RU2005105990A - CURRENT CONDUCTOR FOR ELECTRICAL PROTECTION OF ELECTRICAL EQUIPMENT AND ELECTRIC TRANSMISSION LINE SUPPLIED WITH SUCH DEVICE - Google Patents

Claims (25)

1. A collector for lightning protection of electrical equipment, power lines, structures or structures, comprising an insulating body made of a solid dielectric, at least two main electrodes mechanically connected to the insulating body, and m intermediate electrodes located on the insulating body between the main electrodes with mutual displacement, at least along the longitudinal axis of the insulating body, characterized in that an additional terzhnevoy electrode electrically connected to one of main electrodes and is located opposite the at least one of the intermediate electrodes, moreover, the thickness of the insulating body Δ _i i-layer between the intermediate electrode m (i = 1, 2, ... m) and the main electrode electrically connected to the additional electrode is selected satisfying the condition

where U _{p, i} is the discharge voltage between the i-th intermediate electrode and the main electrode, electrically connected to the additional electrode; E _CR - breakdown strength of the insulating material from which the insulating body is made. 2. The collector according to claim 1, characterized in that the line along which the intermediate electrodes are located with mutual displacement is oriented parallel to the longitudinal axis of the insulating body. 3. The collector according to claim 1, characterized in that the insulating body and the additional electrode, at least in the area of installation of the intermediate electrodes, have a circular cross section. 4. The collector according to claim 3, characterized in that at least one intermediate electrode is made in the form of a ring. 5. The collector according to claim 4, characterized in that the single or each intermediate electrode, made in the form of a ring, is equipped with a pair of protrusions located on the opposite end faces of the ring and mutually displaced along its circumference by at least 90 °, the length of each protrusion is chosen less than the distance from the end plane of the ring to the adjacent intermediate electrode. 6. The collector according to claim 5, characterized in that the mutual displacement of the protrusions around the circumference of the ring is chosen equal to 180 °. 7. The collector according to claim 5, characterized in that the side surface of each ring is covered with a layer of insulation. 8. The collector according to claim 4, characterized in that at least two adjacent intermediate electrodes are made in the form of rings and provided with a pair of protrusions, and the protrusions facing each other on adjacent electrodes are located without mutual displacement around the circumference of the ring. 9. The collector according to claim 8, characterized in that the surface of the insulating body and the side surface of the rings, with the exception of protrusions made on them, are coated with an insulation layer. 10. The collector according to claim 1, characterized in that the insulation thickness between the additional electrode and the corresponding intermediate electrode is directly related to the distance between this electrode and the main electrode electrically connected to the additional electrode. 11. The collector according to claim 2, characterized in that the insulating body is U-shaped, the length of the additional electrode is chosen equal to the length of the insulating body, the first main electrode is made in the form of a metal tube covering the insulating body in its curved part, and the second main the electrode is mechanically connected to one or both ends of the insulating body and electrically connected to an additional electrode, while the intermediate electrodes are located on one or both shoulders of the insulating body. 12. The collector according to claim 11, characterized in that the additional electrode is a core of a segment of an electric cable, and the insulating body is an insulation of said segment of an electric cable. 13. The collector according to claim 1, characterized in that the intermediate electrodes are made in the form of metal plates with rounded edges. 14. The collector according to claim 1, characterized in that the intermediate electrodes are made in the form of pieces of insulated wire. 15. The collector according to claim 1, characterized in that the line along which the intermediate electrodes are located with mutual displacement has a spiral shape covering the surface of the insulating body. 16. The collector according to claim 1, characterized in that the intermediate electrodes are mounted on a tape of insulating material fixed to the surface of the insulating body. 17. The collector according to claim 16, characterized in that said tape of insulating material is spirally wound onto the surface of the insulating body. 18. A collector according to any one of claims 1 to 9, characterized in that the elements to be protected are overhead power line elements of a voltage class of 10 kV, while the diameters of the insulating body and the additional electrode are selected to be 8-60 and 3-50 mm, respectively, and the distance between the main and intermediate electrodes is 600-1000 and 1-100 mm, respectively. 19. The collector according to claim 1 or 2, characterized in that the protected elements are the elements of the electrical equipment of the radar and the radome of the radar antenna, the second main electrode is electrically connected to the body of the radar and to the additional electrode, while the main and additional electrodes are made in the form of parallelepipeds, and the insulating body is in the form of a hollow parallelepiped, the cavity of which is filled with an additional electrode. 20. A collector according to any one of claims 1 to 9, characterized in that the elements to be protected are power line elements, at least one first main electrode is connected directly or through a spark discharge gap to the element to be protected, and the second main electrode directly or through a spark discharge gap connected to the ground. 21. A power line comprising supports with insulators, at least one electrically conductive wire connected to the insulators by means of fastening devices, and at least one current-conducting device for lightning protection of power line elements, characterized in that the current-conducting device for Lightning protection is made in the form of a down conductor device according to claim 20. 22. The line according to item 21, wherein the energized wire is located inside the insulating protective layer, the first main electrode is made in the form of a biting clip mounted on an insulating protective layer and electrically connected to the wire, and the insulating body and the additional electrode are respectively made in the form of a piece of an insulating protective layer and a piece of wire located between the main electrodes. 23. The line according to item 21, characterized in that at least one mounting device is made in the form of an insulating strapping, and the intermediate electrodes are made in the form of metal rings mounted on an insulating strapping with an offset along the length of the strapping relative to adjacent main electrodes, the second main electrode is located near the insulator. 24. The line according to item 21, characterized in that the down conductor device for lightning protection contains a length of cable, the insulation of which forms an insulating body, and a metal core - an additional electrode, the first two main electrodes made in the form of terminators of the length of the cable, clamps, through which the ends the cable section is attached to the wire of the high voltage line, and the second main electrode, made in the form of a metal tube mounted in the middle of the cable section and attached to the support insulator, while Meth electrodes are in the form of rings mounted on the insulating body between the second main electrode and the first main electrodes mutually displaced along the length of the insulating body and mounted on a support for forming the auxiliary electrode with the second main electrode of the spark discharge gap. 25. A power line containing supports with insulators, at least one electrically conductive wire connected to the insulators by means of fastening devices, and at least one current-conducting device for lightning protection of power line elements, at least one the main electrode of the collector directly or through the spark gap is connected to the protected element, and at least one other main electrode directly or through the spark discharge the bottom gap is connected to the ground, characterized in that the down conductor device for lightning protection is made in the form of a down conductor device according to any one of claims 10-18.