KR20020075497A - auto degaussing coil for cathode ray tube - Google Patents

Abstract

PURPOSE: A cathode ray tube having automatic de-gaussing coil is provided to achieve improved electron beam landing characteristics by concentrating magnetic field to the shadow mask, frame and inner shield. CONSTITUTION: A cathode ray tube comprises a panel having an inner surface on which a phosphor screen is formed; an electron gun for generating electron beams; a deflection yoke mounted outside the funnel, and which deflects electron beams generated from the electron gun; an inner shield for protecting electron beams from the influence of magnetic field; a shadow mask for color discrimination of electron beams; a frame for fixing the inner shield of the shadow mask; and an automatic de-gaussing coil(10) connected to a screen portion(11) formed at the outer surface of the panel and a body portion(9) formed at the outer surface of the funnel, such that the magnetic field is deflected in a vertical direction.

Description

Automatic degaussing coil for cathode ray tube with automatic element coil

The present invention relates to a cathode ray tube having an automatic element coil, wherein the automatic element coils respectively installed on the upper and lower portions of the cathode tube funnel having a shorter overall length are individually or integrally provided with the automatic element coils installed around the panel of the cathode ray tube. Decrease in magnetic flux density of the magnetic field of the automatic element coil of the funnel, which is extended by the shortening of the electric field length due to the reduction of the electric field length, and the automatic element coil of the panel fills the magnetic field so that the magnetic field is concentrated on the shadow mask, frame and inner shield The present invention relates to a cathode ray tube having an automatic element coil for smoothly forming an element.

Commonly used as a cathode ray tube (CRT) used for a color picture tube (CPT) or a color monitor (Color Display Tube, CDT), it is also called a brown tube. Refers to a device that converts and displays an optical image.

Cathode ray tube, which is widely used, has the advantage of excellent display quality and price performance ratio as a display device, and is widely used as an image display device for general use.

In the cathode ray tube, the electron beam emitted by the electron gun in the vacuum glass bulb is focused on the electron lens, and is deflected to a predetermined position on the fluorescent surface by the magnetic field of the deflection yoke attached to the neck of the glass bulb, thereby colliding with the electron beam. The phosphor is designed to emit light.

Referring to the general structure of the cathode ray tube attached drawings Figure 1 is a cross-sectional configuration of a conventional conventional cathode ray tube, Figure 2 is a perspective view showing the connection state of the automatic element coil to the conventional cathode ray tube.

As shown in Fig. 1, the cathode ray tube includes a panel 1 having a fluorescent film coated on its inner surface, an electron gun 2 for generating an electron beam, and a panel for deflecting the beam generated from the electron gun 2 described above. Deflection yoke (3) mounted outside the funnel portion of (1), an inner shield (4) for preventing the electron beam from being affected by the geomagnetic field, and a shadow mask (5) for causing the electron beam to converge ) And a frame 6 for fixing the inner shield 4 and the shadow mask 5 described above.

Since the cathode ray tube 15 is made of pores (shadow mask, frame, inner shield) as a magnetic material, the shadow mask 5 is magnetized in the direction of geomagnetism transmitted according to the television installation position.

In such a state, even if the television has a good color purity, if the direction is changed, the electron beam from the electron gun 2 is bent due to the residual magnetism of the pore component, resulting in poor color purity. According to magnetic molecular theory, magnetic material such as iron becomes magnetic because the magnetic axis of magnetic molecules constituting the magnetic body removes the external magnetic field, so the magnetic molecules are arranged as it is. You must.

Therefore, if the magnetic field is gradually weakened by putting the magnetized magnet in the alternator continuity, the magnetic molecules in the alternating magnet continuity change by 180 ° every half cycle, and this is repeated and gradually the residual magnetic disappears.

However, in the conventional coil device for cathode ray tubes, as shown in FIG. 2, the strength of the magnetic field actually formed is increased as the distance between the upper and lower element coils 7 increases due to the enlargement or wide angle (shortening) of the cathode ray tube. (Shadow masks, frames, inner shields) can not be reached and gradually weaken to destroy the magnetized geomagnetic field. Therefore, the cathode ray tube has a problem in that the color purity and brightness control functions of the upper and lower element coils are deteriorated, thereby degrading the quality of the product.

The present invention is intended to solve the problems of the related art, and its purpose is to automatically separate the automatic element coils installed in the upper and lower portions of the cathode ray tube panel having a shorter length, respectively, from the automatic element coils installed around the funnel of the cathode ray tube. By connecting them together or integrally, the panel's automatic element coils fill the decrease in the magnetic flux density of the magnetic field of the funnel's automatic element coils with an extended deflection angle due to the shortening of the electric field length. As it is concentrated, it is possible to make the geomagnetic elements smooth.

1 is a cross-sectional view of a conventional cathode ray tube.

2 is a perspective view showing a connection state of an automatic element coil to a conventional cathode ray tube.

3 is a cross-sectional view of a cathode ray tube according to an embodiment of the present invention.

Figure 4 is a perspective view showing a connection state of the automatic element coil to the cathode ray tube according to an embodiment of the present invention.

Figures 5a, 5b is a state diagram of the automatic device coil connection method of FIG.

Code descriptions for the main parts of the drawings

1 panel 2 electron gun

3: deflection yoke 4: inner shield

5: shadow mask 6: frame

7,10: automatic element coil 8: funnel

11: screen portion 12: deflection portion

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in order to describe in detail enough to enable those skilled in the art to easily carry out the present invention. . Other objects, features, and operational advantages, including the object, operation, and effect of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only selected to present the most preferred examples from among various possible examples to help those skilled in the art to understand, and the technical spirit of the present invention is not necessarily limited or limited only by these embodiments. However, various changes and modifications are possible within the scope without departing from the technical spirit of the present invention, as well as other equivalent embodiments.

3 is a cross-sectional view of a cathode ray tube according to an embodiment of the present invention, Figure 4 is a perspective view showing the connection state of the automatic element coil to the cathode ray tube according to an embodiment of the present invention, Figures 5a, 5b is State diagram of automatic element coil connection

As shown in FIG. 3, a configuration of a cathode ray tube equipped with an automatic element coil according to an exemplary embodiment of the present invention includes a panel 1 in which a fluorescent film is coated on an inner surface of a front part, an electron gun 2 for generating an electron beam, and A deflection yoke (3) mounted outside the funnel (8) to deflect the beam generated from the electron gun (2), and an inner shield (4) for preventing the electron beam from being affected by the geomagnetic field; , The shadow mask 5 for each section of the electron beam, and the frame 6 for fixing the inner shield 4 and the shadow mask 5 have a conventional structure.

The cathode ray tube is connected to the automatic element coil 10 that forms a magnetic field by forming a magnetic field on the outside of the screen portion 11 of the panel 1.

The frame 6 has a configuration in which the automatic element coils 10 are installed above and below the body portion 9 of the funnel 8 so as to element the geomagnetic field of the shadow mask 5 therein.

The auto element coils 10 connected to the body portion 9 of the funnel 8 and the screen portion 11 of the panel 1 are each individually connected or integrally connected to one.

The automatic element coil 10 connected to the upper and lower body portions 9 of the funnel 8 extends to the left and right sides of the funnel 8.

By the above configuration, the action of the automatic element coil of the cathode ray tube according to the embodiment of the present invention is as follows.

The cathode ray tube blocks an external magnetic field so that a landing error does not occur from an influence by an external magnetic field such as a geomagnetic field in the course of the electron beam through the inner shield 4.

Cathode ray tube 10, which is applied to wider or wider angle of shorter electric field length, has a weak magnetic field between the upper and lower automatic element coils 7 outside the inner shield 4, so that the magnetic field is formed in front of the screen, that is, the shadow mask 5 side. The automatic element coil 10 is connected to the periphery of the screen portion 11 of the panel 1 so that it can be formed.

The automatic element coil 10 connected to the screen portion 11 side of the panel 1 has a magnetic field that affects the entire area around the panel 1, so that the shadow mask 5 located inside the panel 1, that is, the shadow mask ( The weak magnetic field of the upper and lower automatic element coils 10 on the inner shield 4 side is formed in the magnetic field formed on the screen part 11 side of the panel 1 in the vertical direction of 5).

At this time, the upper and lower automatic element coils on the inner shield 4 side are held in a magnetic field formed around the screen portion 11 of the panel 1, so that the shadow mask 5 or the frame 6 is a structure located in the horizontal direction of the upper and lower automatic element coils. ) And the inner shield 4 concentrates on the strength of the magnetic field, thereby demagnetizing the magnetic field magnetized to the structure.

In the method of connecting the automatic element coil 10 according to the embodiment of the present invention, first, the automatic element coil 10 connected to the outer portion of the body part 9 of the funnel 8, that is, the inner shield 4 of the upper and lower parts is formed. Each of the lower or upper portions of the funnel 8 connects a single automatic element coil 10 to the upper and lower portions of the body 9.

At this time, the automatic element coil 10 is to be connected to the long side from the upper and lower sides to surround the whole of the funnel (8) is to completely block the geomagnetic field.

In addition, the automatic element coil 10 surrounds the outer peripheral surface of the side of the frame 6 surrounding the shadow mask 5 side so that the magnetic field is formed in the vertical direction of the shadow mask 5 so that the shadow mask 5 and the frame ( 6) and the earth magnetic field of the inner shield (4) to prevent the landing error caused by the earth magnetic field in advance.

Accordingly, the automatic element coils 10 installed in the body 9 of the funnel 8 and the screen 11 of the panel 1 are generated in each coil while current flows clockwise or counterclockwise in each coil. The magnetic field is concentrated on the front surface of the screen, and thus the element of the support system of the shadow mask 5 and the frame 6 and the inner shield 4 is improved.

Classification N-S travel amount E-W travel amount NS + EW Travel Conventional vertical flux element 28 24 52 Flux element of the present invention 6 31 37

As shown in Table 1, it can be seen that the automatic element coil magnetic field shift of the present invention is reduced compared to the conventional magnetic field shift.

The present invention, which acts as described above, shortens the overall length by connecting the automatic element coils respectively installed at the upper and lower portions of the cathode ray tube funnel having a shorter overall length, individually or integrally with the automatic element coils installed around the panel of the cathode ray tube. Landing characteristics of the electron beam due to the geomagnetic field because the magnetic element of the panel fills the decrease in the magnetic flux density of the magnetic field of the automatic element coil of the funnel with the extended deflection angle due to the magnetic field being concentrated on the shadow mask, the frame and the inner shield. This has the effect of being improved.

In addition, because of the landing characteristics of the electron beam it is possible to control the color purity and brightness has the effect of improving the quality of the product.

This effect of the present invention can be used in various applications within the scope of the technical idea of the present invention in the field of automatic element coil of the cathode ray tube.

Claims (5)

A panel 1 coated with a fluorescent film on the inner surface of the front part, an electron gun 2 for generating an electron beam, and mounted outside the funnel 8 for deflecting the beam generated from the electron gun 2 described above. Deflection yoke (3), inner shield (4) for preventing the electron beam from being affected by the geomagnetic field, shadow mask (5) for sectioning the electron beam, and inner shield (4) or In a cathode ray tube composed of a frame 6 for fixing a shadow mask 5, a screen portion 11 formed on the outer surface of the panel 1 and a body portion 9 formed on the outer surface of the funnel 8 are provided. Cathode ray tube having an automatic element coil which is connected to the automatic element coil (10) to allow the magnetic field to be deflected in the vertical direction. The cathode ray tube according to claim 1, wherein the automatic element coils (10) connected to the body portions (9) of the funnel (8) are automatically connected to upper and lower portions respectively. 3. An automatic element coil (10) connected to the body portion (9) of the funnel (8) and the screen portion (11) of the panel (1) is integrated in one line on the upper side and the lower side. Cathode ray tube with automatic element coils connected. The cathode ray tube according to claim 1, wherein an automatic element coil (10), which is independently connected to the upper and lower sides of the body portion (9) of the funnel (8), is long and connected to the left and right sides. 5. The cathode ray tube according to claim 1 or 4, wherein the automatic element coil (10) connected to the body portion (9) of the funnel (8) is long and connected to the left and right sides.