SU94750A1 - Shield for high-voltage insulating structures - Google Patents

Description

In high voltage installations, the choice of insulating distance is determined by the magnitude of the applied test voltage. In practical structures that have an intermediate metal equipment with significant capacity relative to the earth, streamers that occur at certain points of the reinforcement under high potential can have adverse effects leading to a decrease in the electrical strength of the structure. When the streamer reaches a high-capacity intermediate reinforcement, the resistance of the spark decreases and the maximum potential is transferred to the intermediate reinforcement, which leads to the appearance of a cascade discharge with its inherently low values of average discharge gradients. To combat this phenomenon, a number of measures are used, such as, for example, the forced division of voltage along the discharge gap by capacitors or resistances, the installation of corona electrodes, as well as the installation of high-voltage shields radii of curvature, thus achieving a general alignment of the stress distribution and creating conditions that impede the formation of streamers. In the described invention, in order to prevent the formation of streamers, it is proposed to make shields installed at the places of possible formation of streamers, either from a semiconductor or from a dielectric covered with a semiconducting layer. Screens can be in the form of flat or sectorized disks or cones, or in the form of a system of rods, forming an asterisk. FIG. Figures 1 and 2 show two designs of such shields mounted on high-voltage insulators. FIG. 1 shows a screen in the form of a truncated cone / electrically connected to the upper reinforcement of the insulating structure 2, having 2

1., ..,. daily armature 3. As mentioned above, the screen is made of either a semiconductor or a dielectric coated with a semiconductor layer.

With relatively long-term exposure to voltage (for example, at a frequency of 50 hc), such a screen will be similar to a metallic one with high conductivity, and the place of maximum stress will be transferred from the insulator reinforcement to the edge of the screen.

As a result, the edge of the screen is the place where the start of the discharge pattern will occur. At the same time, the resistance of the screen is chosen so as to prevent the possibility of concentrating large currents in individual places, i.e. if the edge of the screen tends to sharply increase in current in any place, then the voltage drop in the body of the screen should reduce the potential of this place and thereby reduce the possibility of a sharp increase in current at this point. Thus, the presence of such a screen, not preventing the formation of a corona on its edges, will inhibit the occurrence of streamers, for which a concentration of current is necessary at the place where the streamer is formed.

In order to increase the efficiency of such screens, it is advisable to make them with the primary conductivity along the field direction, which can be done by dividing the screen into separate sectors separated from one another by an insulation layer. Similarly, such a screen can be spun from individual semiconducting rods installed radially in the form of a star to the insulator fittings (Fig. 2).

The advantage of such semiconductor screens compared to metal screens, which have large rounding radii, as well as corona electrodes, is much less the effect of contaminants arising when the screens are installed in the open air.

Subject matter

Claims (2)

1. A screen for high-voltage insulating structures, characterized in that, in order to prevent the formation of streamers and increase discharge voltages, it is made either of a semiconductor or of a dielectric coated with a semiconducting layer. 2. The screen according to claim 1 in the form of a cone or disk, excl Ayu yy. that, in order to reduce the amount of current flowing to the site of the -v van streamer, it is divided into separate sectors, isolated. or another. h, ..; A screen modification according to claim 2, characterized in that it is made in the form of a system of rods made of a conductive material, nj, connected to the insulator reinforcement and radially arranged. N 94750