KR0160177B1 - Verticality deflection coil winding method of deflection yoke - Google Patents

Abstract

The present invention relates to a coil winding method of a saddle troidal type deflection yoke; A coil winding method of a saddle troidal type deflection yoke; Intermittently rotating the ferrite core bitten by the core chuck; Deflection to correct orthogonality and unbalanced misconvergence on the screen by causing the ferrite core to stop when winding the coil on the inner circumferential surface of the ferrite core and rotating when winding the coil on the outer circumferential surface of the ferrite core in the rotation step. A method for winding a vertical deflection coil of a yoke.

Description

Vertical deflection coil winding method of deflection yoke

Figure 1a schematically shows a vertical deflection coil winding apparatus of a conventional deflection yoke.

Figure 1b is an exploded perspective view showing a ferrite core.

2 is a view showing a vertical deflection coil winding method of a deflection yoke according to the prior art.

3 is a view showing an axial tilt phenomenon of the wound coil according to the prior art.

4 is a screen characteristic view for explaining the orthogonality shift according to the prior art.

5 is a screen characteristic diagram of a state in which unbalanced misconvergence according to the prior art is generated.

6 is a timing chart according to FIG.

7 is a view showing an embodiment of a vertical deflection coil winding method of a deflection yoke according to the present invention.

8 is a timing chart of FIG.

9 is a view showing another embodiment of the vertical deflection coil winding method of the deflection yoke according to the present invention.

* Explanation of symbols for the main parts of the drawings

11: ferrite core 12: core chuck

13: coil winding machine 14: nozzle

15,15a: coil

The present invention relates to a method of winding a vertical deflection coil of a deflection yoke, and more particularly, to prevent axial tilt phenomenon of a coil due to an inner slope and an outer slope of a ferrite core when winding a vertical deflection coil to a ferrite core by a coil winding machine. It relates to a method of winding a vertical deflection coil of a deflection yoke.

In general, a cathode ray tube (CRT) of a television receiver or a monitor is equipped with a deflection yoke for deflecting red (R), green (G), and blue (B) electron beams scanned by an electron gun. Form the screen. As fjsk gradually increases the screen size of television sets and monitors and becomes flat, the unit of pixels constituting the screen becomes smaller and the thickness of cathode ray tube becomes thinner. The development of deflection yoke is constantly being made.

FIG. 1 schematically shows a vertical deflection coil winding apparatus of a conventional deflection yoke and shows a coil winding machine in a saddle yoke of the ST (Saddle / Toroidal) type.

Referring to FIG. 1, a core chuck 12 is gathered on one side of the ferrite core 11 to rotate the ferrite core 11 in the direction of an arrow, and a predetermined region of the ferrite core 11 is shown as a dotted line. The coil winding machine 13 which draws a coil through the nozzle 14 and winds it around the ferrite core 11 in circular motion is provided.

Therefore, the coil drawn out from the nozzle 14 of the coil winding machine 13 is wound on the inner and outer peripheral surfaces of the pair of ferrite cores 11 according to the winding method shown in FIG. The coil winding machine 13 is wound in the direction of the screen portion 11a or the neck portion 11b of the ferrite core 11 bited by the core chuck 12 during the designated angle while winding the designated number of turns within θ N). Wind the coil pulled out by the circular motion.

However, according to the conventional deflection yoke vertical deflection coil winding method, the winding wire of each layer should be wound in the radial direction with respect to the x, y axis origin, but as the ferrite core is continuously rotated during winding, Since the coil to be wound has its curved inner surface, the coil is wound in a circumferential direction, so that the coil is staggered as shown by a dotted line and a solid line as shown in FIG. That is, as shown in the timing chart of FIG. 6, the rotational speed of the ferrite core with time changes is constant so that the coils are simultaneously wound on the inner and outer circumferential surfaces of the ferrite core, so that the screen portion 11a and the neck corresponding to the front and rear of the ferrite core are rotated. The tilt phenomenon occurs in the portion 11b.

In addition, after the coil is wound around the ferrite core is assembled with the horizontal deflection coil, the shaft adjustment operation is performed magnetically. After this operation, the screen 11a side is rotated at an angle θ S relative to the designated angle θ N. Since the neck portion 11b is distorted at an angle θ N, the magnetic coil phenomenon occurs on the screen portion 1a of the inner coil of the ferrite core 11 which has the greatest influence on the screen.

Therefore, as shown in FIG. 4, the orthogonality misalignment of the electron beams R, G, and B occurs, and the unbalanced misconvergence of FIG. 5 occurs.

The present invention has been made to solve various problems as described above, and an object of the present invention is to control the winding angle at the screen center side and the net side side in the ST type deflection yoke when the vertical deflection coil is wound on the ferrite core. The present invention provides a vertical deflection coil winding method of a deflection yoke to compensate for unbalanced misconvergence by winding a coil by a winding method.

Another object of the present invention is to obtain an unbalanced misconvergence by winding a coil by a split winding method in the ST type deflection yoke so that the winding angles on the screen side and the neck side of the vertical deflection coil to the ferrite core coincide at the axis center. The present invention provides a method of winding a vertical deflection coil of a deflection yoke for correction.

In the deflection yoke vertical deflection coil winding method according to the present invention for achieving the above object, in the coil winding method of the saddle troydal type deflection yoke; Intermittently rotating the ferrite core bitten by the core chuck; The ferrite core is stopped when the coil is wound on the inner circumferential surface of the ferrite core and rotated when the coil is wound on the outer circumferential surface of the ferrite core to correct orthogonality and unbalanced misconvergence on the screen. Is in.

Another feature of the vertical deflection coil winding method of the deflection yoke according to the present invention is a coil winding method of a saddle troidal type deflection yoke; Dividing the ferrite core bitten by the core chuck at the center and intermittently rotating the coil to be wound to both sides; On the screen orthogonality and unbalance by rotating the ferrite core is stopped when winding the coil on both sides of the inner circumferential surface of the ferrite core by the step, and when the coil is wound on both sides of the outer circumferential surface of the ferrite core The intention is to correct gender misconvergence.

Hereinafter, a preferred embodiment of the vertical deflection coil winding method of the deflection yoke according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 7 is a view showing an embodiment of the vertical deflection coil winding method of the deflection yoke according to the present invention, and FIG. 8 is a timing chart according to FIG.

Referring to FIG. 7, the first method of winding a vertical deflection coil on the ferrite core 11 is an intermittent winding method. First, the ferrite core bited by the core chuck shown in FIG. Rotate intermittently. That is, as shown in the timing chart of FIG. 8, the rotational speed of the ferrite core 11 along the time axis stops at the winding of the inner surface of the coil and rotates at the winding of the outer surface of the coil.

By the rotation step as described above, the coil is wound on the inner circumferential surface of the ferrite core, and the winding of the coil on the outer circumferential surface of the ferrite core is performed in a continuous step, thereby winding the vertical deflection coil on the ferrite core. In this case, the solid line indicates the form in which the coil is wound on the inner surface of the ferrite core, and the dotted line indicates the form in which the outer coil is wound.

Therefore, the unbalanced misconvergence is ensured by winding the coil by the intermittent winding method so that the winding angles on the screen portion 11a side and the neck portion 11b side are wound at the center of the axis when the vertical deflection coil is wound on the ferrite core 11. You can do it.

Referring to FIG. 9, there is a split winding method as a second method of winding a vertical deflection coil on a ferrite core. First, the ferrite core bitten by the core chuck shown in FIG. It rotates intermittently so that it may wind up. That is, as shown in the timing chart of FIG. 8, the rotational speed of the divided ferrite cores along the time axis is intermittently stopped at the inner winding and rotated at the outer winding.

By winding the coil on the inner circumferential surface of the ferrite core once by the divided rotation step as described above, and winding the coil on the outer circumferential surface of the ferrite core twice, the vertical deflection coil is wound on the ferrite core.

Therefore, the unbalanced misconvergence can be corrected by winding the coil by the split winding method so that the winding angles on the screen side and the neck side of the vertical deflection coil are wound on the axial center of the ferrite core.

According to the vertical deflection coil winding method of the deflection yoke according to the present invention as described above, in the coil winding method of the deflection yoke of the saddle trojan type; During the intermittent rotation of the ferrite core bitten by the core chuck or the intermittent rotation of the ferrite core in the axial center, the coil is wound on the inner circumferential surface of the ferrite core and the coil is wound on the outer circumferential surface of the ferrite core. The orthogonality and unbalanced misconvergence of the image can be corrected.

Therefore, according to the vertical deflection coil winding method of the deflection yoke according to the present invention, when the vertical deflection coil is wound on the ferrite core by the coil winding machine, the deflection yoke prevents the axial tilt phenomenon of the coil due to the inner and outer slope of the ferrite core. By producing, it has an excellent effect of correcting orthogonality and unbalanced misconvergence appearing on the screen.

Claims (2)

A coil winding method of a saddle troidal type deflection yoke; Intermittently rotating the ferrite core bitten by the core chuck; Deflection to correct orthogonality and unbalanced misconvergence on the screen by causing the ferrite core to stop when winding the coil on the inner circumferential surface of the ferrite core and rotating when winding the coil on the outer circumferential surface of the ferrite core in the rotation step. Yoke coil winding method. A coil winding method of a saddle troidal type deflection yoke; Dividing the ferrite core bitten by the core chuck at the center and intermittently rotating the coil to be wound to both sides; On the screen orthogonality and unbalance by rotating the ferrite core is stopped when winding the coil on both sides of the inner circumferential surface of the ferrite core by the step, and when the coil is wound on both sides of the outer circumferential surface of the ferrite core A method of winding vertical deflection coils of a deflection yoke to correct gender misconvergence.