DE2036451B2 - cathode ray tube - Google Patents

Description

of the tubular piston is applied, which surrounds electrostatic; there is also an inner conductive film 12

see diverging lens forms on the inner wall surface of the funnel part of the

Another advantageous embodiment of the piston 3 is such that it is the mesh electrode

The cathode ray tube according to the invention consists in 10 corresponds to a metal layer 13 , to which the diverging lens is also connected to a mesh- 5 conducting surface 12, while a metal layer 13 is

electrode surrounding ring electrode for lens-coral protective cylinder 14 with the mesh elec-

having rectification. Trode 10 is connected to support this.

The invention is described below with the aid of a structure as described above

schematic drawing explained in more detail. It shows the mesh electrode 10 a voltage V ₃ of

F i g. 1 is a side sectional view of a known- io about 800 to 3000 V, while on the inner conductive

th cathode ray tube with electrostatic dissipating film 12 has a voltage V ₁ which is two to

voltage, ten times greater than the voltage V ₃ , i.e.

Fig. 2 is a front view of the known cathodic up to approximately 4000 to 25000V,

the beam tube, it will also have a lens properties

F i g. 3 is a side sectional view of an inventively correcting ring body 11 applied tension

Appropriate cathode ray tube with electrostatic V _{5 is} suitably selected.

shear deflection and stiffening lens, in FIG. 3 with the reference number 15

F i g. 4 is a side sectional view in which the we- is formed. The electron lens 15 exercises

essential parts of the cathode-scattering effect according to the invention on the electron beams 7

bliahliöhie are shown. 20 and 8, each from the electron gun

In the in F i g. 1 shown cathode ray tube generating systems 1 and 2 come in the angle

are a first electron gun system 1 and ß ° are arranged, whereby the angle of incidence of the

a second electron gun system 2 corresponding electrons, which on the luminous

the neighboring screen4 with an inclination of * ° (approx. 3 °), less than that shown in FIG.

housed in the neck part of a piston 3. On 25 machi. Accordingly, it is actually possible

the inner wall surface of the front panel of the taking a measure that is essentially equi-

A fluorescent screen 4 is attached to piston 3. On the valent of the arrangement of the first and second elec-

Inner wall surface of the funnel part are a first electron gun systems 1 and 2 in the vicinity of the

and second conductive films 5 and 6 are applied. Is a tube axis, and hence the occurrence is geome-

Post-acceleration electrode system, which by 30 tric notch distortion reduces the resulting

the conductive films 5 and 6 is formed, a reason can be attributed to the fact that both electron guns

acceleration effect on the electron beams 7 generating systems 1 and 2 with respect to the tube axis

and 8 which are inclined from the electron guns 1, respectively.

and2 are sent out. On the other hand, as shown in FIG. 4, one of one exercises

convergent 35 electrons-> formed by the electrode system irahlgeneratorystern sent elec-

Electron lens 9 has a deflecting effect on the electron beam that diverges through the electron lens

Electron beams to the tube axis. So meet is deflected by the angles «,, M ₂ and ff _3; it is

the electron beams 7 and 8 on the common possible, through action "of the lens properties

Luminescent screen 4 and produce their corresponding corrective ring body 11 and by action

traces. In this case, however, the following condition appears to be met by the mesh electrode 10

which fill from the first electron beam generator system 1:

drawn trace and that of the electron 0,>6> _ä > θ ₃ .
Beam generator system 2 drawn track in each

with A and B in FIG. 2 areas shown. As in this case, the deterioration of the Absich can be seen from the drawing, the honing-45 steering linearity changes as a result of the arrangement of the electron emitters (Y-direction) on the surface of the fluorescent screen 4, and generating systems, which is inclined in the vertical direction in relation to the tube-center deflection sensitivity to be influenced. The Y-tracks (with constant horizontal and delay number 16 denotes one of the equipotential lines, its vertical deflection voltage) are not lowered. Furthermore, the configuration and arrangement can be right on both extreme sides of the screen. Distortion of both the conductive film 12 and the lens-enveloping distortion will appear more noticeable, property correcting annulus 11 appropriately when the ratio V ₂ V ₁ between the voltages is changed. In addition, the intrinsic lens lengths V 1 and V ₂ , which rest on the conductive shafts correcting ring bodies 11 with manias 5 and 6, which are coupled to the post-soul electrode 10 or form an acceleration electrode system with it, can also increase. 55 be formed of a unit. Furthermore, the ring 11

Be omitted in the embodiment shown in FIG. 3.

As described above, with the inventive electrostatic deflection, the mutual inclination of the cathode ray tube with an electrostatic angle ß ° between the first electronic deflection is a machine electrode between the beam generator system 1 and the second next to the fluorescent screen and at least two electron systems Electron gun system 2 arranged larger beam generator systems, which with againstßer than the above-mentioned value i °; In addition, axes inclined above the tube axis, next to one another, are a mesh electrode 10 between the electrodes. A diverging electron lens is set by the beam generating systems 1, 2 and the phosphor screen 4 through the mesh electrode and the conductive one. The angle ß ° can usually be formed in a wall covering on the inside of the piston. When range from 5 to 15 ° is selected. A lens element can be necessary, an annular body which corrects properties of the lens and an oblique ring body can be provided. The angle of incidence of the arranged in such a way that it emits the mesh electrode 10 from 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 above-mentioned geometric raster distortion can be eliminated. The ratio F ₄ / F _{a of} the voltage of the mesh electrode to the voltage of the conductive wall covering can also be selected over ten, whereby the intensity of the recording is increased and the observation of high-speed phenomena is simplified.

1 sheet of drawings

Claims (4)

If exact measurements from or require a patent claim: tedious, cumbersome computational compensation. Cathode ray tubes are also known 1. Cathode ray tube with at least two (German patents 918 824, 905 04 & 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 every one of them 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 beam generator systems (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 Wandden 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 one of these cathode ray tubes does not become 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 by eliminating the angle at which crack rays are brought about, the axes of electron gun systems. Furthermore, a cathode ray tube is known are inclined to the tube axis, in the range of 2.5 ao (USA.-Patent 3 453 472), in which the radiators, up to 7.5 °. in front of three electron guns each on three side-by-side 3. Cathode ray tube according to claim 1 andci lying primary color spots of the luminescent screen or 2, characterized in that should occur between. It is this cathode Electron gun systems and the cathode ray tube around a color picture tube, in which one Fluorescent screen (4) has a mesh electrode (10) which corrects image errors and which is common to all beams is ordered, which is not present together with a conductive diverging lens. Movie (12). on the inner wall surface of the The invention is based on the object of a Trichtcrtcils the tubular bulb is applied to cathode ray tube of the type mentioned forms the electrostatic diverging lens. create, in which the inclination of the electrical 4. Cathode ray tube each claim 3, there- 30 nenstrahlersysteme to the tube axis herbeigedurch characterized in that the diverging lens led image distortions are compensated,
This object is achieved in that the rotating ring electrode (11) for lens correction has axes of the beam generator systems in front of the light, intersects the screen and that an electrostatic decomposition 35 divergent lens between the deflection systems and the luminescent screen is provided, which by the deflection systems uninfluenced «electron beams 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 electro-angles inclined electron beams depending on the location at which generating systems, each of which has an electrostatic pass through the diverging lens, and a deflection system assigned. distracted differently. Which is thus through the It's 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 ge-902 057), the arrangement of the electron guns rotated with their axes at the same angle Tube axes are inclined and each have a star-induced distortion, so that this electrostatic deflection system is assigned. Compensate for both distortions. Such inclined electron guns, in which the one with the diverging effect of the diverging lens Electron beam does not exit the tube axis, 5 ° is canceled again, d. H. the tracks of gleimuss the beam - depending on the deflection - electrons exposed to the deflection conditions radiate different distances until they hit the various electron guns put back the screen. Will the beam systems be on the screen and not on it Thrown the side of the screen on which they intersect, the tendencies of the electrons are themselves the electron gun is also located, one of 55 beam generator systems is selected 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. As a result of these different distances, the cathode ray tube according to the invention has correspondingly different functions. As a result, a rectangle at its 60th is distorted, the angle at which the axes of the electron image on the fluorescent screen are inclined in a trapezoidal manner with respect to the tube axis. Since this distortion is in the range of 2.5 to 7.5 ° for every electrical
nenkanone - according to their arrangement - an- A further advantageous embodiment of the erders occur, the cathode ray tube according to the invention with the same deflection is that light spots generated on the luminescent screen are no longer on each other between the electron gun systems. The farther they are on the edge and the fluorescent tube a mesh electrode is on the fluorescent screen, the more they are arranged, which together with a conductive film, fall one against the other. Such image distortions close on the inner wall surface of the funnel part