RU201983U1 - POWER CABLE FLEXIBLE SHIELDED MINING - Google Patents

Abstract

The utility model is intended for connecting self-propelled cars during underground mining with an electric drive to an alternating current network with a frequency of 50 Hz at a nominal voltage of 1140V on the main conductors and 220V on the auxiliary conductors. The conductive cores of the cable are twisted from copper wires, each of which is covered with insulation made of ethylene-propylene rubber, and a screen made of electrically conductive rubber is applied on top of the insulation. Inter-core harnesses are laid between the veins. The central core is made of high-strength aramid threads, between the inner and outer shells there is an anti-torsion braid made of strands twisted from polyester threads. The technical result is to increase the operational durability of the cable. 2 wp f-ly, 1 dwg

Description

The technical field to which the utility model belongs

The utility model is intended for connecting self-propelled cars during underground mining with an electric drive to an alternating current network with a frequency of 50 Hz at a nominal voltage of 1140 V on the main conductors and 220 V on the auxiliary conductors.

State of the art

Known flexible shielded cable (patent RU 68174 publ. 10.11.1007), which consists of three main shielded cores with rubber insulation, two ground cores and an auxiliary core in a sheath of rubber, the outer sheath is reinforced with synthetic threads. The main conductors are made of tinned copper wire.

Known power flexible shielded cable (Patent RU 178217 publ. 28.03.2018). The cable contains three main conductors of copper wires insulated with EPDM and an electrically conductive rubber shield over the insulation. The main conductors are twisted around a profiled conductive rubber core. In the intervals between the main current-carrying conductors there are auxiliary conductors, on top of which there is a braid of steel wires and rubber insulation. A split grounding conductor is applied to the insulation of the auxiliary conductor by winding from tinned copper wires. The inner shell is made of two layers, and the outer one is made of oil-resistant hose rubber with increased resistance to abrasion and tearing.

The disadvantage of the known solutions is the insufficient resistance of the cable to tensile loads, especially when the cable is used by drawing.

The essence of the utility model

The technical problem solved by the claimed utility model consists in increasing the operational durability of the cable operating by the drawing method or by the method of winding-winding on a drum, and ensuring the breaking strength of the cable at least 2.5 tons.

This problem is solved due to the fact that the flexible shielded mine power cable contains three main and auxiliary conductive conductors, twisted from copper wires, each of which is covered with ethylene-propylene rubber insulation, and on top of the insulation there is a screen of electrically conductive rubber, an uninsulated ground conductor, a central core and inter-core bundles, inner and outer rubber sheaths, while the central core is twisted from high-strength aramid threads, and between the cable sheaths there is an anti-torsion braid made of strands twisted from polyester threads.

The outer sheath of the cable can be made of oil-resistant with increased resistance to abrasion and tearing of hose rubber or thermoplastic polyurethane.

The design of the central core, twisted from high-strength aramid filaments, increases the tensile strength of the cable.

The use of an anti-torsion braid made of strands twisted from polyester strands increases the torsion resistance of the cable.

The design of the cable in the proposed set of essential features has not been identified in the known sources of information, which confirms its novelty.

Blueprints

The figure shows a cross section of a power flexible screened cable.

Implementation of the utility model

The cable contains three main conductors 1, an auxiliary conductor 2 and an uninsulated grounding conductor 3. The conductive conductors are twisted from copper wires, each of which is covered with EPDM insulation, and an electrically conductive rubber screen is applied on top of the insulation. The grounding conductor 3 is laid in the gap between the main shielded conductive conductors 1. The central core 4 is made of high-strength aramid threads. Between the cores 1 and 2, inter-core bundles 5 are laid. Between the inner and outer shells 6 and 7, an anti-torsion braid 8 of strands twisted from polyester threads is applied.

The manufacturing process includes such operations as drawing copper wire, twisting conductive conductors 1, applying rubber insulation, making a central core 4, general twisting of the main shielded and auxiliary conductors 1 and 2, applying sheaths and braiding 8 from strands twisted from threads, as well as electrical tests of insulated conductors and cables in finished form. For these purposes, the following are used: wire drawing machines, braiding machines, stranding machines for stranding conductive conductors and general stranding, equipment for braiding, continuous vulcanization units, testing equipment.

Power flexible shielded cable is operated at ambient temperatures from minus 30 ° C to plus 50 ° C, does not spread combustion. The long-term permissible operating temperature on the conductive cores of the cable is no more than plus 90 ° С. The minimum bending radius of the cable during installation and operation corresponds to 5 cable diameters. The breaking strength of the cable is not less than 2500 kgf.

The use of the proposed cable design makes it possible to increase the operational durability of the cable.

The claimed power flexible shielded cable meets the criterion of "industrial applicability", since it can be repeatedly produced and used for its intended purpose with the achievement of the specified technical result. Cable manufacturing does not cause difficulties for cable industry specialists. All materials used in the construction of the cable are known and commercially available in the industry. The cable is manufactured on the basis of well-known cable equipment and standard technologies.

Claims (3)

1. Power flexible shielded mine cable, containing three main and auxiliary conductive conductors, twisted from copper wires, each of which is covered with insulation from ethylene-propylene rubber, and a shield of electrically conductive rubber is applied on top of the insulation, an uninsulated ground conductor, a central core and inter-conductor harnesses, internal and an outer rubber sheath, characterized in that the central core is twisted from high-strength aramid filaments, and an anti-torsion sheath made of strands twisted from polyester filaments is applied between the cable sheaths. 2. The cable according to claim 1, characterized in that the outer sheath of the cable is made of oil-resistant, with increased resistance to abrasion and tearing of hose rubber. 3. Cable according to claim 1, characterized in that the outer sheath of the cable is made of thermoplastic polyurethane.

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