RU98107542A - PULSED SPARKING THUNDER DISCHARGE - Google Patents

Claims (15)

1. A pulsed lightning spark gap for protecting the electrical circuit, comprising the first and second main electrodes located on one of the walls of the hollow solid dielectric insulating casing, a discharge formation zone enclosed between the main electrodes, an additional electrode separated from the first main electrode by the wall of the hollow insulating casing and connected to the second main electrode, and contact elements electrically connected to the main electrodes for connecting the first and second bases s electrodes to the parts of the protected circuit, located at a different potential, characterized in that the discharge formation zone filled enclosed in an insulating sheath particulate insulating material resistant to electric discharge.  2. The pulse arrester according to claim 1, characterized in that quartz sand is selected as the dispersed insulating material. 3. The pulse arrester according to claim 1 or 2, characterized in that the particle size d of the dispersed insulating material is selected in the range
20 μm <d <300 μm. 4. The pulse arrester according to any one of the preceding paragraphs, characterized in that the distance between the main electrodes is determined by the ratio
L ≥ 0.006 U ^0.75 ,
where L is the distance between the main electrodes, m;
U is the rated voltage of the arrester, kV.  5. A pulse arrester according to any one of the preceding paragraphs, characterized in that one of the main electrodes is connected to the corresponding contact element through the spark gap.  6. The pulse arrester according to any one of the preceding paragraphs, characterized in that the second main electrode is made of two parts interconnected by a jumper and placed on one or opposite ends of the hollow body.  7. The pulse arrester according to any one of paragraphs. 1-5, characterized in that the hollow insulating housing of the arrester is made in the form of a tubular body.  8. The pulse arrester according to claim 7, characterized in that the main electrodes are located on the outer surface of the tubular body, and the additional electrode is located on its inner surface.  9. The pulse arrester according to claim 8, characterized in that the insulation of the cable cut is used as the tubular body, the metal core of the cable is used as the additional electrode, the first main electrode is connected to the metal sheath of the cable, and the second main electrode is installed at the end of the cable.  10. The pulse arrester according to claim 7, characterized in that the tubular body and the additional electrode are curved in the form of a loop, the first main electrode is placed in the middle of the tubular body and curved in an arc with a radius corresponding to the radius of bending of the outer side surface of the tubular body, and the second main electrode is made of two parts interconnected by a jumper and placed at opposite ends of the hollow body.  11. The pulse arrester under item 8, characterized in that the tubular body is made in the form of an elongated glass, the first main electrode is installed on the outside of the bottom of the insulating glass, and the second main electrode is installed on the opposite end of the specified glass.  12. The pulse arrester according to claim 7, characterized in that the first and second main electrodes are located on the inner wall of the tubular body filled with dispersed insulating material and additionally perform the function of an insulating shell, and the additional electrode is made in the form of a metal tube enclosing the tubular body.  13. The pulse arrester according to claim 12, characterized in that an insulator is installed at the end of the additional electrode, which provides the necessary electric strength between the first main and additional electrodes.  14. The pulse arrester according to any one of the preceding paragraphs, characterized in that it is additionally equipped with at least one discharge module containing the first and second main electrodes located on one of the walls of the hollow solid dielectric insulating casing, a discharge forming zone enclosed between the main electrodes filled with dispersed insulating material enclosed in an insulating sheath, resistant to electric discharges, and an additional electrode separated from the first main electric the electrode is connected by a wall of the hollow casing and connected to the second main electrode, while the casing of the spark gap and the discharge module (discharge modules) are connected in series, the second main electrode of the spark gap is galvanically connected to the first main electrode of the first discharge module, and the second main electrode of each previous discharge module is galvanically connected to the first main electrode of the subsequent discharge module.  15. Impulse spark lightning arrestor according to claims. 1 and 2, characterized in that it is equipped with a non-linear resistor connected in series between one of the main electrodes and the associated contact element.