RU2319268C2 - Cable sleeve for submersible motor - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: sleeve can be used in end connectors for cables submerged into liquid medium. It can be also used in structures for introduction of voltage for submersible electric motors used as drives of centrifugal pumps. Internal space of case of sleeve of cable input is filled with sealing compound with high dielectric strength made on base of elastomer array. Set of plug tips is fixed inside case by means of thermal and aggression-resistant elastomer ring mounted for deformation in ring-shaped grooves at output part of case. Setting bushings are mounted at ends of lead protective sealing envelopes by means of threaded connection. Part of cable amour, having the same length or longer than diameter of cable's envelope, is pressurized by elastomer ring in tail part of case.

EFFECT: improved reliability; prolonged service life; safe cable input.

5 dwg

Description

The invention relates to electrical engineering, in particular to end connectors for cables located in a liquid medium, and can be used in the construction of voltage inputs for submersible electric motors used as centrifugal pump drives.

Known cable entry coupling for a submersible electric motor of a centrifugal pump (see. International translator "Installations of submersible centrifugal pumps for oil production", M., "Oil and gas", 1999, p.410-412 ", containing a housing fixed to the cable, in which the sealing element is installed, made with holes for the output of the cable wires connected to the cable lug, one end surface of the sealing element is pressed against the stop element in the housing, and the second end surface of the sealing element is pressed a pressure washer made with holes through which the cable wires pass in. A ring mounted on a thread in the housing is pressed against the opposite end surface of the pressure washer.

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

The closest technical solution to the essential features is the input cable sleeve for installing a submersible centrifugal pump described in the patent RU 2215351, IPC ⁷ H02G 15/02, published 27.10.2003.

The specified coupling contains a housing that is fixed to the end of the cable with sealing elements, inside the housing are the ends of the insulated cable wires that are placed in the installation sleeve, each conductive core is freed from its insulation for a part of its length and connected to a plug terminal brought through the hole to the shoe plug lugs.

In this design of the cable entry coupling, the tightness of the connection of the cable cores with the plug lugs is better ensured due to the presence of a dielectric mounting sleeve. However, in this design, the necessary tightness and strength of the cable to the coupling body are not achieved.

In addition, in this design there is no possibility of perception of the axial tensile load by cable cores and cable sheaths, which significantly reduces the consumer properties of the cable entry coupling.

In addition, air entering the internal cavity of the housing during installation of the prefabricated coupling structure forms cavities that increase under the influence of elevated temperature during operation of the electric motor, and this leads to the formation and growth of internal defects, leading, in turn, to electrical breakdowns.

These disadvantages reduce the reliability and service life of the cable entry coupling of the submersible motor.

The technical result achieved by the implementation of the invention is to increase the reliability, increase the service life and safety of the cable entry by improving the tightness of the cable connection with the coupling body, providing the possibility of the perception of the axial tensile load of the cable cores and the sheaths of the cable cores and reduce the formation of internal defects.

In addition, the proposed design can significantly improve the consumer properties of the cable entry coupling.

The specified technical result is achieved due to the fact that in the cable entry coupling for the submersible electric motor, comprising a housing fixed to the end of the cable with sealing elements, inside of which the ends of the insulated wires of the conductive cable are located, each conductive wire is freed from its insulation for a part of its length, in the installation sleeve and connected to a plug end mounted on a block of plug tips, according to the invention, the internal cavity of the housing is filled on a sealing compound with high dielectric strength based on an elastomeric matrix, the plug of the terminal lugs is fixed inside the housing using a thermo- and aggressive-resistant elastomeric ring installed with the possibility of deformation within 2.0-25.0% of the free volume in the annular groove made on the inner surface of the output section of the housing, the end parts of the insulating shells of the conductive conductors are pressed against the inner end surface of the block of the terminal lugs, the parts of the insulating cable sheaths freed from a lead sealing sheath on each conductive core are 0.1-10.0 times the diameter of the cable sheath, installation sleeves are placed at the ends of the lead sheaths using a threaded connection, the cable armor section located in the rear of the case, along the length , which is at least a diameter of the cable sheath, is sealed with an elastomeric ring, while in the case, in the location area of the installation sleeves, a hole is made to fill the inner cavity to of the housing with a sealing compound, and channels for removing air from the internal cavity of the housing during filling with the compound are made in the block of plug tips and in the shank of the housing, and an emphasis is made in the inner cavity of the housing in its tail portion to fix the elastomeric ring.

The invention is illustrated by drawings, where

figure 1 shows the coupling of the cable entry (side view);

figure 2 presents a longitudinal section of the coupling (view aa in figure 1);

figure 3 shows a section bb in figure 2 in an embodiment using a flat cable;

figure 4 shows a section bb in figure 2 in an embodiment of the use of a round cable;

figure 5 shows a section bB in figure 2.

The cable entry coupling for the submersible centrifugal pump contains a metal housing 1, mounted on the end of the extension cable 2. The ends of the insulated wires 3 of the cable 2 are located inside the housing 1 and are partly free from insulating shells 4 and from the lead sheath 5. At the ends of the lead sheaths 5 of each wire, with the help of a threaded connection, mounting sleeves 6 are attached, through which parts of wires 3 with insulating shells 4, previously released from lead shells 5 by an amount ulation 0.1-10.0 cable sheath diameter. The end parts of the insulating shells 4 are pressed against the inner end surface of the terminal block 7, which is installed inside the housing 1 and fixed by a thermo and aggressive resistant ring 8. The conductive wires 9 of the cable freed from insulation are connected to the cable ends 10 located on the block 7.

Inside the tail part 11 of the housing 1, a cable part with an armor 12 is placed, which is at least a diameter of the cable sheath, which is sealed with an elastomeric ring 13, resting on a stop 14. In the housing 1, in the area of the bushings 6, an opening 15 is made to fill the inner cavity of the housing 16 a sealing compound based on an elastomeric matrix.

In the block 7 of the plug lugs and in the tail part 11 of the housing there are channels for removing air from the internal cavity of the housing in the process of filling it with a compound.

The manufacture of the cable entry sleeve is as follows. The end of the extension cable 2 is passed through the housing 1. The wires 3 previously freed from the insulation part are placed inside the installation sleeves 6, which are screwed onto the ends of the lead sheaths 5. To remove air bags in the connection area, the installation sleeves 6 are screwed during assembly using sealing adhesive (sealant), previously applied to the threaded connection. Then the ends of the conductive cores 9 are connected to the plug lugs 10, which are installed on the block 7. To eliminate air and improve electrical insulating properties, all wires and their connections are also lubricated with an oil-resistant sealing adhesive.

Next, the housing 1 is moved along the extension cable 2 until the end parts of the insulating shells 4 are pressed against the inner end surface of the terminal block 7. At the same time, a cable portion 12 with adhesive coating armor is placed inside the tail section. After that, the block 7 of the plug lugs is fixed in the housing 1 using a thermo- and aggressive-resistant ring 8, which is placed with the possibility of deformation within 2.0-25.0% of the free volume in the annular groove 18, made on the inner surface of the output section of the housing 1 and in its tail part 11, the cable 2 is sealed with the help of a thermo- and aggressive-resistant ring 13.

Then, the coupling is placed in a filling device (not shown in the drawing) using special snap-in equipment and through the hole 15, the entire internal cavity 16 of the cable entry coupling is filled with a sealing compound based on an elastomeric matrix having a given electric strength.

In the process of filling, air from the internal cavity 16 of the housing 1 exits through openings 17, which simultaneously serve as an indicator of the completion of filling.

This ensures complete tightness of the filling of the internal cavity of the housing of the cable entry coupling for the submersible motor.

Claims (1)

A cable entry coupling for a submersible electric motor, comprising a housing fixed to the conductive end of the cable with sealing elements, inside of which are the ends of the insulated conductive cable wires, each conductive wire is freed for its length from the insulating and lead protective sealing sheaths and cable armor, located in installation sleeve, connected to the plug tip and displayed on the block of the plug lugs, characterized in that the internal cavity to the housing is filled with a sealing compound with high dielectric strength on the basis of an elastomeric matrix, the block of plug tips is fixed inside the housing using a thermo- and aggressive-resistant elastomeric ring, installed with the possibility of deformation within 2.0-25.0% of the free volume in the annular groove made on the inner surface of the outlet section of the housing, the end parts of the insulating shells of the conductive conductors are pressed against the inner end surface of the connector block, hour The insulating cable sheaths freed from the lead sealing sheath on each current-carrying core are 0.1-10.0 times the diameter of the cable sheath, the installation sleeves are placed at the ends of the lead protective sealing sheaths using a threaded connection, part of the cable armor is located in the rear of the case on a length of at least the diameter of the cable sheath, and sealed with an elastomeric ring, while in the case, in the location area of the installation sleeves, a hole is made, designed To fill the inner cavity of the housing a sealing compound, and in the block plug lugs and at the rear portion of the housing has channels for removing the air from the interior of the housing during potting, and the internal cavity of the housing and a tail portion thereof is formed a stop for fixing the elastomeric ring.

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