DE724768C - Electron switch based on the Braun tube principle - Google Patents

Description

Electron switch based on the principle of the Braun tube luminous substance to apply and thus to form this plate as a fluorescent screen at the same time. However, this arrangement has on the one hand the disadvantage that the electron beam initially the luminous substance must prevail before it reaches the switching segments. on the other hand there is also the disadvantage that the luminous substance connects the segments with one another. Such an arrangement thus shows a certain blurring of the switching pulses.

These disadvantages are applied to the electron switch according to the principle the Brauns tube with several switching sieves, onto which the electron beam is directed with the help of a deflection system, avoided according to the invention. According to the invention are the switching segments on the end plate made of a Lumophorglas of the discharge vessel attached. So it is used as a carrier for the switching segments those glasses are used which, as a result of certain additives, are used in Braunsch.e tubes the technology used to solve a wide variety of tasks. For example the Braun tube can be used to measure magnetic fields, to indicate direction, for current measurement and the like. to be used.

They are already working on the principle of the Braun tube Known electron switch. In these tubes, an electron beam is used to switch used by the electron beam by its deflection system on different switching segments is controlled, which are mounted inside the tube.

It is now desirable to use the switching segments in an electron switch to be trained as wall coverings. This special training of the electronic switch requires however, aids to give clues about the shape when adjusting the beam to win the ray. Although it is theoretically possible to use the carrier plate for the switching segments for glass melt in a known manner for transformation of electron beams in light are suitable, so that the attachment of luminous substance superfluous on the switching segments.

In the figures .sind in a partially schematic manner exemplary embodiments according to the invention. FIG. I shows an electron switch i operating on the principle of the Braun tube. The beam generating system consisting of the cathode 2 and the Wehnelt cylinder 3 is used to generate the electron beam. There is an aperture ¢ in front of the beam generation system. The hooks on the Wehnelt cylinder and the cover have been omitted for the sake of clarity. Furthermore, the cylindrical electrodes 5 and 6 and the deflection plates 7, 8, which are provided with special feed lines, are arranged in the discharge vessel. The cylindrical electrodes 5, 6 and the deflection plates 7, 8 are assembled to form a unit and attached to a common holder, which is not shown, with the aid of clamps, as is known for cathode ray tubes. The cylindrical electrodes in turn consist of several individual cylinders from which they are assembled according to the modular principle. The holder takes place advantageously in such a way that two aufeinanderfol, quietly @ e individual cylinder to each other and are also alternately secured to two opposing rods of the four rods sawn stationary bracket. In order to achieve good dielectric strength, the outermost individual cylinders are pot-shaped at the critical points, as shown in FIG. After passing the deflection plates, the electron beam strikes the switching segments attached to the end plate 9, of which only the two segments io and 13 can be seen in FIG. A plan view of the end part of the tube is shown in FIG. 2, from which it can be seen that, for example, six segments which. are provided with the reference numerals io to 15 ', are attached to the end plate. The segments are expediently provided with continuations which extend in the direction of the axis of the discharge vessel and which are connected to the external contacts. In F jg. i can be seen in which way the switching segments io and 13 are connected to the outer contacts 16 and i9. For each Sch.alts.egment each a lead is, of course, as is apparent from Figure 2, 16 to 21 present. The switching segments are: are on 'the end plate made of Lumophorglas according to the invention. If necessary, it can also be expedient not to provide the switching segments attached to the end plate with leads passed through the wall, but to use capacitive leads 22 and 23, as shown in FIG. On the outer wall of the discharge vessel is then for each. Switching segment, a metallic coating is provided, which forms a capacitor with the inner coating.

The switching segments can according to any known method .The glass surface are applied, since the surface of the Lumöphor glasses of the Surface completely corresponds to the usual glasses.

Claims (2)

PATENT CLAIMS: i. Electron switch based on the Braun principle Tube with several switching segments, onto which the electron beam is hit with the help of a Deflection system is directed, characterized in that the switching segments on attached to the end plate of the discharge vessel, which consists of a Lum, opho.rglas are. 2. Electron switch according to claim i, characterized in that the leads to the switching segments, 'take place capacitively.