KR100472516B1 - Cathode ray tube - Google Patents

Abstract

A cathode ray tube is disclosed. The present invention relates to a cathode ray tube including a panel having a fluorescent film formed on an inner surface thereof, a shadow mask installed to be spaced apart from the fluorescent film by a predetermined distance, and a shadow mask passing through an electron beam in a predetermined direction, and a shadow mask support fixing the shadow mask. The shadow mask may include a hole having a plurality of electron beam through holes, a bead portion having a predetermined length bent from an edge of the hole and having a thickness smaller than the thickness of the hole, and vertically downward from an end of the bead portion. A skirt portion extending in length is provided. By employing the present invention, there is an advantage in that the skirt portion of the shadow mask is prevented from being opened from the frame and the pore portion is prevented from protruding.

Description

Cathode ray tube {Cathode ray tube}

The present invention relates to a cathode ray tube, and more particularly, to a cathode ray tube having an improved structure of a shadow mask through which an electron beam passes.

A conventional color cathode ray tube uses the principle of a triode, and as shown in FIG. 1, a panel 10 having a fluorescent film formed on an inner surface thereof, and positioned inside the panel 10, is provided with the fluorescent film 11. A shadow mask 20 provided to be spaced apart from each other, a shadow mask supporter 30 fixing the shadow mask, and edges of the panel 10 and sealed to the cone part 41 and the neck part 42. 45 and the electron gun 44 are comprised with the funnel 40 enclosed. Here, the shadow mask supporter 30 having a function for each part spaced apart from the fluorescent film 11 by a portion is coupled to an end of the shadow mask 20 to support the shadow mask 20, and a frame 31. A spring 33 attached to one side of the frame 31 in a direction facing the panel 40 and having a stud pin hole formed therein, and a stud pin attached to one side of the panel 40 and inserted into the spring 33. 34 may be provided. In addition, the inner shield 32 supporting the frame 31 is attached to one side of the frame 31 in the direction of the cone portion 41 of the funnel 40.

As shown in FIG. 2, the shadow mask 20 includes a hole 21 having a plurality of electron beam through holes formed therein, and a bead portion 22 that is bent from an edge of the hole 21 to extend a predetermined length. And a skirt portion 23 extending a predetermined length vertically downward from an end of the bead portion 22. At this time, the thickness of the bead portion 22 is t1, the same as the thickness of the hole portion 21 and the skirt portion 23 and has the same elastic modulus.

The cathode ray tube having the above-described configuration has a shadow mask supported by the frame 31 after the electron beam emitted from the electron gun 44 is deflected by the deflection yoke 45 selectively according to the dice of the fluorescent film 11 ( An image is formed by landing on the fluorescent film 11 after passing through the electron beam passing hole of 20).

As described above, the electron beam that is emitted from the electron gun 44 and landed on the fluorescent film 11 to excite it, that is, the hot electrons, does not pass all of the electron beam through holes of the shadow mask and passes only about 15 to 30%. Therefore, the electron beam that does not pass through the electron beam passing hole collides with the perforations 21 of the shadow mask 20, thereby heating the shadow mask 20 and the frame 31 supporting the shadow mask 20. Doming phenomenon is caused. In the dominant phenomenon of the shadow mask 20, the position of the electron beam through hole formed in the hole 21 of the shadow mask 20 is shifted so that the electron beam emitted from the electron gun is not accurately landed at the fluorescent point of the fluorescent film 11. There is a problem that can not be.

In order to solve such a problem, conventionally, the shadow mask 20 is compensated for the dominant phenomenon of the shadow mask 20 by moving the shadow mask toward or away from the fluorescent film 11 and adjusting the Q value (gap between the fluorescent film and the shadow mask). .

However, when correcting the dominant phenomenon of the shadow mask as described above, since the elastic modulus of the hole 21 and the thickness of the bead 22 is the same, the skirt 23 is spaced apart from the frame 31 according to the deformation amount. Also, since the bead portion 22 having the same elastic modulus as the hole portion 21 does not absorb the deformation amount, the hole portion 21 of the shadow mask 20 bounces more than necessary after passing a proper distance. There is this.

The present invention has been made to solve the above problems, and improves the structure of the shadow mask to absorb the deformation amount of the shadow mask perforations in the bead portion, thereby providing a cathode ray tube in which the skirt portion is not spaced from the frame. There is this.

In order to achieve the above object, the present invention includes a panel in which a fluorescent film is formed on an inner surface, a shadow mask installed at a predetermined interval from the fluorescent film and passing an electron beam in a predetermined direction, and a shadow mask supporter for fixing the shadow mask. The shadow mask relates to a cathode ray tube, wherein the shadow mask includes: a hole having a plurality of electron beam through holes formed therein; a bead portion having a predetermined length bent from an edge of the hole and having a thickness smaller than the thickness of the hole; Characterized in that the skirt portion extending a predetermined length vertically downward from the end.

Hereinafter, an embodiment of a cathode ray tube according to the present invention will be described in detail with reference to the accompanying drawings. 3 is a schematic sectional view showing a cathode ray tube of the present invention, Figure 4 is a schematic cross-sectional view showing the shadow mask of FIG.

The cathode ray tube of the present invention uses a cathode ray radiated from the cathode of the vacuum tube, which is also called a brown tube or a CRT, and is classified into various types according to its use. Referring to FIG. 3, which shows an example, the cathode ray tube includes a panel 110 in which a fluorescent film 111 is coated therein. One surface of the fluorescent film 111 is a metal film (not shown) having a high light reflectance and a good electron transmittance. For example, an aluminum film is attached and maintained at the anode potential, and a glass (not shown) is in contact with the other surface of the fluorescent film. The glass consists of a hard solid that is not crystallized by increasing the viscosity without solidifying a predetermined liquid at a certain temperature. The shadow mask 120 is spaced apart from the inside of the panel 110 by a predetermined interval.

In particular, as shown in FIG. 4, the shadow mask 120 includes a pore portion 121, a bead portion 122, and a skirt portion 123. The hole 121 is divided into a plurality of plane regions in which a plurality of electron beam passing holes through which an electron beam passes, is formed, and the boundary of the divided plane region is bent at a predetermined angle so that the curved surface of the entire hole 121 is continuous. It is preferably formed so as to be discontinuous and arranged radially with respect to the center of the hole 121. In addition, the electron beam through hole formed in the hole 121 may have a variety of shapes, but it is common to use an elliptical shape.

The bead portion 122 extending from the edge of the hole portion 121 is bent at a predetermined angle and its thickness t2 is smaller than the thickness t1 of the hole portion 121, and the elastic modulus is the hole portion 121. Larger than). The method of forming the bead portion 122 having a thickness smaller than the thickness of the pore portion 121 may be a physical method such as bending using a mechanism and a chemical method such as corrosion using etching. In the bead part 122, it is preferable to adjust thickness and elastic modulus by using etching. Because the etching method is used to form a plurality of electron beam through holes in the hole, the bead part 122 can be simultaneously formed when forming the electron beam through holes in the hole. Because.

The skirt portion 123 formed extending from the edge of the bead portion 122 is bent at a right angle. The frame 131 coupled to the skirt 123 to fix the shadow mask has a structure that is bent at a right angle, and the spring 133 is coupled to the skirt 123 in a combined direction.

The spring 131 is made of two materials having different strains according to temperature, and a stud pin hole is formed. The stud pin 134 inserted into the stud pin hole is welded to the inside of the funnel 140 connected to the edge of the panel 110. The funnel 140 includes a cone portion 141 formed in a cone shape and a neck portion 142 formed in a tubular shape at an end thereof. A deflection yoke 145 is attached to the outer circumferential surface of the panel cone portion 141, and an electron gun 144 is mounted inside the panel neck portion 142 to emit an electron beam. Unexplained reference numeral 132 is an inner shield that supports the frame 131.

In the cathode ray tube having the above-described configuration, the electron beam emitted from the electron gun 144 installed inside the funnel 140 is deflected selectively by the flat yoke 145 provided on the outer circumferential surface of the cone portion 141 and passes through the electron beam of the shadow mask. An image is formed by passing through the ball and landing at the fluorescent point of the fluorescent film 111. At this time, the hot electrons that do not pass through the electron beam through hole of the shadow mask heats the pores 121 of the shadow mask 120, but because the self-compensation in the bead portion 122 having a high modulus of elasticity is transferred to the skirt portion 123 It doesn't work. Therefore, the gap between the skirt 123 and the frame 131 does not occur, and the shadow mask 120 does not protrude beyond a predetermined size.

The cathode ray tube has the following effects.

First, it prevents the skirt from being separated from the frame.

The shadow mask 120 of the cathode ray tube has a smaller thickness than the bead portion 122 than the pore portion 121, but has a large elastic modulus, so that deformation of the pore portion 121 due to heating is absorbed from the bead portion 122. Since the skirt 123 is not transmitted to the skirt 123, the skirt 123 may be prevented from being spaced apart from the frame 131.

Second, to prevent the protruding part of the perforations.

The hot electrons that do not pass through the electron beam passing hole of the shadow mask of the cathode ray tube heat the pores and cause deformation of the pores. However, in the present invention, since the elastic modulus of the beads is greater than that of the pores, the permissible latitude of the pores becomes larger. There is an advantage that can prevent protruding beyond the predetermined size in the front direction.

Third, to prevent color bleeding.

Since the position of the shadow mask can be stably maintained for the above reasons, the position of the electron beam passing hole and the transmission position of the electron beam can be secured according to the original design, thereby preventing color bleeding caused by the combed and transmitted electron beam. There is.

Although the above-described present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary and 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 should be defined only by the appended claims.

1 is a schematic sectional view of a typical cathode ray tube.

2 is a schematic cross-sectional view showing a conventional shadow mask fixed to a frame.

3 is a schematic sectional view showing a cathode ray tube of the present invention.

Figure 4 is a schematic cross-sectional view showing a shadow mask fixed to the frame in the present invention.

<Explanation of Signs of Major Parts of Drawings>

10, 110 ... panel 11, 111 ... fluorescent film

20, 120 ... shadow mask 21, 121 ... pore

22, 122 ... Bead part 23, 123 ... Skirt part

30, 130 ... shadow mask support

31, 131 ... frame 32, 132 ... inner shield

33, 133 ... Spring 34, 134 ... Stud pins

41, 141 ... Konbu 42, 142 ... Neck

44, 144 ... electron gun 45, 145 ... deflection yoke

t1, t2 ... bead thickness

Claims (1)

In the cathode ray tube comprising a panel having a fluorescent film formed on the inner surface, a shadow mask which is provided to be spaced apart from the fluorescent film by a predetermined distance and passes through the electron beam in a predetermined direction, and a shadow mask support for fixing the shadow mask. The shadow mask includes a hole formed with a plurality of electron beam through holes, A bead portion extending from an edge of the hole portion and bent at a predetermined angle, the thickness of which is smaller than the thickness of the hole portion, and an elastic modulus is larger than the thickness of the hole portion; And a skirt portion extending a predetermined length vertically downward from an end of the bead portion.

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