KR100261122B1 - Shadow mask - Google Patents

Abstract

PURPOSE: A shadow mask is provided to enhance a strength of a shadow mask by forming a multitude of beading portion on a non-opening portion. CONSTITUTION: A shadow mask comprises an opening portion(31), a non-opening portion(32), and a skirt portion(33). The opening portion(31) is formed with a multitude of electron beam penetrating hole. The non-opening portion(32) is extended along an edge of the opening portion(31). The skirt portion(33) is bent from an edge of the non-opening portion(32) to a vertical direction. The skirt portion(33) is fixed to a frame. A multitude of beading portion(34) is formed on the non-opening portion(32). The beading portion(34) has a groove having the shape of V.

Description

Shadow mask

The present invention relates to a shadow mask, and more particularly, to a shadow mask having an improved beading portion formed in the non-perforated portion of the shadow mask.

Typically, a cathode ray tube (hereinafter referred to as a CRT) includes a color cathode ray tube (color CRT) and a monochrome cathode ray tube (mono-chrome CRT), but a color cathode ray tube occupies most of the current. Most of them are colored cathode ray tubes of shadow mask type.

The shadow mask method is provided with a shadow mask in which a plurality of electron beam through holes are formed to be spaced apart from the fluorescent film on the inner surface of the panel by a predetermined distance, and the electron beam emitted from the electron gun excites the phosphor of the fluorescent film through the electron beam through holes to prevent other colors from emitting. That's the way.

1 illustrates an example of a cathode ray tube 10 of a conventional shadow mask method.

Referring to the drawings, the cathode ray tube 10 is provided with a panel 11 formed on the inner surface of the fluorescent film 11a that emits light in three colors, and an electron gun (an electron gun) is formed at the neck portion 15 at the end of the panel 11. The funnel 14 in which the electron gun 16 is embedded is sealed.

The shadow mask 12 having a plurality of electron beam through holes is welded to the frame 13 and spaced apart from the fluorescent film 11a by a predetermined distance, and the frame 13 is provided on the inner surface of the panel 11. A supporting stud pin 18 is fixed. In addition, an inner shield 19 is provided on the side of the frame 13 to shield and control the trajectory of the electron beam 16a, and the cone of the funnel 14 is scanned by the electron gun 16. Deflection yokes 17 are provided for deflecting the electron beams 16a of (R), green (G) and blue (B) colors.

FIG. 2 shows a conventional shadow mask 20 having a color discrimination function so that the electron beam 16a scanned from the electron gun 16 in the cathode ray tube 10 is accurately landed on each fluorescent film 11a.

Referring to FIG. 2, the shadow mask 20 includes a hole 21 having a plurality of electron beam through holes 21 a, a hole 22 extending a predetermined width from an edge of the hole 21, The skirt 23 is bent in a direction perpendicular to the edge of the non-perforated part 22. In addition, the non-perforated part 22 is formed with a beading portion (beading, 24) that can absorb the thermal expansion amount of the shadow mask (20). Here, the beading portion 24 is a structure formed continuously along the non-perforated portion 22 of the shadow mask 20.

In the cathode ray tube configured as described above, the electron beam scanned from the electron gun 16 is deflected by the deflection yoke 17 according to the scanning position of the fluorescent film 11a. Thereafter, the light is passed through the electron beam through hole 21a of the shadow mask 20 to be landed on the fluorescent film 11a to form one pixel, and the pixels are gathered to form a screen.

However, the electron beam passes through the perforations 21 of the shadow mask 20 in which the plurality of electron beam through holes 21a are formed, of which only 15 to 30 percent of the electron beam passes. The electron beam that does not pass through the hole 21 may collide with a portion where the electron beam through hole 21a of the shadow mask 20 is not formed, or part of the electron beam that has passed through the electron beam through hole 21a may also be a fluorescent film. Reflected from the fluorescent color of 11a, the shadow mask 20 is heated.

Therefore, the shadow mask 20 is distorted or moved in the shape of the electron beam through hole due to thermal expansion by scanning of the electron beam, so that the shadow mask 20 cannot be accurately scanned into the phosphor. In addition, the shadow mask 20 has a beading portion 24 is continuously formed in the unperforated portion, the cross section of the beading portion 24 has a predetermined curvature, so there is a limit to improve the structural strength of the shadow mask 20 There is. In particular, as the trend of the cathode ray tube in recent years is directed toward the enlargement, the relative structural strength due to the enlargement of the shadow mask 20 is weakened. Such a weakening of the structural strength may cause a howling phenomenon by vibration or shock applied from the outside.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a shadow mask having enhanced strength by forming a plurality of bead portions spaced at predetermined intervals on the non-perforations.

1 is a cross-sectional view showing a conventional cathode ray tube,

2 is a perspective view showing a conventional shadow mask,

Figure 3a is a perspective view showing a shadow mask according to the present invention,

Figure 3b is an enlarged perspective view of a partial ablation showing a state in which the bead portion is formed in the no void of the shadow mask according to the invention.

<Brief description of symbols for the main parts of the drawings>

10. Cathode ray tube 11. Panel

11a. Fluorescent film 12,20,30. Shadow mask

13. Frame 14. Funnel

15. Neck part 16. Electron gun

17. Deflection yoke 18. Stud pins

19. Inner Shield 21,31. Perforation

21a, 31a. Electron Beam Passing Holes 22,32. No study

23,33. Skirt section 24,34. Beading part

In order to achieve the above object, the shadow mask of the present invention includes a hole formed with a plurality of electron beam through holes, a non-hole extending in a predetermined width from the edge of the hole, and bent in a vertical direction from the edge of the non-hole. A shadow mask provided with a skirt portion, characterized in that a plurality of beading portion is formed intermittently along the short side and long side of the shadow mask on the non-perforated portion.

The beading portion of the present invention is v-shaped in cross-sectional shape, it is preferable to form a round portion at each corner of the beading portion.

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

3A illustrates a shadow mask 30 according to the present invention, and FIG. 3B illustrates a state in which the beading part 34 is formed in the non-weather portion 32 of the shadow mask 30 according to the present invention.

3A and 3B, the shadow mask 30 has a hole portion 31 having a plurality of electron beam through holes 31a formed therein, and a hole portion extending in a predetermined width along an edge of the hole portion 31. And a skirt portion 33 that is bent in a direction perpendicular to the edge of the non-porous portion 32 and fixed to the frame (see FIG. 1, 13).

Here, the beading portion 34 is capable of absorbing the dominant amount due to the electron beam 16a scanned from the electron gun 16 embedded in the neck portion 15 shown in FIG. Is formed.

More specifically, a plurality of beading portions 34 are intermittently formed on the non-holes 32 along the short and long sides of the shadow mask 30. The beading portion 34 is a structure having a groove having a V-shaped cross section, and is formed on the non-porous portion 32 at predetermined intervals at equal intervals.

At this time, the beading portion 35 is preferably formed with a rounded portion (34a) in the corner, which is smooth (smooth) the angular edge in order to prevent the tearing phenomenon during the forming of the shadow mask (30) (forming) To do that.

In the cathode ray tube configured as described above, the electron beam scanned by the electron gun 16 embedded in the neck portion 15 is deflected by the deflection yoke 17 according to the scanning position of the fluorescent film 11a, and thus the electron beam passing hole ( 31a) passes through the hole 31 of the shadow mask 30 is formed. The electron beam passing through the hole 31 is landed on the fluorescent film 11a emitting three colors, thereby forming a single pixel, and the pixels gather to form a screen.

In this case, the shadow mask 30 having a unique thermal expansion coefficient is expanded due to the electron beam hitting the portion where the electron beam through hole 31a is not formed. That is, since the skirt 33 of the shadow mask 30 is fixed to the frame 13, the shadow mask 30 is thermally expanded toward the panel 11 on which the fluorescent film 11a is formed.

Thus, when the shadow mask 30 is deformed, the beading part 34 formed on the non-perforated part 32 has three surfaces bonded to each other to form a V-shaped groove, and a short side part and a long side part of the shadow mask 30 are formed. Therefore, since the structure is intermittently installed at a predetermined interval, the structural strength is improved.

As described above, the shadow mask of the present invention has a large cross-sectional coefficient by forming a plurality of beading portions spaced apart from each other at predetermined intervals. Therefore, even if the thickness of the shadow mask itself is reduced, the strength is enhanced, and the howling phenomenon can be suppressed.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. . Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (3)

In a shadow mask comprising a hole portion formed with a plurality of electron beam through holes, a hole portion extending a predetermined width from the edge of the hole portion, and a skirt portion bent in the vertical direction from the edge of the hole portion, And a plurality of beading portions intermittently formed along the short side and long side of the shadow mask on the non-perforated portion. The method of claim 1, The shadowing portion of the bead portion is characterized in that the cross-sectional shape of the V-type. The method of claim 1, The shadow mask, characterized in that to form a round portion at each corner of the beading portion.