RU160781U1 - POWER CABLE - Google Patents

Abstract

A power cable containing the main copper conductive wires that have an extruded insulation layer, and one aluminum conductive earth conductor, which acts as a zero protective conductor, and an outer sheath, characterized in that the main copper conductive conductors and aluminum ground conductor are located in a common twist, with This aluminum conductive earth conductor has a plastic insulation.

Description

POWER CABLE

The utility model relates to cable technology, namely, power cables with plastic insulation, designed for transmission and distribution of electrical energy in stationary electrical installations for a rated alternating voltage of 0.66; 1 kV with main copper conductive cores, one copper conductive earth conductor, i.e. performing the function of a neutral protective conductor (PE). Climatic modification of UHL and T, placement categories 1 and 5 in accordance with GOST 15150-69.

Known electric power cable with plastic insulation and residential ground used for transmission and distribution of electrical energy in stationary electrical installations described in the patent for utility model RU 145334, taken as the closest analogue. Cable containing insulated conductive conductors, including main conductors and zero or no conductors, single-layer grounding conductor made of aluminum, filling gaps between conductors or without conductors, belt insulation of conductive conductors, copper shield or without it, pillow over or without shield, armor or without it, a separation layer on top of the armor or without it and the outer shell. A single-layer grounding conductor is located on top of the belt insulation, concentric coiled of aluminum wires.

However, such a cable has a high material consumption and weight due to the presence of an additional element - a single-layer ground conductor on top of the belt insulation, imposed by a concentric coil of aluminum wires.

The technical task is to develop a design of a power cable with plastic insulation for a nominal voltage of 0.66 and 1 kV with the main copper conductive cores, and one aluminum ground conductor, with a decrease in the material consumption and weight of the cable, and accordingly its cost while maintaining the technical characteristics of the cable.

The technical result is achieved in that the power cable containing the main copper conductive conductors, and one aluminum conductive earth conductor, which acts as a zero protective conductor, and the outer sheath, the main copper conductive conductors and aluminum ground conductor are located in a common twist, while the aluminum ground conductor has plastic insulation.

A utility model is illustrated in the drawing, where in FIG. 1 shows the proposed power cable in the context.

The power cable contains copper conductive conductors 1, and one aluminum conductive core 2, which performs the function of a zero protective conductor (PE). The main copper conductors and the aluminum ground conductor are insulated with 3 of plastic compound, the main copper conductors and the aluminum ground conductor are twisted into a common core, over the twisted core the cable contains a fastening winding 4, a pillow for armor 5 or without it, armor 6 in the form of a winding metal tapes or with or without spiral-wound metal wires, outer sheath 7.

As insulation material 3, polyvinyl chloride plastic compound, a composition of cross-linked polyethylene, and low fire hazard plastic compound are used.

As the material of the fastening winding 4, polypropylene tape, synthetic tapes, water blocking tapes, polyvinyl chloride plasticate tapes are used.

As the material of the cushion for armor 5, polyvinyl chloride plastic compound, polyethylene compositions, low fire hazard plastic compound, non-combustible plastic compound are used.

As the material of armor 6, steel galvanized tapes or steel galvanized wires are used.

As the material of the outer shell 7, polyvinyl chloride plastic compound, polyethylene compositions, low fire hazard plastic compound, non-combustible plastic compound are used.

The cross-section of the grounding conductor 2 made of aluminum provides conductivity equivalent to the conductivity of the copper core with the cross section given in the table.

Based on the data in table 1, we can conclude that the cross section of the conductive earth conductor made of aluminum fully ensures the conductivity of the conductive earth conductor made of copper.

Thus, the technical result is to reduce the material consumption and weight of the cable, and accordingly its cost while maintaining the technical characteristics of the cable.

Claims (1)

A power cable containing the main copper conductive wires that have an extruded insulation layer, and one aluminum conductive earth conductor, which acts as a zero protective conductor, and an outer sheath, characterized in that the main copper conductive conductors and aluminum ground conductor are located in a common twist, with This aluminum conductive earth conductor has a plastic insulation.

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