RU2006048C1 - Optic cable - Google Patents

Abstract

FIELD: fiber-optic communication lines. SUBSTANCE: optic cable has optic fiber bundles, metallic envelope made in the form of a pipe, longitudinally wound steel wires, dielectric envelope made of polyethylene and steel clayey pipe disposed over the optic fiver bundles and made of continuous sequence of sections. Each section of the clayey pipe is made is the form of two rigidly coupled hollow members with spherical concentric outer and inner surfaces a distance between centers of which is less than a sum of radial of outer spherical surfaces of the members, radius of inner surface of a greater member being equal to radius of outer surface of smaller member. Smaller member of each section is mounted such that can contact with inner surface of greater member of subsequent section by its outer surface. The metallic envelope is press-fit on the steel wires. EFFECT: improved quality. 2 dwg

Description

 The invention relates to telecommunications, namely to optical communication lines, and can be used for the construction of underwater cable communication lines.

 The famous "Underwater fiber optic cable for transmitting information." Such a cable is equipped with a plastic sheath, the inner surface of which covers a cable, which gives the cable mechanical strength. The inner surface of the sheath also covers tubes spirally wound onto the cable, filled with an incompressible liquid, in which fiber-optic lines are freely placed.

 In this cable, the inclusion of an additional tube filled with an incompressible fluid does not significantly improve the protection of fiberglass cores from damage, however, it creates great difficulties in its manufacture and operation.

 Closest to the invention, the technical essence of solving the problem is fiber optic cable, which contains optical fibers, a metal sheath, longitudinally wound steel wires and a dielectric sheath made of polyethylene.

 However, in the specified cable, the optical fibers are not sufficiently protected from the pressure of the sea water thickness and from fiber breaks during cable laying, and the flexibility and uniformity of the cable bending along its entire length is not ensured.

 The aim of the invention is to improve the protection of optical fibers from damage.

 This goal is achieved by the fact that in the optical cable, consisting of optical fiber cores, a metal sheath, longitudinally wound steel wires and a dielectric sheath made of polyethylene, an additional steel joint tube is installed, installed on top of the optical fiber cores and made of a continuous sequence of sections, each of which made of two rigidly connected hollow elements with spherical concentric external and internal surfaces, the distance between the centers of which is less than ummas of the radii of the outer spherical surfaces of the elements, while the radius of the inner surface of the larger element is equal to the radius of the outer surface of the smaller element, the smaller element of each section is installed with the possibility of contacting its outer surface with the inner surface of the large element of the subsequent section, moreover, the metal shell is made in the form of a tube, pressed over steel wires.

 In FIG. 1 shows an optical cable; in FIG. 2 - construction of a metal tube.

 The metal sheath 1, pressed over the steel wires 2, protects the fiberglass cores 3 from the penetration of the thickness of sea water through polyethylene 4 and polyethylene sheath 5.

 The metal jointed tube 6 is pressed over the steel wires 2 and is made of a continuous sequence of sections, each of which is made of two rigidly connected hollow elements with spherical concentric outer and inner surfaces, the distance L between the centers of which is less than the sum (R + R = 2R> L) the radii R of the outer spherical surfaces of the elements, while the radius R of the inner surface is greater than the element is equal to the radius R of the outer surface of the smaller element, the smaller element of each section is installed with the possibility of contacting its outer surface with the inner surface of a large element of the subsequent section.

 The optical cable protects the optical fibers from high hydrostatic pressure in the thickness of sea water and from fractures of optical fibers during cable laying, and also provides flexibility and uniformity of bending compared to the prototype.

 The design of such a cable provides for laying it from various cable vessels. (56) Patent EPO N 193780, cl. G 02 B 6/44, 1987.

 UK patent N 2145536, CL G 02 B 6/44, 1985.

Claims (1)

 OPTICAL CABLE, consisting of optical fiber cores, a metal sheath, longitudinally wound steel wires and a dielectric sheath made of polyethylene, characterized in that a steel segmented tube is installed on top of the optical fiber cores and made of a continuous sequence of sections, each of which is made of two rigidly connected hollow elements with spherical concentric outer and inner surfaces, the distance between the centers of which is less than the sum of the outer radii fericheskih element surfaces, with the radius of the inner surface of the larger element is equal to the radius of the outer surface of the lower member, a lower member of each section is arranged to contact the outer surface to the inner surface of the larger element subsequent sections, the metal shell is formed as a tube napresovanny over the steel wires.

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