DE562750C - Discharge tubes with glow cathode, anode and grid arranged in between - Google Patents

Description

With high vacuum tubes usually takes place the degassing of the anode and the grid by electron bombardment. The pursuit tube technology aims to reduce the heating power of the tubes as far as possible. The lowering of the heating power is limited by the fact that the thinner the thread, the less and less it is becomes resilient. You could help yourself by annealing the grid and the anode by high frequency, which is relatively complicated. To now the To reduce the amount of metal parts to be annealed and thereby the use of a To enable very thin thread, the present invention suggests the following approach a.

Those parts of the anode that are shaded by the parts of the grid become yes anyway not affected by the electron current flowing through the grid to the anode. As a result, it is not necessary to leave these parts solid as they are only one represent unnecessary stress on the thread when the anode is bombarded with electrons and heated by conduction from the adjacent parts of the anode, which are directly hit by the electrons Need to become. So only those parts of the anode that are directly hit by the electron flow are left solid will.

The electrodes can be formed cylindrically in a manner known per se, with grid and anode bars either in the direction of the cylinder axis or are cut out as circular rings from the jacket of the anode and grid cylinder. the However, electrodes can also be box-shaped and one-sided to facilitate assembly be open. An embodiment of the invention is shown in FIG to 4 shown. Fig. 1 shows the anode, from which sheet metal strips at certain intervals are punched out. Fig. 2 shows the grid also in rolled up form. Fig. 4 shows the anode and grid already rolled into cylinders, side by side. By pushing the grid cylinder into the anode cylinder, a massive part comes out the anode to lie over a gap in the grid, while over a solid part of the grid comes to rest a gap in the anode. 3 shows a cross section the tube. Another embodiment show FIGS. 5 to 9. While in the first embodiment the bars in the direction of the axis of the grid cylinder lie, they are here as circular rings that enclose the mantle of the lattice cylinder, trained, so in the usual form. Fig. 5 shows an anode sheet with punched out Stripes. The anode sheet is rolled up to form a cylinder

Embodiment so that the side edges of Fig. 5 collide, so that the massive parts of the anode as juxtaposed circular rings form the jacket of the cylinder. The grid is rolled up in the same way, which is shown in Fig. 6 as a sheet metal with punched parts. Fig. 7 represents a section perpendicular to the axis of the anode cylinder and a section in the axis of the The same is shown in Fig. 8 for the grid. The Fig. 9 shows the same sections for the entire system.

Claims (4)

Patent claims: i. Discharge tube with hot cathode, anode and grid arranged in between, are made in the anode and grid from stamped sheet metal, characterized in that only those parts the anode, which are not shaded by the bars, so only those Parts of the anode that are mainly hit by electrons, but these parts are completely solid, so that when the anode is degassed by electron bombardment all anode parts are actually hit by electrons. 2. Discharge tube according to claim 1, characterized in that the electrodes are cylindrical, and that the grid and anode bars either lie in the direction of the cylinder axis or cut out as circular rings from the jacket of the anode and grid cylinder are. 3. Discharge tube according to claim 1, characterized in that the electrodes are box-shaped. 4. Discharge tube according to claim 1 to 3, characterized in that the Electrodes are designed to be open on one side to facilitate assembly. 1 sheet of drawings