KR100467831B1 - Deflection Yoke - Google Patents

Abstract

The present invention relates to a deflection yoke, and more particularly, by applying a ferrite core having a rectangular opening at least at one end to a toroidal type deflection yoke, improving sensitivity to reduce power consumption, reduce manufacturing costs, and improve productivity. It is about deflection yoke that can be improved.

The deflection yoke of the present invention is a vertical deflection coil for deflecting the electron beam in a vertical direction by applying a vertical deflection magnetic field to an electron beam emitted from an electron gun of a cathode ray tube, and applying a horizontal deflection magnetic field to the electron beam to level the electron beam. A horizontal deflection coil deflected in a direction, a coil separator to precisely distinguish the positions of the horizontal deflection coil and the vertical deflection coil, and to be electrically insulated from each other, and a ferrite core to strengthen the magnetic field through the vertical deflection coil. The ferrite core is divided into a plurality of ferrite core pieces having at least one end of the opening, and the vertical deflection coil is formed by winding a wire around the ferrite core piece.

At this time, the ferrite core is preferably composed of two ferrite core pieces divided into both sides.

The present invention as described above by winding a magnet wire in a ferrite core having a rectangular opening to produce a vertical deflection coil, to improve the sensitivity of the deflection yoke, thereby reducing the power consumption to reduce the manufacturing cost and improve productivity It works.

Description

Deflection Yoke

The present invention relates to a deflection yoke, and more particularly, by dividing a ferrite core having a rectangular opening into both sides, winding a vertical deflection coil and applying it to a saddle-toroidal type deflection yoke, thereby greatly reducing the manufacturing cost of the deflection yoke. The present invention relates to a deflection yoke capable of reducing power consumption and improving productivity by improving the sensitivity of the deflection yoke.

Deflection yoke (DY) is a component that is mounted on the neck portion of the CALTI to deflect the beam emitted from the CALTI electron gun, and is a deflection magnetic field in the horizontal and vertical directions to the electron beam emitted from the CALTI electron gun. It acts to deflect the electron beam accurately to the fluorescent film applied to the screen.

However, due to an error in manufacturing the deflection yoke or an imbalance of the applied voltage, or due to mutual interference magnetic field between parts, the electron beam deflected by the exact point of the screen is not focused and the color purity of the image projected on the screen is lowered. Miss Convergence also occurs.

Convergence refers to the three-color (Red, Green, Blue) electron beams from three electron guns in a shadow mask-type color tube converging these three electron beams into one point so as to collide with a given phosphor on the phosphor surface. If the convergence is bad, the red, green, and blue colors will deviate from each other, requiring convergence correction.

Generally, the deflection yoke is roughly classified into saddle-saddle type deflection yoke and saddle-toroidal type according to the structure of winding the vertical deflection coil.

A saddle-saddle type deflection yoke is a vertical deflection coil which deflects the electron beam in a vertical direction by applying a vertical deflection magnetic field to an electron beam emitted from an electron gun of a cathode ray tube, as shown in FIG. 2) and a horizontal deflection coil (not shown) for deflecting the electron beam in the horizontal direction by applying a deflection magnetic field in the horizontal direction to the electron beam, and precisely distinguishing the positions of the horizontal deflection coil and the vertical deflection coil 2; At the same time, the coil separator 1 to be electrically insulated from each other, the ferrite core 6 for strengthening the magnetic field through the vertical deflection coil 2, and the rear cover 4 for fixing the ferrite core 6 to each other. Is made of.

In the drawing, reference numeral 3 denotes a bond, which is applied to a portion where the vertical deflection coil 2 and the separator 1 contact each other in order to closely mount the vertical deflection coil 2 to the coil separator 1. Will be.

The horizontal deflection coil and the vertical deflection coil 2 are manufactured by winding a magnet wire using a dedicated winding machine, and the horizontal deflection coil and the vertical deflection coil 2 are in close contact with the inner and outer circumference of the coil separator 1 and are deflected. It has a cylindrical shape to form a magnetic field, and two are assembled in pairs each.

When a current is applied to the horizontal and vertical deflection coils 2 to create a magnetic field, it is difficult to deflect the electron beam to the front of the screen only by using the magnetic fields by the horizontal and vertical deflection coils 2, and thus a ferrite core 6 having a high permeability is used. Therefore, the magnetic field is increased by increasing the efficiency of the magnetic field by minimizing the loss in the magnetic field return path.

The saddle-saddle deflection yoke configured as described above is first assembled so that the separator 1 closely adheres to the horizontal deflection coil, and then the vertical deflection coil 2 is assembled to the outer circumferential surface of the separator 1 before the vertical. The bond 3 is coated so that the deflection coil 2 can be firmly fixed to the separator 1 and the ferrite core 6 is assembled to the outer circumferential surface of the vertical deflection coil 2.

The ferrite core 6 used in the conventional saddle-saddle deflection yoke is mounted on the outer circumferential surface of the vertical deflection coil 2 and has a round cylindrical shape, and a cone having a wider opening at one side of the screen is formed. Shape.

The saddle-saddle-shaped deflection yoke is a fluorescent lamp in which the electron beam is applied to the screen by applying a deflection magnetic field in the horizontal and vertical directions to the electron beam scanned from the electron gun by assembling the horizontal deflection coil and the vertical deflection coil 2 at right angles to each other. It acts to deflect accurately into the membrane.

However, the saddle-saddle yoke of the saddle type as described above is to assemble by mounting the vertical deflection coil (2) to the coil separator (1) after manufacturing the vertical deflection coil (2) through a separate production line. There is a disadvantage in that the cost of manufacturing the vertical deflection coil (2).

That is, the process of manufacturing the vertical deflection coil 2 into a shape that can be closely mounted to the coil separator 1 is difficult, and the manufacturing cost is high, thereby acting as a factor that increases the manufacturing cost of the deflection yoke as a whole. .

On the other hand, the saddle-toroidal type deflection yoke has a structure that can solve the problems occurring in the saddle-saddle type deflection yoke, that is, after separately manufacturing the vertical deflection coil Instead of assembling, it is wound around a ferrite core.

In other words, the vertical deflection coil constituting the saddle-toroidal type deflection yoke is constructed by winding a magnet wire directly on the ferrite core.

2 shows a ferrite core used in a saddle-toroidal type deflection yoke, and the ferrite core 10 used in the saddle-toroidal type deflection yoke has a wider opening at one end of the screen. In the formed cone shape, the ferrite core pieces 11 and 12 are divided into two sides and have a substantially fan shape.

Such a ferrite core 10 winds a vertical deflection coil (not shown) on each of the divided ferrite core pieces 11 and 12 and uses two clamps (not shown) to form two ferrite core pieces 11 (12). ) To complete the assembly.

Therefore, the saddle-toroidal type deflection yoke having the ferrite core 10 as described above is configured to assemble the ferrite core 10 having the vertical deflection coil wound on the outer circumferential surface of the separator after assembling the separator to the horizontal deflection coil. Has

This saddle-toroidal type deflection yoke does not manufacture a vertical deflection coil separately, but instead forms a vertical deflection coil by winding the magnet wire directly to the ferrite core pieces 11 and 12, so that the saddle-toothed deflection yoke Compared with the saddle-shaped saddle yoke, it is easy to manufacture a vertical deflection coil, and thus, the manufacturing cost is low.

However, the ferrite core 6 used in the above-mentioned saddle-saddle deflection yoke or the ferrite core 10 used in the saddle-toroidal type deflection yoke has a circular opening shape at both ends, so that the ferrite core 6 is fired from the electron gun. In the process of deflecting the electron beam is a loss (loss) occurs in the upper and lower portions of the screen and had a disadvantage in reducing the sensitivity.

That is, the electron beam emitted from the electron gun is composed of three beams of red beam, blue beam, and green beam, and the electron gun has beam beams emitting three electron beams arranged side by side. Since the ferrite core having the circular opening as described above is used in the process of deflecting the electron beam, loss occurs in the upper and lower portions, and the sensitivity is reduced by about 20%, which consumes a lot of power. Is there.

Therefore, in recent years, a ferrite core having a rectangular opening suitable for an electron gun and a screen shape is used instead of a cylindrical ferrite core having a circular opening.

FIG. 3 is a perspective view showing a conventional ferrite core having a rectangular opening, which has a top portion in forming a magnetic field for deflecting an electron beam emitted from an electron gun since one end of the opening 21 provided on the screen side has a rectangular shape. Loss in the lower part can be reduced and sensitivity is good.

However, the ferrite core 20 having such a rectangular opening has a single body so that it can be assembled only to the saddle-saddle deflection yoke of the related art.

That is, the ferrite core 20 having the rectangular opening as described above can be assembled by inserting the ferrite core 20 on the vertical deflection coil after installing the vertical deflection coil manufactured separately on the outer circumferential surface of the coil separator. It was only applicable to the saddle-shaped saddle yoke of.

As described above, there was a problem in that the manufacturing cost of manufacturing a vertical deflection coil is high, and there is a problem that cannot be applied in the conventional saddle-toroidal type deflection yoke.

The present invention has been made to solve the above problems, it is possible to apply a ferrite core having a rectangular opening to the saddle-toroidal deflection yoke to improve the sensitivity of the saddle-toroidal deflection yoke and greatly increase the power consumption. The purpose is to provide a deflection yoke that can be reduced.

In addition, the object is to provide a deflection yoke that can reduce the manufacturing cost compared to the conventional while applying a ferrite core having a rectangular opening to the deflection yoke.

In addition, while applying a ferrite core having a rectangular opening to the deflection yoke, the purpose of the deflection yoke is simple to provide a deflection yoke that can improve the productivity.

1 is a front view showing a general deflection yoke.

Figure 2 is a perspective view showing a conventional toroidal ferrite core.

3 is a perspective view showing a conventional ferrite core having a rectangular opening.

4 is a perspective view showing a ferrite core and a vertical deflection coil according to the present invention.

♣ Explanation of symbols for main part of drawing ♣

30: ferrite core 31, 32: ferrite core piece

33: vertical deflection coil

In order to achieve the above object, in the present invention, at least one opening has a rectangular shape and includes a ferrite core divided into a plurality of ferrite core pieces, and a deflection including a vertical deflection coil formed by winding a wire around the ferrite core pieces. Yoke is provided.

The ferrite core is formed by a rectangular opening at one end of the screen, and is preferably composed of two ferrite core pieces divided into both sides.

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

The deflection yoke of the present invention is a vertical deflection coil for deflecting the electron beam in a vertical direction by applying a vertical deflection magnetic field to an electron beam emitted from an electron gun of a cathode ray tube, and applying a horizontal deflection magnetic field to the electron beam in a horizontal direction. A horizontal deflection coil deflected into a coil, a coil separator for precisely distinguishing the positions of the horizontal deflection coil and the vertical deflection coil, and being electrically insulated from each other, a ferrite core reinforcing a magnetic field through the vertical deflection coil; It consists of a rear cover for fixing the ferrite core.

The horizontal deflection coil is manufactured by winding a magnet wire using a dedicated winding machine, and is composed of two pairs to be in close contact with the inner circumference of the coil separator.

Here, the ferrite core of the present invention, as shown in Fig. 4, is formed so that at least one end has a rectangular opening, and one end of the opening lying on the screen side has a rectangular shape.

Such a ferrite core 30 of the present invention has a configuration divided into a plurality of ferrite core pieces 31, 32, one embodiment of the present invention is divided into two ferrite ferrite core 30 to both sides It consists of core pieces 31 and 32.

In addition, a magnet wire is wound around each of the divided ferrite core pieces 31 and 32 to form a vertical deflection coil 33.

That is, the deflection yoke of the present invention is not manufactured after the vertical deflection coil 33 is separately assembled, but wound around the ferrite core 30 to form a vertical deflection coil 33 of the saddle-toroidal type. It is a deflection yoke.

The ferrite core 30 winds the vertical deflection coil 33 on each of the divided ferrite core pieces 31 and 32 and uses two clamps (not shown) to form two ferrite core pieces 31 and 32. The assembly is completed by combining.

Therefore, the saddle-toroidal type deflection yoke equipped with the ferrite core 30 of the present invention has a ferrite core in which a vertical deflection coil 33 is wound on the outer circumferential surface of the separator after assembling the separator. 30) to assemble.

The saddle-toroidal type deflection yoke is a saddle-saddle type because the vertical deflection coil 33 is formed by winding the magnet wire directly to the ferrite core pieces 31 and 32, rather than separately manufacturing the vertical deflection coil. Compared with the deflection yoke, it is easier to manufacture the vertical deflection coil, and the cost according to the manufacturing is cheaper than the saddle-saddle deflection yoke.

Further, the ferrite core 30 of the present invention is not a ferrite core having a circular opening used in a conventional general saddle-toroidal type deflection yoke, but is a ferrite core having a shape in which one end of the screen side is formed in a quadrangular shape. The problem caused by the saddle-toroidal type deflection yoke can be solved.

That is, the deflection yoke of the present invention uses a ferrite core 30 having a rectangular opening suitable for the electron gun and the screen shape, so that loss occurs in the upper and lower portions of the screen in the process of deflecting the electron beam emitted from the electron gun. Prevents and does not reduce the sensitivity.

Therefore, by using a ferrite core having a circular opening in the saddle-toroidal type deflection yoke, the conventional problems of loss and sensitivity of the upper and lower parts can be solved.

The deflection yoke of the present invention can be applied to the saddle-toroidal type deflection yoke with a ferrite core having a high sensitivity rectangular opening, thereby reducing the manufacturing cost and contributes to the improvement of productivity.

As described above, the present invention divides a ferrite core having a rectangular opening into both sides, and then winds a vertical deflection coil and applies it to a saddle-toroidal type deflection yoke, thereby increasing productivity because the vertical deflection coil does not need to be manufactured separately. There is an effect that can be improved.

In addition, it is easier to manufacture a vertical deflection coil than the saddle-saddle deflection yoke, and the manufacturing cost for manufacturing the vertical deflection coil can be reduced, thereby reducing the manufacturing cost of the deflection yoke.

In addition, the application of a ferrite core with a rectangular opening to the saddle-toroidal type deflection yoke prevents the loss of the upper and lower portions of the screen during the deflection of the electron beam emitted from the electron gun, and the deterioration of sensitivity. It is effective.

Therefore, the sensitivity is improved in the process of deflecting the electron beam in the deflection yoke, thereby preventing unnecessary power consumption and saving energy.

The present invention enables the ferrite core having a rectangular opening to be applied to a saddle-toroidal deflection yoke, thereby greatly reducing the manufacturing cost of the deflection yoke while greatly improving the sensitivity of the saddle-toroidal deflection yoke.

In addition, the production of the deflection yoke is simple, it is possible to improve the productivity.

Claims (3)

A ferrite core having at least one opening having a rectangular shape and divided into a plurality of ferrite core pieces; And a vertical deflection coil formed by winding a wire around the ferrite core piece. 2. The deflection yoke of claim 1, wherein the ferrite core is formed with a rectangular opening at one end of the screen. The deflection yoke according to claim 1, wherein the ferrite core is composed of two ferrite core pieces divided into two sides.