DE1033292B - Single or multi-core high voltage cable - Google Patents

Description

Single or multi-core high voltage cable Die in recent years progressive enlargement of the Dimensions of conductors that are insulated by means of a wrapping of paper with Oil or an insulating mixture on the basis of oil and soaked with one ordinary made of metal (e.g. lead) and, if necessary, covered with an impermeable envelope is subjected to gas or oil pressure. did the manufacture of saponified conductors, which are not deformed when the cable is bent, become increasingly difficult design.

This problem is particularly evident in the case of saponified segments Ladders difficult to read. As is well known, it is necessary to prevent deformation of the To prevent conductor rope, in addition to the usual "ears: d of the structure of the rope Pay special attention to your wrapping process when taking any precautionary measures to dedicate. The procedure. which is commonly used to prevent deformation is to be taken care of. that the paper tapes (metallized or not) which are wound up in direct contact with the rope. the Hold the wires in the final layer or the segments that make up it tightly together. However, this method has the disadvantage that the paper tapes in a way mechanically which can be harmful, while on the other hand it can be claimed cannot be tensioned enough to make the reinforcement so strong that a change in shape of the rope is prevented.

Metal tapes are much better suited for this purpose than paper tapes, but there is a disadvantage in using them that they will cause the cable to be bent Can form wrinkles. the serious consequences for the dielectric strength of the cable. From a mechanical point of view it would be ideal to wrap the conductor cable with tapes made of either strong elastic fabric Vegetable or synthetic fibers are made, however this would become one very low dielectric strength precisely in that part of the insulation lead that is in direct contact with the conductor and in which the potential gradient is highest. This difficulty could be caused by the use of metal wires manufactured tapes can be overcome, but this would also have disadvantages lead because the edge of a tape of this type would be too thick, and moreover some of the metal wires could break the fabric during application and the damage the insulating paper placed over them.

In addition to the already mentioned use of a paper layer partially made conductive by metallizing or the like, it is also known in cables to provide an insulation made of vulcanized rubber with a wrapping that acts as an electrostatic shield and consists of a textile structure with a rubber mixture Grap. Hit content is impregnated and covered. However, such a wrapping is unsuitable for oil paper cables because it is not chemically compatible with d''em oil, but can be damaged by it and in turn can deteriorate the dielectric properties of the oil.

The invention relates to a single or multi-core high-voltage cable which has paper insulation impregnated with oil or an oil-based insulation mixture and an impermeable metal jacket and is provided with at least one electrically conductive tape for electrostatic shielding and which is optionally subjected to gas or oil pressure is. According to the invention, the electrically conductive tape consists of a non-metallic fabric which is chemically compatible with the oil and is mechanically resistant when the cable is bent. This fabric can be obtained either by covering a finished fabric formed from natural or synthetic threads with a suitable conductive lacquer or by directly interweaving fibers or threads made from a conductive mass. A conductive lacquer suitable for covering threads or fibers can e.g. B. have the following composition: Ethyl cellulose. . . . . . . . . . . . . . . . . . ... 40g Acetylene black ........ . . . . . ....... ... 8.5 g Dichloroethylene ... .. ............ 1000 cm ' as a solvent A conductive mass that can be spun can, for. B. consist of 80 parts by weight of viscose and 20 parts by weight of carbon black per 100 parts by weight of dry spun thread.

The conductive fabric used 5o11 good mechanical Have properties to remain permeable to liquids and gas, neither of which Insulating oil of the cable are attacked, nor contaminate the. 01 itself and the withstand the highest operating and drying temperatures of the cables.

Tapes of non-metallic conductive fabric can also be used to advantage are applied to the insulated cable core and have, compared to the usual Shielding by means of metallized or conductive papers or by means of metallic Ligaments, the advantage of allowing much greater stretching and therefore themselves Adapt the bending conditions of the cable better.

Claims (5)

PATENT CLAIMS: 1. Single or multi-core high voltage cable that paper insulation impregnated with oil or an oil-based insulation mixture and having an impermeable metal jacket and at least one electrical senior. Tape is provided for electrostatic shielding and which, if applicable Is subjected to stresses caused by gas or oil pressure, characterized in that there, ß the electrically conductive tape made of a chemically compatible with the oil; when the cable is bent, there is mechanically resistant, non-metallic fabric. 2. High-voltage cable according to claim 1, characterized in that the electrical Conductive tape in direct contact with the stranded conductor (s) of the Cable stands. 3. High voltage cable according to claim 1, characterized in that the electrically conductive tape on the insulation of the stranded conductor (s) of the Cable is applied. 4. High-voltage cable according to claim 1, 2 or 3, characterized characterized in that the electrically conductive tape is made of a natural or woven fabric synthetic fibers are formed, which are chemically compatible with the oil and in particular the 01 not caused by finely divided foreign bodies loosening contaminating, electrically conductive paint coating are provided. 5. High voltage cables according to claim 1, 2 or 3, characterized in that the electrically conductive tape is formed from a fabric of synthetic fibers, which is made up of a 01 chemically compatible and especially the 01 not through dissolving, finely divided Foreign matter contaminating, electrically conductive substance are spun. Into consideration printed publications: German Patent Specifications No. 412 611, 579 204; U.S. Patent No. 2 074 826.