DE921391C - Arc protection for high voltage insulators - Google Patents

Description

Arc protection for high-voltage insulators is the subject of the main patent g16313 is an arc protection for High-voltage insulators (individual insulators and insulator chains), made up of self-contained, juxtaposed, air gaps between, releasing, ring-shaped parts consists of each other and with the supply of current to the rollover light are connected in an electrically conductive manner at such a point on their circumference, as :, the Paths in which the arc current passes through the cross-section of these annular parts from their junction from a desired, especially away from the isolator, stable Burning point of the arc base on the hollow ring flows in, same electrical Have resistance.

The invention is a further, very appropriate embodiment the arc shield according to the main patent and be based on the in Figs. i to 8 schematically illustrated embodiments explained in more detail.

The in Fig. I in section and in Fig. Z in plan view dargestiellbe metallic hollow ring io has z. B.kreisbogenförmüg @ en half-ring cross-section. Its convex side faces outwards away from the insulator. The hollow ring is divided into lamellae by radially guided incisions. The adjacent ends of these lamellae are connected to one another in an electrically conductive manner by the reef-like, closed edges II and I2 of the neck ring. At one or more points on their circumference, these edges ii -and iz are bridged by one metallic crosspiece 1.3 each, from which the arc current flows to the hollow ring. To hold the hollow ring io serve one or more metallic struts I; 4 and 15, which it against. Support the isolator or isolator chain to be protected from arcing attacks. The struts are expediently with the interposition of metallic washers n 1 6 firmly and electrically conductive with the transverse webs, 13, z. B. with their center connected. These washers create a clearly defined point for the current to pass from the struts to the hollow ring. This is necessary because, eb @ ensio as in the embodiments of the light log protection according to the main patent, the ways in which the arc current through the hollow ring from the connection point of the struts with the crossbars from the stable focal point of the arc base facing away from the insulator , on which the curved surface of the hollow ring flows, have the same electrical resistance and therefore the location of the Stromübergmges to the Hiohlrvng must be precisely determined for a desired location of this focal point. On a somewhat larger scale than in Fig. I and 2, a piece of the hollow ring io is shown in Fig. 3 in the development. The paths that the arc current can take from the fastening point B to the stable focal point C of the base point of the arc L on the arched outer surface of the hollow ring facing away from the insulator are indicated in this figure by dash-dotted lines. The stable focal point C Ivegt in this case, as can also be seen from Figs. Instead of in the middle of the transverse webs 13, the struts 14 and 1 5 may also be attached to a position deviating from the middle of each transverse web site. As a result of the known electrodynamic effect, the stable focal point C then moves towards the part of the curved outer surface of the hollow ring opposite the fastening point. Use can be made of this electrodynamic displacement of the arc base, for example, in the case of arcing guards, which, as shown schematically in Fig. B. L; angstabisolators, or an Is, olatorenhette are attached. When the upper hollow ring 2o the struts 24 and 2 5 ioberhalb slightly and the struts 34 and 35 are connected slightly at lower hollow ring 30 below the center of the transverse webs 23 and 33 with the, en transverse webs are in this example. Consequently. moves the stable focal point C of the upper arc base point on the curved outer surface of the hollow ring 2o down a little and that of the lower arc base point on the curved outer surface of the hollow ring 3o something to do. As a result, the stems of a power arc following the rollover, which attach to the stable focal points, are directed away from the insulator and towards each other, as can be seen from FIG. 4.

Another preferred embodiment of the arc protection mach the invention is shown schematically in fig. It is characterized by däß the outwardly curved surface of the hollow ring itself away from the insulator and gradually is directed towards the other end of the isolator. The hoop-like edges of the arched The surfaces of the hollow ring are here by standing obliquely to the axis of the hollow ring 4o Cross webs 43 bridged. Struts 44 supporting the hollow ring can be interposed be connected by washers 46 with the middle of these crosspieces. A fixture of the struts: one point deviating from the center of the crossbars and one thus to be achieved electrodynamic shift of the stable focal points of Arc root points are not required in this version because As Figure 6 shows, thanks to the special arrangement of the outwardly curved surfaces of the hollow rings the arcing stems the desired, away from the insulator and on top of one another take too directed position.

It is particularly important when standing obliquely to the axis of the Hahlriulges and directed against the isolator. Crossbars useful on these crossbars bend the ends of the struts to be fastened in a direction facing away from the insulator, as shown schematically in Fig.7, or, as shown in Fig. 8, in the Bend the circumferential direction of the hollow ring. This will certainly prevent that if the hollow ring breaks down, the ends of the remaining, serve Strive for their part to direct the light arc against the insulator or the insulator chain.

Claims (1)

PATENT CLAIMS: i. Arc protection for high-voltage insulators in the form of its metallic hollow ring according to patent gI63I3, characterized in that the hollow ring has an essentially arcuate, in particular semi-annular cross-section, the ltonvex side of which is directed away from the insulator, i.e. the hollow ring also ate by varzugweis.- radially directed incisions is divided into rebien @ one another, n closed a 'at both ends connected to each other by the self-contained edges of the hollow ring, lamellae and that the ring edges are connected to each other at least at one point by a metallic crossbar from which the arc current flows from the hollow ring . a. Light arc protection according to claim i, characterized in that the closed edges (ir, 1a) of the hollow ring are formed by several metallic; Cross webs (I3) distributed over the circumference are connected to one another. 3. Arc protection according to claim i or 2, characterized in that struts (14, 15) for holding the hollow ring (io) are attached to the transverse webs (13), which braces the, Bohlring against the insulator. 4. Arc protection according to one or more of claims i to 3, characterized in that the convex side of the arcuate. Ring cross-section in front of the insulator is directed away and towards the other end of the insulator. 5. Arc protection according to one or more of claims i to 4, characterized in that the struts (24, 25, 34 35) really in the middle of the transverse webs (a3, 33) are attached to these (Fig.4). 6. Arc protection according to one of several of claims i to 5, characterized in that the ends attached to the transverse webs .der struts are angled in a direction facing away from vonz insulator (Fig.7). 7. Arc protection according to one of claims i to 6, characterized in that the ends of the struts attached to deal transverse webs are bent in the circumferential direction of the hollow ring (Dept. 8). B. Arc protection according to one of claims i to 7, characterized in that metallic washers (16, 46) are inserted between never struts and transverse webs (section i, 5).