DE1490435A1 - Shrink tubing insulation for high voltage - Google Patents

Description

Shrink tubing insulation for high voltage It is known that high-voltage permanent guides, for example conductors of electrical machines, can be uisolated by winding on several layers of insulating tapes or insulating strips, the layer material rubbing the adhesive resin may contain mica or glass flakes of different sizes: hot use Self-amalgamating silicone rubber tapes , it is possible to use the tapes. For machine insulation $ o thick to choose that the desired insulation thickness is achieved with a single wrapping. It has also already been proposed to provide the electrical conductors for low-voltage systems with an insulating sleeve in one operation by using shrink tubing. Of these so-called Schrumpfachlauchsolation is in the switch and equipment for low-voltage systems often use achie- ved. The primarily use of place-shrink. However, those made of polyvinyl chloride lose a lot of mechanical strength from 700C and split off hydrochloric acid when they glow. The heat-shrink tubing made of polyethylene, polypropylene, polytherephthalic acid esters and the like, also provided, are only satisfactory for low-voltage insulation. It has now been found that heat-shrink tubing can also be used for high-voltage insulation. According to the invention, several shrink tubes are used one on top of the other, optionally with the interposition of plastic layers. Shrink tubes with a thickness of 0.1 to 0.3 mm are particularly advantageous. The shrink tubing used is produced according to known processes by freezing the molecular structure of plastics in a stretched state and triggering the shrinking process in the normal shape by later heating. Suitable materials for the shrink tubing are polyethylene, polypropylene, polytherephthalic acid esters and the like. They have a high electrical fatigue strength and, in particular, a high level of glow resistance. Another particular advantage is that the potential can be controlled both in the radial and in the axial direction. For die.Zwisehenaehiehten suitable insulating materials such as epoxy resins, Silioongummi, unsaturated polyester resins, polyurethanes of particularly advantageous electrical @ surface values are achieved when these materials contain in addition G11mmer- or glass flakes: The application of the intermediate layers can in a known manner by brushing, Tauohen, Vortex sintering or plasma syringes take place. .

Another particular advantage of the present invention is that by dividing the insulating sleeve into several self-contained hose layers, effective potential control layers can be formed. Thus, according to the invention, the intermediate layer * can itself be semiconducting. According to the invention, however, it is also possible to print a surface of the tubes in a semiconducting manner. For this purpose, either a continuous time slice can be selected - or the semiconducting layer can be divided into individual areas that are separate from one another. If , according to the invention, the semiconducting layers are staggered towards the exit point , an axial voltage control is achieved in the case of bushings and long winding bars. It is also possible to improve the control effect by changing the conductivity level and the raster printing.

Additions of, for example, carbon black, silicon carborundum , etc. are used for the semiconducting layer. Suitable resistance values are between 107 and By using shrink tubing, great advantages in terms of insulation and, in particular, manufacturing technology are achieved. The insulation according to the invention is particularly suitable for the insulation of newspapers in switchgear, for the insulation of rod insulation on electrical machines and bushings in the manner of nail clamps. The invention is explained in more detail with reference to the following exemplary embodiments and the drawings.

Fig. 1 shows in part 1 the laminated core of an electrical machine; 2 is a winding bar of a single-ended winding inserted into a groove.

Fig. 2 shows the rod in cross section. The conductor package 3 is surrounded by a plastic layer 4 and five shrunk-on tubes 5, between each of which a plastic layer 4 is attached.

Fig. 3 shows how on the surface of the hose a semiconducting Grid 6 is applied. In the part? is a covering with small mica flakes indicated, which in turn is anchored in a well-adhering silicone rubber compound are. In the area 9 of FIG. 1 it is shown where the semiconducting coverings 6 are staggered are to improve the electrical longitudinal stress on the insulation.

Claims (1)

Claims 1. Shrink tube insulation for high voltage, thereby marked, there are several heat shrink tubing on top of each other, if necessary used with the interposition of plastic layers. . Shrink tubing insulation according to claim 1, characterized in that the plastic layers are still electrical high quality filling materials included. 3. Shrink tube insulation according to claim 2, characterized by the content: of mica flakes. 4. Shrink tube insulation according to claim 1, characterized in that the intermediate layer is semiconducting. 5. Shrink tube insulation according to claim 1, characterized in that the surface the tubing is covered with semiconducting. 6. "shrink tube insulation according to claim 1, 4 and 5, characterized in that the semiconducting layers to the exit point are arranged spatially and staggered according to the resistance value.