RU179607U1 - High voltage insulator - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used in high-voltage apparatus and power lines. The technical result is an increase in service life due to the increased strength of the reinforcement at the ends of the insulating body. The high-voltage insulator contains an insulating body equipped with ribs on the outer surface and at least rigidly fixed on one of its ends, reinforcement in the form of a flange and a cylindrical part, which is made welded from a rolled sheet of metal having rhombic corrugation.

Description

The utility model relates to the field of electrical engineering and can be used in high-voltage devices and power lines.

A high-voltage insulator is known that contains an insulating body provided with radial ribs on the outer surface and rigidly fixed to at least one of its ends, and reinforcement made of cast iron (TU 3493-001-05778135-2011) in the form of a flange and a cylinder , on the inner side surface of which are roughened for better adhesion to the insulating body.

The disadvantage of this insulator is the complexity of manufacturing the flange and low strength properties caused by the difficulty of obtaining roughness (corrugations) on thin-walled cast iron castings, the significant porosity of the cast flange and, as a consequence, the limited life of the insulator.

The objective of the utility model is to create a high-voltage insulator with an increased service life by increasing the strength of the reinforcement at the ends of the insulating body.

The technical result is an increase in the service life of a high voltage insulator due to the increased strength of the reinforcement of the insulating body.

This result is achieved due to the following set of essential features - a high-voltage insulator containing an insulating body equipped with radial ribs on the outer surface and rigidly fixed to at least one of its ends reinforcing bars made in the form of a flange and a cylindrical part made of welded rolled sheet metal having rhombic corrugation (protrusions) on the inner surface.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a high-voltage insulator with fittings in the form of flanges and cylindrical parts located at the two ends of the insulator, in FIG. 2 is a general view of reinforcement with rhombic corrugation on the inner surface of the cylindrical part.

The high-voltage insulator contains an insulating body 1 provided with ribs on the outer surface of the cylindrical part 2 and flanges 3 made of steel and located at its two ends of the insulator.

The cylindrical part of the reinforcement is made of rolled steel sheet with rhombic corrugation on the inner surface and is rigidly connected by welding to the steel flange 3. On the outer surface of the cylindrical part of the reinforcement, stiffeners are symmetrically located, each of which is connected by welding to the cylindrical part and the flange. This design provides sufficient strength of the insulator, prevents the tearing of the insulating body from the reinforcement and the scrolling of the insulating body relative to the reinforcement. The optimum for the strength of the connection of the reinforcement with the insulating body is such a rhombic corrugation on the inner surface of the cylindrical part, at which the angle α of the location of the corrugations lies in the range of 40 ° -60 °, while the height of the protrusions is in the range of 0.2-0.6 of the thickness of the cylindrical parts. Tests have shown that with a different arrangement of the riffles, the adhesion force of the cylindrical part of the reinforcement to the insulating body in the longitudinal direction is reduced, and a decrease in the height of the protrusions below 0.2 of the thickness of the cylindrical part causes the insulating body to scroll relative to the reinforcement. An increase in this parameter over 0.6 is technologically and structurally unjustified because it complicates the production and, in addition, with this size of the protrusions of the cylindrical part, the length exceeds the gap between the insulating body and the cylindrical part of the reinforcement filled with cement mortar.

The proposed implementation of the welded reinforcement of the insulating body increases the strength characteristics of the welded flange, simplifies the production of the latter and reduces the weight of the product as a whole compared to cast reinforcement.

Claims (1)

A high-voltage insulator comprising an insulating body provided with ribs on the outer surface and rigidly fixed to at least one of its ends with reinforcement in the form of a flange and a cylindrical part, characterized in that the cylindrical part is welded from a rolled sheet of metal having rhombic corrugation.

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