RU2781284C1 - Cable extension coupling for submersible electric motor - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering and can be used, in particular, in electrical connections designed to supply electricity to electric motors of submersible pumps for the extraction of reservoir fluid. The cable extension coupling contains a housing with a shank for cable entry, a cable with cores fixed in the housing with a locking element, and a pad with holes for placing the tips and cable cores connecting to them. On the outer surface of the shank, longitudinal cooling ribs are made that do not protrude beyond the dimensions of the housing and have a height gradually decreasing in the direction of cable entry.

EFFECT: invention provides an increase in the reliability of operation and an increase in the service life of the coupling at high temperatures.

2 cl, 2 dwg

Description

The invention relates to electrical engineering and can be used, in particular, in electrical connections designed to supply electricity to the electric motors of submersible pumps for the production of reservoir fluid.

A well-known cable entry coupling for a submersible centrifugal pump motor (see International translator "Settings of submersible centrifugal pumps for oil production", M.: Oil and gas, 1999. S. 410-412), containing a housing fixed to the cable, in which a sealing an element made with holes for the output of cable wires connected to a cable lug. One end surface of the sealing element is pressed against the thrust element in the housing, and the second end surface of the sealing element is pressed against a pressure washer made with holes through which the cable wires pass. A ring mounted on a thread in the housing is pressed against the opposite end surface of the pressure washer.

In the well-known design of the cable entry sleeve, the necessary tightness and protection of the connections from the effects of liquid penetrating into the gap between the conductive core and the wire insulation are not provided. This is due to the fact that the edge of the wire insulation, which extends beyond the coupling body, is not sealed. As a result, corrosion of the conductive cores occurs, which leads to failure of the coupling during operation of the submersible centrifugal pump.

This disadvantage is eliminated in the well-known sleeve of the cable extension cable line of the submersible motor (RU2264681, H02G 15/14, H01R 13/52, publ. and a block in which holes are made for accommodating the lugs and the cable cores connecting them. At least one of the joints of the cable cores and lugs is located in the hole of the block at a distance L≥0.5 d, where d is the diameter of the cable core, from the end surface of the block, located closer to the support element, additionally installed in the coupling body and containing holes for cable conductors. This coupling was chosen by us as a prototype.

The disadvantage of the prototype is a strong overheating of the coupling, which leads to depressurization and low electrical strength, which does not allow the use of the coupling in installations using highly heat-resistant, submersible electric pumps for hermetic connection of power cables to submersible motors operating in oil wells with high temperature formation fluid.

The objective of the present invention is to increase the reliability of operation and increase the service life of the cable extension sleeve at high temperatures.

The specified technical result is achieved by the fact that in the sleeve of the cable extension for submersible electric motors, containing a housing with a shank for cable entry, a cable with cores fixed in the housing with a fixing element, and a block with holes for accommodating lugs and connecting cable cores to them, according to invention, on the outer surface of the shank, longitudinal cooling fins are made that do not protrude beyond the dimensions of the body.

Preferably, the cooling ribs are evenly distributed over the surface of the shank and are made with a height that gradually decreases in the direction of the cable entry.

The presence of ribs on the sleeve shank creates an additional cooling surface, increases the heat removal area and thereby reduces overheating of the cable sleeve due to increased heat transfer.

The essence of the invention is illustrated by drawings, where in Fig. 1 shows a longitudinal section of the cable extension sleeve; in fig. 2 - view of the coupling from the side of the body shank.

The sleeve of the cable extension of the submersible motor contains a housing with a shank 1, in which there is a cable 3 with conductors fixed by means of a fixing electrical insulating element 2, and a block 6, with holes made in it for accommodating lugs 7, connected by means of a threaded connection to the conductors of the cable 3 As a fixing electrical insulating element 2, a sealing compound with high dielectric strength based on epoxy resin having a high coefficient of thermal conductivity is used. A support element 4 and a sealing element 5 are placed between the fixing element 2 and the block 6. The block 6 is fixed with a nut 9 inside the body 1. During storage and transportation, the coupling is closed with a sealed transport cover 8.

The hull 1 has a tail section of a tapering shape, on which longitudinal cooling fins 10 are located, which do not protrude beyond the dimensions of the hull. The ribs are formed by casting the hull. To ensure uniform and intensive cooling, the ribs are evenly distributed over the surface of the shank and are made with a height that gradually decreases in the direction of cable entry. The number of cooling fins, their height and spatial arrangement in relation to the outer surface of the housing are determined from the condition of ensuring the maximum surface area of the heat sink, taking into account the available space.

Thanks to the ribs with a developed surface, made on the outer surface of the shank, there is a more intensive cooling of the coupling by the environment, which makes it possible to increase the reliability of operation and increase the service life of the coupling at high temperatures.

Claims (2)

1. A cable extension sleeve for submersible motors, containing a housing with a shank for cable entry, a cable with cores fixed in the housing with a locking element, and a block with holes for accommodating lugs and connecting cable cores to them, characterized in that on the outer surface The shank has longitudinal cooling ribs that do not protrude beyond the body dimensions and have a height that gradually decreases in the direction of cable entry. 2. Coupling according to claim 1, characterized in that the cooling ribs are evenly distributed over the surface of the shank.

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