KR0167071B1 - Induction mold for saddle type coil forming of deflection yoke - Google Patents

Abstract

The present invention relates to a deflection yoke, and in manufacturing a saddle-shaped deflection coil for deflection yoke fixed to a coil separator of a deflection yoke, the permanent magnet is magnetized to an induction mold to which the coil is wound. In this magnetized part, the magnetic field generated from the permanent magnet 4 cancels the repulsive force generated from the left and right coils to act as an attractive force, and the repulsive force from the reverse magnetic field acts on the part where the permanent magnet 4 is not magnetized. In this way, the screen characteristics of the deflection yoke are more easily supplemented, thereby improving the quality of the product and obtaining a good convergence of the CRT screen.

Description

Induction mold for forming saddle coil of deflection yoke

1 is an example of a winding die in which a saddle-shaped coil of a deflection yoke is formed.

2 is a reference diagram showing the direction of the current flowing through the coil wound on the induction mold.

3 is a schematic view showing the shape of a coil formed by an induction mold,

(a) is a state before molding.

(b) is a state after shaping | molding.

4 is an exploded perspective view of an induction mold to which the present invention is applied.

5 is a reference diagram showing that the attraction force and the repulsive force is applied to the current is applied to the coil wound on the induction mold applied to this invention.

6 is an exemplary view of a coil formed by an induction mold to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

1: coil winding mold 2: induction mold

3: coil 4: permanent magnet

The present invention relates to a deflection yoke, and more particularly, to a specific portion of an induction mold (triangle liner) in which a coil is wound in winding a saddle type deflection coil for a deflection yoke fixed to a coil separator of a deflection yoke. Saddle type manufactured by winding by induction mold by magnetizing the permanent magnet on the induction mold to force the repulsive force generated between the left and right coils by the magnetic field of the permanent magnet magnetized in the induction mold, and the other part to induce the repulsive force to act. The present invention provides an induction mold for forming a saddle-shaped coil of a deflection yoke so that the quality of the coil can be adjusted upward.

In general, the deflection yoke used in the cathode ray tube (CRT) of a TV receiver or a monitor is classified into a saddle-toroidal type and a saddle-saddle type according to the coil winding type.

These deflection yokes are symmetrical left and right, and a pair of coil separators integrated into one, a pair of horizontal deflection coils mounted inside the coil separator to generate a horizontal deflection magnetic field for deflecting the electron beam in the horizontal direction, and the coil separator A pair of vertical deflection coils mounted on the outside to generate a vertical deflection magnetic field for deflecting the electron beam in the vertical direction, and mounted to surround the vertical deflection coils, and having a magnetic body to reinforce the vertical deflection magnetic fields generated in the vertical deflection coils. It consists of a pair of ferrite cores formed, and a core clamp for fixedly coupling the ferrite cores.

The deflection yoke configured as described above is mounted on the neck portion of the cathode ray tube, and when sawtooth pulses are applied to the horizontal deflection coil and the vertical deflection coil, a magnetic field is generated according to Fleming's left-hand law, which is emitted from the electron gun of the CRT. R), green (G) and blue (B) electron beams are deflected to determine dice on the screen.

However, when winding the vertical deflection coil, the strength of the vertical deflection field generated in the vertical deflection coil due to the characteristics of the winding process is different from each other on the upper, lower and center portions of the screen, that is, due to the mechanical mechanism of the deflection yoke. Due to the error and its own error, the electron beams of R, G, and B appear without being converged at one point, which causes deterioration of image quality.

The winding type of the horizontal vertical coil fixed to the coil separator of the deflection yoke is not necessarily defined as the saddle type or the troidal type described above. When the deflection coil is wound in the saddle shape to deflect the electron beam emitted from the electron gun in place. There is also. Such a saddle-shaped deflection coil is attached to be wrapped by a ferrite core on the outer circumferential surface of the coil separator. In order to obtain the saddle-type deflection coil as described above, the mold required for the saddle-type winding must be prepared.

Conventionally, as shown in FIG. 1, an induction mold 2, such as a triangular liner for forming a saddle coil, is formed at the inner center of the coil winding mold 1 having a desired shape for winding a saddle coil. After winding the coil 3 to the induction mold 2, the saddle-shaped coil is manufactured through a separate coil forming process. However, in order to mold the coil 3 wound on the induction mold 2, a coil forming process of applying a high current to the wound coil is performed.

However, in the related art, when the current I flows through the coil 3 to form the coil 3 wound around the induction mold 2 to have a desired shape, the current I flowing through the coil 3 is shown in FIG. As described above, the direction of the current I flowing through the left and right coils 31 and 32, that is, the directions of the currents on the input side and the output side are opposite to each other, and the left and right coils 31 and 32 are formed by the reverse magnetic field. Repulsive force (F) is acting.

Therefore, as depicted in FIG. 3 (a), when the directions of the currents I flowing through the coils 3 to form coils wound by the induction mold 2 are opposite to each other, the left and right coils are reversed. The coil formed after energizing the current due to the repulsive force (F) generated in the liver is the quality is also changed due to the problem that the coil shape of the portion where the repulsive force acts as shown in FIG. There was a problem of this deterioration.

The present invention has been made in view of the conventional problems as described above, and an object of the present invention is to form a saddle coil in a magnetic field of a permanent magnet magnetized to a specific region of the induction mold by magnetizing the permanent magnet. It is to provide an induction mold for forming a saddle-shaped coil of a deflection yoke that can improve the screen characteristics of the deflection yoke by inducing the repulsive force generated between the left and right coils as a manpower and inducing the repulsive force to act. .

A feature of this invention for achieving the above object is that, in forming a saddle-shaped deflection coil fixed to a coil separator of a deflection yoke composed of a neck portion and a screen portion, a predetermined shape of an induction mold of a coil for winding a coil is wound. Permanent magnets are installed in a fixed position so that the magnetic field of the permanent magnets acts in the permanent magnets magnetized in the induction mold, so that the repulsive force generated from the left and right coils acts as a attraction force during coil forming.

According to the induction mold for forming the saddle coil of the deflection yoke of the present invention having such a configuration, the attraction and repulsive force are simultaneously applied to the induction mold in which the coil is formed by fixing the permanent magnet to the induction mold of the coil winding mold in which the coil is wound. It is configured to act so that the magnetic field generated from the permanent magnet cancels the repulsive force caused by the reverse magnetic field generated by the current flowing through the coil during the coil forming by attraction to form a coil closest to the induction mold. There is an advantage that the coil can be provided with less dispersion.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the induction mold for forming a saddle-shaped coil of the deflection yoke according to the present invention will be described in more detail the configuration and effect.

4 to 5 show an exemplary view of an induction mold installed in a winding mold for forming a saddle-shaped coil of a deflection yoke according to the present invention. FIG. 4 is an exploded perspective view and FIG. 5 is wound on an induction mold. The current is applied to the coil to show the attraction force and the repulsive force, respectively.

In the present invention, in forming a saddle type deflection coil fixed to a coil separator of a deflection yoke having a neck part and a screen part, the inner center of the coil winding die 1 in which the coil 3 is wound to form a saddle type deflection coil. Permanent magnet (4) is installed to be fixed to the magnet at a predetermined position of the induction mold (2) to be installed on the induction mold (2) in which the coil (3) is formed so that the attraction and repulsive force acts simultaneously will be.

The induction mold 2 is provided with a fixed part 21 to which the permanent magnet 4 is fixed so that the permanent magnet 4 can be inserted or inserted into the fixed part 21.

The fixing part 21 is installed at the center or a desired position so that the width of the induction mold is formed to be orthogonal to the transverse direction so that the permanent magnet 4 fixed to the induction mold 2 is fixed to be perpendicular to the induction mold. . The permanent magnet magnetized in the induction mold (2) employs a ferrite magnet, and the size or magnetization of the permanent magnet magnetized in the induction mold is limited to a specific part of the coil formed according to the position of the fixing part formed in the induction mold. Attraction is working. This can improve the partial quality characteristics of the yoke, not the whole of the deflection yoke, as the position of the permanent magnet is arbitrarily changed by the user when it is used unspecifically according to the purpose and purpose of use.

According to the present invention configured as described above, when the coil 3 is wound on the induction mold 2 and then a current is flowed in the coil to form a coil wound on the induction mold 2, the input side and the output side of the coil are mutually different. The repulsive force due to the opposite magnetic field is a specific part, that is, the magnetic field generated in the permanent magnet 4 at the part where the permanent magnet 4 is magnetized as shown in FIG. It is offset by the attraction force (A), the permanent magnet 4 is not magnetized to the repulsive force (F) by the magnetic field is applied to the site. Therefore, the permanent magnets 4 magnetized in the induction mold 2 can be preserved in the shape closest to the shape of the induction mold 2.

As described above, this invention magnetizes the permanent magnet to the induction mold mounted on the inner side of the coil winding mold in which the coil is wound, so that the permanent magnet parts assembled to the induction mold are mutually attracted to the shape of the induction mold wound. As it forms the closest shape, it is possible to improve the productivity of the deflection yoke as well as to improve the productivity due to the reduction of dispersion, and to improve the quality of the product, thereby obtaining the good convergence of the CRT screen. It is a very useful invention.

Claims (1)

In molding a saddle type deflection coil fixed to a coil separator of a deflection yoke comprising a neck part and a screen part, the coil winding is formed in the inner center of the coil winding die 1 to which the coil 3 is wound to form the saddle type deflection coil. Induction mold for forming a saddle coil of the deflection yoke, characterized in that the permanent magnet (4) to the induction mold (2) is installed so that the attraction force and the repulsive force simultaneously act on the induction mold (2) in which the coil (3) is formed.