DE674447C - Metal vapor discharge apparatus, in particular mercury vapor converter, with ignition electrode body made of resistance material that is permanently immersed in the cathode liquid - Google Patents

Description

Metal vapor discharge apparatus, in particular mercury vapor converters, with an ignition electrode body made of resistance material that is permanently immersed in the catholyte The invention relates to a Metalldampfentla.dungsapparat, in particular a 0necksilberdampfstromrichter, with an ignition electrode body made of resistance material that is permanently immersed in the catholyte.

It is already known to ignite metal vapor discharge devices to use solid ignition electrodes which are immersed in the liquid cathode and which consist of consist of a semiconductor and a non-conductor. The older ignition electrode bodies of this type are designed either as round bars or as prismatic bodies, which are inserted into the catholyte either vertically or at an angle. Even Ignition electrode bodies have become known, which are penetrated from below by the catholyte are inserted and protrude with a tip from the catholyte. It it is also known to use bodies with a rough surface for these ignition electrodes, which have numerous points and edges on their surface, so that at the transition between. Ignition electrode and mercury make high field and current concentrations develop.

These known ignition electrodes have the disadvantage that they are light pollute and that the ignition conditions become uneven.

According to the present invention, these disadvantages are avoided by that the ignition body has a smooth surface and the points of high curvature through bevels or recesses of greater length extending along the igniter body are formed. The inventive design of the ignition electrode has the special Advantage that self-cleaning of the edges occurs during operation, presumably because that currents arise in the mercury at the edges. Those in the aforementioned `` '' ice designed new detonator can. be bevelled downwards. The detonators can be designed as pulp or polygonal prisms and to achieve this if possible have acute edge angles. It is also particularly advantageous to provide the shell of the detonator with deep grooves or grooves. One special simple embodiment is obtained if the detonator is designed as a two-sided, the sides of which form cylinder jacket segments. In the drawing are in Figs. i to 5 different exemplary embodiments are shown.

In the embodiment according to Fig. I, the detonator consists of one Round bar i, which has a bevel 2 at the lower end. In that by the bevel The part of the space formed by the ignition body and the cathode surface form fields high density, in the embodiment according to Fig. z is the tip of the ignition rod designed as a wedge and denoted by 3. In this embodiment one achieves high field densities between the wedge surfaces 3 and the cathode surface.

The ignition rod i according to Fig. 3 has a square cross-section. The side faces are, as can be seen from the drawing, fluted so that the edge angles q. become very pointed. In 'the edge angle q. fields of high density are formed.

Fig.q. shows one of the fig-. 3 corresponding embodiment with triangular Cross-section. Here, too, the edge angles 5 are very acute.

In the embodiment according to Fig; 5 finally a two-square was chosen. As can be seen from the drawing, the edges 6 are also very much at the apex here acute angle. The pages. of the two-edge are formed by cylinder jacket segments.

Claims (5)

PATENT CLAIMS: i. Metal vapor discharge apparatus, in particular mercury vapor flow straightener, with an ignition electrode body made of resistance material that is permanently immersed in the catholyte, that for generating fields of high concentration at the contact point of the electrode with the catholyte has places of high curvature, characterized in that that the detonator has a smooth surface and the points of high curvature through bevels or recesses of greater length extending along the igniter body are formed. a. Discharge apparatus according to claim r, characterized in that the ignition body is bevelled downwards. 3: Discharge apparatus according to claim z, characterized in that the detonator as a triangular or polygonal prism is trained. q .. Discharge apparatus according to claim i, characterized in that that the ignition body is designed as a two-sided edge, the sides of which are cylinder jacket segments form: 5. Discharge apparatus according to claim 3, characterized in that the sides of the detonator are grooved.