RU1817140C - High-voltage suspension insulator - Google Patents

Abstract

Usage: electric power, overhead power lines. Summary of the invention: the goal is achieved in a suspended high-voltage insulator containing an insulating part, a cap and a rod interconnected by a sand-cement bond and an electrode of an conductive material of an asymmetric shape located on the insulating part in the region of the insulator rod , the space between the edge of the cap of the insulator and the surface of the insulating part is filled with a dielectric. 1 ill.

Description

The invention relates to the electric power industry, to overhead power transmission lines, in particular to designs of high-voltage suspended plate-shaped insulators, of which are equipped with a string of wires providing insulated fastening of wires to the supports of overhead power transmission lines.

The aim of the invention is to increase reliability by reducing the electric field strength on the elements of the insulator and increasing its discharge voltage ...

The drawing shows a fragment of a suspended high-voltage insulator with a section, where 1 is an insulating part, 2 is a rod, 3 is a cap, 4 is a sand-cement bond, 5 is an electrode in the area of the rod, .6 is a dielectric filling the space between edge of the cap and insulating part.

High-voltage suspended insulator The following is carried out: the insulating part 1, the rod 2 and the cap 3 are interconnected by means of a sand-cement bond 4; an electrode 5 is mounted on the bottom surface of the insulating part 1; dielectric 6 is located around the entire circumference of the lower edge of the cap of the insulator 2 between the insulating part 1 and the cap of the insulator 3.

If there is a flat electrode 5 in the lower part of the suspended high-voltage insulator, the leakage current density decreases, which leads to an increase in discharge voltages during pollution and humidification. In addition, increasing with the surface of the electrode leads to an increase in the capacity of the insulator, which in turn equalizes the distribution of voltage along the string n00

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insulators used, for example, to suspend aerial pins. The presence of an electrode 5 N of the lower surface of the insulating part 1 leads to a decrease in the electric field strength at the edge of the lower electrode (in the lower part of the insulator) and, accordingly, to an increase in the voltage of the beginning of the corona discharge in the lower part of the insulator. In order to prevent the beginning voltage of the corona discharge in the upper part of the insulator (on the edge of the cap facing the insulating part), the space between the edge of the cap 3 and the insulating part 1 is filled along the entire circumference with dielectric 6. If there is a dielectric 6, having a higher dielectric constant than air, the electric strength decreases, the floor at the edge of the metal cap 3. The dielectric 6 placed in the space between the edge of the cap 3 and the surface of the insulating part 1 prevents the development of a spark a number in this interval, which leads to a decrease in the level of radio noise from insulators and increases the discharge voltage of the insulator. Thus, dielectric b allows to increase the reliability of the insulator by increasing its discharge voltage and reduce the level of radio noise from the insulator and, accordingly, from a string of insulators used on overhead power lines.

As a filler of this region, any dielectric having in the initial phase can be used

fluidity (to fill the entire space) followed by hardening and having an increased dielectric constant.

Experimental studies conducted with a PSZOO-K type commercial insulator showed that when the insulator is made according to the proposed technical solution: with the lower flat electrode and filling the area between the lower edge of the cap and the glass surface with an epoxy compound, the corona discharge voltage increases from 27 kV (serial isolator) to

40 kV, i.e. by 48%. In this case, sparking and corona discharge are absent in the upper part of the insulator. An increase in the voltage of the beginning of the crown on the elements of the insulator leads to an increase in the allowable voltage

insulator in terms of radio noise and to increase the discharge voltage during pulsed influences,

Claims (1)

SUMMARY OF THE INVENTION A suspended high voltage insulator, comprising an insulating part connected by a sand-cement bond, a metal cap and a rod, and an electrode located on the insulating part in the region of the rod, characterized in that, with the purpose of increasing reliability by reducing the electric field on the insulator elements and increasing the discharge voltage of the insulator, the space between the lower edge of the cap and the upper the surface of the insulating part is filled with a dielectric.