DE887548C - Electrical discharge vessel - Google Patents

Description

Electrical discharge vessel With electrical discharge vessels is it is common to support and spacing the electrodes or other parts of the electrode system or insulating parts made of mica, ceramic. Man mostly uses disks made of mica or ceramic with perforations are provided through which the individual electrodes. or nasal approaches the electrodes or holding parts are pushed through.

In the case of tubes that are subject to high thermal or tension loads, in particular for high frequencies, e.g. B. also with transmitter tubes in the ultra-short wave range makes often the isolation of the individual electrodes and their mutual support difficulties within the electrode system. Mica can generally be used here can no longer be used, and the use of ceramic or resin parts is no longer possible often not feasible because of the poor processing possibilities of these materials. The invention eliminates this. Disadvantage and makes it easier to use, Components that are easy to manufacture, also made of insulating materials that are difficult to process with high accuracy.

The invention consists in that the insulating parts are made of similar, essentially rod-shaped components are formed. The single ones Insulating parts are expediently designed cylindrical and can in this way with very high accuracy can be manufactured by grinding. With the help of a number Such cylindrical or similarly shaped rods can be used as electrode systems of various types can be assembled as required. For this purpose, the chopsticks can be cross-shaped be arranged and the construction of very dimensionally accurate and. to a lesser extent clinically prone Electrode systems enable. The small rooms can be made of ceramic, Quartz or some other insulating material that is sufficiently heat-resistant and also has the necessary dielectric strength, exist; there is also still on it to ensure that the losses of the material in the required frequency range are low.

The invention will be explained in more detail with reference to the drawing. the Figure shows an embodiment in its essential parts for the invention in plan and elevation. It is a small transmitter tube in which the Invention is shown only at one end of the electrode system. The cathode is denoted by i and has the shape of a conventional oval cathode, on the Outside there are emission layers and inside the radiator is housed is. With 2, 2 the control grille bars are designated, while 3, 3 the corresponding ones Illustrate the bars of the screen grid. A sheet metal that acts as a brake grille is with q. designated.

The actual holder of the electrodes is through the cylindrical Pairs of rods 5, 6 and 7 caused, for example, from ground ouarz rods exist. These are arranged in a cross shape in the illustrated embodiment Small rooms are anchored to the anode and, if necessary, by additional ones Tabs and 9 connected to each other. Their diameter determines the distance between the stiles the grid below each other and the distance between the control grid and the cathode. Appropriate dimensioning of the entire structure can optionally be achieved that all the support rods used made of insulating material have the same diameter own. For this purpose, it is advisable to make all grating bars the same width. It but it is also possible with a number of small tubes of different diameters to work and then with a minimum of components a large number to produce differently structured systems.

The high achievable accuracy of the insulating parts as well as the possibility of the insulating rods by means of suitable spring clips, e.g. B. made of tantalum, to be pressed together, l. leaves the construction of very dimensionally stable and less prone to sounding electrode systems compared to the previously common design using perforated ceramic disks. So the invention gives a number of advantages, especially in manufacturing in not too large numbers and especially with very high stress on the tubes matter. The possibility in itself means a great advantage Difficult to process, electrically and mechanically but high-quality insulating materials to use where it would otherwise be extremely difficult to create openings with large To attach dimensional accuracy. Another advantage is the use of the simplest components, z. B. only ground edge bars of the same diameter made of quartz or ceramic, furthermore, the achievement of a high accuracy of the electrode spacings through use ground insulating parts, the low material requirement with relatively high mechanical and electrical strength, an easy way of design change without large tooling costs for ceramic parts and ultimately achieving larger ones No blades than is otherwise possible with ceramic insulating parts.

Claims (6)

PATENT CLAIMS. i. Electrical (discharge vessel, in which insulating parts are provided for supporting and spacing the electrodes or other parts of the electrode system, characterized in that the insulating parts are formed from similar, essentially rod-shaped components. 2. Discharge vessel according to claim i, characterized in that the structural elements are cylindrical rods are. 3. Discharge vessel according to claim i or 2, characterized in that the Components are arranged in a cross shape. q .. Discharge vessel according to Claims i to 3, characterized in that the components are made of quartz or ceramic. 5. Discharge vessel according to claim i to q., Characterized in that the components are ground. 6. Discharge vessel according to claim i to 5, characterized in that; that tabs, brackets, springs or the like: are connected to the components.