KR920006865Y1 - Deflection yoke - Google Patents

Abstract

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Description

Deflection yoke for attenuating leakage magnetic field

1 is a diagram showing a leakage magnetic field distribution generated in a deflection yoke mounted in a conventional cathode ray tube.

2 and 3 are front and bottom views of a deflection yoke according to the prior art.

(A), (b) of FIG. 4 is a front view and a plan view of a deflection yoke according to the present invention.

5 is a sectional view showing the main parts of the front housing in the deflection yoke according to the present invention assembled to the separator.

6 (a) and 6 (b) are a plan view and a partially cutaway front view showing the front housing of the deflection yoke according to the present invention.

* Explanation of symbols for main parts of the drawings

1: cathode ray tube 2: deflection yoke

3: Front part of deflection yoke 4: Compensation coil

4a: lead wire 5: core

6: separator 7: front housing

8a: engaging projection 8b: engaging groove

9a, 9b: holder 10: notch groove

11: Horizontal deflection coil 12a, 12b: Protective jaw

13a: locking jaw 13b: locking groove

The present invention relates to a deflection yoke, and more particularly, to a deflection yoke for attenuating a leakage magnetic field for attenuating a leakage magnetic field (VLMF) formed around or around a screen of a cathode ray tube.

In general, the deflection yoke is provided with a saddle-type horizontal deflection coil wound by a coil winding machine inside a pair of separators, and a vertical deflection coil is wound around a pair of ferrite cores and fixedly installed by a core clamp. do.

Such a deflection yoke is mounted on the neck portion of the cathode ray tube 1 as shown in FIG. 1 to apply a sawtooth pulse to the horizontal and vertical deflection coils, thereby generating a magnetic field and deflecting an electron beam emitted from the electron gun. By doing so, it determines the dice on the screen.

However, due to the characteristics of the deflection yoke 2 as described above, in addition to deflecting the electron beam, the horizontal deflection magnetic field forms a leakage magnetic field M around the cathode ray tube 1 as shown in FIG. The leakage magnetic field (M) is formed to adversely affect the human body.

Conventionally, in order to offset the leakage magnetic field (M) as described above, a shield is provided around the cathode ray tube (1), and the radiation of the magnetic field is reduced according to the overcurrent induced therein, but this is a considerable cost. The burden of rising and the reduction of the leakage magnetic field are also very weak.

In addition, there is also a method to reduce the leakage magnetic field by installing a ferrite ring in front of the deflection yoke (2), but this is a passive one, there is a problem that the permeability of the ferrite ring must correspond to the horizontal deflection frequency.

On the other hand, as shown in (a) and (b) of FIG. 2, a rectangular ferrite core 5 wound with a compensation coil 4 is attached to the front portion 3 of the deflection yoke 2 to prevent unnecessary leakage magnetic fields. Although it is possible to reduce, this is also attached to the center of the horizontal deflection coil, the magnetic field other than the main deflection region can be reduced to some extent, but there is a problem that can not cancel the leakage magnetic fields generated in the left, right in front of the screen.

Further, in view of the above problems, the front part 3 of the deflection yoke 2 as shown in (a) and (b) of FIG. 3 as disclosed by the present applicant in Utility Model Registration Application No. 89-19752. As a result of repeated experiments, the cores 5, on which the compensation coils 4 are wound in the opposite direction to the leakage magnetic field, were symmetrically installed on all sides, and the angle formed by the vp light cores 5, i.e., the inclination angle θ1. And the horizontal angle (θ2) were found to be able to cancel the leakage magnetic field of the cathode ray tube with the greatest force at 58 ° to 63 ° and 25 ° to 32 °, respectively. However, according to the above method, it is not easy to install the ferrite core wound with the compensation coil at each of the above-described angles, and it is difficult to protect the lead wire of the compensation coil connected to the horizontal deflection coil. There was a problem.

The object of the present invention is to solve the above-mentioned problems, and the object of the present invention is to provide a solid support for the core coiled with the compensation coil in order to offset the leakage magnetic field formed in the front surface of the deflection yoke. A deflection yoke for attenuating the leakage magnetic field is provided to maintain the constant angle at.

Another object of this design is to reduce leakage magnetic field to protect the lead wire of the compensating coil connected to the horizontal deflection coil while the front housing can be fixed without floating in the correct position when coupled to the deflection yoke separator. To provide deflection yokes.

In order to achieve the above objects, the present invention is a pair mounted on the front surface of the deflection yoke in installing a compensation coil for attenuating the leakage magnetic field in the deflection yoke for deflecting the electron beam emitted from the electron gun of the cathode ray tube. It is characterized in that the front housing of the, and each of the front housing is formed at a predetermined angle, the holder for mounting the core coiled with the compensation coil wound, and a deflection yoke for leakage magnetic field damping consisting of.

Hereinafter, embodiments of this invention will be described in detail with reference to the accompanying drawings.

4 to 6 are views for explaining an embodiment of the present invention, in which the front part 3 of the deflection yoke 2, that is, the front part of the separator 6, is injection molded front housing 7 at both ends. The coupling protrusions 8a and the coupling grooves 8b formed therein can be assembled at both sides.

In addition, holders 9a and 9b on which the drum-shaped or quadrangle cores 5, on which the compensation coils 4 are wound, are fitted and mounted on the upper surfaces of the front housings 7, respectively, as shown in FIG. It is formed at a predetermined angle (θ), and the notch grooves 10 are formed on the outer peripheral surfaces of the holders 9a and 9b, respectively, so that the lead wire 4a of the compensation coil 4 can be drawn out. Guard jaw 12a for protecting the lead wire 4a connected to the horizontal deflection coil 11 mounted inside the separator 6 of the deflection yoke 2 outside the holders 9a and 9b, 12b is formed.

On the other hand, as shown in FIG. 5 in the case where the engaging jaw 13a is formed inside the front housing 7 between the holders 9a and 9b to assemble the front housing 7 to the separator 6. It is fitted to be fitted to the engaging groove (13b) formed in the front of the separator (6).

In this design, the first housing 7 is inserted into each of the holders 9a, 9b of the front housing 7, and then the front housing 7 is deflected yoke. If the front part 3 of (2), that is, assembled at both sides of the front part of the separator 6, it is fitted and assembled by the respective engaging projection (8a) and the coupling groove (8b) formed on the upper surface of the front housing (7). At this time, as shown in FIG. 5, the locking jaw 13a formed on the inner side of the front housing 7 between the holders 9a and 9b fits into the locking groove 13b of the separator 6 and flows. It is firmly positioned without this.

Thus, the cores 5 mounted on the holders 9a and 9b can maintain a constant angle and distance, where the tubular axis of the deflection yoke 2 and the respective holders 9a and 9b are The angle θ formed is an angle at which the leakage magnetic field M can be greatly attenuated, and is about 25 ° to 32 °.

In addition, the winding direction of the compensation coil 4 wound around each core 5 mounted on the holders 9a and 9b is reversed from the direction in which the leakage magnetic field M is generated to cancel the leakage magnetic field M. I can do it.

On the other hand, the compensation coil 4 wound on the core 5 is connected to the horizontal deflection coil 11 mounted inside the separator 6, the notch groove 10 formed in the holder (9a), (9b) Can easily lead the lead wire 4a of the compensation coil 4, and as shown in (b) of FIG. 6, the protective jaw 12a, 12b formed on the upper surface of the front housing 7, respectively. It is possible to guide and protect the lead wire 4a inward.

As described above, this design enables the core to be firmly supported at each holder formed in the front housing while the core, which is mounted on the front surface of the deflection yoke and compensates for the leakage magnetic field, is firmly supported on each holder formed in the front housing. The front housing can be fixed without flowing in the correct position, and the lead wire of the compensation coil connected to the horizontal deflection coil can be protected.

Claims (4)

In the installation of the leakage magnetic field compensation compensation coil in the deflection yoke for deflecting the electron beam emitted from the electron gun of the cathode ray tube, and a pair of front housing (7) mounted on the front portion (3) of the deflection yoke (2); For leakage magnetic field attenuation, each of the front housings (7) is formed symmetrically at a predetermined angle, and the holder (9a), (9b) for fitting the core 5 wound around the compensation coil (4) Deflection yoke. 2. The lead wire 4a of the compensation coil 4 according to claim 1, wherein protective jaws 12a and 12b are formed on both sides of the upper surface of the front housing 7 so as to be connected to the horizontal deflection coil 11. Deflection yoke for reducing magnetic field The notch grooves 10 are formed on the circumferential sides of the holders 9a and 9b integrally formed on the upper surface of the front housing 7, and the lower ends between the holders 9a and 9b. A deflection yoke for attenuating the leakage magnetic field, which is formed on the inner side of the front housing (7) of the engaging jaw (13a) to be coupled to the engaging groove (13b) formed in the separator (6). The deflection yoke for leakage magnetic field damping according to claim 1, wherein an angle θ formed between each of the holders 9a, 9b of the front housing 7 and the tube axis of the deflection yoke 2 is about 25 ° to 32 °. .