DE2658729A1 - Deflection yoke system colour TV CRT - operates with convergence correction by permanent magnet mounted at rear of plate of yoke support - Google Patents

Abstract

The deflection yoke assembly for in-line colour TV tubes is designed to reduce convergence error. It operates witout the need for correction currents superimposed on the deflection currents. The yoke containing the horizontal deflection coil and the vertical deflection coil is mounted on a carrier. The carrier is mounted onto the neck of the tube. The rear plate of the yoke support is fitted with a single permanent magnet (9) whose axis of magnetization is radial to the tube axis. The magnet can be to the right or left of the tube axis and in difficult cases, two magnets may b lifted, one on either side. The magnetic shield around the outside of the coils (7) has a cut-away section to accommodate the magnet.

Description

Deflection unit for a Parb television receiver with an inline

Color picture tube In the so-called inline color picture tube, the three electron guns - for the colors red, green and blue in a horizontal plane. With such a tube, the means for Achieving convergence simplified. The in-line tube is essentially self-converged. There are only four correction coils surrounding a toroidal core, which are traversed by a correction current to compensate for residual errors.

The following error can occur with an inline color picture tube: By The three electron guns for R, G, B lie in the manufacturing tolerances of the picture tube if the picture tube is installed horizontally, some tubes are not exactly in a horizontal position You are opposite that level by small statistically in both directions directed angles + x inclined. So the electron guns are inside the picture tube not adjusted properly. This deviation causes convergence errors. These have the effect that e.g. in the middle of the screen the horizontal line G is straight remains - while the lines - R and B parabolic opposite - opposite to the Line G are curved. This is the convergence of the three electron beams R, G, B are no longer given over part of the screen. Same mistakes can can also be caused by asymmetries in the deflection coil.

Such convergence errors can in themselves be eliminated by that a parabolic correction current is superimposed on the deflection current. Such circuits but require an additional effort for the generation of the parabolic Correction current. In addition, this circuit would be for those receivers where the cannons are properly adjusted and no correction is necessary.

The invention is based on the task, the described convergence error to eliminate by simplified means without using an additional circuit, which can only be retrofitted if necessary.

This object is achieved by the invention described in claim 1. Advantageous further developments of the invention are described in the subclaims.

The invention is based on the knowledge that only by one additional magnetic field at the rear end of the deflection unit, the mentioned convergence error can be eliminated sufficiently well. Since the maximum of the statistical distribution curve6 that is, the largest number of picture tubes has an error of zero and also a certain one Error is still permissible, the magnet is only in part of the deflection units required, in which the still permissible residual error is exceeded. The said Convergence errors can occur in two directions. It is only used for adaptation necessary to reverse the magnet in the direction of polarization. The magnet can generally be provided on the left or right of the picture tube neck. The effect is about the same in both cases, since the cannons are relative to the diameter of the tube neck have only a small mutual distance. In the case of particularly large errors the magnet be arranged on the left or right of the neck of the picture tube.

The solution according to the invention can also be used in the following case in particular apply advantageously. To compensate for asymmetries in the deflection unit, it is known the inline system inside the picture tube intentionally opposite the horizontal at a small angle + C of approx. 1-2 ° and always inclined in the same direction. Then there can be an asymmetry in the deflection unit caused by the winding process is, by a correspondingly adapted inclined position of the plane of the electron guns be balanced.

However, if such a color picture tube with an intentionally oblique Position of the plane of the electron gun combined with a symmetrical deflection unit is, then of course the statistical error curve shifts in such a way that you Maximum is no longer at error zero, but is shifted in relation to it. The same error occurs when the level of the electron gun is horizontal and the deflection unit is unbalanced. It can be seen that now the above described Correction magnet used with a significantly larger number of deflection units must become. Here, the magnet according to the invention offers the possibility of the aforementioned To compensate for the basic error + C first in all picture tubes of this type. Of the Magnet is then chosen in its strength or arranged in its position sQ, that the aforementioned basic error + C, which always has the same direction, is eliminated and the distribution curve is again with its maximum at approximately zero error. In this In this case, a magnet is required for all deflection units. This magnet to compensate for the constant error + C, however, it is easy to manufacture because it is attached to each deflection unit and, for example, simply on the bobbin can be glued on. The costs for a magnet are only low at around 3 Dpf. -With this application of the invention for the elimination of the basic error + C remain of course the error + x due to of manufacturing tolerances. These Errors can now in turn by a magnet that can be retrofitted if necessary according to the first form of application can be eliminated. But since according to the second embodiment the basic error + C has already been eliminated by a magnet that is always present, is the structurally more complex, retrofittable magnet for eliminating the error + x only in a few cases, e.g. necessary for 5% of all picture tubes.

It is known (DT-PS 24 60 816), with an A> steering unit for an inline color picture tube to adjust the convergence left and right the rear part of the deflection unit in recesses of the core one magnet each to arrange. -This solution is not used to compensate for vertical convergence errors due to an inclined position of the plane of the cannons, but rather for setting the dynamic horizontal convergence, i.e. to eliminate residual errors in the inline deflection unit. Therefore, there the magnets are magnetized differently than in the invention, namely tangential to the neck of the picture tube. This known solution and the present invention can use a deflection unit to solve various tasks independently of one another applied at the same time.

The invention is based on the drawing of an exemplary embodiment explained. FIG. 1 shows the picture tube with the deflection unit and the device according to the invention Magnets in a horizontal section running through the picture tube axis, that is from above, FIG. 2 a view of FIG. 1 from the left, FIG. 3 a special arrangement the magnets in a recess in the core, Figure 4.5 a structural design a magnet that can only be retrofitted if necessary and FIG. 6 shows the convergence error in principle and its elimination.

Figure 1 shows an inline color picture tube 1 with the tube neck 2, the conical tube funnel 3, three electron guns lying in a horizontal plane 4, saddle coils 5 for horizontal deflection, saddle coils 6 for vertical deflection, the core 7 surrounding the picture tube in a ring shape and a coil carrier carrying the coils 8th.

On the coil carrier 8 is on the rear, the tube neck 2 facing At the end of the deflection unit, a permanent magnet 9 is fixedly arranged, the radial to the picture tube axis 10 is magnetized.

The magnet is firmly glued to the coil carrier. He is so viewed from the front of the tube neck on the left of the deflection unit approximately at the level of the Picture tube axis 10. The magnet 9 can also be arranged to the right of the deflection unit as shown in dashed lines in FIGS. 1 and 2. In the case of a particularly large mistake two magnets, one on the left and one on the right, can also be provided. This solution, in which the magnet is firmly glued to the coil carrier, is especially for the said second embodiment of the invention for eliminating the error described - + C-beiinerarb picture tube with - intentionally always inclined plane in the same direction the electron guns applicable. The strength of the magnet 9 is relatively uncritical and does not necessarily have to have a certain value. The optimal effect of the magnet for the convergence correction can be done by changing the position of the magnet, thus can be achieved in particular by changing the distance from the tube neck 2.

Figure 3 shows a core 7, the left and right next to the picture tube neck 2 is each provided with a recess 12.

The recesses are used to improve the convergence To weaken the vertical deflection field at this point and the barrel-shaped deflection field there to influence. A deflection unit with such a core is described in US Pat DT-OS 24 11 084. The magnet 9 is arranged in the recess 12.

In Figure 3, only the North Pole is visible, since the South Pole as in Figure 1 is directed towards the tube neck 2. Here, too, can the magnet 9 can be provided in the recess 12 on both sides of the neck.

Figure 4.5 show a structural design for the attachment of the magnet according to Figure 3. The coil carrier 8 is provided with a receiving compartment 13, which is formed by two elongated, hook-shaped projections 14. The magnet 9 is embedded in a drawer-like plastic insert 15, which is attached to his The end is provided with the handle 16. The insert 15 is with its left end in the compartment 13 can be inserted in the radial direction to the axis 10. The slot 15 sits in the compartment 13 so tight that it holds itself in it automatically and positively and therefore no further fasteners are necessary.

This can be done by strictly adhering to the dimensions and by a resilient Achieve compliance of the projections 14.

In the case of a differently directed error, the polarity of the magnet itself would have to be reversed so that not the south pole as in Figure 3, but the north pole to the tube neck 2 is directed. However, since the insert 15 only moves in one direction and into the compartment 13 is insertable, two types of slots 15 are provided in which the magnets are stored differently. In addition to the slide-in unit 15 according to FIG. 5, there are also Another insert where the north pole is on the left, i.e. at the inserted end and thus when inserting the insert 15 into the compartment 13 onto the tube neck 2 is directed. These two different types of inserts according to FIG 5 are identified by different colors. One color is used, for example, if there are convergence errors of one direction and the other kind if there are convergence errors the other direction.

The structural solution according to Figures 3-5 is preferably for Elimination of the error # x by suitable tolerances where the insert 15 is only in a few cases, e.g. 5% is required.

If the + x error is small enough, there will be no inset at all 15 inserted into one of the compartments 13 In a color picture tube of the type described at the outset Art with one plane of the electron guns intentionally inclined by + C and one additional tolerance error + x can therefore be a fixed on the deflection unit Coil carrier 8 according to FIG. 1, glued-on magnet 9 to eliminate error C. and an insert 15 according to FIG. 3-5 for eliminating the error + x is also provided If the error + x is sufficiently small, with such a tube only that is Magnet 9 according to FIG. 1 for eliminating the error fC present, while the magnet according to Figure 3-5 to eliminate the error + x is omitted Figure 6a shows the convergence error, as they occur due to the deliberate inclination + C or the tolerance errors + =, in a coarsened representation The line G written in the middle of the screen is straight, while the lines R and B are oppositely curved parabolically through the Magnets 9 these errors are eliminated, so that the three lines R, G, B according to FIG 6b all form a straight line through the fixed magnet 9 according to FIG. 1 to eliminate the error + C or by the magnet 9 according to FIG. 3-5 for elimination the representation according to FIG. 6a is therefore adequately represented in FIG which are converted according to FIG. 6b. There are remaining deviations between the Lines R and B on the left and right edge of the picture up to a distance of about 0.3 mm between allowed at the ends of these lines.

L e r s e i t e

Claims (8)

Claims G deflection unit for a color television formerly r with an inline color picture tube with measures to compensate for vertical convergence errors due to a non-horizontal position of the plane of the three electron guns within the picture tube or fault in the deflection unit, characterized in that on the the end of the deflection unit (5-8) facing the tube neck (2) on the left and / or right next to the tube neck (2) a magnet (9) polarized radially to the tube axis (10) is provided. 2. Unit according to claim 1 with a core carrying the deflection coils, to weaken the vertical deflection field at the rear end on the left and right side is provided with a recess, characterized in that the magnet (9) lies in the recess (12). 3. Unit according to claim 1, characterized in that the magnet (9) is attached to a coil carrier (8>) carrying the deflection coils (5, 6). 4. Unit according to claim 1, characterized in that the magnet (9) embedded in a drawer-like insert (15) provided with a handle (16) is. -5. Unit according to Claim 4, characterized in that the coil carrier (8) is provided with a compartment (13) in which the insert ~~ (15) is tight and closed frictionally self-retaining can be pushed in (Fig. 5,6). 6. Unit according to claim 1, characterized in that at one Color picture tube in which the plane is used to compensate for an asymmetry in the deflection unit of the cannons (4) intentionally at a constant angle (+ C) with respect to the horizontal location is inclined, the magnet (9) to compensate for the conergence error caused by this inclination serves. 7. Unit according to claim 3 and 6, characterized in that the Magnet (9) is glued onto an end face of the coil former (8) facing the tube neck is. 8. Unit according to claim 6, characterized in that on the deflection unit (5-8) a first magnet (9 in Figure 1) to eliminate the convergence error an intentionally inclined position (+ C) of the plane of the cannons (4) and also a second one Magnet (9 in Figure 3-5) to eliminate the convergence error due to tolerances (+ x) is provided in the position of the plane of the electron gun.