SU1749915A1 - Flat electrical cable - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to cable technology, and can be used as a flexible conductor to moving receivers having a receiving-and-receiving drum, which eliminates cable twisting during operation. The aim of the invention is to improve the quality of the cable by ensuring the stability of the geometric dimensions. The cable contains three main conductors 1 and an auxiliary conductor 3 with insulation 2, a ground conductor 4 with an electrically conductive coating 5. All conductors are located on a line passing through the longitudinal axis of symmetry of the cable, with a common shield 6 and sheath 7 superimposed on them, in the zone of the end areas of which the thickenings are symmetrically made. In these thickenings, reinforcing elements 8 are located parallel to the axis of symmetry of the cable. 1 Il. fe

Description

The invention relates to electrical engineering, in particular, to cable technology, and can be used as a flexible conductor to mobile receivers having a receiving-and-receiving drum.

A flat cable with multilayer insulation is known for a multi-signal transmission line containing flat and round conductors embedded in an insulating core material. The insulating sheath of the cable is made of a material with a higher dielectric constant than the core material.

This cable cannot be used as a power cable, especially for powering mobile power receivers.

Also known is a flat electrical cable for transmitting energy and signals, comprising circular conductors arranged symmetrically with respect to the longitudinal axis of the cable. Each core contains one element of increased strength. This cable does not completely solve the problem of reducing the tensile and compressive deformation during repeated bends, since in round veins most of the cross-section wires do not coincide with the longitudinal axis of the cable, which leads to their premature destruction.

The aim of the invention is to improve the quality of the cable by ensuring the stability of geometric

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The goal is achieved by the fact that the flat insulated conductors are located symmetrically relative to the longitudinal axis of the cable and are enclosed in a common polymeric sheath.

The use of flat insulated conductors solves the problem of cable resistance in repeated bends, however, it increases the width of the cable and the instability of the geometric dimensions of the cable when applying an insulating sheath. A significant excess of the cable width to its height, when pressing out the electrically conductive and hose rubber compounds in a solid plastic state on the workpiece, leads to a significant increase in pressure, laziness in the corners of the gap between the mandrel and the die, which leads to a shift in the cores cable.

Due to the fact that the electrically conductive screen is formed in the pre-compression zone, its imposition does not make it possible to displace the outermost cores to the center, since the excess pressure in the electrically conductive layer at the time of contact with the workpiece is already extinguished by the rubber mixture of the shell.

The formation of the shell takes place at the end of the gap between the end of the mandrel and the beginning of the cylindrical part of the matrix, and the cylindrical section of the extruded mass passes into a rectangular section. In this case, a large pressure difference arises between the center and the edges of the gap, which leads to the displacement of the extreme strands toward the center. In order to ensure the stability of the geometric dimensions of the cable in the places of increased pressure of the extruded mass, the gap between the mandrel and the die is increased, which ensures pressure equalization and leads to thickening of the shell at the cable ends. In the thickening of the shell, on the end sections, reinforcing elements are located parallel to the axis of symmetry of the cable.

The drawing shows a flat cable of the proposed design.

The cable contains three main conductors 1 with insulation 2, auxiliary conductor 3 with insulation 2 and -with grounding 4 with an electrically conductive coating 5. All conductors are located symmetrically on one line, which coincides with the longitudinal axis of the cable and they are superimposed on a common shield 6 of electrically conductive rubber. On top of the screen b, a sheath 7 made of hose rubber is applied, and it is thickened at the end sections. In the thickening of the shell 7 above and below the outermost cores, reinforcing elements 8 are placed, which are made of metal or

thermofixed synthetic yarn.

The cable is manufactured as follows.

On a twin screw continuous vulcanization unit for a cable blank consisting of three main insulated cores made of packages of four cold-rolled copper strips of size 20x х0, 2 mm each, auxiliary insulated and grounding screened,

made in the form of similar packages of cold-rolled copper strips of 12 x 0.1 mm in size, and reinforcing elements, simultaneously impose an electrically conducting screen and a sheath of hose

rubber. In order not to disturb the placement of the wires in the cable, the gap between the mandrel and the die is increased by 1/6 the thickness of the middle part of the cable sheath from above and below at a distance of 1/4 from the cable width at both ends,

which ensures pressure equalization in the gap.

Flat conductors located on the longitudinal axis of a flat cable have a much greater bending resistance than

round, which ensures an increase in the service life of such a cable.

Claims (1)

Claims of the Invention A flat electrical cable for mobile receivers with symmetrically arranged relative to the longitudinal axis flat insulated conductors enclosed in a common sheath of polymeric material, characterized in that, in order to improve the quality of the cable by ensuring the stability of geometrical dimensions, the shell in the zone of the end sections is made with thickening symmetrical about the specified axis, while in these areas of the shell reinforcing elements are located parallel to the axis of symmetry of the cable.  oh oh 4 5 6 78 l . x-i-. nЈЈbrs  3Jlf5 Ltd