KR20000033397A - Apparatus for reducing earth magnetism effect - Google Patents

Abstract

PURPOSE: An apparatus for reducing earth magnetism effect is provided to minimize the effect of the earth magnetism on the display by perform degaussing during watching televisions. CONSTITUTION: An apparatus for reducing earth magnetism effect includes a plurality of electromagnets(210a,210b,210c,210d), a DC power supply(211), an earth magnetism sensor(212), and an earth magnetism signal controller(213). The plurality of electromagnets(210a,210b,210c,210d) form a magnetic field. The DC power supply is electrically coupled to the plurality of electromagnets(210a,210b,210c,210d). The earth magnetism sensor(212) detects the change of electromagnetism according to the change of the cathode ray tube direction. The earth magnetism signal controller generates a control signal.

Description

Geomagnetic Impact Reduction Devices for Cathode Ray Tubes

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a geomagnetic influence attenuating device for cathode ray tube (CRT), and in particular, degaussing to reduce the influence of geomagnetism due to redirection of cathode ray tube can be performed even while watching TV. The present invention relates to a geomagnetic impact attenuation device for a cathode ray tube.

The cathode ray tube is a display element capable of displaying a desired display by deflecting the traveling path of the electron beam emitted from the electron gun by controlling the surrounding magnetic field. Such a cathode ray tube is affected by geomagnetism when the position (installation) of the cathode ray tube is switched, thereby changing the path of the electron beam emitted from the electron gun of the cathode ray tube. As a result, the landing of the electron beam on the cathode film inside the screen is changed. As a countermeasure against such an influence of the geomagnetism, as shown in FIG. 1, an inner shield 104 is provided inside the cathode ray tube 101 to reduce the geomagnetism. However, this conventional approach is limited in reducing the effects of geomagnetism. In addition, even in the case of a TV capable of changing the direction recently, degaussing is impossible while watching TV, and thus landing correction is difficult. In Fig. 1, reference numeral 102 denotes an electron gun, 103 denotes a deflection yoke, 105 denotes a shadow mask, and 106 denotes a fluorescent film.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides a geomagnetic impact attenuation apparatus for cathode ray tubes that can perform degaussing during TV watching to reduce the influence of geomagnetism due to the redirection of cathode ray tubes. There is a purpose.

1 is a partial cross-sectional view showing the structure of a typical cathode ray tube.

Figure 2 is a device configuration showing a state in which the geomagnetic influence attenuating device for the cathode ray tube according to the present invention is employed in the cathode ray tube.

3 and 4 are views showing the direction of the magnetic field formed in the four corners of the rear side of the cathode ray tube by a group of two of the four electromagnets of the geomagnetism influence damping device for cathode ray tube according to the present invention.

<Description of the code | symbol about the principal part of drawing>

Cathode ray tube 102,202

103,203 ... deflection yoke 104 ... inner shield

105 ... shadow mask 106 ... fluorescent membrane

201f ... Funnel section 210a to 210d ... Electromagnet

211 DC power supplies 212 Geomagnetic sensors

213 geomagnetic signal regulators

In order to achieve the above object, a geomagnetic influence attenuating device for a cathode ray tube includes: a plurality of electromagnets installed at a predetermined portion of a rear surface of a cathode ray tube and forming a magnetic field by a supplied power source; A DC power supply electrically connected to the plurality of electromagnets, for supplying DC power to the plurality of electromagnets; A geomagnetic sensor installed near a predetermined portion of the cathode ray tube or the cathode ray tube, and configured to detect a change in geomagnetism according to a change in direction of the cathode ray tube; And a geomagnetic signal regulator electrically connected to the geomagnetic sensor and the DC power supply, respectively, and receiving a geomagnetic change detection signal from the geomagnetic sensor and outputting a control command of power supply or shutdown to the DC power supply. Has its features.

According to the present invention, the change of the geomagnetism according to the change of the direction of the cathode ray tube is detected, and the corresponding magnetic field is artificially formed according to the sensing to attenuate the influence of the geomagnetism, thereby changing the direction of the TV while watching TV. However, the landing of the electron beam can be kept almost constant without being affected by the geomagnetism.

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

Figure 2 is a device configuration showing a state in which the geomagnetic influence attenuator for the cathode ray tube according to the present invention is installed in the cathode ray tube.

Referring to Figure 2, the geomagnetic impact attenuator for the cathode ray tube according to the present invention are respectively installed at the four corners of the funnel portion (201f) of the rear of the cathode ray tube 201, and forms a magnetic field by the supplied power Four electromagnets 210a to 210d and four electromagnets 210a to 210d are electrically connected to each other, and a DC power supply device 211 for supplying DC power to the four electromagnets 210a to 210d. The geomagnetic sensor 212 and the geomagnetic sensor 212 are installed in a predetermined portion of the cathode ray tube 201 or near the cathode ray tube 201 to detect a change in the geomagnetism according to the change of direction of the cathode ray tube 201. And a geomagnetic signal electrically connected to the DC power supply 211 and receiving a geomagnetic change detection signal from the geomagnetic sensor 212 and outputting a control command of power supply or cutoff to the DC power supply 211. The regulator 213 is provided. Reference numeral 202 denotes an electron gun and 203 denotes a deflection yoke, respectively.

In the cathode ray tube 201 employing the geomagnetism-impacting device of the present invention having the above-described configuration, when the direction of the cathode ray tube 201 is switched, that is, the TV is placed in the initial state of the TV while watching TV. When rotated in the other direction, the path of the electron beam emitted from the electron gun 202 of the cathode ray tube 201 is changed as described above due to the influence of geomagnetism, thereby causing the fluorescence inside the screen of the cathode ray tube 201 of the electron beam. The landing on the membrane 106 (see FIG. 1) changes. As a result, distortion occurs on the screen of the cathode ray tube 201. However, at this time, a change in the geomagnetism according to the change of direction of the cathode ray tube 201 is detected by the geomagnetism sensor 212 in the device of the present invention, and the geomagnetic signal adjuster 213 that receives a detection signal from the geomagnetic sensor 212 ) Sends a control command for power supply to the DC power supply 211. Then, the DC power supply 211 supplies DC power to the four electromagnets 210a to 210d, respectively. At this time, the DC power supply 211 is made of two pairs of four electromagnets (210a to 210d) to supply the two groups with different positive (+) and negative (-) voltage corresponding to the geomagnetic direction respectively Done.

On the other hand, the four electromagnets 210a to 210d supplied with the DC power from the DC power supply device 211 form magnetic fields in the periphery thereof. In this case, as described above, two pairs of the four electromagnets 210a to 210d are formed, and different positive (+) and negative (-) voltages are applied to the two groups, respectively, and thus, shown in FIGS. 3 and 4. As shown, the directions 30, 30 ', 31, 31' (40, 40 ') and 41, 41' of the magnetic fields of the electromagnets in the same group are the same and the directions 30 of the magnetic fields between the groups are the same. (31) (40, 41) is different from each other. 3 is a case in which two electromagnets are grouped in a diagonal direction among the four electromagnets 210a to 210d to form a group, and in FIG. 4, two electromagnets are grouped in a short side direction. It is a case of a group. 3 and 4 are merely examples, and in addition, two electromagnets may be grouped in the long side direction to form a pair, and the direction of the applied power source may vary according to circumstances. Of course it is possible.

As described above, the influence of the geomagnetism is attenuated by artificially forming the magnetic field according to the change of the direction of the cathode ray tube 201, and thus, the landing change of the electron beam due to the change of the geomagnetism when the direction of the cathode ray tube 201 is changed is corrected. You will. As a result, even if the direction of the TV is changed (and eventually the direction of the cathode ray tube 201) during TV viewing, the landing of the electron beam remains almost constant without being affected by the geomagnetism.

As described above, the geomagnetic influence attenuating device for cathode ray tube according to the present invention senses the change of geomagnetism, and attenuates the influence of geomagnetism by artificially forming a corresponding magnetic field according to the detection, so that the direction of the TV during TV viewing Even if the switch is switched, there is an advantage that the landing of the electron beam can be kept almost constant without being affected by the geomagnetism.

Claims (2)

A plurality of electromagnets installed at predetermined portions of the rear surface of the cathode ray tube and forming a magnetic field by the supplied power; A DC power supply electrically connected to the plurality of electromagnets, for supplying DC power to the plurality of electromagnets; A geomagnetic sensor installed near a predetermined portion of the cathode ray tube or the cathode ray tube, and configured to detect a change in geomagnetism according to a change in direction of the cathode ray tube; And And a geomagnetic signal adjuster electrically connected to the geomagnetic sensor and the DC power supply, respectively, and receiving a geomagnetic change detection signal from the geomagnetic sensor and outputting a control command of power supply or shutdown to the DC power supply. Geomagnetic influence attenuator for cathode ray tube. The method of claim 1, When power is supplied from the DC power supply to the plurality of electromagnets, power in the same direction is supplied to electromagnets in the same group, each of which has a plurality of electromagnets, and power in different directions is supplied between the groups. Geomagnetic influence attenuator for cathode ray tube, characterized in that.