KR20030092841A - winding structure to vertical deflection coil of deflection yoke - Google Patents

Abstract

PURPOSE: A winding structure of vertical deflection coils of a deflection yoke is provided to maximize the magnetic permeability by winding radially the vertical deflection coils. CONSTITUTION: A winding structure of vertical deflection coils of a deflection yoke includes a ferrite core(10) and a plurality of vertical deflection coils(20). The vertical deflection coils(20) are wound around the ferrite core(10). A bottom face of the ferrite core(10) is formed with a rectangular shape. A plurality of pectinate projections(11) are radially formed to an inner circumference on the bottom face of the ferrite core(10). The vertical deflection coils(20) are supported by the pectinate projections(11). The vertical deflection coils(20) are radially wound to maximize the magnetic permeability.

Description

Winding structure to vertical deflection coil of deflection yoke

The present invention relates to a vertical deflection coil winding structure of a deflection yoke, and more particularly, to form a ferrite core in a rectangular integral shape with a square radial shape which makes a maximum permeability of the vertical deflection coil wound inside the ferrite core of the deflection yoke. The present invention relates to a winding structure of a vertical deflection coil, in which a radial protrusion is formed inside the ferrite core to allow the vertical deflection coil to be wound in a radial quadrangular shape, thereby winding up the magnetic permeability to a maximum value.

In general, a deflection yoke for generating an accurate image by deflecting an electron beam emitted from an electron gun of a cathode ray tube includes a vertical deflection coil for deflecting the electron beam in a vertical direction, a horizontal deflection coil for deflecting the electron beam in a horizontal direction, and the vertical deflection. It is composed of a separator that accurately distinguishes the position of the coil and the horizontal deflection coil and can be electrically insulated from each other.

At this time, the R (Red), G (Green), B (Blue) electron beam emitted to the electron gun of the cathode ray tube is deflected at a predetermined angle by the deflection yoke and passes through the through hole formed in the shadow mask. By sealing the light on each stripe mounted inside the light emitting device, a normal image is realized on the screen of the television.

On the other hand, among the three electron guns of the cathode ray tube, the green electron gun in the center coincides with the center axis of the cathode ray tube, but the red and blue electron guns on the left and right are inclined inwardly with respect to the central axis. In the image, the three electron beams must be designed to focus on the holes of the shadow mask, respectively, and simultaneously reach the respective shaped bodies through the same holes.

In this case, the electron beam is accurately sealed to the inner circumference of the stripe of the panel, which is called landing. On the other hand, if the mis-landing occurs when the electron beam deviates to the outer circumference of the stripe, the image of the screen is not clear. .

The general deflection yoke has a vertical deflection coil wound around the ferrite core and is mounted on the outside to prevent mis-landing and maintain a constant characteristic.

However, as the screen size of a television receiver or a monitor is gradually enlarged and flattened, the unit of pixels constituting the screen becomes smaller and the thickness of the cathode ray tube becomes thinner, so that the deflection yoke of various forms to obtain a high deflection angle and precise high resolution is obtained. Development is ongoing.

By the way, the vertical deflection coil winding structure in the ferrite core of the prior art is divided into two cylinders and assembled after winding, respectively. There was a problem that can not be used for large televisions or monitors because of the mis-landing occurs.

An object of the present invention devised to solve such a problem is to form a ferrite core in a rectangular integral shape with a square radial shape which makes the permeability of the vertical deflection coil wound inside the ferrite core of the deflection yoke to the maximum, and the inside of the ferrite core It provides a winding structure of the vertical deflection coil with the characteristic of improving the characteristics in the form of winding the vertical deflection coil to the radial square to form a radial projection in the winding to the maximum permeability.

1 is a bottom perspective view showing a vertical deflection coil winding structure of a deflection yoke according to the present invention;

* Description of the symbols for the main parts of the drawings *

10: ferrite core 11: comb-like protrusions

20: vertical deflection coil

In order to achieve the above object, the vertical deflection coil winding structure of the present invention deflection yoke is formed in the lower outer side of the deflection yoke, and the vertical deflection coil is wound in the ferrite core, wherein the bottom surface of the ferrite core is formed in an integral square shape. The technical features of the technical features include forming a comb-shaped protrusion radially toward the inner circumferential side so that the vertical deflection coil is supported by the comb-shaped protrusion and wound in a rectangular radial shape with a maximum permeability.

Referring to the preferred embodiment of the present invention configured as described above with reference to the accompanying drawings as follows.

1 is a bottom perspective view showing a vertical deflection coil winding structure of a deflection yoke according to the present invention;

As shown in FIG. 1, the vertical deflection coil 20 is wound inside the ferrite core 10 formed on the outer circumference of the deflection yoke.

The ferrite core 10 is formed in a rectangular integral body with a bottom, and a plurality of radially comb-like protrusions 11 are formed inside the bottom.

The vertical deflection coil 20 is wound while being supported by a comb-shaped protrusion 11 formed in a radial shape on the bottom.

Therefore, the vertical deflection coil 20 wound around the ferrite core 10 of the deflection yoke is supported by the comb-shaped protrusion 11 formed inside the bottom surface of the ferrite core 10 and wound radially in a square having a maximum permeability. Be sure to

As described above, the vertical deflection coil winding structure of the deflection yoke of the present invention is formed on the lower outer side of the deflection yoke, so that the vertical deflection coil 20 is wound in the ferrite core 10, the bottom surface of the ferrite core 10 is integrally formed. In the square shape of the bottom surface to form a comb-shaped projection (11) radially toward the inner circumferential side is formed so as to support the vertical deflection coil (20) to the comb-shaped projection (11) while winding in a state in which the permeability is the maximum with a rectangular radial. Therefore, the vertical deflection coil is formed in a radial shape with a square shape that makes the permeability of the vertical deflection coil wound inside the ferrite core of the deflection yoke to the maximum. By winding in a square, the permeability is maximized to improve the characteristics in the form of winding The.

Claims (1)

In the ferrite core 10 is formed on the lower outer side of the deflection yoke, the vertical deflection coil 20 is wound, The bottom surface of the ferrite core 10 is formed in a rectangular shape, and the bottom surface has a comb-shaped protrusion 11 radially toward the inner circumferential side to support the vertical deflection coil 20 to the comb-shaped protrusion 11 to form a radial shape. A vertical deflection coil winding structure of a deflection yoke, characterized in that it is formed to wind with a maximum permeability.