DE543438C - Incandescent cathode for high vacuum discharge tubes - Google Patents

Description

Hot cathode for high vacuum discharge tubes The invention relates to a hot cathode for electron tubes, which takes up little space the cathode a high anode current can be achieved. The invention is suitable especially for high-power electron tubes, such as transmission tubes in wireless Telecommunications or tubes for controlling electrical machines, etc. The cathode consists in a manner known per se from essentially within a plane or elongated band-shaped, arranged on a surface and approximately parallel to the anode surface Single elements. According to the invention, the cathode bands are over the greater part their longitudinal extension to the anode surface placed on edge. In itself there is already one ribbon-shaped hot cathode known, which is in a plane parallel to the anode plate lies. The cathode band is twisted so that it is by far the largest Part of its longitudinal extension to the anode surface is not placed on edge. At a second also known arrangement, although the cathode has the shape of a flat Ribbon: but this is parallel to the anode surface. The advantage that the cathode strips arranged next to one another and placed upright on the anode surface is achieved is in the following with reference to the embodiments of the drawing explained. The cathode consists z. B. according to Fig. I of the drawing, which is a plane Cathode shows, from side by side and placed on edge to the anode surface i Sheet metal strips 2. Characterized in that the sheet metal strips with their narrow sides against the Are directed towards the anode, if the anode potential is high enough, all of the emitted Electrons removed from the space between the metal strips and thus the glowing ones Surface fully used. One can therefore achieve a higher electron emission with the new arrangement as if the cathode surface consisted of a solid sheet. A Another advantage of the upright cathode elements is that they do not require such large currents as a closed cylinder surface, because you Total resistance is greater as a result of the larger effective position. Besides, they own a high resistance moinent against bending in the direction of the anode surface. this is especially in high-voltage tubes due to the electrostatic occurring there Forces of great importance.

In Figures 2 to 6 of the drawing are further exemplary embodiments the new hot cathode shown. In the arrangement according to Fig. 2, there is a hot cathode from individual adjacent and mutually parallel annular Sheet metal strips 3 which are surrounded by a cylindrical anode 4. To the individual To connect sheet metal disks in series in the heating current, each of the disks is with the neighboring at one point 5 conductively connected, and the successive Connection points are on opposite points of the panes. Such a one In terms of fabrication, the hot cathode can be made very expediently from a punched piece, as shown in Figure 3 of the drawing. The piece thus obtained is sent to the Connections folded so that it receives the farm according to Fig.2.

When larger electrostatic forces and mass weights occur the individual sheet metal disks can be connected to one another as shown in Figure 4. Two each Sheet metal disks are connected to one another at two opposite points by sheet metal strips 6 connected, the connections 7 to the next sheet metal disk are opposite the previous one offset by go °.

With the arrangement according to Fig. 2 and 3, the heating current flows within of the sheet metal ring in two parts connected in parallel, with the arrangement according to Fig. 4 in four parts connected in parallel. In another embodiment the hot cathode consists of sheet metal strips wound in one or more helical lines, the strips in turn opposite the lateral surface of the helical line or the The anode surface are placed upright.

Around the upright metal strips of the cathode against bending To stiffen them even more, you can give them an angle or a T-shaped cross-section give. The arrangement is then such that the part of the parallel to the anode surface T-shaped or angular cross-section on that side of the cathode which the anode is turned away. For example, Figure 5 shows a ring-shaped sheet metal disc the cathode according to Fig. 2, on the inside of which a sheet metal ring 8 is still attached, so that there is a T-shaped cross-section. Fig.6 shows the same arrangement when the cathode strip has the shape of a helix.

Claims (5)

PATENT CLAIMS: i. Hot cathode for high vacuum discharge tubes that from elongated, essentially within a plane or the lateral surface of a cylinder arranged and approximately parallel to the anode surface band-shaped elements consists, characterized in that the cathode bands over the greater part of their Longitudinal extension to the anode surface are placed on edge. : 2. Arrangement according to claim i, in which the cathode elements lie on the outer surface of a cylinder, marked by ring-shaped sheet metal disks, the plane of which is arranged perpendicular to the cylinder axis are. 3. Arrangement according to claim a, characterized in that for the purpose of series connection of the individual sheet metal disks in the heating current, each of the disks with the neighboring one is conductively connected at one point and the successive connections lie on opposite points of the discs. 4. Arrangement according to claim 2, characterized in that for the purpose of connecting the individual sheet metal disks one behind the other in the heating current two successive discs at two opposite points are conductively connected and the connection points to the next pane by 9o ° opposite the former are offset. 5. Arrangement according to claim i to 4, characterized in that the individual strip-shaped elements of the cathode have a T- shaped or angular cross-section and the part of the T-shaped or angular cross-section parallel to the anode surface is on the side of the cathode facing away from the anode surface.