DE2736162C2 - - Google Patents

Description

The invention relates to a color television picture tube with a deflection unit, which is a horizontal and a Includes vertical deflection coil system, being around the picture tube Means for generating a static magnetic Eight-pole correction field are provided, the poles compared to the horizontal and vertical deflection axes, respectively are arranged offset by 22.5 °.

Such a television picture tube is from GB-PS 7 50 310 known in the correction of the pillow-shaped grid distortion in a black and white television tube static magnetic eight-pole field is applied.

The static eight-pole field can be in the deflection coil system e.g. B. generated by the fact that in the deflection Number of permanent magnets is added. It is too possible, eight correction coils in the deflection coil system record with the help of a direct current excitation the static eight-pole field is generated. These Coils can be of the saddle or toroid type. It has emphasized that the attachment of the eight-pole in the Deflection coil system in this way for color television picture tubes with three converging electron beams less is suitable because such an eight-pole field Convergence disrupts. The eight-pole field is used for color picture tubes preferably at or some distance from that on the End of the deflection system on the screen side arranged. If the eight-pole field in the deflection coil system  generated, additional need for color television tubes Measure to be taken to ensure good convergence maintain. With black and white picture tubes, the Eight-pole easily opened in the deflection coil unit be taken.

To the eight-pole for the correction of the grid shape in a The influence is supposed to be able to use color television picture tubes on convergence to be as low as possible.

The invention is therefore based on the object To create a color television picture tube with a deflection unit with almost no impact on convergence occurs.

This task begins with a color television picture tube mentioned type according to the invention in that the mentioned means at the screen end of the deflection unit attached and also means at the other end the deflection unit for generating a second static Eight-pole field arranged with opposite polarity are.

The first eight-pin for the correction of the grid shape can be trained in different ways. It can e.g. B. four or eight permanent magnets are used, the z. B. are arranged so that the poles in the form of a ring aligned with one another or lying on radial lines. The Magnets can be accommodated in the housing of the deflection coil system brings, placed near this housing or in some distance from this housing, e.g. B. on the piston the picture tube. The means to The eight-pole correction field can also be generated from four or eight coils or electromagnets.  

The strength of the second eight-pole can be chosen in this way be that practically no affect convergence occurs. The first eight-pole is the grid deformation determined by the second eight-pole field only in slightly affected.

The second eight-pin can, just like the first eight-pin, on different ways with the help of coils, electrical and Permanent magnets can be achieved.

The invention can be successfully Use television picture tubes. You can also see the distance for color picture tubes from u. a. apply the "delta" type in which the electron beams through the corner points of a equilateral triangle that go to the tubes in one axis is almost vertical. But it turns out out that the invention for color picture tubes from "In-line" type is suitable in which the electron beams are almost in the same plane.

When using the static eight-pole, none are involved the voltages or currents that change the deflection required. So there are no additional ones Circuits for generating these voltages or currents required. The dynamic character of the required Correction is applied by applying the invention Deflection of the electron beam itself obtained.

The invention will now be described with reference to the drawing explained. It shows

FIG. 1 shows a color display tube of the "in-line" type,

Fig. 2 is a Achtpolfeld and the forces acting as a result of this field on the electron beam forces,

Fig. 3 shows the effect of the octapole to the raster form,

FIGS. 4 to 12, a number of possibilities for generating a Achtpolfeldes.

The color television tube shown in Fig. 1 contains a piston 1 which is provided with a neck 2 and a funnel-shaped part 3 . Three electron guns 7, 8 and 9 are arranged in the neck 2 . The color television picture tube is of the "in-line" type, so that the axes of the electron gun 7, 8 and 9 lie almost in one plane. The electron beams generated by these electron beam generation systems are deflected by a deflection coil system 11 and reach the screen 4 through the openings 6 in the color selection electrode 5 . The three electron beams pass through the openings 6 at a small angle to one another, the so-called color selection angle, and consequently only hit the phosphor region of the assigned color.

The deflection coil system 11 may include a number of saddle coils and / or toroidal coils. An important property of the tube is convergence. Convergence is understood to mean that the three electron beams 27, 28 and 29 meet almost at one point in the openings 6 of the color selection electrode 5 . The rays must not only converge at a point in the middle of the color selection electrode, but this convergence must also be maintained during the deflection with the deflection coil system 11 . This is necessary because otherwise the red, green and blue drawing files no longer coincide completely and colored edges appear at the transitions in the picture. Good convergence in the center of the color selection electrode of a color picture tube can be achieved with simple means. However, it is particularly difficult to maintain good convergence even for the parts of the color selection electrode where there is a strong deflection of the electron beams. This is due to the unequal influence of the deflection field on the three electron beams.

Another important characteristic is the extent of the Raster distortion. The grid distortion, which is in a pillow and / or barrel distortion of the picture, is largely due to no linear deflection obtained by the deflection coil system.

Convergence is essential in color television tubes. The often significant distortion that often occurs in deflection coils with good convergence has been corrected so far by sending currents through the separate winding packages of the deflection coil system. The correction currents have to be generated by additional circuitry, so that this solution is cumbersome and expensive. According to the invention, the correction in a color picture tube can preferably be carried out with the aid of a static magnetic eight-pole field which is located in or near the end of the deflection coil system 11 on the side of the screen 4 and is generated by a number of magnets 12 . The eight-pole field can be generated with the help of permanent magnets or with the help of electromagnets or coils. The coils or magnets can be arranged in the deflection coil system 11 . It is also possible that in some distance from this system on the screen z. B. are mounted with the help of brackets or strips. Since the influence of this eight-pole field on the convergence proves to be still too great, an eight-pole field, the polarity of which is opposite to that of the first eight-pole field, is generated with the aid of a number of magnets 13 , as a result of which this influence is compensated for without the positive influence on the raster distortion is significantly changed.

An eight-pole field is shown schematically in FIG. 2 by means of a number of field lines 14 . The axes X and Y coincide with the axis system coinciding with the deflection directions. The forces F that act on each electron beam are shown in the figure. The poles (N and S) lie between the axes. The eight pole field need not be completely symmetrical. If the eight-pole is not made completely symmetrical, multipole fields of a higher order (e.g. a twelve-pole, sixteen-pole) are also obtained, whereby higher-order errors in the grid can be corrected.

In Fig. 3 a pincushion distortion of the grid is shown (full line). By applying the invention, the forces F act on the electron beam (s) in such a way that the grid is corrected (dashed line). The grid distortion can also be barrel-shaped. To correct this distortion of the grid, the polarity of the eight-pole must be such that the forces F are directed in the opposite direction.

In Figs. 4 to 12, a number of options are presented for generating an octapole.

Fig. 4 as having four permanent magnets 15, 16, 17 and 18 shows a Achtpolfeld can be generated.

Fig. 5 illustrates how this can be done with a permanent magnetic ring 19 .

FIGS. 6 and 7 show electromagnets 20 and 21 which may replace the permanent magnets of Fig. 3 and 4.

Fig. 8 shows a Achtpolfeld with eight permanent magnet 22. These magnets can be arranged in the deflection coil system 11 or mounted at a short distance from this system.

Fig. 9 shows that it is also possible to generate an octupole with a number of coils 23.

Fig. 10 illustrates the Toroidausführung an octapole represents. Around a magnetic yoke 24 are arranged from coils 25 a number.

In Fig. 11, two designed as an eight-pole magnetic rings 26 and 27 with magnetic areas 42 are shown. If these rings are turned against each other, the strength of the eight-pole field can be adjusted. The simultaneous rotation of the two rings can be done with the help of a pinion gear, which is shown in Fig. 12. On the ring 26 , a tooth comb 28 is attached to the ring 27, a tooth comb 29 , these combs being coupled together by means of a pinion 30 . This adjustable eight-pole is preferably used when the convergence is corrected with a second eight-pole, which lies in front of the deflection unit 11 .

Claims (3)

1. Color television picture tube with a deflection unit, which contains a horizontal and a vertical deflection coil system, whereby means are provided around the picture tube for generating a static eight-pole magnetic correction field, the poles of which are each offset by 22.5 ° from the horizontal and vertical deflection axes. characterized in that said means ( 12 ) are attached to the screen-side end of the deflection unit ( 11 ) and also means ( 13 ) are arranged at the other end of the deflection unit for generating a second static eight-pole field with opposite polarity. 2. Picture tube according to claim 1, characterized in that the means ( 12, 13 ) consist of four or eight permanent magnets ( 15 to 18 ). 3. Picture tube according to claim 1, characterized in that the means ( 12, 13 ) consist of four or eight coils ( 20 ) or electric magnets ( 21 ).