DE967150C - Method for fastening the cathode sleeve of a radio tube - Google Patents

Description

(WiGBl. P. 175)

ISSUED OCTOBER 10, 1957

RioriVIIIc / sig

It is already known, the cathode sleeve of a radio tube thereby in a bore of a insulating washer to fasten this sleeve at a short distance with a widening is provided, which after the introduction of the sleeve into a bore of the insulating Disc rests on one side of the disc, and that the protruding through the disc Sleeve end is deformed by means of a conical tool such that the sleeve edge is bent outward beyond the edge of the hole.

The invention proposes that instead of this latter operation by the To press the end of the sleeve protruding through the washer flat.

Thus, the invention assumes a method as known in which to attach the Cathode sleeve of a radio tube on an insulating disk provided with a bore, through which the end of this sleeve protrudes and on which it is held on both sides of the disc the sleeve before it is inserted into the disc at a short distance from the sleeve end.

709 712/27

next is provided with a widening, which after the introduction of the sleeve, the disc on Touched the edge of the hole.

The invention is characterized in that the end inserted through the disc Sleeve is flattened so that the sleeve end bends outward on both sides.

An embodiment of the invention is explained with reference to the drawing.

ίο The tube in Fig. ι is so far more common Design, as within the glass vessel ι a normal, generally designated 2 electrode arrangement is located. The cathode sleeve 3 is emitting electrons on its outside Coated with oxide and contains an insulated heating wire inside. That to the Holding rods 4 supported grid 3 and the anode 5 are mounted concentrically to the cathode. For the There are also holding rods running parallel to the cathode with their anode The ends as well as the ends of the holding rods 4 engage in the spacers 6 and 7. These spacers consist of commercially available, clear mica sheets, their lamellar and split direction parallel to the plane of these leaves.

Although the cathode sleeve can be inserted into holes in the mica at its ends, and observed with such a small margin that the cathode sleeve cannot move After several hours of use, the cathode sleeve may be loosened. The slightest play of the cathode sleeve in the mica bore allows vibration of the Sleeve and causes so-called microphonic disturbances in the output circuit of the tube. if the tube is exposed to constant vibrations like in an airplane or a Motor vehicle, even a slight vibration of the sleeve increases quickly because the holes in the Mica apparently gradually worked out until they become so large that there is a short circuit between Cathode and grid can enter. The mica will likely dehydrate on contact with the cathode at cathode temperature, so that the mica crumbles or disintegrates into powder. Under the influence of heat, the mica atomizes or loses its strength and splits into thin layers, the edges of which are easily ground into powder.

The method proposed according to the invention for fastening the cathode sleeve in mica avoids such grinding of the mica when the cathode is touched and is much simpler in terms of manufacture than the known method mentioned at the beginning. The sleeve 3 is first, similar to the known case, provided with a widening 8, which is preferably ring-shaped. This pearl-like expansion is at a certain distance from the end of the sleeve, so that when the sleeve, as shown in Fig. 2, is inserted into the mica bore, the expansion 8 touches the edge of the hole on the underside of the mica disk 6, while the end the sleeve protrudes through the mica disk. The end of the sleeve protruding through the mica disk is then pressed together with pliers or tweezers. The resulting edges 10 of the compressed part 9 run obliquely outwards, so that the sleeve 3 is fixed with respect to the mica disk (FIG. 3). The mica disk is therefore held under pressure between the widening 8 and the compressed end of the sleeve and, although the mica can be dehydrated by heat at the point where it touches the sleeve, it can no longer split and its edges can now can no longer be attacked. Many thousands of tubes with cathode sleeves of this type have been made without any evidence of cathode sleeve loosening after hundreds of hours of use at normal temperatures and voltages.

The effectiveness of this new cathode mount is also illustrated by the fact that in an embodiment in which the end of the sleeve was compressed without the widening 8 rested on the mica disk, that is, in the case of a tube in which the cathode sleeve is located could move in their longitudinal direction, considerable microphone interference and grid cathode short circuits observed.

Particularly good results have been achieved with the assembly of tubes of types 6 K 7, 6 J 7, 12SK7, 12SJ7, 6C5 and 6J5 can be achieved with where the spacers had a thickness of 0.2 to 0.4 mm and the cathode sleeves Nickel a diameter of 1.4 mm. The wall thickness of these sleeves was about 0.5 mm.

This improved fastening of the cathodes in their spacers can be fabricated easily and completely avoids the difficulties associated with loosening the Cathode sleeves occur.

Claims (1)

PATENT CLAIM: Method for attaching the cathode sleeve of a radio tube to one with a bore provided insulating washer through which the end of this sleeve protrudes and to which it is held on either side of the disc at which the sleeve is in front the introduction into the disc initially with a widening at a small distance of its end is provided, which touches the disc at the edge of the bore after the sleeve has been inserted, characterized in that the through the disc (6) inserted end of the sleeve (3) is flattened so that the end of the sleeve bends outwards on both sides. 1 sheet of drawings © 709 712/27 10.