DE676619C - Liquid switch with extinguishing chamber - Google Patents

Description

Liquid switch with extinguishing chamber For liquid switches of the Tube construction, inside of which there is an extinguishing chamber surrounded by liquid, is a to protect the switch housing from excessive mechanical stress The outlet opening (rupture plate) only becomes effective when the internal pressure is very high the switching, gases or liquid provided. In this way, at risk, that Switch housing protected from destruction and the liquid from the switch housing removed. But there is the possibility that the arc will stop and thereby the. Contacts of the switch are destroyed.

In order to now have an additional arc extinguishing device for such switches Cause effect when the arcing chamber is not able to control the arc to extinguish and by stopping the arc of the DTuck inside the switch housing becomes very high, according to the invention is that which becomes effective when the internal pressure is too high Exit, exit, opening arranged in such a way that when it is suddenly released, a The arcing path intersecting additional liquid flow occurs. At the The interruption process is when the light arc emerges from the extinguishing comb, the direction that occurs within the extinguishing chamber extends into the entire interior of the liquid switch, so that a high pressure in this room too is available. If this exceeds a certain level, then the safety exit opening released and the pressure prevailing in both canisters is released through this opening relax. If now, according to the invention, the resulting liquid flow over routed the contact point so that the arc path is cut, so arises an additional flow of the liquid that is in the space outside the extinguishing chamber and which acts on the arc in a quenching sense.

The liquid container is expediently by means of a switch pin or Partition wall penetrated by an arc divided into an upper and a lower Rauin ', and these spaces are connected through an opening in the partition. Becomes the lower space where an arc can be drawn at the point of contact narrowed, this creates two halves of the room, one of which is not directly connected to the upper space connected, the additional one, released in the event of overload Outlet opening is arranged, while the other half of the space via the connecting opening communicates with the upper space of the liquid vessel. So it has to be at the outlet Leaking liquid from the switching vessel cut the arc path. The arcing chamber is either in the lower or in the upper one Space of the liquid container old, tidy.

The figures show exemplary embodiments of the invention. In dependencies i and 2, the stroni interruption takes place within. a quenching chamber, which can also be provided with a so-called differential piston, which causes a flow of liquid within the chamber to better quench the drawn arc. The chamber a is enclosed by the container b. The latter is divided into an upper room d and a lower room e by the partition c. Both rooms are in direct connection through the opening f. The space e has a constriction g at the chamber mouth, so that the space et is only accessible via this constriction. An outlet opening which is closed by the break plate A is provided in the space el. Z is the switch pin.

If the switch-off takes place under load and the switch pin kicks in! when an arc is drawn out of the chamber a, the pressure in the space and e will rise so sharply that the fracture plate is destroyed. As a result of the sudden release of this opening, the increased pressure in rooms d and e can relax via the constriction g. This will create a flow of liquid corresponding to the arrows drawn, which strikes the drawn lidlit arch perpendicularly and causes it to fade.

Figures 3 and 4 show a switch arrangement in which the arc drawn when switching off enters an arcing chamber a. Also, in this arrangement is bursting at excessive Diruck within the Schaltergehäus it b fracture plate li, so # 4SS uses durcli relaxation A Flüssigkeitsstijomung through the restricted Stelleg, 'did contribute to the extinction of the arc.

Claims (3)

PATENT CLAIMS: 1. Liquid switch with extinguishing chamber, which is enclosed by a vessel that has an additional outlet, which only becomes effective when the internal pressure is too high, for the switching: gases or liquid "characterized in that the one which takes effect when the internal pressure is too high The outlet opening is arranged in such a way that when it is suddenly released, an additional liquid flow which intersects the arc path is produced. 2. Liquid switch according to claim i, characterized in "that the lower space of the liquid container, by, one from the switch pin resp. Arc penetrated, with a further connecting opening provided partition from the upper room #bgbtremit is narrowed at the arc point in such a way that two halves of the room are created, in one of which is not directly connected to the upper room with the additional outlet opening released in the event of an overload , while the other half of the space is in communication with the upper space of the liquid vessel via the connection opening. 3. Liquid switch according to claim characterized in that the extinguishing chamber is arranged either in the lower or in the upper space of the liquid container.