UA80413C2 - Protected optical-fiber cable with a single-layer wire sheath - Google Patents

Abstract

The proposed protected optical-fiber cable with a single-layer wire sheath contains a core consisting of fiber-optic lightguides, an internal cover designed as polymeric film wound on the core with overlapping and fixed by polymeric threads, a layer of aluminium band with polymeric coating wound on the internal cover with overlapping, a polymeric intermediate cover, a single-layer wire sheath, and an outside protecting cover. The air gaps between the fiber-optic lightguides are filled with water-resistant material. The cable can be laid underground and on bottoms of river or water reservoirs.

Description

Description of the invention

The invention relates to fiber optic cables for transmitting optical signals. 2 A known fiber-optic cable, which contains a glass fiber and a protective coating and a sheath are successively applied to it |11. Its disadvantage is the insufficient number of optical fibers and low resistance to the action of the external environment.

Closest to the proposed invention is a fiber-optic cable consisting of a central power element, optical modules placed around it in the form of tubes with optical 70 fibers in them, a filler between the optical modules and an outer coating. The central power element is connected to the optical modules with the help of glue. The space between the optical modules is filled with a porous material that helps fix the tubes of the optical modules |21.

The disadvantage of the above-mentioned cable is insufficient resistance to the effects of the external environment and mechanical damage, especially when it is bent, as a result of which the aggregate and optical modules are destroyed, and the optical fibers fail.

The task of the invention is to increase the resistance of the cable to the aggressive action of the external environment and mechanical damage.

The task is solved by the presence of additional elements and their interconnections and the technology of manufacturing the cable structure.

Compliance with the "novelty" criterion for the proposed fiber-optic cable ensures that it additionally contains between the optical modules and the outer covering a polymer film applied longitudinally with an overlap and fastened with a polymer thread, an aluminum polymer tape applied longitudinally with an overlap, a polymer sheath, continuous, applied by winding with a screwdriver a layer of round galvanized steel wires, and a waterproof layer, and the optical modules are applied by winding along a spiral that periodically changes its direction, the filler is a hydro-hybrid substance, the outer coating and the tubes of the optical modules are made by the extrusion method from polymer, free space the inside of them is filled with a hydrophobic substance, and the waterproof layer is made of longitudinally applied water-swelling tape or a hydrophobic substance and a polymer film.

Compliance with the "substantial features" criterion is ensured by the fact that the features characteristic of the proposed fiber-optic cable are not contained in the prototype and other technical solutions in this field of technology. "-

In fig. a schematic representation of a fiber optic cable is given. The cable consists of a central power element 1, optical modules 2, outer coating 3, optical fibers 4, hydrophobic substance 5 inside the tubes of optical modules, hydrophobic substance b between optical modules, polymer film 7, Ha») polymer thread 8, aluminum polymer tape 10 , a polymer sheath 9, a continuous layer of galvanized steel 325 wires 11, a waterproof layer 12. The cable works like this. Optical fibers 4, which serve for the transmission of optical communication signals over the cable, are placed freely in the environment of a hydrophobic substance 5, inside the tubes of optical modules 2. Thanks to this, they are protected from mechanical stress. Optical modules 2 are twisted around the central element 1 in a spiral that periodically changes its direction, which provides the possibility of their free "longitudinal movement and resistance to the action of tensile stresses. The space between the optical modules 2 is filled with C 50 hydrophobic substance 6, which protects them from the action of moisture from the external environment. On top of the optical modules 2 s, a polymer film 7 is applied longitudinally with an overlap, fastened with a polymer thread 8, which additionally holds

Iz" optical modules and prevents the spreading of hydrophobic substance b during the cable manufacturing process. The outer coating C is made by the method of extrusion with crimping from a polymer. Filling the free spaces inside the tubes of the optical modules and between the optical modules themselves with a hydrophobic substance, stacking the optical modules in a spiral that periodically changes its direction, the presence of a polymer film, an aluminum polymer shell formed from an aluminum polymer film and a shell welded with a polymer, and an external coating in the form of av | of the polymer shell together provide high flexibility and protection of the cable against the effects of the external environment and the failure of optical fibers. Longitudinal tensile forces are absorbed by the central power element and single-layer wire armor, which increases the tensile strength of the cable and protects it from mechanical damage. - 20 Applying armor with a screwdriver creates a stable cable structure. If the gap between the optical modules is larger than the diameter of the optical module itself, it can be filled with a round polymer rod. c» The waterproof layer protects the armor from corrosion and prevents the spread of moisture along the cable. It is applied simultaneously with the cable armor. A sample of the manufactured cable consisted of a central power element and optical modules twisted around it with 52 turns in the form of polyisobutylene tubes, in which 22 optical fibers are located, painted on the outside with ink. The ink hardens under the influence of ultraviolet light, which

GF) provides the ability to distinguish optical fibers. The hydrophobic substance inside the tubes of the optical modules was applied simultaneously with their manufacture during the extrusion process. The hydrophobic substance between the optical modules was applied together during their twisting and application of the polymer film. The polymer shell is made of polyethylene. The outer covering was made of polyethylene by the extrusion method. On top of the polymer film, the optical modules are additionally fastened with two polymer threads applied in spirals, which have the opposite direction. The outer coating was applied by the method of extrusion with crimping. The cable is suitable for laying in soils of all categories, except soils with permafrost deformations, in an open trench, through swamps, shallow non-navigable rivers, as well as in pipes and collectors.

Sources of information: bo 1. US Patent Mo 5982967, IPC (30286/44, filed 12.12.97, published 09.11.99, applicant I isepi

Thesppoiodyesis Ips. 2. International application UUO Mo 9664908А1, IPC 50286/44, filed 06/14/99, published 12/16/99, applicant

TeIeopakKnieroiadei I t Egisvvop.

Claims (1)

The formula of the invention is a protected fiber-optic cable with a single-layer wire armor, which consists of a central core element, optical modules placed around it in the form of tubes with optical fibers in them, a hydrophobic filler between the optical modules and an external coating, which is distinguished by the fact that additionally contains alternately placed between the optical modules and the outer coating - a polymer film applied lengthwise with an overlap and fastened with a polymer thread, an aluminum polymer tape applied lengthwise with an overlap, a polymer shell, a solid layer of coiled steel round galvanized wires And the waterproof layer, and the optical modules are wound in a spiral, containing areas with different winding directions, which are periodically repeated, the outer coating and tubes of the optical modules are made of extruded polymer, the free space inside them is filled with a hydrophobic substance, and the waterproof layer is made of longitudinally applied overlapping of water-swelling tape or hydrophobic substance and polymer film. c) 6) (ze) «- « «c) d) - and? (ee) ("c) sh" - 70 syu" name) 60 b5