RU150536U1 - SINGLE-WIRE CABLE WITH MULTI-WIRE SEALED ALUMINUM OR COPPER RESIDENT - Google Patents

Abstract

A single-core cable with a multi-wire aluminum or copper core, including an outer sheath and an inner insulation placed around the core, around which there is a device for ensuring protection equipment trips during cable breakdown and short-circuit currents, characterized in that the device for providing protection equipment for cable breakdown and the appearance of short circuit currents is made in the form of two concentric conductors made of copper, while the first conductor is placed around internal insulation, and around the first conductor there is an additional layer of internal insulation, around which there is a second conductor, enclosed between water-blocking layers, both layers of internal insulation and the outer sheath of the cable made of polymer.

Description

The utility model relates to cable technology, namely to electric cables for land transport, or metro.

The closest in technical essence and the achieved result is a single-core cable with a multi-wire aluminum core, including an outer insulation and an inner insulation placed around the core, around which there is a device to ensure that the protection equipment works when the cable is broken and short-circuit currents appear (ASBLU 1 × single-core cable 800 + 2 × 1.5, GOST 18410-73 “Cross-section of conductors of power cables with impregnated paper insulation”).

In the known cable, the outer moisture-proof sheath is made of jute, and the inner insulation is made of oil-soaked paper, a lead sheath is placed inside, and the device for ensuring that the protection equipment works when the cable is broken and short-circuit currents appear is a spiral-wound control core.

The disadvantages of the known cable is: high safety requirements for the large weight of the cable due to the presence of a lead sheath; low cable throughput due to the low operating temperature of the core equal to + 70 ° C; the impossibility of laying the cable at an angle to the horizontal, and even more so vertically, due to dripping of the impregnation composition of the insulation down inside the cable; maximum permissible conductor temperature for short circuits - 160 ° C; gradual destruction of the lead shell under the influence of electrochemical corrosion; extremely low environmental safety of the product due to the presence of lead.

The technical result to which this technical solution is directed is to reduce labor protection requirements associated with improving cable safety; increase in throughput by increasing the permissible core temperature to 90 °; increase in thermal stability current during short circuit up to 250 °; weight reduction, the possibility of reducing the diameter and bending radius of the cable; the ability to lay the cable at temperatures up to - 20 ° C without preliminary heating; smaller bending radius of the cable equal to 15D; the absence of any liquid components allows to reduce time and reduces the cost of laying and installation, as well as provides the ability to lay the cable when the height difference on the track.

The specified technical result is achieved by the fact that in a single-core cable with a multi-wire aluminum or copper core, including an outer sheath and an inner insulation placed around the core, around which there is a device to ensure that the protection equipment operates during cable breakdown and short-circuit currents, according to the utility model, to ensure the operation of protection equipment during cable breakdown and the appearance of short circuit currents, it is made in the form of two concentric wires copper conductor, with the first conductor placed around the layer of internal insulation, and around the first conductor there is an additional layer of internal insulation, around which there is a second conductor, enclosed between the water-blocking layers, both layers of internal insulation and the outer sheath of the cable are made of polymer.

The drawing shows a single-core cable with a multi-wire aluminum or copper core.

A single-core cable contains a multi-wire aluminum or copper core 1, an inner insulation 2 made of polymer (for example, cross-linked polyethylene), a first concentric conductor 3 of copper (for example, copper tape), an additional layer of internal insulation 4 made of polymer (for example, cross-linked polyethylene), a second concentric conductor 5 of copper, water blocking layers 6 and a shell 7 made of polymer.

The cable is made as follows:

On a multi-wire aluminum or copper core 1, an insulation 2 made of a polymer (for example, cross-linked polyethylene) is placed. A copper tape is tightly wound onto the insulation 2 without gaps to obtain the first concentric conductor 3, on which an additional layer of internal insulation 4 made of polymer (for example, cross-linked polyethylene) is placed. A copper tape is tightly wound onto the insulation 4 without gaps to obtain a second concentric conductor 5 enclosed between the water-blocking layers 6, and then a sheath 7 made of polymer is applied.

A single-core cable with a multi-wire aluminum or copper core can be used to transfer electrical energy from traction substations to the contact wires of a gorelektrotrans. Provides reliable and uninterrupted operation of urban electric vehicles.

A multi-wire aluminum or copper core 1 provides the convenience of cable management due to its flexibility. Polymer insulation 2 and 4 is a modern type of insulation and is selected for the specific conditions of cable laying, its use allows you to lay the cable both at an angle to the horizontal and vertically. The presence of two concentric conductors 3 and 5 made of tightly wound (without gaps) wound copper tapes provides more reliable operation of the protection equipment during cable breakdown and short circuit currents, since concentric conductors completely cover the surface of the core and give a signal during breakdown at any point in the cable. In the known ASBLU cable 1 × 800 + 2 × 1.5, a thin control core is wound in a spiral and a large area of the cable remains uncovered by its surface, and therefore, when the cable is broken in these areas, the protection equipment will not work. The sheath (hose) 7 is made of polymer and provides reliable corrosion protection and sealing of the cable against moisture penetration and additional protection of personnel from electric shock in case of accidental contact with a working cable or in emergency situations.

The proposed single-core cable with a multi-wire aluminum or copper core has a higher throughput compared to the known ASBLU cable 1 × 800 + 2 × 1.5 by increasing the permissible operating temperature of the core to 90 ° C, high thermal current with a short circuit of 250 ° C , less weight, smaller diameter and bending radius, the possibility of laying at temperatures up to -20 ° C, the absence of any liquid components, which reduces time and reduces the cost of laying and installation, it is possible spine cabling with a difference of heights on the track.

Claims (1)

A single-core cable with a multi-wire aluminum or copper core, including an outer sheath and an inner insulation placed around the core, around which there is a device for ensuring protection equipment trips during cable breakdown and short-circuit currents, characterized in that the device for providing protection equipment for cable breakdown and the appearance of short circuit currents is made in the form of two concentric conductors made of copper, while the first conductor is placed around internal insulation, and around the first conductor there is an additional layer of internal insulation, around which there is a second conductor, enclosed between water-blocking layers, both layers of internal insulation and the outer sheath of the cable made of polymer.

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