DE713739C - Vapor or gas discharge vessel with an arc-like discharge - Google Patents

Description

Vapor or gas discharge vessel with an arc-like discharge .Es electrostatically controllable rectifiers with multiple anodes are known in which the arc can only start when the control grid is on one opposite the cathode of the rectifier is positive potential and which as a result the discharge can be interrupted by connecting the grid to the cathode. In these known devices, the grid has. relatively small openings, which can cause malfunctions in the operation of the rectifier.

In order to avoid these disadvantages, an electrostatically controllable device should be used Gas or vapor discharge vessel with several anodes, only with one opposite the cathode ignites positive voltage; in addition to the control of the Sirom passage one more -electrode for each anode through the control electrodes serving is provided, this further electrode is permanently connected to one opposite the cathode of the Negative direct voltage is so high that the control electrode voltage, at which the tube ignites. is shifted from the negative to the positive.

The invention makes it possible, even in the case of discharge vessels the passage openings with positive control characteristics. the control electrode to be dimensioned large, so that the voltage drop in the discharge path through the control electrode is practically not influenced. Some embodiments of the invention will be described below and are shown schematically in the drawing.

In Fig. I, io means an anode of the vessel, ii its anode protection tube and 12 a grid serving to regulate the passage of current to this anode. The grid to be provided according to the invention is denoted by 13, which is permanently connected to a DC voltage which is negative with respect to the cathode of the vessel, as indicated in FIG. I by a minus sign. The negative voltage of 13 is so high; that the control grid 12 must be brought to a positive potential with respect to the cathode in order to initiate the arc downstream of the relevant anode, as indicated by a plus sign on the lead to the control grid. is. Current limiting resistors are to be connected in the supply lines to the two grids 12 and 13, of which those in the supply line to the grid 12 in particular have the task of limiting the grid current flowing after the arc has been used.

Fig.2, in which the same reference numerals as in Fig. I are used are; shows an arrangement in which this is constantly happening across the street the negative voltage of the cathode grid 13 in contrast to the device according to Fig. i above the control knight 12 is arranged. At this one tion, in which also resistances, ins = `.. special in the supply lines to the Grid i z ', may be arranged, the arc cuts to the anode in question z. B. use when the grid i-- comes to a potential that the cathode opposite to the arc voltage drop, d. H. around 20 volts, is positive.

In a further embodiment, which is shown in Figure 3, the control grid 14 is designed as a concentric shell around the anode io.

That - at the negative voltage compared to the cathode. lying grids 13 in Fig. I to 3 can also be conductively connected to the anode protection tube i i.

The grids 13, all anodes, which are permanently at negative voltage are expediently conductively connected to one another within the vessel and via: a common implementation applied to the negative voltage with respect to the cathode.

Claims (1)

PATENT CLAIMS: ° i. Vapor or gas discharge vessel with arc-like discharge, several anodes .and associated with the anodes, for Regulation of the passage of current through the Vessel serving control electrodes and jr an additional associated with each anode Electrode, characterized in yellow, that 3 this additional electrode permanently aii #cirier opposite the cathode so hollea negative DC voltage, lies that the Stener electrode voltage at which the Tube ignites,, from the negative into Positive is shifting. 2. Discharge vessel according to claim i. characterized in that the ztir Rege- control of the passage of current through the vessel serving grid (12) between the Anode (io) and the constant at ilegati @: er DC voltage lying grid 13. ail- is geoPdnet (Fig. i). 3. Discharge vessel according to claim r. characterized in that the vineyard ltin & the passage of electricity through the Gc- container serving grid (12; # wipe the Cathode and constantly at ne @ ati @ -cr Grid '13) connected to direct voltage is ordered (Fig. 2 r. .l. Discharge vessel according to Claim i. characterized. that the tax electrode (12 or ip die 7ii-c-llorl-u Anode (ioj concentrically surrounds. 5. Discharge vessel according to claim i to 4., characterized in that the permanently. at negative voltage Grid (13) with your anode cover ring (i 1) is conductively connected.