RU226491U1 - Explosion-proof cable for low voltage - Google Patents

Abstract

The utility model relates to the designs of power cables for use in electrical installations in hazardous areas. The technical result consists in ensuring the explosion safety of the low voltage power cable. The technical result is achieved by the fact that the power explosion-proof cable contains a current-carrying core covered with insulation, a winding with tapes coated with unvulcanized rubber, a metal screen and a sheath. The metal screen is pressed into a layer of tape made of unvulcanized electrically conductive rubber, and the shell is applied to fill the gaps of the metal screen elements. 5 salary f-ly.

Description

The utility model relates to the cable branch of the electrical industry, namely to the designs of power cables for use in electrical installations in hazardous areas of all classes, intended for the transmission and distribution of electrical energy in installations with a rated alternating voltage of 0.66; 1 and 3 kV, nominal frequency 50 Hz.

The prototype is an explosion-proof sealed power cable for use in electrical installations in hazardous areas of all classes, as well as for underground workings intended for the transmission and distribution of electrical energy in stationary installations with a rated alternating voltage of 0.66; 1 and 3 kV; containing conductive cores, sealed with synthetic threads, insulated with polyvinyl chloride plastic compound of reduced fire hazard and twisted into a core around a sealed bundle, inner and outer shells made of polyvinyl chloride plastic compound of reduced fire hazard (patent RU 215269, published 12/06/2022, bulletin No. 34). The known cable may also contain a metal screen made of one or two copper tapes or copper wires secured with copper tape.

The features of the known cable, which coincide with the features of the claimed utility model, consist in the construction of an explosion-proof power cable containing a conductor covered with insulation, a metal screen and a sheath.

The disadvantage of the known prototype (technical problem) is the insufficient explosion safety of the low voltage power cable if it contains a metal shield.

The technical problem is solved by eliminating the voids that arise when applying a metal screen between its elements. The following design has been developed. The explosion-proof power cable contains a current-carrying core covered with insulation, a winding with tapes, a metal screen and a shell, characterized in that the winding is made of tapes coated with unvulcanized rubber, the metal screen is pressed into a layer of tape made of unvulcanized rubber, and the shell is applied to fill the gaps of the elements of the metal screen .

This solution leads to a technical result: ensuring the explosion safety of low voltage power cables. To obtain a power cable that can be used in explosive areas, first of all, it is necessary to ensure the tightness of all structural elements of the cable, preventing the movement of explosive air mixtures inside the cable cavities.

The conductor is made sealed with synthetic threads or gel, or made of single wire. If there are several insulated conductors in the cable, they are twisted around a central filling made in the form of a bundle of soft, non-hygroscopic fibrous or polymeric material, or from a polymer composition with the addition of synthetic threads, which, when twisted, is deformed and fills the internal gap between the insulated conductors, repeating it form.

The metal screen can be made in the form of a winding with metal tapes, or in the form of wires wrapped with a metal tape. Due to the fact that the metal screen is placed on a tape coated with unvulcanized rubber (which is a soft material), its elements are pressed into the tape. An outer shell is applied over the screen with crimping, filling the voids of the screen elements, and also further helping to press the screen elements into the tape.

Implementation of a utility model

The explosion-proof power cable contains sealed or single-wire conductors twisted using standard torsion equipment. Sealing of the cores can be done with synthetic threads or gel.

Each conductor is covered with polymer insulation, made, for example, of polyvinyl chloride plastic compound of reduced fire hazard, applied on a standard extrusion line.

Insulated conductive cores are twisted on a general twisting machine, around a central core, which can be made in the form of a bundle of soft, non-hygroscopic fibrous or polymeric material, or from a polymer composition with the addition of synthetic threads, which, when twisted, is deformed and fills the internal gap between the insulated cores, repeating its shape.

An extruded separating layer of polymer material is applied over the twisted cores to give the cable a round shape.

On top of the insulation or on top of the separating layer on the shielding line, a winding with tape coated with unvulcanized electrically conductive rubber, as well as a metal screen, is applied.

A compression casing is applied over the screen on the extrusion line.

All structural elements of the claimed utility model are sealed, due to which there are no voids in the cable. Thus, the proposed design of a sealed explosion-proof power cable can be used for installation in cable structures and industrial premises, including in explosive areas, while the power cable fully satisfies the requirements of GOST R 58342-2019 “Power and control cables for use in electrical installations in explosive areas.” environments,” each structural element of the cable is a necessary feature to achieve the specified technical result, and the totality of essential features is sufficient to achieve the technical result provided by the utility model.

Claims (6)

1. A power explosion-proof cable containing a conductor covered with insulation, a winding with tapes, a metal screen and a sheath, characterized in that the winding is made of tapes coated with unvulcanized rubber, the metal screen is pressed into a layer of tape made of unvulcanized rubber, and the sheath is applied to fill the gaps metal screen elements. 2. Explosion-proof power cable according to claim 1, characterized in that the conductor is sealed. 3. Explosion-proof power cable according to claim 1, characterized in that it contains several conductive cores, covered with insulation, twisted around a central filling. 4. Explosion-proof power cable according to claim 1, characterized in that the metal screen is made in the form of a winding with tapes. 5. Explosion-proof power cable according to claim 1, characterized in that the metal screen is made in the form of wires wrapped with tape. 6. Power explosion-proof cable according to any one of paragraphs. 1-4, characterized in that the shell is applied with compression.