DE1088159B - Process for producing supply cathodes and supply cathodes produced by the process - Google Patents

Description

GERMAN

PATENT OFFICE

kl. 21g 13/04

INTERNAT. KL. HOIj

E11720VIIIc / 21g

REGISTRATION DATE: DECEMBER 21, 1955

NOTIFICATION OF REGISTRATION AND ISSUE OF THE LAYOUT: SEPTEMBER 1, 1960

It is known that the activation of L-cathodes is associated with difficulties, since with one L-cathode discharge tubes are pumped for a long time during the activation of the cathode have to be, while at the same time in the course of the activation of the already delicate cathode heating element easily damaged. Any built-in cathodes that may have become damaged can result in expensive tubes, z. B. cathode ray tubes, make useless. Up to now, however, the testing of the cathode could only be carried out in the in the tube can be made built-in state of the activated cathode.

It has already been suggested to store cathodes outside the tube in which they will later be placed should work to activate. It is also a manufacturing process for oxide cathodes, d. H. no supply cathodes, known in which the cathode initially provided with an activating substance, then activated in a special vacuum oven and to protect against poisoning is coated with a thin layer of copper, silver or gold. The installation of such a produced cathode can take place after some time.

The purpose of the invention is to avoid the aforementioned disadvantage and to this Purpose to manufacture or activate the cathode according to a new process.

The simple transfer of the well-known manufacturing process for oxide cathodes to manufacturing of supply cathodes is not enough to eliminate the disadvantage, but there are also additional, steps are not taken for granted.

According to the invention, the cathode provided with the activating substance is placed in a vacuum furnace activated, then fitted with a heater and finally built into a discharge tube. That Activation takes place when the cathode is not installed.

The method of making supply cathodes that have a porous body made of high melting point Having metal, in particular of cathodes of the L-type, is characterized according to the invention that the porous body of the cathode together with the activating substance, but without a heating element, used in a vacuum furnace, activated there by heating and then the outside of the porous body remaining remainder of the activating substance supply, optionally together with the Storage room, removed from the porous body and provided the latter with a radiator.

A disk-shaped porous body can expediently be used in the method.

A cylindrical porous body can also be used.

Method of manufacture

of supply cathodes

and produced by the process

Supply cathode

Applicant:

Egyesält Izzolämpa es Villamossägi Reszvenytarsasäg _[ Budapest

Representative: Dipl.-Ing. W. Meissner,

Berlin-Grunewald, Herbertstr. 22

and Dipl.-Ing. H. Tischer, Munich 2, patent attorneys

Claimed priority: Hungary from December 31, 1954

Imre GaI, Ferenc Nagel and Endre Oldal,

Budapest,
have been named as inventors

In the method according to the invention, the cathode, which has not yet been provided with a heating element, is in brought a vacuum oven and activated there in the usual way, then removed from the vacuum oven and after mounting the heater and advantageously after testing the cathode in a discharge tube built-in. As tests have shown, the remounting of the already activated ones resulted L-cathode no disadvantages. But it means a significant advantage that the cathode outside of the Tube activated, and that as a result of the subsequent installation of the radiator also the service life the cathode is extended. In the experiments with according to the method according to the invention manufactured or activated L-cathodes have lifetimes of several thousand hours favorable emission ratios achieved.

Another advantage is that the porous body during activation for a long time Lifetime absorbs a sufficiently large amount of the activating substance and so nothing special Storage space is required and this can be removed from the cathode. As a result, the Cathode construction is much easier and the radiator can be installed directly, i.e. without installation a special partition, under the porous

009 589/355

Body are arranged, whereby the heating power is cheaper and the cathode with a lower Power can be heated. Such cathodes were advantageous with the usual, made of three carbonates activated existing substance and showed a lifespan of several thousand hours.

Further details of the method according to the invention are given below with reference to the figures of FIG Drawing explained

Explain in the drawing

1 a to 1 c three different process steps in the production of a cathode with a disk-shaped, sintered porous body;

Fig. 2 a to 2 c show three different process steps of the method for producing a cylinder shaped cathode.

The same reference symbols denote the same parts in all the figures.

Figs. La, Ib and 1c show, for example, the Manufacture of a flat cathode. 4 with the ao porous body and 3 with the wall of the storage space. The figure shows the container that z. B. can be composed of two parts, only schematically. The wall 3 forms with the porous Body 4 together form a completely closed container in which the activating substance 5 is located. This container is not in the state shown in Fig. La in one in the drawing introduced vacuum furnace shown and with the help of the heating coil 6, which is either a resistance wire or a high-frequency heating coil, heated to the appropriate temperature and thereby activated. Then the cathode body is removed from the vacuum furnace and the lower one, the rest of the activating one Substance 5 containing part of the container 3, as indicated in Fig. Ib with the arrows, cut off Part removed. In the course of activation, the porous body 4 has a long service life the cathode absorbed sufficient amount of the activating substance. Then under the arranged porous body 4 of the heating element 7 according to FIG. 1 c, and the cathode can then be built into the discharge tube.

The procedure in the case of a cylindrical cathode is similar to that shown in Figs. 2a to 2c. First, the cavity of the porous cylinder 4 is filled with the activating substance 5, then the ends of the cylinder are closed by the parts 8 α and 8 b . The cathode is then placed in a vacuum furnace and activated in the usual way with the aid of the heating coil 6. After the cathode has been removed from the Vakuumoferi, the closure parts 8 α and 8 b are removed, as well as the rest of the activating substance 5 (Fig. 2 b). The heating element 7 is installed in the interior of the heating element 4 (FIG. 2 c), and the cathode can be installed in the discharge tube. In this case too, most of the activating substance 5 passes into the pores of the porous body 4 in the course of activation, so that in these pores there is an amount of the activating substance sufficient for a long service life of the cathode.

The descriptions described are only examples.

The invention also includes cathodes in which the storage space or the rest of the activating Substance has been removed, whereby the cathode differs from the usual L-cathodes, that the cathode consists only of a sintered porous body made of refractory metal, e.g. B. Tungsten, molybdenum, niobium or tantalum, as well as from that accommodated in the pores of this porous body activating substance, a radiator and retaining elements, but not Has pantry.

Claims (3)

Claims ·. 1. A method for producing supply cathodes which have a porous body made of refractory metal, in particular of L-type cathodes, characterized in that the porous body of the cathode is put together . with the activating substance, but without a radiator, in a vacuum furnace, through there Heating is activated and then the remainder of the outside of the porous body activating substance supply, optionally including the storage space, from the porous body removed and provided the latter with a radiator. 2. The method according to claim 1, characterized by the use of a disk-shaped porous body. 3. The method according to claim 1, characterized by the use of a cylindrical porous Body. Considered publications:
German Patent No. 803,919;
Philips Technische Rundschau, 1950, no. 12, pp. 350 and 355; Physical sheets, 1952, p. 499. 1 sheet of drawings © 009 589/355 8.60