KR950001492B1 - C-crt - Google Patents

Abstract

The device improves the shield effect of earth magnet by inner-shield, and solves the deflection of electron beam in the cathode ray tube. The device includes a panel which forms the fluorescent layer in the inner side, the shadow mask frame assembly which is installed in the panel at a specified distance from the fluorescent layer, the inner shield which shields the electron beam track in the shadow mask frame assembly, the electron gun and deflection yoke in the neck part. The height of inner shield is IH, the distance of the panel and deflection yoke is FL, and the two sides of an aperture in the inner shield are A,B. The following equation is satisfied with the above parameters. IH/FL * A/B = R ( where, R = 0.8 or 1.3)

Description

Colored cathode ray tube

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

2 is a perspective view showing a state in which a shadow mask frame assembly having an inner shield is mounted inside the panel.

* Explanation of symbols for main parts of the drawings

11 panel 12 fluorescent film

13: shadow mask frame assembly 15, 20: inner shield

The present invention relates to a color cathode ray tube, and more particularly, to a color cathode ray tube which can fundamentally solve a distortion of an electron beam trajectory emitted from an electron gun by improving a shielding effect of an earth magnetic field caused by an inner shield.

In general, as shown in FIG. 1, a color cathode ray tube is formed with a fluorescent film 12 having a predetermined pattern on an inner surface of the panel 11, and a frame and a shadow on an inner surface of the panel 11 on which the fluorescent film 12 is formed. A shadow mask frame assembly 13 having masks coupled to each other is installed to be spaced apart from the fluorescent film 12 by a predetermined distance. In addition, an inner shield 15 is fixed to the frame of the shadow mask frame assembly 13 to partially surround the trajectory of the electron beam. As described above, the panel 11 having the shadow mask frame assembly 13 installed therein is enclosed with a large knitting portion 16 and emits an electron beam inside and outside the neck portion 16a of the funnel 16, respectively. An electron gun 17 and a deflection yoke 18 for deflecting the electron beam emitted from the electron gun 17 are provided.

In the conventional color cathode ray tube constructed as described above, hot electrons are emitted from the electron gun 17, selectively deflected by the deflection yoke 18 according to the scanning position of the fluorescent film, and landed on the fluorescent film to form one pixel, and these pixels are collected. It becomes a screen. However, the conventional cathode ray tube constructed as described above is provided with an inner shield 15 in the process of landing the electron beam emitted from the electron gun on the fluorescent film 12 as its size is enlarged and the aspect ratio of the screen is increased. Also, there is a problem that the trajectory of the electron beam is changed so that the electron beam cannot be accurately landed on the fluorescent film. That is, as the cathode ray tube is enlarged and the aspect ratio of the screen surface is changed, each component constituting the cathode ray tube is increased accordingly. In the case of the inner shield 15 among the components for the cathode ray tube, the size of the earth magnetic field is simply increased. As the shielding effect is lowered, the earth magnetic field is leaked accordingly, so that the trajectory of the electron beam is changed, and as a result, the electron beam cannot be accurately landed on the fluorescent film.

Therefore, the present invention was created to solve the above problems, and can improve the resolution of the image formed by landing the electron beam on the fluorescent film by improving the shielding effect of the earth's magnetic field as its size is enlarged and the angle of deflection is widened. The purpose is to provide a colored cathode ray tube.

Another object of the present invention is to provide a color cathode ray tube that can prevent the luminance difference between the center and the periphery of the screen as the aspect ratio of the screen surface increases, and minimize the rotation of the electron beam emitted from the electron gun.

In order to achieve the above object, the present invention provides a panel having a fluorescent film formed on an inner surface thereof, and a shadow mask frame assembly fixedly installed inside the panel so as to be spaced apart from the fluorescent film by a predetermined distance, and fixedly mounted on the shadow mask frame assembly to form part of an electron beam trajectory. A color cathode ray tube having an inner shield surrounding the panel and a funnel having an electron gun and a deflection yoke installed inside and outside the neck portion of the neck, wherein the height of the inner shield is IH and the funnel is deflected at the end. The distance to the oak is called FL, and when the long and short wall portions of the opening on the electron gun side of the inner shield are A and B, their relationship is expressed by the formula; It is characterized by satisfying IH / FL * A / B = R (where R = 0.8 to 1.3).

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

In the color cathode ray tube according to the present invention, as shown in FIGS. 1 and 2, a panel 11 having a predetermined pattern of a fluorescent film 12 formed on an inner surface thereof, and the fluorescent film formed on an inner surface of the panel 11. A shadow mask frame assembly 13 installed to be spaced apart from a predetermined interval, an inner shield 20 fixed to the frame 13a of the shadow mask frame assembly 13, and the panel 11 The inner and outer sides of the neck portion 16a are provided with a funnel 16 in which an electron gun 17 and a deflection yoke 18 are installed. Such a cathode ray tube is referred to as IH and the height of the inner shield 20 is measured. The distance from the end of the 16 to the deflection yoke 18 is called FL and as shown in FIG. 2, the long and short edges 22 of the opening 21 on the electron gun 17 side of the inner shield 20 are shown. When the length of (23) is A and B, respectively, these relations are represented by equations; IH / FL * A / B = R is satisfied. Wherein the value of R is in the range of 0.8 to 1.3.

The cathode ray tube configured as described above will be described in more detail as follows.

When the force received until the electron beam emitted from the cathode ray tube electron gun 17 is landed on the fluorescent film 12 is divided into parts of the cathode ray tube, the deflection yoke 18 from the end of the neck portion 16a of the cathode ray tube is explained. In the first region up to, the potential energy is artificially applied to the hot electrons emitted from the cathode of the electron gun by the potential difference, and the second region in which the deflection yoke 18 is provided deflects the electron beam by applying a deflection magnetic field to the electron beam. The area from the deflection yoke 18 to the shadow mask 13a is an area to be influenced by an external magnetic field, and the fourth area between the shadow mask and the fluorescent film is a shadow mask frame assembly 13. Is an area that shields the magnetic field applied from the outside. As described above, the first and second regions of the region where the electron beam is influenced from the outside are artificially applied to the electron beam for the purpose of focusing and accelerating or deflecting the electron beam, and the third and fourth regions are magnetic fields applied from the outside. And the external force given by the earth's magnetic field, in order to obtain a desired electron beam trajectory, the influence of the 3 and 4 regions should be minimized. The fourth region is partially shielded by the shadow mask frame assembly 13 and the width thereof. Since this is very narrow, it does not have a great influence on the electron beam. Therefore, the present inventors have a height IH of the inner shield 20 surrounding the region and the long and short edge portions 22 of the opening 21 on the electron gun 17 side in order to minimize the effect on the electron beam in the third region. By limiting the relation of the length of (23) to a predetermined value, it can be seen that the orbital change of the electron beam can be minimized by the external magnetic field and the earth magnetic field.

That is, the present inventors, the height of the inner shield 20 is referred to as IH, the length of the long short edge of the opening 21 of the inner side of the electron gun 17 of the inner shield is A, B, the end of the funnel 16 When the distance from the deflection yoke 18 to FL is FL, the relation thereof is expressed by the equation; After assuming that IH / FL * A / B = R, the experiment was performed while changing the value of each variable, and the results as shown in the following table were obtained.

(However, the inner shield is made of pure iron)

As shown in the table, when the value of R has a value of 0.8 to 1.3, it can be seen that the amount of miss landing of the electron beam can be minimized.

As described above, the color cathode ray tube of the present invention was able to minimize the influence of the electron beam emitted from the electron gun from the earth's magnetic field and the external magnetic field by adjusting the relationship between the height of the inner shield and the long and short edges of the opening side of the electron gun. Therefore, the present invention can make the luminance of the image constant by allowing the electron beam emitted from the electron gun to be accurately landed at the fluorescence point of the fluorescent film, and further, has the advantage of improving the resolution of the cathode ray tube.

Claims (1)

A panel having a fluorescent film formed on an inner surface thereof, a shadow mask frame assembly fixed to the interior of the panel so as to be spaced apart from the fluorescent film by a predetermined distance, and an inner shield fixed to the shadow mask frame assembly to surround a portion of the electron beam trajectory, and the panel In the color cathode ray tube, which is provided with an electron gun and a deflection yoke panel inside and outside the neck portion, the height of the inner shield is IH and the distance from the end of the funnel to the deflection yoke is FL. A color cathode ray tube, wherein the relationship between the long and short sides of the opening portion on the electron gun side of the inner shield satisfies the following expression. expression; IH / FL * A / B = R (where R = 0.8 to 1.3)