RU108230U1 - CABLE INPUT CLUTCH FOR CONNECTING SUBMERSIBLE ELECTRIC MOTORS - Google Patents

Abstract

 1. A cable entry coupling for connecting submersible electric motors, comprising a housing, an insulating block with three through guide holes, terminating in sockets, terminal lugs with flanges mounted on current-carrying electrical insulated cores of the cable and installed in the through holes of the insulating block, and elastic sealing rings made of oil and oil resistant heat-resistant material installed between the cylindrical surfaces of the flanges of the plug lugs and insulating sockets pads, characterized in that the clutch is additionally equipped with elastic sealing rings of oil and heat resistant material installed on the side surface of the insulation of the core inside each of the pads in the amount of one or more. ! 2. The coupling according to claim 1, characterized in that in each socket of the insulation block one of the sealing rings located between the cylindrical surfaces of the flange of the plug tip and the socket of the block is located at the junction of the flange with core insulation.

Description

The utility model relates to electrical engineering and can be used to connect a power oil immersion cable with an electric motor for installing an electric centrifugal pump.

For these purposes, a known cable gland RU 95188, publ. 06/10/2010 (Bull.16). The known clutch comprises a housing, an insulating block with three through guide holes, terminating nests, plug-in lugs with flanges mounted on live electrical conductors of the cable and installed in the through holes of the insulating block, as well as elastic o-rings made of oil-and-heat-resistant heat-resistant material installed between the cylindrical surfaces of the flanges lugs and sockets of insulation pad. In this case, the flanges of the plug lugs are placed in the socket of the block end-to-end with electrical insulation of the cores.

When a cable sleeve of a known design is operated in oil wells, an electrically conductive formation fluid (a mixture of water with hydrocarbons, dissolved gases, salts and other substances) can penetrate from the side of the shank into the sleeve to the uninsulated ends of the flanges of the plug tips and cause a short circuit of the plug tips to the coupling body or Each other. This adversely affects the reliability of the coupling.

The objective of this technical solution is to increase the reliability of the cable box when working in difficult conditions of oil wells and the corresponding increase in the overhaul period of the ESP.

To solve the problem, the cable entry coupling for connecting submersible electric motors contains a housing, an insulating block with three through guide holes, terminating in sockets, terminal lugs with flanges mounted on current-carrying electrical insulated cable cores and installed in the through holes of the insulating block, as well as elastic sealing rings made of oil-resistant heat-resistant material installed between the cylindrical surfaces of the flanges cores and nests of an insulating block. The coupling is characterized in that it is additionally equipped with elastic sealing rings of oil and petrol resistant heat-resistant material mounted on the side surface of the insulation of the core inside each of the socket pads in an amount of one or more. In addition, in each socket of the insulation block, one of the sealing rings located between the cylindrical surfaces of the flange of the plug tip and the socket of the block is located at the junction of the flange with the core insulation.

The installation of o-rings on the side surface of the insulation of the core inside each of the socket pads in the gap between the end of the tip flange and the end of the insulation block allows you to protect the uninsulated flange of each of the plug tips from penetration of formation fluid.

The installation of one of the sealing rings located between the cylindrical surfaces of the flange of each of the plug lugs and the nests of the insulation block at the junction of the flange with the insulation of the core additionally protects the uninsulated current-carrying parts inside the cable sleeve from contact with the formation fluid.

A new technical result achieved by the claimed solution is to prevent a short circuit of the plug lugs to the coupling body or to each other through the formation fluid.

The utility model is illustrated in the figure, which shows the claimed coupling. The sleeve contains a metal housing 1, the shank of which includes an oil immersion cable 2. During the assembly of the sleeve, the end of the cable is cut in a generally accepted way, including removing the outer armor and lead sheath of the cable conductors, as well as winding the open sections of rubber insulation of 3 current-carrying conductors with a special fluoroplastic tape with sticky oil resistant layer. In the housing 1, a block 4 of insulating material is installed. The block 4 has three axisymmetric through holes ending on the one side with sockets 5, and on the other side with protrusions in the form of bushings 6. At the end of each of the current-carrying conductors, the rubber insulation is removed and the thread is cut into which the screw terminal 7 is screwed tightly against electrical insulation end 3 of the current-carrying core. The flanges 8 of the plug lugs have two annular grooves on the cylindrical surface with rubber rings 9 installed in them, with one groove made at the junction of the flange and insulation 3, which serves as the second wall of this groove. Socket lugs 7 are installed in the holes of the block 4, while the flanges 8 are located in the sockets 5 of the block. Inside each of the nests of the insulation block in the gap between the end face of the tip flange and the end of the insulation block there is one or more annular grooves with an O-ring 10 installed in it, pressed against the side surface of the insulation 3. There are two annular grooves on the cylindrical surface of the block 4 with them installed rubber rings 11. The dimensions of all the grooves for installing the rubber rings on the cylindrical surfaces of the insulating blocks and flanges of the plug lugs, as well as in the insulating sockets Pads are selected according to GOST 9833-73. The block 4 is fixed in the housing 1 by a nut 12, which presses the block against the technological stop inside the housing. After assembly, the inner cavity of the shank of the coupling housing is filled with a compound 13, securing the cable from displacements.

After the equipment is lowered into the well, the cable entry sleeve is in the formation fluid environment. Rubber rings 9, 10 and 11 provide longitudinal tightness of the cable sleeve, while the installation of elastic sealing rings of oil and oil resistant heat-resistant material on the side surface of the insulation of the core inside each of the pads in the gap between the end of the tip flange and the end of the insulation block eliminates the short circuit of the terminal lugs on the housing couplings or on top of each other through formation fluid.

Claims (2)

1. A cable entry coupling for connecting submersible electric motors, comprising a housing, an insulating block with three through guide holes, terminating in sockets, terminal lugs with flanges mounted on current-carrying electrical insulated cores of the cable and installed in the through holes of the insulating block, and elastic sealing rings made of oil and oil resistant heat-resistant material installed between the cylindrical surfaces of the flanges of the plug lugs and insulating sockets pads, characterized in that the clutch is additionally equipped with elastic sealing rings of oil and heat resistant material installed on the side surface of the insulation of the core inside each of the pads in the amount of one or more. 2. The coupling according to claim 1, characterized in that in each socket of the insulation block one of the sealing rings located between the cylindrical surfaces of the flange of the plug tip and the socket of the block is located at the junction of the flange with core insulation.