DE826027C - Electric switch - Google Patents

Description

Electrical switch The invention extends to an electrical switch Switch in which an arcing chamber is driven by an arc gas pressure Differential pump piston driven a liquid extinguishing agent against the arc will. The main arc of this switch is already known. flushing a '' additional arc purging to be connected upstream by a spring-loaded Piston is generated. Here 'the spring is activated by the switch-on movement of the contact pin charged, either the differential piston when initiating the switch-off movement itself or a member of this differential piston for the purpose of generating a flow of extinguishing agent drives before the arc purging caused by the arc gas pressure begins. With this facility, there will be a good erasure even with small ones Currents achieved, in spite of the fact that the arc energy to Erzeng the for a sufficient The pressure difference required for flushing is not sufficient, but this is the case known device disadvantageous, in addition to the main arc flushing, also the additional purging takes place in the closed extinguishing chamber. Step through it in the event of a short-circuit shutdown, as well as in particular when switching on on one Short circuit on high pressure surges, which stress the chamber wall.

In order to avoid this inconvenience, the new switchgear takes place according to the invention, the additional arc purging outside the quenching chamber in the pressure-free switch room and is generated in a special extinguishing device, which is connected upstream of the main extinguishing chamber. The advantageously runs through the spring-loaded Extinguishing agent flow caused by the pump piston in itself known Way annularly directed to the arc, the outlet opening of the annular channel is exposed by the contact pin during switch-off. Here it is It is important that between the cover of the upstream extinguishing device, in see which the ring-shaped extinguishing agent supply channel is located, and the wall.der Hauptlösch'kammer an intermediate space is available, dler with the pressure-free switch room is in constant free connection.

It is known to use the dormant in order to avoid high switch-on pressure surges To arrange switch contact outside of the arcing chamber, so that when switched on Short-circuit the arc gases and vapors mainly in the flameproof Form switch room and be cooled there. The new switch structure will the space required anyway for the static contact outside the arcing chamber in most favorably used for an additional flushing of the extinguishing agent. When switching off of small currents, the extinguishing is carried out by a spring-loaded pump piston, without that in the event of an accidental switch-on on a short circuit, there is a fear that the The walls of the extinguishing chamber are at risk from high pressure surges. The additional arc purging also occurs when switching off large currents as well as with short-circuit disconnection. Here, the subject matter of the invention offers the further advantage over the known ones Versions with additional arc purging that the additional processing and weakening the arc at a second outside of the main arc purge lying point of the arc pillar takes place. By rapidly increasing this Arc resistance'es and '. The arc voltage will have the extinguishing effect too in the event of a short-circuit shutdown. increased and the deletion process shortened. So it is wind by the invention both the interruption of weak as well as strong currents in influenced a wide area in the favorable sense.

In the description of the embodiment shown in the drawing the individual features of the invention are explained in more detail. In the drawing i the end wall of the main extinguishing chamber and 2 the additional extinguishing device. in the The stationary contact 3 is arranged inside this additional quenching device. The movable contact pin 4 penetrates the cover 5 of the quenching device 2. In The cover 5 has an annular channel 6 which is in connection with the pump chamber 7 stands, in which an annular piston 8 generates a flow of liquid. The annular piston carries a yoke 9 on which a drive spring io for the piston bears. The mainspring is charged when switched on by .the contact pin, 4 by this one Insulating pin i i displaced, which is fastened in the yoke 9. Below the yoke 9, a braking device i2 is attached for .the pin i i in addition to piston 8, which with is provided with a valve and works so that when you turn on the contact pin 4 the pump piston can be charged easily or the pump spring can be charged without inhibition, but when switching off the pump piston and thus also the insulating pin i i the contact pin 4 only follows with a delay.

If small currents or even idle lines are switched off, so the flow of current in the contact space is so small that the released Arc heat does not significantly increase the pressure to generate an extinguishing agent flow arises. But because of the switching off movement of the contact pin, 4 the blocking for the pump spring io is canceled, the latter drives the additional one by itself Pump piston 8. This is generated as soon as the pin 4 has exposed the ring channel 6, a flow of extinguishing agent, across the arc, through the hollow contact 3 passes through to the pressure-free switch room. If the contact pin 4 has the cover 5 leave the additional extinguishing device, the flow of extinguishing agent runs from the ring channel16 in the opposite direction across the arc to the pressure-free switch room. If the arc is not stable, it goes out immediately, regardless of the pressure prevailing in the main extinguishing chamber i.

However, if a short-circuit current is to be switched off, then this is sufficient additional arc purging in and of itself does not result in final arc extinction sure to bring about. The contact pin 4 pulls the arc into the main release chamber i into it, woselbst with the help of a gas pressure generated by the arc heat driven differential pump in a known manner a powerful Licbtbogenbespülung is caused. The latter appears while the delayed one additional arc purging is still in progress. The processing of the arc column happens in two distant places and leads accelerated for final deletion.

During the switch-on process, the contact pin 4 first passes through it Main arcing chamber, with no arc ignition in even at high voltage Appearance can occur. A rollover between the two contacts takes place at the earliest when the contact pin tip is in the boundary wall i of the main arcing chamber or is in their vicinity. The resulting arc gases and vapors flow through the free space between the two extinguishing devices as well as through the hollow contact 3 to the pressure-free switch room, with the formation of a high pressure peak short-circuit is avoided even when switching on.

Claims (3)

PATENT CLAIMS: i. Electrical switch, with which by one of the Arc gas pressure driven piston uses a liquid extinguishing agent as main flushing is driven against the arc, and one by the closing movement of the contact pin charged and loaded on a pump piston an additional spring Causes arc purging, characterized in that that the additional arc purging in a special one in the pressure-free switch room lying and the main extinguishing chamber upstream extinguishing device (2) takes place. 2. Electrical switch according to claim i, characterized in that the through The extinguishing agent flow caused by the pump piston is ring-shaped, onto the arc directed and controlled by the contact pin. 3. Electrical switch according to claims i and 2, d'adurc'h characterized in that the annular extinguishing agent supply channel in the cover (5) of the upstream extinguishing device is provided, wherein between the end dowel (5) of the upstream extinguishing device and the wall (i) the main extinguishing chamber has a space that corresponds to the unpressurized Switch room is in constant free communication. Printed publications: German U.S. Patent No. 643,237.