DE2511019A1 - Core member for fibre optic cables - is fitted with reinforced centre and lubricated fibre strands to resist tension and bending - Google Patents

Abstract

The core consists of an extruded profile star-shaped in cross-section with helical grooves containing optical waveguides and with an outer sheath. The profile (2) has one (3) or more tension-resisting members embedded in it, and the sheath (8) is spaced from the waveguides (6) by a clearance. A lubricant (7) is provided between the waveguides and the surface of the profile. Pref. the surfaces of the waveguides are covered by the lubricant. The tensile strength member embedded in the core and the relatively loose waveguides mean that the total construction is capable of withstanding tensile and bending stresses.

Description

Basic element for the construction of optical cables The in recent years accomplished development in the field of messaging has the opportunity opened, messages transmitted optically, i.e. by means of light waves, see below. In the Optical communication with the help of cables is used instead of electrical Head as transmission elements glass fibers used for guiding light beams to serve.

An optical fiber strand is known for the construction of optical cables, in which several glass fibers are arranged around a central plastic thread. Of the Eunststoffadez is multi-armed in cross section, with the glass fibers in for example helically extending gusset spaces between the arms and are secured with a plastic cover (DT-OS 2 347 408). One of those Fiber strand can be used as a basic element for building optical cables which several such elements around an elongated, central, tensile core are arranged (DT-OS 2 355 855). However, this is a direct mechanical coupling given between the tensile core and the glass fibers, so that with mechanical Stresses on the high tensile strength Xernes also have an effect on the glass fibers.

It is known that in the construction of optical cables the mechanical Sensitivity of the glass fibers is particularly to be taken into account, i.e. that the constructive Structure of the optical cable against the protection of the optical transmission elements Maize is guaranteed to withstand tensile, compressive and bending loads. In a known cable construction is provided for this purpose that the optical transmission elements around a tensile core made of for example steel wires and arranged with a common Sheath made of, for example, polyethylene are surrounded. Between the Wrapping, which loosely surrounds the optical transmission elements, and the tensile core is a Lubricant arranged in the form of a vaseline-like substance. This vaseline-like Substance enables compensating movements in the event of mechanical stresses on the cable the optical transmission elements (DT-OS 2 429 670).

However, it should cause difficulties, the vaseline-like substance to be introduced into the space between the tensile core and the cladding and here a middle positioning of the optical transmission elements between the tensile strength Core and cladding.

In a further known optical cable, the optical transmission elements are attached to a support element that consists of a core containing a tensile strength, there is a star-shaped profile body in cross-section (irkschau 1974, eft 26, page 1012). The fixation of the optical transmission elements provided at intervals on the support element as well as the straight course of the star-shaped cross-section however, narrow the mobility of the optical transmission elements in the with the help of the support element formed chambers.

The invention is based on the object of the optical cables mechanical protection of the optical transmission elements against mechanical loads, especially against tensile and bending loads.

To solve this problem goes the: - Invention of a basic element to build optical cables from that of a multi-armed or star-shaped cross-section Profile body consists, in its helically extending interstices optical transmission elements are roped and which is provided with a cover.

According to the invention it is provided that one or in the profile body several tensile elements are embedded and that the envelope, the optical transmission elements covered at a distance; furthermore is in the interstices of the profile body between the optical transmission elements and the surface of the profile body a lubricant intended.

A base element designed in this way is guaranteed as a result of the embedding the tensile elements in the profile body initially protect the optical transmission elements against tensile loads. The protection against bending loads is given by that the optical transmission elements as a result of the use of a lubricant and their relatively loose arrangement in the diagonal spaces of the profile body in the event of bending stresses be able to carry out compensatory movements. The lubricant provided in the context of the invention can for example be applied to the wall of the interstices of the profile body be. However, it is also expedient to use the optical transmission elements before or during of the Sinseilens in the interstices of the profile body with a lubricant. Such lubricants are known per se.

An embodiment of a basic element designed according to the invention for the construction of optical cables is shown in the figure.

The basic element 1 consists initially of the star-shaped in cross section Profile body 2, in which a central tensile element 3 in the form of one or more stranded steel wires is embedded.

Of the star-shaped in cross section profile body 2 are through the Arms 4 gusset spaces 5 formed, which are helical in the longitudinal direction of the base element 1 run. Optical transmission elements 6 are roped into these interstices. The profile body 2 is surrounded by a casing 8, which is an extruded one Can be a cover or a woven fabric. In order to prevent the optical Transmission elements 6 are pressed through the casing 8 onto the bottom of the gusset spaces 4 are, the arms 4 of the profile body are dimensioned in length such that between between the envelope 8 and the optical transmission elements 6 there is a gap is, so that the envelope covers the optical transmission elements at a distance. It is thereby guaranteed that the optical transmission elements will move under bending loads of Can move the basic element in the longitudinal direction. This mobility of the optical Transmission elements is also ensured that on the surface the optical transmission elements a lubricant 7 in the form of a vaseline Substance is applied.

2 claims 1 figure

Claims (2)

Claims C3Grunaele.ment for the construction of optical cables, consisting from a multi-armed or star-shaped profile body in cross section, in which Wendelfömig .laufende interstices optical transmission elements are roped and which is provided with a casing, characterized in that in the profile body (2) one or more tensile elements (3) are embedded that the casing (8) the optical transmission elements (6) covered at a distance and that in the gusset spaces (5) of the profile body between the optical transmission elements and the surface the profile body a lubricant (7) is provided. 2. Basic element according to claim 1, characterized in that the Surface of the optical transmission elements is covered with the lubricant (7). L e r s e i t e