KR20030013536A - Deflection york - Google Patents

Abstract

PURPOSE: A deflection yoke is provided to improve the reliability of cathode ray tube by providing a magnet on a neck unit of a coil separator. CONSTITUTION: A coil separator(21) is comprised of a screen unit coupled to a screen surface of a cathode ray tube and a neck unit coupled to an electron gun unit of the cathode ray tube. A horizontal deflection coil(22) is provided on the inside surface of the coil separator(21) and deflects an electronic beam to a horizontal direction. A ferrite core(24) is provided on the outside surface of the coil separator(21) in order to form a magnetic field. A vertical deflection coil(23) is provided on the outside surface of the coil separator(21) and deflects the electronic beam to a vertical direction. A magnet(30) forms a magnetic field around a front cover of the screen unit of the coil separator(21) and on a portion provided with the vertical deflection coil(23) and directs a deflection electron to a center of the screen unit.

Description

Deflection York

An object of the present invention is to provide an improved structure for screen correction of a deflection yoke. In particular, a magnet is provided on a coil separator neck portion of a deflection yoke such that a left and right outer distortion is formed in a shape such as 1/2 E / W distortion. After that, the present invention relates to an improvement structure for correcting circuits at once.

Generally, the deflection yoke used in the cathode ray tube (CRT) of a TV receiver or monitor is provided with a deflection yoke to precisely deflect the three-color beams scanned from the electron gun to the fluorescent film coated on the screen surface of the cathode ray tube. The yoke is one of the most important elements of the cathode ray tube magnetic device. It acts to deflect the electron beam emitted from the electron gun so that an electric signal transmitted in time series can be reproduced as an image on the cathode ray tube screen.

That is, since the electron beam emitted from the electron gun goes straight onto the screen by the high voltage, only the central phosphor of the screen emits light, so the deflection yoke is deflected to reach the screen in the order of scanning from the outside. The yoke forms a magnetic field so that the electron beam is precisely deflected to the fluorescent film coated on the screen of the cathode ray tube by using a force that is changed when the electron beam passes through the magnetic field and the traveling direction thereof is changed.

FIG. 1 is a side view showing a general cathode ray tube 1, and as shown in FIG. 1, the deflection yoke 10 is located in the RGB electron gun of the cathode ray tube 1, and the electron beam scanned from the electron gun 3 is applied to the screen surface. To the fluorescent film.

The deflection yoke 10 has a pair of coil separators 11 which are largely symmetrical and combined into one.

The coil separator 11 is provided to insulate the horizontal deflection coil 12 and the vertical deflection coil 13 and to assemble their positions to some degree, and the front coupled to the screen surface side of the cathode ray tube 1. The cover 11a, the rear cover 11b, and the neck part which are integrally formed from the center surface of this rear cover 11b and couple | bonded with the electron gun part 3 of the cathode ray tube 1 are comprised.

The inner and outer circumferential surfaces of the coil separator 11 are provided with a horizontal deflection coil 12 and a vertical deflection coil 13 for forming a horizontal deflection magnetic field and a vertical deflection magnetic field by power applied from the outside.

In addition, a pair of ferrite cores 14 formed of a magnetic material are formed to surround the vertical deflection coil 13 and to reinforce the vertical deflection magnetic field generated by the vertical deflection coil 13.

The deflection yoke 10 configured as described above is mounted on the neck portion of the cathode ray tube 1, and when a sawtooth pulse is applied to the horizontal deflection coil 12 and the vertical deflection coil 13, a magnetic field is generated based on Fleming's left hand law. The red (R), green (G), and blue (B) electron beams emitted from the electron gun 3 of the CRT are deflected by a predetermined angle to determine dice on the screen.

Meanwhile, the deflection yoke as shown in FIG. 1 is roughly divided into saddle-saddle type deflection yoke as shown in FIG. 2 and a saddle-toroidal type as shown in FIG. 3 according to the winding structure of the coil. .

Here, in the saddle-saddle deflection yoke illustrated in FIG. 2, a saddle-shaped horizontal deflection coil 12 is provided on the upper and lower inner circumferential surfaces of the screen portion of the coil separator 11 having a conical shape, and the left and right sides of the outer circumferential surface are provided. The saddle type vertical deflection coil 13 is installed.

A substantially cylindrical ferrite core 14 is provided on the outer circumferential surface of the coil separator 11 to reinforce the magnetic field of the vertical deflection coil 13.

Further, a coma precoil 15 is provided around the neck outer periphery of the coil separator 11 to correct a coma generated by the vertical deflection coil 13.

3 illustrates a general saddle-toroidal deflection yoke, wherein a horizontal deflection coil 22 is installed above and below an inner circumferential surface of a coil separator 21 having a substantially conical shape, and a substantially cylindrical ferrite core 24 is disposed on an outer circumferential surface thereof. ), A toroidal vertical deflection coil 23 is wound along the upper and lower sides of the ferrite core 24.

In addition, a coma precoil 25 is further provided around the neck outer periphery of the coil separator 21 to correct a coma generated by the vertical deflection coil 23.

However, in the conventional deflection yoke as described above, there is a problem that distortion on the screen, that is, deterioration, is caused due to the planarization of the cathode ray tube (CRT).

That is, a geometrical distortion (G / D) phenomenon occurs on the screen due to the planarization of the cathode ray tube (CRT).

Such geometric distortions include N / S distortion and E / W distortion. Among them, FIG. 4 shows a phenomenon on the screen caused by E / W distortion.

In particular, the E / W distortion that occurs on the half point between the vertical axis passing through the center of the screen and the outside is called 1/2 E / W distortion. When the 1/2 E / W distortion occurs, Distortion does not occur in the left and right outer regions as shown in FIG. 5, and this phenomenon occurs only in the center. That is, 1/2 E / W distortion occurs due to the planarization of the cathode ray tube (CRT), whereas distortion does not occur in the left and right outer sides, which makes it difficult to correct the distortion.

In other words, when the circuit method is used to correct the 1/2 E / W distortion, the distortion of the 1/2 point is corrected, but a new distortion occurs in the opposite direction from the left and right edges, resulting in on-screen distortion. There is a problem that this still exists.

In order to solve the above problems, a main object of the present invention is to provide an improved structure for screen correction of the deflection yoke, in particular, the left and right outer E / W distortion of the deflection yoke is formed in a shape such as 1/2 E / W distortion. It is to provide a deflection yoke having a magnet on the coil separator screen side in order to correct it temporarily at a time.

1 is a view showing a typical cathode ray tube,

2 is a cross-sectional view showing a saddle-saddle deflection yoke according to the prior art;

3 is a front sectional view showing a saddle-toroidal deflection yoke according to the prior art;

4 is a diagram illustrating E / W distortion on a screen;

5 is a diagram illustrating E / W distortion on a screen;

6 is a diagram showing a misconvergence pattern on a screen in a deflection yoke according to the present invention;

7 is a view showing an embodiment according to the present invention,

8 is a rear view of FIG. 7;

9 is a diagram illustrating 1/2 E / W distortion and E / W distortion on a screen according to the present invention;

<Explanation of symbols for the main parts of the drawings>

1: cathode ray tube 10: deflection yoke

3: electron gun 21: coil separator

21a: front cover 21b: rear cover

22: horizontal deflection coil 23: vertical deflection coil

24: ferrite core 25: coma-free

30: magnet

In order to achieve the above object, the present invention provides a coil separator comprising a screen portion coupled to a screen surface of a cathode ray tube, and a neck portion coupled to an electron gun of a cathode ray tube; A horizontal deflection coil provided on the inner side of the coil separator and deflecting the electron beam in a horizontal direction; A ferrite core provided to form a magnetic field on an outer surface of the coil separator; A vertical deflection coil provided on an outer surface of the coil separator to deflect the electron beam in a vertical direction; And a magnet for improving E / W that forms a magnetic field in the vicinity of the front cover side of the coil separator and the part where the horizontal deflection coil is densely formed, and exerts a force so that the deflection electrons are directed toward the center by the formed magnetic field. It is characterized by the thing about the deflection yoke.

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

Figure 6 shows an embodiment of the present invention provided with a pair of the E / W improvement magnet of the present invention. In the present invention, for the sake of convenience, embodiments of the saddle-troidal type deflection yoke are shown. However, the present invention is not limited to the above-described type but is applicable to the saddle-saddle type deflection yoke described above.

A coil separator 21 having a screen portion coupled to the screen surface of the cathode ray tube and a neck portion coupled to the electron gun portion of the cathode ray tube; A horizontal deflection coil 22 provided on an inner side of the coil separator and deflecting the electron beam in a horizontal direction; A ferrite core 24 provided to form a magnetic field on an outer surface of the coil separator; A vertical deflection coil 23 provided on an outer surface of the coil separator to deflect the electron beam in a vertical direction; E / W improvement for forming a magnetic field in the vicinity of the front cover side 21a of the coil separator and the portion where the horizontal deflection coil is densely formed, and exerts a force so that the deflection electrons are directed toward the center by the formed magnetic field. In the deflection yoke including the magnet 30, the magnet for improving the E / W is composed of a pair and is attached to one surface of the front cover 21a while surrounding the outer circumferential surface of the screen portion in a mutually opposite direction.

In the pair of magnets of the present invention, since the direction of the force applied to the deflection electrons is determined by the magnetization direction, the N and S poles of the magnet are provided as shown in FIG. 7 so that the direction of the force is directed toward the center portion. That is, it means that the distortion on the screen is caused by the magnetic field H generated by the magnet in the same direction as the direction of the force on the deflection electrons.

Preferably, the pair of magnets of the present invention are fixed in position by an adhesive.

The deflection yoke according to the present invention having such a configuration has a pair of E / W improvement magnets installed as described above, so that 1/2 E / W distortion occurs due to the planarization of the cathode ray tube (CRT). On the other hand, since the distortion does not occur in the left and right outer corners, it is possible to avoid the phenomenon that the correction is difficult.

That is, as shown in Figure 7, by having a pair of magnets, when the distortion of the left and right screen in the same shape as the 1/2 E / W distortion by the magnet, the distortions are temporarily corrected by a circuit method can do.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

In order to facilitate correction on the screen, which is the problem described above, the present invention allows the left and right outer E / W distortion of the deflection yoke to be formed in the same shape as the 1/2 E / W distortion, and then, in order to correct it in a circuit at a time, By providing a deflection yoke having a magnet on the side of the separator screen, this has the effect of improving the reliability of the cathode ray tube.

Claims (3)

A coil separator comprising a screen portion coupled to the screen surface of the cathode ray tube and a neck portion coupled to the electron gun portion of the cathode ray tube; A horizontal deflection coil provided on the inner side of the coil separator and deflecting the electron beam in a horizontal direction; A ferrite core provided to form a magnetic field on an outer surface of the coil separator; A vertical deflection coil provided on an outer surface of the coil separator to deflect the electron beam in a vertical direction; An E / W improvement magnet which forms a magnetic field in the vicinity of the front cover side of the coil separator and in a portion where the horizontal deflection coil is densely formed, and exerts a force so that the deflection electrons are directed toward the center by the formed magnetic field; Deflection yoke including. The deflection yoke of claim 1, wherein the magnet for improving the E / W is provided in pairs. The deflection yoke of claim 1, wherein the magnet for improving the E / W is bonded by an adhesive.