KR0123605Y1 - Deflection yoke structure of CRT - Google Patents

Abstract

The present invention relates to a deflection yoke installed in a CRT, and more particularly, to a deflection yoke structure of a CRT having a means for shielding an external geomagnetic field generated in an electron gun.

Since the deflection yoke (D) has no means of shielding the external geomagnetic field, it must be relying on the inner shield installed inside the CRT to shield the external geomagnetic field. Since the electron gun inserted into the seal is out of the range of influence of the inner shield, the electron beam scanned from the electron gun to the fluorescent surface is mislanded on the fluorescent surface under the influence of an external geomagnetic field, thereby reducing the color purity of the CRT. .

Therefore, the object of the present invention was devised in view of such a conventional problem, so that the magnetic field shielding means having a high permeability is formed in the fixing ring of the deflection yoke so that the electron beam injected from the cathode of the electron gun is not affected by the external magnetic field. In addition, the present invention provides a deflection yoke structure of the CRT which improves the color purity of the CRT.

In order to achieve the above object, the present invention can shield the external geomagnetic field generated in the north and south while facing each other along the fixing ring 4 provided behind the deflection yoke (D) as shown in FIGS. 2 and 3. At the same time as forming the earth magnetic field shielding means (4a) and at the end of the above-mentioned fixing ring body (4) to form another ring of the earth magnetic field shielding means (4b) capable of shielding the external earth magnetic field generated in the east and west.

Description

Deflection yoke structure of CRT

1 is a side view of main parts of a deflection yoke according to the prior art;

2 is a yaw perspective view of the deflection yoke according to the present invention.

Figure 3 is a side view of the main portion of the deflection yoke according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Separate 4: Fixing Ring

4a, 4b: Earth magnetic shielding means B: CRT

D: deflection yoke E: electron gun

The present invention relates to a deflection yoke installed in a CRT, and more particularly, to a deflection yoke structure of a CRT having a means capable of shielding an external geomagnetic field generated in an electron gun.

As is well known, the deflection yoke is a structure that reproduces the raster on the fluorescent surface of the panel by deflecting the electron beam from the cathode of the electron gun up, down, left, and right properly. This deflection yoke is shown in FIG. As described above, a pair of separators 1 having a half-trumpet shape, a horizontal deflection coil (not shown) wound inside the separator 1 and deflecting the electron beam, and coupled to the outside of the separator 1 described above. A pair of cores (2a) (2b), a fixing ring body (4) which is installed at the end of the separator (1) described above and fixed to the neck (not shown) of the CRT (not shown), and the core described above. It consists of vertical deflection coils 3a, 3b and the like wound around (2a) and 2b to deflect the electron beam.

However, since the deflection yoke (D) as described above has no means for shielding the external geomagnetic field, the deflection yoke (D) must rely on the inner shield installed in the CRT to shield the external geomagnetic field. Since the electron gun inserted and sealed inside the neck to be located at a predetermined depth is out of the influence area of the inner shield, the electron beam scanned from the electron gun to the fluorescent surface is mislanded on the fluorescent surface under the influence of an external geomagnetic field, thereby reducing the color purity of the CRT. There was a problem of extremely deteriorating.

Therefore, the object of the present invention was devised in view of such a conventional problem, by forming a magnetic field shielding means having a high permeability to the fixing ring of the deflection yoke so that the electron beam scanned from the cathode of the electron gun is not affected by the external magnetic field. In addition, the present invention provides a deflection yoke structure of the CRT tube which improves the color purity of the CRT tube.

In order to achieve the above object, the present invention forms two magnetic field shielding means having a predetermined width in the longitudinal direction thereof on the fixing ring body of the deflection yoke, and forms an annular magnetic field shielding means at the end of the fixing ring body. There is a characteristic.

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

2 is a main perspective view of the deflection yoke according to the present invention, and FIG. 3 is a side view of the deflection yoke according to the present invention, and a pair of separators 1 having a half bugle shape and the inside of the aforementioned separator 1 are wound. A horizontal deflection coil (not shown) for deflecting the electron beam, a pair of cores 2a and 2b coupled to the outside of the above-described separator 1, and an end of the above-described separator 1, Deflection consisting of a fixed ring body 4 for fixing in place of a neck (not shown) of the not shown, and a vertical deflection coil 3a, 3b wound around the cores 2a and 2b to deflect the electron beam. In the yoke (D), two geomagnetic shielding means (4a) made of a magnetic material having a high permeability and a magnetic permeability having a predetermined width in the longitudinal direction thereof are formed opposite to the stationary ring body (4) of the deflection yoke (D). While absorbing the external geomagnetic field generated by the end of the fixed ring body (4) By forming a different annular magnetic field shielding means (4b) to absorb the external geomagnetic field generated in the east-west, a part of which is inserted into the above-mentioned fixing ring (4) is injected from the cathode (not shown) of the electron gun E Make sure that the electron beam is not affected by these external geomagnetic fields.

In addition, the geomagnetic field shielding means (4a) (4b) is formed in the above-mentioned stationary ring body (4), and the geomagnetic field shielding means (4a) (4b) is a stationary ring body that is interviewed with the neck (N) of the CRT. (4) The metal fasteners 5 formed on the inner surface to press-fix the fixing ring body 4 with the neck N are not in contact with the above-described magnetic shielding means 4a and 4b. In addition to extending the fixed ring body 4 so as to completely cover the electron gun sealed inside the neck N outside the neck N, the geomagnetic shielding means 4a and 4b formed therein are also extended as much as possible. It is desirable to form and almost completely shield the external geomagnetic field on the electron gun.

The structure of the deflection yoke D described above is only one possible embodiment of the present invention, and for example, the shape of the fixing ring body 4 of the deflection yoke D and the geomagnetic shielding means 4a and 4b formed therein. Can be changed as many as possible within the scope of the present invention described above.

The present invention configured as described above forms the geomagnetic field shielding means 4a capable of shielding the external geomagnetic field generated in the north and south while facing each other along the fixing ring 4 provided in the rear of the deflection yoke D, and fixing the aforementioned. By forming another ring-shaped magnetic shielding means 4b that can shield the external magnetic field generated east-west at the end of the ring body 4, the external magnetic field generated by the electron gun is shielded to improve the color purity of the CRT. It has an improved effect.

Claims (1)

A pair of separators 1 having a half trumpet formation, a horizontal deflection coil (not shown) which is wound inside the above-described separator 1 to deflect the electron beam, and a pair of the outside that is coupled to the above-mentioned separator 1 A core (2a) (2b), a fixing ring (4) installed at the end of the separator (1) described above and fixed to the neck (not shown) of the CRT (not shown), and the core (2a) described above. In the deflection yoke (D) consisting of vertical deflection coils (3a) (3b) and the like, which are wound around (2b) and deflect the electron beams, while facing each other along the fixing ring (4) provided behind the deflection yoke (D). Another ring-shaped geomagnetic shield that can shield the external geomagnetic field generated east and west at the end of the fixed ring body 4 while forming a geomagnetic shield means 4a capable of shielding external geomagnetic fields generated in the north and south Deflection yoke sphere of CRT characterized by forming means 4b .