KR100213784B1 - Cathode-ray tube - Google Patents

Abstract

The present invention relates to a frame structure of a color receiving tube. In particular, the color distortion of the screen is improved by improving the equilibrium state of the force caused by thermal deformation of the frame mounted to the panel by the shadow mask spring during operation of the color CRT. The purpose is to prevent it.

In order to achieve the above object, the present invention is a conventional color receiving tube, the structure of the frame to form the acute angle formed by the mounting surface and the long side of the frame and the acute angle formed by the diagonal of the frame and the long side of the frame the same, The length of the point where the mounting surface is bent to the long side of the frame from the reference point where the face meets the diagonal of the frame and the shortest distance among the parts where the mounting surface is bent to the short side of the frame at the reference point where the mounting surface meets the diagonal of the frame When the length from the reference point to the point bending at the long side is formed differently, and the distance from the reference point to the point bending at the short side is b, the a and b are expressed as Equation 0.9, {16Fasin (θ-90) / 9Fbsinθ} satisfactorily.

Description

Frame Structure of Corner Support Collar

The present invention relates to a frame structure of a corner-supported color CRT, and more particularly, to improve the power equilibrium of a frame caused by thermal deformation of a frame due to an electron beam during operation of the CRT.

The structure of a conventional color CRT includes a panel 1 coated with a phosphor 2 inside and a funnel 3 encapsulated with the panel 1, as shown in FIG. 1 (a) (b). A shadow mask 8 having a plurality of openings 7 formed so that the electron gun 5 embedded in the rear neck portion 4 and the electron beam 6 emitted from the electron gun 5 are selectively transmitted through the fluorescent substance 2. And a frame 9 of a rectangular frame for supporting the shadow mask 8 at a rear of the panel 1 at regular intervals, a protrusion 12 formed at a constant height at four corners of the frame 9, and the protrusion A shadow mask (8) is mounted between the mounting surface (13) formed perpendicularly to the diagonal of the frame (9) with the upper surface of the (12), and between the mounting surface (13) and the stud pins (10) fused to the panel (1). ) And a shadow mask spring 11 supporting the assembly of the frame 9.

The operation of the conventional corner-supported color CRT configured as described above allows the electron beam 6 emitted from the electron gun 5 embedded in the neck portion 4 of the funnel 1 to pass through the opening 7 of the shadow mask 8. At the same time, the screen was landed on the phosphor 2 of the panel 1.

In addition, the temperature of the shadow mask 8 is increased by the electron beam 6, and the temperature is transmitted to the frame 9, so that the frame 9 is expanded by the thermal expansion coefficient of the original material.

Thus, in a rectangular color water tube having a thermal expansion of the frame 9 of 16: 9, the acute angle θ formed between the diagonal of the frame 9 and the upper and lower horizontal edges 14 and 14 'of the frame 9 is 29.36 ⁰ The reference point 16 is a point where the mounting surface 13 of the frame 9 and the diagonal of the frame 9 meet each other, and the upper and lower horizontal sides 14 of the frame are disposed at a straight line distance from the reference point 16. The thermal expansion unit ratio at one point 17 of the part bent at 14 ') and at one point 18 of the part bent at the left and right short sides 15 and 15' of the frame is approximately 16: 9.

In addition, the points 17 and 18 receive a force in a unit ratio of 16: 9 by the expansion unit ratio.

At this time, the distance between the point 17 and the point 18 in the reference point 16 is the same.

Under the above conditions, when the temperature of the frame 9 increases, the force F is generated at points 17 and 18 based on the reference point 16, and the expression 16Fsin θ9Fsin (90-θ) Since θ is smaller than 45 ⁰ as in (1-1), the right-hand force F is imbalanced.

Therefore, the frame 9, in particular the projection 12, is disproportionately changed from the solid line before deformation to the shape of the dotted line after deformation, as shown in Fig. 2, so that the shadow welded to the mounting surface 13 of the frame 9 is shown. The welding surface of the mask spring 11 is distorted, whereby the electron beam 6 landing on the phosphor 2 of the panel 1 does not accurately penetrate the opening 7 formed in the shadow mask 8 on the screen. There was a problem that color distortion occurs.

The present invention has been invented to solve the above problems, to improve the equilibrium state of the force caused by the thermal deformation of the frame during the operation of the corner support collar water tube to prevent color distortion on the screen. There is a purpose.

1 is a structural diagram of a conventional corner support collar water tube, (A) is a cross-sectional view of the corner support collar water tube, (B) is a plan view of the frame of the corner support collar water tube.

FIG. 2 is a detailed view of FIG. 1A.

Figure 3 is a plan view of the frame structure of the present invention the corner support collar water tube.

4 is a detailed view of B of FIG. 3.

* Explanation of symbols for main parts of the drawings

109: frame 112: protrusion

113: mounting surface 114,114 ': long side of the frame

115,115 ': Short side of the frame 116: Reference point

As shown in FIG. 3, the structure of the present invention includes a protrusion 112 formed at a constant height at four corners, and a mounting plane 113 having a square plane perpendicular to the diagonal of the frame 109 as an upper surface of the protrusion 112. In the frame of the corner support-type collar receiving tube is formed, the angle formed by the diagonal of the mounting surface 113 and the frame 109 is formed so as not to be perpendicular, the image of the mounting surface 113 and the frame 109 The acute angles θ formed by the lower long sides 114 and 114 ′ and the diagonals of the frame 109 and the acute angles θ ′ formed by the upper and lower long sides 114 and 114 ′ of the frame 109 are the same.

At the reference point 116 where the diagonal of the mounting surface 113 and the frame 109 meet, the mounting surface 113 is located at the shortest distance among the bending portions of the frame 109 with the upper and lower sides 114 and 114 '. At the reference point 116 where the length a to the point 117 and the diagonal of the mounting surface 113 and the frame 109 meet, the mounting surface 113 is arranged at the left and right sides 115 and 115 'of the frame 109. The length b to the point 118 at the shortest distance among the portions that are bent by) is different from each other, and a and b satisfy the equation 0.9 {16Fasin (θ-90) / 9Fbsinθ}.

When the corner support-type collar water tube of the present invention configured as described above is operated, the temperature of the frame 109 is increased, and thus the frame 109 is thermally expanded by the intrinsic thermal expansion coefficient of the material. ) 114 'and the left and right sides 115 and 115' have a thermal expansion ratio of 16: 9.

Due to the thermal expansion ratio of the frame 109, the points 117 and 118 receive a force in a unit ratio of 16: 9.

At the same time, the right force occurs at points 117 and 118 based on the reference point 116. At this time, the size of the acute angle θ formed between the protrusion 112 of the frame 109 and the upper and lower sides 114 and 114 'of the frame 109 and the upper and lower sides of the frame 109 ( 114) (114 ') and the acute angle θ formed by the diagonal of the frame 109 is the same size, so the equation 16Fsin (θ-90) = 9Fsinθ ------ (2-1),

In addition, at the reference point 116 where the mounting surface 113 and the diagonal of the frame 109 meet, the shortest distance among the portions where the mounting surface 113 is bent into the upper and lower sides 114 and 114 'of the frame 109. At the reference point 116 where the length a to the point 117 at the reference point 117 meets the diagonal of the mounting surface 113 and the frame 109, the mounting surface 113 is at the left and right sides 115 of the frame 109 ( Since the length b to the point 118 at the shortest distance among the portions bent by 115 ') is not the same and satisfies the expression 16Fasin (θ-90) = 9Fbsinθ ------- (3-1), the frame ( As shown in FIG. 4, the heat deformation of 109 is uniformly deformed from the solid line to the dotted line, and at the same time, each point 117 and 118 is generated based on the reference point 116 of the mounting surface 113. The power is balanced.

As described above, in the present invention, when the temperature of the frame increases during operation of the color receiving tube, the right force generated by thermal expansion of the upper and lower sides of the frame and the left and right sides of the frame has an equilibrium state based on the reference point of the mounting surface. By holding it, there is an effect that the color distortion of the screen due to thermal expansion of the frame can be prevented from occurring.

Claims (3)

A shadow mask having a plurality of pores formed thereon so that a fluorescent coating is applied to the inside, a funnel sealed to the panel, an electron gun embedded in the neck portion of the rear of the funnel, and an electron beam emitted from the electron gun selectively penetrates the fluorescent material; A frame of a rectangular frame supporting the shadow mask at regular intervals on the rear of the panel, a protrusion formed at four corners of the frame, a mounting surface formed on an upper surface of the protrusion, a mounting surface of the protrusion and a stud fused to the panel A corner-supported collar receiving tube composed of a shadow mask spring mounted between pins to support an assembly of a shadow mask and a frame, wherein the angle between the mounting surface and the long side axis of the frame and the diagonal line of the frame and the long side axis of the frame The frame structure of the corner support type collar water pipe characterized by forming substantially the same. The frame of claim 1, wherein the length from the reference point where the mounting surface meets the diagonal of the frame to the point where the mounting surface is bent at the longest side of the frame and the mounting surface at the reference point where the mounting surface meets the diagonal of the frame The frame structure of the corner support type collar receiving tube, characterized in that different lengths to the point at the shortest distance among the parts bent to the short side of the. The method of claim 2, wherein when the distance from the reference point to the long side bending point to a and the distance from the reference point to the short side bending point to b is a 0.9 and (16 Fasin (θ-90) / 9Fbsinθ} The frame structure of the corner support collar water tube, characterized in that it is satisfactorily formed.

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