DE1541916B2 - RUNTIME TUBE - Google Patents

Description

The dielectric is denoted by 14 and lies between the plates 12 and 13. The inner surface of the cylinder part of the member 13 contacts the spring 11, as shown, and is thus electrically connected to that of the annular disk 10. The parts 12-14-13 thus form a capacitor with a solid dielectric, which is located outside the evacuated tube housing and whose capacitance can easily be made large enough to prevent undesired radiation of high-frequency energy from the gap 5, while the existing in known arrangements risk of There is no flashover or short-circuit.

In the embodiment according to FIG. 1, the capacitor formed from the parts 12-14-13 has a plate-like shape, ie the electrodes are essentially plate-shaped.

The in F i g. The embodiment shown in FIG. 2 differs from the embodiment according to FIG. 1 obviously in that the capacitor formed from the parts 12'-14'-13 ' is tubular or cylindrical and accordingly the electrodes 12' and 13 'are cylindrical, so that an extremely space-saving structure is obtained.

Since in both design variants a capacitor plate is rigidly attached to the tube and the other plate is elastically attached, is a stable structure on the one hand and on the other hand in both cases the possibility of easy assembly guaranteed.

1 sheet of drawings

Claims (6)

Patent claims: 1. Time-of-flight tube, in which the interaction section from the collector section through a Gap is separated in terms of direct current and in which this gap is surrounded by a tube Capacitor is bridged, which is electrically connected with flanges arranged on both sides of the gap. of the type mentioned in such a way that a more robust, failure-prone, constructive and A simple construction in terms of manufacturing technology is obtained and the bridging capacitor is always optimally dimensioned is made possible. This object is achieved according to the invention in that the capacitor is completely outside of the ceramic cylinder and one of the capacitor plates is rigid on one side of the gap is bound, between which a ceramic zy-io is attached. linder is arranged vacuum-tight, thereby through these measures it is ensured that the capacitor in terms of its geometric size is independent of the spatial relationships between the flanges on both sides of the gap characterized in that the capacitor (12,
13, 14) completely outside the ceramic
Cylinder (6) arranged and one of the capacitor plates on one side of the gap (5) can be selected rigidly 15 so that the capacitor is not hosted. hen is exposed to thermal stress and that Despite the existing mechanical stability of the arrangement, no mechanical due to thermal expansion Stresses occur. 2. Duration tube according to claim 1, characterized ge _r indicates that the capacitor (12, 13, 14) is formed ring disc shaped. 3. Time-of-flight tube according to claim 1, characterized in that the capacitor is preferably tubular, that the capacitor (12 ', 13', 14 ') is formed. In this way, a particularly space tube-shaped is trained. 4. time tube according to claim 1, characterized in that each flange consists of one with conserved construction. Another advantageous embodiment of the time-of-flight tube according to the invention is characterized by connected to the ceramic cylinder (6) by the fact that each flange is made of one with the ceramic inner ring disc (7, 8) and one at this adjacent outer annular disk (9, 10) consists of a larger diameter and that the capacitor is connected to the outer annular disks (9,10). 5. Time tube according to one of the preceding claims, characterized in that in addition to the rigid connection of a capacitor plate with one of the flanges creates an elastic connection the other capacitor plate is provided with the other flange. 6. transit time tube according to claim 5, characterized in that the elastic connection via a contact spring arrangement (11) takes place. 40 mix cylinder connected inner ring disk and an adjoining outer ring Washer with a larger diameter and that the capacitor with the outer Washers connected, ' In addition to the rigid connection of a capacitor plate with one of the flanges, there is preferably one elastic connection of the other capacitor plate provided with the other flange. The elastic connection is expediently made via a contact spring arrangement. The invention is explained below on the basis of exemplary embodiments with reference to FIG Explain drawing in more detail; shows in the drawing Fig. 1 is a schematic representation of a first embodiment of the invention and . · '. . ν liü ■: ■ -: ''. Fi g. 2 is a schematic representation of a second Embodiment in which the capacitor is space-saving. The invention relates to a transit time tube in which rend is formed. the interaction section of. Kollektorab - .. 45 According to Fig. 1, the collector section with 3, the cut through a gap DC-wise separated metal tube through which the beam runs (normal and in which this gap through a tube as a copper pipe) with 4, the gap with 5, the surrounding capacitor is bridged, which is "connected to the Ramic cylinder with 6 and the two ring disks arranged on both sides of the gap flanges with electrical _: .shaped metallic flanges with 7 and 8, between which a'keramischer 50 net. The electron gun section of the tube is Cylinder is arranged vacuum-tight. ^: ■ 'not shown, and from the interaction A transit time tube of this type is from the German section 2, only the end part is shown. Zwi-Auslegeschrift 1128 569 known. With this known flanges and the adjoining end of the transit time tube, the bridging condensate of the interaction section 2 is a ring gate obtained in that the vacuum ^; 55 disk 9 attached to the tube 4. On the other sealed closure ensuring ceramic Zy side of the gap 5 is between the flange 7 and linder on both sides covered with a metal layer and the collector section 3 another ring disk one of these layers with the flange on one side 10 attached to the pipe 4, the one slightly smaller gap and the other of the two layers with ren diameter than the annular disk 9 has. The outer edge of the annular disk 10 facing the flange on the other side of the gap has a circumferential collar. The main disadvantages of this known groove in which a helical spring 11 is located.
Order consists in the fact that a metal plate 12 with an L-shaped cross-section, A sufficiently large capacity cannot be obtained from a ring part 12 A and a cylinder part and, above all, the capacitor has a high 12 B , the outer end of the cylinder is exposed to thermal stress, which partially attaches the danger 65 to the outer edge of the ring disk 9 . One the detachment of the metal coatings with it. The object of the invention is to provide a time tube second metal plate 13 of similar shape as the plate 12 is supported by a plate of solid dielectric Material held at a distance from the plate 12