DE1490575B1 - HOLDING DEVICE FOR CIRCUIT COMPONENTS - Google Patents

Description

The invention relates to an electrical cable, preferably a high-voltage cable, the isolation of which consists of an olefin polymer. Under cables are here and in the following also lines are to be understood. For the insulation of such a cable can in particular polyethylene, both high-pressure polyethylene and low-pressure polyethylene as well as cross-linked polyethylene can be used. The use of such cable insulation a limit is set for high-voltage transmission, which is around 30 kV. The reason for this limitation is that made of polyethylene in the electrical Field hydrogen is split off.

To overcome this limitation, it is known (French patent 1308 246) to use a copolymer of ethylene and styrene with a styrene content of 5 to 30 "/, as cable insulation. It is also known (Austrian patent 207 561) to use cable insulation on the basis of a Olefin polymer, especially made of polyethylene, small amounts, preferably 5 to 200 / "of a hydrocarbon, such as tristyrene, x- or f-methylnaphthalene, or another hydrocarbon, such as. B. dodecylbenzene, the molecule of which consists of a longer aliphatic chain containing a benzene nucleus in the middle or at the end of the chain. It is also known (German Auslegeschrift 1141081) to add small amounts of unsaturated, perhalogenated hydrocarbon compounds with a melting point below 20 ° C and a boiling point above 120 ° C.

The invention provides a further improvement in accordance with the object Cable insulation, especially for high voltage purposes, based on an olefin polymer, in particular on the basis of polyethylene. According to the invention is the cable insulation a small amount of N-phenyl-N'-isopropyl-p-phenylenediamine and / or N-phenyln-cyclohexyl-p-phenylenediamine and / or carbazole and / or acridine were added. The invention is based on the knowledge that an addition of the specified compounds, which contain at least two benzene nuclei that either have a nitrogen atom are interconnected or have heterocyclic character, in which Ring a nitrogen atom is incorporated, the glow resistance and dielectric strength of from olefin polymers, in particular from cable insulation made of polyethylene is increased significantly.

It is known per se to use diaryl-p-phenylenediamines as antioxidants to be used for polyethylene. However, it has been shown that, for example, by the addition of NN'-di-naphthyl-p-phenylenediamine, also known as an antioxidant for polyethylene as well as 4,4 '- thio - bis - (3 - methyl - 6 - tert: butyl-phenol) the glow resistance of polyethylene insulation practically is not affected. To increase the dielectric strength and glow resistance So it comes from cable insulation based on solid olefin polymers do not attempt to add compounds that have been found to be effective antioxidants to have.

The addition of those selected according to the invention is particularly effective Connections for cable insulation made in a known manner from a low-pressure polyethylene with a molecular weight of at least 80,000. The quantities in which the compounds of the insulation selected in carrying out the inventive concept be added vary with the individual substances and also depend on the temperature that the cable accepts during operation. In general, it is best to increase the amount to choose the additives used in the context of the invention at most in such a way that that no exudation of these substances is to be feared at the operating temperature of the cable is.

The compounds indicated, one of which is N-phenyl-N'-isopropyl-p-phenylenediamine and carbazole can be used either alone or together added to the cable insulation. Other known additives can also be added will.

To explain the invention, FIGS. 1 and 2 two according to the invention trained cable shown in perspective.

F i g. 1 shows a single-core cable for 60 kV, while in FIG. 2 a Three-core cable for 60 kV is shown.

The head 1 of the FIG. 1 single conductor cable shown for 60 kV consists of stranded copper wires on which the bandage 2 is upset. The bandage 2 can be made from spun, graphitized fabric tape exist. For example, a cotton ribbon that is mixed with is impregnated from polyisobutylene and graphite.

Instead of the graphitized fabric tape, a vulcanized, highly conductive butyl rubber mixture can also be sprayed onto the conductor 1 in the extruder as a bandage 2, which is then vulcanized. Such a highly conductive bandage on the conductor has the advantage that in the event of a short circuit it reliably prevents the insulation in the vicinity of the conductor from melting.

So that the copper wires of the conductor run through the in the Mixing existing sulfur is prevented, it is expedient to the individual Tinning copper wires before saponifying.

The polyethylene insulation 3 is injected onto the graphitized fabric tape 2 in the extruder. In carrying out the inventive concept, this polyethylene insulation consists of a low-pressure polyethylene with a molecular weight above 80,000 to which 0.5% of N-phenyl-N'-isopropyl-p-phenylenediamine is added.

In addition to increasing the improvement in the electrical values of the cable insulation, the added N-phenyl- N'- isopropyl-p-phenylenediamine also acts as an anti-aging protection for the polyethylene insulation 3. In addition, other compounds known as antioxidants can also be added to the polyethylene insulation.

The graphitized fabric tape 4 is placed on the polyethylene insulation 3 spun on in the same way as the fabric tape used as bandage 2 can be made. Appropriately before the spinning of the graphitized Tissue; bandes4 on the polyethylene insulation 3 another melted or sintered, in FIG. 1 graphite layer, not shown, applied. For this purpose, for example the cable during its manufacture immediately after the polyethylene insulation has been sprayed on 3 drawn through graphite. As to this time the isolation 3 is still hot, a graphite layer is melted onto the insulation.

To the outside, this is shown in FIG. 1 shown cable from the mechanical Protective sheath? surrounded by polyvinyl chloride.

The in the F i g. 2 shown three-core cable consists of the three ladders 1, which in the same way as the head 1 of the in F i g. 1 shown Cable is formed.

The polyethylene insulation 3 is injected onto the bandage 2 in the extruder and, according to the invention, consists of a low-pressure polyethylene with a molecular weight of over 100,000 to which 0.5 % carbazole is added. The graphitized fabric tape 4 is spun onto the polyethylene insulation 3, and in the same way as in the case of the FIG. 1 shown single conductor cable can be melted or sintered on the insulation 3 a graphite layer.

The three conductors wrapped with the graphitized fabric tape 4 become then twisted around the core shim 9. The core shim 9 consists, for example, of a textile thread onto which a non-vulcanized rubber regenerate is sprayed is. When stranding with the three ladders, this originally becomes a round core extension squeezed so that it completely fills the space between the three conductors.

The highly conductive cable is then stranded on the cable stranded in the manner described Plastic mixture 8 injected in the extruder, which consists of a mixture of polyisobutylene and graphite.

A conductive tape 10 is then spun onto the highly conductive plastic mixture 8 sprayed in this way, which tape is designed as a graphitized fabric tape in the same way as the tapes 4. The three-core cable wrapped in this way is enclosed by the shield 11 made of flat steel wires, on which the outer protective sheath? is sprayed on from polyvinyl chloride.

Claims (3)

Claims: 1. Electrical cable, preferably high-voltage cable, the insulation of which consists of an olefin polymer, in particular polyethylene, characterized in that the cable insulation has a small addition of N-phenyl-N'-isopropyl-p-phenylenediamine and / or N-phenyl-N'-cyclohexyl-p-phenylenediamine and / or carbazole and / or acridine contains. 2. Electrical cable according to claim 1, characterized in that the Hydrocarbons are added at most in an amount that even at the operating temperature of the cable does not exude hydrocarbon. 3. Electrical cable according to claim 1, characterized in that a low-pressure polyethylene with a molecular weight of at least 80,000 is used for the cable insulation.