DE471749C - Mercury vapor rectifier made of metal with protective spark gaps to prevent flashbacks - Google Patents

Description

Mercury vapor rectifier made of metal with protective spark gaps to prevent reignition It is well known that mercury vapor rectifiers occur significant overvoltages that can cause re-ignition.

In order to divert overvoltages, there are spark gaps between the endangered points outside the rectifier housing in the atmosphere. As is well known, these spark gaps speak only with long delays obtained by exposure to X-rays or ultraviolet rays, etc. can eliminate.

According to the invention, the rapid response of such switching spark gaps achieved in that the spark gaps are arranged within the vacuum vessel and connected to the associated anodes via non-inductive ohmic resistors are. The second electrode is through any housing part of the metal Vacuum vessel formed.

An embodiment of the invention is shown in the figure. A is the metal rectifier vessel with the cathode B and the ones arranged in a circle Anodes C. D is the steam dome. The electrode inserted into the interior of the vacuum vessel E of the spark gap is via the induction-free ohmic resistance F with the anode tied together; the counter electrode is connected to any part of the housing of the vacuum vessel, z. B. the steam dome formed. The value of the resistor F depends on the Height of the peak tension. If the forward arc burns an anode, then it leads the associated spark gap also generates a small forward current. Increases the Voltage of this anode during the blocking time as a result of an overvoltage, then becomes the spark gap is more likely to respond than the associated anode C, because it pre-ionizes more strongly is as the anode. The overvoltage is thus dissipated via the spark gap and thus relieving the anode. The spark gap is expediently inside the vacuum vessel arranged so that they are exposed to the foreign ions diffusing from the arc that increase their conductivity and ensure an instantaneous response, furthermore in a zone with the greatest possible vapor density. each anode conveniently becomes one assigned special spark gap. The leakage resistance between the spark gap and anode can be arranged both inside and outside the vacuum vessel be. Anodes working in parallel can advantageously each have a separate resistor -be connected to a common spark gap if there is no voltage difference there is between them. The electrode inserted into the vacuum vessel is expedient in a known manner from a metal that does not form an amalgan with mercury, and is also known within the vacuum vessel except for -that End to be left free for starting the arc with metal or insulating sheaths shielded.

Claims (3)

PATENT CLAIMS: e.g. Mercury vapor rectifier made of metal with protective spark gaps for the prevention of re-ignition, characterized in that the spark gaps arranged inside the vacuum vessel and via non-inductive ohmic resistors are connected to the associated anodes. 2. Mercury vapor rectifier according to Claim z, characterized in that the spark gaps each. from one to that Vacuum vessel introduced electrode and any part of the housing of the vacuum vessel are formed as a counter electrode. 3. mercury damping rectifier according to claim 2, characterized in that each spark gap opposite the associated anode is so arranged in the vacuum vessel that it is in the zone of greatest vapor density of the greatest possible Is exposed to the supply of foreign ions. q .. mercury vapor rectifier according to claim 2, characterized in that anodes working in parallel have separate discharge resistors are connected to a common spark gap.