RU224311U1 - Power explosion-proof cable - Google Patents

Abstract

The utility model relates to the cable branch of the electrical industry. The technical result consists in providing a power cable for the transmission and distribution of electrical energy in stationary installations at a rated alternating voltage of 6 to 35 kV in hazardous areas. The cable contains a sealed conductive core, sequentially covered with an electrically conductive screen along the core, insulation and an electrically conductive screen along the insulation, a metal wire screen and a sealing layer in the form of a winding of tapes coated with unvulcanized electrically conductive rubber, applied with subsequent compression in such a way that in the space between the wires of the screen there are no unfilled voids or shell. 4 salary f-ly.

Description

The utility model relates to the cable branch of the electrical industry, namely to the designs of power cables for the transmission and distribution of electrical energy in stationary medium voltage installations, intended for installation in areas where an explosive mixture of air and flammable substances may be present.

State of the art

The closest analogue (prototype) is a power cable containing three conductive cores, sealed with synthetic threads, an internal electrically conductive screen, rubber insulation and an external electrically conductive screen, a sealing layer of electrically conductive paper tapes or electrically conductive polymer tape, non-woven fabric or electrically conductive water-blocking tape, a copper screen, while the insulated and shielded conductors are twisted into a core around a bundle of unvulcanized rubber, and the inner and outer sheaths are applied on top (patent RU No. 203498 “Sealed power cable for medium and high voltage”, M. class. H01B 7/295, published 04/07/2021).

The technical problem solved when implementing the utility model is the need to expand the arsenal of power cables intended for installation in areas where an explosive mixture of air and flammable substances may be present.

Disclosure of the essence of the utility model

This problem is solved by creating an alternative technical solution to the known one chosen as a prototype, while the utility model achieves the same technical result as the prototype, namely the development of a sealed power cable for the transmission and distribution of electrical energy in stationary installations at rated alternating voltage from 6 to 35 kV in hazardous areas.

The essence of the utility model is expressed in the following set of essential features, sufficient to implement the purpose of the utility model: the presence in the explosion-proof power cable of a sealed current-conducting core, covered with an electrically conductive screen along the core, insulation, an electrically conductive screen along the insulation, the presence of a metal wire screen and a sealing layer in the form of a winding from tapes and sheaths coated with non-vulcanized electrically conductive rubber; applying a sealing layer in the form of a winding of tapes coated with unvulcanized electrically conductive rubber over a metal wire screen, followed by compression in such a way that, due to the softness of the unvulcanized electrically conductive rubber, it fills all the voids in the space between the screen wires.

These essential features ensure constructive unity and implementation of the device for general functional purposes, namely, the possibility of using power cables for medium voltage from 6 to 35 kV in areas in which an explosive mixture of air and flammable substances may be present, since each of the listed structural elements is necessary and sufficient to realize the purpose of the utility model, the structural elements are applied sequentially and ensure the absence of unfilled voids into which an explosive mixture of air and flammable substances can penetrate and spread.

Implementation of a utility model

An example of the implementation of a utility model is an explosion-proof power cable for medium voltage from 6 to 35 kV, consisting of a core, which consists of insulated and shielded conductive cores twisted around a central filler in the form of a bundle of non-hygroscopic polymer material, with the outer gaps filled with sealing material. Each current-carrying core is made of copper or aluminum wires, sealed with synthetic threads, tapes or other filler, sequentially covered with a screen made of cross-linked electrically conductive ethylene-propylene composition along the core (or cross-linked electrically conductive polyethylene), insulation made of cross-linked ethylene-propylene composition (or cross-linked polyethylene), screen from a cross-linked electrically conductive ethylene-propylene composition (or from a cross-linked electrically conductive polyethylene) insulation, a metal wire screen, a winding of tapes coated with unvulcanized electrically conductive rubber, applied with subsequent compression by passing the workpiece through a gauge or other tool in such a way that there are no unfilled voids. The outer shell can be made of fireproof polyvinyl chloride plastic or a halogen-free polymer composition. The cable may also contain an extruded inner sheath, armor pad, sealed armor cover, laminated aluminum polymer tape, or a thermal barrier in the form of glass tape. Depending on the specific operating conditions, materials are used to make the cable that ensure its fire safety or fire resistance.

Cable production is carried out on the basis of well-known cable equipment and standard technologies. The cable design has been successfully tested in production conditions.

Claims (5)

1. Power explosion-proof cable containing a sealed conductor core, sequentially covered with an electrically conductive screen along the core with insulation and an electrically conductive screen along the insulation, a metal wire screen, a sealing layer, a sheath, characterized in that the sealing layer is made in the form of a winding of tapes coated with unvulcanized electrically conductive rubber , on top of a metal wire screen and applied with subsequent compression in such a way that unvulcanized electrically conductive rubber fills the voids in the space between the wires of the metal screen. 2. Power explosion-proof cable according to claim 1, characterized in that it contains several sealed conductive cores twisted into a core, each of which is sequentially covered with an electrically conductive screen along the core, insulation and an electrically conductive screen along the insulation. 3. Explosion-proof power cable according to claim 2, characterized in that a metal screen and a sealing layer applied over it are made along each core. 4. Explosion-proof power cable according to claim 2, characterized in that it contains a common metal screen and a sealing layer applied over it. 5. Power explosion-proof cable according to any one of paragraphs. 1-4, characterized in that it contains a sealed armored cover.