DE3402763A1 - Reinforcement for self-supporting overhead telecommunications cables - Google Patents

Abstract

For the reinforcement for self-supporting overhead telecommunications cables, bonded bodies are used as reinforcement wires which comprise a high-tensile, non-metallic fibre material as the core and electrically highly conductive sheathing, e.g. of aluminium. <IMAGE>

Description

Reinforcement for self-supporting telecommunication air cables

The invention relates to armoring for self-supporting telecommunication aerial cables from adjacent, helical and preferably single-layer on one the cable core surrounding the sheath applied round wires of the same diameter.

Self-supporting telecommunications aerial cables are used for a wide variety of purposes needed. For example in the case of cable car systems or high-voltage overhead lines. In all In cases, these aerial cables have to span large distances between the beams. This assumes that these aerial cables have a very high strength, i. must be equipped with high-strength reinforcement. The one for great strength known cables with steel wire armouring have the disadvantage that they are a relatively have poor conductivity, which is important when the communication lines enclosing cable sheath made of insulating material. Especially with high voltage overhead lines and the possible earth faults there will be a large one from a telecommunication air cable Conductivity required.

To improve the Leiteiqenschaft with high strength it is according to DE-PS 20 41 814 known, the reinforcement made of wires made of an aluminum alloy build up, with a majority of the aluminum reinforcing wires passing through such made of steel are replaced with an aluminum coating.

Telecommunication air cables have been one of the most popular for a very long period of time Exposed to very aggressive atmosphere.

The invention has for its object to telecommunication air cables of the known To improve the design to the effect that with a high conductivity of the reinforcing wires and as reduced a weight as possible, maintaining or improving tensile strength and the environment has no or only insignificant influence on aging exercises.

According to the invention this is achieved in that at least some the wires from a core of non-metallic high-strength fibers and one of these Fibers are made of a highly conductive metallic sheath.

It is advantageous to achieve one for the wire production process often necessary rigidity to connect the fibers to one another, e.g. to glue them together.

In the case of reinforcement of this type, it may be useful to add the reinforcement to be designed in such a way that these themselves act as special lines for the transmission of data and / or can be used for a power supply. To this end, according to the invention proposed to fold the metallic jacket with an insulating material, so that the metallic sheath is electrically insulated from the neighboring reinforcing wires is. To avoid an irregular surface for the cable, it is advantageous to in the case of such reinforcing wires provided with an insulating coating on the outside, the core or the surrounding metallic jacket according to the strength of the insulating Reduce layer so that the overall thickness of the thickness of the other reinforcing wires is equivalent to.

The metallic jacket made of highly conductive material is advantageous made of a longitudinally welded copper jacket that is attached to the fiber core with a drawing process is applied so that it encloses this tightly. The coat can also be made of aluminum, which is pressed seamlessly around the fiber core is. The metallic jacket is of such a strength that it is one of the fiber core sufficient Lends conductivity, rigidity and resistance to corrosion, so that this species of reinforcement wires also together with other metallic wires, e.g. aluminum wires, can be wound as reinforcement.

The invention is explained with the aid of schematic drawings.

Fig. 1 shows a telecommunication air cable with armored wires according to the invention.

Fig. 2 shows an air communication cable with various types of armored wire.

According to Fig. 1, the communication air cable consists of a core 1, a preferably non-metallic jacket 2 and the reinforcement wires. The core is there from individual metallic lines or fiber optic lines.

The jacket 2 is preferably made of plastic, but can also consist of metal or a plastic composite. The reinforcement wires are made from a core 4 made of high-strength fiber material, e.g. glass fiber or carbon fiber and / or also from a mixture of these fibers together with high-strength synthetic fibers. Of the Core 4 is provided with a metallic sheath 5, which the external conductivity of the telecommunication air cable and thus also the shielding of the cable.

Fig. 2 shows an embodiment in which the reinforcement is made of aluminum wires 6 and wires 7 inserted between them, which in turn consist of a fiber core 8, a metallic jacket 9 and an insulating sheath 10 exist. Such Reinforcing wires are suitable to receive additional special cables over that can transmit electricity and / or messages. It can be seen that the core diameter 8 kept smaller in this design is so that the total diameter of the wires 7 corresponds to the diameter of the wires 6.

Combinations can of course also be used according to the invention from reinforcements according to FIGS. 1 and 2.

Patent claims: - LeerWeite -

Claims (6)

PATENT CLAIMS 1. Armouring for self-supporting telecommunication air cables from adjacent, helical and preferably single-layer on one Round wires of the same diameter attached to the cable core surrounding the cable core, characterized in that at least some of the wires consist of a core of non-metallic high-strength fibers and a highly conductive metallic that encloses these fibers Coat exist. 2. Reinforcement according to claim 1, characterized in that some of the wires, the metallic sheath is covered with an insulating layer. 3. Reinforcement according to claim 2, characterized in that the core diameter and / or the sheath of these wires wrapped with an insulating layer accordingly the thickness of the insulating layer is reduced. 4. Reinforcement according to claim 1 to 3, characterized in that the a highly conductive sheath consisting of a longitudinally welded copper pipe. 5. Reinforcement according to claim 1 to 3, characterized in that the A well-conductive jacket made of aluminum is seamlessly molded. 6. Reinforcement according to claim 1 to 5, characterized in that the Fiber core made of glass and / or carbon fibers, optionally combined with high-strength Synthetic fibers.