KR970007178Y1 - Deflection yoke - Google Patents

Abstract

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Description

Deflection yoke

1 is an exploded perspective view of a general deflection yoke.

2 is a side view of the horizontal deflection coil shown in FIG.

3 is a screen characteristic diagram in which misconvergence has occurred.

(A) and (b) of FIG. 4 are side views of the horizontal deflection coil mounted on the deflection yoke according to the present invention.

5 is a front view of the deflection yoke according to the present invention.

6 is a magnetic field generation diagram different from FIG.

Explanation of symbols on the main parts of the drawings

1: deflection yoke 2: coil separator

3: horizontal deflection coil 4: vertical deflection coil

5: ferrite core 6: depression

This invention relates to deflection yoke. More specifically, when winding a horizontal deflection coil (hereinafter abbreviated as "H coil") to the deflection yoke using a coil winding machine, In order to correct misconvergence, that is, miss landing caused by the change of the horizontal deflection field, the neck portion of the H coil mounted on the deflection yoke is recessed in a predetermined shape, that is, by forming a depression. It relates to a deflection yoke that changes the deflection field to improve mislanding.

In general, the deflection yoke 1 as shown in FIG. 1 is coupled to a cathode ray tube so as to deflect the electron beam by forming a constant magnetic field to accurately scan the electron beam generated from the electron gun inside the cathode ray tube to each pixel on the screen. It is a device, which is largely mounted in a pair of coil separators 2, which form the outer structure of the deflection yoke 1, and inside the coil separator 2, as shown in FIG. Generating a horizontal deflection magnetic field so as to deflect, and mounted in a pair outside the H coil 3 and the coil separator 2 to generate a vertical deflection magnetic field to deflect the electron beam in the vertical direction, and a vertical deflection coil 4, A pair of ferrite cores (5) made of a magnetic material mounted on the outside of the vertical deflection coil (4) and configured to reinforce the magnetic field generated by the vertical deflection coil (4), and the pair of ferrites It consists of a core clamp (not shown) for fixedly coupling the core 5.

At this time, when winding the H coil 3 mounted in the deflection yoke 1 using the coil winding machine, the neck portion A corresponding to the neck side of the cathode ray tube is shown in FIG. As compared with the screen portion B corresponding to the screen side, a case in which the coil is tightly or lightly wound occurs. This is a characteristic generated in the process of winding the coil from the coil winding machine, and is generated because the tension of the coil applied to the neck portion (A) portion and the tension of the coil applied to the screen portion (B) portion of the coil winding are different from each other.

Therefore, the magnetic field generated in the neck portion A or the screen portion B of the H coil 3 is different from each other, and the misconvergence in which the electron beam is scanned biased to the upper or lower side of each pixel as shown in FIG. In other words, mislanding occurs.

In order to improve such mis-landing, the H coil is formed by forming a protrusion projecting in a predetermined shape in the coil separator 1 of the neck portion A or the screen portion B of the H coil 3, which is slightly wound. When pressure is applied to (3) to force the H coil 3 to close, or when the H coil is initially wound with the coil winding machine, the H coil is made smaller in the neck portion (A) portion or the screen portion (B) portion. The portion to be wound was wound unevenly so that the neck portion A and the screen portion B were wound at the same density.

However, when the protrusions protruding in a predetermined form are formed in the coil separator, the production of the coil separator becomes very difficult, and the manufacturing time for manufacturing the deflection yoke takes a very long time.

In addition, when the neck portion or the screen portion of the H coil is unevenly wound, there is a problem in that the mis landing is not corrected correctly due to an error in winding, and thus the misconvergence correction effect is weak.

The object of the present invention is to solve the above problems, and an object of the present invention is to provide a predetermined shape and a predetermined shape of the neck portion of the wound H coil to compensate for mislanding caused by the characteristics of the winding process during the winding of the H coil. By pressing with pressure, a small amount of winding of the H coil is forcibly pressed to provide a deflection yoke that generates a magnetic field capable of correcting mis-landing.

A deflection yoke according to the present invention for achieving the above object is characterized by a pair of coil separators forming an external structure and a vertical deflection magnetic field mounted in a pair outside the coil separator to deflect the electron beam in the vertical direction. A deflection yoke having a vertical deflection coil, a ferrite core composed of a pair of magnets mounted on the outside of the vertical deflection coil and reinforcing a magnetic field generated by the vertical deflection coil, and a core clamp fixedly coupling the pair of ferrite cores. In;

A pair of internally mounted coil separators generates a predetermined depression in either the neck portion or the right side of the H coil to generate a horizontal deflection magnetic field to deflect the electron beam in the horizontal direction. The point is to force the magnitude of the magnetic field to change.

Hereinafter, one preferred embodiment of the deflection yoke according to the present invention will be described in detail with reference to the accompanying drawings.

(A) and (B) of FIG. 4 are side views of the H coil 3 mounted on the deflection yoke 1 according to the present invention, and either of the left side or the right side of the neck portion A side of the H coil 3. The depression 6 of a predetermined shape was formed in one place.

That is, as shown in FIG. 5, by forming the recessed portion 6 of the predetermined shape in the H coil 3, the winding density of either the left side or the right side of the neck portion side of the H coil 3 is forcibly changed. I was.

Thus, the mislanding correction magnetic field M as shown in FIG. 6 is generated to correct the mislanding.

On the other hand, in this invention, by varying the angle at which the depression 6 is formed, it can cope with the degree of mis-landing occurs. That is, as the depression forming angle is larger, a larger amount of mislanding can be corrected.

As described above, according to the deflection yoke according to the present invention, by forming a depression of a predetermined shape on the left side or the right side of the neck portion of the H coil, it is possible to determine the depression degree according to the amount of mis-landing, thereby easily and accurately mis-landing. There is an advantage that can be improved.

Claims (2)

A pair of coil separators forming an external structure, a pair of vertical deflection coils mounted on the outside of the coil separator to generate a vertical deflection magnetic field to deflect the electron beam in the vertical direction, and a pair of coil separators mounted on the outside of the vertical deflection coil and vertical In a deflection yoke having a ferrite core composed of a magnetic material for strengthening a magnetic field generated in the deflection coil, and a core clamp for fixedly coupling the pair of ferrite cores; It is mounted in a pair inside the coil separator and forms a predetermined depression in either the left side or the right side of the neck of the horizontal deflection coil to generate a horizontal deflection magnetic field to deflect the electron beam in the horizontal direction. Deflection yoke forcibly changing the magnitude of the magnetic field generated on the right. The method of claim 1, wherein the horizontal deflection coil, A deflection yoke that determines the degree of depression of the depression depending on the amount of miss landings.