DE1264621B - Disc-shaped holder part for electrical discharge tubes - Google Patents

Description

Disc-shaped holder part for electric discharge tubes Die The invention relates to a disk-shaped holding part for electrical discharge tubes with openings for receiving and holding electrode systems or parts thereof, in the case of the individual, which is used to hold or hold parts of the electrode system Openings through additional not used to hold parts of the electrode system Breakthroughs are combined to form an overall breakthrough that the two adjacent ones Breakthrough connecting openings perpendicular to the line connecting the centers of the two adjacent openings is narrower than the largest dimension of each of the two adjacent openings Openings in this direction.

By the German Auslegeschrift 1054 593 a tensioning grid for electrical discharge tubes, especially for electron tubes, became known, the spars carrying the lattice windings and the mutual spacing of the There are stirrups defining spars, one of which is replaced by a bridge is arranged in the center plane laid by the spars and on the end faces the stile is attached and which is not wider than the stile thickness. For fixing the spars of the tensioning grid on the side of the grid on which the bracket is through a Bridge is replaced, an insulating washer is used, which is one of the grid profile Contains a corresponding recess so that the insulating disk over the bridge member can be carried away. A separate holder is provided for the cathode. In one embodiment, a two-part design is used to hold the cathode Insulating washer used, which is below the insulating washer to hold the Lattice bars is arranged.

However, this known arrangement has the disadvantage that not only additional Parts are needed, but that too. additional dielectric material in nearby. the cathode and the control grid must be attached, which is easy to do can lead to an increase in the capacitance between these electrodes and thus the performance the tube is affected.

It is also a disk-shaped holding part for electrical Discharge tubes proposed with the features described in the first paragraph been. About the type of electrode systems that reach the holder in this holder part or parts of it are not known.

According to the invention, this proposed mounting part is for mounting a control grid designed as a tension grid is used, and this is the case Control grid designed so that its spars at one end through one in the through the holine-laid mid-plane arranged, strut kept apart, which are not wider than the spar thickness and the openings for the spars and for the flat cathode connecting slots of the openings of the mounting part. It is preferred that the strut be embedded in the corresponding horn ends is. It is also considered advantageous that for holding the insulating disk counter bearings are provided on the bars near the strut.

On the basis of the exemplary embodiments of the drawings, the following is now the invention explained in more detail.

F i g. 1 shows a tension grid used in the insulating disk will; F i g. 2 shows a mica bridge; Fig. 3 shows a perspective view using an electrode assembly. the insulating disk.

In the tensioning grid shown in FIG. 1, the spars 1 are held apart at their upper ends by a band-shaped strut 3. the The strut runs with its broad sides parallel to that laid through the spars Middle plane.;, The: Strut can be let into the spar ends with both ends. .or but also simply butt-attached to the spar ends. The thickness of the Strut 3 can be equal to the thickness of the cathode; however, it is advantageous slightly smaller than the thickness of the cathode surrounded by the grid. Since the Strut 3 symmetrically to the one laid by the stiles Middle plane is arranged, it forms no obstacle to an exact fit at this end another electrode, which is placed over the upper end of the grid in its position outside of the grid turns 4 is to be brought. Counter bearings 5, each of which has the shape has a wire ring soldered to the corresponding spars are located on upper end of the grid turns to the grid between the insulating washers to bring into his position. These rings occur even though they are slightly stronger than the wire of the grid turns 4 are not particularly prominent. If desired, but can also other types of counter bearings which do not protrude over the lattice windings; be used. At the bottom of the grid of FIG. 1 are the height spacers represented by a pair of known clamps. Provided that on this one At the end of the grid the spar spacers do not introduce a cathode along the longitudinal axis of the grid can also change at this end of the grid Spar spacers can be used.

In FIG. 2 is an embodiment of the invention Isolation disk shown. The middle opening 10 of this insulating disk serves to accommodate a flat cathode, while the round openings 11 to accommodate of the tensioning grid surrounding the cathode are used. The openings 10 and 11 are with each other connected by the slots 12 through which the introduction of the shown in FIG Strut 3, which has a thickness approximately equal to the width of the openings 12, enables will. The outer openings 13, which have a larger diameter, are used to accommodate additional electrodes or to hold the insulating disk on a pair of support struts.

The in FIG. 3 shown embodiment shows the structure a tube using the insulating disk according to the invention according to FIG F i g. 2.

In FIG. 3 the anode is omitted. A flat cathode 14 is surrounded by a control grid 15 and a screen grid 16. The electrodes are held in place by two insulating disks 18. In Fig. 3 is only an insulating disk 18, and only partially shown. This insulating disk is the one shown in FIG. 2 shown insulating disk similar. The grid 15 has the one shown in FIG. 1 shape shown. The clamps 2 sit on the lower insulating disk 18, while the upper ends of the horns run through the upper insulating disk. The longitudinal movement of the grid is limited by the counter bearings in connection with the clamping bracket 2. The screen grid 16, which is also designed as a tension grid, tightly surrounds the control grid. At the upper end of the screen grid, the bars 25 are connected to one another by a pair of clamping brackets 26. The clamps 26 are as g at 27 in F i. 3 indicated, cut out in order to increase the insulation resistance of the arrangement. A pair of clamps 8 are used at the lower end; these clamps are bent out of the plane of the grid wires in order to create the necessary space or clearance for the adjacent clamps 2 of the control grille.

When building the electrode arrangement according to FIG. 3, the cathode first inserted into. The lower, insulating disk 18, whereupon the control grid pushed over it and set in-the -unteren Isolierstoffscheibe 18. so the screen grille can be lowered over the control grille and the upper insulating disk be brought into their position.

In the arrangement described there is a minimum of dielectric Material between the cathode and the control grid while reducing the Thickness of the clamp 3 to less than the thickness of the cathode contributes significantly to reduce the capacitance of the grid in relation to the remaining electrodes of the tube. The AasT formation of the other electrodes of the tube structure shown in FIG helps build up the space between the electrodes of this electrode reduce to a minimum.

Claims (3)

Claims: 1. Disc-shaped holding part for electrical discharge tubes with openings for receiving and holding electrode systems or parts thereof, in which individual openings serving to hold or hold electrode system parts are replaced by additional; breakthroughs not used to hold electrode system parts are combined in such a way that the breakthrough connecting two adjacent openings perpendicular to the connecting line of the centers of both adjacent openings is narrower than the largest dimension of each of the two adjacent openings in this alignment ring, marked by the use for Bracket of a. designed as a tension grid control grid, whose spars (1) are held apart at .einem end by a strut (3) arranged in the center plane laid through the spars, which is not wider than the spar thickness and the openings for the spars and for the Flat cathode connecting slots (12) of the openings (10,11) of the holder part. 2. Tension grid for use in a mounting part according to claim 1, characterized in that that the strut (3) is embedded in the corresponding spar ends. 3. Tension grid for use in a mounting part according to claim 1 or tensioning grid according to claim 2, characterized in that for holding the insulating disk on the lattice bars in the vicinity of the strut (3) counter bearings (5, F i g.1) are provided. . Into consideration Printed publications: Deutsche Auslegeschriften Nos. 1054 593, 1121228. In consideration Older patents drawn: German Patent No. 1175 798.