KR100471962B1 - Deflection yoke for cathode ray tube - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deflection yoke for a cathode ray tube, and in particular, an auxiliary coil for improving vertical raster distortion and misconvergence characteristics of a cathode ray tube and a VLMF coil for removing leakage electromagnetic waves caused by a horizontal deflection coil are integrally formed. The purpose is to improve the efficiency of the cathode ray tube and to improve the deterioration of the convergence characteristics of the cathode ray tube.

To achieve this purpose, horizontal and vertical deflection coils for deflecting the electron beam emitted from the electron gun in the horizontal and vertical directions, and conical ferrite cores for increasing magnetic efficiency by reducing the loss of magnetic force generated from the horizontal and vertical deflection coils. And, in a deflection yoke for a cathode ray tube having a main holder which fixes the horizontal deflection coil, the vertical deflection coil and the ferrite core at a predetermined position and serves as an insulator between the horizontal deflection coil and the vertical deflection coil, Auxiliary coil to improve raster distortion and misconvergence due to characteristics, VLMF coil to remove electromagnetic waves leaked from horizontal deflection coil, and fixing to wind the auxiliary coil and VLMF coil to fix them at a fixed position of main holder It is equipped with a means.

Description

Deflection yoke for cathode ray tube

The present invention relates to an auxiliary coil for improving up and down raster distortion and misconvergence on a screen, and a deflection yoke installation structure of a VLMF coil for removing leakage electromagnetic waves generated in a horizontal deflection coil.

As shown in FIG. 1, a general color cathode ray tube is fused to a panel 2 having R, G, and B fluorescent films 1 coated on an inner surface thereof, and fused to a rear end of the panel 2 to form a cathode ray tube. The funnel 3 which maintains a vacuum state, the electron gun 5 enclosed in the neck part 4 of the funnel 3, and the electron beam radiated | emitted from the said electron gun 5 make the whole surface of the fluorescent film 1 A deflection yoke 6 for deflecting the electron beam horizontally or vertically so as to strike it, and a shadow mask 7 in which a plurality of openings are formed so that color discrimination occurs while the electron beam deflected by the deflection yoke 6 passes. .

The deflection yoke 6 includes a horizontal deflection coil 8 for deflecting the electron beam emitted from the electron gun 5 in the horizontal direction, a vertical deflection coil 9 for deflecting the electron beam in the vertical direction, and Conical ferrite core 10 for increasing magnetic efficiency by reducing the loss of magnetic force generated from the horizontal deflection coil 8 and the vertical deflection coil 9, the horizontal deflection coil 8, the vertical deflection coil 9 And a main holder 11 which fixes the ferrite core 10 at a predetermined position and serves as an insulator between the horizontal deflection coil 8 and the vertical deflection coil 9.

In addition, a pair of auxiliary coils 12 for improving upper and lower raster distortion on the screen as shown in FIG. 3A and misconvergence as shown in FIG. 3B are provided between the main holder between the center portion and the opening of the horizontal deflection coil 8. (11) A pair of VLMF coils 13 are attached to the upper and lower screen portions of the main holder 11 to attach them to the inner surface by using an adhesive and to remove leakage electromagnetic waves generated from the horizontal deflection coil 8 as shown in FIG. Was attached using.

In addition, the deflection yoke 6 is fixed to the funnel 3 by a fixing wedge 14.

When power is applied to the conventional cathode ray tube configured as described above, an electron beam is emitted from the electron gun 5, and the electron beam is deflected horizontally or vertically by the deflection yoke 6 so that the electron beam can strike each part on the screen. The horizontal deflection coil 8 of the deflection yoke 6 generally flows a current having a frequency of 15.75 KHz or higher, thereby deflecting the electron beam inside the cathode ray tube in a horizontal direction by using a magnetic field generated therein. In this case, the vertical deflection coil 9 causes a current having a frequency of 60 Hz to be deflected, thereby deflecting the electron beam in the vertical direction by using the magnetic field generated.

In addition, by using the non-uniform magnetic field of the horizontal and vertical deflection coils 8 and 9, the three electron beams R, G, and B have convergence on the screen even without using an additional circuit and additional device. Self-convergence-type deflection yoke (6) has been mainly developed, which adjusts the winding distribution of the horizontal and vertical deflection coils (8, 9) to produce barrel or pin-cushion type magnetic fields for each part, thus generating three electron beams. By having different deflection forces according to these positions, electron beams of different distances from the starting point to the screen of arrival point can be collected at the same point.

In addition, in the case of making a magnetic field by flowing a current through the horizontal deflection coil 8 and the vertical deflection coil 9, only the magnetic field of the horizontal deflection coil 8 and the vertical deflection coil 9 deflects the electron beam to the front of the screen. Since it is difficult to increase the magnetic force by increasing the efficiency of the magnetic field by minimizing the loss of the return environment of the magnetic field by using a ferrite core of high permeability (10).

In addition, a pair of auxiliary coils 12 are attached to the inner surface of the main holder 11 between the central portion and the opening of the horizontal deflection coil 8 to improve the upper and lower raster distortion and misconvergence on the screen due to the mechanical characteristics of the cathode ray tube. Then, a pair of VLMF coils 13 are attached to upper and lower screen portions of the main holder 11 to remove leaked electromagnetic waves generated at the openings of the horizontal deflection coils 8.

However, such a conventional cathode ray tube has a pair of auxiliary coils for improving the upper and lower raster distortion and misconvergence characteristics on the screen, and a pair of VLMF coils for removing electromagnetic waves leaked from the horizontal deflection coil, respectively. As the work man-hours increase, this leads to a deterioration of profitability of the company, and the auxiliary coil and the VLMF coil are attached using adhesives, so that the adhesive strength is weakened due to the heat generated from the horizontal deflection coil when the deflection yoke is operated for a long time. As a result, the attachment position of the auxiliary coil is changed, thereby deteriorating the convergence characteristic on the screen.

In addition, since the attachment position of the auxiliary coil is moved due to the fixing wedge during the process of inserting the wedge for fixing the deflection yoke for the cathode ray tube, there is a problem in that the convergence characteristic on the screen is deteriorated.

In view of this point, the present invention includes a pair of integrated holders, and by winding the auxiliary coils and VLMF coils on the integrated holders and configuring them in the main holder of the deflection yoke, the auxiliary coils and VLMF coils are integrally formed to improve productivity. In addition, the object is to improve the deterioration of the convergence characteristics of the cathode ray tube.

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

5 shows a configuration diagram of a deflection yoke according to the present invention, comprising a horizontal deflection coil 101 for deflecting an electron beam emitted from an electron gun in a horizontal direction, a vertical deflection coil 102 for deflecting the electron beam in a vertical direction; Conical ferrite core 103 to increase magnetic efficiency by reducing the loss of magnetic force generated from the horizontal deflection coil 101 and the vertical deflection coil 102, the horizontal deflection coil 101, the vertical deflection coil 102 And the ferrite core 103 is fixed to a predetermined position and consists of a main holder 104 that serves as an insulator between the horizontal deflection coil 101 and the vertical deflection coil 102.

In addition, a pair of auxiliary coils 105 for improving raster distortion and misconvergence due to mechanical characteristics of the cathode ray tube, and a pair of VLMF coils 106 for removing electromagnetic waves leaked from the horizontal deflection coil 101. And a pair of integrated correction holders 107 wound around the auxiliary coil 105 and the VLMF coil 106 are attached to the main holder 104.

As shown in FIG. 6, the pair of integrated correction holder 107 includes an upper guide groove 107a on which the VLMF coil 106 is wound, a lower guide groove 107b on which the auxiliary coil 105 is wound, and the integrated correction holder. The intermediate part 107c which fixes the holder 107 to the screen part fixing groove of the main holder 104 is comprised.

Referring to the operation of the present invention configured as described in detail as follows.

Instead of attaching the pair of auxiliary coils 105 and the VLMF coils 106 to the main holder 104 separately, they are wound around the pair of integrated correction holders 107 and then positioned at the predetermined positions of the main holder 104. First, a pair of VLMF coils 106 are wound around the upper guide groove 107a of the integrated correction holder 107 by a predetermined number of turns in a predetermined direction, and a pair of lower guide grooves 107b of the integrated correction holder 107 are wound. After the auxiliary coil 105 is wound by a predetermined number of turns in a predetermined direction, the intermediate portion 107c of the integrated correction holder 107 is fixed to the screen portion fixing groove of the main holder 104.

At this time, the auxiliary coil 105 is located on the inner surface of the main holder 104 between the central portion and the opening of the horizontal deflection coil 101, and the VLMF coil 106 is positioned to face the ferrite core 103. .

Accordingly, the auxiliary coil 105 and the VLMF coil 106 are not attached to the main holder 104 separately, but are wound and attached to the pair of integrated correction holders 107, thereby simplifying the manufacturing process and improving productivity. In the long time operation of the deflection yoke, since the heat generated from the horizontal deflection coil 101 or the position change due to the fixing wedge does not occur, it is possible to provide a high quality image.

As described above, the present invention provides a deflection after integrally forming an auxiliary coil for improving raster distortion and misconvergence due to the mechanical characteristics of the cathode ray tube and a VLMF coil for removing electromagnetic waves leaked from the horizontal deflection coil. Since it is attached to the main holder of the yoke, the work process is simplified and productivity is improved. When the deflection yoke is operated for a long time, the heat generated by the horizontal deflection coil or the position change due to the fixing wedge does not occur, thereby providing a high quality image. It has an effect.

1 is a block diagram of a typical cathode ray tube.

2 is a configuration diagram of a deflection yoke for a conventional cathode ray tube.

3 is a screen shape by the mechanical characteristics of the conventional cathode ray tube,

(A) As for the raster distortion pattern.

(B) is misconvergence pattern, too.

4 is a leaked electromagnetic wave pattern diagram of a conventional deflection yoke.

5 is a configuration of the deflection yoke for the cathode ray tube of the present invention.

6 is a block diagram of an integrated correction holder according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

101: horizontal deflection coil 102: vertical deflection coil

103: ferrite core 104: main holder

105: auxiliary coil 106: VLMF coil

107: integrated calibration holder 107a: upper guide groove

107b: Lower guide groove 107c: Middle part

Claims (2)

Horizontal and vertical deflection coils for deflecting the electron beam emitted from the electron gun in the horizontal and vertical directions, Conical ferrite cores for reducing magnetic force loss generated from the horizontal and vertical deflection coils to increase magnetic efficiency, and the horizontal deflection coils. In a deflection yoke for a cathode ray tube having a main holder which fixes a vertical deflection coil and a ferrite core at a predetermined position and serves as an insulator between the horizontal deflection coil and the vertical deflection coil, Auxiliary coil to improve raster distortion and misconvergence due to mechanical characteristics of cathode ray tube; A VLMF (Very Low Frequency Magnetic Field) to remove electromagnetic waves leaking from the horizontal deflection coil; The auxiliary coil and VLMF (Very Low Frequency Magnetic Field) coil winding is wound, the deflection yoke for cathode ray tubes characterized in that it comprises a correction holder attached to a predetermined position of the main holder. The method of claim 1, The fixing means has a winding portion wound around the auxiliary coil and the VLMF coil, respectively; A deflection yoke for a cathode ray tube, characterized in that the auxiliary coil and the VLMF coil wound around the winding portion are fixed to each fixed position of the main holder.

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