DE890363C - Arc protection for high voltage insulators, especially long rod insulators, chain insulators, bushings, supports, etc. - Google Patents

Description

Arc protection for high-voltage insulators, especially long-rod insulators, chain insulators, bushings, supporters, etc. The subject matter of the invention is a mechanically very resistant, safe-acting, economically producible arc protection for high-voltage insulators, especially long-rod and chain insulators of the known cap, clapper or full-core design. The arc protection consists of a z. B. held by four with the line clamp or the suspension point of the insulator or the insulator chain struts i, o, ii, i2, 13 held metallic ring 1q Ring connected, e.g. B. are welded, to the outside and appropriately after the associated insulator or chain end angled horn attachments 15, 16, 17, 18 are attached, which end in eyelets, ig "2o, 21, 22. These are interrupted by a short air gap.

Such arc protection equipment can be installed at both ends of the to be protected isolator or the isolator chain or only on one, preferably be attached to the lower end and consist of a closed, metallic ring. According to the invention are in the middle of each bend this ring between the connection points of the struts with the ring to the outside and, if necessary, horn attachments angled towards the associated end of the insulator attached that end in ring eyelets. At the other end of the isolator or chain of isolators can including the previously common arc protection horns or arc protection horn crosses be used.

The arc protection equipment is on the isolators or on the To arrange isolator chains so that their striking distance is a little less than that clear distance between the reinforcements (cap and other fitting parts) of the Insulator or the end reinforcements of the insulator chain, d. H. so, just a little smaller than the striking distance of the unprotected isolator or the unprotected chain.

The arc protection designed according to the invention has the advantage that an arc that occurs between the arc protection equipment located on both insulators arises and whose one foot point lies on the protective ring 14, quickly and safely is diverted to one of the horn approaches, where it is constantly circling on the ring eyelet until it goes out. These movements of the arc root are brought about by the electrodynamic forces. Is the arc root z. B. first on the ring 14 between the attachment points of the strut io and des Horn attachment 15, it is due to the electrodynamic forces after the middle of the Ring arch piece to driven onto the horn attachment 15, and as soon as it reaches this, if it moves outwards onto the ring eyelet i9. On this he runs to the end and then skips the short air gap again towards the horn base. So the foot point circles until the arc is extinguished on the ring eyelet, so that the signs of charring remain low. The winding plane of each ring eyelet is as close as possible perpendicular to the associated horn attachment, since this is the electrodynamic effect is cheapest.

Expediently, in a further embodiment of the invention, the protective ring 14 in the vicinity of the horn attachment is equipped with arc guiding devices which facilitate the transfer of the arc base point from the ring to the horn attachment or the ring eyelet. This is recommended because the forces acting on the arc root electrodynamic forces in the center of the arc segment, - that is just around the Horn approach are the smallest, because when the arc root to this point is approaching, so he receives from both sides of the ring arc segment current, that the electrodynamic forces almost cancel each other out and the base of the arc may not quite reach the base of the horn.

In order to transfer the arc base to the horn base favor, z. B. the well-known electrodynamic blowing effect of a horn stub are used, which are also used in the already mentioned horn attachments 15, 16, 17, 18 is effective.

Fig. 7 and 8 show a ring formed in this way, which z. B. next to the horn attachment i8, which carries the ring eyelet 22, which has horn stubs 29 and 3o, which transfer the arc from the ring to the horn base. The transition of the arc root but can also be favored according to Fig. 3 and 4 in that a Helical groove cut on both sides of each horn attachment will. Experiments have shown that the resulting change in the flow of current also shows the desired electrodynamic effect. The groove should be about Extend over half the circumference of the protective ring cross-section. The distance of this Grooves from the associated horn approaches is small. For example, it amounts to a protective ring 450 cm in diameter about 6 cm. The most appropriate distance of the Grooves of the associated horn approaches can also be determined more precisely by experiment will. The grooves are filed and milled into the surface of the protective ring or depressed. If the protective ring is not made of full metal, but of metal tube, z. B. of circular cross-section, this can instead of running helically Make grooves at the points indicated on both sides of each horn attachment a helical row of holes, as shown in Fig. 6, can be weakened. the As can be seen in Figs. 3 to 6, just like the horn stubs in Fig. 7 and 8 each to be arranged at an acute angle to the horn approaches.

Claims (7)

PATENT CLAIMS: -i. Arc protection for high voltage insulators, in particular long rod insulators and insulator chains at both ends of the insulator or the isolator chain or only attached to one preferably the lower end and consists of a closed, metallic ring held by struts, characterized in that in the middle of each arcuate section of this ring (14) between the connection points of the struts (i o, i i, 12, 13) with the ring (14) to the outside and, if necessary, horn attachments angled towards the associated end of the insulator (15, 16, 17, 18) are attached, which end in eyelets (i9, 20), 21, 22). 2. Arc protection according to claim i, characterized in that the winding plane of each ring eyelet as possible is perpendicular to the associated horn approach. - 3. Arc protection -according to the claims i and 2, characterized in that the ring. (14) near the roots of the horns is equipped with arc guiding devices that transfer the arc base point favor from the ring after the horn attachment or the ring eyelet. - 4. Arc protection according to claim 3, characterized in that on both sides of each horn attachment at a small distance from him on the protective ring (14) at an acute angle on the outside, horn stubs (23, 24 Fig. 7) directed towards the base of the horn are attached are. _ - __, _ 5. Arc protection according to claim 3, characterized in that that the protective ring (r4) on both sides of each horn approach at a small distance from him on the side facing the other end of the insulator or the chain is provided with a helical groove (Fig. 4). 6. Arc protection according to claim 3, characterized in that the z. B. made of metal pipe Protective ring on both sides of each horn attachment, each with a helical one Provide a slot (Fig. 5) or a helical row of holes (Fig. 6) is. 7. Arc protection according to claims 5 and 6, characterized in that the groove, slot or row of holes helix at an acute angle to the horn approaches are arranged.