DE679329C - Electrode arrangement for cathode ray tubes - Google Patents

Description

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ISSUED ON
AUGUST 3, 1939

The present invention relates to an electrode assembly for cathode ray tubes.

In the case of cathode ray tubes for television purposes, the beam in the one direction through electromagnetic coils and in the other, perpendicular to it standing direction deflected by an electrostatic field between a pair of plates. The reason for this is that when the beam is deflected in both directions by coils, the two are electromagnetic Fields interfere with each other, resulting in distortions and the like.

You can eliminate this disadvantage by having the beam in both Deflects directions by electrostatic fields; but this leads to larger dimensions between the beam generation system and the screen and is also more expensive.

You now have the baffles hitherto individually or as coherent ones Complex melted into the tube separately from the beam generation system. The baffles were also supported with the beam generating system from the base of the tube. That the first method requires very careful work in glass blowing, the second method has disadvantages resulting from the fact that the leads from the plates are under a voltage of 10,000 volts and more can stand, causing disturbances of the electron optics and insulation difficulties develop.

These disadvantages are eliminated by the present invention. The invention is that in an electrode assembly for cathode ray tubes with a by the Ouetschfuß the tube held beam generation system and a coaxially arranged to it, through the into the tube wall fused supply lines held the baffle system on the two systems opposite one another Ends using an insulating material that ensures the coaxial position of the two systems Intermediate piece are plugged together.

The invention is based on the illustrations representing an exemplary embodiment explained in more detail.

Fig. Ι shows the baffle system.

Fig. 2 shows the beam generation system.

Fig. 3 shows a tube with these two systems installed.

The baffles 10 and 12 are through Wire pieces 13 and 14, which are connected by glass billets 15, with a sleeve 16 connected from insulating material by the wire pieces 13 protrude into holes in the sleeve (Fig. 3). In front of this sleeve is a plate 18 provided with a central one

Bore 20 and side holes 21 for the pieces of wire 13. Lines 22 and 24 are attached to the outer surfaces of the plates 10 and 12, while stiffeners 26 are located between their inner surfaces, consisting of pieces of wire and glass balls in between.

The beam generation system consists of the cathode 30 with heating device 32, sleeve-shaped grating 34, to which the image signals are fed, and sleeve-shaped Accelerating anode 36. The sleeves 34 and 36 are held in place by an insulating ring 38 and connected to each other. Furthermore, these parts are held by the pieces of wire 40 with the glass sticks 42 in between. The anode lead 44 and the leads to the grid, The cathode and heater are led to the outside through the Ouetschfuß.

When assembled, the beam generation system is inserted into the narrow end of the tube 46 introduced, which at this stage is still at is open at both ends, and then the pinch foot 28 is melted down at 48. Thereon the deflection system is inserted into the far end of the tube and the sleeve 16 firmly pushed onto the anode 36, making the two systems coaxial and fixed with one another get connected. Then the lead wires 22 ° and 24 ° through the Glass wall melted down and connected to lines 22 and 24, thereby holding the deflector system at its outer end will. In addition, a line 50 is melted down, which is inside the pipe_ is connected to the plate 18 by a line 52.

Finally, the one with the fluorescent screen 56 provided end plate 54 melted; whereupon the tube is evacuated and treated in the usual way. You can also assemble the deflection system and the beam generation system together, insert this whole assembly through the wide end of the tube and the Melt pinch foot 28 into the narrower end as before. Then the connections to plates 10 and 12 and to the diaphragm 18 and the attachment of the end wall 54, as described above, made.

If necessary, the fluorescent layer can also pass through an opening in the tube be applied to the end wall 54 after it is melted.

The mode of operation is the usual: When scanning by the electron beam, secondary electrons emerge from the screen 56, some of which strike the deflection plates and are carried away through the lines 22 "and 24 °. Some of the secondary electrons are picked up and carried away by an auxiliary electrode 58 built in for this purpose, which has the shape of an open ring which is supported by the deflection plates by pieces of wire 60 with glass sticks 62 in between. The operating voltage is fed to this electrode 58 through the line 64. This auxiliary electrode 58 is attached to the deflection system before it is installed in the tube. The diaphragm 18, which is supplied with a voltage that is positive with respect to the anode 36, is used to focus the beam on the screen. This arrangement of the diaphragm between the electron gun and the deflection plates enables a smaller distance to be achieved between the screen and the electron gun and results in a sharper focus of the beam on the screen than in previous designs.

The arrangement according to the invention has the further advantage that it is larger Deflection sensitivity results as you bring the baffles closer together and on a longer distance along the tube between the end of the electron gun and can lead to the screen. Furthermore, the baffles can be used as they are caused by the wide end of the tube to be inserted, make it larger than before, so that one can use the No need for the inner silver plating of the tube. This in turn has the consequence that the heat and light from the fluorescent screen pass through the clear glass can radiate, which prevents undesired heating of the screen will. It also follows from this that blackening the inner wall is superfluous as there is practically no light on the screen from the transparent walls of the tube is thrown back.

Another advantage of the arrangement according to the invention is that the Contact for the connection with the second anode is no longer available, as was the case with the previous one Constructions was required. While the deflection in one coordinate direction by the described in detail, arranged inside the tube Plate pair takes place, the deflection in the other coordinate direction by Solenoid coils located outside the tube are carried out.

Claims (6)

115 claims: i. Electrode assembly for cathode ray tubes with a pinch foot the tube mounted beam generating system and a coaxially arranged, through the tube wall fused feed lines supported baffle system, thereby characterized in that the two systems at the opposite ends using an insulating, the coaxial position of the two systems ensuring the intermediate piece plugged onto one another are. 2. Electrode arrangement according to claim i, characterized in that the insulating intermediate piece is designed as a sleeve (i6) into which the anode (36) is inserted. 3. Electrode arrangement according to spoke ι or 2, characterized in that that on the pair of plates an auxiliary electrode (58) in the form of an open ring "is appropriate. 4. Electrode arrangement according to claim 2 or 3, characterized in that that an electrode (18) with the sleeve (16) is connected, which after assembling the two systems between the beam generation system and the baffles. 5. Electrode arrangement according to claim ι to 4, characterized by deflection plates, whose greatest distance exceeds the diameter of the cylindrical piston part. " 6. Process for the manufacture of Braun tubes with an electrode arrangement according to claims 1 to 5, characterized in that the two systems are first implemented by means of the sleeve (16) connected to each other and then as a whole through the wide opening into the The tube is introduced, which is then melted on one side by melting the Luminous screen wall (54), on the other side by melting down the pinch foot (28) is completed. 1 sheet of drawings ΠΕΒ1.ΙΝ. GEDIlUCKT IN DEB