DE1098622B - Impregnated supply cathode or L-cathode - Google Patents

Description

Impregnated Supply Cathode or L-Cathode The invention relates on impregnated supply cathodes or L-cathodes and is mainly intended for Reduction of the required heating power of the cathode.

With supply cathodes, especially with supply cathodes of small dimensions, z. B. impregnated supply cathodes or supply cathodes of the so-called L-type is known to be the heating power required for correct operation of the cathode quite high compared to other cathodes. As a result, some of the Difficulties known to those skilled in the art.

Although it is already known from other cathodes, retaining wires for the To use the cathode body in a warm place of the same, so not below of the radiator, with a substantial part of the cathode body protruded from the shielding body.

There are also impregnated supply cathodes or L-cathodes with a The heat shielding body at least partially surrounding the cathode body and also the shielding body b-2know, in which the cathode body with one over its entire circumference from the heat shielding body remaining free space through transverse to its longitudinal axis, on him and held thin pieces of wire attached to the shield body.

The invention relates to this latter type of cathode and improves it to a great extent in terms of heating performance by adding up to about half of the previous can be reduced.

This happens with these cathodes according to the invention in that the wire pieces serving as the carrier of the cathode body, which are both on the lower part of the cathode body; below the radiator of the same, as well as on the Ahschirmkörper fastened by welding, prestressed wires are pretensioned during the operation of the cathode is maintained.

The supply cathode expediently has the porous body of the cathode End cap that separates the boiler room and is adapted to the shape of the radiator.

The shielding body in the tube is preferably also transversely running to its axis, on it and on a poorly thermally conductive component wires attached to the tube.

The invention is illustrated in one embodiment with reference to FIG the drawing described in more detail, without the invention being limited to this example should be. In the drawing, Fig. 1 shows a cathode according to the invention, in part in side view and partly in axial longitudinal section; Figure 2 illustrates the same Cathode, seen from below, and FIG. 3 shows the arrangement of the cathode according to FIGS. 1 and 2 in the Wehnelt cylinder of a cathode ray tube in a schematic axial longitudinal section of the Wehnelt cylinder.

In the execution according to Fi.g. 1 owns the supply cathode itself a cylindrical cathode body 4 made of refractory metal, which m, it, the forms a unit in the same pressed-in porous body 5. Under this porous Body is the supply of active material, if it is a supply cathode is of the L-type. In the case of an impregnated supply cathode, of course, contains the porous body itself is the activation material. In both cases it is expediently, the porous body 5 from the heating arm of the cathode by means of a corresponding To separate closing body. This closing body is now expediently used as an end cap 6 formed, in which a trough adapted to the shape of the heater 7 is present is the z. B. a flat, or on the whole cross-section of the conclusion, cap extending depression or channel can be. The radiator 7 can as usual be executed, d. H. it can be made from a tungsten wire insulated with aluminum oxide exist. The shielding cylinder 8 expediently consists of a suitable, mostly inside highly polished metal, e.g. B. nickel, and has in this embodiment the Shape of a cylinder, the lower edge 14 of which is flanged outwards. In the cathode cylinder 4, the closing body 9 can be arranged, but: is the presence of such Closing body is not absolutely necessary.

In order to reduce the amount of heat dissipated by the holding members of the cathode cylinder 4, the cathode cylinder 4 is fastened in the shielding body 8 exclusively by means of wires 10 a and 10 b. These wires are pretensioned and fastened both to the cathode cylinder 4 and to the flanged edge 14 of the shielding body 8 by welding. This fastening takes place in the already pre-tensioned state of the wires, the pre-tension being dimensioned in such a way that, despite the thermal expansion of the various parts, the wires always have sufficient tension to hold the cathode cylinder 4 in its correct position, which occurs when the tube is in operation Thermal expansion of the shielding body 8 is favored.

The cathode assembly consisting of the cathode and the shielding body is expediently held in the electron tube or on any component thereof, likewise by means of wires. These wires 11a and 11b are attached to the shielding body 8 by welding, and their free ends are attached to the holding body of the cathode, in the embodiment shown in FIG. B. on the ceramic ring 13, fixed by the same go through corresponding holes of this ring and on. their free ends are bent.

The support wires 10 a and 10 b, also 11 a and 11 b are expediently made of refractory metal, for. B. tungsten or tantalum. The cathode cylinder 4 can, for. B. as well as the connection cap 6 and the closing body 9 are made of molybdenum. The shielding cylinder 8 is also expediently made of refractory metal, e.g. B. Nickel.

From the drawing it can be seen that the support wires 10 d and 10 b are welded to a relatively cold part of the cathode cylinder 4. Furthermore, since these wires can be quite thin as a result of the bias, so that you Diameter is only between 70 to 100 microns, is the heat dissipation from the cathode cylinder very low and the heat dissipation caused by the somewhat thicker wires 11 ca and 11 b of the shielding body 8 is also small. The use of the end cap 6 is therefore advantageous because this means that the cathode body 4 is not double-walled needs to be, and due to its shape is the heat transfer from the radiator 7 on the storage space or porous body to be heated is very: cheap. It is further to note that it is not necessary to vacuum-tight the end cap 6 in -den To install cathode cylinder 5, especially if it is an impregnated supply cathode acts.

Claims (3)

PATENT CLAIMS: 1. Impregnated storage cathode or L-cathode with one at least partially surrounding the cathode body and also the shielding body Heat shielding body, in which the cathode body with one over its entire circumference from the heat shielding body remaining free space through transversely to its longitudinal axis extending thin pieces of wire attached to him and to the shielding body held is, characterized in that the wire pieces serving as a carrier of the cathode body (10a, 10b), which both on the lower part of the cathode body (4), below the heater (7) of the same as also attached to the shielding body (8) by welding, prestressed Wires are whose bias is maintained during the operation of the cathode remain. 2. supply cathode according to claim 1, characterized by one of the porous Body (5) separating the cathode from the heating space, adapted to the shape of the heating element (7) End cap (6). 3. A supply cathode according to claim 1 or 2, characterized in that the shielding body (8) in the tube also by wires (11 a, 11 b) attached to it and to a poorly thermally conductive component (13) of the tube which extend transversely to its axis ) is attached. Contemplated publications:. USA. Patent No. 2 413 689. Contemplated older patents: German Patent No. 1,002,088..