RU2152062C1 - Optical cable - Google Patents

Abstract

FIELD: fiber-optical communication lines. SUBSTANCE: goal of invention is achieved by introduced triangular dielectric tube, which is laid over dielectric tube with optical fibers. Additional reinforcing dielectric members, which are arranged along sides of additional dielectric tube are inserted between external dielectric jacket and additional dielectric tube. Said reinforcing dielectric members are also inserted between dielectric tube with optical fibers and additional dielectric tube. EFFECT: increased stability of optical cable against side impacts. 1 dwg

Description

 The invention relates to the field of electrical engineering and can be used in the construction of fiber-optic communication lines experiencing large lateral pressures.

 The known dielectric structure of the optical cable described in the Overview of the scientific and technical information collection "Communication" issue. 5-6, "Optical cables for high-voltage communication lines of the Russian Federation", TsNTI Informsvyaz, M., 1994, p. 24, fig. 20a.

 The design contains optical fibers in a protective coating and in a polymer module, a Kevlar rod as a power element, a central reinforcing element, a protective thermal shell, and an external polymer shell.

 A design flaw is that lateral pressure protection is provided by the introduction of additional power elements to the detriment of the capacity of modules with optical fibers.

 The closest in technical essence is the design described in the above collection of Fig. 22, p. 25.

 Known optical cable contains optical fibers in a dielectric tube filled with a hydrophobic reinforcing dielectric elements and an external dielectric sheath.

 The disadvantage of this design is the poor protection of the optical cable from lateral pressure, since individual reinforcing elements located along the circumference can deform the dielectric tube at lateral pressures.

 The task to which this technical solution is directed is to create such an optical cable design that can increase the resistance of the optical cable to side pressures.

 To solve the problem, in an optical cable containing optical fibers in a dielectric tube, dielectric reinforcing elements, an external dielectric sheath and a hydrophobic filler, an additional dielectric tube having a triangular shape is introduced over the dielectric tube with optical fibers, and between the external dielectric sheath and the additional dielectric tube reinforcing dielectric elements are introduced along the sides of the additional dielectric tube and, reinforcing dielectric elements are also placed between the dielectric tube with optical fibers and an additional dielectric tube.

 The drawing shows the design of the optical cable. The optical cable contains: optical fibers 1 in a dielectric tube 2, an additional dielectric tube of a triangular shape 3, dielectric reinforcing elements 4, an external dielectric sheath 6, a hydrophobic filler 5.

 When exposed to an optical cable of lateral pressures, the dielectric reinforcing elements 4 act on the additional dielectric tube 3 from the outer and inner sides in opposite directions. The triangular shape of the additional dielectric tube 3 is a rigid structure and allows you to keep the impact on the optical fibers 1 in the dielectric tube. As a result, the optical fibers 1 in the dielectric tube will not experience lateral pressures.

 The proposed design of the optical cable can improve the operational reliability of optical fibers without compromising their transfer parameters.

Claims (1)

 An optical cable containing optical fibers in a dielectric tube, reinforcing dielectric elements, an external dielectric sheath and a hydrophobic filler, characterized in that an additional dielectric tube having a triangular shape is introduced over the dielectric tube with optical fibers, and introduced between the outer dielectric sheath and the additional dielectric tube reinforcing dielectric elements located along the sides of the additional dielectric tube, reinforcing dielectric elements are also placed between the dielectric tube with optical fibers and an additional dielectric tube.