DE879576C - Electrical discharge vessel - Google Patents

Description

Electrical discharge vessel They are electrical discharge vessels became known, whose vacuum-tight closure by a consisting of glass and ceramics Combination body is made. This combination body usually consists from a ceramic support body, in which the power supply lines with the electrode system sit, and a layer of glass that completely covers the ceramic part and this connects vacuum-tight to the flask.

In the manufacture and operation of discharge vessels designed in this way has shown that it is very difficult to fuse the glass part with to carry out the ceramic part and the edge of the flask so that on the Fusion point no cracks occur, creating the vacuum-tight seal of the discharge vessel is destroyed. The occurrence of these jumps is due to deviations the thermal expansion coefficient as well as the masses of the individual with each other due to fused materials.

In the case of electrical discharge vessels made from material that is difficult to soften, the through a glass body that the electrode system on the bushings for the same carries, are sealed vacuum-tight, is proposed according to the invention, under the closing glass body an extremely thin disk made of insulating material to be arranged to which the glass does not adhere. Through the invention achieves that the glass part of the vacuum-tight closure has a low thermal inertia and thus temperature changes of the difficult to soften vessel body so can quickly follow that there is no excessive mechanical stress on the fusion as a result of uneven thermal expansion 'occurs. The one arranged under the glass part extremely thin disk made of insulating material is only used for this; to prevent, that when the glass layer is applied or melted, it enters the vacuum space of the discharge vessel penetrates.

The hard to soften piston can be made of metal, ceramic, or quartz Glass.; For the extremely thin insulating layer arranged under the closure body mica is advantageously used, in a thickness of approximately _ o, z to 0.5 mm. Compared to the previously used ceramic part of the vacuum seal the advantage of using mica is that the glass does not adhere to the mica, because the mica calcines on the surface and therefore no adhesion between the glass and the crystalline mica enters. This can cause the glass to stick to the mica move freely, so that with different thermal expansion of mica and Glass line can develop tensions. Furthermore, mica has itself as a thin slice sufficient mechanical strength. Such can be made of ceramic material Also make thin slices. The side assigned to the glass layer must be be as smooth as possible so that both layers can slide over each other. It is coming therefore practically only a dense ceramic is considered. The thin slice for support of the glass body during melting can also, at least partially, be made of metal be. However, a metal must be used for this that does not contain surface oxides can form, for example an igniter-free steel, so that the glass does not adhere. Only at the points where the current feedthroughs penetrate this pane, must be an insulating material; for example mica, be arranged. - When using a dense material must be taken from ceramic material; on its surface the glass does not stick.

The mass of the thin disk is so small that it also warms it up heat necessary for the same is extremely small, d. H. it has an extremely low one Heat capacity, causing the slices to move evenly and quickly across their surface be heated.

The figures show .Example according to the invention built-up discharge vessels. FIG. I is a discharge vessel, partially in section i with a so-called cutting edge fusion, d. H. the discharge vessel has one sharpened edge a, between which the one used to terminate the discharge vessel Glass body 3 lies: The glass body can be a pane of glass, a pressed glass body or a molten glass applied in the liquid state. The one under the vitreous arranged thin disk is marked with q. designated. The power feedthroughs 5 and the Electrode system 6 are only shown schematically, since they are necessary for the invention are insignificant .. The embodiment shown in Fig. i has the special The advantage that also occurs between the glass body and the metal body Can compensate for tensions, as the edge-shaped edge of the discharge vessel is also compliant. This creates an extremely low-tension fusion.

Should it be for any reason, e.g. B. because of a simple system assembly, the power feedthroughs with the electrode system in a special To arrange support body, it must only be ensured that this support body is not in connection with the glass body serving for the vacuum-tight seal. The support body can be made of ceramic material in a known manner or be designed as a particularly flat pressed glass base.

FIGS. 1 and 3 show exemplary embodiments for this purpose. Fig. A shows a vascular flask i with indentations g, of which the closest to the system Turning the, for example, ceramic support body 7, in which the current feedthroughs and thus the electrode system z. B. are set by soldering; records. In the The thin disc 4 located under the glass body 3 lies in the other recess. 5 are again the current feedthroughs and 6 is the electrode system shown schematically.

FIG. 3 shows a discharge vessel i with a, for example, from Pressed glass produced support body 7, the spacer for the thin pane q. has been provided with elevations 8. The other reference numerals are the same as in the previous pictures.

In the case of the discharge vessels designed according to the invention, it is sufficient it; if when using a support body for the power supply lines and the electrode system between the support body and the extremely thin disk because of the possible different expansion and to reduce the thermal inertia an air gap of About 1 / io mm is present or arrangements, such as elevations or the like. On the Carrying bodies are provided, which ensure that the extremely thin disc does not rests on the support body, but only in punctiform contact with the same stands. '

Claims (1)

PATENT CLAIMS: i. Electrical discharge vessel made of difficult to soften material, which is sealed vacuum-tight by a glass body that carries the electrode system and the bushings for the same, characterized in that an extremely thin disk of insulating material and / or metal is arranged under the closing glass body, on which the glass does not stick. a. Electrical discharge vessel according to Claim i, characterized in that the thin disk arranged under the glass body is made of mica, quartz, glass or dense ceramic. w 3. Electrical discharge vessel according to claim i, characterized in that the thin disk arranged under the glass body consists of a metal which cannot form any surface oxide. d .. Electrical discharge vessel, characterized in that the bushings are held in a separate post insulator.