KR940005051Y1 - Vcr compensater of deflection yoke - Google Patents

Abstract

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Description

Vertical center raster (VCR) compensation device of deflection yoke

1 (a) and 1 (b) are a front view and a plan view schematically showing a state in which a VCR phenomenon correction apparatus is mounted on a conventional deflection yoke.

FIG. 2 (a) and FIG. 2 (b) are a plan view illustrating a front view and an operating state schematically showing a deflection yoke equipped with a VCR phenomenon correction apparatus according to the present invention.

3 is a perspective view showing a VCR phenomenon correction apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

11: deflection yoke 12: neck portion

12a: Electron gun insertion hole 12b: guide

13 screen portion 14 coil separator

15: vertical deflection coil 16: ferrite core

16a: split surface 17: core clamp

18: correction member 19: field collector (Field Collector)

20: guide groove 21a, 21b: field shaper (Field Shaper)

The invention relates to a deflection yoke, more specifically a self-convergence type deflection yoke used in a three-electron gun in-line gun array cathode ray tube (CRT). The vertical center raster phenomenon correction device of the deflection yoke to correct the vertical center raster phenomenon generated on the screen to improve the characteristics of the screen.

Conventionally, the deflection yoke 1 used for a cathode ray tube such as a TV receiver or a monitor has a neck portion 2 and a screen portion 3 as shown in Figs. 1 (a) and 1 (b). A horizontal deflection coil (not shown) is wound on the inner side of the coil separator 4, and the ferrite core 6 on which the vertical deflection coil 5 is wound is assembled by the core clamp 7. When the sawtooth pulse is applied to the horizontal and vertical deflection coils 5, a magnetic field is formed to scan the R (red), G (green), and B (blue) electron beams emitted from the electron gun, and to display the dice on the screen. Will be decided.

However, in the in-line array electron gun, the intensity of the G beam positioned at the center is lower than that of the R and B beams positioned at both sides, so that the G beam is scanned inside and below the R and B beams on the screen. Vertical center raster (hereinafter referred to as VCR) phenomenon, which is a kind of misconvergence phenomenon, is generated. To prevent this, a field controller of a magnetic material having a high permeability to an electron gun of a cathode ray tube is used. However, the field controller installed in the electron gun of the cathode ray tube is deteriorated due to the heat generation problem or the leakage flux generated from the deflection yoke due to the trend of high definition and high frequency cathode ray tube. Affected by Eddy Current, the field controller is being removed from the gun.

Therefore, as described above, when the performance of the field controller is deteriorated or eliminated in the electron gun, the first and second magnetic pieces 8a and 8b are used to correct the VCR phenomenon generated on the screen due to the deterioration of the G beam sensitivity. The four correction members 10 connected by the connecting piece 9 are mounted so as to face the neck portion 2 of the coil separator 4 at a predetermined interval, but the connecting piece 9 of the correction member 10 is necked. Since the adhesive is attached to the upper surface of the part 2 and mounted on the four parts of the net part 2, the working time is long, which lowers the productivity of the product and increases the production cost by increasing the number of parts.

In addition, it is not only troublesome to adjust the strength of the pincushion magnetic field formed by the second magnetic piece 8b of the correction member 10 to be balanced with each other, but also once the connecting piece of the correction member 10 When (9) is attached with an adhesive, it is difficult to finely adjust the VCR phenomenon on the screen, and thus there is a problem in that satisfactory screen characteristics cannot be expected.

This invention aims to solve the above problems, and an object of this invention is that a pair of correction members each having a field shaper (Field Shaper) formed on both sides of a field collector (Field Collector) on the upper surface of the neck of the deflection yoke. Since the mounting time is reduced, the working time is reduced due to the reduction of the number of parts, thereby improving the productivity and the production cost of the product, and the mounting position of the compensation member is constantly moved to the guide piece formed on the upper surface of the neck. The present invention provides a deflection yoke VCR phenomenon correction device that makes it easy to balance the strength of the pincushion magnetic field formed by the safer and to improve the characteristics of the screen while the VCR phenomenon is finely adjusted.

A feature of this invention for achieving the above object is, in the deflection yoke correction device for correcting the VCR phenomenon generated on the screen, so that a pair of correction members are mounted opposite to the upper surface of the neck portion of the deflection yoke. The guide piece is formed, and the correction member is in the VCR phenomenon correction device of the deflection yoke, the field saver having the guide groove is formed to protrude on both sides of the field collector so as to be movable by being fitted to the guide piece of the neck portion.

Hereinafter, the VCR phenomenon correction apparatus for the deflection yoke according to the present invention will be described in detail with reference to the accompanying drawings.

2 (a), 2 (b) and 3 show an embodiment for explaining the VCR phenomenon correction apparatus of the deflection yoke according to the present invention. First, a three-electron gun in-line array type cathode ray tube The self-convergence-type deflection yoke 11 mounted on and used in the horizontal deflection coil inside the coil separator 14 including the neck portion 12 having the electron gun insertion hole 12a formed thereon and the screen portion 13. (Not shown) is wound and mounted, and a pair of ferrite cores 16 wound with a vertical deflection coil 15 are wound to the outside of the coil separator 14 so as to be opposed to each other based on the split surface 16a. It is assembled by the clamp 17.

In addition, a guide piece 12b is formed on an upper surface of the neck portion 12 of the coil separator 14 so that a pair of correction members 18 are opposed to each other, and the correction member 18 is mounted on the field collector 19. Field safers 21a and 21b having guide grooves 20 on both sides are formed to protrude, and the guide grooves 20 of the field saver 21a and 21b are guide pieces 12b of the neck portion 12b. ), The correction member 18 is movably mounted, and the ends of the field safers 21a and 21b are positioned outside the electron gun insertion holes 12a formed on the neck 12. As shown in FIG.

As described above, after mounting the deflection yoke 11 equipped with the correction member 18 according to the present invention to a cathode ray tube such as a TV receiver or a monitor, the horizontal and vertical deflection coils 15 of the deflection yoke 11 are provided. When a sawtooth pulse is applied to the magnetic field, a magnetic field is formed to deflect the RG B electron beam emitted from the electron gun to determine the dice on the screen.

At this time, the Barrel magnetic field formed in the vertical deflection coil 15 of the deflection yoke 11 generates leakage magnetic flux while inward and outward through the split surface 16a of the ferrite core 16. The leakage overspeed generated by the deflection coil 15 is connected to the field collector 19 of the correction member 18.

When the leakage magnetic flux is focused on the field collector 19 of the correction member 18 as described above, the field safers 21a and 21b protruding on both sides of the field collector 19 are magnetized, A pincushion magnetic field is formed around the electron gun insertion hole 12a, and the pincushion magnetic field increases the deflection force F2 of the G force in the direction of the arrow rather than the deflection force F1 of the R and B beams by Fleming's left hand law. .

Therefore, in the in-line array electron gun, the sensitivity of the G beam is lower than that of the R and B beams, so that the VCR phenomenon generated on the screen increases the deflection force (F2) of the G beam by the correction member 18, thereby increasing R, It is efficiently corrected by scanning the electron beams of G and B so as to match the screen accurately.

In addition, when the correction member 18 is moved closer or farther from the upper surface of the neck portion 12 in the direction of the electron gun insertion opening 12a, the guide formed in the field safers 21a and 21b of the correction member 18. As the groove 20 is guided along the guide piece 12b of the neck portion 12, the mounting position is constantly maintained and moved, so that the strength of the pincushion magnetic field formed by the field savers 21a and 21b is balanced to each other. By adjusting the intensity of the pincushion magnetic field, the deflection force F2 of the G beam is increased or decreased to finely adjust the VCR phenomenon.

On the other hand, the correction member 18 is less than the correction member 10 used in the conventional deflection yoke (1), the number of parts is reduced and the working time is reduced, thereby improving the productivity of the product and at the same time the production cost is reduced, Since the deflection force (F2) can be easily adjusted, it is also easily applicable to large wide-angle deflection yokes.

As described above, the VCR phenomenon correction apparatus for the deflection yoke according to the present invention includes a pair of adjustment members each of which is formed on both sides of the field collector by the field saver so as to be fixedly movable on the upper surface of the neck of the deflection yoke. In addition to improving productivity and reducing production costs, the strength of the pincushion magnetic field formed by the field saver is balanced to each other so that the VCR phenomenon can be finely adjusted to improve screen characteristics.

Claims (1)

In the deflection yoke correction device for correcting vertical center raster phenomenon generated on the screen, the guide piece is mounted so that a pair of correction members 18 are mounted on the upper surface of the neck portion 12 of the deflection yoke 11. (12b) is formed, the field member (21a) (21b) having a guide groove 29 so that the correction member 18 is inserted into the guide piece (12b) of the neck portion 12 to be movable Vertical center raster phenomenon correction device of the deflection yoke, characterized in that the protrusion is formed on both sides of the).