KR100484556B1 - Deflection yoke - Google Patents

Abstract

A deflection yoke is provided that does not worsen the pincushion distortion of the transverse raster occurring at the center of the screen in the up-down direction and approximately at the center of each of the up-down ends.

The vertical deflection coil 11 includes a bent up portion 12 on the small diameter side, a bend up portion 13 on the large diameter side, and a pair of side portions 14. The length from the small diameter side end of the bend up part 13 of the large diameter side to the small diameter side end part of the bend up part 12 of the small diameter side L0 and the small diameter side of the bend up part 13 of the large diameter side When the length from the end of the window portion 15 to the end of the large diameter side of the window portion 15 is L1, the end of the large diameter side of the window portion 15 has a large diameter such that L1 / L0 is within a range of 1 to 30%. It is located in the small diameter side from the edge part of the small diameter side of the bend up part 13 of the side.

Description

Deflection yoke

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deflection yoke for use in an image display device using a color receiver such as a television receiver or a display device, and more particularly, to a deflection yoke in which a saddle type vertical deflection coil is improved.

In an image display device using a three-electron gun in-line color receiver, a self-convergence deflection method as a method for concentrating (converging) three electron beams generated from three electron guns on a screen surface (screen). There is a way to use the yoke. The self-convergence deflection yoke is generally composed of a pair of top and bottom saddle-type horizontal deflection coils and a pair of left and right saddle-type vertical deflection coils, and has a mechanism of obtaining good convergence characteristics.

The convergence characteristics and deflection distortion characteristics in the deflection yoke are greatly influenced by the position and distribution of the wires of the horizontal deflection coil and the vertical deflection coil (hereinafter collectively referred to as deflection coil). Therefore, the deflection coils of the deflection yoke generally produced are obtaining desired characteristics by adjusting their shape and electric wire distribution.

BACKGROUND ART In recent years, as the image display apparatus using color receiving tubes becomes more compact and flat, more stringent demands are placed on the deflection distortion characteristics of the deflection yoke. In particular, the planarization of the water pipe has led to the improvement of the failure type distortion of the horizontal line raster occurring in the center of the screen in the vertical direction of the screen and in the substantially center of the upper and lower ends, as shown in FIG. 3.

4 is a plan view of a vertical deflection coil used in a conventional deflection yoke. In Fig. 4, Y is the vertical axis direction of the screen when the deflection yoke is attached to the color water tube, and Z is the tube axis direction of the color water tube. The vertical deflection coil 1 has a pair of side portions connecting the small diameter side bend-up part 2, the large diameter side bend-up part 3, and the small diameter side bend-up part 2 and the large diameter side bend-up part 3. It consists of (4). The center portion of the vertical deflection coil 1 surrounded by the small diameter side bend up portion 2, the large diameter side bend up portion 3, and the side portion 4 is a window portion 5.

As shown in FIG. 4, the large diameter side end portion of the window portion 5 formed by the wire wound around the innermost circumference of the vertical deflection coil 1 is the small diameter side bend up portion of the large diameter side bend up portion 3. It is in the same position as the edge part of the (2) side.

Further, each side portion 4 of the vertical deflection coil 1 is divided into three sections of 6A, 6B and 6C on the large diameter side and wound, and is divided into two sections of 7A and 7B on the small diameter side. It is wound. The number of wires in these sections 6A to 6C and 7A and 7B is set so that the misconvergence pattern of the Y (vertical) axis shown in FIG. 6 does not occur.

In Fig. 6, (a) is a barrel misconvergence pattern on the Y axis which occurs because the barrel of the vertical deflection magnetic field becomes too strong, and (b) is a pincushion on the Y axis that occurs because the barrel of the vertical deflection magnetic field becomes too weak. Each misconvergence pattern is shown. In addition, in FIG. 6, the solid line has shown R (red), and the broken line has shown the bright line of B (blue). This misconvergence is generally called YH misconvergence.

FIG. 5 shows a sectional view perpendicular to the Z (tube) axis direction at the position shown by the broken line 8 in FIG. 4. The white point in FIG. 5 shows the electric wire position of the vertical deflection coil 1 of the right side toward the screen of the water pipe in the cross section. In addition, (1), (2), (3) and (4) in FIG. 5 respectively show the positions of the electron beams deflected to each point of (1), (2), (3) and (4) on the screen of FIG. 3 in the cross section. X in FIG. 5 is a horizontal axis of the screen.

In addition, arrow A1 in FIG. 5 shows the direction of the magnetic field which the wire group of the section 6A of the vertical deflection coil 1 generate | occur | produces at the time of screen upper deflection, and arrow A2 shows the magnetic field in which the electron beam of (3) produces the wire group of section 6A. The arrow A3 shows the direction in which the electron beam of ④ is forced by the magnetic field generated by the wire group in section 6A.

When arrow A2 and arrow A3 in FIG. 5 are compared, the electron beam of ④ which is closer than the wire group of section 6A, and whose direction of the arrow is further directed in the Y-axis direction, is in the Y-axis direction than the electron beam of ③. You can see that it is receiving a strong power. Accordingly, the electron beam deflected at the point ④ in FIG. 3 has a larger deflection amount in the Y-axis direction than the electron beam deflected at the point ④, and the failure of the lateral line raster occurring in the center of the screen in the vertical direction and the upper and lower ends, respectively Worsen mold distortion.

Similarly, the electron beam deflected at each point ⑤, ⑥, or ⑦ in FIG. 3 also worsens the failure type distortion of the horizontal raster due to the magnetic field generated by the wire group in section 6A.

As described above, in the conventional vertical deflection coil 1, the magnetic field generated by the wire group of the side portion 4 located near the end portion of the large diameter side of the window portion 5 is approximately equal to each of the center portion in the vertical direction of the screen and the upper and lower ends. There was a problem of worsening the failure type distortion of the horizontal line raster occurring in the center part, and the solution was required.

The present invention has been made in view of the above problems, and an object thereof is to provide a deflection yoke which does not deteriorate the failure type distortion of the horizontal line raster occurring in each of substantially center portions of the upper and lower direction screens and the upper and lower ends.

MEANS TO SOLVE THE PROBLEM This invention is a deflection yoke attached to the neck part of a color water pipe | tube in order to solve the above-mentioned subject of the prior art, The diameter of one side of the tube shaft direction of the said color water pipe is small diameter, and the other diameter is large diameter. In a deflection yoke having a pair of vertical deflection coils 11, the vertical deflection coils include a small diameter portion 12 in which an electric wire is wound in a first direction, and a direction in which the electric wire is substantially parallel to the first direction. And a pair of side portions 14 connected to the large diameter portion 13 wound around the small diameter portion and the large diameter portion, and having a pair of wires wound in a direction intersecting the first direction. A window portion 15 formed as an opening is formed therebetween, and the large diameter portion is bent with respect to the pair of side surfaces to form a bend up portion, and the small diameter portion has a small diameter portion from an end on the small diameter side of the bend up portion. The way to the end of the side When L0 and the length from the small diameter side end of the bend-up part to the large diameter side end of the window part is L1, the end portion of the large diameter side of the window part is within the range of 1 to 30% of L1 / L0. Preferably, the deflection yoke is located on the small diameter side from the end of the small diameter side of the bend-up portion.

EMBODIMENT OF THE INVENTION Hereinafter, the deflection yoke of this invention is demonstrated with reference to attached drawing. 1 is a plan view showing one embodiment of a vertical deflection coil used in the deflection yoke of the present invention, and FIG. 2 is a cross-sectional view showing the positional relationship between the vertical deflection coil and the electron beam used in the deflection yoke of the present invention. In FIG. 1, FIG. 2, the same code | symbol is attached | subjected to the same part as FIG. 4, FIG.

In Fig. 1, the vertical deflection coil 11, which is an embodiment of the vertical deflection coil used in the deflection yoke of the present invention, has a bend up portion 12 on the small diameter side, a bend up portion 13 on the large diameter side, and It consists of a pair of side part 14 which connects the bend up part 12 of a diameter side, and the bend up part 13 of a large diameter side. The center portion of the vertical deflection coil 11 surrounded by the small diameter bend up portion 12, the large diameter side bend up portion 13, and the side portion 14 is a window portion 15 having an opening. In the present embodiment, the small diameter side of the vertical deflection coil 11 is also a bend up portion, but the small diameter side may be a bendless type vertical deflection coil.

The deflection yoke of the present invention includes a pair of vertical deflection coils 11 and is mounted on the neck portion of the color water pipe. The deflection yoke has a small diameter on one side in the axial direction of the color water pipe and a large diameter on the other side. When the winding direction of the electric wire of the bend-up part 12 of the small diameter side of the vertical deflection coil 11 is made into a 1st direction, the bend-up part 13 of the large diameter side is a direction substantially parallel to a 1st direction, It is a part wound in the reverse direction to the first direction. The side part 14 is a part which wound the electric wire in the direction which cross | intersects a 1st direction. The winding directions in the pair of side portions 14 are opposite to each other. The large diameter bend-up part 13 is bent with respect to the pair of side parts 14 at the position shown by the broken line 18.

In the vertical deflection coil 11 shown in FIG. 1, unlike the vertical deflection coil 1 shown in FIG. 4, the large diameter side end part of the window part 15 is located in the position near the small diameter side by distance L1. When the large diameter side end part of the window part 15 approaches the small diameter side by distance L1, the large diameter side end part of a pair of side part 14 is connected to each other by the connection part 19. As shown in FIG. The winding direction of the connection part 19 is a direction crossing with the winding direction of the side part 14, and is a direction substantially parallel to the bend up part 12 of the small diameter side, and the bend up part 13 of the large diameter side. The large diameter side end part (left end part of FIG. 1) of the connection part 19 is bent at the position shown by the broken line 18, and is connected to the bend up part 13 of the large diameter side.

Each side portion 14 of the vertical deflection coil 11 is wound into three sections of 16A, 16B, and 16C on the large diameter side, and is wound into two sections of 17A and 17B on the small diameter side. have. The number of wires in these sections 16A to 16C and 17A and 17B is set so that the Y-axis misconvergence pattern (YH misconvergence) shown in FIG. 6 does not occur. Sections 16A of each side portion 4 are connected to form a connecting portion 19.

FIG. 2 shows a sectional view perpendicular to the Z-axis direction at the position shown by the broken line 18 in FIG. 1. The white point in FIG. 2 shows the electric wire position of the vertical deflection coil 11 of the right side toward the screen of the water pipe in the cross section. In addition, (1), (2), (3) and (4) in FIG. 2 respectively show the positions of the electron beams deflected to each point of (1), (2), (3) and (4) on the screen of FIG. 3 in the cross section.

As described above, in the vertical deflection coil 11, the large diameter side end portion of the window portion 15 formed by the wire wound around the innermost side is smaller than the small diameter side end portion of the bend up portion 13 on the large diameter side. It is wound so as to be located in the side. Therefore, as shown in FIG. 2, there is no electric wire group of section 16A in the cross section in the position shown by the broken line 18 of FIG. Therefore, unlike the conventional example described in FIG. 5, the magnetic field generated by the wire group in section 16A causes the failure type distortion of the horizontal line raster to occur in the substantially center portions of the upper and lower center portions of the screen and the upper and lower ends. There is no.

Thus, since the vertical deflection coil 11 of this embodiment has located the large diameter side edge part of the window part 15 in the small diameter side rather than the small diameter side edge part of the large diameter side bend-up part 13, Section 16A It is possible to significantly reduce the adverse effect of the wire group on the horizontal line raster on the center portion of the screen in the vertical direction and the upper and lower ends of the screen, and thus not deteriorate the failure type distortion of the horizontal line raster.

By the way, the larger diameter side end part of the window part 15 becomes smaller diameter side, ie, when the distance L1 of FIG. 1 is enlarged, the area | region where the electron beam is not influenced by the wire group of section 16A (Z-axis of a coil) Direction region) becomes wider. However, since the influence of the deflection magnetic field on the deflection distortion becomes small in the region on the small diameter side from the middle portion of the Z-axis direction of the vertical deflection coil 11, even if the distance L1 is set larger than necessary, the failure of the horizontal line raster is distorted. The amount of improvement does not increase. Rather, the occurrence of YH misconvergence described in FIG. 6 becomes a problem.

As a result of the experiment by the present inventors, if the position (distance L1) of the large diameter side end part of the window part 15 is set as follows, the improvement of the failure type distortion of a horizontal line raster and the improvement of YH misconvergence can be made compatible. It became clear. The distance from the small diameter side edge part of the large diameter side bend up part 13 shown in FIG. 1 to the small diameter side edge part of the small diameter side bend up part 12 is set to L0. Table 1 shows the relationship between the improvement effect of L1 / L0 and failure type distortion and YH misconvergence.

L1 / L0 0% One% 5% 10% 15% 20% 25% 30% Greater than 30% evaluation × ○ ○ ◎ ◎ ◎ ○ ○ ×

The improvement effect in Table 1 is an effect which makes both the improvement of the failure type distortion of a horizontal line raster and the improvement of YH misconvergence, and evaluation x "does not have either effect", and evaluation 0 is "good compatibility", Evaluation (◎) means "very well compatible." As is clear from the above description, 0% (corresponding to the conventional example in Fig. 4) is evaluated x because failure failure of the horizontal raster is not improved, and more than 30% is evaluated x due to the occurrence of YH misconvergence.

As can be seen from Table 1, L1 / L0 needs to be 1 to 30%, more preferably 10 to 20%. When the vertical deflection coil 11 of the present embodiment was incorporated in the 17 type color water pipe deflection yoke, and the failure type distortion of the horizontal raster of each center of the upper and lower direction of the screen and the upper and lower ends was confirmed, the amount of distortion was approximately 30%. It was confirmed that it could be improved.

As described in detail above, the vertical deflection coil in the deflection yoke of the present invention includes a small diameter portion in which the wire is wound in a first direction, a large diameter portion in which the wire is wound in a direction substantially parallel to the first direction, and a small diameter portion. And a large diameter portion, having a pair of side portions wound in a direction in which the wire crosses the first direction, and an opening window portion is formed between the pair of side portions, and the large diameter portion is a pair of side portions The length is bent from the end of the small diameter side to the end of the small diameter side of the bend-up portion from the end of the small diameter side to the end of the large diameter side of the window portion. When the length of is set to L1, the end of the large diameter side of the window portion is located on the small diameter side from the end of the small diameter side of the bend-up portion so that L1 / L0 is in the range of 1 to 30%. To, and does not deteriorate the failure type distortion of the horizontal line raster generated on each of the substantially central portion of the screen, the vertical direction central portion and the upper and lower ends. In addition, YH misconvergence does not occur, and both the improvement of the failure type distortion of the horizontal raster and the improvement of the YH misconvergence can be made compatible.

1 is a plan view showing one embodiment of a vertical deflection coil used in a deflection yoke of the present invention.

2 is a cross-sectional view showing the positional relationship between a vertical deflection coil and an electron beam used in a deflection yoke of the present invention.

Fig. 3 is a diagram showing a failure type distortion of the horizontal line raster occurring in the respective center portions of the upper and lower direction center portions and the upper and lower ends of the screen.

4 is a plan view of a vertical deflection coil used in a conventional deflection yoke.

Fig. 5 is a sectional view showing the positional relationship between the vertical deflection coil and the electron beam used in the deflection yoke of the present invention.

FIG. 6 shows YH misconvergence. FIG.

Explanation of symbols on the main parts of the drawings

11: vertical deflection coil 12: small diameter side bend-up portion (small diameter portion)

13: large diameter side bend-up portion (large diameter portion) 14: side portion

15: window section 16A, 16B, 16C, 17A, 17B: section

19: connection

Claims (2)

A deflection yoke mounted on the neck portion of a color water pipe, comprising a pair of vertical deflection coils having one diameter in one of the tube axis directions of the color water pipe and a large diameter in the other. In the deflection yoke, The vertical deflection coil, A small diameter portion in which the electric wire is wound in the first direction, A large diameter portion in which wires are wound in a direction substantially parallel to the first direction, A pair of side portions connecting the small diameter portion and the large diameter portion, the wires wound in a direction crossing the first direction, Between the pair of side portions is formed a window portion of the opening, The large diameter portion is bent with respect to the pair of side portions to form a bend up portion, The length from the small diameter side edge part of the said bend up part to the small diameter side edge part was set to L0, and the length from the small diameter side edge part of the said bend up part to the large diameter side edge part was L1. The deflection yoke is characterized in that the end portion on the large diameter side of the window portion is located on the small diameter side from the end of the small diameter side of the bend-up portion such that L1 / L0 is in a range of 1 to 30%. An end portion of a large diameter side of the pair of side portions is divided into a plurality of sections, respectively, and sections of the window portion side of each of the pair of side portions are connected to each other, substantially in the first direction. A deflection yoke, which is wound in a parallel direction.