SU777764A1 - Earthing device - Google Patents

Description

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Claims (2)

 - a meter more than 5 mm, in the upper part there is a butterfly 3 for connecting the grounding branch 4. The additional grounding electrode 5 is also made of a pipe, worn in the upper part on the main grounding electrode 1, which are separated by a layer of dielectric 6, for example iron oxide. Electrode 5 is connected to electrode 1 at the bottom by a weld seam 7 at the top of a welded strip 8, to which a wing 3 is attached to connect a grounding outlet 4. At the top, the grounding conductor is closed by a cover 9 with an opening for a grounding outlet 4, by which the installation 10 is grounded. insulation in electrical installation 10 {FIG. 1) metal non-live parts are under voltage. Protection against contact damage is achieved by the electrical connection of the current-carrying metal parts to the ground. The earth fault current will go through the grounding branch 4, the butterfly 3 welded to the metal bar 8 to both ground electrodes and the electrodes 1 and 5 to the welded joint 7 and the current goes to the main ground electrode 1. The main 1 and additional 5, the grounding electrodes are arranged as parallel conductors through which a fault current flows to earth. Magnetic fields are created around conductors with currents that act on moving charges along adjacent conductors from an additional 5 and main 1 grounding electrodes separated by a layer of dielectric 6. A Lorentz force acts on driving charges that are simultaneously in an electric and magnetic field. . With a parallel arrangement of the grounding electrodes, the magnetic induction vector B is perpendicular to the direction of the velocity of movement of charges Y, and the force acting on the charges F is perpendicular to the plane of the first two vectors and it distorts the trajectory of movement of charges. Under the action of this force, each charge in the additional and mainly grounding electrodes at the very beginning curves the trajectory almost along a circle, determined from the ratio, .. s. In the main electrode 1, the charges are bent to the lower part of the surface and go along the outer surface (Fig. 2); in the additional grounding electrode 5, the charges go along the inner surface. Thanks to the gift of the proximity effect, which occurs when magnetic and electric fields are applied, the current in the additional grounding electrode will fully concentrate on its inner surface. As a result, the outer surface of the additional grounding electrode 5 is electrically de-energized and safe when touched. The earth fault current spreads from the bottom of the main ground electrode 1. In FIG. Figure 3 shows a diagram of potential voltages within a grounding conductor. The maximum potential is transferred from the ground surface near the main electrode to the depth of the soil, starting from half the length of the main electrode. This ensures the safety of touching the grounding conductor and the step potential on the surface of the earth. This is especially important for mine networks located in the workings of a limited section, where a person can touch earthing, installed in rocks with high resistance. The earthing switch increases the safety of electrical installations, reduces the potential on the earth's surface around the grounding electrode, transfers high potential when current flows to the ground deep into the ground, half the length of the main grounding electrode, and contributes to a better spreading of currents in the deep layers of the earth. The design of the proposed earthing switch is simple, so it will find wide application in various industries. Claims An earthing device containing a main earthing electrode with a tap, on top of which, covered with a dielectric layer, is coaxially mounted an additional earthing electrode, characterized in that, in order to ensure safety when touching the earthing switch, to reduce the potential on the earth's surface, an additional grounding electrode The electrode at the top and bottom is electrically connected to the main grounding electrode, and the earthing switch is provided with a cover installed at the outlet connection. Sources of information taken into account during the examination 1. M. N. Nayfeld. Grounding and protective measures of safety, M., Energia, 1971, p. 22-37. 2. USSR author's certificate for application No. 2636195 / 24-07, cl. H 01R 3/06, 1978. % 2.2 FIG.