DE1081976B - Magnetron tubes with variable frequency - Google Patents

Description

GERMAN

The invention relates to a variable frequency magnetron tube.

A magnetron tube of the type mentioned is already known, in which a magnetron tube coaxially enclosing the cathode Anode body is provided, along the circumference of which the vibration cavities are uniform are arranged distributed, and in the at least one end face of the anode body which the vibration cavities each separating web-like wall parts with on the circumference of a to the axis of the Anodeiibody concentric circle lying groove-shaped Notches are provided so that a groove-shaped connection between each two adjacent Vibration cavities are created, and in which an electrically conductive part is also provided, which engages in the groove-shaped notches and which is designed in this way and in relation to the anode body is movably arranged that when changing the position to the anode body, the size of the clear opening the groove-shaped notches can be changed.

The tube according to the invention differs from the known in that the electrically conductive Part is arranged rotatably about the axis of the anode body and on which the groove-shaped notches facing side, seen in the direction of rotation, has different dimensions.

In the case of the magnetron tube designed according to the invention, the main advantage is achieved that both the frequency of change of frequency (wobble frequency) l h d

Variable frequency magnetron tube

Applicant:

Jakobsbergs Elektrotekniska

Fabriker Aktiebolag,
Jakobsberg (Sweden)

Representative: Dr.-Ing. H. Ruschke, Berlin-Friedenau,

and Dipl.-Ing. K. Grentzenberg,
Munich 27, Pienzenauer Str. 2, patent attorneys

Claimed priority:
Sweden from September 1, 1954

Dipl.-Ing. Nils Erik Backmark, Enskede (Sweden), has been named as the inventor

The invention will _he described in conjunction with d drawings.

FIG. 1 is a longitudinal section through the axis of a magnetron tube designed according to the invention, while the amplitude of the frequency change is 3 °
can be observed very precisely and at the same time Fig. 2 and 3 different versions of the in the

the amplitude of the frequency change (independent groove-shaped notches engaging electrically on the oscillation amplitude of an axially

because of the body) can be very large. Furthermore, d

g g g

the leading part, the. to change the resonance frequency of the magnetron tube (wobble)

p g q g

the magnitude (amplitude) of the frequency change is easily given a rotary motion, dh i Vll d lkih lid Til

(p) qg

can be changed by adjusting the electrically conductive part in the axial direction, if desired with unchanged sweep frequency. In addition, with the help of the Magneöh invention i Wbbl

I _n the Drawing, 1 is an anode body, are arranged in the radially asked disks 2, which form an anode having twelve cavities vibration along with the anode bodies, which in the direction

i Kd 4

g gg g

tronröhre a wobble frequency can be reached, 40 of the cylindrical cavity 3, in which the cathode 4 di lli dh di Dhh d lkih id

solely by the speed of the electrically conductive part, the number of notches in the groove engaging, preferably tooth-like protruding parts of the same and the number of vibration cavities is clearly determined. Since the speed can be kept very constant, will thus the wobble frequency is also very constant, and there is both the largest and the smallest filling of the Groove-shaped notches between the vibration cavities for a certain axial on-position of the electrically conductive part can be made equal, the frequency change then also takes place between constant highest and lowest frequency values.

the magnetron tube is arranged, are open.

In the embodiment shown, the groove-shaped notches are replaced by an annular one Groove 5 is formed, which is cut into one end face of the anode body in such a way that between every two adjacent vibration cavities create a groove-shaped connection. On a bracket part 6, for the purpose of avoiding eddy currents during the rotary movement, for example a ceramic disc, conductive teeth 7 are provided, which are designed and arranged in this way are that they are the notches formed by the groove 5 between adjacent vibration cavities can fill in more or less.

0O9 51W26O

These teeth 7 can be arranged isolated from one another, as is done in FIG. 2 by the insulating ring 8 ', or, as shown in FIG. 3, attached to a metal ring 8, the outer diameter of which in the case of a tube according to FIG. 1 is approximately the outer diameter the annular groove 5 corresponds.

The teeth 7 can be given different shapes and sizes depending on the desired course of the frequency changes.

In Fig. 1, the pole pieces 9 and 10 of the tube are shown. Through an opening 11 in the pole piece 9 a shaft 12 is passed through which the mounting part 6 and thus the teeth 7 a Rotary movement can be granted. The cathode 4 with the holding and supply part 13 is through a Opening 14 introduced into the pole piece 10. A drive device in a vacuum is at 15 indicated within the envelope 16.

In the embodiment shown in Fig. 1, the groove 5 is arranged such that the groove-shaped Connections between the vibration cavities lie in those parts of the cavities which are from the cathode 4 are further away. With such an implementation, the frequency changes in essentially due to the action of the teeth 7 on the magnetic force line field in the rear part which causes vibration cavities. The groove-shaped notches can instead or in addition also be arranged closer to the cathode. By choosing the position of the notches in the radial direction a preferably inductive effect or a preferably capacitive effect can be achieved, with notches located further away from the cathode a more inductive one and with notches located closer to the cathode Notches a more capacitive effect is achieved.

In the case of a tube according to the invention with an electrically conductive one which is also arranged so as to be axially displaceable The drive device 15 is part of a per se known arrangement for simultaneous axial Displacement of the electrically conductive part replaced.

Claims (10)

Claims ·. 1. Magnetron tube of variable frequency with an anode body coaxially surrounding the cathode, along the circumference of which the vibration cavities are arranged evenly distributed, and in the case of at least one end face of the anode body with the web-like wall parts that separate the vibration cavities groove-shaped on the circumference of a circle concentric to the axis of the anode body Notches are provided so that a groove-shaped connection between each two adjacent Vibration cavities arise, and in which an electrically conductive part is also provided which engages in the groove-shaped notches and which is designed and related in this way is arranged movably on the anode body that when changing the position to the anode body the size of the clear opening of the groove-shaped notches can be changed, characterized in that that the electrically conductive part is arranged rotatably about the axis of the anode body and on the side facing the groove-shaped notches, seen in the direction of rotation, different ones Has dimensions. 2. magnetron tube according to claim 1, characterized in that the vibration cavities separating web-like wall parts each provided with several groove-shaped notches are, so that several groove-shaped connections between each two adjacent vibration cavities develop. 3. magnetron tube according to claim 1 or 2, characterized in that the electrically conductive Part has such a shape that in every position of this part approximately the same clear opening in all groove-shaped notches arise. 4. magnetron tube according to claim 3, characterized in that the electrically conductive part is also arranged displaceably in the axial direction. 5. magnetron tube according to one of the preceding claims, characterized in that the electrically conductive part has several tooth-like protruding parts or of several tooth-like protruding items that engage in the groove-shaped notches. 6. magnetron tube according to claim 5, characterized in that the number of tooth-like protruding Parts or individual parts are an integral multiple of the number of vibration cavities amounts to. 7. magnetron tube according to one of the preceding claims, characterized in that the electrically conductive part has such a shape that it has the groove-shaped notches in at least one position practically completely fills out. 8. magnetron tube according to one of the preceding claims, characterized in that the electrically conductive part is arranged on a shaft lying inside the tube. 9. magnetron tube according to one of the preceding claims, characterized by means which give the electrically conductive part an oscillating movement in the axial direction. 10. Magnetron tube according to one of the preceding claims, characterized by means, which give the electrically conductive part a very fast turning movement. Considered publications:
French patent specification No. 1 038 197,
040 274; U.S. Patent No. 2,506,955. 1 sheet of drawings . © ■ OOS 510/260 5.60