DE3340902A1 - Dispenser cathode - Google Patents

Abstract

It is proposed to use a Pt-Ir solder containing 10 to 50% by weight of iridium for soldering a dispenser cathode in the vicinity of the dispenser body.

Description

description

Supply Cathode The present invention relates to a supply cathode for an electron tube with a porous storage body made of refractory metal, whose pores are filled with an emission material, and in which the holder of the supply body on the cathode sleeve receiving the electrical heating element is made using a high melting point solder.

There are already known supply cathodes in which a porous sintered body made of tungsten on the end face of a cathode sleeve using a retaining ring is attached.

It has further been proposed to use such storage bodies a solder that does not yet melt at the normal operating temperatures of the cathode, directly or indirectly. Difficulties often arise insofar as as undesirable influences on the long-term behavior of the cathodes due to the solder cannot be ruled out.

The present invention is based on the object of a supply cathode of the type mentioned at the beginning, in which an impairment of the emission behavior the cathode is largely excluded and with which a secure mounting of the supply body is given even with frequent temperature changes.

This object is achieved according to the invention in that the high-melting point Solder a ruthenium-molybdenum solder with up to 50 percent by weight of molybdenum or in particular is a platinum-iridium solder with 10 to 50 percent by weight of iridium.

The use of the described solder for direct or indirect Holding a supply body, preferably made of tungsten, of a supply cathode has the essential advantage that an impairment of the emission behavior the cathode is also largely switched off when the solder of the supply body touched directly or wetted on its surface. The solder is preferred for this purpose, the supply body at least in some places directly on parts of the cathode sleeves to solder. It is of great advantage that the solder is not in an undesirably strong Dimensions penetrates into the pores of the storage body. The pores of the storage body are used to record the actual emission material.

Based on the preferred embodiment shown in the figure the invention is explained in more detail below.

The figure shows a pot-shaped cathode sleeve 1, the interior of which 4 serves to accommodate the electrical heating element. At the top is the Cathode sleeve closed with a bottom 6. The cathode sleeve 1 consists of weighing made of molybdenum. The storage body is located on the end face of the cathode sleeve 3, in whose pores the emission material is embedded, which is for example through Watering can be done.

In the illustrated embodiment, the holding is carried out Storage body 3 with the help of a ring 2, which is preferably made of tungsten or from a Mixture consists of tungsten, and its inner surface is so conical it that a secure mounting of the supply body 3, which is preferably made of tungsten or consists of a mixture of tungsten and a metal of the platinum group, given is.

According to the invention, the holder is now in the area of the supply body 3 preferably made with the help of a platinum-iridium solder, which is preferably 10 to Contains 50%, in particular about 30%, iridium. The bracket is made by means of the solder expediently in such a way that a solder ring 5 is placed after the cathode has been assembled and then heating to temperatures between 18000C and 21000C, depending on Iridium content takes place, causing the platinum-iridium solder in the gap between the Retaining ring 2 and the cathode sleeve 1 penetrates and a solder connection of these parts causes. According to a further preferred embodiment, the amount of solder is such chosen that the solder also at least partially in the gap between the retaining ring 2 and the supply body 3 and the gap between the supply body 3 and the bottom 6 of the cathode sleeve 1 penetrates, whereby at the same time a solder connection between the storage body 3 and / or the bottom 6 or the retaining ring 2 is made. This causes the storage body 3 to be held extremely firmly. The direct one Contact between the selected solder and the supply body, in whose pores the Emission material is located, has no negative influence on the long-term behavior the emission of the cathode. There is also no damage to the holder as a result of frequent temperature changes, so that also over a long service life a constant heat transfer from the cathode sleeve to the storage body 3 is ensured.

According to a further preferred embodiment, instead of of a platinum-iridium solder, a ruthenium-molybdenum solder is used that is no more than Contains 50 percent by weight molybdenum.

Claims (8)

Claims 01. Storage cathode for an electron tube with a porous storage body made of refractory metal, the pores of which are covered with an emission material are filled, and in which the holder of the supply body to which the electrical Cathode sleeve accommodating the heating element using a high-melting solder is made, characterized in that the high-melting solder is a ruthenium-molybdenum solder with up to 50 percent by weight molybdenum or, in particular, a platinum-iridium solder with 10 to 50 percent by weight iridium. 2. supply cathode according to claim 1, characterized in that the high-melting solder touches or wets the supply body (3) at least partially. 3. supply cathode according to claim 1 or claim 2, characterized in that that the supply body (3) consists of a mixture of tungsten and a metal of the platinum group or made of tungsten. 4. supply cathode according to one of claims 1 to 3, characterized in that that the supply body on its circumference by means of a retaining ring (2) on the cathode sleeve (1) and the retaining ring (2) by means of the high-melting solder on the cathode sleeve (1) is attached. 5. Vorra tska method according to one of claims 1 to lt, characterized in that that the cathode sleeve (1) is pot-shaped with a base (6) and the storage body (3) is at least partially soldered to the surface of the base (6). 6. supply cathode according to one of claims 1 to 5, characterized in that that the supply body (3) is at least partially soldered to the retaining ring (2). 7. supply cathode according to one of claims 1 to 6, characterized in that that the retaining ring (2) consists of tungsten. 8. supply cathode according to one of claims 1 to 7, characterized in that that the cathode sleeve is made of molybdenum.