DE736961C - Ion discharge tubes with a vessel wall at least partially made of glass, in which the electrodes are located close together in a common discharge space - Google Patents

Description

Ion discharge tube with at least partially made of glass Vessel wall in which the electrodes are close together in a common discharge space The subject of the invention is an ion discharge tube with at least partially made of glass vessel wall in which the electrodes are in a joint Discharge space are close together and several of them by one or more electrostatic screens are separated from each other and in which the anodes are in one or several separate groups are arranged, each of which in a respective one Number of cavities housed in a screen consisting of a block are.

As the ion discharge tube, a discharge tube with one of a or several gases or vapors or a mixture of both existing filling to understand their pressure between the limits of a few microns to some Centimeter of mercury.

In practice, such screens are used for higher anode alternating voltages certain types of tubes are already widely used, especially in tubes with several Anodes for two or more phase anode currents.

Some of these screens are made of metal, at least enclose them partially, the associated electrodes and are both in a each anode for encompassing as well as in a simultaneously encompassing all anodes Executed design.

It is also proposed to use solid bodies, the cavities for the anodes, but without there being any information about the substance, from which such solid bodies have to consist. However, it is known for rectifiers Manufacture electrodes and shields from graphite.

For the use of carbon or graphite as a building material for such Hollowed blocks have various advantages. Except for the fact that the design itself takes up a relatively smaller space claimed, can be the production and holding of such block-shaped screens can be done very easily and quickly. Above all, however, both the anodes and the cathode can be accommodated in the same screen block by according to the invention, the cavities provided in this block for the anodes symmetrically and parallel to each other and also the cathode in an additional cavity made mainly of carbon or graphite existing Block is housed, which cavity is conveniently perpendicular to the for the Anodes certain cavities is arranged. In this way it is possible to e.g. B. to arrange the anodes in the axial direction of the tube, but the cathode in the common shape of a cylindrical helix perpendicular to the tube axis on two to this parallel and vacuum-tight on the side facing away from the anodes to fasten the tube wall passed through electrode carriers. So they form Anodes and the cathode, which are as close together as possible and shared by one Block surrounded as an umbrella, one in a more or less tubular shape Discharge vessel arranged in such a way that the anodes at one end and the cathode at the other end of the tube is isolated and vacuum-tight by the wall of the discharge vessel are passed through. This results in the installation in the associated Apparatus the greatest conceivable space saving and a very good overview of the electrical connections.

The cooling conditions can still be improved considerably, if in the screen the heat radiation facilitating openings are recessed, z. B. on the outside of the block, i.e. in the most favorable direction for the broadcast, without going so far as to create the formation of lines of force high field strength between the electrodes, the mutual shielding of the same makes ineffective. This would be the case if the electrodes were connected to each other e.g. B. at the already very small electrode gaps could see how to express this maintains. The screen must always be a small distance between the electrodes protrude.

If the electrical connection of the screens is made through the vessel wall leads through isolated to the outside, it is possible to use the same ones potentials to apply, which are related to the ignition of the discharge or the prevention of back discharges in the given case as the most suitable. -The attachment of the screen in the correct position can advantageously be done in such a way that the for the anodes determined cavities arranged parallel and symmetrically to one another the screen does not fully enforce, and that for the passage of the isolated Anode carrier in the extension of the cavities and holes in their axial direction are provided, in which the insulating tubes of the anode support fit exactly, so that a backlash-free attachment of the screen on this carrier is ensured and consequently only a simple securing of the position of the block in the axial direction is required by a screwed-in pin. This can then also be used the electrical connection for the implementation through the vessel wall can be attached. The fact that the insulating tubes of the anode support in the last-mentioned holes intervene exactly on the back of the anodes, i.e. at the point w o these pass into the anode carriers and the risk of the discharge breaking through to the anode support is greatest, a reliable termination and good shielding achieved in a simple manner.

The invention is shown in more detail in the drawing using an exemplary embodiment explained. Figs. I a and i b show an embodiment of the invention.

In Fig. Ia there are in the substantially cylindrical discharge vessel i at the upper end three on z. B. by insulating tubes ¢ made of porcelain anode supports 3 screwed anodes 2. The anode supports 3 are attached to chrome iron plates 5, on which threaded pieces 6 are attached to the outside for connecting the anode power supplies. The platelets 5 are fused to the glass wall of the discharge vessel i in a vacuum-tight manner. Via the insulating pipes q. a graphite block 7, which shields the anodes from one another and carries a hollow cylindrical graphite screen 8 for the oxide cathode 9, is pushed on its underside. The screen 8 is connected by means of a screwed-in pin io to the support ii, which is attached in an insulated manner to the glass of the anode melt-down point. A connection 12 leads from the pin io to the chrome iron plate 13, which is received in the glass wall as a lead-through for the electrical connection. The cathode 9 is connected by means of cathode support i ¢ with the fused to the glass wall in the same manner as the plate 13 plate 1 5, are attached to the outer side of copper strips 16 for the Glühstromzufuhr. In order to facilitate the radiation of heat, lateral openings 17 can also be provided in the graphite block 7.

Claims (3)

PATENT CLAIMS: i. Ion discharge tube with a vessel wall at least partially made of glass, in which the electrodes are located close together in a common discharge space, several of them are separated from one another by one or more electrostatic screens and in which the anodes are arranged in one or more separate groups of each of which are housed in a corresponding number of cavities of a screen consisting of a block, characterized in that the anodes are arranged in symmetrical and parallel cavities and the cathode in an expediently perpendicular cavity of a single block consisting mainly of carbon or graphite are. 2. ion discharge tube according to claim i, characterized in that in the screen. facilitating heat radiation openings are left out without the there! through the conditional formation of lines of force large field strength between the) electrodes the mutual shielding of the same makes ineffective. 3. Ion discharge tube with a screen according to one of the preceding Claims, characterized in that this screen is through the wall of the discharge tube is passed through isolated. q .. Electrostatic screen in an ion discharge tube according to one of claims 2 and 3, characterized in that the for the anodes certain cavities arranged parallel and symmetrically to one another form the screen not quite enforce and that for the passage of the isolated anode support bores provided in the extension of the cavities and in the axial direction thereof are, in which the insulating tubes of the anode support fit exactly, so that a backlash-free attachment of the umbrella is secured on these carriers.