DE766600C - Gas or vapor-filled discharge vessel - Google Patents

Description

ISSUED ON
AUGUST 9, 1951

It is known to control electrode ^ for gas- or to design vapor-filled electrical discharge vessels in such a way that they the enclose the entire discharge path or at least part of it. The tax effect Such electrodes can be improved by providing them with a part that is perpendicular to the discharge path, which leaves one or more openings free for the discharge to pass through. One Such a known control electrode is shown in Fig. ι. With such an electrode heated the part standing transversely to the discharge path is very strong, which leads to thermal Emission and the associated disturbance phenomena can give rise to.

It is known that the parts of the control electrode which enclose the discharge path and to manufacture the electrode part forming the constriction from one piece. the In the known electrodes, however, the arrangement is such that the discharge Heat given off to the electrode is poorly dissipated because the parts of the Electrodes, which form the constriction, radiate strongly against each other.

It is also known to shape a sheet-like control electrode so that its Discharge path in the vicinity of the cathode enveloping part slowly narrowed into a Part passes. The narrowed part of the electrode is followed by a flanged edge,

which partially encloses the narrowed electrode part from the outside. The narrowed part of the The electrode absorbs a lot of heat here, because it is relatively long, and the dissipation this heat is made more difficult by the beaded edge of the electrode sheet. The disadvantages outlined are due to the invention avoided. According to the invention, in the case of a gas or vapor-filled discharge vessel with practically completely enclosing the discharge path between anode and cathode, from one or more than one part existing control electrode between their Ends has at least one constriction constricting the discharge, the inner one Limitation of any narrowing of the control electrode by one with a sharp edge in the Discharge space protruding, transverse to the discharge path part of the control electrode educated. The parts adjoining the sharp edge on both sides are shaped in such a way that the control electrode at the constriction from the Discharge absorbed heat from those adjoining the sharp edge to the outside Parts of the control electrode is radiated freely to the outside.

An electrode arrangement for a tube according to the invention is shown in FIG. This shows a control electrode, which the discharge path between the anode 9 and the Cathode 10 completely encloses and consists of two parts 11 and 12, which approximate with two hemispherical surfaces 6 and 7 merge into one another and along the edge 13 in suitably interconnected, e.g. B. are welded. The discharge touches at their transition from the anode to the cathode only the sharp edge 13 and is relatively little heat from the control electrode. This recorded by the control electrode Heat can now easily be radiated to the outside through the surfaces 6 and 7, which are specially profiled according to the invention will. It is recommended to use a material for the manufacture of the electrode that favors heat radiation, or the surface of the control electrode blacken or roughen. An additional cooling effect can still be achieved if the control electrode, at least in the vicinity of the narrowest point of the discharge path, is made of a material with good thermal conductivity manufactures.

Although it is already known between a cathode and an anode in an electrical Discharge vessel to provide a screen with a sharp-edged round passage opening for the discharge, the known screens are, however, cylindrical and coaxial with the hot cathode that is held by them is enclosed. There are no electrodes, practically the entire discharge path enclose, as is the case with the J invention, apart from the fact that in the known device, the hot cathode is stressed unevenly.

A control electrode for a tube nacli the invention can, as said before, be carried out in one or more parts, depending according to how the tube is to be operated. The control electrode or its parts can over their entire extent or only in the vicinity "of the passage opening for the Discharge, for example, the shape of hemispheres, ellipsoids, paraboloids, truncated cones etc. received. It always remains essential that the from the narrowed part of the Heat radiation emanating from the electrode is radiated well to the outside.

In order to improve the radiation, the control electrode can be used as shown in FIG by a cut in two made across the discharge path through the sharp edge Divide parts. Between the shell 16, which encloses the space of the anode 14, and the Shell 17, which envelops the cathode 15, so a space is left. This improves the heat radiation.

Another exemplary embodiment is shown in FIG. 4. Instead of using curved surfaces here the control electrode between the anode 18 and the cathode 19 by two frustoconical surfaces 20 and 21 formed. This embodiment also leaves several variants to; in particular, the truncated cones can be moved apart. Furthermore, the control electrode can only be placed in the vicinity of the Form the hole for the discharge as truncated cones and, for example, in Let cylindrical parts pass over, which enclose the main electrodes. The selection the individual embodiments depends mainly on the particular design of the Main electrodes.

If a tube according to the invention has a control electrode consisting of more than one part you can put the individual parts at different voltages from each other place. So you can z. B. the two electrode parts according to FIG. 3 different potentials press on.

Claims (7)

PATENT KITCHEN: ⁿ 5 I. Gas or vapor filled discharge vessel with the discharge path between Anode and cathode practically completely enclosing the control electrode consisting of one or more than one part, at least one between their ends the discharge has constricting constriction, characterized in that the inner limitation of each constriction of the control electrode by a sharp edge protruding into the discharge space, is formed transversely to the discharge path part of the control electrode and that the outward to the sharp Edge adjoining parts of the control electrode are shaped in such a way that those of the control electrode at the constriction Amount of heat absorbed by those bordering the sharp edge towards the outside Parts of the control electrode can be radiated freely. 2. Discharge vessel according to claim 1, characterized in that the control electrode is divided by a cut across the discharge path through the sharp edge. 3. Discharge vessel according to claims 1 and 2, characterized in that that the control electrode is conical in the vicinity of the narrowest point of the discharge path. 4. Discharge vessel according to claims 1, 2 or 3, characterized in that that the parts of the control electrode adjoining the sharp edge towards the outside symmetrically or approximately are arranged symmetrically and in mirror image to one another. 5 .. Discharge vessel according to claim 1, characterized in that the control electrode has spherical surfaces or similarly shaped surfaces in the vicinity of the constriction. 6. Discharge vessel according to claim 1 and one of the following claims, characterized characterized in that the control electrode at least in the vicinity of the narrowest point of the discharge path from well thermally conductive material. 7. Discharge vessel according to claim 1 and one of the following claims, characterized characterized in that the heat radiation of the control electrode by choosing a suitable material or is improved by blackening or roughening the electrode surface. To delimit the subject matter of the invention from. State of the art are in the granting procedure the following publications have been considered: British Patent No. 396,998; French patent specification No. 612 138: German patent specification No. 471 749. 1 sheet of drawings © 969 8.51