UA76561C2 - Optical fiber cable with a metallic strengthening element - Google Patents

Abstract

The proposed optical fiber cable with a metallic strengthening element contains a steel core, fiber lightguides, and an external sheath. The gaps between the fiber lightguides and the sheaths of the cable are filled with hydrophobic material. The cable is distinctive by that, for the purpose to increase the resistance of the cable against damage, the fiber lightguides are wound on the core in opposite directions.

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. The closest thing to the proposed invention is a suspended fiber-optic cable for aerial laying, which consists of a core and a protective coating |2). The core is a dielectric rod, which has a biconcave profile, and in the concave recesses of this profile are placed 70 tubes with optical fibers, fixed with a compound against movement. The protective coating consists of successive layers of a moisture-proof film, reinforcing elements, in the form of rods, and a shell. The disadvantage of the cable mentioned above is the rigid fastening of the tubes of the optical modules to the dielectric rod, which often leads to the destruction of the entire core due to vibration and bending of the cable. In addition, the cable has a high cost due to the use of a dielectric rod with a complex profile. 12 The task of the invention is to reduce the cost of the cable while increasing its resistance to external destructive influences.

The task is solved by using cheaper elements and improving the design of the core.

The core is made of a round steel central power element, optical modules, and a filler between them in the form of a hydrophobic substance, and the optical modules are twisted due to the possibility of their free longitudinal movement along a spiral that periodically changes its direction. In Fig. a schematic representation of a fiber optic cable is given.

The cable consists of a core and an outer covering. The core contains a central round steel power element 1, optical modules 2 in the form of tubes filled with a hydrophobic substance, and optical fibers 4 in these tubes. The free space between the optical modules is filled with filler 5 in the form of a hydrophobic substance. A protective coating is applied on top 3. p

The cable works like this. Optical fibers 4 serve to transmit optical signals over the cable. Optical modules (9 2, which are separate channels of optical communication, twisted around the central power element 1 in a spiral that periodically changes its direction. This ensures free longitudinal movement of optical modules and their high level of protection against bending and stretching stresses. Filling 5 , in the form of a hydrophobic substance between the optical modules, together with their ability to move longitudinally, ensures high resistance of the cable to the action of vibrational stresses caused by wind and other factors of the external environment. climatic factors. The use of a cheap steel central power element together with the application of optical modules by winding makes the cable cheap and reliable in operation. A sample of the manufactured cable consisted of a round Ge) central power element twisted from individual steel wires, and optical modules in the form of 3o polymer tubes filled with a hydrophobic substance. Inside them were several colored fibers to distinguish them. The filler was a thixotropic gel. The protective coating was made of polymer layers and armor to protect against the effects of the external environment. The cable is suitable for laying on the supports of communication lines and other communications, as well as in cable sewers and soils. " - with

Claims (1)

The formula of the invention;" " Fiber-optic cable with a metal power element, which consists of a core made of a round steel central power element, optical modules and a filler between them in the form of a hydrophobic substance and an outer coating, which is characterized by the fact that the optical modules are twisted around - the central power element along a spiral, which consists of sections with different winding directions. (22) 1 b 50 - F) name) 60 b5