RU181902U1 - Moisture-proof communication cable - Google Patents

Abstract

The technical solution is a moisture-proof communication cable designed for use in manifolds, tunnels, shafts, along the walls of buildings with a large stay of people, including multi-functional high-rise buildings and complex buildings, and as a suspension on overhead communication lines. The technical solution for the moisture-proof communication cable is that in cables with conductive copper conductors insulated with polyethylene insulation through the use of a combination tape containing minutes and a layer of polyethylene terephthalate water blocking material expelled gap between the belt and the belt insulation water swelling tape, wherein when a significant damage along the cable sheath may extend moisture.

Description

H01B 11/00

Moisture-proof communication cable

The technical solution is claimed to be a moisture-proof communication cable with a low dielectric constant of insulation, intended for use in collectors, tunnels, shafts, on the walls of buildings with a large stay of people, including multi-functional high-rise buildings and in complex buildings, and as a suspension on overhead communication lines.

The prior art provides technical solutions for communication cables aimed at reducing the dielectric constant of insulation, for example, the technical solution "Telephone cable", patented as: (19) RU (11) 32 920 (13) U1, (51) IPC H01B 11/00 ( 2000.01), with the following set of essential features:

low-frequency communication cable with film-porous polyethylene insulation, containing copper conductive wires, each of which has a film-porous-film polyethylene insulation made of three layers: the inner layer is film insulation of high pressure polyethylene, the middle layer is porous, obtained by the method physical foaming with nitrogen using a blowing agent, the outer layer is a protective film coating of high pressure polyethylene. The cores insulated in this way are twisted into a star four around the filler core made of polymer thread, the four are wrapped with a fastening thread, these four are twisted into the cable core, additional pairs and cores are located between the four of the cable, belt insulation from polymer tape and cable paper tape is sequentially applied over the core , aluminum shell, bitumen layer and polymer shell.

The disadvantage of this cable is that it is not waterproof. And in conditions of increased humidity of the environment in which the cable is laid, if the sheath is damaged, the electrical characteristics of the cable may deteriorate and it may fail due to the penetration of moisture into the cable core.

Known moisture-proof telephone cable of various brands made according to TU 16.K71-468-2015 (see http://www.energokab.ru/katalog/telefonnyie-kabeli/tvbpnga-hf-tvbpbbpnga-hf/). Cable specifications:

Conducting vein - copper, single-wire, round; insulation - polyethylene; twisting - two insulated conductors twist in a pair of unidirectional twisting; the pairs are twisted into elementary five-pair bundles or the core of a five-pair cable with unidirectional twisting around a central cornel of water-blocking material; elementary bundles are twisted into a core; on top of the twisted core of the cables there should be an insulation consisting of a tape of water-blocking material, imposed spirally with overlapping polyethylene terephthalate tape, or a tape of water-blocking material; in the zone insulation a control core of copper wire with insulation of porous polyethylene is laid; the screen is made of aluminum-polymer tape and is superimposed by winding or longitudinally overlapping, a tinned copper contact wire is longitudinally laid under the screen; shell - from a halogen-free polymer composition; armor - for TBBPBbPng (A) - HF of two steel galvanized tapes, imposed helically with a gap; protective hose - for TBBPBbPng (A) - HF halogen-free polymer composition.

The disadvantage of this cable is that there is a gap between the belt insulation tape and the water blocking tape located on top of it, in which, with significant damage to the sheath, moisture can spread along the cable, because the absorbency of the water blocking tape is limited. Accordingly, the moisture resistance of the cable in the longitudinal direction will not be ensured.

The technical result of the solution of a moisture-proof communication cable with increased moisture resistance, claimed in the proposed utility model, is expressed in the fact that, in comparison with a water-resistant telephone cable of the brand TVBPng (A) -HF, made in accordance with TU 16.K71-468-2015 due to replacing the belt insulation tape and the water blocking tape located on top of it with a combination tape consisting of two layers of material: polyethylene terephthalate, which acts as a belt insulation and a water blocking material, which serves to provide moisture onepronitsaemosti gap between this screen and the ribbon tape.

In FIG. 1 is a cross-sectional view of a moisture-proof communication cable (hereinafter referred to as the cable) containing copper conductive conductors 1, each of which is laid with continuous polyethylene insulation 2. The insulated conductors are twisted in pairs together with a cordule of water-blocking material 3. Further, the couples containing water-blocking material, are twisted by unidirectional twisting into five- or ten-pair bundles 4 and then into the core of cable 5. On top of the core, a water-blocking tape 6, sequentially applied this belt insulation tape 7. Then, a screen made of aluminum-polymer tape 9 is applied by winding or longitudinally, a tinned copper contact wire is laid below the screen 8. A sheath 10 is made over the screen, which is made of a non-combustible polymer composition that does not contain halogens.

Between the water-blocking tapes and the combined belt insulation tape, a control wire made of copper wire with porous polyethylene insulation can be laid.

Also in the cable over the sheath there can be armor made of two steel galvanized tapes, imposed spirally with a gap.

A protective hose made of a halogen-free polymer composition may be applied over the armor.

Cable Examples

1. Moisture-proof communication cable with continuous polyethylene insulation of conductors, with water blocking materials twisted with pairs and on top of the core, with a combined belt insulation tape, with a screen made of aluminum-polymer tape, in a sheath of a non-combustible polymer composition that does not contain halogen.

2. Moisture-proof communication cable with solid polyethylene insulation of conductors, with water blocking materials twisted with pairs and over the core, with a combined belt insulation tape, with a screen made of aluminum-polymer tape, in a sheath of a non-combustible polymer composition that does not contain halogen, armored with steel galvanized tapes, with a protective hose made of a non-combustible halogen-free polymer composition.

Claims (5)

1. Moisture-proof communication cable containing copper conductive cores, each of which is covered with continuous polyethylene insulation, twisted in pairs together with a corridor of water-blocking material, then twisted into bundles and then into the core, a water-blocking tape, a combined belt insulation tape are sequentially laid on top of the core containing a layer of polyethylene terephthalate and a layer of water blocking material, a screen made of aluminum-polymer tape, a tinned copper contact wire is longitudinally laid under the screen, p a halogen-free, flame-retardant polymer composition is overlaid on top of the screen.
2. The cable according to claim 1, characterized in that the bundles are made five-pair.
3. The cable according to claim 1, characterized in that the bundles are made in ten pairs.
4. The cable according to claim 1, characterized in that between the water blocking tapes and the combined belt insulation tape a control core of copper wire with insulation made of porous polyethylene is laid.
5 . The cable according to claim 1, characterized in that the armor of two steel galvanized tapes is superimposed over the sheath, imposed helically with a gap, and a protective hose from a halogen-free polymer composition is superimposed on top of the armor.

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