RU53463U1 - FIBER OPTICAL CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely to the construction of fiber optic cables intended for laying in cable ducts, blocks, pipes, collectors, buildings. The fiber-optic cable contains at least one optical module, consisting of a two-layer tube made of polyamide and polybutylene terephthalate, in which optical fibers and a hydrophobic compound are placed, an external power element from one galvanized steel wire, a protective hose from a polymer composition that does not spread combustion. EFFECT: increased mechanical strength during vertical laying in buildings.

Description

The utility model relates to cable technology, namely to the construction of fiber optic cables intended for installation in cable ducts, blocks, pipes, collectors and buildings.

A known fiber optic cable containing a central power element, optical modules, an external power element of aramid filaments, an inner sheath, a protective hose, which, by the totality of existing signs, can be adopted as the closest analogue of the claimed utility model (see RU 26347 U1, publ. 11/27/2002, IPC7 G 02 B 6/44).

The disadvantages of the known cable should include the fact that its design does not have sufficient mechanical reliability during installation and operation in a vertical position due to the fact that the power element is located in the center, in close proximity to the optical modules. In this regard, the probability of displacement during the laying and operation of optical modules relative to other structural elements increases, and as a consequence, deformation and breakage of optical modules is possible.

The task was to develop the design of fiber optic cable, with increased mechanical strength under tensile loads.

The technical result is achieved in that the fiber optic cable contains at least one optical module consisting of optical fibers and a hydrophobic compound enclosed in a two-layer tube of polyamide and polybutylene terephthalate, a protective hose and a power element.

A distinctive feature of the claimed utility model is that the power element is made of one galvanized steel wire and is located in a protective hose over the optical module.

Under the influence of tensile loads on the power element, there is no direct load on the optical fibers in the module.

In addition, in the particular case of the implementation of the utility model, the protective hose is expediently made from a polymer composition that does not propagate combustion.

The utility model is illustrated in the drawing, which shows a fiber optic cable in section.

The cable contains an optical module in the form of a two-layer tube made of polyamide 1 and polybutylene terephthalate 2, the inner space of which is filled with a hydrophobic compound 3, optical fibers 4, an external power element from one galvanized steel wire 5, and a protective hose from a polymer composition that does not propagate combustion 6.

As a result of a search by patent and scientific and technical sources of information, no sources were found that contained the entire set of essential features of an independent claim, which allows us to conclude that the claimed utility model meets the patentability criterion of “novelty”.

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

In the manufacture of fiber optic cable using well-known materials traditionally used in the cable industry.

The manufacturing technology of fiber optic cable is as follows:

An optical module in the form of a two-layer tube made of polyamide 1 and polybutylene terephthalate 2 with a hydrophobic compound 3 filled with internal space and

optical fibers 4 are manufactured on existing equipment for the production of an optical module. An external power element of one galvanized steel wire 5 is applied longitudinally, simultaneously with the application of a protective hose 6 on the extrusion equipment.

The claimed technical solution meets the patentability criterion of "industrial applicability", since its implementation can be carried out using known means and methods.

The technical result is increased mechanical strength during installation and operation in an upright position.

Claims (2)

1. Fiber optic cable containing at least one optical module, consisting of a two-layer tube made of polyamide and polybutylene terephthalate, which contains optical fibers and a hydrophobic compound, an external power element of one galvanized wire, a protective hose made of a polymer material characterized in that the power element consists of one galvanized steel wire located in a protective hose. 2. The fiber optic cable according to claim 1, characterized in that the protective hose is made of a flame retardant polymer composition.