RU128773U1 - POWER CABLE FOR 6-35 kV VOLTAGE - Google Patents

Abstract

1. A power cable containing three conductive aluminum or copper conductors of a sector shape, on top of each of which a first screen of an electrically conductive polymer composition is sequentially laid by extrusion, insulation is made of a cross-linked polyethylene composition, a second screen is of an electrically conductive polymer composition, while the insulated conductors are twisted into a core on top of which a bonding layer is arranged in series, the metal screen of copper wires connected by a spirally imposed copper tape is separated layer and an outer extruded sheath, characterized in that the radius (r) of the first screen has a value in the range from 2.5 to 3.6 mm.2. The cable according to claim 1, characterized in that it further comprises a layer of an electrically conductive woven tape over each conductive core. The cable according to claim 1, characterized in that the second electrically conductive screen has adhesion to insulation, characterized by a tensile force in the range from 0.35 N to 20 N per 10 mm of the width of the electrically conductive screen. The cable according to claim 1, characterized in that the second electrically conductive screen is made of a material with a specific volumetric electrical resistance of not more than 400 Ohm ∙ m at 90 ° C. 5. The cable according to claim 1, characterized in that the fastening layer applied over the core is made by winding from at least one electrically conductive polymer tape, or from an electrically conductive glass tape, or an electrically conductive water blocking tape. The cable according to claim 1, characterized in that the separation layer, overlaid on top of the metal screen, is made of fiberglass cloth or extruded from a highly filled therm

Description

The utility model relates to the field of electrical engineering, namely to the construction of power cables with plastic insulation and a sheath intended for transmission and distribution of electrical energy in stationary electrical installations with an alternating voltage of 6-35 kV at a frequency of 50 Hz at an ambient temperature of minus 40 ° C to plus 50 ° C and relative humidity up to 98% at a temperature of plus 35 ° C.

A power cable is known, containing three conductive aluminum or copper conductors of a sector shape, on top of each of which a first screen of an electrically conductive polymer composition is sequentially applied by extrusion, insulation is made of a cross-linked polyethylene composition, a second screen is of an electrically conductive polymer composition, the wires are twisted into a core over which is sequential the winding is located with a tape of electrically conductive material, a common metal screen made of copper wires, a separation layer and extruded bunks a casing made of a composition of polyethylene or polyvinyl chloride plasticate and a copper wire is placed in the center of the core (RF Patent for Utility Model No. 50338, 2005).

However, the known power cable is designed only for a voltage of 6 kV.

The task was to develop a power cable designed for an extended range of operating AC voltages.

The technical result is achieved in that in a power cable containing three conductive aluminum or copper conductors of a sector shape, on top of each of which a first screen of an electrically conductive polymer composition is sequentially applied by extrusion, insulation is made of a cross-linked polyethylene composition, a second screen is of an electrically conductive polymer composition, while insulated conductors are twisted into a core over which a bonding layer is arranged sequentially, a metal screen made of copper wires connected by a spiral but imposed by a copper tape, the separation layer and the extruded outer shell, the radius of curvature (r) of the first screen has a value in the range from 2.5 to 3.6 mm.

The cable may further comprise a layer of electrically conductive woven tape over each conductive core.

In order to conveniently cut the cable during installation or repair, the second electrically conductive screen should be characterized by adhesion to insulation with a separation force value in the range from 0.35 to 20 N per 10 mm of the width of the electrically conductive screen.

The second electrically conductive screen is preferably made of a material with a specific volume electrical resistivity of not more than 400 Ohm * m at 90 ° C.

A bonding layer overlaid on the core can be made by winding from at least one electrically conductive polymer tape or electrically conductive glass tape or electrically conductive water blocking tape.

Preferably, a release layer is applied over the metal screen by winding of fiberglass or extruding from a highly filled thermoplastic material.

Inside the core, a metal wire wrapped in an electrically conductive water-swellable tape or a bundle of an electrically conductive water-swell or profile element made by extrusion of an electrically conductive polymer material can be placed inside the core.

Preferably, the insulation is made from a tear-resistant cross-linked polyethylene composition.

Over the separation layer, the cable may have armor in the form of a winding of metal tapes superimposed overlapping, or in the form of spirally superimposed metal wires.

The utility model is illustrated in the drawing, in which the power cable is shown in section.

The cable contains three conductive conductors 1, a layer 2 of an electrically conductive woven tape, a first shield 3, insulation 4, a second shield 5, a bonding layer 6, a metal shield 7, a separation layer 8, armor 9, an outer sheath 10, a metal wire 11 wrapped in an electrically conductive water swelling tape inside the core.

The following is information confirming the feasibility of implementing a utility model.

The materials used for the manufacture of the cable are manufactured in industry so, in particular, a cross-linked polyethylene composition is used as insulation material 4. In this material, the length of the water tring, which grew during 8760 h and at a temperature of 20 to 40 ° C under a voltage of 12 kV at a frequency of 50 Hz, applied to the interelectrode gap of 1.5 mm with a radius of curvature of the tip of a high-voltage electrode made in the form of a hollow needle and filled with 03- normal aqueous solution of NaC1, which is in the range from 25 to 50 microns, does not exceed 250 microns.

Screens 3 and 5 are made of an electrically conductive polymer composition.

As the material of the tapes or wires of the armor 9, galvanized steel is used.

The outer casing is made of a high density thermoplastic polyethylene composition or PVC compound.

Conductors 1 are made of copper or aluminum wire, traditional for electric cables, the twisting of the cable elements is performed on standard twisting equipment.

In the manufacture of cable, extrusion equipment and twisting machines commonly used in the cable industry are also used.

Crosslinking of polymeric materials is carried out on inclined lines of gas vulcanization.

It was experimentally shown that when the radius of curvature of the first screen is less than 2.5 mm at an operating voltage of more than 6 kV, the electric field increases, which leads to premature failure of the cable.

With a radius of curvature of more than 3.6 mm, an increase in the material consumption of the cable takes place.

Thus, the technical result consists in expanding the range of AC voltages at which cable operation is possible.

Claims (9)

1. A power cable containing three conductive aluminum or copper conductors of a sector shape, on top of each of which a first screen of an electrically conductive polymer composition is sequentially laid by extrusion, insulation is made of a cross-linked polyethylene composition, a second screen is of an electrically conductive polymer composition, while the insulated conductors are twisted into a core on top of which a bonding layer is arranged in series, the metal screen of copper wires connected by a spirally imposed copper tape is separated layer and an outer extruded sheath, characterized in that the radius (r) of the first screen has a value in the range from 2.5 to 3.6 mm. 2. The cable according to claim 1, characterized in that it further comprises a layer of electrically conductive woven tape over each conductive core. 3. The cable according to claim 1, characterized in that the second electrically conductive screen has adhesion to insulation, characterized by a peel force in the range from 0.35 N to 20 N per 10 mm of the width of the electrically conductive screen. 4. The cable according to claim 1, characterized in that the second electrically conductive screen is made of a material with a specific volumetric electrical resistance of not more than 400 Ohm ∙ m at 90 ° C. 5. The cable according to claim 1, characterized in that the fastening layer applied over the core is made by winding from at least one electrically conductive polymer tape, or from an electrically conductive glass tape, or an electrically conductive water blocking tape. 6. The cable according to claim 1, characterized in that the separation layer, overlaid on top of the metal screen, is made by winding of fiberglass or extruding from a highly filled thermoplastic material. 7. The cable according to claim 1, characterized in that inside the core there is a metal wire wrapped in an electrically conductive water-swelling tape, or a bundle of electrically conductive water-swelling tape, or a profile element made by extrusion of an electrically conductive polymer material. 8. The cable according to claim 1, characterized in that the insulation is made of a tear-resistant cross-linked polyethylene composition. 9. The cable according to claim 1, characterized in that it further comprises, on top of the separation layer, armor in the form of a winding of metal tapes superimposed overlapping, or in the form of spirally superimposed metal wires.

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