RU8129U1 - OPTICAL COMMUNICATION CABLE - Google Patents

Abstract

1. An optical communication cable containing an optical module with optical fibers, the sheath of which is made of polymer material and which is enclosed in a metal pipe, over which is twisted from steel wires, characterized in that the metal tube is reinforced with steel wires. 2. The cable according to claim 1, characterized in that the metal tube is made of aluminum or its alloys. The cable according to claims 1 and 2, characterized in that the steel wire reinforcing the metal tube is galvanized. 4. A cable according to claims 1 to 3, characterized in that the steel wires reinforcing the metal tube are arranged in a layer around the optical module. 5. The cable according to claims 1 to 4, characterized in that the metal tube is made by extrusion.

Description

OPTICAL COMMUNICATION CABLE

The invention relates to optical communication cables that are laid along power lines and are simultaneously used as a lightning protection cable.

Known optical cable 1, containing an optical module with an insulating sheath of synthetic material. On top of the insulating sheath, several coils are applied, for example, from aluminum-clad steel wire. However, such a cable does not provide a sufficient degree of protection of the optical fiber from weathering.

Closest to the invention is an optical cable 2 comprising an optical module with optical fibers,

equipped with an insulating sheath of synthetic core material. The optical module is enclosed in an aluminum tube, on top of which is made twisted from steel wires. Such a cable can be used not only for optical communication, but also as a lightning protection cable for power lines. However, the mechanical strength of the aluminum tube is 18-22 kg / mm2, and the cable itself has mechanical limitations.

The objective of the invention is to improve the mechanical parameters of the optical cable.

This problem is solved in that in an optical communication cable containing an optical module with optical fibers, the sheath of which is made of a polymer material and which

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enclosed in a metal tube, on top of which a twist of steel wires is made, the metal tube is reinforced with steel wires.

Preferably, the metal tube is made of aluminum or its alloys, and the steel wire reinforcing the metal tube can be galvanized.

It is advisable to arrange the steel wire reinforcing the metal tube in the form of coils around the optical module.

The metal tube may be extruded.

The drawing shows the proposed optical cable, cross section.

An optical module with freely laid optical fibers 1, the free space between which is filled with a hydrophobic aggregate 2, is provided with a sheath 3 of polymer material. On top of the sheath 3 is an aluminum tube 4, reinforced with high-strength galvanized steel wires 5, laid in the form of one or two spiral coils around the optical module. Another coil 6 is laid over the tube 4 from steel wires clad with aluminum or from wires made of aluminum alloy, depending on the requirements for thermal resistance of the cable to short circuit currents.

 2 of the cable strength, which is determined by the span between the supports, climatic conditions and the permissible load on the support, apply one or two coils of galvanized steel wire. On top of the midwives, an aluminum tube is applied by hot pressing (extrusion). Under pressure, aluminum fills the gaps between the steel wires, as a result of which a tube forms, the walls of which are reinforced with steel wire. In this case, the tensile and compression strength of the tube is determined by the coiling of steel wires 5, the diameter of which is not limited to a smaller side.

The proposed design of the optical cable can dramatically increase its resistance to mechanical stress compared with the known cables, which use aluminum alloy tubes obtained by argon arc or microwave welding with subsequent drawing. The strength of such tubes does not exceed 18-22 kg / mm2. The strength of the proposed cable, determined by the strength of the reinforcing steel wires 5, is significantly higher. So, the tensile strength of a tube reinforced with a steel coil can reach 120-140 kg / mmg. As a result, the restrictions on the minimum radius of bending of the cable associated with the deformation of the tube during bending on the roller while applying tensile forces are removed. Pressing galvanized steel wires into the walls of an airtight aluminum tube prevents electrochemical corrosion of aluminum. In addition, a steel coil around the optical module increases the permissible temperature.

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heating the cable during the passage of short circuit currents, which makes it possible to use the proposed cable as a lightning protection cable in power lines.

Sources of information

1. OPTICAL FIBER CABLE IN OVERHEAD GROUND WIRE (OPGW), prospectus from SIEMENS AG, Munich, without publication date.

2. OPTICAL FIBER COMPOSITE SHIELDWIRE, prospectus of the company CABLES PIRELLI S.A., without place of publication, 1993. (prototype)

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Claims (5)

1. An optical communication cable containing an optical module with optical fibers, the sheath of which is made of polymer material and which is enclosed in a metal pipe, over which is twisted from steel wires, characterized in that the metal tube is reinforced with steel wires.  2. The cable according to claim 1, characterized in that the metal tube is made of aluminum or its alloys.  3. The cable according to claims 1 and 2, characterized in that the steel wire reinforcing the metal tube is galvanized.  4. The cable according to claims 1 to 3, characterized in that the steel wire reinforcing the metal tube is located in the form of a coil around the optical module. 5. The cable according to claims 1 to 4, characterized in that the metal tube is made by extrusion.