DE102012000125A1 - Device for improving the electrical properties of a coating of a conductor or the like by insulating materials, and a method for using such a device - Google Patents

Abstract

The invention relates to a device for improving the dielectric strength of an insulating substrate on the surface of an electrical conductor, the coating device of the conductor being followed by a device which aligns the molecules and / or nanoparticles or the like of the still liquid insulating substrate by applying a pressure to the device High voltage reached. A method for using this device is also described, which carries out a symmetrical anisotropic alignment of the molecules and / or nanoparticles or the like in the device.

Description

The invention relates to a device for improving the electrical properties of a coating by means of an insulating material on the surface of conductors for electrical use, and to a method of using a liquid insulating material on surfaces of conductors for electrical use by such a device.

By the DD 281 314 A7 is a method for the electrical coating of parts that are wholly or partially electrically conductive, has become known. Such a coating composition consists of any polymers that may be mixed with fillers, or inorganic suspensions that can be applied uniformly to parts by the coating thickness and duration is adjustable by selecting the process parameters. In this case, at least one solvent and a highly disperse hydrophobized silica have been added to the coating composition, so that the silica in combination with the solvent is deposited on the part to be coated under the influence of the electric field, where it builds up a stabilizing framework for the coating composition.

By the DE 829 224 B For example, there is described a method and apparatus for making coatings containing solvents. In the production of such coatings, the bodies to be coated are subjected to the action of an electric charge in the presence of such polymerizable gaseous or vaporous substances which form polymeric or higher molecular compounds under the influence of this discharge.

The WO 02/36 851 A1 describes a method and apparatus for surface treatment of electrically insulating substrates used to coat substrates.

The DE 103 20 805 B4 discloses a device for processing of cylindrical, at least one electrically conductive wire having substrates with a process space and by applying a voltage to at least one, the process space associated, fixedly disposed on the device electrode and a counter electrode again, wherein in the process chamber, a plasma is ignitable and the applied voltage is an AC voltage.

Insulating materials whose basic components consist essentially of polymers or the like applied on a surface of a conductor or the like often do not have sufficient insulating strengths. This inevitably leads to creeping and sliding discharges. Such low insulation resistance is characterized by the fact that a non-self-contained, homogeneous insulation barrier is present. In this case, the dielectric strength of an insulating material corresponds to an electric field strength which may at most prevail in the conductor, without there being a voltage breakdown. Known paint layers of electrical conductors or the like have an isotropic surface with respect to their molecules or the like.

The object of the invention is to increase the breakdown and dielectric strength in the low and high-frequency voltage range of insulation in electrical conductors, such as wires, cables or the like. Furthermore, a lower damping effect should occur in the high-frequency range in the case of the conductors or the like. The invention should lead to a reduction of the process times and a reduced use of insulating materials.

The object of the invention is achieved by a device according to claim 1 and by a method according to claim 6. The subclaims have a further embodiment of the solution principle of the invention to the content.

There is therefore proposed a device for improving the electrical properties of a coating of an insulating substrate or one or more paint layers on the surface of conductors for electrical applications, such as wires, cables or the like with a coating device for applying a liquid insulating substrate, the orientation of the isotropic molecules and / or nanoparticles of the still liquid insulating substrate achieved by application of a high voltage by the device according to the invention. In this case, the conductor is moved continuously through the device, so that curing of the insulating substrate with simultaneous alignment of the molecules and / or nanoparticles has taken place at the end of the device. Due to the electric field of the high voltage, a symmetrical alignment, preferably in the tangential direction of the molecules or of the nanoparticles is carried out so that the surface of the insulating material assumes an anisotropic structure. By means of the targeted alignment of the molecules or the like, virtually a closed surface of the insulating substrate is achieved without requiring thickening of the insulating layer. Furthermore, no additional insulating materials or additives are necessary. Substantially larger dielectric constants can be achieved in the insulating substrate without the addition of additives. By a multiple application of the method, that is, several insulating substrate layers are applied one after the other, the electrical increases Dielectric strength in addition to other mechanical properties of the electrical conductor. The inventive method can also be applied to so-called baked enamels.

A conductor surface produced by the method according to the invention requires substantially less coating layers than conventionally produced surfaces. This has the consequence that the use of material is lower and this also leads to a reduction of the process times, at the same time significantly improved electrical properties. The insulating material is mechanically stable by the method according to the invention, because it can be subjected to greater mechanical stress, without changing its achievements and exceed. A faster processing is also possible.

The molecules or macromolecules or nanoparticles usually present in the insulating substrate have a heterogeneous state of an isotropic molecule composite. By applying a high voltage to the device, which consists essentially of a helix with at least two electrical conductors, an aligned homogeneous dressing is achieved with a self-contained anisotropic surface of the not yet solidified (cured) insulating material, which remains after curing ,

The helix, the at least two conductors, are in a preferred embodiment progressively spaced apart, d. H. they are wound gradually progressively narrower. This achieves a "creeping" alignment of the isotropic molecular structure or the like into an anisotropic structure.

In a further preferred embodiment, it is possible that the at least two electrical conductors are executed in opposite directions with a progressive pitch. A possible construction of the device for the anisotropic alignment of the molecules or the like in the paint can be constructed, for example, such that the at least two conductors are applied on a silicate tube in progressive or approximately equal distances on the outer diameter. The inner diameter of the tube is dimensioned so that the provided with the paint insulation conductor passes without contact with the pipe. For safe high voltage insulation, another tube or body includes the silicate tube with the coils, the sealed space between the outer tube and the inner tube being filled with an insulating oil. In a further preferred embodiment, it is also possible to make this gap with a suitable insulating resin or the like high voltage resistant. At the ends of the sealed tubes or the like, there are the high voltage electrical connections provided by a power supply allowing a continuous change of the high voltage. The entire device is held by a holder.

The device may also be referred to as a dipole, wherein the corresponding device may also consist of a quadrupole.

The applied high voltage, which is preferably a DC voltage, depends on the dielectric strength of the insulating substrate used on the conductor to be coated or the like.

By applying the high voltage to the device described above, the anisotropic surface of the coating of the conductor is achieved, resulting in that the previously existing disorderly isotropic structure of the molecules or the like is virtually closed with their gaps. By the inventive device and the method used therewith, a targeted alignment of the molecular structure or the like of the insulating material is achieved. This means that an internal and external uniform surface is achieved by the molecular structure, which has significantly fewer defects than a normal common surface coating of electrical conductors or the like. In this case, an electrical as well as a mechanical improvement of the coating is achieved.

Depending on the desired use of the conductors coated according to the method of the invention, it is possible for them to pass directly or indirectly through a plurality of coating sections without the hardened layers losing their anisotropic structure.

In a further preferred embodiment, it is possible for the device described above, following the coating, to be part of the coating installation. In such a case, for example, an immersion bath would cause the molecules to be aligned within or after the bath.

By the above-described procedure of the method in connection with the device, an increase in the coating thickness is avoided, so that, for example, in insulated wires when used on winding bodies, a higher filling factor is achieved with a simultaneous increase in the dielectric strength.

By the invention, a much better conductor surface and thus an increase in quality of the product at a lower Outer diameter, reduced process costs and shorter processing time achieved.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DD 281314 A7 [0002]
• DE 829224 B [0003]
• WO 02/36851 A1 [0004]
• DE 10320805 B4 [0005]

Claims (10)

Device for improving the electrical properties of a coating by means of an insulating substrate on the surface of conductors for electrical applications, such as wires, cables or the like with a coating device for applying the liquid insulating substrate on the surface of the conductor or the like, characterized in that the coating device downstream of a Device is provided which achieves alignment of the molecules and / or nanoparticles or the like of the uncured insulating substrate by applying a high voltage to the device, wherein the conductor or the like is continuously moved through the device, where from an isotropic molecular arrangement or the like is anisotropic Molecular arrangement or the like. Apparatus according to claim 1, characterized in that the device consists essentially of a helix, consisting of at least two electrical conductors, which surround the same direction or in opposite directions with a progressive slope through the moving coated conductor by means of a distance. Apparatus according to claim 1 or 2, characterized in that the distances between the at least two filaments of the electrical conductors of the device to the end of the device are narrower, and kept distant by means of a holder. Device according to one of the preceding claims, characterized in that the device consists essentially of a silicate tube or the like with applied coils, through which the conductor to be processed or the like is passed, and that the silicate tube or the like is surrounded by a spaced body, the filled with an insulating oil or an insulating resin. Device according to one of the preceding claims, characterized in that several of the molecular alignment or the like serving devices are connected in series or used individually to achieve multiple layers of paint on the conductor or the like. A method of using a liquid insulating substrate on surfaces of conductors for electrical use, such as wires, cables or the like, by means of a device having an inlet and an outlet for the continuous, coated conductor or the like, wherein by applying a high voltage to the Device anisotropic alignment of the isotropic molecules and / or nanoparticles or the like is achieved after the coating of the conductor in the liquid insulating substrate before solidification in a continuous process. A method according to claim 6, characterized in that a symmetrical alignment of the molecules and / or nanoparticles or the like of the conductor is carried out in the device. A method according to claim 6 or 7, characterized in that an alignment of the molecules and / or nanoparticles or the like is achieved in the device by applying the high voltage. Method according to one of claims 6 to 8, characterized in that the high voltage is designed as a DC voltage. Method according to one of claims 6 to 9, characterized in that the method of coating with subsequent alignment of the isotropic molecular assembly is performed repeatedly to a directed homogeneous anisotropic composite in a conductor or the like.