DE891117C - Electrical discharge tubes, in particular a valve tube with an anode that surrounds the cathode in the shape of a pot - Google Patents

Description

The invention relates to an electrical discharge tube, in particular a valve tube with a cup-shaped anode surrounding the cathode. With the known Embodiments of such tubes have the disadvantage that, especially at high electrode voltages, electrical charge carriers (secondary electrons and those occurring during ionization Ions) from the actual discharge path into the remaining space of the discharge vessel get there and cause impact ionization, which affects the function of the discharge vessel significantly interferes with and possibly leads to destruction.

To avoid this, according to the invention, the electrodes are electrical Discharge tube shaped and attached to such different electrical Potentials that between the electrodes an anode-cathode space opposite the remaining space of the `discharge vessel for electrical discharge carriers electric blocking field is created. With anode-cathode space is essentially that by the outermost orbits of the working electrons - limited space between anode and.kathode. In this space the free path is too small to accommodate the electrical To enable charge carriers to impact ionization.

Further features of the invention are set out below with reference to the in FIG Figure explained as an embodiment of the invention illustrated pot valve.

The evacuated vessel r contains the cup-shaped anode 2 and the cathode 3. In contrast to the well-known pot anodes, which are at about the same height as the cathode coil end, the anode 2 extends far into the cathode-side half of the discharge vessel into it and still embraces almost the entire cathode pinch foot q., which is the jacket-shaped Electrode 5 carries. At their lower ends in the figure, the electrodes 2 and 5 an annular constriction. The electrode 5 is electrical with the cathode conductively connected - and extends at its upper end in the figure -over the Cathode pinch foot q: out. Between the opposite parts of the electrodes 2 and 5 arise because of the smaller distance between the electrodes and the different voltage potentials, strong electric field, which in the figure is indicated by arrows. This electric field prevents z. B. in Discharge space 6 secondary electrons produced when leaving this space. the opposing parts of the two electrodes 2 and 5 thus act as electrostatic particle barrier. Due to the annular constriction of the anode 2 and the opposite part of the electrode 5 is reached; that also electrical Charged particles that run parallel to the wall of the anode pot do not enter space 6 can rely on, since they are on the inwardly bending parts of the anode .2 or hit the parts of the electrode 5 that bend outwards further down. Since the free path in space 6 is too small, no impact ionization can occur here. The electrode surfaces, which are larger than known designs, have an effect also very favorably on the cooling of the discharge tube.

Claims (6)

PATENT CLAIMS: i. Electric discharge tubes, in particular valve tubes with an anode surrounding the cathode in the shape of a pot, characterized by an anode shaped in this way and electrodes lying at such different electrical potentials that between these electrodes an anode-cathode space opposite the rest of the space of the discharge vessel for electrical charge carriers shielding electrical blocking field arises. 2. Discharge tube according to claim z, characterized in that the the Electrodes forming the blocking field are at anode and cathode potential. 3. Discharge tube according to claim 2, characterized in that as one of the blocking field electrodes appropriately shaped anode is used. q .... Discharge tube according to one of the claims z to 3, characterized in that one of the blocking field electrodes of one in the cathode-side half of the discharge vessel-es arranged, -z. B. the Cathode pinch foot surrounding, protective jacket is formed on a opposite the anode potential is negative -Potential, preferably with = the cathode electrical conductively connected 5. Discharge tube according to one of claims r to q., Characterized characterized in that in the case of a cup-shaped anode this extends far into the cathode-side Half of the discharge tube extends into it, in particular also parts of the cathode pinch foot surrounds. 6. Entladungsröllxe according to claims q. and 5, characterized in that that the anode and the protective cylinder have annular constrictions that correspond to each other opposite.