DE709007C - Metal vapor discharge apparatus, in particular mercury vapor converters - Google Patents

Description

Metal vapor discharge apparatus, in particular mercury vapor converters The invention relates to a metal vapor discharge device, in particular a mercury vapor converter, for small currents with at least two anodes shielded from one another.

There are already electrical discharge devices, e.g. B. Mercury vapor converters, became known, the two - and more mutually shielded anodes as well as one Have ignition electrode.

It is also known to use control detonators, in particular resistance detonators, can also be used in multi-anode discharge vessels. It has also already been suggested that in the case of single-anodic discharge apparatus of the type mentioned above, especially those which Resistance igniters (internal igniters) or capacitive ones are used for control purposes Use detonator. These detonators are summarized below as control detonators designated. The control detonators offer the possibility of ignition in the desired phase position to cause within single half-waves. One has like that when using control fuses the possibility, for example, by relocating the ignition point through the rectifier to control amounts of energy within wide limits with great accuracy. When using the above-mentioned control fuses, one was previously on several single-anode ones Vessels, instructed, the number of which is generally an equal or multiple of the number of phases of the alternating current used. Several vessels were necessary because the Accuracy and reliability of the control with multi-anode vessels, one cathode and a pilot igniter did not meet the requirements. The usage however, several separate discharge apparatuses bring for discharge apparatuses for small currents the disadvantage of high expenditure on material and manufacturing costs with himself.

According to the present invention, therefore, vessels with several Anodes and a common cathode are used, with a special one for each anode switched as a control igniter (resistance igniter, internal igniter, capacitive igniter, etc.) Ignition electrode is provided and each ignition electrode in the projection of the anode cylinder lies on the cathode surface of the associated anode. The 'shielding of the anode, in particular anode protection tubes, can be made of insulating material, for example glass, Quartz, porcelain, ceramics or the like exist.

An exemplary embodiment is shown in the drawing.

The drawing shows a three-phase converter system.

In the rectifier vessel r are the anodes a, 3 and q., each of which consists of an anode protection tube made of insulating material 5 is enclosed. Quartz tubes, glass tubes, Porcelain tubes o. The like. Compared to the anodes 2 to q. there is a common cathode 6, in which the control fuses 7, 8 and 9 are arranged. The pilot fuses 7 to 9 are each in the line of sight of the associated anode. In the embodiment the ignition tips of the control detonators lie in the extended axis of the Anode protection tubes. Each of the pilot fuses 7, 8 and 9 stands as you can see from the picture sees, with a valve tube io or another current-rectifying device in connection. The converter io is connected to a phase shifter i1 in a manner known per se.

The mode of operation of the new arrangement is as follows: When the control detonator 7 receives an ignition pulse through the phase shifter ii and the rectifier io, only responds to the anode: z, even if the voltage of the anode 3 or q. at the moment of ignition should be higher than that of 2 because the anodes 3 and q. through the mentioned Ceramic (especially made from magnesium-containing alumina silicate with a soapstone base) existing protective tubes are shielded against the igniter. The anode 2 can therefore part of the positive half-wave through the circuit 12. In the same Way then work the other anodes, so that in the consumer 13 only one power that is dependent on the arbitrarily determined ignition moment occurs. this is achieved by setting the phase shifter ii accordingly.

Claims (2)

PATENT CLAIMS: i. Metal vapor discharge apparatus, in particular mercury vapor converters, for small currents with at least two mutually shielded anodes, characterized in that for each anode a special one permanently in the liquid Cathode immersing control igniter is provided below the associated one Anode is arranged, and that the screens that enclose the individual anodes, are designed so that each ignition electrode in the projection of the anode cylinder lies on the cathode surface of the associated anode. 2. Metal vapor discharge apparatus according to claim i, characterized in that the shielding of the anodes, in particular Anode protection tubes) made of insulating material, e.g. glass, quartz, porcelain, Ceramic or the like., Exist.