RU109904U1 - POWER CABLE FOR THE FAR NORTH AREAS - Google Patents

Abstract

 1. Power cable for regions of the Far North, containing twisted conductive conductors, each of which is coated with insulation, and a winding and a polymer sheath located on top of twisted conductive conductors, characterized in that an additional winding is applied between the conductive and insulation, while both windings are made with double overlapping of a polymer material with a low coefficient of friction for the possibility of moving the structural elements between themselves in the axial direction with a sharp change in temperature and eliminating the gap from olation and shell. ! 2. The cable according to claim 1, characterized in that fluoroplastic is used as a polymeric material with a low coefficient of friction.

Description

The utility model relates to power cables for the transmission and distribution of electrical energy for voltages up to 1 kV and can be used for areas of the Far North when laying in channels, collectors, blocks on racks and over bridges.

Known power cable (brand AVVG-1-HL, GOST 16442-80, manufacturer LLC "Kama cable"), which has three aluminum conductors, insulated with PVC compound, a winding of non-woven fabric and a sheath of PVC compound of high frost resistance.

Known power cable for medium voltage in a cold-resistant design for the transmission and distribution of electrical energy for voltages up to 35 kV, including aluminum or copper conductive core, conductive screen for conductive core, insulation made of cross-linked polyethylene, conductive shield for insulation, screen made of copper wires, bonded copper tape, separation layer, inner shell, thermal barrier and outer shell. The inner shell is made of a halogen-free polymer composition with an oxygen index of at least 40, the outer shell is made of low flammability polyvinyl chloride plasticate with a brittle temperature of not higher than minus 50 ° C (RU patent for utility model No. 90614 of 01/10/2010).

The closest design for the same purpose to the claimed utility model in terms of features is a power cable in the design of NG-HL, containing at least two conductive cores, on top of which insulation is made of plastic, located on top of the isolated cores, a spiral-wound winding in the form of a tape, a sheath of plastic . The insulation is made of plastic with a brittle temperature of 50 ° C (RU patent for utility model No. 63975 of 06/10/2007). This design is taken as a prototype.

Signs of the prototype, coinciding with the essential features of the claimed utility model - twisted conductive wires; each core is insulated; on top of twisted conductors are a winding and a polymer sheath.

A common drawback of the known cables is that with a sharp decrease in the ambient temperature, cracks in the insulation (or shell) occur due to longitudinal shrinkage, since the thermal expansion coefficient of aluminum and PVC compound are 2 times different from each other (aluminum - 22 10 ^-6 1 / ° С, polyvinyl chloride plastic compound-50 · 10 ^-6 1 / ° С).

The objective of the proposed technical solution is to create an AC cable for voltage up to 1 kV, which allows structural elements to move between themselves in the axial direction with a sharp change in temperature, to prevent insulation and sheath rupture.

The problem is solved due to the fact that in the known power cable containing twisted conductive conductors, each of which is coated with insulation, and located on top of twisted conductive conductors, a winding and a polymer sheath, an additional winding is applied between the core and insulation, while both windings are made with double overlapping of a polymer material with a low coefficient of friction for the possibility of moving the structural elements between themselves in the axial direction with a sharp change in temperature and eliminating times insulation and shell tear. Fluoroplastic is used as a polymer material with a low coefficient of friction.

Distinctive features of the proposed device from the prototype - additionally between the residential and insulation, a winding is applied; both windings are made with double overlap of a polymeric material with a low coefficient of friction for the possibility of movement of structural elements between themselves in the axial direction with a sharp change in temperature and to eliminate insulation and shell rupture; fluoroplastic is used as a polymer material with a low coefficient of friction.

Thanks to the windings made of fluoroplastic or other material with a low coefficient of friction with double overlap, the structural elements of the cable can move in the axial direction with a sharp change in temperature, which eliminates the gap in insulation and sheath.

The drawing shows a patentable cable:

1 - a conductive vein of a round or sector shape, 2 - a winding of a polymeric material, 3 - a polymer insulation, 4 - a winding of a polymeric material, 5 - a polymeric sheath.

The cable is made as follows.

The conductive core 1, twisted from aluminum or copper wires, and having a round or sector shape, is wrapped with a polymer tape 2 with double overlap. The polymer tape is made of fluoroplastic or other material with a low coefficient of friction. Then, polyvinyl chloride insulation 3 is applied by extrusion. The veins are twisted and wrapped with a polymer tape 4 made of fluoroplastic or other material with a low coefficient of friction with double overlap. Next, the polyvinyl chloride shell 5 is applied by extrusion.

Claims (2)

1. A power cable for regions of the Far North, containing twisted conductive conductors, each of which is coated with insulation, and a winding and a polymer sheath located on top of twisted conductive conductors, characterized in that an additional winding is applied between the conductive and insulation, while both windings are made with double overlapping of a polymer material with a low coefficient of friction for the possibility of moving the structural elements between themselves in the axial direction with a sharp change in temperature and eliminating the gap from olation and shell. 2. The cable according to claim 1, characterized in that fluoroplastic is used as a polymer material with a low coefficient of friction.