DE566704C - Device for increasing the vacuum of electron tubes - Google Patents

Description

GERMAN EMPIRE

ISSUED ON DECEMBER 22, 1932

REICH PATENT OFFICE

PATENT LETTERING

Vl 566704 CLASS 21 g GROUP

Device for increasing the vacuum of electron tubes

Patented in the German Empire from i6; November 1929

The invention relates to a device for increasing the vacuum of Electron tubes, especially those of high power with a water-cooled anode, in which the discharge vessel is made by welding the metallic anode part together is made with a glass container. As is well known, it is because of the extensive metal surfaces and numerous metal parts in such tubes even after the most careful evacuation it is still possible that gas residues are subsequently released, which lead to annoying breakdowns in operation and can often even lead to the destruction of the tube. In order to remedy this malady, it is known to use the Electron tube to connect a special discharge vessel attached to it airtight, in which an auxiliary gettering discharge is maintained between suitable electrodes,

ao for the purpose of their gas-binding, vacuum-hardening effect, the breakdown security to increase.

According to the invention, in addition to the anode and hot cathode, the auxiliary discharge vessel

as a special carrier is provided on which the electropositive metals such as barium, magnesium or their compounds are applied are.

The figure shows schematically an embodiment of the invention. 1 is the Glass part of a so-called water cooling pipe or valve, 2-2 of which is known Wise faded metallic anad part, 5 the attachment vessel. The latter have z. B. cylindrical shape and carry inside a discharge arrangement, consisting of a hot cathode 6 and a cylindrical anode 7 surrounding it. Of a special one Carrier 8 is then applied to 7 a layer of strongly electropositive metal, e.g. B. barium, magnesium, calcium, potassium or the like, dejected. The development of these metals can e.g. B. by known reduction processes from their oxides or by decomposition of their azides in a vacuum. The mica screens 9 protect the electrode leads and the pinch points of the enclosed feet 10 and 11 against excessive Heating or chemical attack by the metals mentioned. Due to the metal-evaporating auxiliary discharge that occurs during the operation of the electron tube 1, 2 or also during breaks in operation, especially some time before switching on, between 6 and 7 can go on, the vacuum can can be brought to a very high degree or maintained in the whole space. Particularly the slow evaporation of the electropositive metal under the impact and heating effect of the coming from 6 Electrons from 7 to the wall takes place if the discharge takes place in a moderate,

* J The patent seeker stated as the inventor:

Dr. Fritz Schroeter in Berlin.

appropriately adjustable strength is maintained, contributes by solid chemical bond of the residual gases to ensure a high level of air void.

The inventive design of the electrode arrangement makes it possible when Pumping process first to anneal the anode 7 and make it gas-free and then from the carrier 8 alkali or alkaline earth metal to be deposited on the properly degassed anode 7. During a discharge that between 6 and 7 is generated, then the alkali or alkaline earth metal, which binds gas, evaporates acts without the supply of electropositive material, the there is, for example, in the form of decomposable compounds (azides) on the carrier 8, is hit. It is thus possible to have a pure alkali vapor discharge in the getter

pipe _ without at the same time by further decomposing the azide supply on the Carrier 8 to cause a further release of gases.

Claims (1)

Claim: Device for increasing the vacuum of electron tubes in the form of a discharge vessel, which is connected to the electron tube and is used by maintaining a metal vaporizing To act gas-binding auxiliary discharge, characterized in that in the auxiliary discharge vessel In addition to the anode and hot cathode, a special carrier is provided on which the electropositive metals, how barium, magnesium or their compounds are applied. For this purpose-i sheet drawings