KR100319084B1 - Color cathode ray tube - Google Patents

Abstract

A color cathode ray tube in which the structure of a hook spring is improved so as to prevent excessive correction when correcting mislanding due to thermal expansion of a shadow mask is disclosed. The fixed piece portion 122 of the hook spring 120 is bent at a predetermined angle? ₂ with respect to the tube axis 130 and the movable piece portion 121 is bent from the connecting portion with the fixed piece portion at a predetermined angle? and the first moving part a second movable part (121b) are again bent toward the panel, (121a), and a predetermined angle (θ ₃₎ on the tube axis from the first movable part is bent toward a (θ ₁₎ panels, from the second movable portion And a fixing portion 121c that is bent in a direction opposite to the bending direction of the first and second movable portions and coupled with the stud pin 117. [ Here, θ ₁ is smaller than θ ₃ .

Description

Color cathode ray tube

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color cathode ray tube, and more particularly, to a color cathode ray tube improved in structure of a hook spring for correcting mis-landing of an electron beam due to a dumping phenomenon of a shadow mask.

In general, the color cathode ray tube comprises a substantially rectangular panel 10, a vacuum container made of a funnel 11 and a neck 12 as shown in FIG. 1, , A phosphor screen 14 made of a stripe-shaped phosphor layer which emits light in green and blue respectively and a neck 12 is arranged in a line along the horizontal axis of the panel 10 and three Called in-line type electron gun 13 that emits the electron beam 15).

A shadow mask 18, which supports the periphery of the frame 16 and has a plurality of slit holes arranged in the vertical direction and a plurality of the vertical alignments arranged in the horizontal direction at a position facing the phosphor screen 14, (Not shown). The hook spring (20) is coupled to a stud pin (17) formed at one end on the inner surface of the panel (10).

The electron beams 15 in the three inline arrangements are deflected by the deflecting device 9 outside the funnel 11 to scan a rectangular area corresponding to the rectangular panel 10, So that the color image is reproduced by landing on the phosphor layer of the stripe shape.

The electron beam 15 may not be correctly landed on the stripe-shaped phosphor layer due to the influence of an external magnetic field such as geomagnetism. In order to prevent the color purity of the reproduced image from being inferior, (Not shown).

In such a color cathode-ray tube, the effective electron beam passing through the shadow mask 18 among the electron beams 15 emitted from the electron gun 13 is 1/3 or less, and the remaining electron beams are irradiated to the shadow mask 18, The shadow mask 18 is heated and thermally expanded.

The shadow mask 18 is generally formed of a thin plate having a thickness of about 0.2 mm, whose main component is iron having a relatively large thermal expansion coefficient, and a peripheral portion thereof is fixed to a rigid frame 16 having a thickness of about 1 mm.

The electron beam 15 irradiated on the shadow mask 18 is heated and expanded to change the distance between the phosphor screen 14 and the shadow mask 18. When the gap is greater than the allowable value, Is not correctly landed on the phosphor of stripe shape, so-called " mislanding " occurs, resulting in poor color purity.

In order to prevent this, the frame 16 is supported on the stud pin 17 formed on the inner wall of the panel through the hook spring 20 as shown in FIGS. 1 and 2, so that the entire shadow mask 18 And is moved in the direction of the screen 14 so as to be within a range that allows the change of the interval to be substantially allowed.

The hook spring 20 has a structure in which the fixed portion 22 fixed to the frame 16 and the movable portion 21 engaged with the stud pin 17 are joined together in a clamping manner as shown in FIG. The movable part 21 has a structure bent once at a predetermined angle (a) with respect to the tube axis 30. However, since the bent portion b of the movable portion 21 has a once bent structure, the angle a must be increased to 6 to 10 degrees or more, which is a problem in correction of mislanding.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a color cathode ray tube which is improved in structure so as to accurately correct mislanding of an electron beam as a simple structure.

According to an aspect of the present invention, there is provided a fluorescent lamp comprising a substantially rectangular panel, a vacuum container in which a funnel and a neck are continuously connected, a phosphor screen formed on an inner surface of the panel, A frame for supporting the shadow mask; a fixing piece portion having one end fixed to the frame; a fixing piece portion having one end connected to the fixing piece portion and the other end And a hook spring having a movable piece portion coupled to a stud pin formed on the inner surface of the panel,

The fixed piece portion of the hook spring is bent at a predetermined angle with respect to the tube axis,

The movable piece portion includes a first movable portion bent from the connecting portion with the fixed piece portion to the panel side at a predetermined angle with respect to the axis of the cathode ray tube and a second movable portion bent from the first movable portion toward the panel side at a predetermined angle with respect to the tube axis And a fixing part bent in a direction opposite to the bending direction of the first and second movable parts from the second movable part and engaged with the stud pin.

According to the feature of the present invention, the movable piece portion of the hook spring is formed by bending the first movable portion, the second movable portion and the fixing portion at a predetermined angle, so that the bending angle of the first movable portion can be made smaller than that of the conventional hook spring There is an effect that over correction due to the shadowing phenomenon of the shadow mask can be prevented.

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

Since the overall essential structure of the color cathode ray tube according to the present invention is the same as that of the conventional example, detailed description thereof will be omitted.

FIG. 3 is an enlarged cross-sectional view of a main portion of a color cathode ray tube according to the present invention. The phosphor screen 114 is formed of a stripe-shaped phosphor or the like, which is radiated in red, green, and blue, respectively, on the inner surface of the substantially rectangular panel 100.

A shadow mask 118, in which a plurality of slit-shaped holes are arranged in the vertical direction and a plurality of the vertical arrays are arranged in the horizontal direction, is provided at a position close to the phosphor screen 114, And the frame 116 is fixed to the stud pin 117 formed on the inner surface of the panel 100 by the hook spring 120. [

4, the hook spring 120 includes a fixed piece 122 whose one end is fixed to the frame 116 and a fixed piece 122 whose one end is connected to the fixed piece 122 and the other end is connected to the inner surface of the panel 100 And a movable piece 121 coupled to the formed stud pin 117. The fixed piece portion 122 of the hook spring is bent at a predetermined angle (? ₂ ) with respect to the tube axis 130. The movable piece 121 includes a first movable part 121a bent toward the panel side at a predetermined angle? ₁ relative to the tube shaft 130 at a portion connected to the fixed piece 122, A second movable part 121b bent from the second movable part 121b at a predetermined angle? ₃ with respect to the tube axis 130 toward the panel; and a second movable part 121b which is bent in a direction opposite to the bending direction of the first and second movable parts And a fixing portion 121c which is bent and engaged with the stud pin 117. [

The bending angle? ₁ of the first movable part 121a is smaller than the bending angle? ₃ of the second movable part 121b.

On the other hand, the correction amounts of the shadow mask 118 and the frame 116 in accordance with the thermal expansion of the shadow mask 118 are as follows.

The correction amount A of the shadow mask 118 = A _m · L _m · t _m and the correction amount B of the frame 116 = α _f · L _f · t _f .

Where α _m; Thermal expansion coefficient of the shadow mask, t _m; Temperature rise of shadow mask, L _m ; The distance from the tube axis to the tip of the shadow mask, a _f ; L _f is the distance from the tube axis to the end of the frame, and t _f is the temperature rise of the frame.

The hook spring 120 is elastically deformed by the shadow mask 118 and the frame 116 which are corrected in accordance with the thermal expansion of the shadow mask 118. Here, the first movable part 121 of the movable piece 121 The bending angle &thetas; ₁ of the bending portions 121a is preferably limited within a range of 6 to 10 degrees, and the bending angle &thetas; ₁ is set by the following expression.

The elastic coefficient of the fixed piece 122 is K ₂ and the bending angle of the first movable piece 121a is θ ₁ and the elastic coefficient of the movable piece 121 of the hook spring 120 is K ₁ , the amount of displacement of the bending angle θ _2, the movable piece 121, displacement of ΔS, the fixing piece 122 of ΔT, ΔH = ΔS + ΔT, the tube axis (130) direction, the amount of movement of the shadow mask 118 and the frame 116, Is M,

The bending angle &thetas; ₁ of the first movable portion

tanθ = ₁ is set by a _{(K 1 + K 2) M} / (ΔT · K 1) + K 1 · tanθ 2 / K 2.

Here, ΔS = (K ₂ · ΔH) / (K ₁ + K ₂ ) and ΔT = (K ₁ · ΔH) / (K ₁ + K ₂ ).

And M = ΔS · tan θ ₁ - ΔT · tan θ ₂ = tan θ ₁ / K ₁ - tan θ ₂ / K ₂ · K ₁ K ₂ / K ₁ + K ₂ · ΔH.

The color cathode ray tube according to the present invention having the hook spring 120 having the above-described structure can be used in combination with the shadow mask phenomenon of the shadow mask 118 by the electron beam emitted from the electron gun, The hook spring 120 is moved by a predetermined amount while elastically deforming the hook spring 120 due to the thermal expansion of the hook spring 120, thereby correcting mis-landing of the electron beam.

The movable piece 121 of the hook spring 120 is composed of the first and second movable parts 121a and 121b and the fixed part 121c bent at a predetermined angle so that the bending angle of the first movable part 121a in a conventional hook spring above the θ ₁₎ it is able to be made smaller than it is possible to prevent the correction when the correction of the miss landing.

The present invention as described above provides a color cathode ray tube capable of minimizing mislanding.

FIG. 1 is a schematic cross-sectional view of a conventional color cathode-ray tube,

FIG. 2 is an enlarged sectional view of the main part of FIG. 1,

FIG. 3 is an enlarged cross-sectional view of a main portion of a color cathode ray tube showing an embodiment of the present invention,

FIG. 4 is a cross-sectional view of the hook spring of FIG. 3,

FIG. 5 is a schematic diagram illustrating the operation of an embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

100 panel 114 screen

116 ... frame 117 ... stud pin

118 Shadow mask 120 Hook spring

Claims (3)

A phosphor screen formed on an inner surface of the panel and made of a vacuum container in which a substantially rectangular panel, a funnel, and a neck are continuously connected to each other; and an electron emitter which emits an electron beam embedded in the neck, And a shield pin which is connected to one end of the fixing piece and the other end of which is connected to a stud pin formed on the inner surface of the panel, A color cathode ray tube comprising a hook spring having a movable piece portion to be coupled, The fixed piece portion of the hook spring is bent at a predetermined angle with respect to the tube axis, The movable piece portion includes a first movable portion bent from the connecting portion with the fixed piece portion to the panel side at a predetermined angle with respect to the axis of the cathode ray tube and a second movable portion bent from the first movable portion toward the panel side at a predetermined angle with respect to the tube axis And a fixing part bent in a direction opposite to a bending direction of the first and second movable parts from the second movable part and coupled with the stud pin. The method according to claim 1, Wherein the bending angle of the first movable part is smaller than the bending angle of the second movable part. The method according to claim 1, The hook spring movable modulus of K _1, the elastic modulus of the fixing piece K _2, claim 1 ΔS the amount of displacement of the bending angle of the bending angle θ _1, the fixing piece θ _2, the movable piece of the movable part, the fixing piece of the piece of DELTA T, DELTA H = DELTA S + DELTA T, and the amount of movement of the shadow mask and frame in the tube axis direction is M, The bending angle &thetas; ₁ of the first movable portion _{tanθ 1 = (K 1 + K} 2) M / (ΔT · K 1) + K 1 tanθ color cathode ray tube, characterized in that which is set to ₂ / K _2.