DE4119881C1 - Fibre=optic cable containing several optical fibres - has sheath including strain-relieving filaments for protecting fibres surrounded by incompressible gel - Google Patents

Abstract

The cable comprises an outer sheets(1), that features built-in strain/tensioning filaments (4), enclosing a incompressible gel interior (2), containing a number of fibre optic cables (3). The strain/tensioning filaments may be formed from steel wire or an artificial material and are wound so that the slanting length of the wires is between 0.5 and 10 times the winding cross sectional diameter. ADVANTAGE - Simple construction with built-in strain/tensioning filaments protects against both longitudinal and orthogonal cable tensions/pressures.

Description

The invention relates to a cable according to the preamble of claim 1.

Such a cable is considered to be state of the art due to the older one German patent application 40 13 755.4. There's a cable in it described, which is not adequately protected against lateral pressure is. The same applies to a cable with strain relief elements in the cable jacket, which is described in GB-PS 14 86 227.

A method for producing a is also known tensile cable sheath for an optical cable, in which order an inner shell of several fiber-reinforced plastic threads be stranded around which the outer shell is then extruded. The inner shell can be made of the same material as that outer shell exist. About the cable structure inside the Nothing is said about the shell, but the drawing conveys that Impression that there is an optical fiber loose in it like in a vein. (DE 32 47 464 C2).

From DE-PS 29 46 027 is an optical fiber cable known in which at least one fibrous Optical fibers arranged inside a protective cover and the remaining interior with an oily, oily or fatty substance of a certain composition is filled in, but without information about the other structure of the cable are made.

It is an object of the invention to provide a simply constructed cable with multiple fiber optic cables to create that both train as well as absorb transverse pressure forces.

This task is done with the in the characterizing part of claim 1 listed features solved.

A particular advantage of the cable is that it is despite its simple construction both tensile and compressive forces can record. This is due to the combination of stranded Strain relief elements with the gel filling in the shell. In themselves, helical strain relief elements are not suitable for absorbing tensile forces. They look more like one Coil spring that yields tensile forces. Only because the Sheath that also forms the cable sheath that Strain relief elements encloses and except with the Optical fibers with the least possible compressible Gel filled, those stranded with a short stroke Strain relief elements in addition to compressive forces also tensile forces resist. The strain relief elements are with a medium lay length stranded 0.5 to 10 times, but is preferably one to five times larger than that Spiral diameter.

The drawing shows a cable section and an associated cross section with a sheath 1 (at the same time cable sheath), which is filled with a gel 2 , in which optical fibers 3 are located. Strain relief elements 4 are completely embedded in the casing 1 . These can also (not completely) be embedded on the outer surface.

The strain relief elements 4 can consist of glass fiber reinforced plastic, steel braid or wire or other suitable materials. The sheath, which also serves as a cable sheath, consists of a resistant cable sheath material that corresponds to the protective function.

Since a central strain relief element is missing, there is a simple construction, which leads to a considerable reduction in the price Construction contributes.

Claims (2)

1.Cable with at least one optical waveguide in a sheath with embedded, stranded strain relief elements in which only at least one optical waveguide ( 3 ) is arranged in a gel and which is at the same time a cable sheath, characterized in that the strain relief elements are stranded with a lay length that is 0 , 5 to 10 times larger than the helix diameter. 2. Cable according to claim 1, characterized in that the Strain relief elements are stranded with a lay length, which is one to five times larger than the helix diameter.