DE1023148B - Gas discharge tubes with cold hollow cathode - Google Patents

Description

GERMAN

The present invention relates to a relay type gas discharge tube, particularly for additional purposes Use as a signal tube with a cold hollow cathode, which is connected to a den on its inner surface Cathode case is coated with respect to the outer surface reducing material, one coaxial to the hollow cathode arranged anode and an ignition electrode, through which a main discharge between the cathode and the anode is initiated by applying a control pulse to the ignition electrode.

Compared to the previously known gas discharge tubes of this type, the one according to the invention characterized in that the hollow cathode has an open end of smaller diameter, the The end of the larger diameter facing the transparent end of the tube jacket, the coaxial The anode is at a distance from the open end of the smaller diameter of the cathode and the ignition electrode is at or near the plane of the smaller diameter open end of the cathode.

Due to the invention, the particular technical progress is achieved that the discharge tube also works as a display tube and thanks to the special shape and arrangement of the cathode, the anode and sufficient visible light is obtained from the ignition electrode to additionally use the tube as a display tube to be able to use. Characterized in that the cathode with its open end larger diameter against the directed towards the transparent end wall of the tube jacket, the curved inner surface of the cathode acts in the manner of a reflector element. The arrangement of the anode axially at a distance from the end smaller Diameter of the cathode, namely on the side facing away from the end of larger diameter, i. H. away from the transparent end wall of the tubular jacket, has the advantage that the difference between the discharge paths from the anode to the nearest point and to the most distant one Point of the cathode surface is lowered, d. H. the distance from the anode to the edge of the open Smaller diameter end and larger diameter open end. This is special progressively a uniform glow intensity over the entire, with a coating provided inner surface of the cathode can guaranteed. There is also the Anode in a position where it cannot obstruct the view of the glow discharge.

According to the invention, the ignition electrode has the shape of a wire ring which is arranged coaxially to the end of the smaller diameter of the cathode. This has the advantage that the main discharge path is well controlled by the ignition electrode and the view of the glow discharge does not hinder the gas discharge tube
with cold hollow cathode

Applicant:
Hivac Limited,

Harrow-on-the-Hill, Middlesex
(Great Britain)

Representative: Dr. W. Germershausen, patent attorney,
Frankfurt / M., Neue Mainzer Str. 49-51

Claimed priority:
Great Britain 29 July 1952

Raymond Richard Back,

North Harrow, Middlesex (Great Britain),

has been named as the inventor

will. The anode lies in the axis of the cathode and is rod-shaped. The anode rod or wire is surrounded by a tubular element made of insulating material, its active, the Cathode opposite end a little below the cathode opposite surface of the tubular Element is sunk. The advantages achieved in this way and other structural details of the discharge tube according to the invention are described in more detail with reference to the drawings as follows. In here is

Fig. 1 is a longitudinal section through a display tube according to the invention,

Fig. 2 is a cross section of the tubes along the line II-II of Fig. 1,

Fig. 3 is a longitudinal section similar to that of Fig. 1 of a modified form of the tube and

Fig. 4 is a partial view similar to Fig. 1 of a further modified form of the tube.

The tube shown in Figures 1 and 2 has a tubular glass jacket 10 of circular shape Cross-section. This jacket has at one end a flat wall 11 which is perpendicular to the axis of the Tubular jacket lies, and at the other end a flattened seal pinch foot 12. An axially extending Glass shaft 13 extends inside

709 850/350

from Q'uetschfufi 12 to about the middle of the axis length of the tube and is provided there with a flange or button 14 forming a whole therewith. This button 14 forms a support for fastening certain electrode parts and is circular Disc formed, which is arranged perpendicular to the axis of the tube and its clear width almost entirely occupies.

The cathode 15 of the tube is in the form of connecting wires, supports and other conductive ones Elements are preferably made with alumina or some other suitable high work function material coated on emission in order to prevent undesired discharges thereon.

In operation, a suitable voltage, e.g. B. on the order of 200 V between the anode 24 and the cathode 15 are applied via a suitable current limiting resistor. This tension is on

spherical shell-shaped or semi-parabolic metal io set such a value that within the cup with an open lower part 16 at its tube between anode and cathode no end smaller diameter. This cup is held without a bias to the charge

arranged coaxially with the tube axis, and the edge 17 of its further end is close to and par-ignition electrode 30 is created. By applying such a voltage, e.g. B. a pulse of + 80 V

allele to the flat end wall 11 of the tube, whereby 15 amplitude with respect to the cathode, over a

the inside of the cup faces outwards towards this wall. The cup is held by two holding wires 18, which are attached to it at diametrically opposite points and at their other ends in A suitable limiter resistor is used to initiate a discharge between the anode 24 and the cathode 15.

The tube thus forms an electronic relay tube,

which are used as usual for the same devices

the button 14 are anchored at the same points. 20 become canoe. Due to the cup shape of the cathode

One of these wires 18 settles under the button 14 as a connection line 19 continues along the glass shaft 13 and then through the Ouetschfuß 12 to the to form external connection line. The inner surface 20 and the treatment of its inner and outer surfaces a glow discharge is created inside the cup. Since this is oriented in such a way that the hollow inner surface can be seen through the end wall 11, allows

of the cup 15 is covered with a substance, which is a 25 it the glow discharge, the device also called

Use indicator light.

In the modified embodiment shown in Fig. 3, the construction of the electrodes and other parts generally similar to that already described. Just forms the stem in order to manufacture to facilitate, no longer a whole with the coat and the Ouetschfuß, but is a separate one Part 40, in the lower part of which the connecting wire 23 is melted from the anode tip 25 and

has a low work function on emission. The outside is, however, in a suitable manner, for. B. by calorizing, has been treated to form a surface layer with a high work function on emission to build.

As shown in Figure 22, this is the aforementioned button
14 carrying glass shaft 13 on most of its
Hollow length from button to pinch foot. To this
In a way that is coaxial with the pipe jacket 10
Drilling. Inside this hole is the 35 at right angles to the tube axis, as shown in 41 the anode 24, from which a wire 23 is placed down through the, bent.

Hole 22 and then through the rest of the fixed part. This bent part is at a special angle

Part of the shaft and the pinch foot 12 is spot-welded to tail wire 42, which is in a Fußdie to form external connection line. The innermost element 43 is melted down, which is initially separated

Ί.0 of the rest of the jacket 10 is made. The flattened one Ouetschfuß the previous embodiment is omitted, and the various connecting lines for the individual electrodes are arranged at several points around the center of the foot element.

45 In the center of the foot element is the ordinary one lowers. Melting nozzle 44 is provided.

An ignition electrode 30 in the form of a wire ring.

31 of approximately the same diameter as the construction on the shaft 40 and thus a whole open bottom 16 of the cup-shaped cathode 15 lies forming button 14 is attached as a separate approximately on the 5 ° unit running perpendicular to the tube axis and then welded to the

The end of this wire is provided with an end section 25 which forms the actual anode. The end face 27 of this end portion is opposite the open bottom 16 with a smaller diameter cup-shaped cathode 15 and a few millimeters

the plane just inside the open bottom 16. This ring is made by a cranked connecting wire 32 carried by the open bottom 16 at a sufficient distance from the edge of the cup-shaped Cathode runs and z. B. is connected by spot welding to a wire 33, which in called button 14 is melted. This wire 33 sits down along the length of the button under the button Glass shaft 13 continues and goes as an outer connecting wire through the Ouetschfuß 12 to the outside.

At a point diametrically opposite the support wire 33 of the ignition electrode, the button 14 carries a further fused support wire 35, which is connected under the button to the base of the lines melted in the base element 43, after which the rest of the jacket 10 is pushed over the whole, and the both jacket parts are melted together along the circle χ.

Fig. 3 also shows another arrangement of the wire ring 31 of the ignition electrode 30, which in this case lies on the same plane as the open bottom 16 of the cathode 15.

Various changes can be made without departing from the scope of the invention. So the cathode z. B. not be spherical shell-shaped or semi-paraboloid, but frustoconical, as shown in Fig. 4 with 46, while the shape of the ignition electrode is also not

Tube extends out and attached to it the usual 65 needs to be the one shown. This can take place

Getter beads 36 carries.

The jacket 10 is, as usual, with a suitable indifferent gas, such as. B. neon or argon or a mixture thereof, filled and one since in the form of a short cylinder 47 (Fig. 4) or even of a simple protruding one Wire. Another possibility is to see the cathode parts clearly in the top view

Lent offset tube 37 melted shut. To issue all 70 different forms in order to obtain a notification

tube of. to be able to distinguish another more easily.

Claims (11)

Patent claims: 1. Relay type gas discharge tube, especially for additional use as a signal tube, with cold hollow cathode, which on its inner surface with a cathode case opposite the outer surface degrading material is coated, one arranged coaxially to the hollow cathode Anode and an ignition electrode, through which a main discharge between the cathode and the Anode is initiated by applying a control pulse to the ignition electrode, characterized in that that the hollow cathode has an open end of larger diameter and an open end of smaller diameter, the end larger Diameter facing the transparent end of the tube jacket, the coaxial anode at a distance from the open end of the smaller diameter of the cathode and the ignition electrode is at or near the plane of the smaller diameter open end of the cathode. 2. Gas discharge tube according to claim 1, characterized in that the ignition electrode (30) has the shape of a wire ring (31) coaxial with the smaller diameter end (16) of the Cathode (15) is arranged. 3. Gas discharge tube according to claims 1 and 2, characterized in that the anode (24) lies in the axis of the cathode (15) and is rod-shaped. 4. Gas discharge tube according to claim 3, characterized in that the anode rod or wire is surrounded by a tubular element (22) made of insulating material, wherein whose active end (25) opposite the cathode is a little below that of the cathode (15.) opposite surface (28) of the tubular member (22) is countersunk. 5. Gas discharge tube according to claim 4, characterized in that the surrounding tube (22) made of insulating material has an outwardly extending flange or button (14) which forms a mounting support for the cathode (15). 6. Gas discharge tube according to claims 4 and 5, characterized in that the insulating, tubular element (22) itself is not connected to the surrounding jacket (10). 7. Gas discharge tube according to claims 4 and 5, characterized in that the surrounding tubular element (22) made of insulating material with the surrounding jacket (10) as a whole forms. 8. Gas discharge tube according to claims 1 to 7, characterized in that the cathode (15) is partially designed in the shape of a spherical shell. 9. Gas discharge tube according to claims 1 to 7, characterized in that the cathode (15) has a partially parabolic shape. 10. Gas discharge tube according to claims 1 to 7, characterized in that the cathode (15) is designed frustoconical. 11. Gas discharge tube according to claims 1 to 10, characterized in that the tube jacket (10) is provided with a flattened end wall (11) and the cathode (15) with its open Larger diameter end (17) close to this end wall (11) is arranged adjacent. Considered publications:
Austrian Patent No. 171 035;
Swiss Patent No. 175 826;
U.S. Patent Nos. 1,840,055, 2,507,696. 1 sheet of drawings © 709 850/350 1.58