RU2094869C1 - Optical communication cable - Google Patents

Abstract

FIELD: electrical engineering; optical cables for fiber-optic communication lines. SUBSTANCE: cable has central dielectric reinforcing member covered with dielectric modules with optical fibers and water-repelling filler, two perforated dielectric sheaths, armour, metal sheath, and polymeric sheath overall. EFFECT: improved corrosion and lightning discharge resistance of cable and reduced metal input for metal sheath. 1 dwg

Description

 The invention relates to electrical engineering and can be used in the construction of optical cables in the construction of fiber optic communication lines.

 A known design of an optical cable containing a central reinforcing element, optical fibers in polymer modules, a plastic sheath, a metal sheath and two layers of round-wire armor (see Overview. Issue 1. Optical cables with metal elements. Min. Communications of the USSR. TSNTI. Informsvyaz Telephony, Telegraphy, data transmission. M. 1991, p. 18, Fig. 24).

 The design disadvantage is the low corrosion resistance of the metal elements of the optical cable.

 Other similar constructions are described there, for example, with. 18, fig. 24.

 The closest in technical essence is the design described in the reference book "Fiber-optic transmission systems and cables." M. Radio and Communications, 1993, p. 57 61.

 The known optical cable contains a central dielectric reinforcing element, dielectric modules with hydrophobic-filled optical fibers, an intermediate dielectric winding, round wire armor and an external polymer sheath, as well as a metal sheath.

 The disadvantage of this design is the following.

 Since an intermediate dielectric sheath is located between the metal sheath and the armor made of round wires, there is a possibility of breakdown between the metal sheath and the armor made of round wires when exposed to lightning discharges. Due to the hygroscopicity of the outer polymer shell, the corrosion protection of round wire armor is insufficient.

 The task to which this technical solution is aimed is to create such a design of an optical communication cable that can increase the corrosion resistance and resistance to lightning discharges while reducing the metal consumption of the metal sheath.

 To solve this problem, an optical fiber cable contains an additional perforated dielectric dielectric module with an integrated dielectric module, a central dielectric reinforcing element, dielectric modules with hydrophobic-filled optical fibers, an intermediate dielectric sheath, round wire armor, an external polymer sheath, and a metal sheath. sheath, and a metal sheath is located between the round wire armor and the outer polymer sheath, moreover, the intermediate dielectric sheath is perforated.

 The drawing shows the design of an optical communication cable.

 It contains a central dielectric reinforcing element 1, optical fibers 2, dielectric modules with hydrophobic filling 3, an intermediate dielectric sheath 4, an additional perforated dielectric sheath 5, armor made of round wires 6, a metal sheath 7, an external polymer sheath 8, perforation holes on the intermediate dielectric shell 9, perforations on an additional perforated dielectric shell 10.

 In this design, the mutual arrangement and direct contact between the armor of round wires and a metal sheath eliminates the occurrence of overvoltages between them. The imposition of a metal shell on round armor also excludes crushing of the metal shell. Being a moisture barrier, the metal shell protects not only the optical core, but also the armor of round wires from corrosion. As a result, the corrosion resistance of metal elements increases and the likelihood of an electric arc inside the cable structure when exposed to strong electromagnetic fields is reduced. The presence of perforation on the intermediate and additional dielectric shells in the case of heating of the shell during high currents and gas generation of polymeric materials makes it possible to reduce the gas pressure in the increased volume of the cable due to perforation and to prevent its deformation.

Claims (1)

 An optical communication cable comprising a central dielectric reinforcing element, on top of which dielectric modules with hydrophobic-filled optical fibers are sequentially applied, a dielectric coating and round wire armor, and also a metal sheath over which an external polymer sheath is applied, characterized in that the dielectric coating is made in the form of two dielectric perforated shells, and a metal shell is applied directly to the armor.