DE2541178C2 - Optical cable - Google Patents

Description

The invention relates to an optical cable, the cable core of which has a soft, flexible sheath-Jung provided with tensile strength element to which in at least one layer in the layer itself alternately provided with a protective sheath light guide and cushion elements are arranged, the resulting Structure is surrounded by a protective sheath.

Optical cables are primarily used to transmit information using optical cables Frequencies provided. They contain light guides as a transmission medium, which are made of glass or quartz fibers. In one embodiment of the light guide, it consists of a glass fiber circular cross-section covered with a cylindrical shell made of a glass with a low refractive index than that of the core is surrounded. However, other embodiments of light guides are also known. However, all light guides have a disadvantageous property in common that they are resistant to mechanical stresses of any kind are very sensitive. Any mechanical impact can be detrimental the light guide transmission properties, so that care is taken with optical cables it must be that such mechanical action is kept to a minimum in their manufacture and use is reduced.

An optical cable is known (DE-OS 24 29 b7ü). whose cable core in the center is a fixed little thing, like a steel wire, around which several strand-like structures are arranged, which are surrounded by extruded polyethylene sheaths bundles optical fibers and non-optical reinforcement «- fibers are made of steel. To prevent the Optical fibers can be scratched, cut or otherwise damaged known optical cables both in the bundles and in the cable core between the bundles existing cavities filled with a paste-like material such as vaseline

The known optical cable has the desired properties only to a very limited extent. A The disadvantage arises during the manufacture of the bundle, because the stranding of the unprotected, mechanical weak optical fiber is very difficult. You can easily inadmissible mechanical influences be exposed.

Since neither the optical fibers nor the non-optical reinforcing fibers are enclosed by a sheath there is direct contact between them via the paste-like material Da when the cable moves relative movement occurs between optical fibers and non-optical gain fibers is a Rubbing and scratching between the two is inevitable, \ because the paste-like material is squeezed away can. For the same reason, mutual punctiform compressive stresses can lie next to one another. - gender optical fibers, which is also disadvantageous for the transmission properties, not avoided will. Thus, the absolutely necessary to maintain the optical transmission properties Separation of the optical fibers from the non-optical reinforcement fibers cannot be guaranteed with certainty will.

In addition, the sliding properties of the paste-like material are highly temperature-dependent is, so that its optimal effect is only available in a limited temperature range At high temperatures the viscosity of the paste is so low that it is easily squeezed away. At low Temperatures, its viscosity is so high that there is no longer any lubricating effect, which in disadvantageously no more mutual movement between the fibers allowed.

From DE-OS 23 55 855 an optical cable is known in which around the central tensile element a steel wire provided with a coating of polyethylene at least one layer of a Protective sheathed bundled optical light guides and insulated electrical conductors are stranded. About it is an extruded protective cover made of black polyethylene is provided.

From DE-OS 24 30 857 an optical cable is known in which the Quei cut of the cable distributed tensile elements are provided. The light guides and the tensile elements are to be bundled summarized and around a padded central element made of foamed polyethylene in one layer stranded. A layer of foamed polyethylene surrounds the stranded bundles and above it is an outer one Protective jacket arranged (F i g. 5).

In a further cable structure, a layer of optical bundles without tensile elements is stranded around a central, tensile steel element. Each bundle is surrounded by a layer of foamed polyethylene and the layer of the bundle has an outer protective jacket (l · > g. B).

The application is based on the task of creating an optical cable in which direct ₄ contact between the light guides or between the light guides and the tensile elements is definitely excluded. In addition, neither should be able to exert pressure on each other, but they should

Light guides have sufficient freedom of movement when bending the cable.

According to the invention, this object is achieved by the means specified in claim 1

The light guides provided with a hard coating can be handled better during further processing because their resistance to mechanical influences is improved. The soft padding of the Tensile elements and the hard coating on the light guides reliably prevent a disadvantageous direct Contact between the two. Damage to the light guide is thus reliably prevented.

The tensile elements are also not able to exert any pressure on the light guide because it is from the resilient envelope is absorbed. An impairment of the optical fiber transmission properties is therefore excluded under normal operating conditions.

The light guides also have the necessary mobility in the new cable because they are sheathed tensile elements also have a larger diameter, creating additional ^ room for movement for the light guide is available.

Further advantageous details of the invention are contained in claims 2-4. The figure shows a Exemplary embodiment of the new optical cable in cross section

The tensile strength element 5 can be seen in the center, which is provided with a soft cover 6 Around this are alternately provided with a soft cover 4 tensile elements 3 and the with a hard coating 2 provided light guide 1 stranded. Around this core is a soft, for example foamed plastic tape 7 wound, over which, as is common with cables, the - not shown - Cable sheath made of PVC or PE can be arranged. Threads, for example, can be used as tensile elements 3, 5 made of steel, polyamide or glass can be used. A polyamide, for example, is suitable for the cover 2, Polycarbonate, polyethylene terephthalate or polypropylene and the casing 4 or 6 can, for. B. off foamed PE, foamed PVC or foamed PUR.

The mutual lubricity of the strands: can _: also be improved by the fact that they are powdered with talc in a manner known per se.

1 sheet of drawings

Claims (4)

Patent claims: 1. Optical cable, the cable core of which is provided with a soft, flexible sheath contains tensile element to be able to alternate with one in at least one position itself Protective sheath provided light guide and cushion elements are arranged, the resulting Structure is surrounded by a protective casing, characterized in that the cushion elements are designed as tensile elements (3) with a soft covering (4) that the protective jacket (2) the light guide (1) is harder than the soft covering (4) of the tensile elements (3) that each Layer is wrapped with a soft film (7), and that the tensile elements (3, 4) a larger one Have a diameter than the light guide (1) with protective sheath (2). 2. Optical cable according to claim 1, characterized in that the coating of the light guide (I) consists of a polyamide, polycarbonate, polyethylene terephthalate or polypropylene. 3. Optical cable according to claims 1 and 2, characterized in that the sheath (4) of the tensile elements (3) made of a foamed plastic such as PE, PVC or PUR. 4. Optical cable according to claims 1 to 3, characterized in that the wrapping film (7) consists of a foamed plastic. 30th