RU203938U1 - POWER CABLE SHAFT - Google Patents

Abstract

The utility model relates to cable technology, namely to the structures of cables intended for connecting electrically driven self-propelled cars to power grids for a nominal voltage of alternating current up to 1140 V of a nominal frequency of 50 Hz on the main conductors and up to 220 V on an auxiliary conductor. containing three main copper conductive conductors, an auxiliary conductor, twisted from strands, covered with rubber insulation, shielded, a grounding conductor, on top of which a two-layer sheath is applied, characterized in that synthetic fiber-based threads covered with glass particles are located between the inner and outer layers of the sheath in the form of spheres, both solid and hollow, and the outer layer of the shell is made of transparent polymer material.

Description

Technical field to which the utility model belongs

The utility model relates to cable technology, namely to the structures of cables intended for connecting electrically driven self-propelled cars to power grids for rated alternating current voltage up to 1140 V and rated frequency 50 Hz on the main conductors and up to 220 V on the auxiliary conductor.

State of the art

Known power mine cable, containing twisted together three insulated, conductive conductors of equal cross-section, shielded with semi-conductive rubber along the conductive conductor and insulation, an insulated auxiliary conductor, an uninsulated ground conductor and a rubber sheath, characterized in that a reinforcing element of steel wire is applied over the rubber sheath or a tape over which a colored, flame retardant PVC sheath has been applied. (Patent RU 70042, published 01/10/2008, bull. No. 1).

The features of the known cable, which are common with the features of the claimed utility model, are that the cable contains three main conductive conductors, a screen for the insulation of the main conductors of electrically conductive materials, one insulated auxiliary conductor, an uninsulated ground conductor and a sheath applied over the twisted conductors.

The closest analogue (prototype) is a flexible power cable containing three main conductive conductors, each of which is covered with rubber insulation and an electrically conductive rubber screen, an auxiliary conductor covered with rubber insulation and an electrically conductive rubber screen, a ground conductor and an outer sheath, characterized in that the specified the cores are twisted around the polymer core with filling of the inter-core space (Patent RU 176966, published 02/06/2018, bul. No. 4).

The features of the known cable, which are common with the features of the claimed utility model, are that the cable contains three main insulated, screened conductive conductors, an auxiliary insulated, screened conductor and a ground conductor, on top of which a sheath reinforced with threads is applied.

The reason that prevents the claimed technical result from being obtained in the known cable is that the sheath is made of rubber or thermoplastic polyurethane, which does not provide visibility of the cable in spaces with low illumination.

The technical problem lies in the need to ensure visual recognition of the cable during its operation, due to the fact that the operation is carried out in mines with limited visibility. Disclosure of the essence of a utility model

The technical result is achieved by the fact that the shell is applied in two layers, reflective threads are applied over the inner layer of the shell, and the outer layer of the shell is applied from a transparent polymer material. Filaments based on synthetic fibers, covered with glass spheres, have the ability to reflect a beam of light back to the source. To increase the intensity of reflection, glass spheres are used on the surface of which a thin layer of metal with a high reflection value is applied. The outer sheath of a transparent color does not absorb reflected light, thus, when an external light source hits the cable, with this design, it will be possible to recognize it even in conditions of limited visibility.

The use of reflective threads in the construction of mine cables will reduce the risk of accidents at mining sites in low light conditions and will expand the arsenal of mine cables for a voltage of 1140 V for self-propelled cars.

Implementation of the utility model

Within the scope of the claimed patent rights, the following embodiments of the utility model are possible.

The main, auxiliary conductive conductors and the grounding conductor of the cable are made of copper wires, twisted from strands. One or two layers of rubber insulation and a screen made of electrically conductive rubber are superimposed on the main, auxiliary conductive conductors. The grounding conductor is located in the center of the cable and is twisted around a reinforcing core made of synthetic filaments. The grounding conductor can be covered with a layer of electrically conductive rubber. These cores are twisted around a reinforcing core based on synthetic threads, or a profiled rubber core based on polyester threads, while the grounding core is located in the twine.

The spaces between the veins are filled with rubber reinforcing ropes based on synthetic threads.

On the above twisted cores, a layer of a rubber sheath is applied, on top of which threads based on synthetic fibers are applied, covered with glass spheres, on the surface of which a thin layer of metal with a high specular reflection value is applied. The threads are applied to the casing using the braiding method.

A layer of polymeric material, such as polyurethane, polyethylene, transparent PVC, is applied over the threads.

Claims (7)

1. Power mine cable, containing three main copper conductive conductors, an auxiliary conductor, twisted from strands, covered with rubber insulation, shielded, a ground conductor, on top of which a two-layer sheath is applied, characterized in that threads based on synthetic fibers covered with glass particles in the form of spheres, with a thin layer of metal with a high specular reflection applied to them, and the outer layer of the cladding is made of a transparent polymer material. 2. Cable according to claim 1, characterized in that the rubber insulation is applied in one or two layers. 3. Cable according to claim 1, characterized in that the screen is made of electrically conductive rubber. 4. Cable according to claim 1, characterized in that the grounding conductor is covered with a layer of electrically conductive rubber. 5. A cable according to claim 1, characterized in that the grounding conductor is located in the center of the cable and is twisted around a reinforcing core based on synthetic threads. 6. A cable according to claim 1, characterized in that the inter-core spaces are filled with rubber reinforcing harnesses based on synthetic threads. 7. The cable according to claim 1, characterized in that the main and auxiliary conductors are twisted around a profiled rubber core based on polyester filaments, while the grounding conductor is located in the twine.