DE925055C - Flow extinguishing chamber with differential piston - Google Patents

Description

Flow extinguishing chamber with differential piston The invention afflicts itself with an extinguishing chamber in which, in a known manner, a flow of the extinguishing agent necessarily by a differential piston arranged in a pressure chamber of the extinguishing chamber is caused. When switching off small currents, it can happen that the Pressure generated by the arc through evaporation of part of the extinguishing agent Piston does not give sufficient driving force for an effective extinguishing flow. On the other hand, when switching off large currents, especially in the event of a short circuit, The pressures are so high that the extinguishing chamber is at risk. The performance area The extinguishing chamber is subject to certain limits as a result of these phenomena.

To this limitation of the range of services of the chamber as far as possible to mitigate is according to the invention by way of the movable switch pin above the The pressure chamber of the extinguishing chamber is filled with an extinguishing agent and can be displaced as a function of the pressure Chamber provided, when it is moved, an outflow channel into the pressure-free space the arcing chamber is opened. If the arc creates a high pressure, so the additional chamber moves and releases the outflow channel, so that the pressure can equalize before it reaches dangerous levels. If the arc is not already in the range of the If the pressure chamber is deleted, the arc is then reacted in the sliding chamber. In this second quenching phase, the arc also comes along fresh extinguishing agent in contact, so that it experiences intensive cooling. Provided the current interruption is not already caused by this effect, an extinguishing flow is created in such a way that through the in the In addition to the caustic chamber pressure, the extinguishing agent from the chamber into the arc path is displaced and flow out through the outflow channel controlled by the chamber can.

According to a further feature of the invention, this discharge channel is guided so that it lies outside the extinguishing zone of the extinguishing chamber. The switching gases and load carriers are thus immediately removed from the area of the extinguishing zone, so, that this will be cleaned as soon as possible. The board is therefore back in the shortest possible time ready to switch. To further explain the invention, reference is made to that in the drawing referenced embodiment shown.

The arcing chamber is. with i, the fixed switch contact with: 2 and the movable switch pin designated by 3. In the pressure space q. is the differential piston 5, the return of which into the starting position is taken care of by the spring 6. On the top Limiting disk 7 of the pressure chamber becomes the movable one by means of the elastic ring 8 Chamber 9 pressed. The elastic ring 8 can, for. B. from heat and oil resistant Buna insist. At dieVerschleußstelleio between the limiting disc and the sliding one Chamber is followed by the annular channel i i, the inner boundary wall of which is partly the Outer surface of the chamber wall 9; partly forms the leadership 1a. The ring channel sets continues into a second ring channel 13 opening into the open air as its outer one The boundary surface of the extinguishing chamber wall is used.

The operation of the device is as follows. If a sufficiently high pressure is generated by the cut-off arc, the differential piston experiences a movement pulse against the tension of the spring 6, so that extinguishing agent, e.g. B. oil, is pressed into the arc path. The supply of fresh oil into the arc path results in an increase in pressure. When the pressure reaches a certain value, it lifts the chamber 9 and the outflow channel ii is released. There occurs an instantaneous relief, where the switching gases through the channels and ii 1 3, without interfering with the quenching zone into contact can flow out into the open air directly. This freeing of charge carriers from the extinguishing zone is supported by the fact that the fresh oil from the chamber 9 replaces the oil displaced from the pressure chamber immediately after the shutdown process. In this way, the chamber is immediately ready for switching.

When switching off small currents, the pressure generated can be sustainable The flow of the arc through the differential piston must be too low. The arc is then drawn into the chamber 9 and there a cooling by the fresh oil subject. If this action does not immediately extinguish the arc should, a renewed pressure build-up occurs, which creates a powerful flow of extinguishing agent through the lower chamber opening 1q. and which is certainly the one sought after Causes extinguishing effect. The chamber that lifts up as a result of the increased pressure also clears the way for the switching gases to be extracted into the atmosphere.

Claims (1)

PATENT CLAIMS: i. Flow extinguishing chamber with a differential piston built into a pressure chamber, characterized in that a pressure-dependent displaceable chamber filled with extinguishing agent is provided above the pressure chamber by means of the movable switching pin, and when it is moved, an outflow channel into the pressure-free chamber of the extinguishing chamber is opened. a. Extinguishing chamber according to claim i, characterized in that the outflow channel lies outside the extinguishing zone of the extinguishing chamber. 3. Extinguishing chamber according to claim i and a, characterized in that an annular channel connects to the closure point between the limiting disk of the pressure chamber » and the displaceable chamber, the inner boundary wall of which is formed by the outer surface of the chamber wall or its guide. 4 .. extinguishing chamber according to claim i to 3, characterized in that the ring channel continues into a further ring channel, eating the outer boundary surface forms the quenching chamber wall.