DE756471C - Expansion switch - Google Patents

Description

Expansion switches Liquid switches are already known which are provided with a safety device inside the extinguishing chamber, which the This is intended to fulfill the purpose in the event of excessively high overpressures inside the switching chamber to relieve the pressure via a safety valve.

Furthermore, valves on switching chambers are known which are used to in the idle state, a balance between the liquid in the storage space of the switch and bring about the quenching chamber. However, these valves must be used during the shutdown process be kept closed to prevent the shutdown process generated pressure pushes the extinguishing liquid from the extinguishing chamber into the storage space. Such valves were designed as ball valves. The ones that occur during shutdown Pressures in turn often have a deformation and a. Jamming of the ball guided in the valve and made the latter unusable.

There are also known valves on oil switches, with their help the exhaust gases are removed from the switching chamber, which is therefore above the switching chamber are arranged. These valves are usually open, during shutdown closed by the gas pressure in the chamber and open again, if the pressure in the switching chamber, its only relief opening through this Gas valve is given, exceeds about 7 at.

The present invention relates to a low level liquid Filled expansion switch with free-standing switching chamber, its outlet opening during the switch-off process by the switch pin moved upwards out of the chamber is released and the one with a storage space for the switching fluid Valve is in communication.

According to the invention, in such an expansion switch, the im Idle state of the switch open valve between the switching chamber and the storage room as a sliding valve from the fixed hollow contact, this closing, carried and such trained so that when switching off the middle I icy on the under spring action The pressure exerted by a standing seal ring causes the slide surface to open the compensation opening between the extinguishing chamber and the storage room, while in the event of severe shutdowns the spring holding the sliding ring is pushed through and the sliding ring is the outflow opening releases from the extinguishing chamber into the storage chamber.

The advantage of the invention is to be seen in the fact that the at one pressure relief occurring due to very high switching capacities a pre-expansion of the interior of the extinguishing chamber is effected, which weakens the Arc energy caused. By releasing the switch pin hole of the then in a permissible manner claimed chamber is in a known manner, the arc extinguishing caused in the second part of the process. The exhaust gases are discharged upwards through the opening of the moving switch pin in the arcing chamber.

The design of the slide valve is the simplest imaginable and for the present case in particular favorable in that the same sliding element both the opening as well as the closing effects on one and the same sliding surface and this avoids jamming of the valve under high loads.

In the case of very high switching capacities, the expansion process experiences a Tripartite when the switching chamber next to the. Sliding valve on the hollow contact inside in a known manner still receives an Ouerwand, which has an opening for the movable Has switch pin. If this is released by the switch pin, an Intermediate expansion before the switching pin enters the switching chamber through the outer opening finally releases. In the figure, an embodiment of the invention is shown.

The one engaging in the fixed mating contact a in the switched-on position movable contact pin is activated during the switch-off movement after exiting the Switching fluid b drawn through the expansion chamber and the antechamber space d.

The switching pin first leaves the lower part e of the extinguishing chamber, which is filled with extinguishing liquid, and in the process also presses liquid through holes in a cover f into an expansion space. After the switching pin has released the opening i, the pressure in the arcing chamber can be relieved in an anteroom d. Openings k lead to a liquid vestibule L of the switch, which is connected to a. Gas vent is provided and a liquid level indicator m receives.

The equalizing valve o located at the foot of the extinguishing chamber is normally open to allow fluid equalization between extinguishing chamber and storage space zri.

During the shutdown process, the spring p is compressed so far by the pressure acting on the plate q that the sliding ring s provided with an opening slot and firmly connected to the plate q closes the opening t.

After the shutdown process, the plate q or the sliding ring s are raised again by the spring p, so that there is a liquid balance from the liquid storage space to the extinguishing chamber through the opening t and the slot r.

If the spring p is dimensioned so weak that the sliding ring s at particularly high pressures during the switch-off process pressed so deep or the spring p can be compressed so that the normally in front of the opening t lying closure part of the sliding ring s at the opening t after slides past below, the above-described slide valve is used to protect against overpressure. There are during the shutdown process through the opening t and the gap above of the sliding ring s free outflow points, which relieve the pressure of the interior of the switching chamber bring about.

Claims (2)

PATENT CLAIMS: i. Expansion switch, its switching chamber outlet opening released during the switch-off process by the switch pin moved upwards out of the chamber and with your the switching chamber with a storage space for the switching fluid is in communication via a valve, characterized in that the idle state of the switch, open valve between the switching chamber and the reservoir as Slide valve from the fixed hollow contact, this closing, is carried and such is designed that when switching off medium power on one under spring action The pressure exerted by a standing seal ring causes the slide surface to open the compensation opening locks between the switching chamber and the storage room, during severe shutdowns the spring holding the sliding ring is pushed through and the sliding ring is the outflow opening releases from the extinguishing chamber into the storage chamber. 2. Expansion switch according to claim I, characterized in that the switching chamber (c) provided with the sliding valve (r, t) serving as a closure is provided in a known manner approximately in the middle with an insulating partition (f) which has a passage opening (b) for the moving switch pin, in such a way that with very high cut-off currents the excessive pressure increase within the lower switch chamber space (e) initially leads to pressure relief via the sliding valve located on the hollow contact (a) through the hollow contact, another Pressure relief when the switching pin passes through the middle outer wall after the opening is released, while a third stage, the expansion, comes into effect when the outer chamber opening (i) is released by the moving switching pin. To distinguish the subject matter of the invention from the state of the art, the following publications were taken into account in the grant procedure: German patent specifications No. 527 32o, 545 169 '569 075, 572 519'; British Patent No. 385,247. French patent specification No. 739 47I.