DE541710C - Cathode ray tubes with a ray exit window cooled by a coolant - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
JANUARY 19, 1832

REICH PATENT OFFICE

PATENT LETTERING

JVi 541710 CLASS 21 g GROUP

CHF Müller Akt.-Ges. in Hamburg-Fuhlsbüttel ^::)

The invention relates to a cathode ray tube used for therapeutic Purposes for sterilizing foodstuffs and luxury foods and for other treatment of organic and inorganic substances is suitable. With such cathode rays f The anode acts as a window (so-called lenard window) for the cathode rays to exit formed and for this purpose mostly from a thin, foil-like metal plate manufactured. As the anode moves during operation of the tube as a result of the impact of the cathode rays hitting it at high speed strongly heated, care must be taken that the anode plate despite its thin walls is not damaged by the high temperatures that occur.

For this purpose, the cooling of the Lenard window has already been proposed in this way That the window is open opposite to it, for the passage of the cathode rays to be treated liquid serving chamber was upstream. This facility shows the disadvantage that they use the cathode ray tubes for the treatment of solid Makes substances impossible because of the considerable thickness of the cooling liquid in the window upstream chamber results in an almost complete absorption of the cathode rays would have. The cathode rays could therefore only affect part of the cooling liquid

come into effect, but not on those separated from the window by the cooling chamber Fabrics.

It has also already been proposed, in the case of X-ray tubes, to fling the atomized cooling liquid inside the anticathode directly against its rear wall. It is also known, in the case of discharge tubes, to direct a jet of the cooling liquid supplied through a tube in an almost closed form at 90 ^° to an outer electrode of the discharge tube, the cooling liquid flowing down the outer electrode. However, these devices cannot be used for cooling the lenard window in cathode ray tubes because the very thin, mechanically non-resistant window would not be able to withstand the impact of the cooling liquid hitting it under pressure in the long term. "

According to the invention, an effective cooling of the window of cathode ray tubes is achieved achieved without mechanical stress on the window that parallel to the window to it or at a very small angle a liquid veil of such low thickness, serving only as a coolant, sweeps past it, that cathode rays pass through the liquid curtain for usability. With this device, there is no noteworthy effect due to the thin liquid curtain Absorption of cathode rays occurs,

") The patent seeker stated as the inventor:

Dr.-Ing. Hans Molassen in Berlin-Zehlendorf.

enables the treatment of solids by the cathode rays. The establishment after the invention is also characterized by durability because damage of the window by passing it parallel to it or at a very small angle Liquid haze is avoided.

In Fig. Ι is an embodiment of the invention, a cathode ray tube built according to this with hot cathode shown schematically in view, while Fig. 2 shows a modification the cooling device of the tube illustrated.

The cathode ray tube shown in Fig. Ι consists of the essentially cylindrical Hollow glass body 1, its inwardly directed glass carrier 2 for fastening the hot cathode 3 serves, which is heated by a heating transformer 4 in a known manner. The the Incandescent cathode 3 opposite end wall 5 of the tube is made of metal and with fused to the hollow glass body 1 in a known manner. The middle one, right to escape Part of the end wall 5 lying on the hot cathode is formed by the, for example, metal foil, taken at the same time serving as the radiation passage window anode 6. The tube is made for example by a transformer 7 operated, the secondary winding through the lines 8 and 9 with the hot cathode 3 or the anode 6 is connected. In the case of the tube according to FIG. 1, the anode 6 is cooled through from the nozzle 10 in fine distribution of incoming liquid curtain that is parallel to it or at the anode sweeps past at a very small angle. Those lying above the anode for this purpose, Downwardly opening nozzle 10 is through a line 12 provided with a shut-off element 11 connected to an elevated tank 13 for the cooling liquid. The one emerging from the nozzle 10 A veil of liquid brushes past the heated anode 6. Depending on the amount of liquid supplied, it either trickles at the anode 6 continuously or occurs with the anode by evaporation in increased Heat exchange. In any case, an effective cooling of the anode 6 is achieved.

In the modification of the cooling device according to FIG. 2, the one made of a tube 14 incoming cooling liquid by means of a flow of air or steam supplied by means of the pipe 15 finely atomized and arrives in this state on the anode plate 6. Here too the tubes 14,15 are arranged with their mouths to the side of the anode so that the through them supplied, spreading like a veil of cooling liquid parallel or below sweeps past the anode at a very small angle, i.e. the anode is not mechanically stressed.

Of course, other means, e.g. B. a shower or the like., can be used. In addition to water, the coolant used is easily evaporable, incombustible liquids, e.g. B. Carbon tetrachloride for use.

The invention can also be used for cathode ray tubes constructed as ion tubes.

Claims (1)

Claim: Cathode ray tube with a ray exit window cooled by a cooling liquid, characterized in that on the window parallel to it or at a very small angle a merely as Coolant liquid curtain of such a small thickness sweeps past that cathode rays pass through the liquid curtain for utilization. 1 sheet of drawings