RU131536U1 - CABLE EXTENSION OF CABLE LINE OF SUBMERSIBLE ELECTRIC MOTOR - Google Patents

Abstract

1. A cable extension cable of a cable line of a submersible motor, comprising a cable entry coupling housing with a fixed cable, plug ends fixed to the ends of the conductive wires by threaded connections, characterized in that the cable entry coupling housing is made integral, including a threaded sleeve with a movable flange and fixing an element made with the possibility of sealing by thermal molding directly on the extension cable. 2. An extension cord according to claim 1, characterized in that the fixing element is made of a polymeric material with a dielectric strength of at least 40 kV / mm. An extension cord according to claims 1 and 2, characterized in that the fixing element is made of a thermoplastic fluoropolymer or a material based on it. 4. An extension cord according to claims 1 and 2, characterized in that the fixing element is made by thermal molding - injection molding into a mold that defines the geometry of the fixing element of the cable entry coupling with the conducting conductors of the cable located in it. 5. An extension cord according to claim 1, characterized in that the threaded sleeve is fixed to the threaded surface of the fixing element, made in the mold of the injection molding machine with the conductive cores of the cable fixed therein. An extension cord according to claim 1, characterized in that on the side of the plug lugs in the fixing element, protrusions of a cylindrical shape are made, covering the conductive conductors of the cable, the height of which is greater than or equal to the diameter of the insulated conductors of the cable. The extension cord according to claim 1, characterized in that the conductive conductors at a distance of at least 10 diameters of the copper core are released about

Description

Submersible motor cable extension cable extension

The utility model relates to electrical engineering, in particular to end connectors for cables in a liquid medium, and can be used in cable gland designs for hermetically connecting a cable line to submersible motors designed to drive submersible pumps used in the oil industry for oil production.

The cable extension in the cable line is designed to supply electricity from the surface of the earth from complex devices and control stations to a submersible electric motor, which drives the pump for the extraction of formation fluid. The cable extension sleeve must have low electrical losses, small dimensions, good dielectric insulation properties at voltages up to 15 kV, heat resistance to low (up to minus 40 ° С) and high (up to + 250 ° С) temperatures, good resistance to formation fluid.

A cable extension cable of a cable line of a submersible electric motor of a pumping unit for oil production is known from the prior art, comprising a housing with a tapered shank and a cable fixed inside, an airtight block of rigid electrical insulating material with hermetically pressed conductive rods, cable cores are connected to the last soldering, followed by isolation of the joints ( RF application No.2000102419, IPC H01R 13/523, publ. 02.27.2002).

A disadvantage of the known design is the fragility of the cable extension due to its low operational reliability under conditions of increased hydrostatic pressure and temperature, due to the high fragility of the block, which often cracks and chips form during the assembly of the cable extension. In addition, the material of the block has a low resistance to an electric arc, and therefore a conductive layer is formed on the surface of the block.

Also known is a cable extension cable of a cable line of a submersible electric motor (RF patent No. 31875, IPC H01R 13/523, publ. 08.27.2003), comprising a coupling body in which a cable and a terminal block with hermetically mounted conductive rods are located, in The housing of the coupling has a support element with holes made in it, which is at least at one point in contact with the locking element, and the cavity formed by the support element with the housing, block and cable is filled with and electrical material.

A disadvantage of the known design of the cable extension is insufficient sealing of the joints of the conductive cable conductors and lugs, which can lead to a decrease in the reliability of the coupling when it is operated in well conditions with an ambient pressure of up to 25 MPa and a temperature of up to 250 ° C. In addition, the silicone rubber used to seal the joints inside the housing is hygroscopic, which leads to a breakdown in the insulation of conductive conductors. The coefficient of volume expansion of silicone rubber is significant, which leads to increased pressure on the brittle polymer block of the current lead under conditions of elevated temperature in the well, as a result of which the block may collapse.

Closest to the claimed utility model in technical essence is a cable entry coupling of a submersible electric motor (RF patent No. 89780, IPC H02G 15/02, publ. 10.12.2009), comprising a housing fixed to the conductive end of the cable, inside of which there are ends of insulated conductive wires , each conductive wire is freed for a part of the length from the insulating sheath and cable armor, connected to the plug tip, the housing is solid, welded onto a cable with a profiled thread for screwing spruce metal sleeve with a movable flange.

A disadvantage of the known construction is the lack of adhesion (diffusion) of the declared material of the molded polymer sleeve of the coupling (polyethylene, block copolymer, fortron) with both the copper core and the insulator of the copper core, the lead sheath of the insulated core and steel cable armor. This drawback leads to a loss of tightness of the coupling and weakens the dielectric strength of the structure, which together leads to failure of the product. In addition, the solid metal threaded sleeve used in this design, when screwed onto a polymer case, does not provide reliable sealing of this connection, especially at low temperatures, which reduces the reliability and durability of the cable line. A thin-walled solid-cast sleeve may have pores explicit or temporarily hidden, which during operation leads to depressurization of the current lead-in clutch and water penetration into the submersible motor housing. Also a disadvantage of the known design is the axial symmetry of the body and a considerable length (more than 120 mm), because couplings with such geometry are not able to accommodate in the side asymmetric niche of the head of the submersible electric motor, which leads to the destruction of parts of the polymer casing protruding beyond the contour of the head of the submersible electric motor during tripping.

The inventive utility model is aimed at solving the problem of increasing the reliability and durability of a cable extension cable of a cable line of a submersible electric motor when operating under high static pressures and temperatures, as well as chemical aggressiveness.

The task underlying the present utility model is solved in that in the cable extension cable of the cable line of the submersible electric motor, comprising a cable entry coupling housing with a fixed cable, plug ends are fixed at the ends of the conductive wires by threaded connections, the cable entry coupling housing is made integral, including a threaded sleeve with a movable flange and a fixing element made with the possibility of sealing by thermal molding directly on the extension cable body.

In addition, the fixing element is made of a polymeric material with a dielectric strength of at least 40 kV / mm.

In addition, the fixing element is made of a thermoplastic fluoropolymer or a material based on it.

In addition, the fixing element is made by thermal molding - injection molding into a mold, which determines the geometry of the fixing element of the cable entry coupling with the conductive cable cores located in it.

In addition, the threaded sleeve is fixed on the threaded surface of the fixing element, made in the mold of the injection molding machine with the conductive cores of the cable fixed in it.

In addition, on the side of the plug lugs in the fixing element, projections of a cylindrical shape are made, covering the conductive conductors of the cable, the height of which is greater than or equal to the diameter of the insulated conductors of the cable.

In addition, conductive wires at a distance of at least 10 diameters of the copper core are exempted from electrical insulation, an insulated core at a distance of at least 5 diameters of insulation is exempted from the lead sheath (if any), lead sheath is separated from the armor by a distance of at least two diameters of the lead sheath flat cable immersion.

In addition, copper conductive cable conductors protrude beyond the molding protrusions of the fixing element at a distance of at least five diameters of the copper core.

In addition, an annular groove is made on the locking element to accommodate a sealing ring in it, which ensures the tightness of the threaded connection.

In addition, the housing of the cable entry coupling is made in a shape that allows it to be placed in a niche of the head of the submersible motor without protruding beyond the generatrix of the diameter of the head, while the front and tail parts of the locking element are located at an angle of 7-8 ° relative to each other, with the front part made conical and threaded.

In addition, the edges of the leaded shell of the cores are rolled.

In addition, conductive copper conductors at a distance from the cylindrical protrusions of the fixing element to the beginning of insulation of the copper core are wrapped with a high-temperature insulating tape.

The technical result achieved by the implementation of this utility model is to increase the reliability and durability of the cable extension cable of the cable line of a submersible electric motor when operating under high static pressures, temperatures and chemical aggressiveness.

The implementation of the sleeve housing of the cable extension compound, including a threaded sleeve with a movable flange and a fixing element, and the implementation of the locking element with the ability to seal the extension by thermal molding - injection molding into a mold that determines the geometry of the fixing element of the cable entry coupling directly onto the conductive wires and the cable allows you to simplify the installation of the extension cord, to perceive the axial tensile load of the cable wires, sheaths of conductive wires and armor and increase The life of the device.

The execution of the housing of the cable entry coupling in a form that allows it to be placed in the niche of the head of the submersible motor without protruding beyond the generatrix of the diameter of the head and the location of the front and tail parts of the locking element at an angle of 7-8 ° relative to each other, give it an asymmetric geometry, which helps to preserve state of the soft polymer coupling during tripping inside the casing (the size of the string is slightly larger than the diameter of the head of the submersible motor in the presence of nachitelnoy wellbore curvature). At the same time, the threaded sleeve (made of anti-corrosion material) protects the polymer fixing element from contact with the casing during tripping.

The implementation of the fixing element of a polymeric material with a dielectric strength of at least 40 kV / mm from a thermoplastic fluoropolymer or a material based on it allows to exclude the effect of formation fluid on insulated conductive wires, as a result, the consumer properties of the cable extension of the cable entry of the submersible electric motor are significantly improved.

The presence of a conical threaded connection between the locking element and the sleeve with a movable flange provides reliable fixation and allows you to provide the desired departure of the tips relative to the mating surface of the flange.

The execution on the locking element of the annular groove with a sealing ring located in it ensures the tightness of the threaded connection of the cable extension.

These signs are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the specified technical result.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the utility model does not explicitly follow for a specialist in the field of electrical engineering, showed that it is not known, and taking into account the possibility of industrial serial production of a cable extension cable for the cable line of a submersible motor, we can conclude on its compliance with the criteria of patentability.

This useful model is illustrated by a specific example of the proposed cable extension cable line of the submersible motor, which clearly demonstrates the possibility of obtaining the specified technical result. Various modifications and improvements are allowed that do not go beyond the scope of the utility model defined by the attached formula.

The presented embodiment of the utility model is described further on the basis of the presented drawings, where:

- figure 1 shows a diagram of a cable extension line submersible motor;

- figure 2 is the same side view;

- figure 3 presents the location of the extension cord on the head of a submersible motor.

The cable extension of the cable line of the submersible electric motor comprises a cable entry coupling housing made integral and consisting of a fixing element 1, a threaded sleeve 2 with a movable flange 3, plug lugs 4, a sealing ring 5 and a flat cable 6 including cable armor 7, an insulating lead sheath 8, conductors with electrical insulation 9 and conductive conductors 10. The edges of insulated leaded sheaths 8 conductors are rolled, and conductive copper conductors 10 at a distance from the cylindrical protrusions 11 ruyuschego element 1 prior to isolation of high-temperature copper wires wrapped with insulating tape,

The housing of the cable entry coupling is made in a shape that allows it to be placed in the niche of the head of the submersible motor without protruding beyond the generatrix of the diameter of the head, while the front and tail parts of the locking element 1 are located at an angle of 7-8 ° relative to each other, and the front part is conical and threaded.

The locking element 1 is made with the possibility of sealing the cable extension due to the method of thermal molding - injection molding into a mold that defines the geometry of the fixing element of the cable entry sleeve directly onto the cable 6 and the conductive wires 10 located in it. In this case, in the fixing element 1 with the ends of the plug lugs 4 are protrusions 11 of a cylindrical shape, covering conductive cores 10 of cable 6, the height of which is greater than or equal to the diameter of the insulated cores (cores with electrical insulator tion 9) of the cable 6. These protrusions 11 are designed for entry into the respective guide holes of the current lead pads submersible motor. The fixing element 1 is made of a polymeric material with a dielectric strength of at least 40 kV / mm, for example, of a thermoplastic fluoropolymer or a material based on it. An annular groove is made on the fixing element 1 to accommodate a sealing ring 5 in it, which ensures the tightness of the threaded connection.

The threaded sleeve 2 is mounted on the threaded surface of the fixing element 1, made in the mold of the injection molding machine with the conductive cores 10 of the cable 6 fixed in it.

Conducting cores 10 at a distance of at least 10 diameters of the copper core are exempted from electrical insulation, insulated cores 9 at a distance of at least 5 diameters of insulation are exempted from lead sheath 8 (if any), lead sheath 8 to a distance of at least two diameters of lead sheath freed from armor 7 of a flat immersion cable 6. These requirements for cutting the cable with lead wires are due to the fact that the termination of cable 6 in the polymer fixing element 1 does not ensure the tightness of this connection and This should not be large in length. A similar situation is with the lead sheath, since between the lead sheath and the insulation of the core unauthorized presence of water is possible, which affects the dielectric properties of the fixing element. The main sealing should be carried out at the contact of the core insulator and the material of the fixing element, both due to the adhesion of these media, and due to the duration of their contact zone. The copper conductive wires 10 of the cable protrude over the molding protrusions 11 of the fixing element 1 at a distance of at least five diameters of the copper core for the possibility of placing tips on them with the required length and outer diameter.

The proposed design of a cable extension cable line of a submersible electric motor is simple to manufacture, reliable in operation and allows for a long time to reliably operate the cable line under conditions of significant hydrostatic pressure and temperature of the pumped formation fluid.

Claims (12)

1. A cable extension cable of a cable line of a submersible motor, comprising a cable entry coupling housing with a fixed cable, plug ends fixed to the ends of the conductive wires by threaded connections, characterized in that the cable entry coupling housing is made integral, including a threaded sleeve with a movable flange and fixing an element made with the possibility of sealing by thermal molding directly on the extension cable. 2. The extension cord according to claim 1, characterized in that the fixing element is made of a polymeric material with a dielectric strength of at least 40 kV / mm. 3. An extension cord according to claims 1 and 2, characterized in that the fixing element is made of a thermoplastic fluoropolymer or a material based on it. 4. The extension cord according to claims 1 and 2, characterized in that the fixing element is made by thermal molding - injection molding into a mold that defines the geometry of the fixing element of the cable entry coupling with the conducting conductors of the cable located in it. 5. The extension cord according to claim 1, characterized in that the threaded sleeve is fixed to the threaded surface of the fixing element made in the mold of the injection molding machine with the conductive cable cores fixed therein. 6. The extension cord according to claim 1, characterized in that on the side of the plug lugs in the fixing element, protrusions of a cylindrical shape are made, covering the conductive conductors of the cable, the height of which is greater than or equal to the diameter of the insulated conductors of the cable. 7. The extension cord according to claim 1, characterized in that the conductive cores at a distance of at least 10 diameters of the copper core are exempted from electrical insulation, the insulated conductor at a distance of at least 5 diameters of the insulation is exempted from the lead sheath (if any), the lead sheath is at a distance at least two diameters of the lead sheath are exempt from the armor of the flat submersible cable. 8. The extension cord according to claim 1, characterized in that the copper conductive cable conductors protrude beyond the molding protrusions of the fixing element at a distance of at least five diameters of the copper core. 9. The extension cord according to claim 1, characterized in that an annular groove is made on the fixing element to accommodate an o-ring in it, ensuring the tightness of the threaded connection. 10. The extension cord according to claim 1, characterized in that the housing of the cable entry coupling is made in a shape that allows it to be placed in a niche of the head of a submersible motor without protruding beyond the generatrix of the diameter of the head, while the front and tail parts of the locking element are located at an angle of 7 8 ° relative to each other, the front part being conical and threaded. 11. The extension cord according to claim 1, characterized in that the edges of the leaded shell of the cores are rolled. 12. The extension cord according to claim 1, characterized in that the conductive copper conductors at a distance from the cylindrical protrusions of the fixing element to the beginning of the insulation of the copper core are wrapped with a high-temperature insulating tape.

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