DE955341C - Gas discharge tubes with a screen enclosing the cathode in a pot-shaped manner - Google Patents

Description

With all gas discharge tubes, Dekanntlich has the disadvantage that after a certain operating time the inside of the tube becomes black, the blackening in the region of the cathode being particular is tight. Such a blackening naturally reduces the light yield and the efficiency sinks not insignificantly. Furthermore, it is known that in such tubes extremely '' Heavy loads on the discharge vessel

ίο occur once due to the significant temperature development are caused and also by the bombardment by barium-calcium and strontium particles resulting from the activation. For this reason it is necessary to use a very high quality material for these tubes, with metal vapor high and very high pressure lamps z. B. Quartz. These materials are extraordinary expensive and are very difficult to machine, so that this increases the cost significantly will.

In addition to the stress described above, the specified one occurs during operation Blackening due to the fact that tiny metal particles from the cathode due to the flow of electrons are entrained and stick to the wall of the discharge vessel.

All of these disadvantages are eliminated by the invention. The invention consists in that at a gas discharge tube with a screen enclosing the cathode in a pot-shaped manner, the opposite of the screen to the direction of discharge is open, the open edge of the screen of the face of the

Discharge vessel is approximated to a distance of about ι mm and less. This pot is made appropriately made of ceramic, glass or quartz and keeps all harmful influences from the outside Glass body away from the tube, so that it is made of simple glass even with metal vapor high pressure lamps can be produced, which results in a considerable reduction in costs.

There are already in the most diverse

ίο versions of cathode sheaths become known, which force the electrons in a certain direction or the decision is particularly sensitive Shield areas of the electrode. However, these known designs cannot prevent the particles entrained by the electrodes from entering the discharge space and blacken it over longer periods of operation.

The invention is based on the knowledge that the shot electrode particles are approximately move in a straight direction, but when hitting solid bodies according to the well-known laws of reflection be reflected. In all likelihood, the abas follow from the cathode cracked smallest particles of the movement of the electrons, however, have these opposite one off greater inertia resulting from their mass, so that they move by appropriate means can be stopped. This is done according to the invention in that the pot-like screen with its lower, open edge at a very small distance from the end face of the discharge vessel is arranged opposite. This distance may - as mentioned before - only about 1 mm or be less. If necessary, it can also be used for the multiple braking of the entrained cathode particles creates a kind of labyrinth seal be created that the pot-like screen on the end face of the discharge vessel opposite one or two more pots are arranged, which are located with the one on the cathode Overlap pot.

In the drawing, the invention is shown in two exemplary embodiments (FIGS. 1 and 2).

In detail, 1 means the discharge vessel, 2 the cathode pin, 3 the cathode, 4 the cathode screen, 5 the melt point, 6 the direction the discharge.

When the tube is ignited, there is an extremely strong heating and - as described at the beginning - stress from the smallest shot particles in the area _{t of} the cathode leadthrough. By enveloping the cathode 3 by a screen 4, these stresses are kept from the outer wall of the discharge vessel 1 and the flow of electrons is largely deflected so that the particles carried along are slowed down. If now, as in FIG the direction opposite to the discharge 6 is open, the electrons collide: against 'the end face' of the discharge vessel and are only reflected from here into the light space. During this reversal of direction, the metal particles that are carried along are slowed down again. Since the distance χ "wipe the lower opening of the cup 4 and the end face of the discharge vessel äußeret small, ie ι mm and held less, the entrained metal parts are reflected repeatedly in the pot room, for the most part without the above-· mentioned damage To be able to cause clearance of the piston. If, in addition - as in FIG. 2 - further deflections are forced through the pots 7 and 8, the metal parts carried along can practically no longer get into the light space, so that it remains free of all undesirable foreign bodies. For the electrons themselves, the simple or multiple reversal does not represent an obstacle.

The main advantage achieved by the invention is that once the Efficiency is maintained for a long time, secondly, the service life is increased, and thirdly, the Manufacturing costs can be reduced by using simpler materials.

Claims (2)

PATENT CLAIMS: 1. Gas discharge tube with a cathode cup-shaped enclosing screen, whose The discharge opening is turned away from the discharge direction, characterized in that the open edge of the screen of the end face of the discharge vessel up to a distance of approx. ι mm and less is approximated. 2. Gas discharge tube according to claim 1, characterized in that the pot-like Screen (4) one or two other pots (7, 8) on the face of the discharge vessel (1) are arranged, face one another and form a kind of labyrinth seal with it. Considered publications:
German Patent Nos. 303 183, 602 009; Austrian patent specification No. 169 984,
168 813, 167567; French patent specification No. 850 618. 1 sheet of drawings © 609547/441 6.56 (609 726 12.56)