RU174665U1 - High voltage insulator - Google Patents

Abstract

The utility model relates to ceramic rod support and linear suspension insulators designed for insulation and fastening of live parts in electrical apparatus, switchgears of power plants and substations. A high-voltage insulator containing an insulating body symmetrical about the axis, with ribs of larger and smaller diameters alternating with a uniform pitch, and metal fittings installed at its ends, while the ratio of the thickness of the ribs of a larger diameter on the average diameter of the ribs in the direction of the axis of the insulating body to the step between the ribs of larger diameter is in the range K = 0.12-0.16. The technical result of the utility model is to improve the electrical characteristics of the insulator by improving the electrical discharge characteristics of a full lightning impulse, increasing the withstand voltage of industrial frequency in a dry, wet condition and in conditions of pollution and humidification, while maintaining the building height and reducing the mass of the insulator. 1 ill.

Description

The utility model relates to ceramic rod support and linear suspension insulators designed for insulation and fastening of live parts in electrical apparatus, switchgears of power plants and substations, voltage over 1000 V, frequencies up to 100 Hz for operation in areas I to IV of pollution degree according to GOST 9920 located at an altitude of 1000 m above sea level.

Class of insulators (rated voltage), kV: 20, 35, 110, 150, 220 and 330.

Insulator material: electrotechnical ceramic material not lower than subgroup 120 according to GOST 20419.

A high-voltage insulator is known that contains an insulating body symmetrical about the axis with ribs of larger and smaller diameters alternating with a uniform pitch, and metal fittings installed at its ends (RU 73118U1, НВВ 17/20).

The disadvantages of the known insulator are low dielectric strength and operational reliability of insulators.

The technical result of the utility model is to improve the electrical characteristics of the insulator by improving the electrical discharge characteristics of a full lightning impulse, increasing the withstand voltage of industrial frequency in a dry, wet condition and in conditions of pollution and humidification, while maintaining the building height and reducing the mass of the insulator.

The specified technical result is achieved due to the fact that in a high-voltage insulator containing an insulating body symmetrical about the axis, with ribs of larger and smaller diameters located on it alternating with uniform pitch, and metal reinforcement installed at its ends, the ratio of the thickness of the ribs of larger diameter by the average diameter of the ribs in the direction of the axis of the insulating body to the step between the ribs of a larger diameter is in the range K = 0.12-0.16.

The essence of the utility model is illustrated by the drawing, which shows the high-voltage insulator.

The high-voltage insulator contains an insulating body 1, symmetrical about the axis and alternating with a uniform pitch of ribs larger than 2 and less than 3 dimeters, and a metal reinforcement 4 installed at its ends. The ratio of the thickness of the ribs of larger diameter on the average diameter of the ribs in the direction of the axis of the insulating body (a) to the step between the ribs of larger diameters (b) is in the range K = 0.12-0.16.

Comparative tests of the proposed insulator with dimensions a = 4.7 mm, b = 32.3 mm (K = 0.1455) and insulators with standard profiles (K <0.12 and K> 0.16) presented in the tables showed following.

While maintaining the size of the diameter of the ribs in comparison with analogs and observing the building height (it is determined by GOST), we obtain an insulator with a significantly longer creepage distance and, as a result, an insulator that meets higher requirements for the degree of pollution (dirt resistance), the indicated information is given in table 1

The specified characteristics of the fins profile make it possible to obtain (in comparison with porcelain counterparts) the best electrical discharge characteristics of a full lightning impulse, the withstand voltage of industrial frequency in a dry, wet state and in conditions of pollution and moistening while maintaining dimensions (construction height and diameter of the ribs).

While maintaining the required degree of pollution in comparison with analogs and observing the construction height, we obtain an insulator with significantly smaller diameters of the ribs, less mass, which is confirmed by the experimental data (table 2).

The specified characteristics of the fins profile make it possible to obtain the best electrical discharge characteristics of a full lightning impulse, the withstand voltage of industrial frequency in a dry, moistened state and in conditions of pollution and humidification, while maintaining the building height and reducing the diameter of the ribs (product weight).

Claims (1)

A high-voltage insulator containing an insulating body symmetrical about the axis, with ribs of larger and smaller diameters alternating with a uniform pitch, and metal reinforcement installed at its ends, characterized in that the ratio of the thickness of the ribs of larger diameter to the average diameter of the ribs in the direction of the axis insulating body to the step between the ribs of larger diameter is in the range K = 0.12-0.16.

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