DE880369C - Electric discharge vessel, especially converters for high voltages - Google Patents

Description

The invention relates in particular to an electrical discharge vessel Converter vessel for high voltages, with auxiliary electrodes arranged in the discharge path, to define the potential distribution by means of a voltage divider obtained between the anode and cathode potential. With the known Arrangements of this type take place with the supply of the voltages to the electrodes With the help of a voltage divider, which is arranged outside the discharge area. However, these arrangements have the disadvantage that in the wall of the discharge vessel a large number of current feedthroughs must be arranged.

The purpose of the invention is to have a discharge vessel in the discharge path arranged electrodes, which by means of a voltage divider: between cathode and anode potential obtained to create, - at which the above-mentioned Disadvantages are avoided. According to the invention this is achieved in that the voltage divider is arranged in the anode rear space. In this way there is no need for voltage supply to provide special current feedthroughs for the individual electrodes. Simultaneously the space available in the rear of the anode is used appropriately. When using a voltage divider, which is formed from capacitors, you can the capacitors are advantageously designed as cylinder capacitors and are concentric be arranged around the anode shaft. Used as a dielectric for the capacitors one advantageous substances with a high dielectric constant, z. B. titanium oxide. the individual capacitors can. be combined to form a vacuum-tight block, e.g. by fusing with glass: the invention is in the only figure of the drawing shown in an embodiment in which in the anode rear space of an anode arm of a converter vessel, a voltage divider consisting of capacitors is arranged is. The anode arm i, which is made of ceramic material, is the anode shaft 2 passed through, at the end of which the anode 3 made of graphite is arranged is. The voltage divider made up of capacitors is in the cylindrical space between the wall of the anode arm i and the ceramic that surrounds the anode shaft Part q. arranged. The capacitors are held in place with the help of the metal parts 5. The capacitors themselves consist of the cylindrical parts 6 made of a material with a high dielectric constant, which are provided with the metallic coverings 7 are. The supply of the anode voltage to the voltage divider formed from the capacitors takes place with the help of the spring 8 over the metal part 9 of the anode shaft 2. Zur The cathode voltage is supplied through a lateral power feed-through in the anode protection tube arranged, with the help of the spring io the voltage on the voltage divider is transmitted. The cathode voltage can either be direct or to the voltage divider be supplied via a suitable ohmic resistor, which is used to dampen any vibrations that may occur in the voltage divider are used. This resistance too can expediently be accommodated in the rear of the anode. In the case of the one shown in the figure Embodiment two grid bodies ii and i2 are arranged in front of the anode.

The connection can be used analogously to converter vessels, any number of grid bodies are arranged in the discharge tube. In the illustrated embodiment, the grid body ii and 12 are with the help of the cylindrical metal parts 13 and 14 arranged in the discharge path. The feed the tension is removed from the springs 15 and 16, leads. isolated by the Metal part 5 through and finally goes to parts 13 and 14. Through the cylindrical Forming the parts 13, 14 avoids that the leads to the grid bodies Unbalanced electric fields in front of the anodes, which cause disturbances during operation could cause, and it is caused that the burning arc also against external interference fields are protected.

Claims (6)

PATENT CLAIMS: i. Electrical discharge vessel, in particular converter vessel for high voltages, with electrodes arranged in the discharge path, which by means of a voltage divider a potential lying between the cathode and anode potential obtained, characterized in that the voltage divider is arranged in the anode rear space is. 2. Electrical discharge vessel according to claim-i, characterized in that the voltage divider made up of capacitors, preferably concentrically arranged cylindrical capacitors, consists. 3. Electrical discharge vessel according to claim 2, characterized in that that the capacitors of the voltage divider have a dielectric with a high dielectric constant, z. B. titanium oxide have. 4. Electrical discharge vessel according to claim i, characterized characterized in that the individual elements of the voltage divider to a vacuum-tight Block are summarized. 5. Electrical discharge vessel according to claim i, characterized characterized in that the individual electrodes arranged in the discharge path are connected to one another concentrically arranged metallic cylinders are attached. 6. Electrical Discharge vessel according to Claim 2, characterized in that in addition to the voltage divider forming capacitors also accommodated damping resistors in the anode rear space are.