CS207203B1 - Electric bush particularly of the airpressure switching device of the very hogh voltage - Google Patents

Description

(54) Electrical bushing, high-voltage especially air-pressure switchgear very

BACKGROUND OF THE INVENTION The invention relates to an electrical bushing, in particular a high-pressure compressed-air switching device, formed by a current conductor on which the bushing body, the sleeve and the housing are located.

Until now, electrical passages consisting of several dielectric layers or layers of different permittivity have been used for the passage of current through a metal wall at a potential other than that of a current-conducting circuit, where a part of the passage was located in a compressed air space. o operating overpressure and another part was placed outside this space, for example in a free atmosphere. Layered condenser bushings were also used, where the insulator layers forming the body of the bushing were gradually wound onto a current conductor and interleaved with conductive layers, leaving thin layers of air between the layers. To prevent their impact on electrical breakdown, these layers were additionally filled with liquid or semi-liquid impregnants under vacuum, or were filled with a gas with higher permittivity and dielectric strength. In order to prevent leakage of the impregnant in operation, these grommets were provided with an opaque or gas-tight insulating jacket, while the impregnant also served as a filling of the space between the body of the grommet and the jacket. The disadvantage of these solutions was that compressed air switching devices were used in the non-air impregnated grommets, requiring the establishment of additional equipment in the substation to maintain the impregnant quality. Such a solution could also cause a fire or explosion. In other cases, airborne resin impregnation, such as epoxy, was used to remove the air layers, and the consistency of the grommet itself made it impossible to escape, but a portion of the grommet body outside the pressurized air compartment had to be provided with a jacket to prevent leakage. surface corrosion of the grommet body, for example by the effect of atmosphere or ultraviolet radiation. Because of the different thermal expansion, the space between the body and the bushing could not be filled with the curable resin and was therefore filled either with compressed air at operating overpressure or was associated with the surrounding atmosphere. The disadvantage of the first method is that the casing of the bushing is stressed by a high internal overpressure, the disadvantage of the second method is the possibility of internal condensation and a reduction of the insulating ability when the ambient temperature changes.

Disadvantages of the described known solutions are eliminated by the object of the invention, which is based on the fact that the enclosed space is connected to the space with the operating air forer by a channel in which the reducing member is inserted.

The reducing member may be a pressure reducing valve with a constant pressure ratio "p".

The channel may be formed at least in part in the sleeve. The enclosure may be provided with a safety device.

An example of a practical embodiment of the electrical bushing according to the invention is shown in the drawing.

The conduit body 2 is provided with a bushing body 2, layered of insulator 3 and conductive layers 4. One part of the electrical bushing is located in the air overpressure switching device 7 and the other part 8 of the electrical bushing is located outside this space 6 and protected against environment 9 with a casing 10 formed by a porcelain insulator 11 with a lower flange 12, an upper flange 13 and a gasket 14 below the upper flange 13. A sleeve 15 is placed on the body 2 of the grommet. , sealed from chamber 6 with operational air overpressure by gasket 17 and from the surroundings

Claims (4)

SUBJECT An electrical bushing, in particular a high-voltage compressed-air switching device, comprising a conductor on which a bushing body is placed, one part of which is located in an operational overpressure space and the other part outside the space, a sleeve and a sheath restricting it together with the body a closed space sealed from an operating overpressure chamber and from the environment by means of a bushing, a conductor and a sleeve, characterized in that the enclosed space (16) is connected to the operating overpressure chamber (6) by a channel (21) in which a reducing member. 2. Electrical bushing, especially compressed air1 ϊ The space 6 with operational overpressure of air is sealed from the surroundings 9 by the seal 20. The space 6 with operational overpressure of air is connected with the closed space 16 by a channel 21 formed in part by the sleeve 15. The part of the channel 21 which is located outside the sleeve 15 is formed by a conduit into which a pressure reducer 22 with a constant pressure ratio "p" is inserted. The enclosure 16 is provided with a safety device 23 and is connected thereto by means of a portion of the duct 21 on the lower pressure side of the pressure reducing valve 22. By connecting the pressure reducing valve 22 to the duct 21, 6 with operating air overpressure. In the same way, the relative humidity of the air is reduced p-fold in the enclosure 16. As a result, the permanently good insulating property of the second part 8 of the electrical bushing, which is located outside the space 6 with operating air pressure, is achieved and the housing 10 is relatively little stressed by the internal air pressure. The safety device 23 may be a spring valve, bursting membrane or other device. The electrical bushings according to the invention can be used in the construction of electrical switching devices or in the construction of similar devices. A very high voltage switching device according to claim 1, characterized in that the reducing member is formed by a reducing valve (22) having a constant pressure ratio "p". An electrical bushing, in particular a high-voltage compressed-air switching device according to claim 1, characterized in that the channel (21) is formed at least in part in the sleeve (15). 4. An electrical bushing, in particular a high-pressure compressed-air switching device according to items 1, 2 and 3, characterized in that the enclosure (16) is provided with a safety device