DE680509C - Anode arrangement for gas or vapor-filled high-voltage rectifiers - Google Patents

Description

Anode arrangement for gas or vapor-filled high-voltage rectifiers It is proposed to reduce the risk of reignition in high-voltage rectifiers been, 'to arrange electrodes between the anode and the cathode, the so narrow bores have that during the blocking period practically no charge carriers through the openings to the anode. This means a discharge at the beginning of the burning period can occur, it is necessary in the space between the anode and the with the electrode provided with the narrow bores mentioned at this moment charge carriers to create. It has therefore been proposed to have a cold auxiliary electrode in this room : to be arranged and by applying sufficiently high voltages a flashover between this auxiliary electrode and he generate hole electrode. It has been shown that for this purpose, relatively high voltages at the gas pressures that are practically in question are necessary and that after a short period of operation a considerable contamination of the Electrodes and the insulators @ occurs. The invention relates to an improvement such an anode arrangement, in which in the discharge path in front of the anodes rear marider Electrodes are provided with openings so narrow that during the blocking period practically no charge carriers can get to the anode 'and during the initiation the ignition of the discharge anode-cathode between each of these electrodes and each An auxiliary discharge is generated by an additional cold auxiliary electrode. The order- according to the invention differs from the device previously proposed as a result, .that in each auxiliary discharge path between the hole and the one assigned to it Auxiliary electrode, which itself can also be designed as a perforated electrode, a glow electron emitting electrode is provided. It is generally recommended to use one of the to electrically connect both electrodes with the glow electrode.

The figure shows an embodiment of the invention. The anode r is connected to the transformer. Both electrodes 2 and their associated auxiliary electrodes, which are themselves designed as perforated electrodes, serve to subdivide the voltage gradient between the anode and the cathode. They iron: such a narrow opening that during: the blocking period there are practically no charge carriers. Get anode. To initiate the ignition: An auxiliary discharge is generated between the perforated electrodes 2 and the associated auxiliary electrodes 3. To make it easier: the ignition of the auxiliary discharge is provided with glow electrodes 5, which are connected on the one hand to the auxiliary electrodes 3 and on the other hand to the rings q. are connected. The heating transformers, the secondary windings 12 of which are shown, are used to heat the glow electrodes made of tungsten strips: The secondary windings 13 of an auxiliary transformer are used to generate the auxiliary voltage for the auxiliary discharge between the perforated electrode and auxiliary electrode with a phase position such that the auxiliary discharge only occurs when the main discharge should ignite, arises. The converters 1q are used to limit the passage of current in the auxiliary discharge path to the conduction period of the anode i: the series resistors 1 5 are provided for current limitation. The electrodes 2 and 3 are connected to one another in pairs by resistors 16. It is advisable to choose the resistances ii to be much greater than the resistances 15. By connecting the uppermost resistor ii to the cathode and selecting the resistance values ii accordingly, any desired division of the voltage on the hole and auxiliary electrodes 2 and 3 can be achieved. In this way there is a risk of charge carriers penetrating from the remaining discharge paths into the space surrounding the anode. considerably reduced and the disadvantage mentioned @cingangs. the previously proposed arrangement avoided. The voltage that is necessary in the invention to ignite the auxiliary discharge is only low due to the presence of the glow electrode. A control electrode 8 provided, for example, on the cathode soap is expediently used to control the use of current. It is isolated from the vessel by the insulating tube 9.

Through the insulating tubes 6 and 9 and shown in the figure the insulating intermediate layers 7 should only be indicated that the parts i to q. and 8 must be isolated from each other and from the vacuum vessel. The order is to be met in such a way that no charge carriers come from the other discharge spaces can reach the anode in a way other than the prescribed route. Also yours Parts of the electrodes i, 2, 3, 5 and 8 facing the outside rough must be against charge carriers practically shielded. For this purpose it is beneficial; the insulating pipes 6 and 9 at the same time to limit the vacuum space to there in this case: the dem Outside space. facing parts are not exposed to the discharge in any way.

Claims (2)

PATENT CLAIMS: i. Anode arrangement for gas or vapor-filled high-voltage rectifiers, in the case of the in the discharge path in front of the anodes one behind the other electrodeal with so tight Openings are provided that practically no charge carriers during the blocking period can reach the anode, and when initiating the ignition of the discharge Anode-cathode between each of these electrodes and an additional cold one Auxiliary electrode an auxiliary discharge is generated, characterized in that d.aß in each of these auxiliary discharge links between the perforated electrode and the additional one Auxiliary electrode, which itself can also be designed as a perforated electrode, a glow electron emitting electrode is provided. 2. anode arrangement according to claim i, characterized characterized in that the glow electrode with one of its neighboring electrodes is electrically connected.