KR20030016539A - Deflection Yoke for CRT - Google Patents

Abstract

PURPOSE: A deflection yoke for a cathode ray tube is provided to prevent noises caused from the collision of the field safer against the holder due to the vertical deflection magnetic field generated when a current is applied the vertical deflection coil. CONSTITUTION: A cathode ray tube comprises an electron gun for emitting three electron beams of red, green and blue colors; a horizontal deflection coil and a vertical deflection coil; a holder serving as an insulator between the horizontal deflection coil and the vertical deflection coil; and a field safer interposed between the holder and the vertical deflection coil, and which vibrates in accordance with the frequency of the vertical deflection coil. The field safer has an embossing(60) formed at the surface directed toward the holder.

Description

Deflection yoke for cathode ray tube {Deflection Yoke for CRT}

The present invention relates to a cathode ray tube, and more particularly, to a deflection yoke of a cathode ray tube for minimizing noise generated when a field saver vibrating according to a frequency of a vertical deflection coil collides with a holder.

As shown in FIG. 1, a typical cathode ray tube includes an electron gun 4 that emits three electron beams, a screen 1 that strikes the electron beam to reproduce light, and a shadow mask that separates the electron beams of three colors. ) And a deflection yoke (3) for deflecting the electron beam to a predetermined place of the screen (1).

In particular, the deflection yoke 3 deflects the horizontal deflection coil 31 and the electron beam in the vertical direction to deflect the electron beam emitted from the electron gun 4 inside the cathode ray tube in the horizontal direction as shown in FIG. 1. The vertical deflection coil 33 and the horizontal 31 deflection coil and the conical ferrite core 34 and the coils 31 and 33 used to increase magnetic efficiency by reducing the loss of magnetic force generated in the vertical deflection coil 33. ) And the core 34 is fixed to a predetermined position and is composed of a major component such as a holder 32 for insulating between the horizontal deflection coil 31 and the vertical deflection coil 33.

Since the magnetic field of the vertical deflection coil 33 needs to be barreled at the neck portion while the screen is flattened, a thin field-shape 37 between the holder 32 and the vertical deflection coil 33 is implemented as a means for implementing the screen. I'm using.

The deflection yoke 3 described above flows a current having a frequency of 15.75 KHz or higher to the horizontal deflection coil 31 and deflects the electron beam inside the cathode ray tube in a horizontal direction by using a magnetic field generated accordingly. In addition, the vertical deflection coil 33 flows a current having a frequency of 60 Hz, and deflects the electron beam in a vertical direction by using a magnetic field generated accordingly.

The non-uniform magnetic field of the horizontal deflection coil 31 and the vertical deflection coil 33 allows the three-color electron beam to achieve convergence on the screen even without using an additional circuit and an additional device. Self-convergence type deflection yoke 3 is mainly developed.

In other words, by adjusting the winding distribution of the horizontal deflection coil 31 and the vertical deflection coil 33 to make barrel or pin-cushion type magnetic field for each part (opening part, middle part, neck part), three-color electron beam is positioned. In order to experience different deflection forces, they can be collected at the same point at different distances from the starting point of the electron beam to the screen (1).

In addition, in the case where a current is applied to the deflection coils 31 and 33 to create a magnetic field, it is difficult to deflect the electron beam to the front of the screen only by the magnetic fields by the coils 31 and 33. By minimizing the loss on the return path, the magnetic field is increased and the magnetic force is increased.

However, as the screen 1 is flattened, enlarged, and fixed in size, the deflection coils 31 and 33 cannot satisfy raster distortion and convergence at the same time. Is installed up and down symmetrically on the deflection yoke neck portion, and the magnetic field of the vertical deflection coil is made by using a thin field fielder 37 symmetrically on the vertical axis between the holder and the vertical deflection coil as shown in FIGS. 2 and 3. More barreled to satisfy both raster distortion and convergence at the same time.

In the deflection yoke configured as described above, when a current is applied to the vertical deflection coil, the deflection magnetic field 40 as shown in FIG. 4 is generated and the force of the generated deflection magnetic field 40 is received to the upper side 50.

Therefore, the field saver 37 also moves upward 60 under the influence of the force of the deflection magnetic field 40.

In addition, since the alternating current is applied to the vertical deflection coil 33, the force crosses the vertical direction 50, and the direction of the deflection magnetic field 40 crosses the left and right directions.

Therefore, the field saver 37 also moves in the vertical direction 60 in accordance with the direction of the force of the deflection magnetic field 40.

For this reason, the field saver 37 collides with the holder 32 to generate noise.

Accordingly, an object of the present invention is to solve the conventional problem, and to remove noise generated by the field saver, which is affected by the force of the deflection magnetic field generated when a current is applied to the vertical deflection coil, when the holder collides with the holder. .

1 is a schematic diagram of a typical cathode ray tube.

2 is a side view of a deflection yoke with a fieldsafety attached;

3 is a cross-sectional view for explaining the position of the field saver.

4 is a view showing a moving direction of a field saver moving in the direction of the force of the vertical deflection field.

5 (a) is a perspective view of a conventional field saver,

(b) is a perspective view of a field saver with embossing according to the invention.

Explanation of symbols on the main parts of the drawings

1: screen 2: shadow mask

3: deflection yoke 4: electron gun

31: horizontal deflection coil 32: holder

33: vertical deflection coil 34: ferrite core

35: convergence yoke 37: conventional field saver

38: Field saver of the present invention

The present invention for achieving the object as described above, an electron gun that emits an electron beam of three colors R (Red), G (Green), B (Blue), a horizontal deflection coil, a vertical deflection coil and the horizontal deflection coil and CLAIMS 1. A cathode ray tube comprising a holder that serves to insulate between vertical deflection coils, the cathode ray tube comprising: a field saver oscillating at a frequency of the vertical deflection coil between the holder and the vertical deflection coil; The field saver is characterized in that the embossing is formed on the surface facing the holder.

Hereinafter, with reference to the accompanying drawings, the present invention to achieve the above object will be described in detail.

The present invention relates to a field saver installed between the holder of the deflection yoke and the vertical deflection coil in order to further flatten the vertical deflection field while the screen is planarized, enlarged and fixed.

The field saver is attached to the holder outer surface of the 12 o'clock and 6 o'clock directions mainly based on the deflection yoke fixed to the tube as shown in FIG.

As shown in FIG. 4, an alternating current applied to the vertical deflection coil 33 crosses the direction of the vertical deflection magnetic field 40 left and right, and the direction of the force of the vertical deflection magnetic field 40 crosses the vertical direction. Let's do it.

In addition, the direction of the force 50 of the vertical deflection magnetic field 40 affects the field saver 37 and moves the field saver 37 upward and downward to attach the field saver 37 to the holder 32. To make noise.

Figure 5 (a) is a perspective view of a conventional field saver, Figure 5 (b) is a perspective view of a field saver according to the present invention.

As shown in (b) of FIG. 5, the field saver 38 having the embossing 60 formed on the inner surface attached to the holder is perpendicular to the holder when the embossing 60 is in contact with the holder. By vibrating according to the frequency of the deflection coil, the field saver 38 may move up and down, thereby minimizing noise generated by colliding with the holder.

The embossing may be integrally molded with the field saver or may be molded separately and attached to the field saver.

In addition, not only one embossing may be formed horizontally on the inner surface of the field saver attached to the holder, but also a plurality of embossings may be formed, or may be formed in the vertical direction.

Therefore, according to the present invention, by applying an embossed field saver between the vertical deflection coil and the holder, the noise generated when the field saver collides with the holder due to the force vibrating in the vertical direction by the vertical deflection current is eliminated. There is an effect that can be minimized.

Claims (3)

It includes an electron gun which emits an electron beam of three colors R (Red), G (Green) and B (Blue), and a holder for acting as an insulation between the horizontal deflection coil and the vertical deflection coil. In the cathode ray tube, A field saver oscillating between the holder and the vertical deflection coil according to the frequency of the vertical deflection coil; The field-shaper is yoke deflection yoke, characterized in that the embossing is formed on the surface facing the holder. The method of claim 1, The yoke of the cathode ray tube, characterized in that the embossing of the field saver is one or multiple. The method of claim 1, Embossing of the field saver is a deflection yoke of the cathode ray tube, characterized in that the integral or molded separately attached.