DE2854717A1 - Optical conductor resistant to mechanical forces - has tension relief rope wound around optical fibre group in stabilising sleeve between optical fibre and sleeve - Google Patents

Abstract

The conductor comprises a stabilising outer sleeve (1), in which a single optical fibre (2) or an optical fibre group is positioned, together with a cord (5) with a high tensile strength. The optical fibre (2) is held in place within the sleeve by a rope (3) of cushioning material, which is loosely wound along the length of the optical fibre about a line slightly eccentric to the central axis (4) of the outer sleeve. The tension end lies along a parallel axis between the cushioning rope and the inside wall of the sleeve. Pref. the tension cord (5) comprises a glass fibre line, which is contacted at spaced points by the cushioning rope to maintain it in position within the sleeve. The fibre-optic assembly is suitable for use in telecommunications, forming a cable arrangement, withstanding external forces.

Description

Light guide arrangement The invention relates to a light guide arrangement, Consists of a stable tube and an optical tube located in the tube Fiber or group of fibers.

In the present context, optical fibers are intended to mean fibers to be understood from a material that is used for the transmission of light in the infrared, visible, ultraviolet range or part of these ranges to telecommunications Purposes is suitable. Such a material is primarily glass more suitable Composition. The optical fiber can be coated with a protective layer to protect its surface, for example made of plastic.

Optical fibers are very sensitive mechanically. Zl.i their further processing or laying, they are therefore provided with protective covers to protect them from outside protect mechanical forces. An optical laser or group of fibers with one Protective cover is referred to in the present context as a light guide arrangement. Light guide arrangements of this type can be provided with appropriate sheaths can be laid directly as an optical line or with additional light guide arrangements can be combined to form optical capsules.

There are known light guide arrangements in which the optical fibers US 6 04 307), several of them, are loose in sturdy hoses to protect mechanical equipment Optical fiber arrangements of this type are summarized as an optical cable. There optical fibers, in particular, must be protected from tensile stresses the known optical cable strain relief elements are provided in the gusset spaces housed between the hoses in the cable jacket or in radial attachments of the hoses are. Experience has shown that this type of strain relief has a relatively high degree from initial elongation, which endangers the optical fibers.

From DE-OS 27 08 878 a light guide arrangement is known in the optical fibers are loosely fixed in the tube with the cushioning cover organ, with all (ling no strain relief is provided.

The present invention is based on the object of a strain-relieved Specify light guide arrangement of the type described, in which there is a risk to the optical fibers practically not due to the initial stretching of the strain relief elements occurs and which can be produced easily, if possible in one operation.

This object is achieved according to the invention in that in the hose in addition to the optical fiber or group of fibers, at least one elongated strain relief element runs. The optical fiber or fiber group can be in a manner known per se from along a strand of cushioning material, slightly eccentric around the axis of the hose sinuous line. The strain relief element is then approximately axially parallel between the strand of cushioning material and the inner wall of the ski.

The advantage of the invention is that the light guide arrangement Is designed to be tensile, with an initial expansion of the strain relief element not leads to a hazard to the optical fibers. The strain relief element lies down namely after its introduction into the hose when it is wound inside the hose on the wall closest to the center of the take-up reel. Through this When unwound, it is shorter in the tube than the fiber group and can be subject to tensile stress fully absorb before they load the optical fibers. The strain relief element can be used together with the optical fibers are introduced into the tube. This is particularly suitable under the method described in patent 2,651,725.

The invention will now be described with reference to the drawing.

In the figure, the Scbai: ch is designated by 1, in which an optical Fiber 2 runs. This optical fiber X nn with a little excess length is loose in the tube lie or as shown in the figure, by means of a strand 3 of thumping material held along a slightly eccentric line wound around the tube axis 4 FT be. This latter arrangement has the advantage of having the optical fiber nearby the neutral line. According to the invention, 1 is now additionally in the hose introduced an elongated strain relief element 5, for example from a Fiberglass @@@@ ing consists.

In the example shown, it lies between the inner wall of the hose and the upholstering Strarg t. A, B, C and D show @@ sections through the light guide tion that show how the optical fiber is wound around the tube axis 4 vrr is running. At the same time they show é @@ position of the strain relief element 5. Instead an optical fiber 2 can be several fibers in the light guide arrangement according to of the invention.

2 claims 4 pages description 1 sheet of drawings with a figure

Claims (2)

Claims 1. Light guide arrangement, consisting of - a stable Tube - and an optical fiber or fiber group lying in the tube, thereby characterized in that in the hose (1) in addition to the optical fiber (2) or fiber group at least one elongated strain relief element (5) runs. 2. Light guide arrangement according to claim 1, characterized in that - the optical fiber (2) or group of fibers in a manner known per se from one strand (3) made of cushioning material along a slightly eccentric axis around the hose (4) sinuous line is held - and that the strain relief element (5) is extra Axially parallel between the strand (3) made of cushioning material and the inner wall of the hose lies