DE2614195A1 - Heat resistant insulated electrical conductors - coated with a silicone insulator and a glass fibre sheath impregnated with a polycarbonate lacquer - Google Patents

Abstract

Heat resistant electrical conductors are made by (a) applying silicone insulation to an electrical conductor, (b) applying a sheath of glass fibres and (c) impregnating the glass fibre with a heat resistant polycarbonate lacquer. A pref. impregnating lacquer is made from 100 pts. dioxan, is not >12 pts. polycarbonate and opt. colouring agents. The impregnated glass fibre sheath gives good mechanical protection to the silicone insulation, while the impregnating lacquer binds the glass fibre sheath to prevent disintegration, when the insulation is stripped off for installation. The polycarbonate-impregnated wires can be used at temps. up to 180-200 degrees C without harm and can be used e.g. in electric ovens, hot air blowers, aircraft, etc.

Description

Process for the production of a heat-resistant elec-

tric conduit The invention relates to a method for Manufacture of a heat-resistant electrical cable with which a 1 A silicone insulation is applied on the electrical side of the conductor and then over it Isolation a braid of fiberglass threads is arranged, which then iiii t is soaked in a heat-resistant varnish.

Such heat-resistant electrical lines are in particular Used where these cables are used at relatively high temperatures of 180 to 200 ° C must retain their functionality. Such areas of application are, for example electrically heated drying ovens or fan heaters or aircraft technology. these Requirements for these electrical lines are due to the use of the silicone material met, but these lines then have the disadvantage that they are not mechanically are protected, since this @ aterial greater mechanical loads are not has grown.

For this reason, the braid is made over the silicone insulation Fiberglass threads attached, which is accordingly considered mechanical protection. When disconnecting such a line. This is also used to connect a plug Braid cut through and feathered, so that the line at least at this Interface is no longer protected. So it must be ensured that this The braid is then also fixed at such interfaces by special binding will. In order to avoid this disadvantage, which is considerable for the installation, the braid Impregnated with a heat-resistant varnish, including nowadays only a silicone varnish is used. This lacquer can be hardened, but only at temperatures in the The order of magnitude is from 300 to 360 ° C, which is a considerable expense in terms of equipment conditional. After the curing process, this varnish also remains sticky, so that the Overall, the line is very sensitive to dirt and also cannot be dyed is accessible, which is particularly desirable when there are several such lines be relocated to one another.

The invention is based on the object of a method for production a heat-resistant cable with a braid placed over the insulation indicate that can be produced with little effort and a dry line as a finished line and has a colorable surface.

This task is carried out with a method of the one outlined at the beginning Kind according to the invention in that a varnish is used for the impregnation of the mesh based on polycarbonate is used.

The advantage of this inventive method is its use of the special polycarbonate-based varnish, which is used for the braid of the the same solid cohesion achieved as with the previously customary Silleon lacquers will. Such a varnish can be depending on the take-off speed the production and the drying section to be run through at very low Temperatures, especially at room temperature, dry, so that the effort this is very low. This lacquer has the further advantage that after drying a completely dry surface is achieved for the cable or the Ge mesh, so that the line, in contrast to the known lines, is not is more sensitive to dirt. In addition, such a paint has the advantage that through the addition of appropriate pigments, any colorability is also possible.

As the cheapest. Embodiment for a lacquer as used for the process According to the invention to use st, the use of dioxane as a solvent has been found pointed out that as solids with 100 parts of dioxane a maximum of 12 parts of polycarbonate can be added. The percentage of the polycarbonate added to the dioxane is based on the number of passages with which the line runs Bath of the paint is pulled through. The specification 12 parts polycarbonate is included dimensioned so that the wire provided with the braid = once through such a wire Bath is pulled through and then dried. With a larger number The proportion of polycarbonate can be caused by pulling through a bath of such a varnish be lowered.

In order to produce cables of different colors in this way to be able to, the paint is independent of the other parts of dioxane and polycarbonate Pigment added in the required amount and color.

Claims (3)

Claims method for producing a heat-resistant electrical line with which silicone insulation is first applied to an electrical conductor and then a mesh of glass fiber surfaces over this insulation is arranged, which is then impregnated with a permanent varnish, characterized in that a varnish on the base for the impregnation of the braid full polycarbonate is used. 2. Veriahren according to claim 1, characterized in 1 that as a paint Polycarbonate dissolved in dioxane is used. 3. The method according to claim 1 or 2, characterized in that a Varnish is used that contains 100 parts of dioxane and a maximum of 12 parts of polycarbonate and optionally pigment additives.