RU2734229C2 - Pin insulator - Google Patents

Abstract

FIELD: electric power engineering.

SUBSTANCE: invention relates to pin insulators for overhead transmission lines 10÷35 kV. Insulator consists of two composite elements (1), (2) made of tempered glass and interconnected by fastening binder. On the composite element there are internal annular ribs (4). Outer diameter of element (1) is in range of 230...300 mm, and element (2) outer diameter is in range of 170...250 mm. Element (2) is functionally used as a separate pin insulator. Selection of values of outer diameters of element (1) and element (2) is carried out by calculation based on experimental data obtained from operation of pin insulators. Size of outer diameter of both upper and lower insulating parts (1, 2) influences, first of all, the length of the path of leakage of electric current along the insulator body. Outer diameter of upper insulation part (1) is selected larger than outer diameter of lower insulation part (2) in order to fully close lower insulating part (2) and thereby ensure high purity of the whole insulator. Besides, due to use of element (2) as separate insulator, device prime cost is reduced.

EFFECT: pin plug is disclosed.

1 cl, 2 dwg

Description

The invention relates to the field of power engineering, in particular to pin insulators for overhead power lines 10 ÷ 35 kV.

Known pin linear insulator containing two concentrically installed and interconnected by a sand-cement bond insulating parts, one of which is made of porcelain, characterized in that the second insulating part is made of tempered glass [1].

This pin line insulator is made according to the traditional technology, in which its insulating parts are interconnected with a sand-cement bond, which does not provide optimal reliability characteristics of insulators when they operate in polluted environmental conditions.

Known pin insulator, containing an insulating body in the form of concentrically installed and rigidly connected to each other, at least two insulating parts made of tempered glass with ribs, characterized in that the rib of the upper and lower insulating parts is made with an increased protrusion with an inner annular rib, the peripheral part the ribs of the upper insulating part is made with a bend of a large radius, at the junction of the upper and lower insulating parts, a horizontally oriented annular projection is made on the lower insulating part. [2].

However, this pin line insulator is not characterized by high electrical characteristics, sufficient operational reliability and acceptable manufacturing costs.

The applicant set himself the task of developing a new design of a pin insulator for overhead power lines for a higher voltage, namely 10 ÷ 35 kV, which does not have the disadvantages of the above and other technical solutions identified by the applicant in his information search (ensuring high mechanical and electrical characteristics of the pin insulator, especially when operating in areas with saline soils and increased industrial pollution). The aforementioned positive technical result was achieved due to a new set of structural distinctive features of the claimed invention for a pin insulator, presented in the following claims (options): "pin insulator for overhead power lines 10 ÷ 35 kV, consisting of at least two: upper and lower insulating parts made of tempered glass and interconnected by means of a fastening bond; the outer diameter of the upper insulating part is selected to be larger than the outer diameter of the lower insulating part, while at least one of the above-mentioned insulating parts is provided with at least two inner annular ribs, the outer diameter of the upper insulating part is in the range of 230 ... 300 mm, and the outer diameter of the lower insulating part is in the range of 170 ... 250 mm; pin insulator for overhead power lines 10 ÷ 35 kV, consisting of at least two: upper and lower insulating parts made of tempered glass and interconnected by means of a fastening ligament, and the lower insulating part is made of double-wing configuration; the outer diameter of the upper insulating part is chosen to be larger than the outer diameter of the lower insulating part, while the outer diameter of the upper insulating part is in the range 230 ... 300 mm, and the outer diameter of the lower insulating part is in the range 170 ... 250 mm; pin insulator for overhead power lines 10 ÷ 35 kV, consisting of at least two: an upper insulating part made of a spherical or bell-shaped configuration, and a lower insulating part without internal annular ribs, made of tempered glass and interconnected by means of a fastening ligaments; the outer diameter of the upper insulating part is selected to be larger than the outer diameter of the lower insulating part, while the outer diameter of the upper insulating part is in the range of 230 ... 300 mm, and the outer diameter of the lower insulating part is in the range of 170 ... 250 mm; the lower insulating part is functionally used as a separate pin insulator; the bond is made as a cement-sand bond or as a glue bond ”.

The essence of the invention is illustrated by drawings, where FIG. 1 shows a general view of a pin insulator made according to the present invention, front view (according to the first and second independent claims); in fig. 2 is a general view of a pin insulator made according to the present invention, front view (according to the third independent claim).

The proposed pin insulator for overhead power lines 10 ÷ 35 kV consists of two component elements 1, 2, made of tempered glass (upper and lower insulating parts). They are connected with each other by means of a fastening ligament 3, which can be used as: a cement-sand ligament or an adhesive ligament (Fig. 1).

On one component are internally annular ribs 4. The outer diameter of the upper component 1 is in the range of 230 ... 300 mm, and the outer diameter of the lower component 2 is in the range of 170 ... 250 mm.

In the variant according to the second independent claim, the lower component element 2 is made of a double-wing configuration 5 (Fig. 1).

According to the third independent claim, the upper component 6 is made in the form of a spherical or bell-shaped configuration without inner annular ribs (the lower component can also be made with a double-wing configuration 5).

The lower component 2 can functionally be used as a separate pin insulator.

The choice of the values of the outer diameters of element 1 in the range of 230 ... 300 mm and element 2 in the range 170 ... 250 mm is carried out by calculation based on experimental data obtained from the results of operation of pin insulators of this type on overhead power lines of various voltage classes. The size of the outer diameter of both the upper and lower insulating parts 1, 2 affects, first of all, the length of the electric current creepage through the insulator body (the larger the outer diameter of the insulating part, the longer the creepage distance of the insulator electric current). The outer diameter of the upper insulating part 1 is selected to be larger than the outer diameter of the lower insulating part 2 in order to completely cover the lower insulating part 2 and thereby ensure high cleanliness of the entire insulator (this is especially important when operating insulators in conditions of severe environmental pollution). The inner annular ribs 3, 4, made on the upper insulating part 1, also help to ensure an acceptable creepage distance for the electric current of the insulator. The embodiment of the upper insulating part 1 without internal annular ribs is more used for the operation of insulators in a relatively "clean" environment (the optimal value of the electric current creepage distance is achieved in this design variant due to the appropriate shape of the insulating parts). As you can see, the ranges of values of the outer diameters of insulating parts are essential and integral features of the proposed technical solution (any developed pin insulator should be characterized by its own, only inherent, value of the outer diameter of insulating parts).

The manufacture of the insulator according to the present invention is carried out as follows: the manufacture of the insulating parts 1 and 2 is carried out by molding electrical insulating glass from the melt, followed by heat treatment - hardening. Then, the insulating part 1 is rigidly fixed to the insulating part 2 with the help of the fastening ligament 3 (cement-sand ligament or adhesive ligament).

The inventive pin insulator is characterized by high mechanical strength and high electrical characteristics, in particular, high breakdown voltage and optimal creepage distance for electric current (due to the use of tempered insulating glass as a material for the manufacture of insulating parts). The double-winged shape of one (lower) of the insulating parts allows the insulators to be successfully used in areas with saline soils and increased industrial pollution, in contrast to the standard widely used pin insulators, which have a negative practice of working in such harsh environmental conditions. In addition, the spherical or bell-shaped upper insulating piece facilitates natural washing of the insulator and does not reduce the creepage distance of the electric current when the wire is laterally attached. The use of the lower insulating part is functional as a separately operating pin insulator, naturally significantly improves the cost performance of the proposed technical solution.

Sources of information

[1] Description of the invention to the patent of the Russian Federation No. 2248057, "Pin linear insulator", Н01В 17/32, declared on 01.10.2003, published on 10.03.2005.

[2] Description of the invention to the patent of the Russian Federation No. 2431898, "Pin linear insulator", N01V 17/00, declared on 01.07.2010, published on 20.10.2011.

[3] Description of the invention to the patent of the Russian Federation No. 2291506, "Pin insulator", N01V 17/20, declared 10.03.2006, published 10.10.2007.

[4] Description of the invention to the patent of the Russian Federation No. 2014654, "Pin insulator", N01V 17/20, declared on 23.12.1991, published on 15.06.1994.

[5] Description of the invention to the patent of the Russian Federation No. 2178612, "Power line", Н02G 7/00, Н01В 17/46, Н01Т 4/00, declared 30.071999, published on 27.07.2001.

[6] US Patent No. 5945636, H01B 17/00, published 08/31/1999.

Claims (2)

1. A pin insulator for overhead power lines 10 ÷ 35 kV, consisting of at least two - upper and lower - insulating parts made of tempered glass and interconnected by means of a fastening bundle, while the outer diameter of the upper insulating part is selected larger than the outer diameter of the lower insulating part, characterized in that due to the choice of the outer diameter of the upper insulating part in the range of 230 ... 300 mm, and the outer diameter of the lower insulating part in the range 170 ... 250 mm, the lower insulating part is functionally used as a separate pin insulator. 2. An insulator according to claim 1, characterized in that the fastening bond is made as a cement-sand bond or as an adhesive bond.

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