DE572566C - Electrical discharge tubes for receiving or amplifying electrical vibrations - Google Patents

Description

The invention relates to an electric discharge tube for reception or the amplification of electrical vibrations. It has already been suggested that To arrange control grid of such a tube outside of the vacuum space and the envelope to give an elongated, flattened cross-section. The control grid can, for. B. as a metal cladding on the outer wall

ίο the cover can be arranged. In such Tubing is usually a piece of magnesium to bind the remaining gas residues evaporates.

It has been shown that "this evaporation of magnesium in many cases does not lead to favorable results and insufficient ones Evacuation of the tube. It has now been found that this is the narrow cross-section of the discharge tube is to be ascribed to, whereby only those in the immediate vicinity of the evaporating magnesium remaining gas residues are bound.

According to the invention, these difficulties can be avoided in that in the tube a material, preferably made of zirconium, is introduced, which at Heating without noticeable evaporation can bind gas residues or gas impurities.

The gas-binding effect of this substance does not take place, as is the case with evaporating magnesium is the case, only for a very short time, but rather during the time in which this Substance is kept at the required temperature. This has made a good "Evacuation of the narrow tube identified as possible.

The use of such a non-evaporating substance has particular advantages with it if there is a little mercury in the discharge tubes, as is the case with the discharge tubes used as a detector of the type described be the case can. If magnesium is vaporized in such a tube, it will settle on part of the inner side of the tube wall away. When the mercury comes into contact with this magnesium precipitate, amalgams are formed, which sometimes Cause difficulties. It has also been shown that in those with a little Mercury-filled discharge tubes often precipitate the magnesium on the wall give rise to buzzing sounds. These difficulties are caused by using of the mentioned substance avoided.

The substance which binds the gas residues can advantageously be placed in the tube in such a way that it is heated during operation to the gas binding agent. For this purpose, the fabric, as is known per se for gate fabrics, e.g. B. in F ^ or ^^ ejnesJQiattgs ^ parallel to _{w of} the GlühkatHöfelfein or between the cathode and ... "the ^ anode: _. This arrangement ensures that gas residues that are released in the tube during operation to be bound.

The use of zirconium and other substances, ζ. B. TitoxjundTlj ^ al, in electrical discharge tubes for binding gas residues is known per se. However, the use of these substances in the aforementioned special type of discharge tubes is not known and, as already mentioned, offers considerable advantages.

In the drawing, an embodiment of the invention is shown as an example.

Fig. Ι is a view of a discharge tube according to the invention, and

Figure 2 is a cross-section of this tube along the line H-II.

The discharge tube shown is used for receiving or amplifying electrical signals Vibrations and has a glass envelope 1 which, as can be seen particularly in FIG. 2, so has an elongated, flattened cross-section. Inside the envelope is a hot cathode 2 attached, which is arranged in the vicinity of one of the longitudinal sides of the shell and consists for example of a tungsten wire wound with nickel wire, on the Barium oxide is applied. The lower end of this hot cathode is on. one through the pinch point 4 attached to the outside pole wire 3. The top of the hot cathode is attached by means of a spring 5 to a support wire 6, which is also through the Pinch point is led to the outside and serves as a power supply wire for the cathode.

The anode consists of a metal rod 7,

which is attached to a support wire 8 in such a way that a closed conductive circuit is achieved. The support wire 8 is also fastened in the pinch point 4. The strength of the Electrode arrangement is enlarged in that the various support rods by one Glass rod 9 are connected to one another.

As can be seen from Fig. 2, the control grid 10 is outside the tube envelope arranged. For the sake of clarity, this grid is not shown in FIG can consist of a metal cladding of the outer wall. For this purpose, the Outer wall z. B. be sprayed with aluminum or zinc. It is not necessary that the grid completely encloses the tube, since it is also possible that the grid only has one Part of the circumference of the tube covered.

A zirconium strip is fastened to the anode 7 and is denoted by 11 in FIG. To bind the gas residues left in the discharge tube during venting can the anode 7 by means of eddy currents excited by a high frequency alternating field " be heated. This also makes the zirconium strip 11 to a hol ^ e temperature heated, which is adjusted so that the gas residues are bound by the zirconium. This heating of the zirconium, which takes place during pumping, can lead to a second heating after melting der Roessre "ioigen7 τνοdurοΈΓΈεϊ this melting away free turning gas residues are absorbed.

As already said, a little mercury can be brought into the tube. It is it is also possible to introduce a noble gas into the envelope under low pressure.

Claims (1)

Claim: Electric discharge tube for receiving or amplifying electrical Vibrations with a control grid arranged outside the vacuum space and a shell of elongated, flattened Cross section, characterized in that in the tube, in the mercury can be introduced, a substance, e.g. B. zirconium is present, the at Heating without noticeable evaporation can bind gas residues or gas impurities and preferably in this way Tube is attached that he is required for gas binding during operation Temperature is heated. 1 sheet of drawings