DE617098C - Fluid switch - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
AUGUST 12, 1935

REICH PATENT OFFICE

PATENT LETTERING

JVI 617098 CLASS 21c GROUP 36 oi

Voigt & Haeffner Akt.-Ges. in Frankfurt a. M. *)

Liquid switch

Patented in the German Empire on June 28, 1933

In the case of liquid switches, the Contact separation of the arc then extinguish or a re-ignition of the arc be impossible if the arc path is cleaned of ions or these are moved away so that through them a conductive connection between the stationary contact part and switching pin no longer exists. Eliminating the ions can be done by both a strong gas flow as well as by flushing the arc with fresh switching fluid take place through which the hot ions are cooled and thus their conductive Be deprived of effect. An arc will most certainly be extinguished come when both means are used.

Liquid switches are known in which, in order to achieve a strong flow, at the moment of the interruption of the emerging Arc is drawn directly into a closed chamber, so-called pressure chamber. But this has in general the disadvantage that the contents of the pressure chamber or part of it is consumed too quickly by the drawn arc the extinguishing liquid is removed from the chamber by the high pressure without significantly to contribute to the extinguishing of the arc.

It has therefore been proposed that this pressure chamber should be built in by transverse walls to divide smaller chambers, so that the liquid in the pressure chamber gradually and after comes into effect and not, as with a single large pressure chamber, a part the liquid is ineffectively removed from the pressure chamber by the strong pressure effect will. For example, attempts have been made to elongate the arc by blowing across it. With such an arrangement but the arc is pressed against the chamber wall, so that the precipitation of the arc products Stopping the arc is favored. To now with such pressure chambers, which by transverse walls in individual chambers are subdivided, except for the 'resulting flow movement of the compressed gases through which the hot ions are dissipated, including rinsing the arc with fresh switching fluid »To achieve in the individual chambers, the contents of which have already been used up is, according to the invention, all individual chambers are connected to one another through channels extending outside these chambers tied together. So it is possible that during the interruption as a result of gas formation in the individual chambers and the associated increase in pressure through the channels

*) The patent seeker indicated the following as the inventors:

Leonhard Haag in Frankfurt a. M. and Dipl.-Ing. Ernst König in Frankfurt a. M. Sindlingen.

Fresh extinguishing liquid is supplied to the individual chambers that have already been left by the switch pin will; this extinguishing liquid flowing into the individual chambers becomes the individual light drawn Chambers the individual chambers already left by the switching pin and thus on all sides from the outside against the arc fresh extinguishing liquid via the channels /, fl

5 bend encompass on all sides and supplied by cooling. In embodiment 40 favor deionization of the arc gap, so that the extinguishing process borrowed is supported. Due to the radial feed the fresh extinguishing liquid against 10 the arc can- this itself within the individual chambers do not expand, but it is always from the wall parts kept away and the hot ions are in the direction of the pressure chamber outlet opening 15 moves.

Compression chambers are expediently arranged within the pressure chamber, which are in communication with the individual chambers through channels and thus form a space, in the. at maximum current, the extinguishing liquid enter from the individual chambers and when the current passes through the pressure decrease in the chamber again can exit and flow back into this, so that this also cools the hot ions is supported.

In Figs. 1 and 2, two embodiments of the subject matter of the invention are shown schematically, α is the stationary contact part, b the switching pin, C is the outer jacket of the pressure chamber, which is divided into individual chambers e by partition walls. These are connected to one another through the channels /, g in such a way that when the contact is separated as a result of the gas formation in FIG. 2, the channels g open into a compression space h. At the current maximum, the extinguishing liquid from the individual chambers e can enter these; when the current passes through zero, it will flow back into the latter as a result of the pressure decrease there, so that the cooling of the arc gap is also supported in this way.

Claims (2)

Patent claims: i. Liquid switch, its moving contact when the contact is separated moved directly into a liquid-filled, closed pressure chamber which is divided into one of its chambers by transverse walls, characterized in that that all individual chambers are connected in such a way through channels extending outside these chambers stand that as a result of gas formation in the individual chambers from the switching. pins already abandoned individual chambers on all sides from the outside against the arc fresh extinguishing liquid is supplied through the channels. 2. Liquid switch according to claim i, characterized in that the individual Channels connecting chambers are in communication with a compression space. . - ■ For this purpose ι sheet of drawings