KR830002599B1 - Deflection Device - Google Patents

Abstract

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Description

Deflection Device

1 is a diagram showing a deflection magnetic field state of a self-consense method of a color cathode ray tube having an inline electron gun;

2 shows raster distortion in the case of FIG.

3 shows a vertical deflection magnetic field in the case of FIG.

4 is a diagram showing a vertical deflection magnetic field state according to the present invention.

5 is a view showing a vertical deflection state according to the present invention in FIG.

6 is a side view of the deflecting device pointing to another embodiment.

The present invention relates to a deflection apparatus suitable for a color cathode ray tube with a cathode ray tube, in particular an inline electron gun (a manner in which three electron guns are arranged in a straight line in a horizontal line).

In a color television receiver using a color cathode sunny tube with such an inline electron gun, as shown in FIG. 1, the magnetic field generated from the vertical deflection coil is assumed to be the barrel distribution magnetic field (1), and the magnetic field generated from the horizontal deflection coil. Is a pincushion distribution magnetic field 2, and one of the convergences is corrected to reproduce an image having a good convergence characteristic.

In general, this method is implemented as a self-convergence method.

However, although a good convergence effect can be obtained by adopting this method, the distortion as a raster in the difference between the curvature of the screen and the deflection curvature of the beam still shows a failure shape as shown in FIG. Have

At present, in order to correct this left and right failure distortion, a left and right failure distortion correction circuit device for superimposing and correcting a signal whose amplitude changes in a parabolic state synchronized with a vertical signal on a horizontal signal is added.

However, such a distortion correction circuit device is reversed in view of reducing resources, inexpensiveness, and simplicity, and improvements are desired.

The present invention has been made in view of this point and provides a deflection device which is remarkably improved by an extremely simple configuration.

That is, the vertical deflection coil of the deflection yoke draws the leakage magnetic field to the front side of the deflection yoke by using the magnetic material, and the vertical deflection barrel magnetic field is influenced in the direction of the pin cushion magnetic field at the front side to achieve correction of left and right failure distortion. It relates to a deflection device.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The barrel-shaped vertical deflection magnetic field shown in FIG. 1 is achieved by a pair of troidle-vertical vertical deflection coils 4 and 4 'wound around the truncated circle abstract core 3 as shown in FIG. .

In principle, it is experimentally confirmed that a vertical deflection magnetic field is used to adjust the raster's left and right failure distortion in the fit cushion, and a horizontal deflection magnetic field is used as the pincushion for adjusting the failure distortion in the upper and lower sides. The sense is determined by the overall barrel or fin magnetic field generated by the portion corresponding to the cathode neck of the deflection yoke and the portion corresponding to the cone portion, but the raster distortion is strongly influenced by the magnetic field of the portion corresponding to the cone portion of the cathode ray. Giving is confirmed, too.

The deflecting device of the present invention has the cores 3 on opposite sides of the pair of troided vertical coils 4, 4 'wound with a trolley wound facing the frustoconical core 3 as shown in FIG. The magnetic body 5 is arrange | positioned on it. This part is perpendicular to the magnetic flux generated by the upper vertical coil 4 and the magnetic flux generated by the lower vertical coil 4 ', as shown in the magnetic flux invention diagram of FIG. The magnetic field from the coil is the strongest. Therefore, the leakage magnetic field can be obtained most efficiently from the vertical coil. Next, arms 6 ₁ and 6 _{2 which} extend from both ends of the magnetic body 5 to the cone portion of the cathode ray tube and substantially correspond to the cathode ray tube screen diagonal are integrally formed. Therefore, this arm 6 ₁ , 6 ₂ generates a magnetic field synchronized with the vertically deflected magnetic field, and the arrangement seen from the front of the cathode ray tube is as shown in FIG. 5. That is, if the magnetic flux direction of the vertical deflection magnetic field is generated from the left to the right as shown in the figure, N poles are generated in the left arm (6 ₁ ) (6 ₂ ), respectively, and the right arm (6 ₃ ) (6 ₄ ) In the S-pole, magnetic flux is generated between the amam (6 ₁ )-(6 ₃ ) and the arm (6 ₂ )-(6 ₄ ) by this magnetic field, and deflected yoke as shown in Fig. 5 (a). The pin cushion magnetic field C is generated on the cone side with respect to the vertical barrel magnetic field B of. The action of the Pit Cushion magnetic field by this arm is as follows.

That is, if the magnetic field of the vertical coil is shaking the beam downward from the horizontal axis, as shown in FIG. 5 (b), the magnetic field B of the vertical coil is seen from the front of the cathode ray tube from the left to the right (N From the pole to the S pole) and a pin cushion type magnetic field C is also generated in the same direction as the vertical coil magnetic field B between the lower arms 6 _{2 to} 6 ₄ . At this time, the pin cushion type magnetic field C generated between the arms 6 ₂ and 6 ₄ is the component F ₁ and the beam that pulls the beam downward in the lower diagonal portion of the cathode ray tube screen by the component of the magnetic flux. Has a component (F ₂ ) to squeeze inwardly, and by this component, diagonal portions below the raster (D) are pressed in the direction in which left and right failures are reduced. At this time, the arm ₍₆₁₎ of the upper-field that is generated between the ₍₆₃₎ does not affect the referred substantially raster screen because it does not act imeneun ratio.

Next, when the magnetic field of the vertical coil is shaking the beam upward from the horizontal axis, as shown in Fig. 5 (c), the magnetic field B of the vertical coil is seen from the front of the cathode ray tube to the right to the left (S at N pole). Pole) and a pin cushion type magnetic field (C) is generated between the upper arms (6 ₁ )-(6 ₃ ) in the same direction as the vertical coil magnetic field (B). The pin cushion type magnetic field C has a component F _{1 that} pulls the beam upward and a component F ₂ that pushes the beam inward in a diagonal portion of the cathode ray tube screen upward.

By this component, the diagonal portion in the upward direction of the left and right failure distortion raster D is pressed in the direction in which the left and right failure distortion decreases. At this time, under the direction of the arm ₍₆₂₎ a magnetic field that is generated between the ₍₆₄₎ does not affect substantially the raster image because it does not act imeneun ratio.

It becomes a shape pressed in the arrow (A) direction of FIG. 2, and the favorable raster of the linearity improved remarkably improved is obtained. According to this method, since the vertical deflection magnetic field can be changed in the direction of the pin cushion magnetic field only at the cone side, the vertical deflection coil magnetic field as a whole magnetic field affects the consense all the way out or slightly. Only raster distortion is possible without modification. This is effectively achieved by the dynamic leakage magnetic field synchronized with the vertical deflection magnetic field.

In addition, it is possible to effectively use the leakage magnetic flux of the vertical deflection field by using a suitable magnetic body piece without the need for circuits, circuit components, or permanent magnets for the correction of other left and right failure distortions. It can be corrected.

Furthermore, as shown in FIG. 6, the four magnetic bodies 7 ₁ , 7 ₂ , 7 ₃ and 7 ₄ may be arranged substantially opposite to the screen diagonal with the cathode ray as shown in FIG. 6.

In addition, according to the present invention as described above, in the color cathode ray tube having a self-consense-type in-line electron gun, the leakage magnetic field of the vertically deflected magnetic field is drawn to the cone portion side by the magnetic material and is opposed to the opposite line of the cathode ray tube screen. In principle, right and left failure distortion correction can be corrected, but in order to make this method more effective, it is possible to add various improvements to the color cathode ray tube deflection device using the inline electron gun of the principle self-convergence method.

For example, the component pulled upward by the arm with a fit cushion type mother-of-pearl and the component pulled downward by the lower side are larger in the center part than the screen shell part, and thus the upper and lower components Since the raster distortion is about to occur, the incident effects can be eliminated by making the horizontal coil a pin magnetic field, a cone portion barrel, and a magnetic field distribution in advance.

In addition, the deflection apparatus of the present invention can be used not only for color cathode ray tubes with inline electron guns but also for color cathode ray tubes with delta electron guns. Furthermore, the deflecting device of the present invention can be used not only for color cathode ray tubes but also for monochrome cathode ray tubes.

Claims (1)

A deflection device comprising a vertical deflection coil mounted on a water core and wound on a core to generate a deflection magnetic field, and a deflection unit installed on the water pipe including an additional element of magnetic material for forming a deflection magnetic field. When the element picks up the leakage magnetic field generated by the vertical deflection coil on the corner of the water pipe, the water pipe is arranged to correspond to the four corners of the water pipe screen and is in a position where the deflection unit is installed. A deflection device characterized in that it comprises four arms guiding the leakage magnetic field in such a way that the very portion of the vertical deflection magnetic field occurring at the corner of the wheel is deformed toward the vertically deflected magnetic field which is pincushioned.

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