DE2847384A1 - High tension proof optical communication cable - with polyurethane epoxy! or polyester filling and sheath of polyethylene, polypropylene, polyurethane or polyester - Google Patents

Abstract

An optical communication cable for use close to high-tension (overhead transmission lines) has all cavities within the cable core and cable sheath filled with a plasticised, not crosslinked plastic, based on polyurethane, epoxy or polyester resin. At least the external part of the cable sheath consists of a material with a high tracking resistance, such as polyethylene, polypropylene, polyurethane or polyester. Such an optical communication cable can be installed subsequently anywhere near high-tension equipment.

Description

High voltage resistant optical communication cable

The invention is in the field of optical communications cables and deals with the structural design of such a cable with regard to its use in the field of high-voltage equipment.

Since the transmission of messages by means of light through optical cables electrical and electromagnetic fields cannot be influenced, have such Cable and others a preferred area of application in the field of systems and devices, carry the high voltage. So it is known in the field of high-voltage overhead lines Plastic-sheathed light guides or single or multi-core fiber optic cables for communication purposes use and to do this, the cable in the center of an overhead line or in the To arrange the outer layer of a phase rope (DE-OS 23 14 538, DE-OS 26 04 766, DE-GM 73 28 623). Here, the spatial allocation of the overhead cable and the optical one takes place Message cable already in the manufacture of the overhead line cable. Retrofitting an existing overhead line with an optical cable is not possible.

In addition, optical communication cables are known in which the cavities within the cable core to improve the friction conditions and to achieve a longitudinal watertightness are filled with a vaseline-like mass (DE-OS 23 02 662, DE-OS 24 29 670). In another known construction are for Construction of the cable only uses plastic elements to create a metal-free cable construction to obtain. Here the optical transmission elements are in the form of glass fibers each surrounded by a loosely applied protective cover (DE-OS 25 13 724, DE-OS 25 51 210, DE-AS 26 08 069).

The invention is based on the object of providing a fully insulating optical To create communication cables that can be used subsequently in high-voltage technology equipment can be laid in any way.

To solve this problem, the invention is based on an optical communication cable from, its metal-free cable core optical transmission elements and optionally Contains tensile elements and is surrounded by a plastic jacket. According to the Invention it is provided that all cavities within the cable core and the Cable sheath with a plasticized, cross-linked plastic based on Polyurethane, epoxy resin or polyester resin are filled and that at least the outer part of the cable jacket made of a material that is resistant to leakage current on the base a polyolefin, in particular polyethylene or polypropylene, or one Polyurethane or a polyester or a polyester elastomer.

Such a cable is across its entire cross-section and across its length is high-voltage resistant, so that it is regardless of different potentials can be laid in devices and systems used in high-voltage technology. For example it can be connected to the phase cables and the earth cable in any order along an overhead line be appended. In this case, short fastening distances are expediently chosen, whereby a certain relative sag is to be set in order to avoid thermal expansions of the overhead line cables anticipate. With regard to electrical pre-discharges, the elements must for fastening the optical communication cable to the overhead cables made of highly insulating, There are tracking current-resistant plastic, but on the other hand easy and safe to assemble be. In view of the limited mechanical load-bearing capacity of such elements and A mounting distance is therefore also recommended with regard to wind and ice loads of a few meters.

If the individual overhead lines consist of bundled conductors, it is advisable to suspend the optical communication cable within the the single conductors described figure to the reinforcement of corona by the insulating Avoid cables when wet. In the area of the hanging insulators of the overhead line Transitions from one overhead line to the other are possible at any time if there are fluctuations in distance, how they can arise due to oscillations in the sag are taken into account.

With regard to the high-voltage-resistant design of the optical communication cable it is essential that when application of optical wires with a die Respective glass fiber loosely surrounding the plastic jacket (hollow core) the space within the casing is completely covered with a non-aging and high voltage resistant migration-proof Mass is filled. This mass must not freeze the fiber, it can oily Have character. The cavities within the cable core between the wires and possibly existing tensile elements are expediently filled with a similar mass, but which can be harder than the mass used within a core sleeve. Provided In the area of the cable jacket there must be spinning and / or braids any cavities that may be present here, too, are completely covered with a high-voltage-resistant one Mass to be filled. Yarn-like reinforcement elements are useful with the used Impregnated mass.

To fill the cavities within the cable core and the cable jacket only plasticized, cross-linked masses based on polyurethane and epoxy resin are used or polyester resin. Electrically high-quality plasticizers are particularly suitable Plasticizers, such as those known, for example, for plasticizing polyvinyl chloride are. A suitable plasticizer is, for example, one under the trade name “Lipinol” T "known dibenzyltoluene (DE-PS 11 38 923). The complete filling of the cavities within the cable core with the high-voltage ground can continue to do so be improved that the masses are made sufficiently adhesive, in particular by adding polyisobutylene.

For the outer surface of the new optical cable, the High voltage technology known requirement for adequate leakage current security are valid. this is expediently based on materials known per se based on a polyolefin, in particular polyethylene or polypropylene, or of a polyurethane or a polyester or a polyester elastomer, which form at least the outer part of the cable jacket.

One embodiment of the new optical communication cable is shown in the figure.

The figure shows an optical cable 1, in the center of which there are three non-stranded cables optical wires 2 are arranged.

Each wire consists of a glass fiber 3 and a hard, elastic one Jacket 4 made of polyethylene terephthalate.

The three wires are in a double-layered sheath 5, the from an inner layer 6 made of an ethylene-chlorotrifluoroethylene copolymer and an outer layer 7 made of polyethylene terephthalate. The cavity inside the double-layer shell 5 is covered with a high-voltage-resistant, oily Completely filled in mass 8 on the basis of polyurethane.

A multi-layer construction is provided as the cable sheath, which from an inner spinning 9 made of high-strength plastic threads, an inner jacket 10 made of thermoplastic polyurethane, an outer covering 11 made of high-strength Plastic threads and an outer sheath 12 made of polyurethane. The high strength ones Plastic threads of the spun layers 21 and 23 consist of an aramid yarn that is connected with is impregnated with a high-voltage-resistant mass based on polyurethane. Darhuber in addition, there are all cavities between the double-layer shell 5 and the inner jacket 10 as well between the inner jacket 10 and the outer jacket 12 as well filled with the high-voltage-proof mass based on polyurethane.

4 claims 1 figure Blank page

Claims (4)

Claims Optical communication cable for laying in the field of high-voltage equipment, in particular of overhead lines, its metal-free cable core optical transmission elements and possibly tensile strength Contains elements and is surrounded by a plastic jacket, d a d u r c h g e k E n n z e i c h -n e t that all cavities within the cable core and the Cable sheath with a plasticized, cross-linked plastic (8) on the base are filled with polyurethane, epoxy resin or polyester resin and that at least the outer part of the cable sheath (12) made of a material that is resistant to leakage current based on a polyolefin, in particular polyethylene or polypropylene, or a polyurethane or a polyester or a polyester elastomer. 2. Optical communication cable according to claim 1, d a d u r c h g e k It is noted that the filling compound (8) for the cavities within the cable core plasticized with an electrically high quality plasticizer for polyvinyl chloride is. 3. Optical communication cable according to claim 2, d a d u r c h g e k It is noted that a dibenzyltoluene is used as a plasticizer. 4. Optical communication cable according to one of claims 1 to 3, d a d u r c h g e k e n n n z e i c h n e t that the filling compound (8) for the cavities inside the cable core contains an adhesive component in the form of polyisobutylene.