DE1056229B - Electric switch - Google Patents

Description

. The patent application M 24297 VIIIb / 21c relates to switches, and in particular direct current switches in which is carried out for the purpose of switching off a very fast Lichtbogenlängung means of magnetic waste _c Ienkvorrichtungen, while Lichtbogenfußpunktwanderung, without the permissible arc length 'is exceeded. Urn with such switches the occurrence of inadmissibly high overvoltages, caused by the pre- _; To avoid existing inductances, the rapidly increasing arc voltage is limited to a certain maximum permissible value. This is done in such a way that an arc part that exceeds a certain length required for extinction is periodically short-circuited. This ensures that the total arc does not exceed a certain length and the arc voltage does not exceed a maximum value until the arc is extinguished.

For switches according to the main patent application, in which the arc travel rails in one Air gap of the magnetic deflection devices are arranged, the migration rails or the deflection bodies are designed accordingly for this purpose, to thereby cause the periodic short-circuiting of a certain part of the arc. the Invention has an arrangement for the subject, with an even stronger influencing of the periodic to be short-circuited arc part is achieved, in a way that even under the most unfavorable disconnection conditions correct functioning of the switch is guaranteed.

According to the invention, there is an insulating material arrangement on at least one arc migration rail provided, which is designed such that the arc part migrating into this arrangement is approximately at its beginning is short-circuited. This measure is a stopping of the security Arc base points at the ends of the migration rails prevented, since the relevant arc

part runs through the predetermined section of the migration track repeatedly and thus continuously in Movement remains until the magnetic energy of the circuit to be switched off has decayed and the normal operating voltage occurs at the switch. At this moment the deletion takes place of the arc and thus the shutdown.

The insulating material arrangement is expediently designed and dimensioned in such a way that the periodic one to be short-circuited Arc part under the influence of the magnetic field deflecting it unhindered in the by the insulating material is able to enter limited space and during its further deflection movement increasingly so narrowed and

Addition to patent application M 24297 VIIIb / 21 c (Auslegeschrift 1 050 420)

Applicant: Calor-Emag Elektrizitäts-Aktiengesellschaft, Ratingen near Düsseldorf, Bahnstr. 39-45

Dr, -Ing. Dr.-Ing. eh Erwin Marx, Braunschweig-Gliesmarode, and Dr.-Ing. Hans Wegesin _r Ratingen near Düsseldorf, have been named as the inventor

is performed that it is cooled particularly intensively in this area and for a relatively short time Line - experiences a very high voltage drop. This high voltage drop in the area of the insulating material arrangement is of particular importance for the entire operation of the switch, as a result, possibly in conjunction with other additional measures, such as. B. Shortening the depth of the air gap in the magnetic deflectors or attachment of 'nose-like projections at the arc base migration rails, the periodic short-circuiting of the arc part at the beginning of the insulating material arrangement and thus the reliable operation of the Switch is guaranteed. It has proven advantageous to have the insulating material arrangement in the shape of a hood to train and to use gas-emitting materials for their production. more details the invention will be explained in more detail using an exemplary embodiment.

In Fig. 1, the curve of the arc voltage of a switch is shown schematically, in which a certain arc part, after the arc has reached its maximum permissible length, is periodically short-circuited. After the voltage value U _{max has been reached} , the arc voltage drops to the value u _w as a result of the short-circuiting of an arc part and rises again to the value U _{max as} the arc elongation then resumes. Due to the periodic repetition of this process, there is roughly a sawtooth-shaped curve of the arc voltage. This process is repeated until the magnetic energy in the circuit has decayed and on the scarf - 909 508/323

Claims (9)

the normal operating voltage occurs. At this moment, the arc is extinguished and therefore switched off. The level of the re-ignition voltage w, or the difference between the maximum voltage Mmax and the voltage uw, i.e. the voltage value Mmax -ww, will have to be adjusted with regard to the entire arc duration, i.e. taking into account the electrical data of the circuit to be switched off. In most cases it will be expedient to make the Spamiungiswert Mmax-Jiiv greater than for short arc periods when the arc burning time is relatively long, i.e. when the time constant in the circuit to be switched off is relatively long. In this way, it is possible to keep the mean value of the arc voltage almost constant at the maximum permissible value for almost the entire duration of the arc and to avoid a drop in the mean arc voltage after the maximum permissible value has been reached. In FIGS. 2 and 3, an embodiment of an insulating material arrangement is shown in longitudinal section and in cross section, with which the arc voltage is limited by periodically short-circuiting a specific part of the arc. The arc base migration rail 1 is surrounded by the magnet body 2 in the form of a jacket. The insulating material arrangement, namely a hook-shaped insulating material cap 6, is arranged over the gap 3, in which the high magnetic field causes a very rapid deflection of the arc 4 in the direction of arrow 5. At the end of the foot point hiking trail, the gap 3 is closed by an insulating body 7. On the migration rail 1 at the beginning of the hood 6 there is a nose-shaped elevation 8 in order to facilitate and promote the re-ignition of the arc at this point. The mode of operation of the arrangement is as follows: The arc 4 is deflected in the direction of the arrow 5 and lengthened in the process and comes under the insulating body 6 and is intensively cooled by the increasing contact with the gas-emitting insulating wall of the body 6. The voltage drop of the part of the arc reaching the area of the insulating body 6 rises so strongly that this part of the arcing is short-circuited approximately at the beginning of the insulating body 6. As already mentioned, this short-circuit can be particularly favored in general by reducing the depth of the gap 3, here in a special case by arranging a nose 8 at this point. In order to obtain a sufficient length of the arc part within the insulating body 6 or in order not to hinder the entry of this arc part under the insulating body 6, it is expedient to arrange pressure relief openings. Such openings 9 can be made in the insulating body 6. However, more or less large gaps can also be left open around the insulating body 6, for example between the parts 6 and 7 or between the parts 6 and 2. It can be very advantageous to displaceably arrange the arrangements limiting the arc voltage, ie in particular parts 6, 7 and 8, because the maximum amount of the arc voltage (voltage Iimax in FIG. 1) can be adjusted in this way. In order to also be able to set the value uw or the value Mmax-uw, it is necessary to change the length of the insulating body 6; this can be done either by keeping the insulating body 6 in stock in various lengths and arranging it to be exchangeable, or by bringing about a certain change in the length of the insulating body 6 by means of correspondingly additional displaceable parts. Patent claims: 1. Switch with rapid arc elongation by means of magnetic deflectors, in particular DC switch, in which, to limit the arc voltage, a The arc part that goes beyond the length required for the quenching is periodically short-circuited is, with simultaneous arc root migration, without the permissible arc length is exceeded, according to patent application M 24297 VIII b / 21c, characterized in that that an insulating material arrangement is provided on at least one arc migration rail which is designed such that the arc part migrating into this arrangement is short-circuited around its beginning. 2. Switch according to claim 1, characterized in that the insulating material arrangement periodically to be short-circuited arc part so constricts and leads that this as a result of this caused cooling experiences an increased voltage drop, which causes the periodic short-circuiting of the arc part concerned at the beginning of the insulating material arrangement. 3. Switch according to claim 1 or 2, characterized in that the insulating material arrangement is approximately Is hood-shaped. 4. Switch according to claim 3, characterized in that the insulating material arrangement from gas-emitting Material. 5. Switch according to claim 3 or 4, characterized in that the insulating material arrangement with Ventilation openings is provided. 6. Switch according to claim 1 or the following, characterized in that the arc travel rail has a nose-like projection approximately at the beginning of the insulating material arrangement, which enables the periodic short-circuiting of the in favors the insulating material moving into the arc part. 7. Switch according to claim 1 or following, wherein the arc travel rail in one Air gap is arranged in the magnetic material, characterized in that the air gap has a shallower depth at the beginning of the insulating material arrangement. 8. Switch according to claim 7, characterized in that the air gap at the end of the migration rail is closed by insulating material. 9. Switch according to claim 1 or the following, characterized in that the arc voltage limiting arrangements on the or the migration rails displaceable or adjustable are. Considered publications:
German Patent Nos. 529 639, 579 295, 590810, 622 036, 631837, 652 481, 658 697, 728 612. 1 sheet of drawings