DE902411C - Method and arrangement for the production of electrical discharge vessels - Google Patents

Description

Method and arrangement for the production of electrical discharge vessels The invention relates to the manufacture of electrical disposal vessels and: is particularly important for electron tubes with particularly small dimensions. In the production of small mouth small tubes with a glass flask as a vase the degassing of the electrodes and the system parts is not possible to the same extent as is the case when using steel pistons. However, since the processing of Glass for tube flasks -im; common for tubes with the smallest dimensions, lighter possible: is, it would be desirable, the degassing: of the system parts also during use to be able to carry out glass bulbs as good as with steel tubes.

This task is carried out by. : solved the invention. The invention exists in it, d @ ate the gas, the electrodes and system parts outside the glass bulb: before the breath is melted down. For this purpose one can be made of miraculous Material existing sealable cartridge provided: to be: those for receiving the Electrodes and system parts are suitable. It is convenient to have such a cartridge to be designed as a substantially cylindrical tube that is vacuum-tight at both ends is lockable. The length of the animal cartridge is expediently a multiple. the System length. For example, the cartridge has at one end: a pump handle, with the help of which it can be placed on a high vacuum pump, and also an Aibsehlußhahn. At the other end of the cartridge there can also be a vacuum cut-off be provided through which --she .the electric system in the cartridge can introduce.

The system parts inside the cartridge can be degassed in such a way that that the middle zone of the cartridge, in vein the system is, by heating to glow, while the ends of the cartridge e.g. B.: cooled by compressed air will. For the purpose of simultaneous degassing, a larger number of system parts a corresponding number of cartridges are combined with one another. After the degassing has taken place, I leave the cartridge, the stopcock on the piston, and the handle Fill with protective gas. Immediately before the meltdown came: the degassed system. again; from: the cartridge turned over, where @ if necessary, take care can be "@ that the system does not come into contact with air.

On the basis of the drawing, @dne invention should be explained in more detail.

In fing. i is one embodiment of a cartridge with a Elektrodensys: a fake. The cartridge consists of, essentially tubular body i, _ the inside .die electrodes and system parts 2 contains. At the lower end of the cartridge i is a hinged closure 3, the one Vacuum-tight closure permitted and, if necessary, with a stopcock and exhaust tube 4 is provided. It should also be noted that the exhaust tube is also attached to the side can be what z. B. then has advantages if the degassed system at this opening should be brought out when it is introduced into the glass flask. The other end of the Cartridge eats: at point 5 conically expanded so that the closure, stopper-6 allows a vacuum-tight seal. The locking pin 6 is still suitable Holding devices, for example a hook 7, connected: on which the electrode system attached: eats to. the system parts at a defined point during degassing inside the cartridge to know .. When degassing, the middle zone of the cartridge heated and preferably made to glow. This annealing zone is denoted by 8. This annealing zone is followed by two transition zones 9 and io on both sides, while the Emder. ii and 1a in a suitable manner, for example, by supplying compressed air, if necessary (be cooled.

In Fig. 2, the union of a number of cartridges is for the purpose the simultaneous degassing of several system parts illustrated. In the annealing furnace 13 the cartridges 14 are arranged next to each other and housed 'the Pu: mpstutzen 15 are jointly guided to a pipe 16 connected to the vacuum pump.

The invention results in the. Advantage that @ the degassing at substantial higher temperatures can take place than would be possible in the glass bulb. By Use of an annealing furnace as schematically illustrated in Eig. 2 in Avoid the time consuming degassing with a collecting pump, as it is otherwise takes place on the automatic pump, avoided; and it is possible in this way on (the machine to achieve significantly shorter pumping times. With the help of the cartridges If necessary, larger quantities of can also be used in the mass production of Kleinströh Systems and prepared for further processing -on -the automatic pump and turn, stacked. It is also possible to use the pre-degassing process with the meltdown process so that the meltdown process, directly connected to the pre-degassing process. It can thereby be avoided; @that , the system comes into contact with air one more time after the pre-degassing.

In addition to small tubes, the invention was also suitable for other tubes Meaning in which the construction of the system structure is suitable for the degassing with high frequency not or in: only to a limited extent suitable. One gets through the Application of the pre-degassing of the system in a cartridge allows greater freedom of movement in the structural design, the system structure, and can, with it, the training make the system as it is with consideration of electrical properties, The emissivity and ease of assembly of the system appear to be the most favorable.

Claims (1)

PATENT CLAIMS: r. Process for the production of electrical discharge vessels, in particular electron tubes of particularly small dimensions, characterized in that the degassing of the electrodes and system parts for each tube structure is carried out in a separate container outside the glass bulb before melting. Arrangement for carrying out a method according to Claim 1, characterized by a lockable cartridge consisting of heat-resistant material and serving to accommodate the electrodes and system parts. 3. Arrangement according to claim a, characterized in that the cartridge is made of aluminum, a substantially cylindrical tube which can be closed in a vacuum-tight manner at both ends. 4. Arrangement according to claim 2 or 3, characterized by @ that the length "of the cartridge is a multiple of the length of the system. 5. Arrangement according to claim 2 to 4, characterized by (characterized @ that on one end of the cartridge is provided with a pump stem for connection to a vacuum pump and a closing valve and that the other end is provided with a vacuum-tight, closable opening suitable for introducing the system parts to be degassed 2 to 5, characterized in that means are provided to heat the central part of the cartridge during degassing and preferably to anneal it, while the ends of the cartridge are preferably cooled by compressed air to 6, characterized in that a multiplicity of cartridges are combined with one another for the purpose of simultaneous degassing of a corresponding number of system parts B. Arrangement according to Claims 2 to 7, characterized et, @ d, aß Means are provided to fill the cartridge with a protective gas after degassing. Cited publications: German Patent Specifications Nos. 439 846, 492 314; Angerer, Technical Artifacts in Physics: llic Investigations, p. 9o; Espe and K no 11, Material Science of High Vacuum Technology, 1936, p. 122 and i23.