the entire installation as a whole.

Another disadvantage of this invention is the placement of the pumping unit at an angle to the horizon on a foundation or frame, which requires additional construction and installation work and increases the requirements for the installation and maintenance of the pumping unit.

In the above technical solutions, a standard submersible centrifugal pump is used as a pump, which imposes restrictions on the pressure and volume of the pumped liquid medium.

The problem to be solved by the claimed invention is to simplify the process of mounting and dismantling the pumping unit on the pipeline, reducing the cost and simplifying the maintenance of parts of the pumping unit.

The claimed technical result is achieved by placing the pump and the electric motor in a sealed design in different casings of the pumping unit, refusing to use a stationary foundation or support frame, replacing the submersible pump with a centrifugal sectional pump.

The pumping unit includes an electric motor in a sealed design with a cable entry and a centrifugal pump, which are located in the pumping unit casing, made in the form of a pipe with supports and connected to the pipeline by means of flange connections, while the pumping unit is equipped with a branch pipe with a cable entry located in it , an electric motor in a sealed design and a centrifugal pump are placed in separate pumping unit housings made in the form of pipes with supports, which are interconnected through a branch pipe with a cable entry by means of flange connections, while the pumping unit is located horizontally, and its supports are made similar to the pipeline supports. When pumping liquid media that do not affect the pipeline, for example, water, an electric motor in a sealed design can be placed directly in the pipeline pipe, which is connected to a branch pipe with a cable entry by means of a flange connection. With a significant difference in the diameter of the pumping unit casing, in which the centrifugal pump is located, and the pipeline pipes, the connection between them is carried out through an additional compensating branch pipe. To increase the operating parameters of the pumping unit, a centrifugal sectional pump is used.

Installation of the pumping unit can be carried out both during the construction (reconstruction) of the pipeline, and by placing the pumping unit in an already operating pipeline.

FIG. 1 schematically shows a pumping unit. FIG. 2 schematically shows a pumping unit with an electric motor in a sealed design placed in a pipeline pipe. FIG. 3 schematically shows a variant of connecting the pumping unit casing to the pipeline through an additional compensating branch pipe.

The device is installed as follows. The sealed electric motor 1 is located in the pumping unit casing 2, made in the form of a pipe with supports 12 and is fixed with centralizers 3. Through the flange connection 4, a branch pipe 5 with a cable entry is connected to the pumping unit casing 2, which on the other side is through the flange connection 6 connected to the casing 7 of the pumping unit, made in the form of a pipe with supports 12, which houses a centrifugal sectional pump 8. Through flange connections 9 and 10, the assembled pumping unit is connected to the pipeline 11. The supports 12 of the pumping unit are made similar to the supports of the pipeline 11.

The device is completely sealed and works as follows. The pumped liquid, following along the pipe of pipeline 11, enters the housing 2 of the pumping unit and, passing along the electric motor 1 in a sealed design, then through the branch pipe 5 with a cable entry, the liquid enters the housing 7 of the pumping unit, in which, due to the operation of the centrifugal pump 8, the liquid undergoes an increase in pressure. The pumped liquid through the ejection of the centrifugal pump 8 is directed into the pipeline 11, increasing the pressure in the pipeline to the required one.

When pumping a liquid medium that does not affect the surface of the pipeline, for example, water, the electric motor 1 in a sealed design can be placed in the pipe of the pipeline 11 and connected to the branch pipe 5 with a cable entry by a flange connection 4 (Fig. 2).

With a significant difference in the diameters of the casing of the pumping unit 7, in which the centrifugal pump 8 is located, from the discharge side it can be connected to the pipeline 11 through an additional compensating branch pipe 14 by means of flange connections 9 and 13 (Fig. 3).

The pumped liquid is used to cool the motor and pump bearings.

Maintenance of the pumping unit in normal mode is carried out during standard work on the pipeline and does not require additional shutdown of the pipeline.

The pumping unit is controlled and monitored by a standard control station. Protection is carried out by a telemetry system and, if necessary, additional sensors.

Application of the proposed invention will reduce the cost of pipeline maintenance, including installation, dismantling and maintenance of pumping units for increasing pressure, as well as using modes inaccessible to known technical solutions for pumping liquid media.

Claims (4)

1. A pumping unit, which includes an electric motor in a sealed design with a cable gland and a centrifugal pump, having a body in the form of a pipe with supports and connected to the pipeline by means of flange connections, characterized in that the installation is equipped with a branch pipe with a cable gland located in it, the electric motor in hermetically sealed design and the centrifugal pump are located in separate pumping unit housings made in the form of pipes with supports, which are interconnected through a branch pipe with a cable entry, while the pumping unit is located horizontally, and its supports are made similar to pipeline supports. 2. A pumping unit, which includes an electric motor in a sealed design with a cable entry and a centrifugal pump, having a body in the form of a pipe with supports and connected to the pipeline by means of flange connections, characterized in that the unit is equipped with a branch pipe with a cable entry located in it, and the electric motor in a sealed design, it is located inside the pipeline pipe, which is connected through a branch pipe with a cable entry by means of flange connections to the pumping unit casing that contains a centrifugal pump, while the pumping unit supports are made similar to the pipeline supports. 3. Pumping unit according to claim 1 or 2, characterized in that the body of the unit, in which the centrifugal pump is located, is connected from the side of its discharge to the pipeline through an additional compensating branch pipe. 4. Pumping unit according to claim 1 or 2, characterized in that the centrifugal pump is sectional.

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