RU191692U1 - Post Insulator - Google Patents

Abstract

The utility model relates to the field of electric power industry, and more specifically to supporting rod high-voltage insulators with metal flanges reinforced at the ends. The technical result is achieved in a supporting insulator including an insulating piece of ceramic material made in the form of an insulating body with ring ribs and connecting walls, metal flanges attached to the ends of the insulating part, the insulating body of the ceramic support insulator with annular ribs and with dinitelnymi walls operate elliptical shape in cross section, the long axis of the ellipse is aligned with a temperature gradient in a spatial pozitsionirovaniya.Tehnicheskim result is to increase the service life of the support insulator. 1 ill.

Description

The utility model relates to the field of electric power industry, and more specifically to supporting rod high-voltage insulators with metal flanges reinforced at the ends.

Electrical products from ceramic materials must comply with GOST 20419-83. Ceramic electrotechnical materials. Classification and technical requirements [1].

The main equipment of substations, which undergoes wear, is support-rod porcelain insulation.

During long-term operation, the influence of external factors: moisture, temperature changes, mechanical loads and internal factors — violation of manufacturing technology, quality of raw materials, cracks form in the body of the insulating part of the ceramic insulator, which leads to destruction of the insulator.

A device is known for supporting insulator, containing flanges, an insulating body with wings of the same diameter, and these flanges are made with protrusions in the form of bosses on the holes on the side of the supporting surface of the flanges and the insulating body contains additional wings of a smaller diameter (Patent RU No. 39217 IPC Н01В 3/00. Published: May 20, 2009 Bull. No. 14).

The disadvantage of this insulator reference is the insufficient increase in the life of the insulator.

The closest in technical essence to the device is a support rod insulator containing an insulating part of an electrotechnical ceramic material, made in the form of a body of revolution with annular ribs, and metal caps fixed at the ends of the insulating part, and the ratio of the diameter of the rib to the diameter of the body of rotation is 2.8 and alumina porcelain with an alumina content of over 50% is used as the electrical material. (Patent RU No. 83157 IPC Н01В 17/14. Published: July 20, 2004 Bull. No. 20).

The advantage of the known device is to reduce the weight of the insulator while maintaining guaranteed strength and improving operating conditions, as well as improving reliability.

The disadvantage of the considered support rod insulator is the insufficient increase in the life of the insulator.

The proposed technical solution allows to eliminate these disadvantages.

The technical result of the utility model is to increase the service life of the support insulator.

The technical result is achieved in a support insulator, including an insulating part made of ceramic material, made in the form of an insulating body with annular ribs and connecting walls, metal flanges mounted at the ends of the insulating part, the insulating body of a ceramic supporting insulator with annular ribs and connecting walls being elliptical cross-sectional shapes, the long axis of the ellipse is combined with a temperature gradient in the conditions of spatial positioning Bani.

Distinctive features are:

the insulating body of the ceramic supporting insulator with annular ribs and connecting walls is ellipsoidal in cross section, such an insulating body can take into account the influence of the temperature gradient and increase the life of the insulator [4, C. 357];

the long axis of the ellipse is combined with a temperature gradient in conditions of spatial positioning, such an arrangement of the insulating body directly affects the service life of the supporting insulator.

Comparison of the proposed solutions with analogues and prototype, it was not possible to identify in them the features that distinguish the claimed solution, which allows us to conclude that the criterion of "novelty".

 The invention is illustrated by drawings:

Figure 1 shows the frontal section of the supporting insulator:

1 - connecting walls of the insulating body of the support insulator of ellipsoidal shape;

2 - annular ribs of an ellipsoidal shape of the insulating body of the support insulator;

3 - metal caps;

4 - cement mortar.

In Fig.2 shows a horizontal view in section aa from Fig.1:

1 - connecting walls of the insulating body of the support insulator of ellipsoidal shape;

2 - annular ribs of an ellipsoidal shape of the insulating body of the support insulator.

The proposed reference insulator works as follows.

The support insulator, mounted in the form of a disconnector column, isolates the live part from the non-conductive one. A metal flange 3 is mounted on the proposed disconnector, and an insulating body of an ellipsoidal support insulator is connected to it through cement mortar 4 through connecting walls 1 with ellipsoidal annular ribs 2. The support insulator is installed so that the long axis of the ellipse is aligned in the direction of the temperature gradient. The temperature gradient is taken to be solar heat directed to the insulator.

Information sources

1. GOST 20419-83. Ceramic electrotechnical materials. Classification and technical requirements.

2. Patent RU No. 39217 IPC Н01В 3/00. Posted: 05/20/2009 Bull. Number 14.

3. Patent RU No. 83157 IPC Н01В 17/14. Published: July 20, 2004 Bull. Number 20.

4. Tugov I.I., Kostrykina G.I. Chemistry and physics of polymers: Textbook. manual for universities. - M .: Chemistry, 1989 .-- 432 p. ISBN 5-7245-0243-7.

Claims (1)

A support insulator comprising an insulating piece of electrotechnical ceramic material made in the form of an insulating body with annular ribs and connecting walls, metal caps fixed at the ends of the insulating part, characterized in that the insulating body of the ceramic supporting insulator with annular ribs and connecting walls is elliptical in cross section, the long axis of the ellipse is combined with a temperature gradient in conditions of spatial positioning.

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