DE727452C - Discharge tubes, consisting of ceramic parts and a cylindrical anode made of metal and provided with annular cooling ribs - Google Patents

Description

Discharge tube, consisting of ceramic parts and a cylindrical, Metal anodes with ring-shaped cooling fins are discharge tubes known in which individual electrodes form part of the vessel wall. At the Construction of such discharge tubes, however, have difficulties in that often the strongest parts of the metallic anode cylinder, the one Forms part of the vessel wall, are located in the vicinity of the melt-down parts. Through this During the melting process, large heat masses are caused by the metal from the melting point derived, it can therefore only melt down with very strong heating of the Metal mass can be made. You also have the outer anode parts with cooling fins provided that are good for the operation of the pipe, however, the difficulties Do not avoid the meltdown, as they when they are near the meltdown naturally lead to good heat dissipation.

In the previously known fusions of metallic and ceramic Usually the transfer of forces to the melting point and the parts will be carried out vacuum-tight connection of the parts made by two separate components.

Furthermore, an electron tube has become known in which the metallic Anode cylinder tapers at both ends and, at these points with insulating Vessel and wall parts made of glass are fused. The one used in the manufacture of discharge tubes Teachings applied to glass cannot, however, simply be applied to ceramics Material transferred, because of the special properties of the ceramic in discharge vessels from this material other paths must be followed.

The present invention avoids the large amount of heat dissipation from the Fusion point through the mass of the electrodes. With a discharge tube, consisting of ceramic parts and a cylindrical one with ring-shaped cooling fins provided anode made of metal, this goal is achieved according to the invention by that on the two outer cooling fins to the anode concentric, cylindrical lugs, the walls of which taper towards the ends, are provided, in the cylindrical, Ceramic tube parts used and, on the edge of the approaches with these through a Melt raft are connected.

The electron tube described above has the following advantages It is a fusion of metallic and non-metallic components achieved in which the main mass of the metallic components come from the fusion point far is removed, so that the heat dissipation through the masses of the electrodes is not great is.

By restricting the heat dissipation from the melting point achieved, d: aß the melting process can be carried out quickly and safely. Through this unnecessary and impermissible high heating of the discharge vessel in the vicinity the joint avoided. Furthermore, the same component is used for transmission the forces occurring at the melting point and the vacuum-tight seal achieved. The above design of the electron tube made it possible to use a decimeter tube for creating very high performances.

The figure shows an embodiment of one according to the invention built-up electron tube, namely the discharge vessel and the electrode shown in section. Since the anode has the largest metal mass of the electrodes, the explanation of the invention is limited only to the design of the anode, accordingly however, it can also be extended to other electrodes. The anode is provided with cooling ribs (' Mistake. The two outer cooling fins I ('have cylindrical, concentric fins to the anode Approaches R, the walls of which taper towards the ends. In the cylindrical approaches R ceramic tube parts are used, the at the edge S of the approaches R with these are connected by a melt flow.

Claims (1)

PATENT CLAIM: Discharge tube, consisting of ceramic parts and a cylindrical metal anode with annular cooling fins, characterized in that on the two outer cooling fins (I (') to the anode concentric, cylindrical lugs (R), the walls of which taper towards the ends, are provided are, are inserted into the cylindrical, ceramic tube parts and on the edge of the Approaches (S) are connected to these by a melt flow.