DE2036451C3 - cathode ray tube - Google Patents

Description

of the tubular bulb is applied, which forms the electrostatic diverging lens.

Another advantageous embodiment of the cathode ray tube according to the invention consists in that the diverging lens also has a ring electrode surrounding the mesh electrode for lens correction having.

The invention is explained in more detail below with reference to a schematic drawing. It shows

F i g. 1 is a side sectional view of a known one Cathode ray tube with electrostatic deflection,

F i g. 2 is a front view of the known cathode ray tube;

F i g. 3 is a side sectional view of an electrostatic cathode ray tube according to the invention Distraction and

F i g. 4 is a side sectional view showing the essential parts of the cathode ray tube according to the invention are shown.

In the in F i g. 1, a first electron gun system 1 and a second electron gun system ^{2 are accommodated adjacent to each other at an inclination of λ (about 3 J} ) in the neck portion of a bulb 3. On the inner wall surface of the front panel of the bulb 3, a fluorescent screen 4 is attached. On the inner wall surface of the funnel part, first and second conductive films 5 and 6 are applied. A post-acceleration electrode system formed by the conductive films 5 and 6 exerts an accelerating effect on the electron beams 7 and 8 emitted from the electron guns 1 and 2, respectively. On the other hand, a convergent electron lens 9 formed by the electrode system exerts a deflecting effect on the electron beams to the tube axis. The electron beams 7 and 8 hit the common luminescent screen 4 and generate their corresponding tracks thereon. In this case, however, the track drawn by the first electron gun system 1 and the track drawn by the electron gun system 2 appear in areas represented by / f and B in FIG. 2, respectively. As can be seen from the drawing, the horizontal deflection sensitivity changes in the vertical direction (V-direction) on the surface of the lamp screen 4. and the> tracks (with constant horizontal and changed vertical deflection voltage) are not perpendicular to both extreme sides of the screen. Such a distortion will appear more conspicuous as the ratio VjV ₁ between the voltages V 1 and V _{1 applied} to the conductive films 5 and 6, respectively, which constitute the post-acceleration cornering system, becomes larger.

In the embodiment of the cathode ray tube according to the invention with electrostatic deflection shown in FIG. 3, the mutual angle of inclination / 'between the first electron gun system 1 and the second electron gun system 2 lying next to it is greater than the above-mentioned value: there is also a mesh electrode 10 between the electron gun systems I. , 2 and the luminescent screen 4 are set. The angle β ° can usually be selected in a range from 5 to 15 °. A lens property correcting ring body II is arranged obliquely so that it surrounds the mesh electrode 10; in addition, an inner conductive film 12 lies on the inner wall surface of the funnel portion of the piston 3 so as to correspond to the mesh electrode 10. A metal layer 13 is bonded to the inner conductive film 12, while a metal protective cylinder 14 is bonded to the mesh electrode 10 to support it.

In the structure described above, a voltage K ₁ of is applied to the mesh electrode 10

approximately 800 to 3000 volts, while the inner conductive film 12 has a voltage K ₄ which is two to ten times greater than the voltage V ₃ , ie is usually up to approximately 4000 to 25,000 volts. In addition, a voltage V _ri applied to the lens property correcting ring body 11 is suitably selected. Thus, an electron diverging lens, denoted by reference numeral 15 in Fig. 3, is formed. The electron lens 15 exerts a diffusing effect on the electron beams 7

2 * and 8, which come from the electron beam generator systems 1 and 2, respectively, which are arranged at the angle [Γ , whereby the angles of incidence of the corresponding electrons which hit the phosphor screen 4 are made smaller than those of FIG. Accordingly, it is possible to actually take a measure substantially equivalent to arranging the first and second electron gun systems 1 and 2 in the vicinity of the tube axis, and therefore the occurrence of geometrical raster distortion due to the fact that both electron gun systems 1 are reduced is reduced and 2 are arranged inclined with respect to the tube axis.

As in Fig. 4, an electron beam emitted by an electron gun system and diverged by the electron lens is deflected _{by angles H 1} , <-)., And H _1; it is possible, through the action of the ring body 11, which corrects lens properties, and through the action of the mesh electrode 10, to meet the following condition:

In this case, the distraction linearity may deteriorate due to the inclined arrangement of the electron beam generating systems with respect to the tube axis be positively influenced. Reference numeral 16 denotes one of the equipotential lines. Furthermore, the configuration and arrangement of both the conductive film 12 and the lens can have characteristics corrective ring body 11 can be changed appropriately. In addition, the lens can tilt corrective ring body 11 be coupled to the mesh electrode 10 or with this in be formed as a unit. Furthermore, the ring 11 can be omitted.

As described above, the cathode ray tube of the present invention is electrostatic Deflection of a mesh electrode between the luminescent screen and at least two electron beam generator systems arranged side by side with the axes inclined with respect to the Röhrenachsc lie. A cooling electron lens is formed by the mesh electrode and the conductive electrode Wall covering formed on the inside of the piston. If necessary, a lens can be corrected Ring body be provided. The angles of incidence of the electron gun systems

The electron beams sent on the screen are smaller than with comparable tubes without a diverging lens. With this, the occurrence of the aforementioned geometric rasp distortion can be eliminated. The ratio V ₄ ZK _{3 of} the voltage of the mesh electrode to the voltage of the conductive wall covering can also be selected to be greater than ten, which increases the intensity of the recording and simplifies the observation of high-speed phenomena.

1 sheet of drawings

Claims (4)

ßcn exact measurements from or require a subsequent patent claims: tedious, cumbersome computational compensation. Cathode ray tubes are also known 1. Cathode ray tube with at least two (German patents 918 324, 905 048 and side by side and with their axes to the tube 5 879 729), in which an origin beam in an axis inclined at the same angle, the number of individual beams is broken down. For each of these th electron gun systems, each of which has its own lens because an electrostatic deflection system is assigned to direct the individual beam to a point on the net is characterized in that the luminescent screen to focus. In the case of a form (German the axes of the jet generator system (1, 2) see patent specification 918 824) is one with openings Cut in front of the luminescent screen (4) and that provided electrode in the direction of the beam behind the Abeine electrostatic diverging lens provided between steering systems, which together with walls Deflection systems and the fluorescent screen cover one of them which serves to amplify the deflection, all of them is seen, which forms the diverging lens common by the deflection systems un-rays. at Affected electron beams on a gc-15 these cathode ray tubes will not be the problem common point of the luminescent screen directs. solved, image distortions caused by eccentric 2. Cathode ray tube according to claim 1, da- irish and inclined to the tube axis occurring Urdurch characterized in that the angle with which spi ungsstrahl be brought about to eliminate,
the axes of the electron beam generator systems. Furthermore, a cathode ray tube is known to be inclined to the tube axis, in the range of 2.5 20 (USA.-Patent 3 453 472), at which the rays are up to 7.5 °. in front of three electron guns each on three adjacent 3. Cathode ray tube according to claim 1 opposite primary color spots of the luminescent screen or 2, characterized in that between should occur. It is this cathode Electric beam generator systems and the beam tube around a color picture tube, in which one Luminous screen (4) a mesh corner electrode (10) which corrects image errors and is common to all rays is ordered, which is not present together with a conductive diverging lens. Film (12) on the inner wall surface of the The invention is based on the object of a Funnel part of the tubular bulb is applied, cathode ray tube of the type mentioned forms the electrostatic diverging lens. create, in which the inclination of the electrical 4. Cathode ray tube according to claim ?, da- nenstrahlgenerersysleme to the tube axis herbeige characterized in that the diffusivity led image distortions are compensated,
Furthermore, a mesh electrode (10) around the This object is achieved in that the bundled ring electrode (11) for lens correction has axes of the beam generator systems in front of the light, intersect and that an electrostatic Zer- 35 divergent lens between the deflection systems and the luminescent screen is provided. the electron beams unaffected by the deflection systems The invention relates to a cathode to a common point of the luminescent screen beam tube with at least two side by side and directs. with their axes to the tube axis under the same 40. Through the diverging lens, the Flektro-Winkcl inclined electronic radiator beams depending on the point at which generating systems, each of which has an electrostatic un-deflection system, penetrating it through the diverging lens assigned. Terribly distracted. Which is thus through the It is already a cathode ray tube with two diverging lenses resulting in deflection distortion Electron guns known (German patent specification 45 opposed to that caused by the eccentric and gc-902 057), the arrangement of the electron beams inclined with their axes at the same angle Tube axis are inclined and each of which is a stone-induced distortion, so that this electrostatic deflection system is assigned. Hei mutually compensate for both distortions. That kind of thing inclined electron gun !!, in which the one with the diverging effect of the diverging lens Electron beam does not exit the tube axis, 50 is canceled again, i. H. the orbits of glcimuss the beam, depending on the deflection, differs from the deflector exposed to the deflection conditions The various electron guns radiate long distances until they hit put back the screen. Will the beam systems be on the screen and not on it thrown clic side of the screen, on which the cut, the inclinations of the elctronas are themselves i. the electron gun is also located, the one of 55 jet generator systems is chosen in such a way that its The distance traversed by the beam is shorter than if the axes were at a corresponding distance in front of the he is thrown on the opposite side. Cut the luminescent screen. Due to these different routes, the An advantageous embodiment of the invention A transverse deflection corresponding to different cathode ray tubes according to the invention consists in making kinks. This leads to the fact that a rectangle is distorted at its 60th angle at which the axes of the Elcktroncn image on the luminescent screen are inclined in a trapezoidal manner to the tube axis. Since this distortion is in the range of 2.5 to 7.5 "for every electrical
ncnkitnonc - according to their arrangement - an- Another advantageous embodiment of the cr- If the deflection conditions are the same, the cathode ray tube consists of benign light spots generated on the luminescent screen between the electron beam generator systems don't know each other anymore. The farther they are on the edge and the fluorescent screen andes a Maschenelcktrode The luminescent screen, the more they fall apart, which, together with a conductive film, each other. Such image distortions tend to appear on the inner wall surface of the funnel part