KR100257717B1 - Mask frame of cathode ray tube - Google Patents

Abstract

PURPOSE: A mask frame of cathode ray tube is provided to improve device efficiency, convergence characteristics and purity characteristics to be emitted from electron gun by making thickness of mask frame thin. CONSTITUTION: An electron beam emitted from electron gun passes through shadow mask installed at the inner side of panel and is made a landing on fluorescent film, and then a desired image is realized in cathode ray tube. Inner shield to shied above shadow mask and terrestrial magnetic field is installed by welding and clip separately. Standing upright part(20b) parallel with proceeding direction of electron beam is formed at facing surface part(20a) formed with penetration hole that electron beam can pass through. Rib(24) adjacent to above the facing surface part(20a) and the standing upright part(20b). Above rib is of flat plate and is vertical against the facing surface part(20a) and the standing upright part(20b).

Description

Mask frame of cathode ray tube

The present invention relates to a cathode ray tube, and more particularly, to a mask frame of a cathode ray tube supporting a shadow mask through which an electron beam emitted from an electron gun passes and an inner shield for shielding a geomagnetic field from the inside of the panel.

The cathode ray tube displays a predetermined image and an icon by causing the electron beam emitted from the electron gun to converge and be landed on the corresponding phosphors of R, G, and B by employing a shadow mask.

The inside of the cathode ray tube is provided with a mask frame having a support spring, the mask frame is suspended by the support spring is inserted into the stud pins provided on the inner surface of the panel forming the cathode ray tube. The mask frame is welded to the mask frame to converge the electron beam emitted from the electron gun, and an inner shield for shielding the geomagnetic field is mounted by a clip.

3 shows a conventional mask frame.

The mask frame is manufactured by pressing a cold rolled steel sheet, and an opening portion 10c through which an electron beam emitted from an electron gun passes is formed in the facing portion 10a corresponding to the inner surface of the panel, and the facing portion 10a. The upright part 10b is formed in the front-end | tip part of parallel to the tube axis direction through which an electron beam passes. Since the mask frame 10 needs to be supported so that the shadow mask can maintain its original shape, a steel plate having a thickness of about 0.8 to 1.6 mm is used depending on the type of cathode ray tube.

However, since the mask frame is usually made of a steel sheet, the magnetic field is affected by the geomagnetic field from the earth's south pole to the north pole, which bends the path of the electron beam emitted from the electron gun to the fluorescent film on the inner side of the panel. When the electron beam is landing, it causes a decrease in the purity characteristic and the convergence characteristic. In particular, since the size of the geomagnetic field is increased in proportion to the thickness of the metal material, the thickness of the geomagnetic field should be thinner. However, thinning the thickness of the mask frame is disposed in front of and supporting the shadow mask.

In order to solve such a conventional problem, an object of the present invention is to provide a mask frame for a cathode ray tube which can reduce the influence of a geomagnetic field, improve device efficiency, and improve purity and convergence characteristics.

In order to achieve the above object, the present invention provides a cathode ray tube that implements a desired image by passing an electron beam emitted from an electron gun through a shadow mask provided on an inner surface of a panel and landing on a fluorescent film. A shielding inner shield is provided by welding and a clip, respectively, and an upright portion parallel to the traveling direction of the electron beam is formed in a facing portion where a through hole through which the electron beam can pass is formed, and the bead is in contact with the facing portion and the upright portion. It provides a mask frame for the cathode ray tube is installed.

Accordingly, the thickness of the mask frame can be reduced, thereby reducing the influence of the geomagnetic field, improving the purity characteristics, and improving the convergence of the electron beam.

1 is a cross-sectional view schematically showing a cathode ray tube equipped with a mask frame according to the present invention.

Figure 2 is a perspective view showing a mask frame according to the present invention

3 is a perspective view showing a conventional mask frame

Explanation of symbols on the main parts of the drawings

20: mask frame 20a: facing portion

20b: upright part 20c: opening part

21: Bead 24: Rib

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

As shown in FIG. 1, the mask frame 20 according to the present invention is installed inside the cathode ray tube forming the exterior of the panel 2 and the channel 12, and the support spring 8 is formed on the outer surface of the mask frame. ), The support spring 8 is inserted into the stud pin 10 provided on the inner surface of the panel and suspended. In this mask frame, a shadow mask 14 for converging the electron beam emitted from the electron gun is welded, and an inner shield 6 for shielding the geomagnetic field is mounted by the clip 4.

Such a mask frame is produced by pressing a cold rolled steel sheet, and as shown in FIG. 2, an opening 20c through which an electron beam emitted from an electron gun can pass is provided in the facing portion 20a corresponding to the inner surface of the panel. The upright part 20b is formed in the front-end | tip part of the facing part 20a parallel to the tube axis direction through which an electron beam passes. Here, the facing portion 20a and the upright portion 20b use a steel plate having a thickness of about 0.5 mm in accordance with the characteristics of the present invention.

On the other hand, a bead 21 protrudes on the inner side where the facing portion 20a and the upright portion 20b are in contact with each other. In addition to the beads 21, ribs 24 which maintain the shape of the mask frame are installed so as to be perpendicular to the facing portion 20a and the upright portion 20b, which are approximately 1 mm thick. Is a flat plate.

In the MIFA method in which the shadow mask is provided inside the mask frame, the length of the ribs 24 is properly maintained so that the shadow mask has a welding part that can be welded inside the upright part.

Accordingly, since the overall thickness of the mask frame is thinner than in the related art, the influence of the geomagnetic field can be greatly reduced.

As described above, the cathode ray tube mask frame according to the present invention substantially solves the conventional problems.

That is, since the thickness of the mask frame according to the present invention is made thinner than the conventional one, the influence of the geomagnetic field can be reduced, thereby improving device efficiency, and further improving the convergence and purity characteristics of the electron beam emitted from the electron gun. have.

As a result, an improved image can be obtained as compared with a conventional product, and the reliability of the product can be greatly improved.

Claims (6)

In a cathode ray tube which emits a desired image by passing an electron beam emitted from an electron gun through a shadow mask provided on an inner surface of a panel and landing on a fluorescent film. An inner shield for shielding the shadow mask and the geomagnetic field is provided by welding and a clip, respectively, and an upright portion parallel to a traveling direction of the electron beam is formed in a facing portion where a through hole through which the electron beam can pass is formed. And ribs in contact with the upright portion are installed. The mask frame for a cathode ray tube according to claim 1, wherein the rib is a flat plate. The mask frame for a cathode ray tube according to claim 2, wherein the rib is perpendicular to the facing portion and the upright portion. The mask frame for cathode ray tube according to claim 1 or 3, wherein the length of the rib is smaller than a short axis length of the upright part when the shadow mask is welded to the inner side of the upright part. The mask frame for a cathode ray tube according to claim 1, wherein the facing portion and the upstanding portion have a thickness of about 0.5 mm. The mask frame for a cathode ray tube according to claim 1, wherein the rib has a thickness of about 1 mm.