RU161611U1 - FIRE RESISTANT COMMUNICATION CABLE - Google Patents

Abstract

Fire-resistant communication cable containing a core having a conductive medium, a belt insulation of the core, an aluminum-polyethylene shield, overlaid on a belt insulation, a halogen-free protective sheath located on top of the shield, the conductive medium of the core consists of insulated conductive wires twisted into pairs that are twisted into elementary bundles, which in turn are twisted into the main multi-pair bundles of multidirectional twisting, the core insulation of the core consists of polyester tapes, aluminum fields the ethylene screen is an aluminum-polyethylene tape, longitudinally overlapped on the core with the metal inside, a halogen-free protective shell located on top of the screen, made of light-stabilized non-hygroscopic polymeric material that does not contain halogens, characterized in that the insulation of each conductive core is made in the form film-porous-film layer, while the outer and inner layers are made of continuous polyethylene, the middle layer is made of porous polyethylene, and free core, the space is filled with hydrophobic filler.

Description

FIRE RESISTANT COMMUNICATION CABLE

The inventive utility model relates to communication cables, namely, symmetrical fire-resistant telephone cables, which are designed for use in local telephone communication networks, where high demands are placed on cable protection from fire and moisture, both indoors and outdoors, for example, in collectors , tunnels, mines.

At present, a fire-resistant communication cable is known (Certificate for Utility Model No. 1641, publ. 12/27/2000), which includes a core having a conductive medium, a belt insulation of the core, an aluminum-polyethylene shield, a protective sheath that is applied over the belt insulation and does not contain halogens, located over the screen. The conductive medium consists of isolated conductive conductors twisted into pairs or fours, which are twisted into elementary bundles, which in turn are twisted into the main multi-pair bundles with multidirectional twisting. The insulation of each conductive core is two-layer, made of porous and continuous polyethylene. The core core insulation consists of polyethylene terephthalate or polyester tapes. The aluminum-polyethylene screen is an aluminum-polyethylene tape applied longitudinally to the core with overlapping metal inside. The protective shell is located on top of the screen and is made of light-stabilized non-hygroscopic polymeric material that does not contain halogens.

This utility model is a prototype of the claimed technical solution. The design of the communication cable has increased fire resistance and is simple to perform, however, insulation of each conductive core of two-layer, made of porous and solid polyethylene significantly increases the weight and diameter of the cable, while not providing reliable protection of the cable from moisture. During operation, such a cable must be kept under excess air pressure, which greatly complicates the installation and operation of the cable.

The task to which the claimed technical solution is directed is to create a communication cable, which is both fireproof and moisture resistant with reduced overall dimensions.

The technical result that arises when solving this problem is to increase the reliability of the communication cable and its lifespan in areas where high demands are placed on cable protection from fire and moisture.

To obtain the indicated technical result, a fire-resistant communication cable containing a core having a conductive medium, a belt insulation of the core, an aluminum-polyethylene screen, overlaid on the belt insulation, a halogen-free protective sheath located on top of the screen, the core conductive medium consists of insulated conductive wires twisted in pairs which are twisted into elementary bundles, which in turn are twisted into main multipair bundles of multidirectional twisting, belt insulation erdechnika consists of polyester tapes alyumopolietilenovy screen represents alyumopolietilenovuyu tape superposed on a core with a longitudinally overlapped metal inwardly, halogen protective

the shell located on top of the screen is made of light-stabilized non-hygroscopic polymeric material that does not contain halogens, while the insulation of each conductive core is made in the form of a film-porous-film layer, while the outer and inner layers are made of continuous polyethylene, the middle layer is made of porous polyethylene, and the free space of the core is filled with a hydrophobic aggregate.

The essence of the claimed technical solution is illustrated by the cross-sectional diagram of the fire-resistant communication cable shown in FIG. 1, where 1 - conductive core, 2 - insulation of conductive core, 3 - group (two insulated conductors twisted in pairs), 4 - twist (elementary bundles that are twisted into main bundles with multidirectional twist), 5 - tinned copper wire, 6 - belt insulation of the core, 7 - aluminum-polyethylene screen, 8 - protective sheath, 9 - hydrophobic aggregate.

The design of the communication cable (Fig. 1) is implemented as follows.

Each conductive core 1 made of annealed copper wire is coated with a film-porous-film insulation 2 consisting of three layers: - a film layer of continuous polyethylene, - a film layer of porous polyethylene, and - a film layer of continuous polyethylene.

Two or four insulated conductive conductors 1 are twisted into pairs or fours with multidirectional twisting 3. The pairs are twisted into a 10-pair bundle with multidirectional twisting. Elementary bundles are twisted into 50- or 100-pair main bundles 4. A cable core is formed by twisting the main bundles. A belt insulation 6 in the form of superimposed on top of the core

polyester tapes. The free space of the core under the belt insulation 6 is filled with a hydrophobic aggregate 9.

The hydrophobic aggregate 9 is made on the basis of mineral oil with the addition of polyethylene, polyethylene wax and synthetic rubber. The filler 9 is introduced into the core of the cable under pressure in a heated form.

On top of the belt insulation 6, a polyethylene-aluminum screen 7, which is made of aluminum-polyethylene tape with a thickness of at least 0.1 mm, is longitudinally overlapped. The tape is applied to the cable with metal inside. Under the screen 7 lay a tinned copper contact wire 5 with a nominal diameter of 0.5 mm. The screen 7 protects the transmitted electrical signals from extraneous interference, while aligning the electric field, and the wire 5 ensures the continuity of the screen.

A protective shell 8 is applied to the aluminum-polyethylene screen 7, which protects the core insulation from light, moisture, and also protects from mechanical damage. The protective shell 8 is made of light-stabilized black thermoplastic polyethylene, not hygroscopic, not containing halogens. Such material is resistant to climatic influences, with delayed ignition, low smoke emission during combustion. The smoke density during combustion of such a shell is approximately 5 times lower than that of a PVC-based shell.

The insulation of each conductive core in the form of a film-porous-film layer has a higher geometric and dielectric uniformity compared to the insulation used in the prototype. It not only protects conductive wires from moisture, but also significantly

reduces the thickness of the insulation and, accordingly, the diameter of the cable as a whole, and filling the free space of the core with a hydrophobic filler completely eliminates the ingress of moisture between the insulation and conductive cores, and also allows you to abandon the content of the cable under excess air pressure.

Claims (1)

Fire-resistant communication cable containing a core having a conductive medium, a belt insulation of the core, an aluminum-polyethylene shield, overlaid on a belt insulation, a halogen-free protective sheath located on top of the shield, the conductive medium of the core consists of insulated conductive wires twisted into pairs that are twisted into elementary bundles, which in turn are twisted into the main multi-pair bundles of multidirectional twisting, the core insulation of the core consists of polyester tapes, aluminum fields the ethylene screen is an aluminum-polyethylene tape, longitudinally overlapped on the core with the metal inside, a halogen-free protective shell located on top of the screen, made of light-stabilized non-hygroscopic polymeric material that does not contain halogens, characterized in that the insulation of each conductive core is made in the form film-porous-film layer, while the outer and inner layers are made of continuous polyethylene, the middle layer is made of porous polyethylene, and free core, the space is filled with hydrophobic filler.

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