RU2002126810A - ELECTRIC TRANSMISSION LINE WITH A Lightning Protection Device, Lightning Protection Device and Lightning Protection Arrester - Google Patents

Claims (33)

1. A spark gap of a lightning protection device for protecting an electrical object from lightning strikes, containing means for forming a spark gap through which, during overvoltage, a protective spark overlap develops, and contact conductive elements, characterized in that it is provided with contact means for electrically connecting one of said means of formation or conductive elements with an antenna, the design and dimensions of which are selected from the guidance condition on the spark gap at approximately and to the protected object of the lightning channel of a potential equal to or greater than the potential of the arrester's operation, to the moment ahead of the moment when the lightning channel comes into contact with the elements of the protected object, at least twice the duration of the arrester. 2. The spark gap according to claim 1, characterized in that it is a long-spark gap. 3. The spark gap according to claim 2, characterized in that said forming means is made in the form of a length of cable along which a sliding discharge develops during overvoltage and at least one first electrode mounted on top of the cable insulation in its middle part. 4. The spark gap according to claim 3, characterized in that the contact means is configured to connect the antenna to one of its ends to the specified electrode or to the cable core. 5. The spark gap according to claim 3 or 4, characterized in that a semiconducting or ribbed coating is applied on the surface of the cable section between said electrode and one of the cable ends. 6. The spark gap according to claim 5, characterized in that it is additionally equipped with a second electrode mounted on top of the cable insulation in its middle part. 7. The spark gap according to claim 6, characterized in that on the surface of the cable section between the specified second electrode and the ends of the cable nearest to it, a semiconducting or ribbed coating is applied. 8. The spark gap according to claim 1, characterized in that it is a valve gap. 9. The spark gap according to claim 1, characterized in that it is a chain of at least two gate arresters, said contact means being installed in the middle of said chain. 10. A lightning protection device for protecting an electrical object from lightning strikes, made on the basis of a spark gap and equipped with fasteners for mechanical attachment to the specified electrical object, characterized in that the spark gap according to claim 1 is selected as a spark gap and the device is additionally equipped with an antenna connected to one of the means of forming the spark gap or one of the conductive elements of the specified arrester, the design and dimensions of the antennas , as well as the form of its connection with the arrester, are selected from the guidance condition on the arrester when approaching the protected object of the lightning channel of a potential equal to or greater than the potential of the arrester to operate at a time ahead of the moment when the lightning channel comes into contact with the elements of the protected object for a period of at least twice the duration of the spark gap. 11. Lightning protection device according to claim 10, characterized in that the spark gap according to claim 2 is selected as the arrester. 12. Lightning protection device according to claim 10, characterized in that the spark gap according to any one of claims 3 to 9 is selected as the arrester. 13. Lightning protection device according to any one of paragraphs.10-12, characterized in that the antenna length is selected in the range from 1 to 20 m 14. Lightning protection device according to any one of paragraphs.10-12, characterized in that the antenna length is selected from the ratio

where l is the antenna length, m; U _p is the operating voltage of the arrester, kV; R is the leakage resistance, kOhm (R <500); N - the height of the lower end of the lightning channel above the ground (50≤H≤300) at the time of operation of the arrester, m; α, n are dimensionless parameters that are inversely dependent on the calculated distance between the place of lightning strike and the arrester, with parameter α being selected in the range from 180 to 6.5, and parameter n being in the range from 1.4 to 0.8. 15. The lightning protection device according to claim 14, characterized in that the value H of the height of the lower end of the lightning channel above the ground at the moment the arrester is triggered is selected in the range 50≤H≤300, m 16. The lightning protection device according to claim 14, characterized in that the value H of the height of the lower end of the lightning channel above the ground at the moment the arrester is activated is selected from the relation t≈ (30 ... 50) + (H-50) / 0.3, where t is the lead time of the spark gap operation relative to the moment of contact of the lightning channel with the protected object, μs (30 <t <1000). 17. Lightning protection device according to any one of paragraphs.14-16, characterized in that for the estimated distance in the range from 0 to 50 m, the values of the parameters α and n are selected equal to 180 and 1.4, respectively, and for the estimated distance in excess of 50 m respectively equal to 6.5 and 0.8. 18. A power line containing at least one wire under electric potential, at least one support carrying said wire, at least one insulation element of said wire from the support and / or other line elements under electric potential, excellent from the potential of the specified wire, as well as at least one lightning protection device based on a spark gap to protect at least one of the specified insulation element from lightning surges, characterized in that o the specified lightning protection device is a lightning protection device according to claim 10. 19. The power line according to p. 18, characterized in that the lightning protection device is a lightning protection device according to claim 11. 20. The power line according to claim 19, characterized in that the means for forming the spark gap in the spark gap of the lightning protection device is made in the form of a cable length along which a sliding discharge develops during overvoltage, the ends of the conductive cable core being connected to at least one grounded structure , and at least one first electrode mounted on top of the cable insulation in its middle part and connected to the specified wire of the power line through a spark discharge romezhutok and antenna configured as a pigtail and is electrically connected at one of its ends to the first electrode. 21. The power line according to claim 20, characterized in that the conductive body of the power line support is used as a grounded structure. 22. The power line according to claim 20, characterized in that the upper end of the cable core is attached to the body of the power line support, and the lower end is attached to a separate electrode buried in the ground. 23. The power line according to item 22, characterized in that it contains a metal guy made in the form of a cable, and the specified guy is used as the specified length of the spark gap cable, and a guy anchor is used as the electrode buried in the ground. 24. The power line according to claim 19, characterized in that said spark gap is additionally equipped with a second electrode mounted on top of the cable insulation in its middle part and connected through the spark gap to the wire of the power line, and the antenna is made in the form of a piece of wire and is electrically connected one of its ends with the specified first electrode. 25. The power line according to claim 19, characterized in that the means for forming the spark gap in the spark gap of the lightning protection device is made in the form of a length of cable along which a sliding discharge develops during overvoltage, the ends of the conductive core of the cable being isolated from grounded structures, and at least at least one first electrode mounted on top of the cable insulation in its middle part and connected through the spark gap to the wire of the power line, and the antenna is made in a piece of wire and is electrically connected by one of its ends to the core of the specified cable. 26. The power line according to claim 19, characterized in that the means for forming the spark gap in the spark gap of the lightning protection device is made in the form of a cable segment, along the surface of which a sliding discharge develops during overvoltage and the ends of the conductive core of which are connected to the wire of the power line, and at least at least one first electrode mounted on top of the cable insulation in its middle part, while the antenna is made in the form of a piece of wire and is electrically connected by one of its ends to bound electrode, and its other end connected to the support through a spark discharge gap. 27. The power line according to claim 19, characterized in that the spark gap is made in the form of a section of an insulated wire of the power line, along the surface of which a sliding discharge develops during overvoltage; the attachment point of the indicated line wire to the insulator; a biting clamp mounted on the surface of the specified insulated wire and connected to the core at a distance from the mount, and an electrode installed on top of the insulation of the specified section of the insulated wire in its middle part between the biting clamp and the mount, and the antenna is made in the form of a piece of wire and electrically connected by one of its ends to the specified electrode. 28. Power line according to any one of paragraphs.20-27, characterized in that it contains at least two wires under different electrical potentials, and the lightning protection device contains two long-spark arresters made on a single piece of cable and mutually offset along it length, moreover, one spark gap serves to protect against overlapping insulation of one wire of the line, and another spark gap serves to protect from overlapping insulation of another wire of the line. 29. Power line according to any one of paragraphs.19-28, characterized in that the upper end of the antenna is connected to a reference insulator mounted on top of the pole. 30. The power line according to claim 28, characterized in that a metal rod is mounted on the support insulator, connected to the antenna and directed upward. 31. A power line according to claim 18 or 19, characterized in that a lightning protection cable is used as an antenna, isolated from supports with insulators. 32. The power line according to claim 18, characterized in that the support comprises at least one metal element isolated from the earth and from other elements of the power line and connected to the antenna. 33. The power line according to p, characterized in that the lightning protection device is a lightning protection device according to any one of paragraphs.12-17.