DE19624967C2 - Optical core - Google Patents

Description

The invention relates to an optical wire with a optical fiber, at least one tensile and crush resistant Element and one filled with a filling material outer shell.

Optical wires with at least one loose in an outer Optical fiber arranged as a hollow or Loose tubes. The outer shell consists of usually from a low coefficient of friction having inner layer and an optical fiber external mechanical protection Layer. A swellable material is used as the filling material or a thixotropic gel that uses the Longitudinal water tightness guaranteed. A optionally provided excess length of the optical fiber protects against the outer shell surrounding it optical fiber against impermissibly high tensile loads and allows the core z. B. as a central element in an optical aerial cable.

In such or similar applications are also in the outer shell tensile and compressive elements for example made of glass fiber reinforced plastic or Steel integrated, which protects the optical fibers from tensile and To protect upset stresses. In doing so however, the optical fibers through the solid outer Cover only indirectly protected and have none  immediate protection against mechanical stress on.

DE 195 12 483 A1 describes a method for continuous coating of optical fibers or Optical fiber bundles with a radiation curable Coating material whose consistency is soft, medium or can be hard. By the additional Introduction of strain relief elements and application An additional outer layer is said to improve stability of the bundle significantly increased.

An optical cable is known from DE 42 28 956 A1, whose optical fibers by rope on a Support element with simultaneous localization the surface of which is pre-sorted. To fix the optical fibers on the carrier element can be a Hot melt adhesive or a UV reactive varnish used will.

DE 32 39 667 A1 relates to a jacket element for Optical fiber that consists of one or more Optical waveguide is loosely surrounding profile body. The profile body is through a plastic tube formed on the parallel to this train and pressure-absorbing longitudinal elements by means of a holding spiral are attached.

The problem underlying the invention is an optical one Core with at least one in an outer sheath extending optical fiber so that the optical fiber as good as possible before pulling and Upset stress is protected.

This problem is solved according to claim 1 solved that the optical fiber between two parallel to these running tensile and compression resistant elements  is arranged and that the optical fiber with the tensile and compressive elements by means of an optical Fiber and the tensile and compressive elements in common enclosing inner envelope is firmly connected.

The advantages that can be achieved by the invention exist especially in that the optical fiber and the existing tensile and compressive elements through the firm and permanent connection of optical Fiber and tensile and compression resistant elements themselves tensile and is crushproof and so an effective and immediate protection of the optical fiber against impermissible high mechanical stress is guaranteed. This is particularly the case with such cable constructions Advantage where the cable is frequent or constant Is exposed to tensile loads, for example at Aerial cables. The optical wire according to the invention is also in a simple and inexpensive way producible.

By the features listed in the subclaims are advantageous developments and improvements of Invention possible.

For a high strength of the connection and a simple The optical wire according to the invention can be produced it is beneficial if the inner wrapping is made from a Hot melt adhesive or from one by UV radiation cured paint is formed.

An embodiment of the invention is in the Drawing simplified and shown in the following description explained in more detail.

In the exemplary embodiment of an optical core 1 according to the invention shown by way of example, an optical fiber 5 is arranged between two tensile and compression-resistant elements 3 running parallel to the optical fiber. An inner sheath 7 formed, for example, from a hot-melt adhesive coats the two tensile and compression-proof elements 3 and the optical fiber 5 and establishes a firm connection between them. The unit formed from optical fiber 5 , tensile and compressive elements 3 and inner sheath 7 is surrounded at a distance by an outer sheath 9 made of plastic and having an annular cross section. The annular space formed between the unit and the outer shell 9 is filled with a filling material 11 .

Claims (3)

1. Optical wire with an optical fiber, at least one tensile and compressive element and an outer shell filled with a filler material, characterized in that the optical fiber ( 5 ) between two parallel to this tensile and compressive elements ( 3 ) arranged and that the optical fiber ( 5 ) is firmly connected to the tensile and compressive elements ( 3 ) by means of an inner covering ( 7 ) which encloses the optical fiber ( 5 ) and the tensile and compressive elements ( 3 ) together. 2. Optical wire according to claim 1, characterized in that the inner sheath ( 7 ) is formed from a hot melt adhesive. 3. Optical core according to claim 1, characterized in that the inner sheath ( 7 ) is formed from a lacquer hardened by UV radiation.