DE617227C - Cathode for high voltage discharge vessels - Google Patents

Description

GERMAN EMPIRE

ISSUED ON AUGUST 15, 1935

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21g GROUP 17

C. H. F. Müller Akt.-Ges. in Hamburg-Fuhlsbüttel *)

Cathode for high voltage discharge vessels

Patented in the German Empire on December 8, 1931

In X-ray tubes, but also other discharge vessels, that of the generation of. X-rays do not serve immediately, occurs often an X-ray radiation in the direction of the cathode inlet from the discharge vessel outward. To prevent such unwanted X-rays from escaping, the cathode side To prevent this, you already have a metal screen inside the tube

xo arranged behind the actual cathode. It has also been proposed, outside the vacuum, in the glass neck part that the Receives leads to the cathode to arrange a metal disc to prevent the axial exit of the beam. The former Measure has the disadvantage that larger metal masses into the interior the vacuum must be brought, which are difficult to degas. The well-known one

ao direction, on the other hand, in which such a metal part is arranged in the interior of the glass neck is, has the disadvantage that there the radiation protection is far too far away from the Cathode is located, so that only a small part of the strongly scattered radiation is held back.

The subject matter of the present invention combines the advantages of a directly behind the Cathode arranged radiation protection shield

₃ ö with the advantage of doing without parts inside the tube that are difficult to degas. According to the invention, the actual carrier of the cathode is formed by a cylindrical metal beaker which is fused in a high vacuum-tight manner to a glass tube, which in turn is fused into the cathodic glass neck in a known manner. Such a cathode is easy to degas by external heating means which can be introduced into the interior of the cylindrical metal can. In addition, after the degassing, an X-ray absorbing layer can be applied to the bottom of this metal cup, which layer can consist of metallic lead, for example. If necessary, the bottom of the cylindrical metal cup itself can be designed with such a wall thickness that the arrangement of special radiation protection means is not necessary. Another advantage of this cathode neck is the possibility of connecting a metal cooling rod to the cylindrical metal part in a known manner, which allows permanent dissipation of the heat generated at the cathode or, hollow design, the supply of a liquid or gaseous coolant to the cathode.

The figure shows an embodiment of a cathode according to the invention. With the glass tube 1 is vacuum tightly fused the cylindrical metal cup 2, on which 'the actual cathode

*) The patent seeker stated as the inventor:

Robert Arthur Alfred Krutssch in Eindhoven.

body 3 is attached by suitable means / is it a discharge vessel with thermionic discharge, an incandescent coil 4 can be placed in the cavity of the cathode S be inserted; ^ whose one feed is connected to the cathode body 3 and whose other supply is led out through the insulating tube 5 from the cathode. In order to prevent this feed from touching the metal parts 3 and 2, the same can partially or entirely with one. Insulating tube 6 be coated, which is expediently attached to the cathode body by a Ring 7 is supported. The Out?

Leading this supply line from the vacuum of the tube can be done, for example, that the glass tube 1 is interrupted by a fused metal ring 8 on which the supply to the hot cathode 4. is connected. With the metal body 2 can through suitable means a cooling rod 9 can be connected.

Claims (3)

Patent claims: 1. Cathode for high-voltage discharge vessels with on a metal hollow body, which fused in a high vacuum-tight manner with a glass support tube is attached cathode body, characterized in that the cathode body is directly above the bottom of the metal Hollow body is arranged and this bottom is designed such that it practically adf the X-rays hitting it absorbed. 2. Cathode for high-voltage discharge vessels according to Claim 1, characterized in that the bottom of the metallic hollow body (2) with a radiation-absorbing layer, for example made of metallic lead, is covered. 3. Cathode according to claim 1 and 2, characterized in that with the metal body (2) a cooling rod is connected. 1 sheet of drawings