DE1166879B - Pressurized gas boiler switch - Google Patents

Description

Pressurized gas boiler switches These are suggestions for pressurized gas boiler switches became known where in a on low, but above atmospheric pressure lying pressure-filled boiler is housed a switching path and this The boiler is surrounded by an external, grounded boiler, which is supplied with a pressure medium high pressure is filled. The high pressure pressure medium serves here both as an extinguishing agent as well as an insulation means in order to keep the dimensions of the solid insulation as small as possible and with it the switch too. When it is switched off, the extinguishing agent flows from the outer boiler over the switching path into the inner boiler and then over Insulating pipes attached between and through the inner and outer boilers a check valve are closed to the outside.

There are also pressure gas switches known in which gases are particularly high extinguishing effect with higher pressure across the switching path in a boiler low Pressure flow and from here again after their purification of ionization products be provided again for arc quenching.

The invention also relates to a pressurized gas boiler switch, its arc extinguishing agent when switched off via a nozzle from a room higher pressure in a room with a lower pressure but above atmospheric pressure flows. The invention is based on the object for arc extinguishing to create the most favorable conditions for such switches.

As has been proven by experiments and known from thermodynamics is, you get the most favorable utilization of the pressure gas, if you look for the pressure ratio p ', where P1 is the low o pressure behind the discharge nozzle and Po is the high pressure in front of the discharge nozzle, selects certain ratios, namely with subsonic nozzles Pö- equal to or almost equal to 0.53, for supersonic nozzles the ratio p 'in placed a range from about 0.3 to 0.15.

One possible design of a pressurized gas boiler switch. after The invention is shown in the drawing in FIG. 1.

The outer, with the pressure P, filled pressurized gas boiler with the volume V1 has two bushings 2 and 3, through which the current J reaches the switch. The bushing 2 carries the fixed contact 4 for the movable switching pin 5, the drive of which is denoted by 6. The drive 6 is accommodated in a pressure vessel 7 with the volume VO, which is connected to the bushing 3. The switching pin 5 can be displaced in the axial direction within a nozzle. The container 7 is filled with the pressure Po via an insulating tube 9; when it is switched off, the Blasventi110 is actuated, which allows the pressurized gas to flow out of the nozzle 8 as well as acting on the drive 6 at the same time. The compressed gas reaches subsonic or supersonic speed depending on the shape of the nozzle.

In the example shown, the nozzle 8 is a subsonic nozzle, such as see them in more detail from FIG. 2 emerges. The compressed gas flows after switching off through a pipe 11 which is closed by a check valve 12. The valve is set in such a way that the compressed gas with the pressure P1 does not flow out into the open can.

Even higher flow velocities within the nozzle 8 result if it has a supersonic shape. In both cases, compliance is required the specified pressure ratio achieves optimal arc extinction. as Arc extinguishing agents can be compressed air, carbonic acid, sulfur hexafluoride or a serve another suitable gas.

Claims (1)

Claim: Pressurized gas boiler switch, the arc extinguishing agent of which, when switched off, flows through a nozzle from a room of higher pressure (Po) into a room of lower pressure (PI) but above atmospheric pressure, characterized in that optimal values are selected for the pressure ratio, namely at the subsonic nozzles decisive for the shape of the nozzle equal or almost equal to 0.53, in the case of supersonic nozzles equal or almost equal to 0.3 to 0.15. Considered publications: German Patent Nos. 576 319, 591 599, 600 686, 607 703, 615 588.