DE733251C - Power supply to a tubular electrode of a discharge vessel - Google Patents

Description

Power supply to a tubular electrode of a discharge vessel The invention relates to a current supply, to. a tubular electrode of a discharge vessel that does not lie directly against the vessel wall - and in axWhoever direction, vo-ii is penetrated by an electron beam.

They are discharge roars. It is known that they contain tubular electrades with a round or oval cross-section, which are penetrated by an electron beam in an axial direction. Such electrodes are used either to influence (e.g. speed control) the electron flow or to decouple high-frequency energy from the electrons passing through the electrodes. Depending on the intended use, these electrodes carry a high-frequency alternating potential or a potential that is as constant as possible. In any case, the electrode lead has a mö, waxed - rings Indukgh e tivity have for yourself is produced at the Zuleituing no high frequency Spannungsabfiall. The production of low-induction connections to such electrodes causes difficulties if they do not adhere directly to the vessel wall, which, however, cannot be achieved in many cases.

The invention allows the inductance of the connection for such a gb ro, hrfö = i, #, -, e electrode negligibly ar small too. do.

In the case of a power supply to a raw T-shaped electrode of a discharge vessel that is not directly adjacent to the vessel wall and is penetrated by a beam of electrons in the axial direction, according to the invention, a with a connection for the AC voltage-provided Metallbielag provided on the inside of the wall of the vessel b an the entire periphery or a large part of the Umfan ', of covering it inner Metallb, -la, - et enübicrli the # - # ge either -Immediately on eht in a wide band, soft to the at Spannuin- to 9 - is guided ib applied electrode and conductively connected to it, or a particular in using, with the inner pad into contact stationary conductive tape of Elektrod # - connected is.

The invention is explained in more detail with reference to the drawing. Figs. 1 and 2 show a transverse section and a longitudinal section through an electrode arrangement according to the invention. A cylindrical electrode 2 is arranged coaxially within a cylindrical part of the discharge vessel i, which is made of glass, quartz or ceramic. The connection between this electrode and the vessel wall is made by a wide, elastic metal band: 3, which is bent in such a way that one end clamps the electrode 2 11111-and from there it expands in a spiral and on the inner wall of the Vacuum vessel i is applied. The length of the sheet metal strip 3 is chosen so that it covers most of the circumference of the vessel wall i. The outer wall of the V.iktiui-ngefäßes i carries a metal sheet 4 facing the sheet metal strip 3, to which a supply line 5, for example also designed as a metal band, is connected. The metal deposits 3 and 4 form the deposits of a capacitor - the capacitive resistance of which is negligibly small for the operating frequency. the width of the metal strip 3 , the inductance of this part of the supply line g is negligible. A direct current feed 6 can also be connected to the electrode 2. To From the EI -stützung ektrode 2 to the vessel wall 7 vOr b eispielsweis, c Glimnierscheiben - esellen. It is expedient to air-roughen the inner wall of the vacuum vessel i at least at those points where the sheet-metal strip 3 rests - in order to enable the sheet-metal strip to adhere better.

Another embodiment of the invention is shown in Fig.3 in cross section. The vacuum vessel, i -, and the electrode 2 have the same shape as in Fig. 1 and 2. The block strip 113 is again almost as wide as the length of the egg electrode 2, but kept shorter; it is welded, soldered or riveted to the Elcktrade2 and lies -e: -en a metal coating 8 applied to the inner wall of the vacuum vessel, i, which extends over the entire circumference -and about the same width - # v - », o der Metal strips. 3 asked. This inner metal coating 8 is again opposed to Qin metal coating 4 on the outside of the # lal, -tiu # .m-efäßcs. The outer metal covering can consist of a sheet metal strip laid around the discharge vessel, a metal foil stuck on, or a metal foil applied by applying the smallest of particles, e.g. B. are made by spraying conductive coating. A wire 9 connected to the electrode: 2 allows direct supply of DC voltage.

Claims (3)

PATENT CLAIMS: i. Stromzuführunc- züi a tubular, yen electrode of an E.ntladiin-s-ef-f.) It, which is not directly adjacent to the vessel ##, -, i "id and penetrated in the axial direction by an electron beam, is characterized by this that on the outside-n-and b of the Entl, aduin # .s1, efäßes a metal sheet provided with a connection for the alternating clamping in.-1 is provided, to which on the inside of the wall of the vessel a whole umfaiii- or a -roBen part of the circumference covering, - r 111111erer metal coating opposite to the either u ninittel * h ar 7 in a wide band eht over-, C which led to the on voltage züi lüz "" c, ndeii electrode and conductive comparable with her connected! is, or using a] particular, with the Innenbela- in Berührun Z-C property of the conductive tape electrode is connected. 2. Electrode connection according to claim i, characterized in that the metal band is so long that it along the largest part of the circumference is applied to the Entladi-ingsge-Gefäß-walid. 3. Elcktrolden connection #b ZD according to claim i, characterized in that a metal # Z :, tall covering, is attached on the inside of the discharge vessel, against which the metal hand rests. C.