DE1294563B - Anode system for a magnetron tube with detuned circles - Google Patents

Description

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The invention relates to an anode system for a radial length of the spacers is through Magnetron tube with detuned circles made from radial slots in the metal tube, a cylindrical metal case and a straight line Number of symmetrical about the inner slope described with the drawings. Housing circumference distributed, radially inwardly forward 5 F i g. 1 is a partial section of the anode system of a jumping metal parts (flags) and in known magnetrons of the rising sun design; the every second of the between the flags Fig. 2 to 11 are used to explain

resonance cavities formed is less deep (rising anode systems according to the invention and Mögsun type). opportunities for their production.

There is already an anode system for a Ma- io F i g. 1 shows part of the anode system of a gnetron tube of the rising sun type known, in the case of the known, currently in use magnetrons every second of the magnetrons symmetrically about the inner tube of the rising sun type. It consists of resonance cavities distributed around the circumference of the cylinder housing by the metallic housing C, which is usually made of partial filling with conductive material less copper and is formed in the radial resonance depth (cf. US Pat. No. 2,655,616). 15 cavities 51, S 2 are formed, which are different in magnetron tubes of the wheel type, it is also have radial depths. On a less deep already known that the housing inner wall in the resonance cavity S 1 follows a deeper one between the resonance cavity S 2 delimiting the resonance cavities Distance has (see FIG. 20 milling or by a spark erosion process. USA.-Patent 2 520 955). Both methods are expensive and require costly

The aim of the invention is to create a unique tool of high accuracy, since the expertly, economically and using cheap sizes and shapes of the tools the sizes and Tools to be manufactured and still determine high shapes of the cavities. In terms of accuracy having anode system for a 25 supply by milling, the tools must be made Magnetron tube with detuned circles. a steel that can withstand the considerable forces

Starting from an anode system of the one mentioned at the beginning during the processing of the hot copper Art becomes this task according to the rising that has grown. Have such tools The discovery is solved by the fact that the (apart from the structure has a relatively short service life. Is a tool housing manufactured) plate-shaped and designed 30 to form a resonance cavity with each other all of the same flags have been designed in such a way that it is of the correct dimensions Longitudinal axis of the housing has a constant offset all around to create resonance cavities Stand-own housing inner wall used, other dimensions are required modification and that the less deep resonant cavities are very difficult. In making the resonance through Insertion of (are also separated from the cavities by means of a spark erosion process housing manufactured) additional metallic intermediate the tools of course no mechanical are formed, which are exposed by the housing forces, but are subject to considerable inner wall or from the respectively neighboring erosion and therefore have a very limited Flags near the inside wall of the housing run out or lifetime. You must therefore after a relatively short time Also inserted into the inside wall of the housing are 40 times to be replaced when the normal requirement and with a lateral distance from the flags less according to the exact dimensions of the cavities deep as the flags stick inwards. should be asked.

A particularly advantageous embodiment of the FIGS. 2 to 4 serve to explain an invention is characterized in that the inventive embodiment of an anode lugs are parallel-epiped-shaped and 45 systems for a magnetron of the rising sun type. the spacers run at an angle at the side, according to Fig. 4, the cylindrical copper

that after the insertion of the flags and the intermediate housing C, a number of relatively narrow sections, the side surfaces of each intermediate piece have slots C 1, the mutual spacings of which are parallel to the adjacent flag side surface. These run produced by broaching or pushing. 50 slots are used to hold flags, and theirs

The intermediate pieces are preferably selected so that the depth is selected so that these flags are set in such a way that each intermediate piece protrudes radially inward in the required manner on both sides. Parallel distance between the side surface of the intermediate epiped-shaped flag V (Fig. 4) workpiece and the side surface of the adjacent flag which is cut from copper precision rolled sheet or is the same size. 55 punched and inserted into the slots. Preferably

According to special embodiments of the invention, the lugs are welded in the slots, and the intermediate pieces can be made of solid material and laterally tapered intermediate pieces F

exist or be hollow. which preferably consists of a cylindrical tube T

The intermediate pieces preferably consist of radial slots, as in FIG. 3 shown in a U-shaped sheet metal bent together. 60 posed. Each intermediate piece is welded by welding. Another advantageous embodiment of the two invention with the inner wall of the housing C is characterized in that the ends of lugs V are connected so that between two on the intermediate pieces bent outwards and successive intermediate pieces each two because of the adjacent flag close to the housing flags are arranged. In this way, the inner wall is attached. 65 (Fig. 4) initially a less deep resonance hollow

According to a further advantageous execution space, d. H. a cavity in which between Form of the invention, the intermediate pieces are located from two flags, an intermediate piece, then a a metal tube, the wall thickness of which is equal to the deeper cavity in which there is between two flags

there is no intermediate piece, then again a less deep cavity, etc., so that around the Anode system around deep and less deep resonance cavities follow one another.

As shown in FIG. 4 shows the spacers inserted so that on both sides of each intermediate piece the distance between the side surface of the intermediate piece and the side surface of the adjacent flag is the same size. This distance is important insofar as it ensures that there is no danger when welding or soldering, to push one of the flags out of its correct position. Welding or soldering becomes a matter of course carried out after assembling the individual parts. The individual Parts held in their correct position by a suitable device (not shown).

The intermediate pieces can also be produced by extrusion.

5, 6 and 7 show another embodiment of the anode system according to the invention, in which the intermediate pieces that are to be extruded and one of which is shown in FIG. 6 is shown, are inserted and fastened in slots Cl additionally provided in the metal housing C.

8, 9 and 10 show a further embodiment of the invention in which the intermediate pieces are hollow and consist of copper sheet bent together in a U-shape. Such an intermediate piece F is shown in FIG. 8 shown in section. As in Fig. 9, the metal housing C has pairs of slots Ci for receiving the ends of the U-shaped spacers. The assembled anode system is shown in FIG.

FIG. 11 shows a modification of the embodiment according to FIGS. 8, 9 and 10.

The intermediate pieces identified by F ' are again made hollow and bent into a U-shape from sheet copper. However, in contrast to the embodiment according to FIG. 9 bent outwards and fastened, for example by welding, to the adjacent lugs near the inner wall of the housing. As a result, some of the slots that cannot be made in the metal housing without effort can be dispensed with.

In all embodiments, by choosing the depth of insertion of the lugs into the receiving slots Cl the radial protrusion of the flags inwards can be changed over a relatively large area. It flags of other length can also be used if resonance cavities for others Frequencies are to be created. This is comparatively cheap and easy to do. In addition, they are required to produce the individual parts of the anode system according to the invention Tools are relatively cheap and have a relatively long service life.

Claims (8)

Patent claims: 1. Anode system for a magnetron tube with detuned circles consisting of a cylindrical Metal housing and an even number of symmetrical over the inner circumference of the housing distributed, radially inwardly protruding metal parts (flags) and in which each the second of the resonance cavities formed between the flags is less deep (rising sun type), characterized in that the (manufactured separately from the housing) are plate-shaped trained and with each other all the same flags in those of the housing longitudinal axis all around a constant distance own housing inner wall are used and that the less deep resonance cavities by inserting additional (also manufactured separately from the housing) metallic spacers are formed by the housing inner wall or by the adjacent lugs go out near the inner wall of the housing or also into the Housing inner wall are used and with a lateral distance from the flags less deep than the flags stick out inside. 2. Anode system according to claim 1, characterized in that the flags are parallelepiped are formed and the spacers taper laterally in such a way that after the Inserting the flags and the spacers the side surfaces of each spacer respectively run parallel to the adjacent flag side surface. 3. Anode system according to claim 1 and 2, characterized in that the intermediate pieces so are used that on both sides of each intermediate piece, the distance between the side surface of the intermediate piece and the side surface of the adjacent flag is the same size. 4. Anode system according to one of claims 1 to 3, characterized in that the intermediate pieces consist of solid material. 5. Anode system according to one of claims 1 to 3, characterized in that the intermediate pieces are hollow. 6. anode system according to claim 5, characterized in that the intermediate pieces consist of a U-shaped sheet metal bent together. 7. Anode system according to claim 6, characterized in that the ends of the intermediate pieces bent outwards and in each case on the adjacent flag near the inner wall of the housing are attached. 8. anode system according to claim 4, characterized in that the intermediate pieces a metal tube, the wall pieces of which is equal to the radial length of the intermediate pieces radial slots of the metal tube are made. 1 sheet of drawings