RU42689U1 - POWER CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely, to the design of power cables with aluminum or copper conductive conductors with XLPE insulation, intended for the distribution of electrical energy in stationary installations in electrical networks at a voltage of 10 kV AC at a frequency of 50 Hz. The utility model allows you to develop the design of the power cable having a high degree of protection against mechanical stress, and as a result increased service life. The power cable contains an aluminum or copper conductive core, a shield on a core of a semiconducting cross-linked composition based on polyethylene, insulation from a cross-linked composition based on polyethylene, a shield on insulation from a semiconducting cross-linked composition based on polyethylene, a layer of an electrically conductive tape, and a polymer outer sheath. The cable further comprises a lead sheath, an anti-corrosion layer, a cushion for armor and armor made of non-magnetic metal or alloy tapes sequentially applied to the conductive tape.

Description

The utility model relates to cable technology, namely, to the design of power cables with aluminum or copper conductive conductors with XLPE insulation, intended for the distribution of electrical energy in stationary installations in electrical networks at a voltage of 10 kV AC at a frequency of 50 Hz.

Known power cables of the brands APvV (P), PVV (P) containing aluminum or copper conductive core, a screen on a core of a semiconductor cross-linked composition based on polyethylene, insulation from a cross-linked composition based on polyethylene, a screen for insulation from a semi-conductive cross-linked composition on the basis of polyethylene , a layer of conductive tape, a copper screen and a polymer outer sheath (Power cables with insulation made of cross-linked polyethylene TU16. K71 - 300-200).

A power cable is also known, containing an aluminum or copper conductive core, a screen for a core of a semiconducting cross-linked composition based on polyethylene, an insulation of a cross-linked composition based on polyethylene, a screen for insulation of a semiconducting cross-linked composition based on polyethylene, a layer of an electrically conductive tape, a copper screen and polymer outer shell (see utility model RF№34033, publ. 20.11.2003).

This technical solution is the closest to the proposed combination of features.

The disadvantages of the known cable should include the lack of protection of the cable from mechanical damage.

The task for the utility model is to design a power cable that has a high degree of protection against mechanical stress, and as a result, an increased service life.

The technical result is achieved by the fact that a power cable containing an aluminum or copper conductive core, a screen for a conductor from a semiconductor cross-linked composition based on polyethylene, insulation from a cross-linked composition based on polyethylene, a screen for insulation from a semiconducting cross-linked composition based on polyethylene, a layer of an electrically conductive tape , and the polymer outer shell, further comprises a lead shell sequentially applied to the electrically conductive tape, an anticorrosive layer, a pillow under the armor and armor from the tapes not magnetic metals or alloys.

The outer shell may be made of a composition based on polyethylene.

The outer shell may be made of polyvinyl chloride plastic compound.

The outer shell can be made of PVC compound with an oxygen index of at least 32.

The pillow under the armor can be made tape type.

The pillow under the armor can be extruded.

The pillow under the armor and the outer shell can be made of a polymer material with an oxygen index of at least 32,

In Fig.1 shows a power cable in section.

The power cable contains aluminum or copper conductive core 1, screen 2 along core 1 of a semiconducting cross-linked composition based on polyethylene, insulation 3 from a cross-linked composition based on polyethylene, screen 4 on insulation 3 from a semiconducting cross-linked composition based on polyethylene, a layer of conductive tape 5 sequentially superimposed on a layer of an electrically conductive tape 5, a lead sheath b, an anticorrosive layer 7, a cushion 8 for armor, an armor 9 of non-magnetic metal or alloy tapes, and a polymer outer shell 10. The outer shell and 10 may be made of a composition based on polyethylene. The outer shell 10 may also be made of polyvinyl chloride plastic compound. The outer shell 10 can be made of PVC compound with an oxygen index of at least 32. Pillow 8 for armor 9 can be made of tape type.

Pillow 8 under the armor 9 can be extruded. Pillow 8 under the armor 9 and the outer shell 10 can be made of a polymer material with an oxygen index of at least 32.

The following is evidence of the industrial applicability of the utility model.

For the manufacture of cable using materials known and traditional for the cable industry, which are produced according to the regulatory documentation of manufacturers.

Make a cable as follows. The twisting of the conductive core 1 is performed on a torsion machine of a lantern type. The overlay of the screen 2 for the core, insulation 3. screen 4 for insulation is produced simultaneously on an extrusion line with three extruders. The application of a layer of electrically conductive tape 5 is produced on an existing tape wrapper. The application of the anticorrosive layer 7, armor 9 is made on existing equipment for applying protective coatings. The application of cushion 8 under the armor 9 and the outer shell 10 is carried out on existing extrusion equipment by extrusion.

The technical result is an increase in the resistance of the cable to mechanical stress.

Claims (7)

1. A power cable containing an aluminum or copper conductive core, a screen for a conductor of a semiconducting cross-linked composition based on polyethylene, an insulation of a cross-linked composition based on polyethylene, a screen for insulation of a semiconducting cross-linked composition based on polyethylene, a layer of an electrically conductive tape and a polymer outer sheath characterized in that it further comprises a lead coating, a corrosion-resistant layer, a cushion under the armor and armor made of non-magnetic metal tapes sequentially applied to the electrically conductive tape in or alloys. 2. The cable according to claim 1, characterized in that the outer sheath is made of a composition based on polyethylene. 3. The cable according to claim 1, characterized in that the outer sheath is made of polyvinyl chloride plastic compound. 4. The cable according to claim 3, characterized in that the outer sheath is made of polyvinyl chloride plastic compound with an oxygen index of at least 32. 5. The cable according to claim 1, characterized in that the pillow under the armor is made of a tape type. 6. The cable according to claim 1, characterized in that the pillow under the armor is extruded. 7. The cable according to claim 1, characterized in that the cushion under the armor and the outer shell are made of a polymer material with an oxygen index of at least 32.