DE639569C - Water-cooled, dismountable electrical discharge tubes with direct connection to a high-performance pump - Google Patents

Description

The invention relates to an electron tube that can be dismantled and permanently suspended from a pump with cooled anode.

The known three-pole tubes of this type have the usual shape of tubes with cooled anode and! accordingly contain one or more heating filaments, a grid and a cylindrical anode in a coaxial arrangement.

This structure does not allow the various electrodes to be so close together to arrange as it would be desirable for other reasons, as there is a risk that the Electrodes come into contact with one another in the event of inevitable expansions.

Furthermore, in the case of the known separable three-pole tubes, the length of the cylindrical vessel much larger than its diameter, making the tube a long one and represents a more or less narrow channel in which the electrode system is longitudinally is arranged. The opening of the pump nozzle is much smaller than that Cross section of the vessel. This has the disadvantage that the suction speed that emerge from the glowing electrons. the gas is insufficient and, as a result, the pressure in certain parts of the Tube increased. This has disturbances to the consequence that up to the formation of arcs between the electrodes.

Finally, the known three-pole tubes require treatment by electron bombardment, to free the gases trapped in the metal parts of the electrodes do. This is quite a difficult operation, and so have so far such tubes that can be dismantled have not been introduced in practice.

The present invention relates to a water-cooled, collapsible electrical discharge tube with direct connection to a high-performance lamp, its · sealing points are made by known processes (grinding, cementing, pressing), and consists in that evenly formed and superimposed electrodes in a cylindrical Container with a diameter almost equal to or greater than its height, are arranged such that the electrode planes are perpendicular to the cylinder axis and that the orifice cross-section of the pump is approximately equal to the cylinder cross-section.

A tube according to the invention is on the drawing in two mutually perpendicular Projections shown.

The tube contains a metal flange 1, which is attached directly to the air pump

and has a ground surface 2 which is cooled by water and a quartz ring 3 carries. ,.

In this quartz ring there are four parts 4j in two other vertical axes ground, which are also cooled by water will. A metal hood 5 rests on the quartz ring 3, the two separate water spaces contains, one of which is the cooling water for the ground part and the others receive the cooling water for the central cylindrical part 6.

On the upper ground edge 7 of the cylinder 6 either, as in the drawing shown, a head 8 is attached, the inlet and outlet for the cooling water contains, or a part that forms a tight seal and connected to an air pump will.

Inside the quartz ring 3 there is a cylindrical screen 9, also made of Quartz through which the four parts 4 are inserted with a little play. This umbrella is supported at three points by three quartz isolator bells; he serves that To prevent metallization of the quartz triode tube.

The cathode 10 consists of a number of wires which are individually inserted with the aid of a spring be excited. These wires are guided in a cooled part that is attached to one of the Parts 4 is attached, while the other end of each wire to the diametrically opposite one Part 4 is attached. . The grid 11 is also made up of a number formed by wires which are individually clamped between the two other parts 4. The anode is formed by the tube 6. You can see that with the correct mechanical Execution of the construction just described, the grid anywhere near the cathode can be arranged without having to fear contact of the two elements, as the springs prevent any deflection and compensate for the consequences of expansion.

In the treatment that follows the first assembly of the tube, the Water circulation at the anode and replaces part 8 with a ground part, der.an.an the pump is connected; then one sends through the cathode and the grid a current, so that the heating brought about by the radiation of the non-cooled Anode part brings about the degassing.

In the cylinder forming the anode, such a vacuum is created that the he. heated part not the atmospheric pressure

is interjected. As a result one is in ^ * he; Able to put the anode up near yours to heat the melting point.

After such a thermal treatment, the tube can now be used without being exposed to the electron bombardment that has hitherto been the norm needs to be.

Of course, the various sealing points of the tube can also be produced in other ways. Likewise, the quartz housing can be replaced by another housing made of insulating material or even made of metal, in which latter case the electrodes are attached to this housing with the interposition of insulating parts. ⁷ ^

Claims (4)

Patent claims: i. Water-cooled, dismountable electrical discharge tube with direct connection to a high-performance pump, characterized in that the electrodes, which are flat and superimposed so arranged in a cylindrical container whose diameter is almost equal to or greater than its height are that the electrode planes are perpendicular to the cylinder axis and that the mouth cross-section of the pump is approximately equal to the cylinder cross-section 9 ". 2. Tube according to claim i, characterized in that that the cathode and grid each consist of a number of individually tensioned and detachable wires. 3. Tube according to claim 2, characterized in that the cathode wires are arranged perpendicular to the grid wires. 4. Tube according to claim 1, characterized in that two for the anode Water spaces are provided, one of which is the cooling water for the sealing points and the other takes up the cooling water for the actual anode (6), and that the last water space is connected to an air pump in a pretreatment for degassing the anode and the anode through the thermal radiation emanating from the cathode heated by the passage of current or the grid is heated. 1 sheet of drawings