DE1113270B - Holding electrodes in discharge tubes - Google Patents

Description

Mounting of electrodes in discharge tubes For mechanized Assembly of receiver tubes of conventional design, in which the electrodes are concentric are arranged to each other, a construction of the system structure is advantageous, which ensures that functionally important dimensions when assembling the electrodes same are not deformed.

It is known to hold electrodes of discharge tubes so that they only form-fit in one direction, but in the two perpendicular to it Directions are firmly established. In this case, for example, the Anode supported so that they both their length in one direction and their Distance from the grid in a different direction within frictional bearings can change, while a sideways evasion because of the form-fitting leadership their support brace in the slot of a mica disk is not possible.

Besides the most common method of holding electrodes in insulating washers made of mica or a ceramic insulating material is still the Holding the electrodes by insulating rods known, which are preferably cross-shaped are arranged so that the electrodes are mutually supportive. By squeezing the rods with spring clips can be compared with the former method Blade resistance of the system structure increased and by grinding the distance-determining Bars a greater accuracy can be achieved.

In the known arrangement of the insulating rods, the position of the retaining struts is of the electrodes both in the main discharge direction and at right angles to it by so-called positive connection, d. H. by contacting the insulating rods, given. If z. B. the distance between the struts of a grid-shaped electrode due to tolerances deviates from its nominal dimension, this will be the case when joining with the insulating parts Strut spacing necessarily changed. With the predominantly elliptical cross-section the grid becomes the functionally important axis of the grid, which is perpendicular to the struts, due to the thin and therefore flexible grid wires around the two to three times the amount of change in the strut spacing larger or smaller.

In the example, 100 and long distance between the cathode surface and the grid turns of a modern receiver tube of the lying in the main discharge direction dimensions of grid and cathode, for example, 20u ever so this quest distance changes affect other than the manufacturing tolerances even indirectly, for example, also 20 and to be calculated at a Factor 2.5 with 50 #t: The original manufacturing tolerance is thus more than doubled, the grid-cathode distance, for example, 100 R, can deviate by 45 R, ie approximately 50%. As a result, the electrical characteristics of the tubes show large variations. If these are not permitted, the manufacturing tolerances must be narrowed further and the electrodes must be installed with particular care. Both of these can only be achieved with great effort in the case of large quantities, associated with a lot of waste and, even if you accept the higher price of the tubes, have technical limits.

This disadvantage does not only occur with the electrode holder Insulating rods on, but also or even more in the case of the holder in perforated insulating washers.

According to the invention, the holder of electrodes for discharge tubes made by insulating rods pressed against each other in such a way that with reference to the Spatial coordinate system x, y, z with a main discharge direction x the retaining struts of the electrodes only form-fit in the main discharge direction and in both other directions y, z are non-positively held. The holding rods of the electrodes are clamped between two insulating rods at both ends of the system for this purpose, which do not have any holes or notches and thus press the holding rods against each other of the insulating rods allow free play in any direction other than the main discharge direction. The spacing between struts of unstable electrodes can then deviate very greatly from the nominal dimension because these distances were not necessarily changed during assembly and thus a deformation of the functionally important Axis of the grid fails to appear. This advantage makes the electrode holder according to the invention special for mechanical system assembly with large quantities and small tolerances The electrical characteristics are suitable because it is a robust treatment of the electrodes allows. Another advantage that facilitates mechanized assembly is therein to see that no closely tolerated, distance-determining parts between the support struts must be introduced, the electrodes can be before pressing the insulating struts can be put together effortlessly and unhindered in a known manner.

The insulating rods can be pressed together by spring clips are designed so that they are used simultaneously to center the system serve in the flask. Another proposal provides that the insulating rods in the assembly device pressed together and cemented together there.

To achieve a particularly shock and shake-resistant structure Holding rods are pressed into the insulating rods, which provide a firm connection of the Allow system with the bottom of the vacuum vessel. On a support (centering) the system on the piston wall can then be dispensed with. This arrangement shows also has the advantage that the inner diameter of the piston has large tolerances may have. An exemplary embodiment is shown in the drawing.

Fig.1 shows a system structure in view, in which one anode half was not drawn; Fig. 2 shows the same system structure in section.

In both figures there is a system in the left half with cemented insulating struts and a system in the right half for support serving spring clips drawn.

All electrodes (anode a, cathode k and grid g) end in the area of the insulating rods 1 in cylindrical retaining struts 2 (Fig. 2). After the electrodes are inserted into one another, the insulating rods are pressed together and held in this position either by spring clips 3 or by cement 6. The brackets 3 can be designed in such a way that they rest with their free ends on the piston wall 7 and thus support (center) the system.

For particularly shake-resistant tubes, holding wires can be inserted into the insulating rods 4 and welded to the feedthroughs of the disk foot 5.

Claims (4)

CLAIMS: 1. mounting of electrodes in discharge tubes by pressed against each other insulating bars, characterized in that x with respect to the space coordinate system, y, z at a main discharge direction x, the holding struts (2) of the electrodes only in the main discharge direction positively and in the other two directions y , z are frictionally held. 2. Holder for electrodes according to claim 1, characterized in that the insulating rods (1) are pressed together by spring clips (3) which simultaneously serve to support the system structure on the wall (7) of the vacuum vessel. 3. Holder for electrodes according to claim 1, characterized in that the insulating rods (1) after being pressed against the holding struts (2 ) are connected to one another by putty (6). 4. Holder for electrodes according to claim 1 to 3, characterized in that holding wires (4) are pressed or cemented into the insulating rods (1) , which are used to rigidly connect the system structure to the bottom (5) of the vacuum vessel. Documents considered: German Patent No. 824 522; German utility model No. 1769 912; U.S. Patent No. 2,663,819. Earlier patents considered: German Patent No. 1051992.