KR100462773B1 - Cathode ray tube - Google Patents

Abstract

PURPOSE: A cathode ray tube is provided to prevent a distortion of an electron beam path caused due to terrestrial magnetic fields, by forming a metal layer having a permeability larger than that of an inner shield, along the edge of the portion extended from the inner shield. CONSTITUTION: A cathode ray tube comprises a panel(22); a funnel(23) attached to the panel; a shadow mask assembly arranged in the panel; a fixing portion(29a) supported by the shadow mask assembly; and an inner shield(29) having an extended portion(29b) extended from the fixing portion toward a neck portion(23a) of the funnel so as to cover the trajectory of electron beam. The extended portion has an end with an outer surface coated with a metal layer(30) having a permeability larger than that of the inner shield.

Description

Cathode ray tube {Cathode ray tube}

The present invention relates to a cathode ray tube, and more particularly, to a cathode ray tube having an inner shield which is improved to prevent the electron beam emitted from the electron gun from being distorted due to the influence of the earth's magnetic field.

Typically, as shown in FIG. 1, the cathode ray tube includes a panel 12 having a fluorescent film 11 formed on an inner surface thereof, and a shadow mask 13 provided to be spaced apart from the fluorescent film 11 by a predetermined distance inside the panel 12. And a shadow mask frame assembly (15) consisting of a frame (14) supporting the shadow mask (13), an inner shield (16) supported by the shadow mask frame assembly (15), and a panel (12). The electron gun 18 is enclosed in the neck part 17a, and the funnel 17 provided with the deflection yoke 19 in the cone part 17b is provided.

In the cathode ray tube configured as described above, the electron beam emitted from the electron gun 18 mounted on the neck portion 17a is selectively deflected by the deflection yoke 19 to pass through the electron beam passing hole formed in the shadow mask 13. Landing at each fluorescent point of the fluorescent film 11 forms an image. In order to minimize the distortion of the trajectory of the electron beam emitted from the electron gun 18 in the cathode ray tube, the inner shield 16 surrounding the trajectory of the electron beam is provided.

However, when the direction of the cathode ray tube is switched, the phenomenon of distorting the movement path of the electron beam occurs as the direction of the magnetic field formed inside the cathode ray tube is changed by the geomagnetic field, which is particularly distorted in the inner shield 16. It is most generated at the end of the neck portion 17a. This is because the magnetic field due to the earth's magnetic field changes rapidly at the end portion of the inner shield 16 at the neck portion 17a. Therefore, as the movement path of the electron beam is distorted, the electron beam landing on the fluorescent film 11 may not be landed at the correct fluorescence point, resulting in poor clarity of the displayed image.

The present invention has been made in view of the above problems, and an object thereof is to provide a cathode ray tube having an inner shield which is improved to prevent distortion of an electron beam generated at an end of the inner shield by a geomagnetic field.

In order to achieve the above object, the present invention provides a panel, a funnel sealed to the panel and encapsulated with an electron gun at a neck portion, a shadow mask frame assembly installed inside the panel, and supported by the shadow mask frame assembly. A cathode ray tube comprising a fixing portion and an inner shield extending from the fixing portion toward the neck portion of the funnel to surround the path of the electron beam, the permeability of the inner shield along the outer peripheral surface of the end portion of the extension portion. It is characterized in that a metal layer having a greater permeability is formed.

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

2 is a cross-sectional view showing an embodiment of a cathode ray tube according to the present invention, Figure 3 is a perspective view showing the shadow mask frame assembly and the inner shield separated from the cathode ray tube of FIG.

Referring to FIG. 2, the cathode ray tube according to the present invention includes a panel 22 having a fluorescent film 21 formed on an inner surface thereof, a panel 22 encapsulated in the panel 22, and an electron gun 24 formed on the neck portion 23a. The funnel 23 which is enclosed and provided with the deflection yoke 25 in the cone part 23b is provided. In addition, a shadow mask frame assembly 28 having a shadow mask 26 installed to be spaced apart from the fluorescent film 21 formed in the panel 22 at predetermined intervals and a frame 27 supporting the shadow mask 26 is installed. do. In addition, a fixing portion 29a supported by the shadow mask frame assembly 28 and an extension portion 29b extending from the fixing portion 29a toward the neck portion 23a of the funnel 23 to surround the trajectory of the electron beam. An inner shield 29 having an inner portion 29 is provided, and the outer circumferential surface of the extension portion 29b of the inner shield 29 has a permeability greater than the permeability of the inner shield 29 along the edge 30. ) Is formed.

That is, as shown in Figure 3, the metal layer 30 is formed on the outer circumferential surface of the extension portion 29b along the edge of the extension portion 29b in the inner shield 29, a predetermined width and thickness, such a metal layer 30 ) May be formed by coding a metal having a magnetic permeability greater than that of the inner shield 29. In addition, the metal layer 29 may have a magnetic permeability greater than that of the inner shield 29, for example, and may be formed by bonding a metal plate having a predetermined thickness and width.

In the cathode ray tube of the above-described configuration, the electron beam emitted from the electron gun 24 mounted to the neck portion 23a is selectively deflected by the deflection yoke 25 to pass through the electron beam passing hole of the shadow mask 26 to fluoresce. Landing at the fluorescence point of the film 21 forms an image.

In addition, the electron beam having the above-described movement path is continuously affected by the magnetic field formed by the earth's magnetic field. In particular, a change in the magnetic field formed by the earth's magnetic field is rapidly made at the end of the inner shield 29 at the neck 23a of the funnel 23, and passes through the end of the inner shield 29 at the neck 23a. The electron beam is most affected by the Earth's magnetic field. However, in the cathode ray tube according to the present invention, since the metal layer 30 having a magnetic permeability greater than that of the inner shield 29 is formed at the end of the inner shield 29 at the neck portion 23a of the funnel 23, Since the magnetic field caused by the earth's magnetic field acting from the outside is mainly guided through the outer circumferential surface of the inner shield 29 through the metal layer 30, the influence of the earth's magnetic field acting on the electron beam is reduced.

That is, as shown in FIG. 4, the magnetic field due to the geomagnetic field acting on the end of the inner shield 29 is dispersed in the inner shield 29 and the metal layer 30 formed at the end of the inner shield 29. . And since the metal layer 30 has a greater permeability than the inner shield 29, a magnetic field having a larger magnetic flux density passes through the metal layer 30 than the inner shield 29.

The cathode ray tube according to the present invention has a metal layer having a magnetic permeability greater than the permeability of the inner shield is formed along the edge of the extension portion in the inner shield, it is possible to minimize the distortion of the movement path of the electron beam by the earth magnetic field, furthermore The electron beam can be accurately landed at the fluorescent point of the fluorescent film to improve the resolution of the cathode ray tube.

1 is a cross-sectional view showing a schematic configuration of a conventional cathode ray tube;

2 is a cross-sectional view showing an embodiment of a cathode ray tube according to the present invention;

3 is a perspective view showing the shadow mask frame assembly and the inner shield separated from the cathode ray tube of FIG.

4 is a view showing the flow of the magnetic field acting on the end of the inner shield in the cathode ray tube according to the present invention.

<Description of Symbols for Main Parts of Drawings>

21.Fluorescent film 22.Panel

23.Funnel 24.Electron

25. Deflection yoke 26. Shadow mask

27.Frame 28.Shadowmask Frame Assembly

29.Inner Shield 29a.

29b.Extension 30.Metal layer

Claims (2)

A panel, a funnel sealed to the panel and enclosed with an electron gun in the neck portion, a shadow mask assembly provided inside the panel, a fixing portion supported by the shadow mask assembly, and from the fixing portion toward the neck portion of the funnel. In the cathode ray tube comprising an inner shield having an extension extending to surround the trajectory of the electron beam, Cathode ray tube, characterized in that the outer periphery of the end portion of the extension portion is formed by coating a metal layer having a permeability greater than the permeability of the inner shield with a predetermined thickness and width. A panel, a funnel sealed to the panel and enclosed with an electron gun in the neck portion, a shadow mask assembly provided inside the panel, a fixing portion supported by the shadow mask assembly, and from the fixing portion toward the neck portion of the funnel. In the cathode ray tube comprising an inner shield having an extension extending to surround the trajectory of the electron beam, Cathode ray tube, characterized in that the outer periphery of the end portion of the extension portion having a permeability greater than the permeability of the inner shield, a metal plate formed with a predetermined thickness and width is bonded.

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