DE723762C - Electric vapor discharge vessel made of high-melting glass, in particular high-pressure discharge vessel made of quartz glass - Google Patents

Description

Electric vapor discharge vessel made of high-melting glass, in particular High-pressure discharge vessel made of quartz glass The invention relates to electrical Vapor discharge vessels made of high-melting glass, in particular on high-pressure discharge vessels made of quartz glass; in which the melt-in foot completed outside the vessel, at least in the vicinity of the electrode lead from a more easily fusible Substance exists only after the electrode has been attached and activated is fused with the vessel wall.

In the known vapor discharge vessels of this type, melt-in feet are mostly used used with parts protruding into the interior of the discharge vessel, on which the electrodes are attached. However, these protruding parts are 'inevitable Angles and dead spaces that are poor when the vapor discharge vessel is in operation heat and therefore cause harmful condensation of the metal vapor. To this. to avoid, one already has the fusible foot or its front part designed as a flat disc carrying the electrode. In such an embodiment there is, however, the risk that the melting process will produce the very necessary hot burner flames at a short distance from the. Melting point located Damage the electrode, so that this and thus the entire discharge vessel is only one achieve a short service life.

This disadvantage arises in the case of the vapor discharge vessel according to the invention avoided by the fact that the inside of the vessel! facing face flat or trough-shaped foot with a plug-like protruding outward provided the vessel wall adapted flange and this on its entire circumferential surface so is fused with the vessel wall that the end face of the A smooth end of the foot while avoiding dead spaces or angles Forms discharge spaces.

During the production of a vapor discharge vessel designed in this way there is no risk of damage to the electrodes from the burner flames, because the interior of the vessel through the foot flange fitted like a plug into the vessel is already largely protected from the effects of the burner flames and because furthermore already with the first melting of the far from the electrode removed outer flange edge with the vessel wall a tight seal of the vessel interior arises.

In the case of electric light bulbs made from ordinary glass Although there is a single melt-in foot with a plug-like protruding outward a flange fitted into the lamp vessel is provided; but only there in connection with a hollow body protruding into the interior of the lamp. In addition, this was known Incandescent light bulbs either just the outer edge of the flange, leaving one case free Vapor discharge vessels extremely damaging annular gap fused with the lamp vessel or there was a fusion of the entire circumferential surface of the foot flange with the The only reason why the vessel wall is suggested is to make power supply wires there vacuum-tight to embed. In the case of the vapor discharge vessel made of high-melting glass according to the invention, however, the electrode supply with the aid of a more easily meltable transition substance in the separated from the discharge vessel for itself to be produced foot melted and thus a disruptive foreign body in the annular gap avoided between the foot flange and the vessel wall.

In the drawing are the end parts of two as exemplary embodiments Vapor discharge vessels formed after grounding in the state before melting of the vessel.

In the embodiment according to Fig. I is in the end of the cylindrical, consisting of a high-melting glass vapor discharge vessel i a melting base 2 with a flat face slightly raised at the edge, while the Fig.2 shows a vapor discharge vessel i, which is drawn in hemispherically at the end and encloses a Einverschnelzfuß 2, the end face of which is formed in such a trough-shaped manner is that it adapts to the curvature of the discharge vessel. In both cases it is the Einschrnelzfuß 2 with an outwardly protruding, plug-like wall of the vessel adapted flange 3 provided and the electrode supply q. by means of a lighter fusible transition glass 5 melted into the foot 2. At the electrode feed 4 is the one provided with activating substances for heating by the discharge certain glow electrode 6 attached.

Due to the special design of the melt-down foot, on the one hand achieved that in the now to be made fusion of the entire circumferential surface of the vessel flange 3 with the vessel wall does not damage the electrode 6 is to be feared. On the other hand, the finished vapor discharge vessel can also be in operation there is no risk of the metal vapor condensing in an impermissible manner, because the front surface of the melt-down foot, avoiding protruding parts or dead cavities closes the discharge space smoothly.

Instead of the one power supply q shown. can the fuselage. also include two or more power supply lines, for example an externally heated one To operate the glow electrode or to have an auxiliary electrode close to the main electrode to arrange.

Claims (1)

PATENT CLAIM: Electric vapor discharge vessel made from high-melting point Glass, in particular high-pressure discharge vessel made of quartz glass, in which the outside of the vessel completed, at least in the vicinity of the electrode feed made of a more easily fusible material only after the electrode has been attached and, after activation, it is fused with the vessel wall, characterized in that that the end face facing the inside of the vessel is flat or trough-shaped trained foot with an outwardly protruding, plug-like wall of the vessel adapted flange provided and this on its entire circumferential surface so with the Vessel wall is fused that the end face of the foot avoiding dead spaces or angles forms a smooth closure of the discharge space.