RU72572U1 - HIGH VOLTAGE PIN INSULATOR - Google Patents

Abstract

Usage: a utility model is used to insulate wires and fasten them to the supports of overhead power lines. Objective: improving the mechanical and electrical properties of high-voltage pin insulators and improving operating conditions. SUBSTANCE: high-voltage pin insulator consists of an organosilicon rubber insulating body with a hole for attaching an insulator to a pin and a place for lateral fastening of a wire; the insulator is equipped with a concave metal ring placed in the place of lateral fastening of the wire and a metal threaded sleeve installed in the hole of the insulating body: the ring and the threaded sleeve are made of aluminum. 1 n.p.p.f.

Description

The utility model relates to the electric power industry, in particular, to high-voltage pin insulators designed to insulate wires and fasten them to metal, reinforced concrete and wooden supports on overhead power lines and switchgears of stations and substations for voltages up to 10 kV of alternating current of industrial frequency 50 Hz.

As a prototype of the selected "pin insulator" according to the patent of Russia for the invention No. 2291506, IPC НВВ 17/20, announced March 10, 2006, publ. January 10, 2007, patent holder of CJSC Reinforcing and Insulating Plant.

The insulator contains an insulating body made of silicone rubber with at least one rib; on the insulating body there is a place for lateral fastening of the wire; the insulating body has a blind hole for attaching the insulator to the pin; the upper level of the blind hole is located above the side of the wire.

The disadvantage of this technical solution is the insufficient mechanical and electrical properties of the insulator. In places where the wires are knitted, mechanical deformation of the rubber is created, incisions are possible, as a result of which a breakdown of the insulator is possible, and as a result, deterioration of its electrical properties.

The insulator is fastened to the power poles by pulling it on the pin, which creates difficulties during installation and dismantling, and with prolonged use, surface cracks may occur, resulting in deterioration of the mechanical characteristics of the insulator.

An object of the invention is to increase the mechanical and electrical properties of high-voltage pin insulators and improve operating conditions.

The problem is solved due to the fact that the high-voltage pin insulator, consisting of an insulating body of silicone rubber with a hole for attaching the insulator to the pin, and a place for lateral fastening of the wire, according to the utility model, the insulator is equipped

concave metal ring placed in the place of lateral fastening of the wire, and a metal threaded sleeve installed in the hole of the insulating body.

In addition, the ring is made of aluminum alloy.

The threaded sleeve is made of aluminum alloy.

The insulator contains at least one rib.

The presence of a metal concave ring installed in the place of lateral fastening of the wire eliminates the deformation of the organosilicon body of the insulator, which improves the strength and electrical characteristics of the insulator when knitting wires, allowing the use of standard methods of fastening - wire knitting, spiral knitting, staples for various uses.

The implementation of the metal ring and cap of aluminum alloy does not lead to a significant increase in the weight of the insulator.

The installation of a metal threaded sleeve in the insulator ensures its reliable interaction with the power pole support pin.

Installation and dismantling of the insulator is carried out by screwing it onto a polyethylene cap mounted on a power transmission support pin and does not require the use of additional devices.

The patent studies did not reveal identical and similar technical solutions, which allows us to conclude that the claimed technical solution is new.

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 proposed technical solution is illustrated by drawings, where: in Fig 1 - General view of a pin insulator;

The insulator contains an insulating body 1 of silicone rubber. On the insulating body 1 there is a place for lateral mounting of the wire 2, as well as a hole 3. The insulator is equipped with a metal ring 4 located in the place of the lateral mounting of the wire 2 and a threaded metal sleeve 5 installed in the hole 3 of the insulating body 1.

The upper level of hole 3 is above the side of the wire.

The insulating body has at least one rib.

The insulating body 1 can be made of heat-shrinkable tracking resistant material.

The manufacture of the insulating body is carried out by injection molding from organosilicon rubber.

The concave metal ring 4 and the threaded metal sleeve 5 are made of aluminum alloy and are installed in the insulating body during the casting process, which ensures reliable interconnection of structural elements.

Mounting and dismounting of the insulator is carried out by methods traditionally used to install pin porcelain and glass insulators.

The proposed insulators will find wide application in the repair of high-voltage lines and the replacement of old insulators without dismantling metal pins mounted on supports or used on newly constructed transmission lines.

The company conducted tests of prototypes of the proposed insulators made of silicone rubber with a metal ring and a metal threaded sleeve - for heat resistance, mechanical failure, breakdown voltage.

- Testing with breakdown voltage in an insulating medium showed that at a voltage of 140 kV insulators did not break through.

- The test withstand voltage with a frequency of 50 Hz in the dry state and in the rain was 75-78 and 52-56 Hz / kV, respectively.

- It has been experimentally proved that when installing this insulator on the mounting pin with a lateral bending load applied in the installation area of the wire, the destruction occurred with a force of 20 kN instead of an allowable force of 12.5 kN.

The tests were performed at a temperature of 25 °, humidity 47%, pressure 758 mm RT. column (environmental parameters).

Insulators operate in the temperature range from + 50 ° to -60 °, which allows them to operate in harsh climatic conditions and in inaccessible areas (marshy areas, taiga, mountainous terrain, etc.).

Since organosilicon rubber insulators have elastic properties and completely recover their shape after removing significant mechanical deformations, this allows dismantling the power transmission line support without removing the insulator, which makes it indispensable when used in the oil and gas industry during temporary power transmission lines.

Claims (3)

1. A high-voltage pin insulator, consisting of an organosilicon rubber insulating body with a hole for attaching the insulator to the pin and a place for lateral fastening of the wire, characterized in that the insulator is equipped with a concave metal ring located in the place of the lateral fastening of the wire and a metal threaded sleeve installed in the hole of the insulating body. 2 The insulator according to claim 1, characterized in that the ring is made of aluminum alloy. 3. The insulator according to claim 1, characterized in that the threaded sleeve is made of aluminum alloy. 4. The insulator according to claim 1, characterized in that the insulator contains at least one rib.