RU26612U1 - SUBMERSIBLE CENTRIFUGAL PUMP - Google Patents

Description

SUBMERSIBLE CENTRIFUGAL PUMP

2b02112030

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The utility model relates to pump engineering, in particular, to submersible pumps for pumping mainly oil and oil products with a high content of paraffin inclusions.

A submersible centrifugal pump is known, comprising a housing, inlet and outlet channels, one impeller, the impeller of which is mounted on the impeller located on the bearings in the housing, a suction grid and cleaning means for the suction grid, made in the form of brushes driven by a segner wheel ( cM.SU 490948, IPC F 04 D 29 / 10.1976).

The cleaning agent for the suction net in this pump has low reliability, since when pumping liquids with a high paraffin content, the brushes will clog and fail. In addition, the cleaning itself requires significant energy costs.

The closest is a submersible centrifugal pump containing a housing, one or more working stages, the impellers of which are mounted on the working shaft located on the bearings in the housing, the inlet channel and the outlet channel coming from the pressure cavity made in the housing behind the working steps, the grid before the inlet channel and the cleanliness of the mesh cleaning, providing the cleaning process by creating water hammer, leading to the dispersion and dissolution of paraffin in oil (see SU 387148, MTF F 04 D 29 / 10.1973).

The creation of hydraulic shocks in this pump leads to a decrease in the reliability of the device as a whole.

To increase the reliability of a submersible centrifugal pump containing a housing, one or more working stages, the impellers of which are mounted on a working shaft located on bearings in the housing, an inlet channel and an outlet channel coming from the pressure cavity, a mesh and a mesh cleaner, a cleaning agent is proposed the grids are made in the form of nozzles facing the grid, having the ability to communicate with the pressure cavity.

In addition, it is proposed to equip the pump with a drive shaft and a magnetic coupling connecting the drive shaft to the working shaft and consisting of two half-couplings with permanent magnets and a dividing wall, with nozzles located on the inside of the grid and communicate with the pressure cavity through working gaps and / or channels in the support of the working shaft located on the side of the magnetic coupling and made in the form of a radial sliding support through flow paths formed between the coupling half mounted on the working shaft and the partition and es axial passage formed in the working shaft by the magnetic coupling. The nozzles can be made on a manifold in common with the axial channel of the working shaft through a sealing assembly.

In FIG. A longitudinal section of a submersible centrifugal pump is presented.

The submersible centrifugal pump comprises a housing 1, one or more working stages 2, the impellers 3 of which are mounted on the working shaft 4, located on the bearings 5 in the housing 1, the inlet channel 6 and the outlet channel 7 coming from the pressure cavity 8, which is made in the housing 1 behind the working steps 2, the mesh 9, located in front of the inlet channel 6 and the cleaning tool for the mesh 9, while the cleaning tool for the mesh 9 is made in the form of nozzles 10 facing the mesh 9, with the possibility of communication with the pressure cavity 8. The submersible centrifugal pump is provided with a drive a shaft 11 and a magnetic coupling 12 connecting the drive shaft 11 to the working shaft 4 and consisting of two half-couplings 13 and a dividing wall 14. Nozzles 10 are located on the inner side of the grid 9 and communicate with the pressure cavity 8 through the working gaps and / or channel (in the drawing not shown) in the support 5 of the working shaft 4, located on the side of the magnetic coupling 12 and made in the form of a radial sliding support, through the flow paths 15 formed between the and the partition wall 14 of the coupling half 13 mounted on the working shaft 4, and through the axial channel 16, in performed in the working shaft 4.

Nozzles 10 can be made on the collector 17, in communication with the axial channel 16 of the working shaft 4 through the sealing assembly 18.

Submersible centrifugal pump operates as follows.

The drive shaft 11 is rotated. Through the magnetic coupling 12, the rotation is transmitted to the working shaft 4, which in turn drives the impellers 3 of the working stages 2. As a result, the liquid passing through the grid 9 enters the inlet channel 6 and is pumped into the pressure cavity 8 and then through the output channel 7 to the pressure pipe 19.

If the grid is clogged with 9 deposits of paraffin-like inclusions, it is cleaned as follows. The pressure pipeline is closed 19. Oil or oil product from the pressure cavity 8 through working gaps and / or channels in the support 5, through the flow paths of the magnetic coupling 12, passes into the axial channel 16 of the working shaft 4 and then through the sealing assembly 18 and the manifold 17 to the nozzles 10. From the nozzles 10, the jets of the pumped product are sent to the grid 9, washing it. Next, the pumped product enters again into the inlet channel 6. Thus, a circulation is formed, leading to an increase in the temperature of the pumped product. Under the influence of hot jets of the pumped product, the grid is cleaned of 9 deposits of paraffin-like inclusions, which completely dissolve in the pumped product.

After cleaning the mesh 9 resumes pumping the product through the pressure pipe 19.

In addition to cleaning the mesh 9, there is a cleaning from deposits of paraffin inclusions in other parts of the pump.

Claims (3)

1. Submersible centrifugal pump containing a housing, one or more working stages, the impellers of which are mounted on the working shaft located on the bearings in the housing, the inlet channel and the output channel coming from the pressure cavity made in the housing behind the working steps, a grid located in front of the inlet channel, and a mesh cleaning means, characterized in that the mesh cleaning means is made in the form of nozzles facing the mesh side, which are able to communicate with the pressure cavity.  2. The submersible centrifugal pump according to claim 1, characterized in that it is equipped with a drive shaft and a magnetic coupling connecting the drive shaft to the working shaft and consisting of two half-couplings with permanent magnetic and dividing baffle, while the nozzles are located on the inside of the grid and have the possibility of communication with the pressure cavity through the working gaps and / or channels in the support of the working shaft located on the side of the magnetic coupling and made in the form of a radial sliding support, through the flow paths formed between the separation a magnetic baffle plate and a coupling half mounted on the working shaft, and through an axial channel made in the working shaft. 3. The submersible centrifugal pump according to claim 1, characterized in that the nozzles are made on a manifold in communication with the axial channel of the working shaft through a sealing assembly.