DE357687C - Cathode tubes - Google Patents

Description

For fastening the individual electrodes in cathode tubes for wireless purposes So far, telegraphs have mostly been more or less complicated glass frames used, which kept the individual electrodes isolated from each other. One also has tries to hold cylindrical anodes at both ends of the tube by inserted them into the tube neck with special longitudinal supports. Own these facilities a number of significant disadvantages. Especially when using higher currents To generate electrical vibrations, it is found that the glass struts are heated by the high-frequency currents and electrically become conductive, so that they melt through Jaulean heat after a short time. Furthermore, there is the disadvantage that repairs are difficult and costly can be carried out. Such repairs occur relatively frequently on, since for a rational use of the cathode tubes they are very heavily loaded have to. In particular, the heating

thread to have only a short service life at this high load and must after be replaced in a relatively short time. This in itself very simple work This makes it much more expensive and more difficult than changing the filament it is necessary to switch off all electrodes in the glass struts and switch them on again later. A third disadvantage, that of the Attachment of the electrodes adhering to glass struts occurs when the tube is melted shut even up. Here there is a need for the glassblower after having the pedestal made the various parts of the electrode by melting the other end of the tube must be kept at a precise distance from each other and so that the already melted The ends of the electrodes do not exert any great stress on the fused parts.

Finally another disadvantage deserves to be mentioned, which is that the During operation of the cathode tubes the metal parts expand more than the glass parts. There the electrodes are mostly held on both sides by the glass struts, so it comes through a different expansion especially in cases where the tube dimensions are larger breaks the tube very easily. The one with longitudinal bars anode held at the ends of the tube

easier to replace during repairs. The different thermal expansion of the supports and the glass body easily causes bending of the supports and inclinations of the anode cylinder.

Cathode tubes are now known in which one electrode kept mechanically separated from the glass parts of the tube by special support bodies ίο is and wherein the support body itself directly rest against the glass wall of the tube. Also, cathode tubes are no longer new, in which the electrode on the inner glass wall, not only supported on 3-5 their ends in a longitudinally displaceable manner are. The cathode tube according to the present invention differs from these known cathodes Invention characterized in that one or more electrodes are mechanically separated from the glass parts of the tube by supporting bodies and arranged longitudinally displaceably on the glass wall at points of the full cross-section of the tube are, and in this way not only the anode, but also the grid attached so that only the filament is supported by the glass feet.

Another feature of the invention is that the electrodes are springs be held with a punctiform support in the tube. The spring wire can thereby the electrodes themselves only touch point-like, thereby reducing the heat transfer from the electrodes on the glass walls is also prevented. About the axial shift To prevent the electrodes (e.g. grid and anode), rigid power supply lines are used used to hold the electrodes in the desired position.

The advantages of this are the unbreakability of the whole structure, the lightness due to the elimination of special glass constructions in the Inside the tube and in the fact that on glass parts that are difficult to cool, only a little Heat is transferred. There is a risk that the suspension springs will cause excessive heating the glass walls enters, so you can have the springs put against special holding bodies.

In the drawing, a cathode tube is shown schematically, the grid and Anode attachment is carried out according to the invention.

The anode designed as a hollow cylinder has, for example, at three points its Circumferential thin wire springs 2, which point at 3 against the outer glass wall 4 of the tube. The spring wires 3 are bent along the generatrix of the hollow cylinder 1, as can be seen at 5, in order to reduce the heating of the retaining wires as much as possible. Power supply and at the same time the anode 1 is held in place by the wire 13.

Inside the anode is the likewise cylindrical grid 6, which in the same How the anode 1 is held by springs 7. These springs 7 are here expediently held at points 8 by means of rivets or screws in order to change the distance between the individual electrodes. 9 is the grid line. The filament 10 is melted in the foot 11, while in the foot 12 a hook 14 is attached, over which the thread within of the grille is attached. A spring 16 keeps the filament under tension while the screen 15 serves as a heat radiator to protect the glass base 12.

When repairing the filament, it is only necessary to move the tube approximately in line 17-17 cut open, pull the grid and anode out of the tube and remove the filament to renew. Then the grid and anode are reinserted and the two parts reunited at the interface. If with particularly large tubes despite the resilient Suspension of the electrodes must be expected to result in excessive heating of the glass walls, you can use the spring, as already mentioned, to put on special support rods or the like provided in the tube permit.

Claims (4)

Patent Claims: 1. cathode tube, characterized in that one or more electrodes mechanically separated from the glass parts of the tubes by supporting bodies on the glass wall at points of full cross-section the tube are supported in a longitudinally displaceable manner. 2. Arrangement of the electrodes in cathode tubes according to claim 1, characterized characterized in that the electrodes by springs with point support in the Tube to be held. 3. Cathode tube according to claim 1, characterized by the use of the Axial displacement of the grid and the anode preventing rigid power supply lines. 4. Arrangement according to claim 1 to 3, characterized in that the retaining springs are attached to the electrodes at points. 1 sheet of drawings.