RU127534U1 - CABLE COUPLING - Google Patents

Abstract

1. A cable sleeve, comprising a housing with a shank filled with a compound of variable cross-section on the cable entry side and a cylindrical bore on the opposite side, sequentially installed in the cylindrical bore of the housing: a plug insulating block, seals, a support insert and a separating washer, and a nut supported on a plug block external thread mounted on the internal thread of the housing bore, as well as plug lugs mounted in the through guide holes of the plug plate, which on the side facing the sealant has openings for connecting each tip to the conductor of the current-carrying cable core, and on the other hand, cylindrical protrusions, while the seals are made in the form of two washers, one of which is made of fluorosilicon, and the other of dielectric silicone, the support insert and block are made of polyphenylene sulfide, and the separation washer is made of silicone sealant. 2. The coupling according to claim 1, characterized in that the housing is made with a flange having two holes for attachment to a submersible motor connector or to a transport cover. The coupling according to any one of claims 1 and 2, characterized in that the inner cavity of the body shank is filled with a thermosetting compound having a breaking stress in the cured state under static bending, kgf / cm, of at least 450.4. The coupling according to any one of claims 1 and 2, characterized in that each tip is made with a spherical end and with a constant outer diameter along the entire length, and from the side opposite the spherical end, with a blind threaded hole for connection to the conductor

Description

The utility model relates to the field of electrical engineering, in particular, to cable connecting devices, mainly to cable entry couplings of electric motors of submersible pumps.

Known electrical connectors of submersible pumps: RU No. 2215351, 2264681, 2319268, 40116, 60800, 92748, 106994, 108230.

A cable entry coupling for connecting submersible electric motors is known, comprising a housing, an insulating block with three through-hole guide holes ending in sockets, terminal lugs with flanges mounted on current-carrying electrically insulated cable cores and installed in the through holes of the insulating block, as well as elastic sealing rings from heat-resistant oil-resistant material installed between the cylindrical surfaces of the flanges of the terminal lugs and insulator sockets ionic pads, characterized in that the sleeve is further provided with elastic sealing rings of a heat-resistant oil-resistant material, mounted on the side surface of the insulation of the conductors within each block nests in an amount of one or more (RU 108230).

A cable entry coupling for connecting submersible electric motors is known, comprising a housing, a support washer, a seal, a pressure washer, a nut that controls the compression force of the seal, and plug lugs, characterized in that the seal is a set of sealing washers containing washers made of oil-benzo - heat-resistant rubber PC-SIL TU 2512-003-36523570-97 (rubber unvulcanized mixtures) and heat and cold-resistant rubber IRP 1287 TU 38-105646-78 based on recycled rubber (RU 34812).

A cable entry coupling for connecting submersible electric motors is known, comprising a housing, a support washer, a seal, a pressure washer, a nut, a regulating compression force of the seal, and plug terminals, characterized in that the coupling contains an insulating block, plug terminals are mounted in through guide holes of the insulation block, which, on the side facing the sealant, has recesses for connecting the tip and the current-carrying core of the cable, and on the other hand, protrusions in the form of bushings with an outer di ameter and height corresponding to the size of the input sockets in the motor current lead block. The plug lugs are made with stop flanges located in the recesses of the insulation block, while material for sealing the guide holes is placed in the recesses. The insulation block is placed inside the housing with the ability to perform the function of a pressure washer (RU 34813, prototype).

The disadvantages of the known couplings are the weak characteristics of the electric strength and chemical resistance of the parts, reducing the reliability of the electric circuit of the submersible motor, and insufficient durability in conditions of increased environmental aggressiveness. These disadvantages are due to the non-optimal composition and choice of material of sealing, supporting and insulating structural elements. In addition, this coupling does not provide sufficient unification for use with different pumps, since the formula of this utility model indicates the difference in that the protrusions of the block must be individually executed with a height corresponding to, for some unknown reason, the dimensions of the input sockets in the current lead block electric motor. Moreover, it cannot be unambiguously established what in each particular case is the corresponding or inappropriate height and diameter of the protrusions.

The technical task of the utility model group is to create effective cable entry couplings and expand the arsenal of cable entry couplings for a submersible electric motor.

The technical result, which provides a solution to the problem, is to increase reliability by improving the characteristics of electric strength and chemical resistance, and to increase the durability of the service life in conditions of elevated temperature and aggressive environment. This ensures a reliable electrical connection of the conductors with the terminal lugs in the coupling, as well as the improvement of the assembly conditions due to the specific optimal length of the ledges of the block and the optimal configuration of the shaft liner, the improvement of the conditions for transportation and storage of the connection product and the lugs of which are protected by a package of insulating parts and a cover.

The essence of the utility model is that the cable sleeve contains a housing with a compound-filled shank of variable cross-section on the cable entry side and a cylindrical bore on the opposite side, sequentially installed in the cylindrical bore of the housing: a plug insulating block, seals, a support insert and a separating washer, and an supported a nut with an external thread installed on the internal thread of the housing bore, as well as plug-in terminals mounted in through x the guide holes of the plug, which on the side facing the seal has holes for connecting each tip to the conductor of the current-carrying cable core, and on the other hand, cylindrical protrusions, while the seals are made in the form of two washers, one of which is made of fluorosilicone, and the other is made of dielectric silicone, the support insert and block are made of polyphenylene sulfide, and the separation washer is made of silicone sealant.

Preferably, the housing is made with a flange having two holes for fastening to the submersible motor connector or to the transport cover, the inner cavity of the housing shank is filled with a thermosetting compound, which in the cured state has a breaking stress during static bending, kgf / cm2, of at least 450, each tip is made with a spherical end and with a constant outer diameter along the entire length, and from the side opposite the spherical end, with a blind threaded hole for connection to a conductor one of the cable cores, and the plug is provided with a sealing ring covering it.

In this case, the plug block, the seal, the support insert and the separating washer have three through holes for the conductive wires of the cable and terminals, the axes of which are located at the vertices of an equilateral triangle coaxially with the cylindrical protrusions of the block, the length of the protrusion of the block does not exceed 2 tip diameters, and the diameter of the block protrusion does not exceeds 1.5 tip diameters.

In addition, the housing shank is made expanding in cross section passing through the holes of the flange and tapering in a cross section perpendicular to it, and a transport cover is installed on the housing to cover the tips, equipped with a mounting rubber ring.

The drawing of figure 1 shows a longitudinal section of a cable sleeve in a section passing through the holes of the flange, figure 2 is a longitudinal section of a cable sleeve in a section perpendicular to figure 1.

The cable sleeve contains a metal housing 1 with a shank 12 filled with a compound of variable cross section on the input side of the oil immersion cable 11 and a cylindrical bore on the opposite side, sequentially installed in the cylindrical bore of the housing 1: plug insulating block 2, gaskets 3, 4, supporting insert and separating washer 9 , and nut 7 supported on plug 2, (from stainless steel 2X18H10T GOST 5632-88) with an external thread mounted on the internal thread (threaded portion on the edge) of the bore housing CA 1, as well as plug lugs 6 (from DKRNP 8L63 alloy GOST 2060-74 alloy) mounted in the through guide holes of plug 2, which has holes for connecting each lug 6 to the conductor of the current-carrying conductor from the side facing the seal 3, 4 cable 11, and on the other hand, cylindrical protrusions (not indicated). The seals are made in the form of two washers 3, 4, one of which, the washer 3 is made of fluorosilicone, and the other washer 4 is made of dielectric silicone. The support insert 8 and block 2 are made of polyphenylene sulfide (DIC-PPS) grade FZ 1140, and the separating washer 9 is made of heat-resistant silicone sealant.

The housing 1 is made with a flange 13 having two holes for mounting to a submersible motor connector (not shown) or to the transport cover 14.

The inner cavity of the shank 12 of the housing 1 is filled with a thermosetting compound, which in the cured state has a breaking stress under static bending, kgf / cm ² , not less than 450.

Each tip 6 is made with a spherical end and with a constant outer diameter along the entire length, and from the side opposite the spherical end, with a blind threaded hole for connecting one of the cores of cable 11 to the conductor by screwing the conductor into the thread. Each tip 6 has a groove at the spherical end for a screwdriver for rotation when screwing the conductor.

The plug 2 is provided with an o-ring covering it 5. Each core of the cable 11 in the area of the separating washer 9 is coated on the shank 12 with adhesive tape 10, for example, heat-resistant adhesive tape or sticky oil-resistant fluoroplastic tape EOLN (conventionally shown).

The plug block 2, the seal 3, 4, the support insert 8 and the separating washer 9 each have three through holes for the conductive conductors of the cable 11 and lugs 6, the axes of which are located at the vertices of an equilateral triangle coaxially with the cylindrical protrusions of the block 2.

The length of each protrusion of the block 2 does not exceed two diameters of the tip 6, and the diameter of the protrusion of the block 2 does not exceed 1.5 of the diameter of the tip 6.

The shank 12 of the housing 1 is made expanding in section, passing through the holes of the flange 13, and tapering in a section perpendicular to it.

A transport cover 14 is installed on the housing 1, which covers the tips 6, provided with a mounting rubber ring (not shown).

Clutch cable is operated as follows.

During storage and transportation, the coupling is closed by a sealed shipping cover 14, which is fixed on the flange 13 with bolts.

The conductors of the cable 11 through the holes of parts 2, 3, 4, 8 are inserted into the threaded holes of the lugs 6, where they are fixed by screwing the conductor into the thread. This simplifies the assembly technology of the coupling. After that, the washer 9 is formed by pouring silicone sealant. After the curing of the latter, each core of the cable in the area of the separating washer 9 is coated on the shank 12 with adhesive tape 10, for example, heat-resistant adhesive tape or sticky oil-resistant fluoroplastic tape EOLN if it is necessary to adjust its diameter. Then the shank is filled with 12 compound. After that, the nut 7 is the final compression of the sealing washers 3, 4.

To connect the coupling to the electrical connector of the submersible electric motor, the installer must hold the shank 12 on the flattened side (Fig. 2) and apply a force sufficient to introduce the tips 6 into the return holes of the electrical connector of the submersible pump.

The operation of the electric circuit of a submersible motor occurs in conditions of high temperature, high humidity and exposure to a variety of aggressive liquids and gases accompanying various types of oil fields. New deposits may be characterized by a new composition of aggressive environments in which submersible electric motors and their electrical circuits must operate.

The docking area of the electrical connector of the motor and the coupling cannot be fully protected from such influences. Therefore, the conditions of maximum electrical and mechanical strength, chemical resistance and tightness over a wide range of ambient temperature must be ensured in the cable section 11 inside the coupling housing 1 that is not protected by external insulation.

The breakdown and / or occurrence of an electric arc should also be ensured in case of deformation or damage to the insulation of the current-carrying conductors of cable 9.

At the same time, the washer 9 made of silicone sealant has elasticity. sufficient to compensate for the thermal expansion of the compound in the shank 12 of the housing 1 and, thereby, the exclusion of mechanical deformation of the package of parts 2, 8, 3, 4 for this reason.

Organosilicon dielectric silicone and fluorosilicon (i.e., silicone and fluorosilicon material of washers 4.3 sealant) is a modern material with improved properties compared to other types of sealing materials. The silicones used are characterized by complete chemical inertness, high heat and frost resistance, from minus 60 ° С to plus 300 ° С, low residual deformation, which indicates a high degree of elastic recovery of parts of 3.4 sealants). Long service life in aggressive environments containing acid or alkali, high oil and gas resistance, aging resistance, high flexibility, elasticity and durability (up to 35 years). High electrical / dielectric characteristics: bulk resistance 10 * 10 ¹⁴ Ohm * cm, relative permittivity (at 25 °, 50 Hz) 2.7-3.3 (shows how many times the force of interaction of two electric charges in the medium is less than in vacuum), the dielectric strength of silicone is 12-18 kV / mm, fluorosilicon is up to 35 kV / mm. The silicone materials of the 3.4 washers are even resistant to ozone, as well as to phenomena such as the electric corona and arc.

Polyphenylene sulfide (DIC-PPS), from which insert 8 and block 2 are made, is a high-tech material from the category of so-called superstructural thermoplastics. They have a composition based on a polymer matrix, with fiberglass (40-60%), minerals (50-60%). Polyphenylene sulfide is insoluble in any of the known chemical solvents at temperatures up to 200 ° C, has exceptional chemical resistance, including to automotive and aviation fuels and fuels and lubricants, acids, alkalis, and detergents. The low level of water absorption (up to 0.02%) allows the use of polyphenylene sulfide for the manufacture of parts 2, 8 of the coupling for electrical circuits of connectors of submersible electric motors operating in a humid aggressive environment. Polyphenylene sulfide retains chemical stability even at elevated temperatures, for example, in contact with hot air or fuels and lubricants. One of the important properties of polyphenylene sulfide is its high fire resistance. Polyphenylene sulfide is an excellent dielectric. These properties are preserved over the entire range of operating temperatures and at various humidity.

Thus, the above requirements are implemented by the selected optimal elemental composition and materials from which the elements (parts) 2, 3, 4, 8, 9, the compound in the shank 10 are made

As a result of the implementation of the utility model, an increase in reliability is achieved by improving the characteristics of electrical and mechanical strength and chemical resistance, and increasing the durability of the service life in conditions of elevated temperature and aggressive environment. This ensures a reliable mechanical and electrical connection of the conductors with the terminal lugs in the coupling, as well as improving the assembly conditions by optimizing the configuration of the housing shank, improving the conditions of transportation and storage of the product, the lugs of which are protected by a lid.

Claims (9)

1. A cable sleeve, comprising a housing with a shank filled with a compound of variable cross-section on the cable entry side and a cylindrical bore on the opposite side, sequentially installed in the cylindrical bore of the housing: a plug insulating block, seals, a support insert and a separating washer, and a nut supported on a plug block external thread mounted on the internal thread of the housing bore, as well as plug lugs mounted in the through guide holes of the plug plate, which on the side facing the sealant has openings for connecting each tip to the conductor of the current-carrying cable core, and on the other hand there are cylindrical protrusions, while the seals are made in the form of two washers, one of which is made of fluorosilicon, and the other of dielectric silicone, the support insert and the block are made of polyphenylene sulfide, and the separation washer is made of silicone sealant. 2. The coupling according to claim 1, characterized in that the housing is made with a flange having two holes for attachment to a submersible motor connector or to a transport cover. 3. The coupling according to any one of claims 1 and 2, characterized in that the inner cavity of the body liner is filled with a thermosetting compound having a breaking stress in the cured state under static bending, kgf / cm ² , of at least 450. 4. The coupling according to any one of claims 1 and 2, characterized in that each tip is made with a spherical end and with a constant outer diameter along the entire length, and from the side opposite the spherical end, with a blind threaded hole for connecting one of the conductor cable veins. 5. The coupling according to any one of claims 1 and 2, characterized in that the plug is provided with a sealing ring covering it. 6. The coupling according to any one of claims 1 and 2, characterized in that the plug, seal, support insert and separation washer have three through holes for the conductive wires of the cable and lugs, the axes of which are located at the vertices of an equilateral triangle coaxially with the cylindrical protrusions of the block. 7. The coupling according to any one of claims 1 and 2, characterized in that the length of the protrusion of the pads does not exceed 2 diameters of the tip, and the diameter of the protrusion of the pads does not exceed 1.5 diameters of the tip. 8. The coupling according to any one of paragraphs.1 and 2, characterized in that the shank of the housing is made expanding in section, passing through the holes of the flange, and tapering in a section perpendicular to it. 9. The coupling according to any one of claims 1 and 2, characterized in that a transport cover is installed on the housing to cover the tips, provided with a mounting rubber ring.

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