DE1541091B1 - Elongated run-time tube with a cooled damping element - Google Patents

Description

1 2

It is an elongated transit time tube with a sizing is absorbed. The electron beam traveling field interaction circle known, that of in generating device 12 is preferably an electrical beam direction successive cavity electron gun according to Pierce with a focusing resonator is formed and in which between two in anode 18, a main acceleration anode 19 and Beam direction successive transverse walls 5 of an electron emission surface, not shown at least one end face on the transverse walls or cathode.

lying damping element and in one transverse The details of the separators 16 and 17 are

wall through which a coolant flows in FIG. 2 and 3 shown in more detail. It is common at Channel for the discharge of the in the (the) attenuation of a Lauffeldröhre, as shown in F i g. 1 to 3 element (s) generated heat is provided (bri- io is provided, a number of damping elements, such as 20, table patent specification 850 521). 21, 22, 23, both in the upstream separating

In such tubes it is common to have the attenuator 16 as well as in the downstream separator Solder elements to the adjacent transverse walls, 17 to use. The special purpose of the damping and according to the invention, this additional step becomes fastening elements in the upstream separating member 16 thereby made redundant in manufacture, 15 consists in the entire electromagnetic that the coolant channel is designed and the vibrational energy in the input part 14 to between the damping element (s) and the sorbed and only the current density modulated electrical coolant channel lying part of the transverse wall so thin the electron beam to the downstream part of the tube is dimensioned that this transverse wall part below the let through to the tube pressure in a known manner of the coolant is deformable and the (the) 20 to stabilize operation. The special purpose of the damping element (s) resting on it by damping elements in the downstream separator the pressure of the coolant fixed against the other 17 in a forward wave amplifier according to FIG. 1 Transverse wall is (are) pressed. This way, every backward wave in the jet can be the or the damping element (s) inwardly downward part 15 to completely absorb can be fixed in a non-positive manner, which also stabilizes the tube in a known manner, in a simple way thermal expansions. 1, in the one

can be caught, and is used as an additional side clover-type running field course and Another advantage is that the heat transfer is a number of essentially circular periovom Damping element for coolant through the discher cavities 30 of the clover leaf shape is weaker wall is better, so that the 30 each cavity 30 by two at a distance from to be absorbed power opposite known transverse walls, such as 24, 25, 26 etc., Cushioning elements can be increased. Are defined. Each of these transverse walls has a ring

Special embodiments of the invention are the shaped beam passage opening 32 and a curved one Refer to subclaims. Four-element shamrock side wall, like 33, on that

The invention is to be explained in general with the aid of the drawing between the transverse walls of each cloverleaf sewer; it shows cavity 30 is soldered and the four by 90 ° spatial-Fig. 1 contains a partially sectioned side view borrowed from one another, offset, radially oriented and a traveling wave tube with coolant-cooled, inwardly directed fingers 33 '. The transverse damping elements, walls 24, 26, etc. with the exception of the one partition Fig. 2 shows a stepped section along the line 40, the transverse wall of the members 25 has a number of coupling 2-2 in FIG. 1, openings such as 34. "Fig. 3 is a stepped section along the line, the separating member 16 is formed by the 3-3 in Fig. 2, last cloverleaf cavity 30 with four 90 ° spatial ..- F i g. 4 shows a stepped section through another borrowed mutually offset damping elements embodiment of a coolant-cooled separator 45, 20, 21, 22, 23 is loaded, which is arranged in cut-out member according to the invention, parts at the ends of each finger 33 ' View one are. If these elements are hybrid amplified tubes along their major surface (a tube with a klystron section and a running field section soldered to the transverse walls 24,25), they can process about 10 kW of average power before they are shown in FIG. 6 a stepped section along the line 50 can be destroyed by flashovers if they loosen 6-6 in Fig. 5, or by simple overheating by un-Fig. 7 shows a stepped section along the line of sufficient cooling. If, according to the invention, a 7-7 in FIG. 6, coolant channel, such as 28, is used, the Fig. 8 of which is another embodiment of a cross section adapted to the main dimensions or the main vibration energy absorbing part between 55 surface, for example 22 ', of the damping elements of the klystron path and the traveling field path of a 20 to 23 and of the damping hybrid amplifier tube and elements only through a thermally conductive ver-Fig. 9 is a section along the line 9-9 in FIG. 8. The malleable wall 29 is separated, a better one is achieved can be achieved. End and a beam catcher 13 on the beam. Between these two watts can be easily processed when coolant parts of the tube 11 lie parts 14 and 15 of a duct in the vicinity of the main surface of the clover-leaf type running field interaction circle. Between the two ends of the tube according to FIG. 1 65, damping elements with good thermal conductivity can be arranged, as in FIGS. 2 and 3, one or more separating elements, such as 16, 17, can be shown.

be arranged in which electromagnetic A typical example of lossy damping

Vibration energy in a known manner for stabilizing materials from which disks 20 to 23 are made.

ORfGfNAL INSPECTED

3 4

is made with carbon-loaded clay-way connected to each other, the still earth ceramic. Other damping materials that are refined. In the embodiment according to better thermal conductivity than with carbon. 2 two tubes 35, 36 made of copper have loaded alumina ceramics, loaded porous or the like. Have been used to connect adjacent cooling beryllium oxide ceramics and loaded forsterite channels 28 to one another so that one ceramics, however, in the case unidirectional flow of beryllium oxide coolant is possible. Cooling ceramics require special closed ovens, medium, such as water from the public water to supply the poisonous vapors that occur during soldering, is eliminated via a T-piece 37 via tubes, and in the case of Forsterite ceramics 38, 39 made of copper or Like. Easily break or jump in channels 28 over Zuan of the soldering point, because io guides 40 which are arranged in widened flanges for resistance to thermal shock and against 41 of the transverse wall 25. The cooling shock is very small. By using coolant channels 28 are widened so that they can fit into the central channels and omitting the soldering process. 2 can be seen, and avoided, and in the tube construction there are 15 connecting channels, such as tubes 35, 36, with greater selection options without smaller dimensions being used to reduce the cooling agent used when connecting ceramics to metal the two remaining channels 28 to be encountered difficulties. Usually, a similar outflow construction is used to supply the coolant from the public water supply with a T-piece 42 in connection with pipes 43, 44 with hot tap water from the public water supply under a pressure of about 20 to draw the coolant out of the Be-5,6 kg / cm ² , and accordingly the cooling area of the separator can be derived. At the outlet center inlet (T-piece 37) with some form of public guidance according to FIG. 2 and 3, the downstream water supply is connected, preferably lying transverse wall of the two channels 28 from via a common manifold, usually formed by disk-shaped copper plates 45, which is used and used to have all coolant-cooled parts 25 sets 46, which are in suitable detached of the device with one another connect to. Also any ribs 47 of the transverse wall 25 in the illustrated a water pump, with which an effective hydro-way are used. The production of the cooling static pressure of 2.8 kg / cm ² on the deformation channel 28 in the embodiment according to FIG. 1 is bare walls can be maintained, so it can be quite simple, only one area will of course be used to supply the cooling medium according to the shape of the damping elements 20; the expression »more effective hydro- to 23 milled out. The separating member 17 can just as static pressure be used to define the cooling as the separating member 16 and defining the medium pressure which is exerted on the deformable wall by the pressure of the coolant, as shown in FIGS. 1 to 3 , represents is.

that flows through the coolant channel. If, instead of the separating elements 16 and 17, a separating element according to FIG. 4 can be used, for example, instead of the deformable wall, such as 29; if it is connected to a vertical pipe, there would be the advantage that a single pressure of 2.8 kg / cm ² from the connecting channel through the channel 28 is required instead of two separate flowing coolants of a water column of 27.5 m as in the embodiment according to balance. The phrase "more effectively 40 Figs. 1-3 is the case. The composite hydrostatic pressure is therefore suitable for the separation element according to FIG. 4 consists of a number of the pressure exerted by the flowing coolant to the lossy damping elements 50, which space. Of course, the numerical example of Hch is offset from one another, preferably equal to -2.8 kg / cm ^{2, and is} not intended to be limiting, because there are changes in the affected parameters 45 that are moderately distributed around the axis of the alternating field of action, as in FIG. 2 is possible, through the effective pressure forces on which is shown, namely damping elements clamped in clover-leaf end cavities are generated 51 and 52 at the beam upstream or beam can. The following numerical example is thus only the downward end, and the one with the transverse walls 54 lent an example of a special design. 55, 56 and 57 are recorded. A coolant according to the invention is therefore the wall 29 shared with the cooling channel 60 in both parts of the composite central channel 28, which the main separating element according to FIG Cooling water supply in the embodiment 28, separates, so constructed that the impression according to FIGS. 2 and 3 is omitted. The coolant measurements of the damping element 20 corresponds to channels 60 opposite the connecting channels and has a thickness which is sufficiently small that 55, 61, 62 are widened, similar to FIG. 2, it is deformed under the coolant pressure in the channel 28 by part of the end walls 55, 56 being correspondingly so that a very solid sandwich construction is milled out of the damping elements 50, so that deformable wall parts 55 'or 56 'are formed of the damping element, which does not become loose during operation. Suitable inlet and outlet openings 63 and 64 and in which no soldering operations are permitted, coolants from a suitable pumping system are required. An effective hydrostatic pressure flowing in and out. Again, the walls 55, 56 are made of about 2.8 kg / cm ² when using a deformable copper od Connection with damping element disks of thin, as mentioned above, so that flexible or vermm diameters have proven to be satisfactorily deformable wall parts 55 ', 56', so that around the mentioned solid sandwich construction the effective hydrostatic Preserve pressure within the tion. Fluid channels 60 the required, one-The coolant channels 28 can act on various other opposing pressure forces on the

Claims (7)

5 6 An axially directed coolant inlet 86 is sandwiched between the elements 54, used to receive coolant to the channels 82 to 50, 55 and 56, 50, 57. The pipe lines, and a plurality of connecting channels body 65 and the transverse walls of the clover leaf hollow 88, 89, 90 etc. with smaller dimensions are advantageously made of copper 5, the various widened or the like, and any suitable soldering technique or to connect cooling channels 82 to one another. Another metal connection technique can be used for letting opening 87 is used in the embodiment according to FIG. 6 and 7 used to connect the coolant from and vacuum-tight to one another. In the case of the vibration energy absorption path out embodiment according to FIGS. 2 and 3 and 4, allow io to exist. As in the embodiment according to FIG. 1, the transverse walls, which are an effective hydrostatic pressure 28 or 60 under a relatively high pressure due to the pressure in the cooling channel to 4, of about 2.8 kg / cm ² in connection with the washer Transverse walls 24, 54 and 57, made of a shaped damping element of 25 mm thicker material than copper, for example stainless steel knives and a deformable copper wall made of free steel, so that a stronger, non-deformable i ₅ 0.64 mm thickness in each channel 82 than sufficient wall is formed in order to detect possible changes in order to achieve an effective sandwich connection of the cavity dimensions of the clover leaf sections between the transverse walls 83, 84 and the damping elements which are different due to the effective hydrostatic pressure. Avoid them. Arrows in FIGS. 6 and 7 indicate the direction of FIG. 5 is a hybrid tube 70 with a similar coolant flow between the inlet 86 and the set klystron path 71 and an outlet 87. Instead of separate, subsequent running field section 72 forming the channels, shown. The elements 45 for the channels 28 in the tube shown in the embodiment has an electron beam shape according to FIGS. 6 and 7 a transverse ring 91 for this purpose and a suitable electron beam collector 75 35 applies the upstream part of the flow at the downstream end in a known manner. channels 82 and the connecting channels 88, 89, 90 etc. Again, the electron gun can be defined. tion74 any suitable electron gun according to In the embodiment of FIGS Pierce, consisting of a focusing anode 76 and another coolant arrangement for a hybrid one Accelerating anode 77 and a cathode 30 tube used. In the embodiment according to exists within the focusing anode 76. Figures 6 and 7 illustrate a split flow in two In Figs. 6 and 7, unidirectional sections are used while in the out-of-vibration energy absorbing path between the form of leadership according to FIG. 8 and 9 show the flow klystron segment and the running field segment. medium flows in a certain direction, which is at To eliminate instability problems, which can be beneficial in certain applications. Hybrid amplifier tubes appearing as shown in Fig. 5 is a curved channel 94, best shown in Fig. 9 Running field path 72 at the upstream end of the beam, is combined with this in this embodiment Drift tube 79 as a coupling between the turns, the required effective hydrostatic last cavity 80 of the klystron line and in the pressure and cooling for the damping elements In the case of a cloverleaf-type running field course to be delivered to the 4 ° 95. Inlet 92 and outlet 93 are final shamrock cavity 81 completed. One connected to a suitable pumping system, self-number Spatially offset damping can understand the different forms of Fastening elements, such as carbon-loaded alumina connections of the embodiment according to FIG. 1, 4 ceramic or silicon carbide, etc., are used alternately and also combined turns, all backward wave energy will be within the 45th. Again, the damping elements are that To absorb running field distance in a known way. Disks 95, between two transverse walls 97, 98 with An axial feed device is at the out of the wall 97 of reduced thickness in the area 99, guide shape according to Fig. 6 and 7 used, which corresponds to the main dimensions of the discs, Inject suitable coolant, such as pinched line. The flow channels 100 are in a water and the like, namely in widened cooling channels 50 continuous line, the connecting channel 94, 82, which is generally the main dimension of the damper, embedded by a radial wall 101 underfacing elements are adapted. Again, two parts are divided as shown in FIG. 9. At this Transverse walls 83, 84 used to make the last clover coolant supply arrangement consist of larger free-leaf cavity 81 to define, and the damping units in the construction, so that such on elements 85 are arranged between these two. 55 built tubes are easier to install in systems, The transverse wall 84 is preferably made of rustproof steel with various spatial and coolant-free steel, as mentioned above, in order to meet the flow requirements, formation through the effective hydrostatic pressure ... to withstand called by the coolant flowing through channel 82, and the 60 1. Elongated travel time tube with a Transverse wall 83 is preferably made of copper and running field interaction circle that has from in beam in the consecutive cavity resonance area corresponding to the damping element a reduced thickness, as already mentioned, gates is formed, and between two in so that a deformable wall part is formed, so beam direction successive transverse walls that the pressure forces of the coolant pressure medium 6g at least one front side on the transverse walls on pressure can exercise on the wall and thereby lying damping element and in the one a solid sandwich construction for the damping transverse wall and a coolant flow element is achieved. the duct for the discharge of the in the (the) damping fungsclcmcnl (cn) generated heat is provided, characterized in that the coolant channel so formed and between the damping element (s) and the coolant channel lying part of the transverse wall is so thin that this transverse wall part under the Pressure of the coolant is deformable and the damping element (s) resting on it is (are) pressed firmly against the other bulkhead by the pressure of the coolant. 2. Time tube according to claim 1, characterized in that on both sides of the Coolant channel containing transverse wall is arranged at least one damping element. 3. Time tube according to claim 1 or 2, characterized in that the (the) damping element (s) is disc-shaped (are). 4. Time tube according to claim 1, 2 or 3 with a plurality of damping elements between two successive transverse walls in the direction of the beam, characterized in that the damping Fastening elements evenly distributed around the axis of the field interaction circle are. 5. Runtime tube according to claims 3 and 4 with a running field interaction circle from Clover leaf type, characterized in that the damping elements are at the inner ends of the inwardly protruding wall parts (fingers) of a clover-leaf-type cavity resonator arranged and are partially embedded in them. 6. time tube according to claim 5, characterized in that at the inner end of each finger a damping element partially embedded in the finger is arranged. 7. transit time tube according to one of claims 1 to 6 with a running field interaction circle, which is divided by a separator into sections that are not electromagnetically coupled to one another is, characterized in that the damping element (s) arranged in the separating member is (are). 1 sheet of drawings COPY 009 535 77