RU178540U1 - Armored optical cable - Google Patents

Abstract

The utility model relates to armored optical communication cables that are designed to operate in various conditions. An armored optical cable contains at least one optical module in the form of a tube, inside which an optical fiber is laid, and there is a hydrophobic filler, a bandage, armor covers, and a sheath, while the armor cover is made of a galvanized steel wire braid with a density of up to 90%. The technical result is increased cable flexibility. 5 C.p. f-ls, 1 ill.

Description

The claimed technical solution relates to the design of armored optical communication cables, which are designed for use in various conditions.

Known optical cable brand OGC, designed for laying in the ground, which contains at least one optical module located in a tube of polymer material, inside which optical fibers are laid in an amount of 1 to 24. The free space in the optical module is filled with a hydrophobic filler . An armored cover made of one or two coils of galvanized steel wires was placed over the optical module, and a polyethylene sheath was placed over the armored cover (Optical cables. TU 3587-001-58743450-2003).

The technical solution of an optical cable patented as a utility model is also known: (19) RU (11) 38 964 (13) U1 (51) IPC G02B 6/44 (2000.01), where the optical cable contains at least one optical module in the form of a tube made of a polymeric material, inside of which at least one optical fiber and a hydrophobic filler are stacked, an armor-cover of one or two coils of steel wires laid over the optical module, and a sheath of polyethylene, while the cable is additionally equipped with a bandage made from synthetic n and located between the armor cover and the shell.

Both for the first and the second technical solutions of the cable, the disadvantage is that when applying an armor cover of one or two coils of steel wires over the optical module, the cable flexibility significantly decreases and the allowable bending radius of the cable increases, which reduces damage to the sheath and armor cover.

The technical result of the proposed technical solution of the armored optical communication cable is that the use of armor cover in the form of a braid of steel galvanized wires with a density of up to 90% can significantly increase the flexibility of the cable and reduce its permissible bending radius. As a result, the field of operation of this cable is expanding, in particular, it becomes possible to use it on the chassis of trucks, including for self-propelled air defense systems. At the same time, the cable remains resistant to mechanical damage and to the effects of rodents. The choice of material used for the outer shell does not matter.

Description of the claimed technical solution:

The image of the cable is shown in the Figure, where:

1 - optical fiber;

2 - intramodular hydrophobic aggregate;

3 - an optical module of polybutylene terephthalate;

4 - bandage;

5 - braid;

6 - shell.

Armored optical cable containing at least one optical module 3 in the form of a tube made of a polymeric material - polybutylene terephthalate, inside of which at least one optical fiber 1 is laid and there is a hydrophobic filler 2, a bandage 4 in the form of aramid threads laid longitudinally and fastened with polyester thread, armor cover 5, which is made in the form of a braid from galvanized steel wire, with a density of up to 90%, and a sheath 6.

The shell can be made of various materials: polyethylene of various densities, non-combustible halogen-free polymer compositions, polyurethane.

An example of a fiber-optic armored cable:

The cable contains an optical module made of polybutylene terephthalate brand Vestadur 3013 with single-mode optical fibers and a hydrophobic filler inside. The bandage is made of four aramid yarns laid longitudinally and fastened with polyester thread, the armor cover is made in the form of a braid made of galvanized steel wire with a density of up to 90% grade 0.3-C according to GOST 1526-81, the sheath is made of medium density polyethylene.

Permissible static tensile force of such a cable is 1.5 kN; minimum bending radius of the cable is 10 outer diameters of the cable.

Claims (6)

1. An armored optical cable containing at least one optical module in the form of a tube, inside of which at least one optical fiber is laid and there is a hydrophobic filler, a bandage, armor covers, a sheath, characterized in that the armor cover is made in the form of a braid galvanized steel wire with a density of up to 90%. 2. The cable according to claim 1, characterized in that the optical module is made of a polymeric material - polybutylene terephthalate. 3. The cable according to claim 1, characterized in that the bandage is made in the form of aramid threads, laid longitudinally and fastened with a polyester thread. 4. The cable according to claim 1, characterized in that the sheath is made of polyethylene of various densities. 5. The cable according to claim 1, characterized in that the sheath is made of polyurethane. 6. The cable according to claim 1, characterized in that the sheath is made of non-combustible halogen-free polymer compositions.

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