RU211165U1 - Coupling of the conductor with solid insulation - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to devices that ensure the transmission of electric current at power plants and substations in normal and emergency modes. The technical task of the utility model is to increase the electrical strength of the insulation by creating a continuous hermetic layer of solid insulation of the coupling along its entire length, capable of withstanding high voltage and external atmospheric influences. The technical result consists in expanding the scope and reducing the radial dimensions of the coupling for high voltage classes. SUBSTANCE: coupling of current duct with solid insulation contains terminators of adjacent sections of current duct (1), which are provided with contact rods (2) and layers of solid insulation (3), an insert made of elastic insulating material (4) inserted between endings of adjacent sections of current duct (1) and equipped with contact node with sockets (5), and flanges (6) fixed on the outer surface of the insulating layer of the end fittings. The insert made of elastic insulating material (4) is tightly pressed against the surface of the hard insulating layer (3) of the ends (1) with the help of a flange connection (6). The insert of elastic insulating material (4) can be made of ethylene-propylene rubber. The hard insulating layer (3) of the end caps (1) can be made of epoxy compounds. 1 ill.

Description

The proposed utility model relates to the field of electrical engineering, namely to devices that ensure the transmission of electric current at power plants and substations in normal and emergency modes.

Known coupling sections of the conductor (Patent RF No. 2439764, IPC H02G 5/08, publ. 01/10/2012), containing a body, terminating sections of the conductors, contact plates, elements for equalizing the electric field, insulating and conductive layers, aluminum flanges are fixed on the body in the form of rings.

The disadvantages of the known device include the insufficient dielectric strength of the insulation inside the clutch housing for use at a high rated voltage.

The technical task of the proposed utility model is to increase the electrical strength of the insulation by creating a continuous layer of solid insulation in the coupling along its entire length, capable of withstanding high voltage and external atmospheric influences.

The technical result consists in expanding the scope and reducing the radial dimensions of the coupling for high voltage classes.

This is achieved by the fact that the well-known current duct coupling with solid insulation, containing two terminations of adjacent sections of the current duct, including contact elements and solid insulating layers with flanges, is additionally equipped with an insert made of elastic insulating material, with the terminations covering the insert, and the contact elements of the terminations are made in the form rods, the contact elements of the insert are made in the form of rosettes, the ends of the end pieces and the insert are made conical.

The essence of the utility model is illustrated by a drawing, which shows a diagram of the proposed device.

The busbar coupling with solid insulation contains terminators of adjacent sections of the busbar 1, which are equipped with contact rods 2 and layers of solid insulation 3, an insert of elastic insulating material 4 inserted between the ends of adjacent sections of the busbar 1 and equipped with a contact assembly with contact sockets 5, and flanges 6 , fixed on the outer surface of the insulating layer 3 of the terminations 1. The terminations of adjacent sections of the conductor 1 are interconnected by means of an insert 4 and flanges 6. Contact sockets 5 are located inside the insert 4, contact rods 2 are located at the ends of the terminations 1. Contact sockets 5 and contact rods 2 are connected to each other. The insert of elastic insulating material 4, placed in the conical recess of the solid insulating layer 3, is tightly pressed against the surface of the solid insulating layer 3 of the end fitting 1. The insert of elastic insulating material 4 can be made of ethylene-propylene rubber. The solid insulating layer 3 of the terminals of the adjacent sections of the conductor 1 can be made of epoxy compounds.

The device works as follows.

When voltage is applied through the contact rods 2 of the end caps 1 and the contact sockets 5 of the insert 4, an electric current flows, a high potential of the electric field is formed on the contact rods 2 and sockets 5, and an electric field is formed in the insulating gap.

The solid insulating layer 3 and the insert 4, made of elastic insulating material, pressed against each other by means of flanges 6, make it possible to exclude electrical breakdown along the interface due to the elimination of the appearance of gas cavities at the indicated interface, and the conical shape of the interface greatly increases the degree of pressing these insulating layers. layers.

As a result, the combined layer of solid insulation becomes continuous along the entire length and volume of the sleeve, as a result, the dielectric strength of the insulation inside the sleeve increases sharply.

The use of the utility model makes it possible to increase the electrical strength of the insulation of the couplings by at least 2.5 times, which makes it possible to reduce the radial dimensions of the couplings by 50-70%, and also to expand the scope of their application in conductors with a rated voltage of 6-20 kV to conductors with rated voltage 35-220 kV.

Claims (1)

A busduct coupling with solid insulation, containing two terminations of adjacent sections of the conductor, including contact elements and solid insulating layers with flanges, characterized in that it is equipped with an insert made of an elastic insulating material, the terminations enclosing the insert, and the contact elements of the terminations are made in the form of rods, contact the elements of the insert are made in the form of rosettes, the ends of the end pieces and the insert are made conical.

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