DE1076226B - Erase chamber for liquid circuit breaker - Google Patents

Description

GERMAN

Are arcing chamber liquid switches with a differential pump piston built into the arcing chamber used for short disconnection, care must be taken to ensure that the Chamber as quickly as possible with fresh extinguishing liquid is filled. The amount of liquid required for the possibly occurring second shutdown must be in abundance and during the "on" movement of the contact piece through if possible large cross-sections are fed into the chamber space. Used for feeding the liquid one suction valves, which are located after switching off when the pump piston goes back open and allow liquid to flow into the chamber. The attachment of the suction valves but makes difficulties when it comes to liquid extinguishing chambers in hanging design, So in which the switching off movement of the contact takes place downwards. The suction valves are located at the lower end of the quenching chamber near the chamber mouth. The result is that when you switch off Liquid gas mixture emerging from the chamber mouth can flow into the valves, which must be avoided at all costs.

According to the invention, this disadvantage is eliminated in that the suction valves have a special Space (suction space) is upstream of the sufficient fresh extinguishing liquid to refill the extinguishing chamber contains and is in communication with the space surrounding the quenching chamber that the when switching from the extinguishing chamber exiting liquid gas mixture the direct inflow to this Room is locked. The There is a guarantee that no liquid gas mixture can be sucked in by the suction valves. the Arrangement can be made so that the suction chamber is arranged in a ring around the extinguishing chamber and if necessary, is divided into individual chambers.

Refilling the chamber after it has been switched off can be significantly accelerated if the suction chamber with a special pumping device for pumping fresh extinguishing liquid under increased Pressure is connected. The pump piston of this pump device of the suction chamber is switched off during the shutdown process acted upon by the chamber pressure and tensioned a spring force accumulator, which after the shutdown process becomes free and supplies pure liquid to the suction chamber under increased pressure.

The pictures serve to explain the invention, namely shows

Figure 1 shows an embodiment in which an extinguishing chamber is used without increasing the pressure in the suction chamber; according to the arrangement according to the extinguishing chamber
for liquid circuit breakers

Applicant:

Voigt & Haeffner Aktiengesellschaft,
Frankfurt / M., Hanauer Landstr. 142-172

Dipl.-Ing. Helmut Fritzsche, Oberursel (Taunus),
has been named as the inventor

Fig. 2 the suction chamber has an additional pumping device.

In both pictures, 1 means the quenching chamber,

2 the movable, downward moving contact piece,

3 the stationary contact piece in the chamber, 4 the differential piston. Near the outlet opening 5 of the contact piece from the chamber is the suction valve 6. This valve is connected to the space 7 in connection, which is arranged in a ring around the arcing chamber and at the upper end at 8 with the Space outside the chamber communicates. No switching gases can get into this space, because these flow past the side, so that from the suction chamber 7 always pure switching fluid through the Suction valve 6 is sucked into the chamber. 9 is a pressure relief valve that is switched off during the switch-off process can open if the pressure in the chamber is too high. 10 is a vacuum valve that is normally open and closes when there is pressure in the chamber.

It can be seen without further ado that during the shutdown process this is never the case at the mouth of the extinguishing chamber 5 escaping liquid gas mixture can get into the suction chamber 7 or into the chamber itself.

Figure 2 shows an arrangement in which at the moment the pure liquid is sucked out of the Suction chamber 7 an additional pump pressure due to the return of the differential piston 4 into the suction chamber is available. The end 8 of the suction chamber 7 is located under the pump piston 11 on which the Spring 12 acts. The surface 13 of the pump piston 11 is acted upon by the internal pressure of the chamber, so that at the moment of switching off the piston 11 is moved upwards and thereby compresses the spring 12. 14 are valves which are open when the piston 11 moves upwards, so that the pure liquid reaches under the piston 11 in space 15. The valves 16 are closed during this process. Disappears the chamber pressure after the

909 757 / 38σ

Switching piece 2 from the chamber 1, the spring force 12 is released and pushes the piston 11 downwards. The valves 14 close, and the liquid in the suction chamber 7 is pressurized so that when When the suction valve 6 opens, the pure switching fluid flows into the quenching chamber 1 more quickly he follows.

Claims (4)

PATENT CLAIMS: 1. Quenching chamber for liquid circuit breakers with differential pumping piston controlled by the switching pin and suction valves for quick ι-. Refilling the chamber after switching off, characterized in that the suction valves are preceded by a special space (suction space) that contains enough fresh extinguishing liquid to refill the extinguishing chamber and which is in communication with the space surrounding the quenching chamber that when switching The liquid gas mixture exiting from the extinguishing chamber is the direct inflow to it Room is locked. 2. Arrangement according to claim 1, characterized in that the suction chamber (7) is annular is arranged around the extinguishing chamber (1) and optionally divided into individual chambers. 3. Arrangement according to claim 1 and 2, characterized in that by a pumping device in addition to the suction chamber (7) after switching off, fresh extinguishing liquid under increased Pressure is applied. 4. Arrangement according to claim 1 to 3, characterized in that the pump piston (11) of the The pumping device of the suction chamber (7) is acted upon by the chamber pressure during the shutdown process and a spring force accumulator (12) is tensioned, which after exit of the switching pin from the extinguishing chamber is released and by moving the pump piston (11) fresh switching fluid in presses the suction or chamber space. Considered publications:
German Patent Nos. 719 903, 755 348, 921521. 1 sheet of drawings © 909 757/380 2.60