DE1051988B - Electron tubes with means for shielding the bottom part from the anode compartment - Google Patents

Description

GERMAN

The invention relates to an electron tube, in particular a diode rectifier tube, for high voltages, which is assembled in a robust manner and a relatively high energy can let through.

In the case of highly stressed electrodes, in particular anodes, which form part of the tubular bulb, is it is desirable to ensure that the heat is not excessively applied to the melting point. Therefore one has already made the connection of an anode with a glass part of the bulb wall with the help a special metal body, which is connected on the one hand to the anode and on the other hand to the glass part is. In addition, direct heat radiation from the cathode to the melting point must be avoided. If high operating voltages are used, the glass parts and must also be shielded in particular the melting point can be provided against electron bombardment. So far this has to be quite intricate shields.

The invention aims to achieve the objects indicated above in a simple manner, so that a cheap mass production of the tubes in question becomes possible.

In the case of an electron tube for high voltages, in particular a diode rectifier tube, its wall by an anode, a glass bottom part of approximately the same diameter and a cylindrical one Metal body, which connects the anode and the glass bottom part to one another, is formed, and in which a cathode is mounted within the anode and means for shielding the bottom part from the Anode compartment are provided, according to the invention, the cylindrical metal body is thin-walled and with two flanges and has an inner diameter that is smaller than that for the purpose of shielding the remaining piston parts.

A tube of the type mentioned above can be mass-produced cheaply.

The invention is explained in more detail with reference to a drawing which shows a section of an embodiment shows the discharge tube according to the invention.

The diode shown in the drawing contains an anode 10 and an indirectly heated cathode 11. The anode 10, which can be made of copper, consists of a solid, rigid shell which forms part of the tube wall. The outer shape of the cathode 11 is similar to the inner shape of the anode 10, but smaller than this. The cathode also has a cylindrical and a spherical part, which parts form a whole and both can emit electrons. The cathode is arranged concentrically to the anode so that the distance of the emission surface from the anode is the same everywhere and therefore electron tube with means
for shielding the bottom part
from the anode compartment

Applicant:
NV Philips' Gloeilampenfabrieken _r
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority:
V. St. v. America March 15, 1955

George Rybakoff, Long Island, NY (V. St. A.),
has been named as the inventor

also the stress gradient between these surfaces is the same everywhere, which makes the available Cathode and anode surfaces can be fully utilized. The dimensions of the tube can can be kept small, since the tube can process a relatively large amount of energy.

The cathode 11 is kept at emission temperature by an inner heating coil 20. The other one Part of the tube shell is through a cylindrical glass part 51, for. B. from borosilicate glass, and by a with two flanged cylindrical metal part 50, e.g. B. made of an iron-nickel-cobalt alloy, formed, which is fused to the glass part 51. The metal part 50 has a constriction, so that the interior of the tube between the anode 10 and the glass bottom part 51 is constricted. The cylin-. the 50 is fused at one end with one flange to the glass part 51, while the other End is connected to the other flange with the copper anode 10.

This construction gives a simple, robust whole, while the tube is can be produced cheaply and easily. The cylindrical constriction of the metal part 50 divides the Vacuum tube in two parts and serves as a shield against heat radiation and the flow of electrons from the top to the bottom half of the tube. As a result of the heat shielding, the energy

809 768/404

Claims (1)

supply to the incandescent body can be reduced, which significantly saves input energy. As a shield against the flow of electrons, the metal part prevents the melting point of the ring 50 with the glass part 51 and the other glass parts from being bombarded by electrons, so that damage is avoided. The leads to the cathode of the tube are designed coaxially in the illustrated embodiment. An outer cylindrical conductor 53 is fused in the ground and electrically connected by conductor 54 to one end of the incandescent body 20 , and an inner cylindrical conductor 55 is connected to the cathode 11 and the other end of the incandescent body 20 by conductor 56 . The inner conductor 55 is closed by a metal cap 57 . The vent tube of the tube is located above the anode 10 and consists of a pressed metal tube 59 which is covered by a metal shielding cap 60 . Claim:
Electron tubes for high voltages, in particular diode rectifier tubes, the wall of which is formed by an anode, a glass bottom part of approximately the same diameter and a cylindrical metal body which connects the anode and the glass bottom part with one another, and in which the cathode is mounted inside the anode and means are provided for shielding the bottom part from the anode space, characterized in that the cylindrical metal body is thin-walled and provided with two flanges and, for the purpose of shielding, has an inner diameter which is smaller than that of the other piston parts. Considered publications:
British Patent Nos. 644,635, 659,797;
U.S. Patents Nos. 2,112,958, 2,616,040,
056. 1 sheet of drawings © 809768/404 2.59