DES0029429MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: July 23, 1952. Advertised on October 27, 1955

GERMAN PATENT OFFICE

The invention relates to an electron tube for very high frequencies, in particular a traveling wave tube. In such tubes it is common to use a delay line, e.g. B. in the form of a wire helix, to be held within a tubular support part. It has proven to be useful a glass tube or other tubular support made of insulating material, ζ. Β. a ceramic tube, to use, which at the same time forms the outer envelope of the vacuum vessel. If now one Such a delay line is placed inside an insulating tube, so affect the material constants of the respective insulating material, the properties of the delay line. It is in in many cases it is undesirable to choose the proximity of the wire helix to a glass tube so closely because the dielectric constant of the glass has a considerable influence on the degree of delay of the line. Has for this purpose you have already attached other supporting parts between the glass tube and the helix, but the Structure becomes extraordinarily complicated. The invention eliminates these disadvantages and enables to hold the helix directly on the glass wall of the tube, the influence of the glass is relatively low.

A traveling wave tube is already known in which a helical delay line inside

509 577/114

S 29429 VIII cI'2Ig

half of a tubular tragli'ili's, which is attached to the glass gelialterl is. The glass tube is thereby on the side facing the delay line provided with ribs that indentations into the Glass wall are made, on the insides of which the coil rests. In contrast, there is the invention therein, dall the ribs by weakening the intervening parts of the wall of the tubular support member are formed.

ίο Hei the known arrangement can be the To achieve ribs only through a heat treatment with deformation of the glass tube which the dimensional accuracy for the aging point of the helix is no longer guaranteed. On the other hand the contact points of the delay line on the inner wall of the tubular Supporting element precisely defined, because the recesses between the tilts are only removed by removing them formed by material without the need for precision at the support points Inner surfaces can be changed.

One or more ribs can be arranged in the form of a helix. Tn this Even a single tip is sufficient if the slope is selected accordingly. It is multiple expedient to choose the slope with a helical arrangement of the ribs so that they are opposite runs to the spiral slope. The I lerstelhing of such a profiled support part can be done by carving out corresponding indentations from a cylindrical glass tube will. This learning can be done either by grinding, or In the case of glass tubes, the glass can be etched out with the aid of hydrofluoric acid. The invention also enables To use a glass tube, which in itself has a thick cross-section without affecting the electrical Properties of the glass have a strong influence on the delay line. This is because

1) 0 dal.l the contact points only very small between Glass wall and delay line are. On the other hand, the strength of the glass tube not significantly affected by these depressions.

Λ11 I land of the drawing aims to explain the invention in more detail explained.

In Kig. ι an exemplary embodiment is illustrated, which illustrates a glass wall in cross section. The glass tube 1 is inside Etched in such a way that four webs remain, which are aligned with the helical delay line serve. The ribs are slidable at the end Make \ vor <'ii as narrow as possible.

Iu Kig. 2 illustrates an exemplary embodiment, in which indentations are also etched into the outside of the glass tube. It This is a glass tube 2, which has three ribs 3, 4 and 5 on the inside, on which the coil rests, while the curves 6, 7 and 8 are provided on the outside, which can serve to accommodate a suitable damping layer. It is expedient to proceed as follows: that in the places where ribs remain on the inside, also on the outside When inserting windows, bars remain in place in order to be able to maintain the necessary stability. While the ribs 3, 4 and 5 extend the entire length of the delay line, they are Attenuation windows 6, 7 and 8 on the outside are only provided locally and are merely corresponding dimensioned the desired length of the damping stretch. This creates a high mechanical Strength of the tubular Tragtciles achieved.

Instead of three or more webs, as is illustrated in FIGS. 1 and 2, it is also possible, according to Fig. 3, to leave only a single glass web, which is helical with accordingly large slope in the tuners of the tube. This means that every turn of the delay line lies only at one point on the glass wall. The slope of the glass bridge is to be dimensioned in such a way that, according to the rigidity of the wire helix, it does not sag at any point.

Claims (4)

PATENT CLAIMS: 8S 1. Electron tubes for very high frequencies, especially with traveling wave tubes one inside a tubular support part made of insulating material, in particular a glass tube, supported, preferably helical Delay line in which the tubular support part on the one facing the delay line Side with ribs is given away, on which this rests, while it is on the rest Places at a distance from the supporting part runs, characterized in that the ribs through Weaknesses of the intermediate 'parts of the wall of the tubular support member formed are. 2. Electron tube according to claim 1, characterized in that one rib or more Ribs run in a helical shape. 3. Electron tube according to claim ι or 2, characterized in that the depressions formed between the ribs by local etching of a preferably cylindrical glass tube are. 4. Electron tube according to claim 1 to 3, characterized in that in addition on the the delay line opposite side of the tubular support partcs further depressions are provided locally, which preferably oppose the inner weak points. 115. Referred publications:
French Patent Nos. 992 458,595; German patent specification No. 832 781. 1 sheet of drawings © 509 577/114 10.55