DE967659C - Electron tubes with a collecting electrode made of high-melting material that warms up during operation - Google Patents

Description

Electron tube with a collecting electrode that heats up during operation refractory material The invention relates to an electron tube with a collecting electrode that heats up during operation, e.g. B. anode and / or shield electrode, made of high-melting material. In general, the aim of the tubes is that To keep the anode temperature as low as possible. This is the case with tubes, for example higher anode power dissipation means that the heat from the anode seeks to radiate and dissipate. So is the anode with cooling fins provided, roughened and blackened on their surface, provided with a zirconium coating and finally held in such a way that one more as possible over the holder great heat dissipation takes place. In order to achieve that with controllable electrical discharge vessels Vapor deposition of emission mass from the cathode onto the control electrode and a Avoiding the thermal grid emission promoted in this way is already an electrode arrangement became known, in which the control grid is arranged directly isolated on the cathode and can also be heated.

In contrast, the invention takes a different approach. With an electron tube with a collecting electrode that heats up during operation, e.g. B. anode and / or shield electrode, According to the invention, the collecting electrode in question is made of refractory material designed in such a way and arranged in such a way while keeping the heat dissipation low, that it assumes such a temperature during operation that neither a vaporization of the Cathode still allows a significant thermal emission. The relevant collecting electrode, z. B. the anode, can be made of tungsten, molybdenum or another high melting point Material. These materials are very heat-resistant and show at temperatures of 100 ° C there is still no significant electron emission.

The anode z. B. is not zirconized and conveniently consists of a smooth, possibly even polished cylinder or another suitable one Shape and has no additional means of heat dissipation. That way it takes the anode to high temperatures, which is avoided with certainty, that about Emission substances released from the cathode can be deposited on the anode. Thus, such an anode is particularly suitable for tubes where there is a risk of that cathode mass is released and undesirable as a result of deposition on the anode Causes emissions. Furthermore it can be achieved by .this measure that a Heat is reflected back onto the cathode. In this way the heating of the Cathode are to a large extent also supplied from the anode.

Holders and power supply lines in the - relevant collecting electrode expediently represent a long heat conduction path. For this purpose, the bracket take place in such a way that it runs at a certain distance from the anode and accordingly also for the supply of direct current a longer loop-shaped or multiple loop-shaped conductor piece is formed. For the high-frequency connection can then In addition, a capacitive supply line can be provided in order to achieve the alternating current power to be able to take full advantage of it. Brackets and direct current leads are useful on the one hand and capacitive alternating current supply on the other hand at locally separated Place the anode attached.

The invention has for collecting electrodes, e.g. B. anode and shield electrode, including their brackets meaning those with a vaporizing or other Detachment of emission mass from the cathode and its deposition on these parts must be expected. Furthermore, the invention enables cathodes to be used which for these reasons have so far not appeared useful, even if they get through have good emission properties.

Claims (5)

PATENT CLAIMS: 'i. Electron tube with heating up during operation Collecting electrode, e.g. B. anode and / or shield electrode, made of refractory material, characterized in that the relevant collecting electrode is designed in this way and while keeping the heat dissipation low, is arranged in such a way that it is in operation assumes such a temperature that neither vapor deposition from the cathode nor allows a significant thermal emission. 2. electron tube according to claim i, characterized in that the electrode in question is a smooth, preferably Has polished surface. 3. Electron tube according to claim 2, characterized in that that the electrode is designed so that one is essential for heating the cathode contributing heat reflection takes place on the cathode. 4. Electron tube after Claims i to 3, characterized by a holder and power supply for the electrode with a long heat conduction path. 5. Electron tube according to claim 4, characterized in that the high-frequency lead takes place in a capacitive manner at a different point of the relevant collecting electrode than .die direct current lead and the attachment of the holder. Considered publications: German patent application S 214o6 VIIIc / 2ig (Patent 857 54o) German patent specifications No. 574 752, 703 694.