SU716070A1 - Partition insulator - Google Patents

Description

The invention relates to electrical engineering and can be used in high-voltage insulating devices under vacuum conditions, for example, in electrophysical installations. Insulating devices for high-voltage installations are known, consisting of a cylindrical or conical insulator with a shoulder through which an electrically conductive rod passes and which is mounted with fasteners on the supporting surface ij. However, often the dimensions of the insulator are limited by the design features of the high-voltage installation. Then, in order to provide the required electrical strength, corrugations are made on the surface of the insulator, increasing its surface and reducing the wall thickness. In this case, the mechanical strength of the insulator is reduced, and the technology of its manufacture is complicated. Also, a bushing insulator is known, whose casing is made of insulating material. The isolator contains fasteners mounted on the ring shoulder, which are located with a gap to the housing 2. However, hermetic inlet has a lower dielectric strength with the same dimensions. This is due to the fact that the length of the leakage path along the surface is less and does not allow cleaning the entire surface of the insulating element from contamination, as it is non-separable and has narrow long grooves. The aim of the invention is to increase the reliability of the insulator. This is achieved by the fact that the bushing is equipped with locking spindles made in the form of sleeves with annular shoulders on the ends, on the frost of the surface of the housing a series 716070 nigepny annular flange is made, with the sleeves attached. from different sides of the dopopneum bur and with one of its ends hand contact) Tc; 1m.- at V - -; - ---; - The drawing shows a pass-through isoShTbr, section; L, G:; .Il ,,:. LllI. ,, IL.,., The isolator consists of body 1, then it is made of insulating material with a central opening for the passage of the driver Element 2. On the inner and outer surfaces The cases on the same level are annular collars 3 and 4. In the outer collar 3, fastening elements 5 and 6 are fixed. Fibie is intended for attaching an insulator to the enclosure. On the inner collar 4, fixing elements 7 are made on its sides, made in bushings with ring shoulders on the ends of the insulator from element 5 to bushings 7. The dielectric strength of the surface of the insulator is several times lower than for: solid material. Therefore, when n; p6yokyr6yalEOTH yzpayt ra prizi zyyus b syoTyuustutuyu number of times compared with the thickness of the wall of the insulator to increase the path length of the possible breakdown on the surface. This and its dimensions are determined. In the proposed isolator, its external and internal surfaces are working, thanks to which there is a way for a possible breakdown in terms of overhead, and erect and charge that flows down on the surface of the Shy dv1ggy 3 ki in ShirailttttH of the electrical circuit and against it. It is known, “mj dykukeyo yektreyshskogo charge on the surface of the dielectric: E e r ezch elekt 1ryychesk 6m Mle eTrud ftieHo., /. For these reasons, the electrical strength of such an insulator increases. In the region of the annular shoulders, the insulator acts, the mechanical FORCE of compression and bending, which can destroy it, if the aspect ratio of the shoulders is chosen incorrectly. The analysis of the acting in isolatoril and experimental n | 5 verification showed that the isolator is optimal, for which the width of the shoulder does not exceed the maximum height, - - The dimensions of the proposed isolator turn out to be 20-50% less than that of the analogs. Its use in high-voltage installations will reduce their size without deteriorating the electrical and strength characteristics. Fo rumula and 3 o bre n and the bushing insulator comprising a housing made of an insulating material in the form of a vrasheri body with a central opening for the passage of a current-carrying element and with an annular collar on its outer surface and fixed on the latter fasteners located with a gap to the body, characterized in that, in order to increase the reliability of the insulator, it is provided with locking elements made in the form of sleeves with annular shoulders along the flange, on the inner surface of the body th collar on; the level of the above, with the sleeves located on different sides of the additional collar and one of its ends in contact with it. :. V. ,,. “Sources of information, take into account in the examination 1. US Patent No. 2496075, cl. 174-142, 1950, 2. USSR Copyright Certificate No. 2561141 / 24-07, cl. H 01 B 17/26, 1977.

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Claims (1)

A bushing insulator containing a pus of insulating material in the form of a body of revolution with a central hole for the passage of a current-carrying element and with an annular collar on its outer surface and fasteners secured to the latter located with a gap to the housing, so that there is no that, in order to increase the reliability of the insulator, it is equipped with fixing elements made in the form of bushings with ring beads along the torus. On the inner surface of the housing, an additional annular collar is made at the level of the aforementioned one, while the bushings are located on different sides of the additional collar and are in contact with one of their ends. For these reasons, the electrical reading of the insulator rises. In the circumferential flanges on the insulator