DE2460193B2 - ELECTRON TUBE WITH CYLINDRICAL ELECTRODES - Google Patents

Description

! (chengilter 1 is formed. But while the Arrangement of Fig. Ι the cathode from a single one Piece consisted of the one with the Bod »η 2 and the Ring 3 connected Maschcngiuer 1 was formed, can be seen in the embodiment of Fi g. 2 two Cathode sections, of which the upper section with is denoted by the same reference numerals as in F i g, i; the same reference numerals as in Fig.! are also for the carriers and the bowls used, which are assigned cfiescm first section, how to get out of a Can recognize viewing the drawing. In this case, however, the carriers are on a single row of three Rods 4 and a single cup 6 limited; the Greens for this result from the following Description.

The second section of the cathode, which is the lower section in the drawing, has a larger one Diameter than the first section and consists of a mesh 10, which at its ends through Rings 20 and 30 is complete. It is supported by two rows of three rods 5 and 50, respectively, which are attached to Wells 7 or 70 end. In the example shown in the drawing, the two sections are the Cathode by metallic spacers that are distributed along <those rings 3 and 20 and on these rings are attached, firmly connected to each other; in the sectional view of Figure 2 are two of these spacer pieces recognizable at 40. They bring the two cathode sections into electrical contact with one another; the heating current is thus fed to this cathode section via the cups 6, 7 and 70.

As before, the grid 8 has the shape of a cylinder which is widened at one end and closed at its other end by a base 9.

But while in the case of the one shown in FIG This cylinder is of a known type and has a constant diameter over a whole height in the cathode grid arrangement of the tubes according to the invention, the cylinder consists of two sections of different diameters, which are at the height of the separation point between the two cathode parts with each other connected by a nicely shaped surface 13 which is frustoconical in the example shown. Such a connection results in a stiffening, which increases the mechanical strength of the grid, also by dividing the cathode into

J ₅ two sections, the height of which is less than the height of the one-piece cathode of known type, the mechanical strength of the mesh of each of these sections increases under otherwise identical conditions.

In the example shown, the cathode is divided into two sections. In other embodiments of the invention, more than two such sections can be provided, the diameters of these sections all being different. In this case, the grid cylinder S can have several connection points in the manner of the aforementioned surface 13, for example at each level of the separation points between the various cathode sections.
The invention is suitable both for triodes which contain only a single grid in addition to the cathode and the anode, as well as for multi-grid tubes which contain external grids.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Electron tube with cylindrical electrodes arranged around a common axis and containing a Maschengitler cathode, one or more grids and an anode, characterized in that the cathode consists of at least two cylindrical sections (1, 10) with different diameters, which are replaced by metallic Spacers are firmly connected to one another, and that at least the grid (9) closest to the cathode consists of cylindrical sections of different diameters, which are connected to one another by non-cylindrical surfaces (13) at the level of the separation points between the cathode sections. The invention relates to electron tubes with cylindrical electrodes arranged around a common axis, the one mesh cathode. contains one or more grids and an anode. In tubes with this structure, which is in particular that of short-term transmission triodes, the The emitting part of the cathode is made up of wires that are spaced from each other. This is the case with Cage cathodes, which consist of a cylindrically rolled metal grid connected to supports; this is also the case with needle cathodes, in which the wires are in the form of needles that are inserted between the both ends of the cylinder are stretched. Regardless of their exact shape, such cathodes are always lightweight and because of the wire structure largely subdivided components that are subject to mechanical vibrations that reduce their stability affect. The importance of these stability problems can be assessed when one considers that at Certain tubes, the cathodes reach considerable dimensions, such as the dimensions of cylinders with a diameter of 120 mm and more than 300 mm in height, and that their operating temperature in the case of the am strongest emitting materials is 1650 "C. The grids (or the only grid in the case of a triode) are arranged coaxially to the cathode Cylinders surrounding the cathode, the first grid also having one for electronic reasons Has a diameter which is hardly larger than that of the cathode. This grid has, as well as the Cathode, a very subdivided structure and a small thickness, since these two conditions for one good permeability to the electron beam are necessary. The same goes for the other grids ius the same reasons. The grids thus appear sch!; E "!; Ch also as! Light and strongly subdivided Parts that are subject to mechanical vibrations can be fine. The grids, like the cathode, can be made of metal or made of graphite, as is the case with the most modern designs of the tubes are the case, To which the invention relates. Regardless of that The material used to manufacture the grids »there is a problem with their mechanical stability This problem is even more important as the distance between the cathode and the first grid, as before was mentioned, is always very small and that of these Parts occurring vibrations considerable changesc. ments of this distance can result; Such changes in distance are detrimental to the correct operation of the tube. It should also be added that in the case of cathodes which operate at the high temperature indicated above, the first grid is brought to a temperature of 125O ⁰ C during operation. The object of the invention is to provide an electron tube with a cylindrical structure in which the Ketode and the grid one compared to known Tubes of the same type have improved stability against mechanical vibrations. To solve this problem, according to the invention, the Electron tubes formed so that the cathode consists of at least two cylindrical sections with different Diameters that are firmly connected to one another by metallic spacers, and that at least the grid closest to the cathode is made up of cylindrical sections of different diameters, which are connected to each other by non-cylindrical roofs at the level of the Separation points are connected between the cathode sections. In the case of tubes with multiple grids, the the rest of the grid may also have the same shape. The anode also takes on this shape. The invention is explained in more detail in the following description with reference to the drawing. In the drawing shows Fig. 1 is a cut view of the kaioden grid arrangement an electron tube of known type and Fig. 2 is a corresponding sectional view according to of the invention formed electron tubes. Fig. 1 shows in section a cathode grid arrangement a tube, for example a triode of known type. To simplify the drawing, the other electrodes of the tube not shown. The cathode surface 1 is made up of a mesh Metal wires are formed, which is rolled cylindrically and emits electrons during operation. The wires are for example thoriated tungsten wires. The cathode is supported by a disc-shaped base 2 and a ring 3 completed; these two parts are made of metal, and on them is the aforementioned cylinder with its attached at both ends. The cathode is supported by two rows of rods, one in each row For example, there are three rods, of which only two rods 4 and 5 can be seen in the drawing These rods are attached with their lower ends to oval-shaped supports 6 and 7, respectively. These Metal cups serve as connections for the heating current generator, not shown. The grid 8 consists of a cylinder whose internal dimensions are only very slightly larger than that The outer diameter of the metallic mesh 1 is, as can be seen in the drawing. The distance between the cathode and the gilter there is a tube of this type usually on the order of J mm. The cylinder 8, which consists for example of graphite, is closed at one end by a bottom 9 and expanded at its lower end and at one, third, electrically conductive cup 11 welded over which the grid bias is applied. Insulating spacers 12 are arranged between the cups The sectional view of FIG. 2 shows the same Arrangement as shown in FIG. J with the modification according to the invention. One recognizes a cathode surface again, through a cylindrically rolled metallic ma- 1% A ₁ fA