DE650095C - Device for operating discharge vessels, in particular gas or vapor-filled, with arc-like discharge and with glow cathodes - Google Patents

Description

The invention relates to systems with discharge vessels, in particular gas or vapor-filled, with arc-like discharge and refers to an automatic control the ignition or start-up of the discharge vessel as a function of the temperature the discharge space or the vessel wall.

It is known that at low room temperatures, difficulties such. B. made difficult Ignition and occurrence of overvoltages and reignitions in discharge vessels with an arc-like discharge enter. Radiators have therefore been provided in the vicinity or in the discharge vessel, which preheat the metal, the vessel or the vapor space before the discharge voltage is switched on. the Switching such radiators on and off is generally done by hand. To the This saves special operation and the advantages of a heating device too to be able to use in unattended systems, the circuit according to the invention be used.

According to the invention, for warming up cold discharge vessels with hot cathodes and arc-like discharge, especially those with metal vapors and inside or outside arranged radiators, a heat-sensitive device inside or in the Arranged near the Eritladungsraumes and set in the control range so that it through the heating of the discharge space or by heating the vessel wall by means of of the radiator or by the radiation from the radiator itself and on acts further devices to initiate the discharge process. As heat sensitive Device are preferably used bimetallic strips with switching contacts.

According to the invention, the heating device is connected to the maintenance of the cathode emission Serving voltage is connected and a switching element dependent on the temperature of the discharge vessel provided by which the anode voltage and the cooling fan after sufficient heating of the discharge vessel is switched on and the heating device is switched off.

By switching on the heating device and the cathode heating at the same time a particularly rapid heating-up is achieved and the heating-up time is shortened considerably. This arrangement therefore offers a significant advantage over that for mercury cathode rectifiers known arrangements, in which the ignition and excitation of the cathode only immediately before switching on

*) The patent seeker stated as the inventor:

Hermann Fröndt in Zeuthen, Mark.

the anode voltage, i.e. at the end of the heating-up time.

The figure shows a hot cathode rectifier as an exemplary embodiment. the Relays are dependent on the heating circuit of the hot cathode, the heating current being the Can heat cathode directly or indirectly. In special circumstances, the Heating coil 3 are laid into the indirectly heated hot cathode and that heat sensitive relay 4 so arranged. that it is illuminated by the hot cathode will.

The circuit arrangement is such that a heating transformer 7 is excited from the alternating current network 14 by means of a manual or remote-controlled switch 15 and heats the hot cathode 2 directly or indirectly from its secondary winding 8. The heating current actuates the relay 12 and closes the excitation for the relay 16, which is parallel to the coil 8, as a result of which the heating winding 3 is switched on (20, 22). Due to the heating of the discharge vessel, which takes about 5 to 15 minutes, the heat-sensitive relay 4 responds and conducts the main discharge via the contacts 13 and Vj through Er-. excitation of the transformer 6. When the relay armature 18 drops, the heating circuit 3 is switched off and the contacts 19 and 21 are closed to start the cooling fan 5. The entire system is therefore automatically prepared for the transfer of energy to the direct current network 27 for a certain time after the switch 9 has been inserted.

If the heating current of the cathode, e.g. B. as a result of melting through of the heating wire, interrupted, the relay 12 goes back to its zero position and opens the main circuit at contact 13 and at the same time the excitation circuit of relay 16, whereby the system up to the now idle heating transformer 7 and the Fan 5 is switched off.

For grid-controlled hot cathode discharge vessels, in which z. B. auxiliary arcs are necessary to remove wall charges, a Find switching arrangement use in which one of the switching on of the main anodes Auxiliary discharge is ignited.

In addition to the automatically acting devices described above, also other known devices are included in the switching arrangement, e.g. B. Institutions, which cause the fan cooling to start depending on the load or safety devices which Indicate faults in the circuits or the ineffective effects of the individual devices (e.g. wind flap).

Claims (1)

Claim: Facility for. Operation of discharge vessels, in particular gas or vapor-filled, with arc-like discharge and with hot cathodes, which with a device for artificial cooling and heating are provided, characterized in that the heating device connected to the voltage used to maintain the cathode emission is and that a dependent on the temperature of the discharge vessel switching element is provided through which the Anode voltage and the cooling fan after the discharge vessel has been sufficiently heated switched on and the heater switched off. 1 sheet of drawings