NL9001960A - Removing traces of moisture from cable - by applying electrochemical mixt. of metal powders in or on material which swells up in water, seals cable, and decomposes water - Google Patents

Abstract

Mixed powder is applied on to a carrier of material e.g. paper or fibre mat which can swell up; alternatively swellable substances such as methyl cellulose, carboxymethyl cellulose, or starch are mixed in to the powder; the powder or the carrier plus coating is the material used, embodying as carrier metal foil, paper, fibre mat or strips and threads of polymers e.g. polyester.

Description

Desiccant for removing the last water residues from a closed finished product, in particular from a high voltage cable.

The invention relates to a drying agent for removing the last water residues from a closed finished product, in particular from a high-voltage cable, according to the preamble of claim 1.

The application is an addition to patent application P 38 14 764. The desiccant described therein consists of substances which form a galvanic element and which convert and bind the water by means of the associated electrochemical process, for which purpose two chemical elements (preferably metals such as copper and zinc, and also carbon), which are widely spaced in the stress range, in powder form, evenly distributed, galvanically contacting and formed on a large surface on or in a support, which are made of a plastic, a paint or a metal can exist.

This desiccant is predominantly in foil form and can thus be used as a wrapping for electric cables. It should be mentioned: Are metal foils used as a carrier, or in such a way that they form one chemical element, on which the second element is applied as a powder by means of adhesive, by flame spraying or by sintering. If plastic foils are used as the carrier, then those of polyamide, polycarbonate or polystyrene.

The introduction of insulating materials based on PE and VPE (polyethylene and cross-linked polyethylene, respectively) also brought some disadvantages for cable manufacturers and users. A special source of danger was the penetration of water along the cable core if the outer jacket was damaged. As an effective protective measure, the introduction of swellable powders, or the introduction of paper, fiber web or threads of plastics such as polyester, which have been coated with such swellable substances such as methyl cellulose (MC), carboxymethyl cellulose (CMC) or starch, has proven itself here. When water appears, these substances swell and thus prevent a rapid spread of water along the cables, so that only a relatively short cable section needs to be changed.

The object of the invention is to make the desiccant described above even more effective, and in particular suitable for use in high-voltage cables.

The achievement of the object is indicated by the characterizing part of claim 1. It consists essentially of the powdered drying elements mixture being applied to a swellable support, such as paper or non-woven fabric, or to which swellable substances, such as methyl, carboxycellulose or starch, have been added, and this dust mixture as powder or applied to a preferably band-shaped carrier is used.

The advantage of the invention consists in that the drying process is now supported by a sealing process. The combined process ensures that, outside the seal, the moisture that has penetrated is reduced, especially in the zones adjacent to a damage site, that the slowly released hydrogen slows down the further penetration of water into the cable, and that any residual moisture at the repair site is bound and converted, so that no new source of error occurs.

Various embodiments of the invention are shown in the drawing and are described in more detail below. Herein shows: - Fig. 1 a dry metal foil: copper foil with a swellable dry element coating of zinc and starch powder, - fig. 2 a dry plastic foil: polyamide foil with a powder mixture coating of copper, zinc and methyl cellulose, and - fig. 3 a single core plastic insulated high voltage cable with a dry plastic foil over the conductor and a dry metal foil under the jacket.

Fig. 1 shows a drying foil, which as carrier has a foil 1 of copper as the one drying element. It is coated with a powder mixture 2 of zinc as the other drying element and starch as swelling dust. The zinc powder forms an electrochemical element with the copper foil when moisture (water) appears and converts the water. The metal foil can be coated on both sides with the respective powder. Here, however, is shown the possibility of coating the second side of the metal foil with a copolymer 3 of polyethylene (PE) and, as shown in Fig. 3, additionally using the drying foil on a high-voltage cable under the PE jacket as a coating jacket. - If instead of copper-an aluminum foil is used as a carrier, the drying powder to be applied must consist of two elements.

Fig. 2 shows a drying foil which has as a carrier a plastic foil 4 (for example made of polyamide). It is coated by means of an adhesive 5 (for example of polyacrylate) with a powder mixture 6 of copper, zinc and methyl cellulose. - Instead of the plastic strap, a strap made of water-swellable paper can also be used. Particularly suitable in this case is a carbon black paper, similar to what is known from cable manufacture, wherein the carbon black can be used as one of the two elements, which together with an admixture, preferably of zinc, forms the galvanic element.

Finally, in FIG. 3, as an example of application, a single-core, plastic-insulated high-voltage cable is shown, in which a copper plastic foil 8 of the type shown in FIG. 2 lies on the copper conductor bundle 7. This is followed by the inner conduction layer (conduction smoothing) 9, the high-voltage-resistant plastic insulation 10 made of VPE and the outer conductor layer (field smoothing) 11, both conductor layers made of conductive plastic. This is followed by a dry metal foil 11 of the type shown in Fig. 1, which forms a sheathing with the PE jacket 13 of the cable.

Reference drawing agenda: 1. Metal foil from one drying element (copper) 2. Powder coating from the other drying element (zinc), mixed with a swelling substance (starch) 3. Copolymer coating (PE copolymer) 4. Plastic foil (polyamide) 5. Adhesive (polyacrylate) 6. Powder mixture coating of Cu, Zn and methyl cellulose 7. Conductor (copper conductor bundle) 8. Dry plastic film (from construction parts 4-6) 9. Inner conductor layer (conductive plastic) 10. Insulation (VPE) 11. Outer conductor layer (conductive plastic) 12. Dry metal foil (from construction parts 1-3) 13. Cable sheath (PE).

Claims (3)

Desiccant for removing the last water residues from a closed finished product, in particular from a high-voltage cable, formed in such a way that it consists of substances which form a galvanic element and convert and bind the water by the associated electrochemical process - for which at least two chemical elements, preferably metals such as copper and zinc or carbon, which are as far apart as possible in the voltage series, are in powder form, uniformly distributed, making galvanic contact and forming the largest possible surface area, according to patent application P 38 14 764, characterized in that - the powdered element mixture is applied to a support, which consists of a swellable substance such as paper or non-woven fabric, - or that swellable substances such as methyl cellulose (MC), carboxymethyl cellulose form part of the powder element mixture (CMC) or starch, are mixed, - and this substance mixture is powdered or on a carrier eight, in which metal foil, paper, non-woven fabric, or tapes or threads of plastics such as polyester serve as the support. 2. The use of a desiccant of the type as claimed in claim 1, characterized in that the swellable dust mixture in powder form is applied to the conductor of a high-voltage cable, or that it is applied to a support of paper, plastic fiber fleece or plastic threads, and these inserted in a high voltage cable. The use of a desiccant according to claim 2, characterized in that in the case of a single-core high-voltage plastic insulated cable around the conductor (7) a dry plastic film (8) and / or around the outer guide layer (11) a dry metal foil ( 12) which forms a sheathing with the plastic sheath (13) of the cable.