DE1015950B - Ring-shaped holder for vaporizable gas binders - Google Patents

Description

The invention relates to an annular holder for a vaporizable gas-binding substance and in particular to a holder in which the vapor of the gas binder is released in a certain direction will.

In large-sized vacuum tubes, such as cathode ray tubes, a relatively large Amount of a gas-binding substance to be evaporated to the large amount remaining after evacuation To be able to bind amount of gas residues. In addition, it is desirable that the gas binder on one as possible large surface is deposited in order to quickly bind the gases that are subsequently released in the tube.

For such large-sized vacuum tubes, holders have therefore been used which consist of a cylindrical consist of curved metal band on which the gas binder is arranged in the form of a number of pills. In the manufacture of such cylindrical holders, a certain amount of gas binder is added at intervals Powder form pressed into cavities of a continuous metal belt. A certain length of this The tape, corresponding to the desired number of pills, is then cut off and bent cylindrically. The ends are connected to each other and to a support rod, and the holder is in a Tube mounted. The cylinder or ring shape is very advantageous for cathode ray tubes because the holder can then be accommodated in the neck symmetrically with respect to the longitudinal axis of the tube, whereby uniform heating by means of high-frequency currents to vaporize the gas binder is possible. In addition, such a cylindrical ring holder does not get in the way of the electron beam.

Such a cylindrical holder, however, has the disadvantage that the vapor of the gas binder is absorbed the glass wall of the relatively thin neck of the flask is reflected, so that primarily that of the distance to be covered by the gas-binding steam and, secondly, the surface of the metal mirror is small.

It is therefore advisable to direct the steam towards the window of the tube so that it is on the Inner surface of the cone and on the back of the screen on the window in the form of a very thin layer with a very large surface area. Because, moreover, the If the shield subsequently emits a large amount of gas, such a gas binding layer is very effective.

The exit of the steam in this direction is possible by using a holder in the form an annular disc in which the pills are arranged.

However, such an annular disk cannot be produced economically because the opening in the disk means a large loss of material.

Annular holder
for vaporizable gas binders

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority:
Netherlands 24 November 1955

Hendrik Johannes Reinierus Perdijk,

Eindhoven (Netherlands),
has been named as the inventor

It has also already been proposed that the gas binder in the form of a band on an annular Wind up wire. But this has the disadvantage that the steam escapes in all directions, which is at Cathode ray tubes are undesirable, because the vapor moves in consideration of the risk of leakage and flashover should not fall near the base of the tube and the electron syringe.

The invention makes it possible to direct the steam flows towards the window of the tube and nevertheless to maintain the aforementioned, simple manufacturing method of the holder. This means that with the usual Machines can be worked because metal tape with pressed pills in this case too is usable. For this purpose, because according to the invention in a ring holder for a vaporizable gas-binding substance consisting of a metal band carrying a number of pills made of the gas-binding substance consists, with the vapor of each pill in

⁴ S is dispensed in a certain direction, the metal band between the pills is folded in such a way that the parts of the band carrying the pills are flat and each form an angle with the axis of the ring. This means any surface that does not extend parallel to the ring axis. Expediently, all parts of the band form an equal angle with the ring axis, whereby a uniform temperature of all pills can be achieved with high-frequency heating. It is advantageous if the number of pills is more than

709 697/346

is five, ζ. B. six, eight or ten, then each a pill-bearing surfaces alternately such a position given that they lie alternately on the mantles of two pyramids, which with the .Grundflächen to each other and their vertices lie on the ring axis. Since the surfaces in this case are also at an angle in can be arranged with respect to the axis generally coinciding with the axis of the tube Here, too, the pills have the same temperature when heated by means of a high-frequency field Direction of the tube axis. It is also possible to arrange the surfaces perpendicular to the ring axis, so that they then lie in one plane.

The invention is explained in more detail using a drawing, for example.

Fig. 1 shows a known embodiment of a cylindrical gas binder holder;

2, 3, 4 and 5 show embodiments of such holders according to the invention, and

Fig. 6 is a partial view of a cathode ray tube with a holder according to FIG. 5.

The known holder of Fig. 1 consists of a metal band 1 in which pills 2 of the gas-binding Substance, e.g. B. from a barium compound, are arranged by pressing. The production takes place in known way in that at certain intervals a certain amount of powder of the compound is applied to an endless metal belt and pressed into it. A z. B. part containing six pills the metal strip is then cut off, bent in a cylindrical shape and attached to a support rod 3 welded, which in turn is attached to part of the electrode system, e.g. B. a cathode ray tube, can be attached.

As already explained, it is advisable to use the vapor of the gas binder in the direction of the fluorescent screen to evaporate such a tube, which is not common in the known training. To the invention, the band between the pills is deformed and annularly curved so that the Steam can escape more or less in the ring axis. According to Fig. 2 is a holder for four pills the upper edge of a cylinder between the pills folded in such a way that four surfaces are created, each one Wear the pill and make an acute angle with the axis of the ring. The same is true for a ring in FIG. 3 shown with six pills. It is important that all the pill-bearing surfaces are the same Form an angle with the ring axis, because then all pills when heated by means of one in the ring axis directed high-frequency field reach the same temperature and therefore at the same time and in the same Vaporizing dimensions. The surfaces then lie on the mantle of a pyramid, the apex of which is denoted by P. is, as shown in phantom in Fig. 6. According to the invention, the surfaces can be of any relation do not have a parallel position on the ring axis. In Figure 4, the pill-bearing surfaces are perpendicular arranged to the ring axis.

If a large number of pills are required, the ring can be folded as shown in Figs. In Fig. 5 ten surfaces are provided, which are alternately directed in such a way that they lie on the surface of two adjacent pyramids with the base surfaces, namely alternately on one and on the other pyramid. It is also illustrated here that the angles which the surfaces form with the axis of the ring coinciding with the axis of the tube are the same, but have different directions. The vertices of the pyramids P ₁ and P ₂ therefore lie on the ring axis. In general, the axis of the ring will coincide with the cathode ray tube. The arrows indicate the directions in which the steam flows out. The heating takes place by means of a coil arranged around the tube neck.

Although a few embodiments have been described, it will be understood that the invention can also can be used with differently trained holders. It is Z. B. not necessary that the surfaces form the same angle with the axis of the ring. By using different angles it can be achieved that the Vaping pills more or less in one order. Next, such a ring can be used for. Belly use in transmitter tubes.

Claims (3)

Patent claims: 1. Ring-shaped holder for a vaporizable gas-binding substance, which consists of a metal band consists, which carries a number of pills from the gas-binding substance and in which the vapor of each pill is delivered in a specific direction, characterized in that the Metal band between the pills is bent in such a way that the band parts carrying the pills are flat and each form an angle with the ring axis. 2. Holder according to claim 1, characterized in that the of the flat band parts with the angles formed by the axis of the ring are all equal. 3. Holder according to claim 1 and 2, characterized in that that the flat parts lie alternately on the mantles of two pyramids, which with their bases on each other and their apices on the ring axis. Documents considered: German Patent No. 707 069; M. Littmann, Getter materials and their application in high vacuum technology, 1938, Fig. 13. 1 sheet of drawings © 709 697/346 9.57