RU103969U1 - PIN LINE INSULATOR - Google Patents

Abstract

Purpose: The utility model relates to the electric power industry, in particular to pin linear high-voltage insulators used in overhead power lines and switchgears of stations and substations. Technical task: to increase the mechanical and electrical strength of the insulator Essence: in the well-known pin linear insulator containing two concentrically mounted and rigidly interconnected electrical insulating parts, the outer of which is made of silicone rubber with ribs, as well as the head, the internal electrical insulating part and the head are made of porcelain as one.

Description

The utility model relates to the electric power industry, in particular to high-voltage pin insulators used in overhead power lines and switchgears of stations and substations.

Known in the art is a “Pin-type organosilicon insulator with a terminal” according to the RF patent for invention No. 2332740, IPC НВВ 17/20, etc. December 13, 2006, CJSC “Reinforcing-insulator plant”.

The insulator contains an insulating body made of silicone rubber with ribs and a place for attaching the wire and a terminal for attaching to the yoke pin. The terminator can be made in the form of a heat-shrinkable sleeve.

The disadvantage of this device is that the effect of the wire and knitting directly on the rubber and hence the ensuing consequences.

As a prototype, a “pin polymer insulator” according to the invention No. 2301470, IPC НВВ 17/20, pr. 07.20.2005, CJSC “Reinforcing-insulator plant” was proposed.

The pin insulator contains two concentrically arranged electrical insulating parts and a head; the inner part is made of a high-strength dielectric in the form of a fiberglass tube with a thread applied inside for fastening to a pin; an external electrical insulating part in the form of circular ribs made of a tracking-resistant dielectric material, for example, silicone rubber. At the same time, it can be as a single part, and is formed by the tight connection of several rings. The head is made of electrically conductive material. There are grooves on the head for attaching the wire. Grooves are located at the top and side of the head. The inner insulating part is equipped with a threaded hole for the pin for mounting it to the traverse (support).

The main load is silicone rubber. It is covered with a metal headband. The impact of the wire and knitting on the rubber is carried out by means of a headband, and silicone rubber weakly withstands mechanical loads, it can be destroyed during operation, which will lead to breakdown of the insulator.

In addition, the use of fiberglass as an insulator body will lead to unstable mechanical and electrical strength, as fiberglass is unstable under bending loads acting on the insulator.

The technical task of the utility model is to increase the mechanical and electrical strength of the insulator.

The problem is solved in such a way that in the well-known pin linear insulator containing two concentrically mounted and rigidly interconnected electrical insulating parts, the outer of which is made of silicone rubber with ribs, as well as the head, according to a utility model, the internal electrical insulating part and head are made of porcelain as one.

The implementation of the insulating part in the form of a monolithic structure of porcelain, consisting of a head and a body in the form of a single part, provides increased mechanical and electrical load.

The inventive device has differences from the prototype and does not follow explicitly from the studied prior art, i.e. meets the criteria of novelty and technical level. In addition, the proposed device can be manufactured on an industrial scale and will find application in electrical engineering on high-voltage power lines.

The essence of the claimed technical solution is illustrated by a drawing of a general view of the device, where 1 and 2 are concentrically installed and rigidly interconnected electrical insulating parts and head 3. Moreover, part 1 is made of organosilicon rubber with ribs. The internal electrical insulating part 2 and the head 3 are made of porcelain, as a whole. The connection of the parts of the device can be carried out by methods known in the art: using glue-sealant or by direct pouring and vulcanization of rubber on porcelain.

Porcelain electrical insulating part carries all mechanical and electrical load, and also serves for mounting on a pin / hook and securing the wire.

The use of a threaded hole for mounting the support pin can be carried out by any method known in the art.

High hydrophobicity of organosilicon rubber does not allow wetting of industrial and natural contaminants on the surface of the ribs, which prevents the appearance of partial discharges and overlap of the insulator.

At the South Ural rebar-insulator plant, tests of prototypes of insulators consisting of two dissimilar insulating parts - with an internal porcelain insulating element and an external of organosilicon rubber were tested.

Testing with breakdown voltage in an insulating medium showed that at a voltage of 160 kV the insulators did not break through;

Main characteristics:

- Minimum mechanical bending stress of at least 13 kN

- Nominal creepage distance of about 430 mm

- Breakdown voltage in an insulating medium of at least 160 kV

- 50% discharge voltage of a frequency of 50 Hz in a contaminated and humidified state of at least 13 kV

Thus, the proposed design of the insulator combines the positive properties of porcelain - high mechanical and electrical strength, resistance to natural influences, reliability and provides excellent performance in conditions of contamination and wetting of silicone rubber - high hydrophobicity of the ribbed shell.

Claims (1)

A linear pin insulator containing two concentrically mounted and rigidly interconnected electrical insulating parts, the outer of which is made of silicone rubber with ribs, as well as a head, characterized in that the internal electrical insulating part and the head are made of porcelain as a whole.