RU203847U1 - ROD SUPPORT POLYMER INSULATOR - Google Patents

Abstract

The utility model relates to the field of electric power engineering, namely to rod support polymer insulators for overhead power transmission lines, as well as for insulating the fastening of live parts in electrical apparatus and switchgears of stations and substations. The insulator consists of a core 1, a protective silicon-organic shell 2 and two metal flanges 3 located at the ends of the core 1. The core 1 is made of a structural thermoplastic composite polymer material, and the metal flanges 3 functionally play the role of standard insulator end fittings and embedded elements during manufacturing core 1 by casting. Metal flanges 3 are made with protrusions 4, which make it possible to exclude their rotation and removal from the core 1. Thinning can be performed in the central part of the core 1, which allows to adjust the technological process of manufacturing insulators of various dimensions and geometric shapes. The core also provides for the implementation of internal cavities 5, facilitating the technology of manufacturing the core 1 of the insulator by casting. Flanges 3 can also be made from various non-magnetic materials. The proposed rod post polymeric insulator is distinguished by high technical characteristics in terms of the improved technological process for the production of insulators, namely, in the use of thermoplastic plastics, technologically advanced and cheap to process, and integration into the design of embedded metal flange elements, which are also easy to manufacture, easily placed in a press shape and firmly fixed in the core of the insulator during its casting. 2 c.p. f-ly, 2 dwg.

Description

The utility model relates to the field of electric power engineering, namely to rod support polymer insulators for overhead power transmission lines, as well as for insulating the fastening of live parts in electrical apparatus and switchgears of stations and substations.

Known rod polymer insulator containing fiberglass rod with a protective coating, located at the ends of the rod metal end fittings and screen fittings [1].

This well-known polymer rod insulator is not distinguished by high strength, durability, corrosion, alkaline and acid resistance, which is very important when operating insulators in difficult environments (areas with aggressive environments, seashores, fogs, salt effects, etc.).

There is also known an insulator containing a support rod made of a composite material reinforced with glass fibers, characterized in that the matrix of the composite material of the support rod is an inorganic phosphate binder selected from the group: magnesium, aluminum, chromium, zirconium phosphate binders, combined binders based on them and alkaline polyphosphate solutions [2].

The durability, mechanical and electrical strength, as well as corrosion resistance of this insulator may be insufficient under certain very harsh operating conditions of industrial use, since the support rod is made of a composite material reinforced with glass fibers only, and the binders are selected from a limited group of some metals, while At the same time, basalt rovings glued together by means of thermo-plastic binders have higher technical characteristics. In addition, the use of basalt rovings glued together by means of thermo-plastic binders makes it possible to reduce the cost of rod insulators.

The applicant and the authors solved the problem of developing a new rod support polymeric insulator, characterized by high technical characteristics, allowing to establish a technological process for manufacturing insulators of various dimensions and geometric shapes (in fact, the functional versatility of the claimed technical solution), to simplify and facilitate the technology of manufacturing the supporting core of the insulator by casting, and also to simplify the installation and fastening of the insulator on the wires of the overhead power transmission line while increasing its corrosion resistance. The aforementioned positive technical result was achieved due to a new set of essential design features of the rod support polymer insulator, made according to the present utility model, presented in the following formula of the utility model: material, and at least two flanges; the core is made with at least one internal cavity, and the said flanges are made of non-magnetic material with protrusions that prevent rotation and removal from the core; thinning is made in the central part of the core ”.

The essence of the invention is illustrated by drawings, where FIG. 1 shows a General view of a rod support polymer insulator made according to the present invention, a front view with a section; in fig. 2 - the same as in Fig. 1, top view.

The inventive rod support polymer insulator consists of a core (carrier) 1, a protective silicon-organic shell 2 and, for example, of two flanges 3 located at the ends of the core 1. The core 1 is made of a structural thermoplastic composite polymer material, and the flanges 3 functionally play the role standard insulator end fittings and embedded elements in the manufacture of core 1 by casting. Flanges 3 are made with protrusions 4, which make it possible to exclude their removal from the core 1. Thinning is performed in the central part of the core 1, which makes it possible to adjust the technological process of manufacturing insulators of various dimensions and geometric shapes. The core also provides for the implementation of internal cavities 5, facilitating the technology of manufacturing the core 1 of the insulator by casting. Flanges 3 can also be made of various non-magnetic materials.

The proposed rod post polymeric insulator for overhead power lines, as well as for insulating the fastening of live parts in electrical devices and switchgears of stations and substations, has high technical characteristics in terms of an improved technological process for the production of insulators, allowing to establish a technological process for manufacturing insulators of various dimensions and geometric shapes ( in fact, the functional versatility of the claimed technical solution), to simplify and facilitate the technology of manufacturing the bearing core of the insulator by casting, as well as to simplify the installation and fastening of the insulator on the wires of the overhead power transmission line with a simultaneous increase in its corrosion resistance. Information sources

[1] Description of the invention to the inventor's certificate No. 1554034 "Polymer rod insulator", Н01В 17/20, 17/38, declared 17.1187, published 03.30.90.

[2] Description of the invention to the patent No. 2342724 "Insulator with unlimited composite rod", Н01В 17/00, declared 13.09.2007, published 27.12.2008.

[3] Description of the invention to the patent No. 2386184 "Polymer insulator", H01B 17/00, declared 20.03.2008, published 10.04.2010.

[4] Description of the invention to the patent No. 2233493 "High-voltage pin linear insulator", N01V 17/20, declared 18.02.2003, published 27.07.2004.

[5] Description of the invention to the inventor's certificate No. 796918 "Suspended linear insulator", Н01В 17/02, declared 11.03.79, published 15.01.81.

[6] Description of the utility model to the patent of the Russian Federation "Suspended polymer insulator" No. 80707, class H01 B 17/02, declared on 01.10.2008, published on 20.02.2009.

[7] US Patent No. 2002104679, "Izolyator", class Н01В 17/00, published 08.08.2002.

[8] EP 042788 B1 "Support insulator", Н01В 17/14, published on November 21, 1984.

[9] Description of the invention to the patent No. 2014654 "Pin insulator", H01B 17/20, declared on 23.12.1991, published on 15.06.1994.

[10] US Patent No. 5147984 "High Voltage Suspension Insulator", H01B 17/02, published 1992.

[11] Description of the invention to the patent No. 291506 "Pin insulator", Н01В 17/20, declared 10.03.2006, published 10.01.2007.

[12] Description of the invention to the patent No. 2392678 "Polymer insulator", N01V 17/00, declared 06/10/2009, published 06/20/2010.

Claims (2)

1. Rod support polymeric insulator containing a core with a protective silicon-organic shell, made of a structural thermoplastic composite polymer material, and at least two flanges, characterized in that the core is made with at least one internal cavity, and the said flanges are made of non-magnetic material with protrusions that prevent turning and removing them from the core. 2. An insulator according to claim 1, characterized in that thinning is made in the central part of the core.

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