DE3608508C2 - - Google Patents

Description

The present invention relates to a tensile optical wire with at least one optical fiber, a strain relief layer and other layers that all in total from a final plastic cover are covered.

An optical wire is already known (DE-OS 32 14 732) from an optical fiber on which a layer is made tensile, non-spun plastic threads applied is. There is an insulating layer above Glass silk for thermal insulation and one above Plastic cover. In this known wire is the Optical fibers from the other structural elements not mechanically decoupled, so that it acts from the outside Tension, compression and transverse pressure loads on the or Optical fibers can be transmitted.

In a known electrical cable (DE-OS 32 41 425) for the off-shore technology is a reinforcement from one Mesh fabric tape provided, its warp and weft threads consist of aramid fibers. This reinforcement ensures a high tensile strength of the cable, it prevents however not that upsetting and transverse compressive forces easily from the outer jacket over the mesh and a separate one Intermediate film can be transferred to the cable core.

The invention is therefore based on the object Specify tensile optical wire of the known type, the optical waveguide is kept free of external mechanical forces.

This task is solved by the in the characteristic of the Claim 1 features listed. The subclaims contain advantageous ones Developments of the invention.  

The wire according to the invention has high tensile strength only a small diameter. Your further processing tion can therefore be easily used on conventional stranding machines respectively. There are also high take-off speeds possible. Due to the stable core structure, high packing densities and thus small cable diameters aim.

The invention is illustrated below in one Example shown embodiment of a wire explained.

Furthermore, versions of cables are described that the like veins included.

According to the figure, the wire has an optical waveguide 1 , which is surrounded by a sliding layer 2 . Be there is a separation layer 3 , around the tubular, butt after butt a tensile tape 4 is placed. There is a plastic cover 5 with which the band 4 is positively connected.

Monomode, gradient or other fibers which are provided with a primary coating are used as the optical waveguide 1 . The sliding layer 2 consists of a structurally viscous filling compound, for example Macromelt TPX 20-162 from Henkel, which makes the core longitudinally watertight. To improve the mechanical decoupling between the optical waveguide 1 and the separating layer 3 , the filling mass of the sliding layer 2 can contain hollow microspheres. The separating layer 3 consists of an extrudable thermoplastic hotmelt adhesive which is impermeable to the filling compound, for example Macromelt TPX 20-030 or TPX 20-146 from Henkel.

The tensile band 4 consists of tensile, longitudinal threads made of glass or aramid and weft threads made of plastic, for example polyester or polyamide. It typically has a thickness of less than 0.2 mm and is insensitive to moisture due to a special locking. The plastic sleeve 5 is extruded over the band 4 . It holds the band 4 together and forms with it a tensile wire sheath which, depending on the material used for the band 4 (glass or aramid), has a modulus of elasticity between 60,000 and 100,000 N / mm ² .

The diameter of the wire is, for example 1.3-1.4 mm. Optical fibers account for this 0.25 mm, the sliding layer 0.25-0.35 mm and the separator layer and the plastic cover each 0.2 mm.

The wire represents an intermediate type between the wires commonly known as "fixed wire" or "hollow wire". Depending on the nature of the filling compound of the sliding layer 2 , the wire is more appropriately described by one term than by the other. If the wire contains several instead of just one optical fiber, it is similar to a loose tube.

For the production of multi-core cables, several for example, five veins combined to form a basic bundle summarizes that further construction elements, such as as a central element to improve the longitudinal watertightness of the basic bundle or tensile elements may contain. The individual veins within the reason bundles are advantageously differently colored mar kiert. Depending on the number of wires required are off several basic bundles are formed.  

The cable core thus contains a practically any type number of basic and / or main bundles in known Way can be stranded using basket stranding machines. A central Ele be made of glass fiber reinforced plastic. All known cones are basically used as cable sheath structures, such as a layer jacket, me tall free coats, etc. suitable. It can be further tensile Elements included.

Claims (4)

1.Tension-resistant optical core with at least one optical waveguide, a strain relief layer and further layers, all of which are covered by a final plastic sheath, characterized in that the optical waveguide (s) ( 1 ) are embedded in a filling compound ( 2 ) which acts as a sliding layer is located within an extruded separating layer ( 3 ) which adjoins the outside, the separating layer ( 3 ) being enclosed by a tubular, tensile band ( 4 ) which is connected to the final plastic casing ( 5 ) in a form-fitting manner. 2. Tensile optical core according to claim 1, characterized in that the tensile tape ( 4 ) is longitudinally watertight in itself. 3. Cable, characterized in that it is at least a tensile, optical core according to one of the contains the preceding claims. 4. Cable according to claim 3, characterized in that there is at least one longitudinally watertight, multiple veins containing basic bundle.