DE1185270B - Electrical switch with arc extinguishing through a flow of extinguishing agent - Google Patents

Description

Electrical switch with arc extinguishing by a flow of extinguishing agent The invention relates to an electrical switch with arc extinguishing an extinguishing agent flow generated by the switch drive movement by means of a nozzle-shaped pump body is brought into operation after the switch pin tip in a relative position to the nozzle that is favorable for the extinguishing is reached.

In known arrangements of this type, the solvent flow continues in the case of contact separation in full. However, this is disadvantageous because of the switching work is great. Most of the extinguishing work is done before the contacts have reached the distance required for deletion and the tip of the switch pin not yet in a favorable for the deletion, with the further switching movement is to be maintained, relative position to the extinguishing nozzle.

Another known arrangement has a gas pressure switch for the subject, in which a gas of low pressure is compressed during the switch-off movement and in the Phase of the most favorable blowing is supplied; after that, a subsequent blow is set with low pressure gas.

In another known arrangement, this is used for the blowing necessary compressed gas from different compressed gas sources via different supply lines and has the task of ensuring that there is still enough even with multiple switching Blowing pressure is available. That requires a lot of effort.

Another known arrangement has an arc extinguishing switch by compressed gas, in which first a blowing with normal pressure and then afterwards a post-blowing with increased pressure and a further blowing with the initial pressure take place, to the subject.

The aim of the invention is to make this known per se in a simple manner and expediently with a nozzle switch of the underlying type with arc extinguishing to apply and realize by an extinguishing agent flow.

It is proposed according to the invention that the extinguishing agent flow by means of an additional pump plunger which, when contact is disconnected, is taken away from the vehicle of the switching pin is taken and after a certain stroke in turn the nozzle-shaped pump body takes along, introduced and carried out.

By the arrangement according to the invention it is achieved that a substantial weaker extinguishing agent flow begins at the moment of contact separation and the main extinguishing agent flow only begins in the phase of the most favorable blowing with full force. These Before the actual extinguishing process, the arc caused weak pre-purging is sufficient with little more effort and only a very small increase in switching work To achieve dimensions. However, it has a surprising effect on improving the switching performance the end. The previous knowledge, according to which a purging of the arc before Reaching the most favorable deletion position of the contacts is completely useless thus not the right thing. Pre-flushing is extraordinary according to the invention expedient. But you don't need such a strong flow of extinguishing agent as with the actual deletion process, a fraction of it is sufficient. the suitable flow intensity can easily be determined by experiment from case to case, if you know that the flow intensities before and during the extinguishing process should have a difference. You then get to switches, their switching capacity is in a particularly favorable ratio to the switching work involved.

The drawing shows an exemplary embodiment according to the invention trained oil flow switch. There are essentially only those for explanation of the invention required parts shown.

The switching arrangement is accommodated in a pressure-resistant chamber 1 made of insulating material, which is arranged in an oil-filled insulator, not shown here. The chamber 1 is also to be thought of as closed at the top, and of course inflow valves, electrical power connections etc. must be present in a known manner. 2 with the fixed switch contact and 3 with the movable switch pin. The switch pin 3 carries a perforated driver 4. If the switch pin is pulled up during the switching-off process, the driver 4 takes the annular additional piston 5 with it, and this happens at a moment when the tip of the switch pin 3 is just moving away from the fixed contact 2 has separated (position A), or even before the contact was separated. Only when the tip of the switch pin has reached position B do the claws 6 of the piston 5 take the nozzle-shaped pump body 7 with them. During further movement, the tip of the switch pin maintains the favorable extinguishing position (B) relative to the nozzle 8 of the pump body 7. The extinguishing agent flowing towards the arc in the direction of the arrows shown flows partly through the hollow switching pin 3, partly around the nozzle 8 through the bores 9 to the outer, not shown, liquid storage vessel. One can easily see that in the first part of the switching process only the piston 5 causes a moderate flow of extinguishing agent. The flow of extinguishing agent is only significantly increased when the most favorable switching pin position is reached and the nozzle-shaped pump body 7 starts working. As a result of the special design of the extinguishing agent feed of the nozzle-shaped pump body 7, the extinguishing agent flow is fed to the arc in the radial direction, as is readily apparent. This is mainly caused by the tubular part 10 , in which the switching pin 3 retracts so far that its tip cuts off flush with the muzzle. Such a design is of course also important for switches that do not have an additional pump piston 5.

Claims (4)

Claims: 1. Electrical switch with arc extinguishing by an extinguishing agent flow, which is set in motion by the switch drive movement by means of a nozzle-shaped pump body after the switching pin has reached a position relative to the nozzle that is favorable for extinguishing, characterized by an additional pump piston (5) which is carried along by a driver (4) of the switching pin (3) when the contact is separated and which in turn carries along the nozzle-shaped pump body (7) after a certain stroke. 2. Switch according to claim 1, characterized in that the additional pump piston (5) is annular and has driving claws (6) for driving the nozzle-shaped pump body (7). 3. Switch according to claim 1 to 2, characterized by such a design the extinguishing agent, ttelführung of the nozzle-shaped pump body (7) that the extinguishing agent in flows essentially in the radial direction against the arc. 4. Switch according to claim 1 to 3, characterized by a tubular part (10) in the nozzle-shaped pump body (7), in which the switching pin (3) retracts so far that its tip cuts off flush with the pipe mouth. Considered publications: German Patent Nos. 338 062, 568 348, 609 941, 611119, 639 299, 656 460, 664 210, 669150, 671326.