DE1294561B - High-performance magnetron tubes for very high frequencies - Google Patents

Description

1 2

The invention relates to a high-performance When the magnetron tube according to the invention can

magnetron tube for very high frequencies with a partial circular cylinder containing the cathode heater Cathode and the cathode arrangement on one side of the anode block surrounding the anode block, in which the emitting are attached, the centering ring very light Cathode part in the central cavity of the 5 with the required accuracy relative to the Anode blocks (central anode cavity) and the anode cavity can be arranged. if Cathode heater outside this cavity before then subsequently the other subassembly of its one end face around a finger-shaped part of the opposite side of the anode block the cathode arrangement is arranged and is sensed in the through the anode cavity and the outer end opposite the cathode heater is inserted into the centering ring with the centering finger the cathode arrangement is plugged with a Kühleinrich-, the cathode is easily connected to the device provided and the cathode arrangement via zen elements determined by the centering ring, which traverses part of the bulb. Since here only the centering finger and the Form (vacuum vessel), vacuum-tight with the adjoining emitting cathode part Anode block is connected. 15 are passed through the anode cavity

With known magnetron tubes of this type, only these parts need a smaller one the whole cathode assembly stands out to have a diameter than the anode cavity, only part of considerable length that at the end of the assembly is the cathode on both the cathode heater and then the sides of the anode block supported so that they are with emitting cathode part carries. When together 20 good mechanical stability is maintained and construction of the tube, this part is secured against vibrations. Anode cavity plugged into the cathode heater. An advantageous development of the invention the opposite side protrudes and the object is that the tubular piston emitting cathode part inside the anode - at least one rigid with the cathode assembly cavity lies. The entire cathode assembly is 25 connected, has elastically deformable part, an axial displacement of the cathode assembly is attached to the end provided with the cooling device. This version does not allow any exception. This training enables the sufficient mechanical stability, because the cathode is equal to thermal expansion without impairment arrangement, especially under the influence of strong movement of the central position of the cathode. Shocks or great accelerations, 30 In some cases it is desirable to change the location of the can vibrate, thereby ensuring proper operation of the cathode assembly after assembling the the tube is disturbed. To be able to adjust the tube. This is the case with the

When assembling these known tubes, magnetron tube according to the invention is according to one it is also difficult to make the cathode with the advantageous configuration possible in that Required accuracy in the anode cavity to 35 between the cathode assembly and one with center. Finally, there is the restriction of the rigidly connected part of the anode body that at least the tube piston on the side of the cathode heater is fitted with an adjustment arrangement lying cathode cap has a smaller diameter that tilts the cathode arrangement must have a diameter greater than that of the anode cavity in order to define a part which is elastically deformable by the elastically deformable part can be inserted through this. 40 th point allows.

The aim of the invention is to provide embodiments of the invention are in the

High-performance magnetron tube shown at the beginning of the drawing. In it shows given type, which in a simple manner with great ge F i g. 1 the complete structure of a university

Accuracy can be assembled without power magnetron tube according to the invention in Limitations on the diameter of FIG. 45 a schematic longitudinal section; Cathode caps exist, and in which the cathode F i g. 2 A and 2 B show two cathode assemblies

after assembly with very good mechanics, which is the case with the tube from FIG. 1 usable nical stability in the anode cavity are z- are;

is tied. F i g. 3 shows a schematic longitudinal section

According to the invention this is achieved by another embodiment of the invention the cathode arrangement consists of two partial arrangements which follow one another axially and in accordance with the direction. 4 a schematic longitudinal section through

stands, of which one sub-assembly is another embodiment of the invention-emitting Cathode part with at least one magnetron tube according to the present invention.

The cathode cap as well as the cooling device contains 55 The high-performance magnet shown in Fig. 1 and at its inner end in an axial tron tube contains a cylindrical cathode direction extending centering finger ends arrangement 1, which, as in Fig. 2A to be more precisely ( first subassembly) and the other subassembly, consists of a lower subassembly 1 'and an upper subassembly 1 "in its central anode cavity -End with one from the centering finger of the first part trier finger 3, to which an arrangement penetrated centering ring adjoins completely emitting cathode part 2, while on is (second sub-arrangement), and that the training other end a cooling device 4 is attached, and arrangement so is that the cathode heater surrounds the centering fingers, for example, for liquid cooling t and the two Teilanordnun- 65 is directed. Any other suitable type can also be used in each case by means of elements that are used as part of cooling devices, both of which form tubular pistons, vacuum-tight with, for example, a set of cooling fins for air cooling. Anode block are connected. This end of the sub-assembly V is with a

3 4

Part of the tubular piston connected, which consists of a F i g. 2 B shows in detail the interlocking

Insulating ring 7 and metal parts T and 7 "and the parts of the subassemblies 1 'and 1" of the

at the other end to the pole pieces 6 of the anode-cathode in the embodiment of FIG. 1. In

blocks is welded or soldered on. in this case the centering ring 10 serves as the second

The sub-assembly 1 ″ contains the cathode heater 5 cathode cap, and he exercises his at the same time 14 and ends in a centering ring 10. The position centering function. In this embodiment of this sub-arrangement in relation to the anode 5, the centering ring 10 consists of a nonwoven through another part of the bulb-emitting material. The centering finger 3 is predetermined made of an insulating ring 13 and metal, preferably made of the same material as the parts 13 'and 13 "exists and also made on the polio centering ring 10. It therefore does not exist shoes 6 is welded or soldered on. The one-piece zen with the emitting cathode centering ring 10 sits at the end of a cylinder 11, the part 2, but is attached to it in a suitable manner, is extended by a tube 12. for example by soldering, welding or the like.

The cathode heater 14 is at its end 15 at the diameter of the cathode caps 8 and 9 attached to the centering ring 10, while his other 15 or 10 can be chosen as large as this for

End 16 with a part of the tubular piston to achieve the optimal operating conditions of the

forming connecting ring 17 via a rod 17 'ver magnetrons is most favorable. The diameter

is bound. The connection ring 17 is different from the one with these caps is not through the inner

the cathode conductively connected tube 12 is limited by the diameter of the anode cavity as it an insulating ring 18 isolated. The heating current flows from ao during assembly that is not required

the connection ring 17 via the rod 17 'to the cathode caps through the anode cavity back

Cathode heater 14. The second connection for the carry out.

Cathode heater can be on the tube 12 or on the cylinder 11 acts as a heat shield between

The lower end of the cathode assembly is attached to the cathode heater 14 and the tubular envelope. He

be. This connection also provides the cathode - it is heated to a fairly high temperature and

connection is. The cylinder 11 acts as a heat is preferably made of a material which

screen between the cathode heater 14 and which absorbs the gas that occurs during operation of the tube

Tubular flask. electron bombardment or desorption

The sub-assembly 1 "can be exposed with respect to the walls of the anode or the tubular bulb.

Anode block 5 is placed under eye control from the lower 30. To simplify the drawing are

Part of the arrangement are aligned so that the high-frequency chokes are not shown, which

the centering ring 10 is centered very precisely. It will be provided for the cylinder 11 for a long time. These

then by welding or soldering in the tubular chokes are required to avoid a loss

piston part 13, 13 ', 13 "attached. When the partial high-frequency energy along the Kathodenanord-

Arrangement 1 "is attached to prevent centering.

finger 3 of the lower subassembly 1 'in the The wall thickness of the cylinder 11 is chosen so that Centering ring 10 inserted, its inner surface with that this cylindrical part a sufficient is machined with high precision. So that the joint has elasticity, so that it is through an adjustment structure is facilitated, the lower part of the internal device has to be deformed for centering surface of the centering ring 10 rounded, and the 40 can, the in F i g. 1 and 2 are not shown; the Centering finger 3 is somewhat conical. The centering application of this adjustment device is in Verfinger 3 can slide freely in the centering ring 10, linked with FIG. 4 explained. She allows an abmit Adjustment of the position of the cathode in is recorded. To reduce friction with respect to the anode block.

between the centering finger 3 and the centering ring 45 F i g. 3 shows another embodiment at 10 3 grooves are incorporated in the centering finger, which allows free thermal expansion of the cathode so that the contact surface between the parts 3 means is enabled that are outside the cathode and 10 is reduced. These grooves could also be arranged and attached to the tubular piston the centering ring 10 instead of being brought into the centering, that is to say at a point that is also in operation during operation finger 3 be attached. The cathode assembly 150 of the tube remains cool. The two arrangements Like the centering ring 10, it is made of molybdenum from FIG. 1 and 3 common parts are with the posed. provided with the same reference numerals.

F i g. 2A shows details of the interlocking. When assembling the tube, the centering End parts of the sub-assemblies 1 'and 1 "at finger 3 of the sub-assembly 1' thereby firmly with the one embodiment. The emitting cathode 55 subassembly 1 "connected that it is connected to the Part 2 of the lower subassembly 1 'is welded or soldered to a centering ring 10, emitting coating provided hollow cylinder, the upper end of the cylinder 11 is fixed with two Cathode caps 8 and 9 are made up of either disks 21 'and 21 "connected. These disks made in one piece with the hollow cylinder or are made of sheet metal, which is sufficient this can be welded or soldered. The 60 thin is that elastic deformation of the two Cathode caps are made in a known manner so that disks are possible. Form the two discs works that the emissivity decreased therefore a movable parallelogram, which is a free one is. The emissive coating is between the shifts of the entire cathode assembly in FIG Cathode caps attached. The sub-assembly 1 'allows the axial direction. On the other hand, that prevents ends in the centering finger 3. The lower end 65 parallelogram each radial displacement of the cylinder The upper sub-arrangement 1 ″ consists of the center 11, so that the concentric position of the cathode trier ring 10, which is supported by the cylinder 11 is maintained. The discs 21 ', 21 ", the will. Cylinder 11, the centering ring 10 and the centering

fingers 3 are machined on the same jig so that the best possible concentricity is obtained. The assembly of the tube then takes place as follows: The disks 2Γ and 21 "and the centering ring 10 are welded to the upper subassembly 1", which consists of the centering ring 10, the cylinders, the insulating ring 18, the connecting ring 17 and the evacuation nozzle (the one in the drawing is shown closed). This assembly is then machined again so that the great precision for the inner surface of the centering ring 10 is obtained. It is then connected via the piston part 13, 13 ', 13 "to the anode assembly, which consists of the parts 5 and 6. The lower subassembly 1' is inserted into the piston part 7, T, 7", with the centering finger 3 in the Centering ring 10 is inserted. Parts 3 and 10 are welded together, and the piston is then tightly closed by joining parts Γ and 7 ". Ao

F i g. Figure 4 shows an embodiment in which the position of the cathode in relation to the anode block can be adjusted after assembling the tube. As with the previous ones The embodiments shown in the figures, the cathode assembly consists of two sub-assemblies, the lower subassembly 1 'connected to the cooling device 4 and at its upper end by the Centering finger 3 is complete. The upper subassembly 1 ″ of the cathode assembly contains the Cathode heater 14. It consists mainly of the cylinder 11, which acts as a heat shield for the Cathode heater 14 and serves as a carrier for the centering ring 10. The centering finger 3 is in the Centering ring 10 fastened by screwing in or in some other way.

The cylinder is secured by an insulating washer40 completed which the electrical insulation between the cylinder and the upper part of the Represents tubular flask. It is therefore possible to use the upper end of the cathode assembly from the Metal tube 12 is made to use a heating wire connection without an insulating one Connector 18 is required. The free expansion the cathode arrangement in the axial direction is made possible by the elasticity of a thin metal disc 22 enables the Z-shaped bent edges of which are welded on the one hand to the cathode arrangement and on the other hand are connected to the anode block via the tubular piston. so

The adjustment of the position of the cathode is done by hand by means of the arrangement 31 to 36, which is attached to the is attached lower subassembly 1 '. This adjustment is done by deforming a thin-walled, elastic cylinder 31, which at the upper end via a solid ring 35 with the subassembly 1 ', while at the lower end it is connected to a rigid metal ring 34 of the tubular piston is welded on. Several holes are drilled into the ring 34 for adjusting screws 32, 33 etc. are used. The ends of these screws are in contact with the cylinder 36, which is to the sub-assembly 1 'belongs and the cooling device 4 surrounds. It's easy to see that through Tightening or loosening the screws 32,33 etc. the lower end of the cylinder 31 with respect to the subassembly Γ is moved. The upper end of the cylinder 31 tries to move in the same way, whereby it takes the sub-assembly 1 'with it. The whole cathode arrangement swivels, wherein the pivot point is at the sealed connection between the cathode assembly and the disc lies. This adjustment of the entire cathode arrangement changes the position of the emitting one Cathode part 2 in the anode cavity.

Claims (8)

Patent claims: 1. High-performance magnetron tube for very high frequencies with a circular cylindrical cathode and an anode block surrounding the cathode, in which the cathode emitting part in the central cavity of the anode block (central anode cavity) and the cathode heater outside this cavity in front of one end face around a finger-shaped part of the cathode arrangement is arranged and in which the cathode heater opposite outer end of the cathode arrangement with a cooling device and the cathode assembly via elements that form part of the tubular envelope (Vacuum vessel), is connected vacuum-tight to the anode block, thus drawn, that the cathode arrangement consists of two sub-arrangements which follow one another in the axial direction, one of which is a sub-arrangement the emitting cathode part (2) with at least one cathode cap (8) and the cooling device (4) contains and at its inner end in an axial direction extending centering finger (3) ends (first subassembly) and the other subassembly in its end adjacent to the central anode cavity contains the cathode heater (14) and this end with a centering ring penetrated by the centering finger (3) of the first subassembly (10) is completed (second sub-assembly), and that the design and arrangement is such, that the cathode heater (14) surrounds the centering finger (3) and the two sub-assemblies respectively for itself via elements that form part of the tubular piston, vacuum-tight with the Anode block are connected. 2. High-performance magnetron tube according to claim 1, characterized in that the centering ring (10) at the same time forms one of the cathode caps. 3. High-performance magnetron tube according to claim 2, characterized in that the Diameter of the cathode caps (8, 10) each greater than that of the central anode cavity is. 4. High-performance magnetron tube according to claim 1, 2 or 3, characterized in that the centering finger (3) is slidably arranged in the centering ring (10). 5. High-performance magnetron tube according to claim 1, 2 or 3, characterized in that the centering finger (3) is welded to the centering ring (10). 6. High-performance magnetron tube according to claim 1, 2 or 3, characterized in that the centering finger (3) is screwed into the centering ring (10). 7. High-performance magnetron tube according to claim 5 or 6, characterized in that the Tubular piston at least one elastically deformable, rigidly connected to the cathode arrangement Part (2Γ, 21 "or 22) having an axial displacement of the cathode arrangement allowed (Fig. 3, 4). 8. High-performance magnetron tube according to claim ?, characterized in that between the cathode arrangement and a part of the tubular envelope that is rigidly connected to the anode body an adjustment arrangement (31 to 33) is attached, which tilts the cathode arrangement around a point defined by the elastically deformable part (22) (Fig. 4). 1 sheet of drawings 909519/394