DE1074162B - - Google Patents

Description

GERMAN

As is known, there is a cavity resonator as an interaction circuit for a single-circuit magnetron tube from a metallic toroidal hollow body of, for example, rectangular cross-section, whose The wall part facing the axis of rotation of two interlocking groups of parallel to the Axis of rotation extending conductive members is formed, of which the members of a group with their upper ends, the members of the other group with their lower ends (roots) at the respectively adjacent, are rigidly attached to the wall of the cavity resonator running perpendicular to the axis of rotation, while the free ends of the links of each group are connected to one another by a conductive ring are (interdigital interaction circle). It is known to use such a resonator to increase to provide vibration stability with two conductive rings, each soft in phase during operation Connect the links of the anode together. The arrangement of these has proven to be particularly advantageous Rings on the free ends of the anode members have been shown.

Especially with resonators for relatively high frequencies (e.g. 4 GHz and above), the anode members of which have relatively small cross-sections, the high-frequency technology just mentioned leads advantageous arrangement of rings to considerable technological difficulties. Namely there the areas where the rings can be soldered to the anode members are only small the risk of failure of the soldering, and all the more so as none during the soldering process large forces may be exerted on the anode system in order to avoid deformation. A Another major disadvantage of the known structural design of such resonators is that that the soldering points are located exactly where the highest temperatures during operation of the magnetron tube appear. This necessitates a limitation of the power loss and thus also of the useful power of the magnetron, not only because of the danger of melting the solder, but also because of the Avoidance of the occurrence of disturbing vapor pressures.

The invention relates to a structural design of a resonator of the type in question which eliminates the disadvantages mentioned. As a technical advance, it brings a reduction in size of the committee in the manufacture of the resonator and thus a cheaper magnetron tube as well the possibility of increasing the power loss and useful power given the dimensions of the resonator with himself.

A resonator designed according to the invention

Toroidal cavity resonator

as a circle of interaction
for single-circuit magnetron tubes

Applicant:

"Patelhold"

Patent utilization & electrical holding

A.-G.,
Glarus (Switzerland)

Representative: Dr.-Ing. E. Sommerfeld, patent attorney,
Munich 23, Dunantstr. 6th

Claimed priority:
Switzerland from November 3, 1958

Alfred Christen, Baden,
and Dr. rer. nat. Dieter Weber, Killwangen, Aargau

(Switzerland),
have been named as inventors

is characterized in that each ring with its associated group of members from a Piece consists, which is rigid with the roots of the limbs on the respective wall of the cavity resonator is attached.

On the basis of the figures, some exemplary embodiments for the training just identified will now be presented explained.

Fig. 1 a shows a resonator in axial section. The one recessed in the metal body 1 acts as a resonator Cavity 2 along with the anode members. Of these, only the two anode members are in the figure 5 and 6 drawn, which at their roots 7 with one or the other of the cavity delimiting, perpendicular to the axis of rotation side wall of the body 1 are rigidly connected. At their free ends, the anode members of each group are connected to one another by a conductive ring 3 and 4, respectively tied together. As FIG. 1 b shows more clearly, the ring 3 exists together with the one assigned to it Group of anode members 5 from a piece of crown-like shape, which at the limb roots 7 is to be connected to the respective side wall of the hollow body 1, for example by soldering. The hollow body 1 (see. Fig. 1 a) has a

909 727/41 *

circular cylindrical axial bore, which can be widened conically at the end faces. Through this, that the anode members have roots that are thickened radially outwardly occurs when soldering each Piece with the associated side wall necessarily the required distance of the piece from the other Side wall of the hollow body.

Fig. 2 shows another embodiment for the crown-shaped piece, which is good for manufacture suitable in small numbers. The radial thickening of the anode members 5 at their roots 7 is achieved here by folding the metal strips forming the anode members one or more times. the Contact surfaces that arise between the individual layers of each strip are advantageously soldered, be it on the occasion of the connection of the piece with the hollow body, be it already in advance a special process.

To increase the contact surfaces between the anode members and the side walls of the hollow body limbs roots can be kept wider than the anode members themselves When exceeding the width of 360 ° in the circumferential direction. N (n = number of anode elements), it is necessary, however, crown-shaped during the engagement of the two Pieces to temporarily deform the anode members radially. If copper is used as the material for the pieces, this is easily possible, since such deformations can be reversed at the latest when the pieces are soldered into the hollow body.

It can be seen from the figures that both the hollow body and the crown-shaped pieces in can be designed in a way that meets the requirements of rational volume production. The production of resonators according to the invention is much less labor-intensive possible than the construction of the multi-circuit resonators used in the so-called multicavity magnetron tubes.

Claims (3)

Patent claims: 1. Toroidal cavity resonator as an interaction circle for single-circuit magnetron tubes, the wall part of which faces the axis of rotation of two interlocking groups of extending parallel to the axis of rotation conductive limbs "is formed, of which the limbs of one group with their upper, the Members of the other group with their lower ends (roots) on the respectively adjacent, perpendicular to the axis of rotation wall of the cavity resonator are rigidly attached, while the free ends of the links of each group together by a conductive ring are connected (interdigital interaction circle), characterized in that each ring with the group of members belonging to it consists of one piece, which with the roots the limb is rigidly attached to the respective wall of the cavity resonator. 2. Resonator according to claim 1, characterized in that that the limbs are thickened radially outward at their roots. 3. Resonator according to claim 2, characterized in that each link consists of a metal strip and the radial thickening at the root of each link by folding the metal strip is formed. 1 sheet of drawings © 909 727 / 4141.60