RU1805506C - High-voltage suspension insulator - Google Patents

Abstract

The invention relates to electrical engineering, in particular to insulator engineering. The aim of the invention is to increase the reliability of the insulator and eliminate radio interference by increasing the voltage of the onset of electrical discharges at the insulator, for which a suspended high-voltage insulator containing an insulating part in the form of a body of revolution with a developed surface and coaxially connected to it from both sides located metal electrodes are provided with dielectric seals installed in annular gaps at the joints between the insulating part of the insulator and said electrodes. Methods for making insulators are described. The application of the invention can significantly increase the stress of the appearance of the corona, 1 C. P. f-ly, 1 ill. ate

Description

The invention relates to the field of electric energy transmission, more specifically to overhead power transmission lines, and in particular to structures of suspension insulators for overhead transmission lines.

The purpose of the invention is to increase the reliability of the insulator and eliminate radio interference by increasing the voltage of the onset of electrical discharges at the insulator.

This goal is achieved by the fact that a suspended high-voltage insulator, containing an insulating part in the form of a body of revolution j with a developed surface and connected: coaxially located metal electrodes connected to it from both sides, made, for example, in the form of a cap and rod, additionally in annular gaps at the joints between the insulating part of the insulator and said electrodes, dielectric seals are installed.

A known method of manufacturing pendant high-voltage insulators is that the insulating part of the insulator is molded in the form of a body of revolution with a developed surface and heat-treated to obtain the necessary strength and hardness are connected to metal electrodes made, for example, in the form of a cap and the rod by means of a liquid self-hardening material, which, when assembling the insulator, is introduced into the gaps between the insulating part of the insulator and the surfaces of metal electrodes adjacent to it. An insulator made in this way has a low voltage at which electric discharges begin in the annular gaps at the joints between the insulating part of the insulator and the electrodes.

The insulator of the proposed design is made in the following sequence00

about

Joint venture

ate about

features: the insulating part of the insulator molded in the form of a body of revolution with a developed surface and heat treated to obtain the necessary hardness and strength is connected to metal electrodes made, for example, in the form of caps and rods, using a liquid self-hardening adhesive material, which is the gaps between the insulating part of the insulator and the adjacent surfaces of the metal electrodes, after hardening the adhesive seal from the dielectric in the annular gaps at the joints between the insulating the insulator part and the indicated electrodes are performed as follows - first, on the one hand, an elastic ring is placed on the insulating part of the insulator coaxially to the electrode, tightly pressed to the surface of the insulating part of the insulator from above into the annular gap between the electrode and the insulating part, limited by an additional a mixture of a self-hardening dielectric is poured into the liquid state with the indicated elastic ring, and after the dielectric has solidified in this gap, the elastic ring is removed and the insulator is turned over and in the same sequence, the liquid self-hardening dielectric is poured into the annular gap between the insulator part of the insulator, the second electrode and the elastic ring, and after the die has solidified, the elastic ring is removed.

A slightly different manufacturing method can be used to speed up the manufacturing process of the new design insulator. In this case, the insulating part of the insulator molded in the form of a body of revolution with a developed surface and heat treated to obtain the necessary hardness and strength is connected to metal electrodes made, for example, in the form of caps and rods, using a liquid self-hardening adhesive material, which introduced into the gaps between the insulating part of the insulator and the adjacent surfaces of the metal electrodes, after curing the binder on the surface of the insulating part and metal electrodes into tsevyh gaps at the joints between the insulating part of the insulator and the electrodes previously deposited layer of self-hardening adhesive -germetika, and then in each gap with a certain interference fit mounted an annular seal made of an elastic weather-resistant dielectric, such as silicon-organic rubber and preformed in

the mold and the shape corresponding to the configuration of the gap between the insulating part and the electrode.

In FIG. 1 shows a pendant high-voltage insulator with additional dielectric seals in the gaps between the electrodes and the insulating part of the insulator; in FIG. 2 - suspended high-voltage insulator with additional 0 ring seals made of dielectric in the gaps between the electrodes and the insulating part of the insulator and adhesive layers on the mating surfaces of the ring seals with insulating part and insulator electrodes .

A suspended high voltage insulator consists of an insulating part 1, an upper metal electrode — an emitter cap 2, and a lower metal electrode — a rod 3 of an insulator. The upper electrode - cap 2 of the insulator is connected to the insulating part of the insulator 1 by means of cement bond 4, and the lower electrode 3 5 of the insulator - the core of the insulator is connected to the insulating part of the insulator by means of cement bond 5. In the gap between the upper electrode - a cap 2 of an insulator and an insulating part 1 set a seal 6 of a dielectric. In the gap between the insulating part 1 of the insulator and the lower electrode-rod 3 of the insulator, a seal 7 of a dielectric is installed (Fig.

1) 8, 9 - a layer of glue-sealant on the surface

to insulating part, cement bonding and

metal electrodes of the insulator (Fig.

2).

During production, the assembly of the insulator 0 is carried out in the following sequence. The insulating part of insulator 1 is formed on specialized high-performance equipment and enters the assembly site of insulators

5 simultaneously with the metal electrodes of the cap insulator 2 and the rod 3. The cavity of the cap 2 is filled with a dose of cement mortar, and the insulating part 1 is installed with the protrusion downward.

0 Inside the recess in the insulating part of the insulator, a portion of the cement mortar is laid and a rod 3 is installed. The assembled insulator is steamed and the hardened cement mortar (items 4 and 5) into

5 cavities creates reliable cement bonding of parts of the insulator 1, 2 and 3.

On the insulator thus assembled, using one of the methods described above, additional dielectric seals are sequentially installed (see 6 and 7).

The proposed technical solution makes it possible to increase the threshold for the onset of electric discharges at insulators from 20 to 45 kV. Filling annular gaps at the joints between the insulating part of the insulator and the electrodes eliminates a weak spot in the electric strength of the air gap and more than doubles the threshold for the onset of discharges at the insulator near its electrodes.

The economic effect of the proposed technical solution is determined by the possibility of abandoning screen devices mounted on strings of insulators in order to reduce the voltage drop on the bottom insulators of the strobes installed near the wires to limit corona discharge.

Claims (2)

1. A suspended high-voltage insulator containing an insulating part in the form of a body of revolution with a developed surface and coaxially arranged metal electrodes connected to it on both sides, characterized in that, in order to increase the reliability of the insulator and eliminate radio interference by increasing voltages of the onset of electrical discharges at the insulator; in the annular gaps at the joints between the insulating part of the insulator and the indicated electrodes, O-rings of dielectric. 2. Isolator pop. 1, characterized in that on the interface of the O-rings with the insulating part and the electrodes is a layer of adhesive sealant .. # vt.t Fig 2.