RU220114U1 - Mine cable - Google Patents

Abstract

The utility model relates to the cable branch of the electrical industry, namely, to the designs of flexible power mine cables designed to connect mobile mechanisms to electrical networks. The technical result is to increase the visibility of the cable in low light conditions. The technical result is achieved by the fact that between the core with conductive wires and the transparent outer sheath, the power cable contains a winding of a retroreflective tape arranged in series, as well as a layer of a transparent film to increase the brightness of the retroreflective tape. 3 w.p. f-ly.

Description

The utility model relates to the cable branch of the electrical industry, namely, to the designs of flexible power mine cables designed to connect mobile mechanisms to electrical networks for a rated alternating voltage of 380/660 V, frequency up to 400 Hz or a constant rated voltage of 1000 V.

The closest analogue (prototype) is known from the prior art - this is a power mine cable containing three main copper current-carrying conductors, an auxiliary conductor twisted from strands, covered with rubber insulation, shielded, a ground conductor, over which a two-layer sheath is applied, characterized in that between the inner and outer layers of the shell there are threads based on synthetic fiber, covered with glass particles in the form of spheres, while a thin layer of metal with a high specular reflection value is deposited on them, and the outer layer of the shell is made of a transparent polymer material (patent RU No. 203938 " Mine power cable", M. class H01B 9/02, published on 04/28/2021).

To improve the visibility of the mine cable in low light conditions, threads with a retroreflective effect were used in the prototype in combination with a transparent sheath. However, there is potential to enhance this effect.

Since this area of application is characterized by a high probability of equipment colliding with the cable and its damage due to insufficient illumination, the task to be solved by the claimed technical solution is to develop a flexible power cable design with a reduced risk of damage and failure in mine conditions.

This task is achieved due to the fact that the power mine cable contains a core with conductive wires, a transparent outer sheath, and between them there is a winding of a retroreflective tape and a layer of transparent film over the winding in series.

The technical result provided by the above set of essential features is the increased visibility of the cable in low light conditions by increasing the brightness of the retroreflective tape.

The use of reflective tape allows, by increasing the visibility of the cable, to significantly reduce the risk of vehicles colliding with it in conditions of limited illumination. The use of tape instead of the threads described in the prototype increases the area of the reflective surface, which makes the cable more visible. As is known from the experience of creating retroreflective films for road signs (“WHICH RETRO REFLECTIVE TAPE IS THE BRIGHTEST?” https://reflectivetape.info/which-retro-reflective-tape-is-the-brightest/), some of the brightest are materials in which there is an air gap between the retroreflective elements - spheres or prisms, and the outer protective layer. To ensure this effect, a layer of polyethylene terephthalate film has been added to the cable design, which is applied by winding over the core with a winding of reflective tape applied. Thus, in the next operation, during the extrusion application of the outer transparent polyurethane shell, the filling of voids between the retroreflective elements with molten polyurethane is excluded and the air gap is preserved. The described design significantly increases the visibility of the cable in low light, which reduces the risk of equipment colliding with it and failing it.

The claimed design of a flexible power mine cable contains copper or tinned copper stranded conductive conductors corresponding to a flexibility class of at least 5 according to GOST 22483. In addition to the main conductive conductors, there may be auxiliary conductors, zero or ground conductor. Each of these conductive cores is covered with heat-resistant rubber insulation. The design may also include one or more uninsulated earth conductors in the center of the cable or in the space between the main insulated conductors. Insulated conductive wires are twisted together or around a rubber filler. An inner sheath of thermoplastic polyurethane can be applied over the stranded strands. Next, a layer of retroreflective tape, a layer of transparent polyethylene terephthalate film tapes and an outer sheath of transparent polyurethane are successively superimposed.

Cable manufacturing is carried out on the basis of well-known cable equipment and standard technologies. The manufacturing process includes such operations as wire drawing on drawing machines, twisting of the conductive core on twisting machines for twisting the conductive cores. Insulation, inner and outer shells are applied by extrusion. Reflective tapes and tapes made of transparent polyethylene terephthalate film are applied by winding.

Claims (4)

1. A power mine cable containing a core with conductive conductors coated with rubber insulation and a transparent outer sheath, characterized in that between the core and the outer sheath it contains a winding of a retroreflective tape and a layer of transparent film arranged in series. 2. Mine power cable according to claim 1, characterized in that the current-carrying conductors have a flexibility class of at least 5th. 3. Mine power cable according to claim 1, characterized in that the transparent film over the winding of the retroreflective tape is made of polyethylene terephthalate. 4. Mine power cable according to claim 1, characterized in that the transparent sheath is made of polyurethane.