DE748908C - Two-pole discharge tubes for rectifying very short-wave vibrations - Google Patents

Description

Two-pole discharge tube for rectifying very short-wave vibrations Addition to patent 714 742 The subject of main patent 71a.742 is a two-pole Discharge tube for rectifying very short-wave vibrations with a hot cathode and an anode in which the emission layer is the cathode and the anode surface when the cathode is unheated, they lie firmly on top of each other and are heated up by the cathode support adjust due to its thermal expansion in the desired distance. To be more precise To enable adjustment of the electrode spacing, according to the invention Setting the correct distance between cathode and anode by means of an additional Supports heating of the anode. The advantage achieved by this is that it the cathode temperature is not necessary to regulate the length of the discharge path to change. Rather, the cathode temperature can be determined exclusively by the desired emission current intensity can be measured according to the given criteria. Several exemplary embodiments are shown schematically in the drawing. In fig. i the vacuum vessel 2 is closed off by a bottom i made of glass or ceramic, in the for supplying the cathode heating current and for supporting the cathode carrier serving bushings .1. and 8 and the corresponding bushings 11, 12 and 15 for the anode 3 are melted in a vacuum-tight manner. The cathode support is made of three parts 5, 13 and 1d assembled in the form of a U. One adapts to the Mica washer 6 resting against the bulb wall ensures the lateral alignment of the cathode and anode. The cathode support encloses a heating wire 7 and has a special one Connection 8 provided. The end face opposite the end face of the anode 3 of the cathode carrier part rd carries an emission layer 9. The anode 3 encloses also a heating wire io insulated from it, which is connected to bushings i1, 12 connected is. When the cathode is unheated, the emission layer lies g and the end face of the anode 3 firmly on top of one another. When the cathode is on the prescribed If the emission temperature is heated to 700 ° C., for example, the cathode support expands the end. By measuring the shape of the cathode support or% v. its different Components can, as described in the main patent, achieve that the cathode layer of. the anode lifts off. A fine adjustment of the distance between Cathode layer and anode are now made possible in the marked rolire, that the heating coil io the anode current is supplied. Due to the longitudinal expansion the anode occurs in the example, a shortening of the electrode spacing can be finely regulated by means of the current sent through the heating wire. '-Man must of course take care of the arrangement shown, claß the cathode distance achieved by the cathode heating is somewhat larger than necessary is. Preheating the anode also has the advantage that the anode is heated due to the anode loss for the resulting thermal expansion, less ins Court falls that this power loss is generally small compared to the heating power is.

Of course, = \ nordiititigcii can also be found for which the anode preheating in the same sense as the cathode heating to an enlargement of the electrode gap. Such an embodiment is shown in FIG. There the anode has a similar shape to the cathode, but it is all that opposite side of the vacuum vessel attached and led out-This is also for insulation reasons and for capacitive decoupling of the cathode and anode connections full advantage. The heating current leads for the anode could also do all of the same Side how the Kathodenheizstroniculeitungen are led out, especially since F_ntl hurried: coupling the heating supply lines is insignificant. For better mechanical guidance of the Expanding electrode parts are preceded by a further insulating bridge 17.

In some cases it is useful to use the active, i. 11. All the parts of the anode involved in the discharge and / or the k of their support electrically isolate. This can e.g. B. to reduce the electrode capacity to be necessary. One embodiment of a finite insulated anode, the rest of the Fig. I is shown in Fig. 3. The anode consists of a heating wire io unlocking,; suffered lower end anchored body 18, from that of the discharge exposed metal or carbon parts I 2o is separated by an insulating layer ig. The power supply to the active anode part 2o takes place via a supply line a l, which to the lsnil: oliplung from the cathode leads out only at the upper end of the bulb is. .. Embodiments of the l-ring are also conceivable in which the anode support ordered from a bimetal strip, which is wrapped around it by vain or Heat all of the adjacent heating coils inelir or less and thereby bend them 1ä ß. so <1a1.1) the length of the discharge path can thereby be regulated.

Sufficient for the intended fine adjustment of the electrode spacing already anode temperatures that are considerably lower than the cathode temperature. For this reason there is no thermal emission of the oil roll due to the preheating to fear. As a precaution, however, the anode can be painted in well known ways deactivate.

Claims (1)

PATENT CLAIMS: i. Two-pole discharge tube for rectification very short-wave oscillations according to patent 71d.;.; 2, called the emission layer the cathode and the anode surface lie firmly on top of one another when the cathode is not heated and by heating the cathode support due to its thermal expansion in the Set the desired distance, this means that the anode is also indicated a heating device is provided. Discharge tube according to claim i, characterized in that characterized in that the discharge current leading part of the .allolle against the Carrier is electrically isolated. 3. Discharge tube according to claim i, characterized in that dal3 ordered the anode from a bimetallic strip enclosed by a heating coil is. Discharge tube according to Claim 1, characterized in that the anode power supply line and preferably also the anode heating supply lines of the opposite style Side of the "battery vessel" how the cathode leads are designed. For delimitation of the subject of the application from the state of the art are in the Er. sharing procedure no Pamphlets have been considered.