KR100447661B1 - The Transposed Scan Type C-CRT - Google Patents

Abstract

The present invention relates to an electron gun in which three cathodes for generating electron beams of three colors R, G, and B are arranged in a vertical line, a screen in which the electron beam emitted from the electron gun strikes a fluorescent surface to reproduce colors, and a predetermined interval with respect to the screen. A shadow mask disposed to have a color discrimination function, a vertical coil forming a pincushion magnetic field to deflect the electron beam emitted from the electron gun in a direction of a short axis of the screen, and a deflection of the electron beam emitted from the electron gun in the direction of a long axis of the screen; In the vertical scanning cathode ray tube including a deflection yoke composed of horizontal coils forming a barrel-shaped magnetic field, the vertical length of the electron beam passing hole located in the shadow mask center is referred to as Pv, and the horizontal length is referred to as Ph. It is characterized by satisfying the equation.

3.0 ≤ Ph / Pv ≤ 3.5

The present invention has an effect of improving the purity characteristics by reducing the horizontal length of the electron beam by making the electron beam through hole of the shadow mask larger than the vertical length in the vertical scanning method.

Description

Vertical scanning type color cathode ray tube {The Transposed Scan Type C-CRT}

The present invention relates to a vertical scanning type color cathode ray tube, and more particularly, to a vertical scanning type cathode ray for preventing other colors by designing a slot shape of a shadow mask in a horizontal shape.

The general color cathode ray tube 1 includes a panel portion 2, a funnel portion 3 and a neck portion 4 as shown in FIG. The panel portion 2 includes a screen 2a coated with phosphors of R, G, and B on the inner surface thereof, and a shadow mask 5 that serves to color discriminate the screen 2a. The neck portion 4 comprises an electron gun 6 which emits an electron beam. The funnel portion 3 is connected to the panel portion 2 and the neck portion 4 so that the inside of the cathode ray tube is in a vacuum state, and includes two pairs of deflection coils (9a, 9b and 10a and 10b of FIG. 4). The deflection device 8 is mounted outside the portion where the funnel portion and the neck portion are connected. The deflection device 8 is connected to a signal generator 20 to scan the screen 2a according to the raster. The electron gun 6 mounted to the neck portion is in the form of a horizontal in-line.

The cathode ray tube as described above uses a horizontal scanning method, and as the inner surface of the panel is gradually planarized, the shape of the electron beam spot at the periphery becomes an elliptical shape with a long axis rather than a circular shape as shown in FIGS. 2A and 2B. In addition, the rate of change of the electron beam spot is greater in the horizontal axis direction than in the longitudinal axis amount as shown. Therefore, the electron beam does not strike the phosphor accurately from the center portion to the periphery portion, thereby deteriorating the luminance characteristic and the color purity.

The US patent 5170102 proposed by Philips to solve the above problems are mentioned. The patent is in the form of a line in which the electron gun is vertical, the deflection device includes a vertical deflection coil to form a pincushion-shaped deflection magnetic field in the short axis direction of the screen and a horizontal deflection coil to form a barrel-shaped deflection magnetic field in the long axis direction of the screen, The vertical injection method is adopted. This means that the vertical plane of the electron gun, deflector and shadow mask slot is rotated 90 degrees with respect to the prior art direction, and red, green, and blue phosphor patterns are also formed along the direction.

Figure 3 shows the electron gun and the deflecting device of the vertical scanning type cathode ray tube described above, the electron gun is in the form of R, G, B vertical in-line, 9a, 9b is a vertical deflection coil, 10a, 10b is a horizontal deflection coil. . Figure 4 shows the shape of the shadow mask 5 in the conventional horizontal scanning method, while the slot 11 of the shadow mask has an elongated form in the short direction of the shadow mask so as to conform to the horizontal scanning method, the present invention The slot 11 of the shadow mask 5 has an elongated shape in the long axis direction of the screen so as to correspond to the vertical scanning type electron gun and the deflecting device as shown in FIG. 5.

The vertical scanning method as described above increases the deflection angle of the electron beam, thereby enabling a slim cathode ray tube thinner than the thickness of the conventional horizontal scanning cathode ray tube.

As described above, the shape of the electron beam passing through the shadow mask slot having an elongated shape in the long axis direction of the screen has an elongated shape in the screen long axis direction as the shape of the slot. However, in the vertical scanning type color cathode ray tube, when the electron beam moves, the long axis to short axis move at a ratio of 4: 3. That is, since the electron beam moves more along the long axis than the short axis, the purity characteristics of the cathode ray tube deteriorate when the screen shape is stripe shape and the shadow mask slot is horizontal shape. Therefore, it is necessary to regulate the size of the slot when the shadow mask slot is horizontal.

Accordingly, an object of the present invention is to improve the purity characteristics of the cathode ray tube by adjusting the horizontal length to the vertical length of the slot of the shadow mask in the vertical scanning type color cathode ray tube.

1 is a structural diagram of a typical color cathode ray tube

2A and 2B show the shape of a conventional electron beam spot.

3 is a view showing an electron gun and a deflecting device of the vertical scanning color cathode ray tube;

Figure 4 is a view showing the shape of the shadow mask in the conventional horizontal scanning method

5 is a view showing the shape of the shadow mask of the present invention

*** Explanation of symbols for the main parts of the drawing ***

2 panel 2a screen

3: funnel portion 4: neck portion

5: shadow mask 6: electron gun

8: deflection device 9a, 9b: vertical deflection coil

10a, 10b: horizontal deflection coil 11: slot

12: phosphor

The technical means of the present invention for achieving the above object is to reproduce the color by hitting the fluorescent surface of the electron gun emitted from the electron gun with three cathodes arranged in a vertical inline three cathodes for generating electron beams of R, G, B three colors A screen, a shadow mask arranged at a predetermined interval with respect to the screen to serve as color screening, a vertical coil forming a pincushion magnetic field to deflect the electron beam emitted from the electron gun in the direction of the screen, and the electron beam emitted from the electron gun. In the vertical scanning cathode ray tube including a horizontal yoke composed of a horizontal coil to form a barrel-shaped magnetic field to deflect the electron beam in the longitudinal direction of the screen, the electron beam passing hole of the shadow mask is elongated in the longitudinal direction of the screen, Shadow mask The vertical length of the electron beam passing hole is called Pv and the horizontal length is called Ph. It characterized in that it satisfies the following expression electron beam passage hole located in the center portion of the shadow mask.

3.0 ≤ Ph / Pv ≤ 3.5

In addition, the electron beam through hole located around the shadow mask is characterized in that the following formula.

2.0 ≤ Ph / Pv ≤ 2.5

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

The present invention relates to a vertical cathode-type color cathode ray tube, the vertical axis of the electron gun as shown in Figure 4, the vertical deflection coils (9a, 9b) and the long axis of the screen to form a pincushion-shaped deflection magnetic field in the short axis direction of the screen And a deflecting device including horizontal deflection coils 10a and 10b for forming a barrel-shaped deflection magnetic field in a direction, and a shadow mask slot having an elongated shape in the long axis direction of the screen.

When the vertical length of the shadow mask slot is called Ph, and the horizontal length is called Pv, the slot located in the shadow mask center portion of the present invention is designed to satisfy the following equation.

3.0 ≤ Ph / Pv ≤ 3.5

In the above formula, when the ratio between the horizontal length and the vertical length of the shadow mask slot is less than 3.0, a satisfactory screen shape does not come out, and the electron beam invades other colors from 3.5, and thus the purity margin falls.

In addition, the slot located around the shadow mask is designed to satisfy the following equation.

2.0 ≤ Ph / Pv ≤ 2.5

In the above formula, when the ratio between the horizontal length and the vertical length of the shadow mask slot in the center is less than 2.0, a satisfactory screen shape does not come out, and the electron beam invades other colors from 2.5 away, resulting in a drop in purity margin.

As described above, the present invention can improve the purity characteristics of the cathode ray tube of the vertical scanning method by defining the horizontal length relative to the vertical length of the shadow mask slot of the color cathode ray tube of the vertical scanning method.

Claims (2)

An electron gun in which three cathodes for generating electron beams of three colors R, G, and B are arranged in a vertical inline, a screen for reproducing color when the electron beam emitted from the electron gun strikes a fluorescent surface, and arranged at a predetermined distance from the screen And a shadow mask to serve as color screening, a vertical coil forming a pincushion magnetic field to deflect the electron beam emitted from the electron gun in the direction of the short axis of the screen, and a barrel type to deflect the electron beam emitted from the electron gun in the direction of the major axis of the screen. In the vertical scanning type cathode ray tube comprising a deflection yoke composed of a horizontal coil forming a magnetic field, The electron beam through hole of the shadow mask is elongated in the screen long axis direction, When the vertical length of the electron beam passing hole is called Pv and the horizontal length is called Ph, The electron beam through hole located in the shadow mask center portion satisfies the following equation, 3.0 ≤ Ph / Pv ≤ 3.5 Up and down scanning cathode ray tube, characterized in that the electron beam through hole located in the periphery of the shadow mask satisfies the following equation. 2.0 ≤ Ph / Pv ≤ 2.5 (delete)