RU183609U1 - Low-pair cable in a monolithic sheath with a supporting cable - Google Patents

Abstract

The claimed technical solution relates to the cable industry, namely to electric communication cables, and can be used in the construction of low-pair cables in a monolithic sheath with a support cable.

The cable consists of two or more copper conductive conductors, insulated with a polymer composition, twisted into a pair, carrying a cable in a sheath of a polymer composition superimposed simultaneously on the cable core and a cable of steel wires from filling voids between insulated conductive conductors, forming a monolithic sheath twisted into a pair of veins, when applied, are covered with a polymethylsiloxane liquid (PMS liquid). The monolithic shell excludes the longitudinal penetration of moisture onto insulated cores twisted into pairs.

The claimed technical solution allows the use of a low-pair cable in conditions of high humidity, provides mechanical cutting of the cable ends without damaging the insulation of conductive conductors and expands the scope of the cable - use for suspension on overhead communication lines.

Description

The inventive utility model relates to the cable industry, namely to electric communication cables, and can be used in the construction of low-pair cables in a monolithic sheath with a support cable.

The communication cable PRPPM TU 16-705-450-87 is known, consisting of two parallel-conductive copper conductive conductors insulated with polyethylene and an outer sheath of light-stabilized polyethylene made of a homogeneous material, which forms a monolithic cable sheath that prevents longitudinal penetration of moisture into the cable, which reduces electrical characteristics of the cable.

This cable is intended for use on subscriber telephone lines and distribution networks of wire broadcasting at a voltage of 380 V and a frequency of up to 10 kHz.

The main disadvantage of this cable is the use of homogeneous materials in the insulation and the sheath, which eliminates the possibility of mechanical cutting of the cable ends without damaging the insulation of the conductive wires, as well as the absence of twisting of the isolated wires in pairs, which affects the cable's protection from external interference.

Closest to the claimed model (prototype) is a communication cable in a monolithic sheath (patent for PM of the Russian Federation No. 127244, publ. 12.21.2012)

A communication cable in a monolithic sheath, inside of which at least two copper conductive conductors coated with polymer insulation are located, located in the main polymer sheath, a thin intermediate polymer layer is laid around each conductive core with insulation, whose density is less than the density of the polymer of which the external insulator consists cable

This cable does not have the drawbacks mentioned above, but the imposition of an additional intermediate polymer layer for insulation increases the complexity of manufacturing. In addition, due to the adhesion of polymers, mechanical cable damage during installation may occur, especially during bends with a small radius of curvature, which reduces the electric strength of the cable and makes it difficult to use in conditions of high humidity. Also, this cable cannot be used for suspension on overhead communication lines.

The objective of the proposed technical solution is to create a low-coupled monolithic communication cable with a support cable designed for operation on broadband subscriber access networks in high humidity conditions, for suspension on overhead communication lines, which allows mechanical cutting of cable ends without damaging the insulation of conductive conductors.

The problem is solved as follows:

A low-coupled communication cable in a monolithic sheath contains at least two copper conductive cores, insulated with a polymer composition, twisted into a pair, with a carrier cable in a sheath of a polymer composition superimposed simultaneously on the cable core and steel wire rope with filling voids between insulated conductive cores, forming a monolithic the sheath twisted into a pair of cores when sheathing is covered with a polymethylsiloxane liquid (PMS liquid according to GOST 13032-77) when applying the sheath. The monolithic shell excludes the longitudinal penetration of moisture onto insulated cores twisted into pairs.

PMS fluid is a mixture of linear and branched polymers. The use of PMS fluid when applying the sheath provides a monolithic structure and eliminates the longitudinal penetration of moisture between insulated conductors, while lubrication with PMS fluid twisted into pairs of insulated conductors provides mechanical cutting of the cable ends without damaging the insulation of conductive conductors.

The supporting steel galvanized wire rope consists of twisted steel galvanized wires with a temporary tensile strength of 1570 N / mm ² (160 kgf / mm ² ). The supporting cable has a high tensile strength, expands the scope of the cable and allows the use of cable for suspension on overhead communication lines

The inventive utility model is illustrated in FIG. one.

In FIG. 1 shows a sectional view of a cable containing conductive conductors 1, insulated with a polymer composition 2, twisted in pairs, coated with a lubricant 3 from a PMS fluid, a galvanized steel cable 4 and a monolithic sheath made of a polymer composition 5, applied simultaneously to the cable core and the cable with filling voids between isolated veins.

PMS fluid has low adhesion and good water repellent properties. Due to this, the proposed cable can be used in conditions of high humidity. The presence of a PMS liquid layer allows automatic cable cutting without damaging its ends. The good dielectric properties of the PMS fluid provide the necessary electrical strength of the cable.

Claims (1)

Low-coupled communication cable in a monolithic sheath with a supporting cable, containing at least two copper conductive cores, insulated with a polymer composition, twisted into a pair, a supporting cable in a sheath of a polymer composition superimposed simultaneously on the cable core and a steel wire cable with filling voids between insulated conductive veins, forming a monolithic shell, moreover, twisted into a pair of veins when applying the sheath are covered with a polymethylsiloxane liquid (PMS liquid).

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