DE729767C - Heavy-duty anode with enlarged radiation surface for electron tubes - Google Patents

Description

Heavy-duty anode with enlarged radiation surface for electron tubes Heavily loaded anodes of electron tubes and especially of transmission tubes must high local resilience, good thermal conductivity and good heat radiation own.

The high local resilience is necessary because: the electron impact generally not evenly over the entire surface, but preferably on individual ones Points takes place. As a result, it is not sufficient if the impact surface of the anode is designed according to the power dissipation of the tube, but it must be a considerably higher local resilience auin @ eisen.

Good thermal conductivity is required to avoid local irregularities to compensate for the heating and the heat released by the electron impact quickly discharged to the outside.

The good heat radiation of the outer surface of the anode also serves the cooling. There have therefore already been anodes with a star-shaped enlarged radiation surface proposed that consist of a single massive body.

Highly resilient anodes with increased radiation area, in particular for transmission tubes, are built according to the invention so that the cathode facing Area made up of one or more highly resilient areas and the area facing away from the cathode consists of one or more heat radiating sheets and these sheets together Form a cavity in the manner of a casting mold, which is expediently in a vacuum poured, highly thermally conductive material, e.g. B. copper, is poured out.

The contact surface can, for example, consist of molybdenum sheet, while the outer surface is made of iron, iron clad with aluminum, or the like will. Additions of silicon and old minium can be added to the copper or Give beryllium up to about 50`o to improve the mechanical properties and reduce the gas content.

Long bodies with the desired one are expedient in one procedure Cross-section made from the sheets and poured out and then the anodes in the cut off the required length.

To get a good connection between your sheet metal and the copper, it may be useful to attach wires, pieces of sheet metal or struts to the metal sheets to be welded, which then has an anchorage in the one; cast copper yield and increase the stability of the mold. At z. B. atialsym @ metric anode can thereby a mechanically strong connection between the outer and inner skin can be achieved. These stakes should not alloy with the cast metal.

Two exemplary embodiments of the invention are shown in the figures. In both cases it is anode with an opening on one side in which after assembly of the system z. B. the grid bracket. Is arranged. The radiating surface: i of the anodes has a star-shaped shape as shown in Fig. I and is for example, made of aluminum-plated iron that is blackened by annealing was educated. The impact surface 2 for electrons is formed from molybdenum sheet.

It is of course also easily possible to apply the invention Anodes without a side opening, e.g. B. to centrally symmetrical anodes to apply. Abh. A shows a star-shaped body, too, but it is the whole of it Boundary surface formed from molybdenum sheet 3. The lines are shown in dashed lines, where the body is sawed through to separate the individual anodes.

Claims (3)

PATENT CLAIMS: i. Heavy-duty anode with enlarged radiation surface for electron tubes and in particular for transmitter tubes, characterized in that the surface facing the cathode made of one or more highly resilient and the The surface facing away from the cathode is made of one or more sheets of metal with good heat radiation exists and these sheets together form a cavity in the manner of a casting mold, with a suitably cast in a vacuum, highly thermally conductive material such. B. copper, is poured out. 2. Anode according to claim i, characterized in that the wall on the inside by wires, pieces of sheet metal or struts opposite is anchored to the casting material. 3. A method for producing anodes according to claim i or 2, characterized in that a longer hollow body with the desired Cross-section is made from the sheets and poured and that then the required Lengths. be cut off.