DE574812C - High-performance tubes with tubular glow cathode heated by an auxiliary cathode arranged inside them by means of electron radiation - Google Patents

Description

ISSUED AU
APRIL 22, 1933

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21g GROUP 13

Siemens & Halske Akt.-Ges. in Berlin-Siemensstadt *)

Patented in the German Empire on May 20, 1930

For high-performance tubes with a hot cathode, ζ. B. valve tubes or transmission tubes, the tube power From many to hundreds of kilowatts, the hot cathodes are not powered directly by electrical ones Electricity heated, but by electron irradiation by means of an auxiliary discharge. Here, the cathode is tubular and an auxiliary cathode is located in the axis of the tube arranged. A voltage is applied between the auxiliary cathode and the cathode tube, so that electron beams are emitted from the auxiliary cathode go out, at the appropriate speed on the inner wall of the cathode tube bounce and heat this. Here, however, come through as a result of the heat dissipation. Bracket parts the ends The temperature of the cathode tube is not as high as that of the central part. This has the disadvantage that not the whole cathode emits evenly, but individual parts of the cathode especially strong. In order to get the necessary tube power, it is necessary to have the To heat the cathode very strongly, so that little

25. At least some parts of the cathode receive such a high temperature that they reach the required level Submit total emission. Naturally, overuse occurs at these points of the cathode material, which results in rapid evaporation, so that the life of such tubes is short. An attempt has now been made, ■ by special Type of one arranged between the auxiliary cathode and the cathode tube serving as anode Grid to achieve even heating of the pipe over the entire length. That has also been achieved; but the arrangement is quite intricate, and it is a simpler solution to the same problem is desired.

The invention relates to such a particularly simple solution. She goes from that Thought out the heat radiation from the glowing tubular cathode to the Reduce places where the cathode heats through. Heat dissipation after the bracket parts loses. This can be achieved in a simple manner by providing the ends of the tubular cathode with protective screens be surrounded. These are expediently made of metal such as tantalum, tungsten or the like and take the form of several coaxially nested cylindrical Rings of different diameters. This is shown in the attached drawing shown omitting the parts of the transmitter tube that are not considered here. 1 means the tubular hot cathode, the "through an auxiliary incandescent cathode stretched out in its axis under the input

*) The patent seeker indicated the following as the inventors:

Sigurd Ganswindt and Dr. Kurt Matthies in Berlin-Siemensstadt.

The flow of an auxiliary voltage is heated by means of impinging electrons. The pipe ι is carried at the two ends of mounting parts, the metal sheets 5, which of course dissipate some of the heat generated by the electron impact. The endings will therefore be special, if not special Precautions are taken to be cooler than the central part of the tube 1, which is part of the gives off developed amounts of heat only through radiation. According to the invention, the two ends with radiation cylinders 2, 3, 4, which are cut on one side and shown in full on the other. the The cylinders are fastened by riveting together by means of the rivets 6 with insertion of spacers 7. These are distributed in small numbers (three or four) around the circumference and have a small cross-section, see above that no noticeable heat dissipation occurs.

The cylinders are appropriately polished. It may be advantageous to increase the height of the different radiation screens.

The use of radiation screens according to the invention requires, as already said, an increase in the temperature at the ends surrounded by the radiation shields and thus also at the ends adjacent to these ends Split the cathode tube. Is the temperature at these parts of the cathode tube but higher, it is no longer necessary to heat the cathode so much, that only a small part of the cathode surface takes over the effective electron emission, rather, a certain temperature equalization occurs, so that the total surface the cathode or at least the majority of the surface has an almost uniform temperature and is the starting point of electron emission.

Similar considerations also apply to the one attached inside the cathode tube Heating wire whose temperature curve is broadly the same as the temperature curve in the cathode tube is equivalent to. Here, too, particularly high temperatures occur as a result of reflection in the middle, so that severe wear and tear this thread is made. The formation of radiation shields according to the invention here too, albeit only indirectly, ensures a more even temperature profile on the cathode filament.

Claims (3)

Patent claims: 1. High-performance tube with a tubular, one of which is arranged in its interior Auxiliary cathode heated by means of electron irradiation, marked by means of radiation shields arranged at the ends of the hot cathode, which reduce the heat losses at the ends through radiation decrease compared to the middle parts so that the cathode is heated evenly over the entire length. 2. High-performance tube according to claim 1, characterized by the ends of the hot cathode completely encompassing radiation shields. 3. High-performance tube according to claim 2, characterized by radiation screens from several coaxial cylinders with different diameters, which are expedient only form narrow spaces. 1 sheet of drawings