DE578151C - Electric gas discharge tubes with light emission through the positive column and with a metal container connected as a cathode and containing an easily vaporizable metal - Google Patents

Description

GERMAN EMPIRE

ISSUE Al JUNE 10, 1933,

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21 f GROUP 82 oi

containing metal containers

Patented in the German Empire on November 18, 1931

The invention relates to an electric gas discharge tube in which the light emission in a known manner by using a positive column visible in the axial direction a metal container connected as a cathode and an annular anode takes place, which is placed in front of the cathode in the direction of light emission. To at Such gas discharge tubes reduce the ignition voltage and the atomization To reduce the cathode, you already have the electrodes with the cathode fall-lowering Substances, such as in particular alkali metals and alkaline earth metals, coated. The latter metals take here how known not to participate in the light emission, since the electrodes on an evaporation the coating metals inducing temperature do not come when operating the tubes.

From known gas discharge tubes of this type, the subject of the differs Invention forming gas discharge tube essentially in that the length or Depth of an easily vaporizable metal, such as sodium, cesium, or cadmium, containing metallic cathode container the distance of its with a central Through hole for the discharge provided container top wall from the annular Anode by more than twice.

With this configuration of the tube, not only is the entire cathode drop area formed, but also part of the positive column of the discharge inside the cathode from what has the effect that the cathode is not up to glow emission, however after all, it is heated extremely strongly. The metal contained in the cathode is thereby brought to a high degree to vaporize and participate in the light emission. In this way you get a particularly intense, especially for television purposes, but possibly also a light source that is well suited for other purposes.

The drawing shows an embodiment of one designed according to the invention electrical gas discharge tube schematically: shown in vertical section.

The gas discharge tube shown has a cylindrical glass vessel 1, which is inside a metal container 2 receives. The latter is connected as a cathode and to this Purpose connected to the cathode lead 3. The metal container 2 has a

*) The patent seeker stated as the inventor:

Georg Gaidies in Berlin-Pankow.

Top wall 4 with a centrally arranged inwardly drawn pipe socket 5. The metal container 2 is preceded by a metal ring 6 in the direction of the intended light emission, which is connected as an anode and is accordingly connected to the anode lead 7. The top wall in front of the anode ring 8 of the vessel is expediently designed flat. If necessary, the top wall can also consist of a particularly flat one Stained glass windows are made. The inside of the container-shaped cathode contains an easily vaporizable one Metal such as sodium, cesium, or cadmium. The length or depth of the container-shaped electrode exceeds according to the invention the distance of their cover 4 from the annular anode by a multiple, so that when the tube is switched on by the effect of the cathode drop area and thus part of the positive column the interior the cathode and thus the easily vaporizable metal housed in it Dimensions to be heated. For example, a neon-helium mixture of The tube with about 3 mm pressure, whose Electrode spacing is about 10 mm and its container-shaped cathode at about 60 mm deep has a diameter of about 20 mm, the cathode when applied a current of about 50 milliamps safely heated to 200 to 300 ° C. With such a However, the temperature which is accommodated in the cathode becomes easily evaporable Metals, especially sodium, already in a sufficient amount for light emission Dimensions evaporated.

The container-shaped cathode expediently takes up most of the length of the discharge vessel. Also, the discharge vessel is both from the cathode as also filled from the anode in the transverse direction except for a small annular gap to a to prevent harmful attachment of the discharge to the outer edges of the two electrodes.

The pipe socket 5 located on the top wall of the container-shaped electrode is used on the one hand to keeping the positive pillar safely and centrally, and on the other hand also to that Retain vaporizable metal in the cathode.

The two electrodes can optionally also be given a somewhat different shape. The power supply lines can also be arranged differently. It is possibly possible to arrange them on one side of the discharge vessel. Gradual condensation of the vaporizable metal in unwanted places can be attached to the outside Heat protection or heating jackets can be prevented in a manner known per se.

Claims (3)

Patent claims: i. Electric gas discharge tube with light emission through an axial direction visible positive column, with one connected as a cathode, a slightly Metal containers containing vaporizable metal such as sodium, cesium or cadmium is preceded by an annular anode, characterized in that the length or depth of the cathode container the distance between its provided with a central through hole for the discharge Tank top wall from the annular anode by more than twice. 2. Electric discharge tube according to Claim 1, characterized in that the top wall of the container-shaped cathode has an inwardly drawn pipe socket. 3. Electric gas discharge tube according to claim 1 and 2, characterized in that that both the container-shaped cathode and the preceding annular Anode the discharge vessel in the transverse direction except for a small annular gap to complete. 1 sheet of drawings