DE697904C - Electric high-voltage switch with arc extinguishing in a closed case - Google Patents

Description

Electric high voltage switch with arc extinguishing in one closed shell For electrical high-voltage switches with arc quenching by flowing extinguishing agents in a closed envelope you want the switching work keep it as small as possible. This is especially desirable because the switching work expresses itself in the heating of the area around the arc and thermally the switch and mechanically highly stressed. Furthermore, arcing occurs in the case of switches due to flowing extinguishing agents due to the development of gas on the electrodes etc. counter pressures, which make it difficult for the extinguishing agent to reach the arc. To reduce the switching work one tries to keep the arc length short during the extinguishing. With short arc lengths, however, there arises the problem of insulation strength to increase the switching distance sufficiently quickly with the disappearance of the current, to prevent re-ignition. It is known to use the arc in a gas delete very low density (vacuum switch).

Other arrangements, known as the Deion circuit breakers, divide the arc between the contacts into several partial arcs and cause the arc extinction by the fact that the voltage drops at the base points of the arcs become higher than the driving tension.

The invention is now a new way to reduce the switching work, which avoids these disadvantages. It is characterized by the fact that from the ignition of the arc until it is sufficient for safe voltage separation Length in the envelope is a lower pressure than atmospheric pressure and the arc after reaching this length exposed to the action of a flowing extinguishing agent will. While the arc current through the circuit is considered fixed is to be seen given, it is possible through this measure to reduce the arc voltage in particular to reduce effectively. The arc voltage is made up of the voltage of the Arc column, which is crucial in high-pressure arcs, and from the anode and cathode fall together. If the density of the surrounding gas is reduced, it decreases the column voltage rapidly drops to negligibly small values. On the other hand, rise with decreasing pressure the waste at the electrodes due to the depletion of the gas on load carriers. If no special measures have been taken, it is therefore harmful to lower the density in the arc chamber below a certain value. Depending on the type of gas, the most favorable values are 1J "to 1 / 1o of the density Atmospheric pressure.

In order to reduce the column tension, one then becomes much deeper can go with the density, if special measures are provided to the To reduce waste on the electrodes. Such a measure is z. B. the attachment of substances in the vicinity of the arc roots, which to a particularly high degree Reduce waste, as they are known in the art of gas discharge tubes. It is also possible to use gases with a particularly low ionization voltage, e.g. B. metal vapors to be used. Furthermore, the arc chamber can do something on purpose can be made leaky by making small inflow openings at the arc roots be arranged so that a higher gas density than in capable of forming the arc column.

This measure makes it possible to largely reduce the pressure, as far as the devices used to lower the pressure allow this.

An effective reduction in pressure in the arc chamber at Switching off can be achieved by a piston pump activated during the switching process or by constant pumping that maintains the dilution. Then first the arc is drawn until it is sufficient for safe voltage separation Length reached. The extinguishing is carried out by flowing gaseous or liquid extinguishing agents, which are suddenly fed to the arc chamber. As a result, the Arc voltage almost instantaneously to a multiple of the value in the diluted Space on, and the deletion takes place at the next current zero crossing in the with switches with arc extinguishing by a flowing extinguishing agent known manner. To a This will allow the extinguishing agent to flow out of the arc chamber appropriately provided with a check valve. This can be designed as a quick valve be, d. H. as a valve in which the acted upon area upon its opening suddenly increases.

A particularly advantageous application of the switching principle according to FIG Invention is achieved at synchronous. working switches, and above all in those with extinguishing by pressurized gas. The extinguishing agent is activated here in a known manner suddenly supplied shortly before the zero crossing of the current, so the arc column loses its conductivity almost instantaneously when it crosses zero, because it contains little energy stored due to the low operating voltage. So this not only does the arc work in narrowing the arc extremely reduced, but also the actual extinguishing work to a fraction the work that occurs with normal switches is reduced. The arc. goes out aast instantaneously without developing an appreciable arc voltage can. .

In the drawing, an embodiment of the invention is shown, namely is a switch with a device that allows the dilution of the gas within of the arc chamber during the switching process, and arc extinction by Pressurized gas shown. Fig. Z shows the switch in the on position, Fig.2 in the extinguishing position.

The downward movement of the piston q. the air in the .switching chamber between the nozzle z and the piston q. thinned while the switch pin for the time being still stops and the nozzle opening x closes. After the piston q. the in Fig. x indicated by dashed lines, in Fig. 2 marked position 4 'is reached has, the switching electrode 2 is moved downwards. At the same time the switch point 6 pressurized gas is supplied below the piston through the supply line 6. Once the pen during its downward movement, the nozzle-shaped opening 7 of the insulating material Piston releases, the extinguishing gas flows through this opening into the arc chamber. The arc is caused by the pressure increase and by blowing the next Zero crossing deleted. As described, it is particularly useful to move the pen synchronize so that the blowing of the arc immediately before the Zero crossing begins. As the pressure in the arc chamber increases, it could affect the post-flow. It is therefore possible, but with quick deletion not absolutely necessary to provide a check valve 8, which when exceeded a certain pressure is opened in the arc chamber. With g are ribs referred to, which guide the valve body. To feed the electricity for the Switch pin 2 is a sliding contact io. At high rated currents, the tie rods 5 can with the piston are designed as parallel contacts.

Claims (7)

PATENT CLAIMS: i. Electric high voltage switch with arc extinguishing in a closed envelope, characterized in that from the ignition of the arc until the length in the shell is at a lower pressure than atmospheric pressure and the arc after reaching this length exposed to the action of a flowing extinguishing agent will. 2. Electrical high-voltage switch according to claim i, characterized in that that the gas density in the arc chamber during the drawing of the arc 1 / 2o to 1 / 1o of the gas density at atmospheric pressure. 3. High voltage electrical switch according to claims i and 2, characterized in that the arc is only drawn after the gas density of the switching chamber is reduced. q .. High voltage electrical switch according to claims i to 3, characterized in that the reduction in gas density takes place during the switching process by a piston moving in the arc chamber. 5. Electric High-voltage switch according to Claims i to 4, characterized in that the electrodes, at which the arc burns are equipped with substances that reduce the voltage drops lower on the electrodes. 6. Electrical high-voltage switch according to claim i to 5, characterized in that the extinguishing agent just before the arc chamber is fed to the current zero crossing. 7. Electric. High voltage switch after Claims i to 6, characterized in that the arc chamber is provided with a check valve is closed to the outside air.