RU2008115790A - HIGH VOLTAGE ELECTRIC TRANSMISSION LINE AND HIGH VOLTAGE INSULATOR FOR THIS LINE - Google Patents

Abstract

1. A high-voltage insulator for fastening, as a single insulator or as part of a column or a string of insulators, a high-voltage wire in an electrical installation or on a power line, containing an insulating body, reinforcement in the form of first and second reinforcing elements installed at its ends, the first reinforcing element being made with the possibility of connecting, directly or by means of a fixing device, to a high-voltage wire or to a second valve element of a previous high-voltage insulator, columns or garlands, and the second reinforcement element is configured to be connected to a support or to the first reinforcement element of a subsequent high-voltage insulator of said column or garland, characterized in that it further comprises:! a multi-electrode system (MES) of m (m≥5) electrodes mechanically connected to the insulating body and arranged to form an electric discharge between adjacent electrodes of the MES, the MES being located along the equipotential line or equipotential lines of the electric frequency field of industrial frequency in which the insulator operates, perpendicular to the path of the insulator leakage path; and! the first and second supply electrodes, wherein each of the first and second supply electrodes is separated by an air gap from the insulating body and is connected at one end galvanically or through the air gap to the first and second reinforcement elements, respectively, and the second end through the air gap to the first and second ends, respectively MES. ! 2. The insulator according to claim 1, characterized in that it has a cone-shaped insulating

Claims (6)

1. A high-voltage insulator for mounting, as a single insulator or as part of a column or a string of insulators, a high-voltage wire in an electrical installation or on a power line, containing an insulating body, reinforcement in the form of first and second reinforcement elements installed at its ends, the first reinforcing element being made with the possibility of connecting, directly or by means of a fixing device, to a high-voltage wire or to a second valve element of a previous high-voltage insulator, columns or garlands, and the second reinforcement element is configured to be connected to a support or to the first reinforcement element of a subsequent high-voltage insulator of said column or garland, characterized in that it further comprises: a multielectrode system (MES) of m (m≥5) electrodes mechanically connected to the insulating body and arranged to form an electric discharge between adjacent electrodes of the MES, the MES being located along the equipotential line or equipotential lines of the electric frequency field of industrial frequency in which the insulator operates, perpendicular to the path of the insulator leakage path; and the first and second supply electrodes, each of the first and second supply electrodes being separated by an air gap from the insulating body and connected at one end galvanically or through the air gap to the first and second reinforcement elements, respectively, and the second end through the air gap to the first and second ends, respectively MES. 2. The insulator according to claim 1, characterized in that it has a cone-shaped insulating body, and the MES is located on the end surface of the specified body. 3. The insulator according to claim 1, characterized in that it is made in the form of a plate-shaped insulator with concentric ribs on the lower side of the plate-shaped insulating body, and the MES is located on the end surface of one of these ribs. 4. The insulator according to claim 1, characterized in that the MES consists of at least two segments located along at least two indicated equipotential lines mutually offset perpendicular to the path of the insulator leakage path and mated by means of mating electrodes, which made at the ends of these segments, not related to the elements of the reinforcement, and pairwise interconnected galvanically or through the air gap. 5. The insulator according to claim 4, characterized in that it is made in the form of a plate insulator with concentric ribs on the lower side of the plate insulating body, and each segment of the MES is located on the end surface of one of these ribs. 6. A high-voltage power line containing supports, insulators fixed to the supports by means of its metal fittings, and at least one wire under high electrical voltage, mechanically connected to the insulators, characterized in that at least one of the insulators represents an insulator made in accordance with any one of claims 1 to 5.