RU235252U1 - Pass-through insulator for explosion-proof electrical equipment - Google Patents

Abstract

The utility model relates to feed-through insulators for input and output compartments of explosion-proof devices and electrical machines. The technical result is the possibility of adapting the feed-through insulator to the overall dimensions of input and output compartments of explosion-proof electrical machines and devices with an operating voltage of 3300 V. For this purpose, the feed-through insulator for explosion-proof electrical equipment contains an insulating housing, internal and external metal bushings rigidly installed therein, a current-carrying stud with a contact clamp and with a recess on the opposite side for connecting a conductor by soldering, installed in the opening of the internal metal bushing, forming an explosion-proof cylindrical connection, wherein on the outer surface of the insulating housing there are ribs with a radius rounding, located along the circumference of the insulating housing on both sides of the external metal bushing, which makes it possible to minimize the axial length of the insulator. 1 Fig.

Description

The utility model relates to electrical engineering, namely to feedthrough insulators, and can be used for insulation and fastening of current-carrying parts, transmission of electrical energy between chambers of explosion-proof enclosures of explosion-proof electrical equipment with voltage up to 3300 V, primarily in potash mines and coal mines that are hazardous due to gas and dust.

A feedthrough insulator for explosion-proof electrical equipment is known, which is closest in technical essence to the claimed utility model (Author's Certificate No. 626442 dated September 30, 1978 [1]), comprising a housing made of electrical insulating material, external and internal metal bushings hermetically pressed into the housing, and a current-carrying pin with a contact clamp installed in the opening of the bushing, forming a cylindrical explosion-proof connection. The disadvantages of this design are that increasing the leakage paths for the purpose of using this insulator design in devices and electrical machines with an operating voltage of 3300 V requires increasing the axial size of the insulator, which limits the scope of its application in conditions of insufficient space and/or limited access.

A bushing insulator for outdoor high-voltage electrical equipment is known (patent document RU 2473997 C2 dated 10.12.2011 [2]) comprising a conductor extending along the axis, a core and an electrically insulating polymer housing for protection against atmospheric influences, molded on the core. The electrically insulating housing is made of a polymer based on silicone or water-repellent epoxy resin. The housing contains ribs and is located on the core in such a way that it is located from the top of the support flange along the adjacent outer surface of the core to the upper end of the housing. The housing protects the core from aging caused by radiation (UV) and atmospheric influences, and ensures good insulating properties during the entire service life of the bushing insulator. The shape of the ribs is made in such a way that they have a surface that self-cleans when exposed to rain. This avoids the accumulation of dust or dirt on the surface of the ribs, which can affect the insulating properties and lead to an electric discharge around the surface of the insulator. The disadvantages of this design are its inapplicability to ensure explosion-proof chambers of apparatuses and electrical machines of explosion-proof enclosures of explosion-proof electrical equipment, since such a design is applicable for general industrial electrical equipment of outdoor design and the presence of ribbing, which increases the leakage path along the surface of the insulated housing only on one side of the bushing insulator.

The objective of the utility model is to create a design for a feedthrough insulator with reduced overall dimensions while simultaneously maintaining the required parameters of explosion-proof connections and values for the length of leakage paths.

The technical results of the utility model are the adaptation of the feedthrough insulator to the overall dimensions of the input and output compartments of explosion-proof electrical machines and devices with an operating voltage of 3300 V by making the insulating housing with ribs, which allows minimizing the axial length of the insulator.

The fig. shows a feed-through insulator for explosion-proof electrical equipment, comprising an insulating body (1), internal (2) and external (3) metal bushings rigidly installed therein, and a current-carrying pin (4) with a contact clamp installed in the opening of the metal bushing (2), forming an explosion-proof cylindrical connection. On the surface of the insulating body (1) there are ribs with a radius rounding on both sides of the external metal bushing (3). The insulating body (1) is made of epoxy compound, forming sealed explosion-proof connections with the internal (2) and external (3) bushings. The internal bushing (2) has a mesh knurling on the external cylindrical surface, and the external bushing (3) has an internal metric thread, which provides additional mechanical fastening of the sealed connections in addition to the adhesion of the compound. At the end of the current-carrying pin (4) opposite the contact clamp, a hexagon with a recess is made, intended for connecting a conductor by soldering, providing the possibility of assembling a feed-through insulator with a current-carrying pin (4) and its electrical connection in conditions of insufficient space and limited access.

Sources of information:

1. A.s. 626442 USSR, IPC H01B 17/26. Bushing insulator for explosion-proof electrical equipment / V.N. Pesyukov, I.D. Telyavsky, V.A. Vaysengolts (USSR) − No. 2328129/24-07; declared 26.02.1976; published 30.09.1978, bulletin No. 36.

2. Patent RU 2473997 C2, IPC H01B 17/28 High-voltage bushing insulator for outdoor installation / J. Rox, V. Tillette, V. Odermatt, V. Gehrig – declared. RCT 09/08/2011, published 01/27/2013 Bulletin No. 3.

Claims (1)

A feedthrough insulator for explosion-proof electrical equipment, comprising an insulating body, internal and external metal bushings rigidly installed therein, a current-carrying stud with a contact clamp and with a recess on the opposite side for connecting a conductor by soldering, installed in an opening in the internal metal bushing, forming an explosion-proof cylindrical connection, characterized in that on the outer surface of the insulating body there are ribs with a radius rounding, located along the circumference of the insulating body on both sides of the external metal bushing.