DE510597C - Electric cathode glow lamp - Google Patents

Description

Electric cathode glow lamp Electric cathode glow lamp are known not only in individual circuits, but also in many cases, such as used for potentiometer purposes, several connected in series. It was therefore already proposed to have several pairs of electrodes in common To accommodate the glass vessel and to connect them to one another in such a way that two or more discharge paths connected in series result.

The aim of the invention is to simplify the construction of such cathode glow lamps, which are provided with several electrodes connected in series, and at the same time to give the lamp a more compact shape. For this purpose, according to the invention, the central electrodes are arranged in the enclosing glass vessel or covered against each other in such a way that two separate discharge attachments are located on each of them, namely one on the surface parts facing one discharge path and a second on that of the other discharge path facing surface parts can form. Each of the central electrodes thus acts with one surface part as an anode and at the same time with the other surface part as a cathode, which naturally reduces the number of built-in electrodes and the space they take up. The middle, double-acting electrodes can consist of metallic cylindrical bodies arranged next to one another, resting against the inner wall of the vessel, so that the inner wall of the vessel then forms an insulating separating layer between the surface parts of these central electrodes facing two adjacent discharge paths or prevents them from forming on each of the central electrodes forms a coherent glow layer covering the entire surface. A particularly compact design of the new cathode glow lamp results when the middle electrodes consist of concentrically nested metal hollow vessels, which are covered on their open edge parts lying in one plane by an insulating plate placed against them, since the glass vessel then only corresponds to the length of the largest built-in electrode , that is to say a single electrode, needs to be adapted, if only a single lamp base is provided.

In the drawing are two exemplary embodiments according to the invention trained cathode glow lamps shown in section.

The cathode glow lamp according to Fig. I consists in a known way of a glass vessel i filled with noble gases, which is attached at both ends with fused-in foot pipes 2, 3 for the airtight introduction of the power supply wires 4 ', 5 connected to the electrodes 4, 5, 6, 7 and 8 ', 6', 7 ' and 8' is provided, the power supply wires can be used in a known manner to carry the electrodes at the same time, although these can optionally also be attached to special support wires. The power supply wire 5 ′ leading to the electrode 5 is passed through an insulating bushing 9 inserted in the electrode 4. The three electrodes 4, 5 and 0 consist of metal hollow vessels arranged side by side in the longitudinal direction of the lamp with an outer diameter largely matched to the inner diameter of the vessel, so that the cylindrical outer walls of the electrode 4, 5 and 6 with such a finger play on the inner wall of the vessel concern that no Glimmschichten to the cylindrical outer walls of the electrodes 4, 5 and 6 form is Künne. These electrodes .4 in a known \ .Veise from any metals as iron, nickel, or aluminum produced, 5 and 6 are for the purpose of reduction of the cathode case either completely or only on its surface parts which are considered for the discharge of the discharge with a suitable compound, such as barium azide or cesium azide. The electrode 7 consists of a metal rod or strong wire and the electrode 8 of a small metal cylinder, which is one made of glass or other insulating material, from Fußrohr.3 au S-extending sleeve is enclosed in order to extend the discharge path between the electrodes 7 and 8 .

The discharge paths between the electrodes 4-5, 5-6 and 6-7 are connected in series to the two main current supply lines 4 'and 7', the electrode 7 always being connected as the anode and the electrode 4 always being connected as the cathode. On the two central electrodes 5, 6 , because their outer walls are in contact with the inner wall of the vessel, cathodic glow layers can only form on the inner walls, so that only these inner walls of the electrodes can be considered as discharge points for the discharge paths to the right of the electrodes. The - other hand, the outer end walls of both electrodes 5 lind 6 form a self-discharge approach for the left-most of the two electrodes 5 and 6, discharge paths. each of the two central electrodes 5, 6 thus acts simultaneously as an anode and as a cathode. The voltage necessary for the formation of the discharge paths depends in a known manner primarily on the distance between the electrodes, the gas filling used, the pressure of the latter and the surface properties of the electrodes. Suppose that there are to form each of the three series-connected discharge lines 4-5, 5-6 and 6-7 each 8oVolt required, the te Angeles-on the power supply lines 4 'and 7' oltage S must be 24o volts to the v ler p b to bridge electrodes 4, 5, 6 and 7 simultaneously or to be able to activate the three discharge paths 4-5, 5-6 and 6-7 connected in series at the same time.

The fifth electrode 8 represents a cathode cooperating with the anode 7 , the power supply S 'of which is connected to the power supply 5' of the electrode 5 with the interposition of a resistor ii. The discharge path between the electrodes 7 and 8 is accordingly parallel to the other three discharge paths. Since 16o volts are required in the example given to bridge the two discharge paths between electrodes 5, 6 and 7 , if the discharge path between electrodes 7 and 8 is set up for 100 volts, the resistor ii connected in series with this discharge path must be used for 6o volts.

As is readily apparent, various voltages can be picked up from the tube described, for example for operating amplifier tubes or the like. For example, lines a can be connected to the power supply lines 4 ', 5' , which lead to an 8o volt power consumer, such as an amplifier tube. In this case, the first of the three discharge paths connected in series is used for the power consumption. In the same way, lines b and c connected to the power supply lines 5 ', 6' or 6 ', 7' can also each draw 80 volts for one power consumer, in which case the second or third discharge path of the three consecutive discharge paths is used is. By means of lines d connected to the power supply lines 5 ' and 7' , since in this case two discharge paths are used instead of one each, 16o volts can be drawn off. The parallel-connected discharge path between the electrodes 7 and 8 can also be used for itself if, for example, the resistor i i located in the lines e consists of an amplifier tube set up for 60 volts anode voltage.

The electrodes 4, 7 and 8 of the lamp according to Fig. I can, since they are olig, have a lovely shape. The two inner electrodes 5, 6 , however, must always have a shape adapted to the inner Z> wall of the vessel i in this embodiment of the lamp in order to prevent the formation of the glimine layer over the entire electrode surface. After all, these inner electrodes 5, 6 can also consist of cylindrical disks, which can be solid or hollow, instead of cylindrical hollow vessels.

The cathode glow lamp shown in Fig. 2, which has the same effect, has only one foot tube 2 through which all five power supply lines 4 6 ' and 8' of the ZD 7 ' five electrodes 4, 5, 6, 7 and 8 are passed. The electrodes 4, 5 and 6 in turn consist of metal hollow vessels, which in this case, however, have different sizes and are placed one inside the other concentrically in such a way that their open edges lie in one plane. These open edges are fully covered by an opposing insulating plate 12 through which the power supply lines 4 ', 5', 6 'of the three electrodes 4, 5, 6 and also the power supply line 7' of the electrode arranged inside the lamp and consisting of a bracket 7 are passed through. The parts Jer power supply lines 4 ', 5', 6 ', 7' lying between the insulating plate 12 and the Ouetschstelle of the foot tube 2 can, as shown, in glass tubes 4 ", 5", 6 used to support the insulating plate 12 and thus the electrodes ", 7" must be included. The four electrodes 4, 5, 6 and 7 are again connected in series so that the inner electrode 7 acts as an anode and the outer electrode 4 as a cathode, while the two enclosed inner electrodes 5, 6 act both as an anode and at the same time as a cathode act because, due to the termination brought about by the 1: 2 insulating plate, the cathodic glow layers can only form on the inner walls of these two electrodes 5, 6 . The fifth electrode 8 is enclosed in an insulating sleeve io extending from the foot tube: 2 in order to lengthen the discharge path 7-8, which is connected in parallel to the other discharge paths.

In this lamp design, the anode 7 can also consist of a straight wire or rod, a small plate, a cylinder or, like the surrounding electrodes, a hollow vessel. The outer electrode 4 can have any shape and, for example, also form a cylinder that is open towards the tip of the lamp vessel. Both lamps shown in FIGS. 1 and 2 can, instead of one electrode connected in parallel with the electrodes connected in series, also optionally be equipped with several electrodes connected in parallel with the electrodes connected in series.

Claims (2)

PATENT CLAIMS: i. Electrical Kathodenglimmlichtlampe with more than two electrodes and a plurality of series-connected discharge paths, characterized in that the central electrodes (5, 6) are so arranged or in the discharge vessel against each covered that both walls Direction a discharge gap and facing to the other discharge path surface portions of each electrode per forms an independent discharge approach and so each of the central electrodes (5, 6) acts simultaneously as anode and cathode. 2. Lamp according to claim i, characterized in that the central electrodes (5, 6) consist of metal cylinder bodies arranged next to one another and resting against the vessel wall. 3. Lamp according to claim i, characterized in that the central electrodes consist of concentrically juxtaposed hollow vessels (5, 6) which are covered at their open edges lying in one plane by an opposing insulating plate (12). 4. Lamp according to Claims 1 to 3, characterized in that, in addition to the electrodes connected in series, one or more F-electrodes connected in parallel are also accommodated in the discharge vessel.