RU66556U1 - OPTICAL CABLE DIELECTRIC SELF-CARRYING - Google Patents

Abstract

The utility model relates to cable technology, namely to optical cables, self-supporting dielectric. The optical cable comprises a central optical module consisting of a polymer tube containing at least one optical fiber and a thixotropic gel. The cable contains an outer polymer sheath, inside of which there is a twist of fiberglass rods. The shell has a thickness B equal to B = d + b, where d is the diameter of the fiberglass rod, b is the minimum thickness of the polymer layer between adjacent fiberglass rods. The technical result is an increase in the permissible spans of the optical cable suspension.

Description

The utility model relates to cable technology, namely to optical communication cables used for suspension on the supports of communication lines, the contact network of railways and the supports of power lines.

Known optical cable is a dielectric self-supporting, containing an optical module consisting of a polymer tube in which at least one optical fiber and intramodular thixotropic gel are placed. Around the optical module is sequentially superimposed an armor layer of fiberglass rods in the form of coils and an outer shell. (Optical communication cables. Catalog. M, Integra, 2006, p. 38)

This technical solution is the closest to the proposed among the known by the combination of features. However, the known optical cable has a large weight and dimensions.

The task was to develop a design of a dielectric self-supporting optical cable, which has a reduced weight and dimensions and maintains resistance to mechanical stress.

The technical result is achieved by the fact that in an optical cable a dielectric self-supporting, containing an optical module, consisting of a polymer tube, inside of which at least one optical fiber and a thixotropic gel are placed, twisting the fiberglass rods around the optical module and the outer polymer sheath, twisting the fiberglass rods placed inside the shell, which is made with a thickness equal to the value of B, B = d + b, where d is the diameter of the fiberglass rod, b is the minimum thickness of the polymer layer between adjacent fiberglass rods.

The utility model is illustrated in the drawing, which shows an optical cable in section. The cable contains an optical fiber 1, a thixotropic gel 2, placed inside the polymer tube 3, fiberglass rods 4, and a polymer sheath 5.

The following is evidence of the industrial applicability of the utility model.

The optical cable is made from well-known, industrially produced materials, mainly from polybutylene terephthalate.

Thixotropic gel belongs to the class of hydrophobic fillers of the intramodular space used in a number of known designs of optical cables. The gel seals the intramodular space and prevents the longitudinal spread of moisture in the cable.

The cable sheath is made of known polymer compositions used in industrial cables of this kind, for example, based on high density polyethylene.

Cable manufacturing technology is traditional for optical cables.

Application of fiberglass rods is carried out on a twisting machine, and the manufacture of a polymer tube and an outer shell on extrusion equipment.

A cable made in accordance with the claimed utility model allows suspension on significantly larger spans than the known analogue of the same dimensions, due to the reduction of the linear weight of the cable.

Claims (1)

A self-supporting dielectric optical cable containing a central optical module, consisting of a polymer tube, inside which at least one optical fiber and a thixotropic gel are placed, twisting fiberglass rods around the optical module and an outer polymer sheath, characterized in that the twisting of fiberglass rods is placed inside a polymer shell, which is made with a thickness equal to the value of B; B = d + b, where d is the diameter of the fiberglass rod, and b is the minimum thickness of the polymer layer between adjacent fiberglass rods.