RU149454U1 - POWER CABLE - Google Patents

Abstract

1. Power cable containing three copper or aluminum stranded conductive conductors, each of which contains sequentially applied - a screen from an electrically conductive cross-linked polyethylene composition, insulation from a cross-linked polyethylene composition, a second screen from an electrically conductive cross-linked polyethylene composition, a winding with an electrically conductive tape, a metal screen, shielded the cores are twisted into a common core around a central filling, interfacial filling and an extruded outer shell, characterized in that meta The front screen is made in the form of a winding made of copper or aluminum tape. 2. The cable according to claim 1, characterized in that the thickness of the copper or aluminum tapes is from 0.06 to 0.15 mm. PP cable 1-2, characterized in that the conductive multi-wire core is equipped with a winding of conductive synthetic tape. 4. A cable according to claims 1 to 3, characterized in that each conductive multi-wire core can additionally contain water-blocking threads and tapes in the gaps between the wires. 5. The cable according to claims 1 to 4, characterized in that the cable further comprises an extruded inner sheath and armor arranged sequentially on top of the interfacial filling in the form of a winding of metal tapes superimposed overlapping, or in the form of spirally superimposed metal wires.

Description

 Power cable

The invention relates to cable technology, for structures power cables for the transmission and distribution of electric energy in the stationary electric equipment for alternating voltage of 6, 10, 15, 20 and 35 kV at 50 Hz at an ambient temperature of minus 40 ^C to plus 50 ^о С, with relative air humidity up to 98% at a temperature of plus 35 ^о С, as well as those providing the use of cables under the condition of significant tensile loads, when underwater laying, compliance with the requirements of on fire hazard GOST 31565-2012.

Known power cable for voltage of 6, 10, 15, 20 and 35 kV with copper or aluminum conductive round conductors, selected as the closest analogue (GOST R 55025-2012 Power cables with plastic insulation for voltage of 6-35 kV inclusive). For each core, an electrically conductive screen of an electrically conductive cross-linked polyethylene composition is applied by extrusion, an insulation of a cross-linked polyethylene composition is applied on the screen by extrusion, a second screen of an electrically conductive cross-linked polyethylene composition is applied on top of the insulation, a layer of electrically conductive tapes is superimposed on each core over an electrically conductive tape the tapes are superimposed on a metal screen made of coiled copper wires fastened with a copper tape , the shielded cores are twisted into a common core around a central filling, extrusion is applied to the core to fill the space between the cores from a highly filled polymer composition, the shell is from an extruded polymer composition.

One of the disadvantages of such cables is their large overall dimensions and high material consumption, which represents significant problems in the laying and installation of cables. A large mass (high material consumption) in turn justifies the high cost of the cable. The large overall dimensions of the cable create problems when laying new power lines in large cities due to cramped opportunities in free space, when installing in cable structures.

The technical problem is to reduce the overall dimensions and reduce the material consumption of the cable.

The technical result is achieved by the fact that in a power cable containing three copper or aluminum multi-wire conductive conductors, each of which contains sequentially applied - a screen from an electrically conductive cross-linked polyethylene composition, insulation from a cross-linked polyethylene composition, a second screen from an electrically conductive cross-linked polyethylene composition, winding with an electrically conductive tape , metal screen, shielded cores are twisted into a common core around a central filling, interfacial filling and extruded ruzhnuyu sheath, metallic shield is in the form of a coil of aluminum or copper tape.

Copper or aluminum tapes have a thickness of 0.06 to 0.15 mm.

The conductive multi-wire core is equipped with a winding of conductive synthetic tape.

Each conductive multi-wire core may further comprise water-blocking threads and tapes in the gaps between the wires.

The cable further comprises an extruded inner sheath and armor arranged sequentially on top of the interfacial filling in the form of a winding of metal tapes superimposed overlapping, or in the form of spirally superimposed metal wires.

The implementation of the metal screen of copper or aluminum tapes can reduce the overall dimensions and reduce the material consumption of the cable, because the thickness of copper or aluminum tapes is less than the diameter of the wires used as a metal shield in known designs of power cables for voltage of 6, 10, 15, 20, 35 kV. Due to this, the cable diameter on the metal screen is smaller.

The utility model is illustrated by drawing 1, which shows the proposed power cable in section.

The power cable contains three conductive conductors 1, twisted from copper or aluminum wires. Between the wires of the core there can be water blocking elements 2, on top of each core there can be a winding of electrically conductive synthetic or water blocking tape 3, each core is sequentially arranged: screen 4 from an extruded electrically conductive cross-linked polymer composition, insulation 5 from a cross-linked polyethylene composition, screen 6 by insulation from electrically conductive cross-linked polymer composition, winding with a tape of electrically conductive material 7, a metal screen of copper or aluminum tape 8, the shielded conductors are steeper They are placed in a common core around a central filling 9, a fastening winding 10 is applied over the core, extruded filling of the outer spaces between the shielded cores 11, the inner sheath 12, the armor from galvanized steel tape or steel galvanized wires 13, the outer sheath 14.

To eliminate the effect of wiring, a conductive synthetic or electrically conductive water blocking tape 3 can be applied to the conductive core by the method of winding.

For extruded electrically conductive screens 4 and 6, an electrically conductive cross-linked polyethylene composition is used.

As the insulation material 5, a cross-linked polyethylene composition is used.

As the material of the winding 7, an electrically conductive synthetic tape or an electrically conductive water blocking tape, or electrically conductive creped paper is used.

The metal screen 8 is made in the form of a winding of copper or aluminum tape with a thickness of 0.06 mm to 0.15 mm.

The central filling 9 is made of a bundle extruded from a polymer composition.

To impart stability to the twisted structure, a fastening winding 10 of polymer tape is used.

As a material for filling 11 external spaces between twisted shielded cores, a highly filled polymeric composition made of polyvinyl chloride plastic compound or low fire hazard polyvinyl chloride is used.

As the material of the inner shell 12, compositions of polyethylene or polyvinyl chloride plastic compound, or low combustibility polyvinyl chloride plastic compound, or low fire hazard polyvinyl chloride plastic compound are used.

As the material of the armor 13 is used galvanized steel tape, or steel galvanized wire.

As the material of the outer shell 14, compositions of polyethylene or polyvinyl chloride plastic compound, or low combustibility polyvinyl chloride plastic compound, or low fire hazard polyvinyl chloride plastic compound are used.

Claims (4)

1. Power cable containing three copper or aluminum stranded conductive conductors, each of which contains sequentially applied - a screen from an electrically conductive cross-linked polyethylene composition, insulation from a cross-linked polyethylene composition, a second screen from an electrically conductive cross-linked polyethylene composition, winding with an electrically conductive tape, metal screen, shielded the cores are twisted into a common core around a central filling, interfacial filling and an extruded outer shell, characterized in that meta The front screen is made in the form of a winding made of copper or aluminum tape. 2. The cable according to claim 1, characterized in that the thickness of the copper or aluminum tapes is from 0.06 to 0.15 mm 3. The cable according to paragraphs. 1-2, characterized in that the conductive multi-wire core is equipped with a winding of conductive synthetic tape. 4. The cable according to claims 1 to 3, characterized in that each conductive multi-wire core may further comprise water-blocking threads and tapes in the gaps between the wires. .5. The cable according to claims 1 to 4, characterized in that the cable further comprises an extruded inner sheath and armor sequentially arranged on top of the interfacial filling in the form of a winding of metal tapes superimposed overlapping, or in the form of spirally superimposed metal wires.

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