KR200173429Y1 - Spring for color cathode ray tube - Google Patents

Abstract

The present invention relates to a spring for a cathode ray tube, in particular to increase the strength by changing the structure of the spring.

In order to achieve this purpose, the present invention is composed of a high expansion material and a low expansion material, and the welded portion welded to the frame surface, the compensation portion for compensating the heat deformation of the shadow mask, and the spring for the color cathode ray tube with a stud pin mounting portion In the bent portion between the welded portion and the compensation portion and between the compensation portion and the stud pin mounting portion is formed, the bent portion is provided with a reinforcing member for increasing the rigidity.

Description

Spring for Color Cathode

The present invention relates to a spring for a color cathode ray tube, and more particularly, to a structure of a spring that serves as a support for fixing a mask frame structure to a panel surface and corrects a thermal displacement of a shadow mask by an electron beam to an initial position.

As shown in FIG. 1, a general color cathode ray tube is fused to a panel 2 having R, G, and B fluorescent films 1 coated on an inner surface thereof, and fused to a rear end of the panel 2 to form a cathode ray tube. A funnel (3) for maintaining a vacuum state, an electron gun (5) enclosed in the neck portion (4) of the funnel (3), and an electron beam (6) radiated from the electron gun (5) are fluorescent films (1). A deflection yoke 7 for deflecting the electron beam 6 so as to strike the entire surface of the frame; a frame 8 supported inside the panel 2; and an electron beam 6 supported by the frame 8; Shadow mask (9) to serve as a color screening of the), and the frame (8) is composed of a spring (11) for fixing to the stud pin (10) mounted on the panel (2) surface.

As shown in FIG. 2, the spring 11 is composed of two kinds of materials having different thermal expansion coefficients, that is, a high-expansion material 12 and a low-expansion material 13, which are welded to the frame 8. The support part 14, the compensation part 15 which compensates for the amount of heat deformation of the shadow mask 9, and the stud pin support part 16 mounted to the stud pin 10 were comprised.

Reference numeral 17 is a frame welding point, and 18 is a stud pin hole.

When power is applied to the conventional cathode ray tube configured as described above, the electron beam 6 is radiated from the electron gun 5 inserted into the neck portion 4, and about 20% of the electron beam 6 is opened by the shadow mask 9. It passes through and reaches the fluorescent film 1, and reproduces an image.

The remaining 80% of the electron beam 6 collides with the shadow mask 9, as shown in FIG. 3, thereby causing the shadow mask 9 to thermally expand and doming phenomenon (the shadow mask swells in the fluorescent film direction). In this case, the landing error ΔL of the electron beam 6 passing through the shadow mask 9 is generated due to the dominant phenomenon of the shadow mask 9, thereby degrading the quality of the cathode ray tube.

The bimetal spring composed of the high expansion material 12 and the low expansion material 13 is used to compensate for the dominant phenomenon of the shadow mask 9.

As shown in FIG. 4, the operation of the spring 11 utilizes a property in which the high expansion material 12 having a large thermal expansion coefficient thermally expands and bends toward the low expansion material 13, that is, a bimetal action. The heat from the shadow mask 9 is increased. When the spring 11 is received, the spring 11 changes from a solid line to a dotted line to compensate for the thermal deformation of the shadow mask 9, and by reducing the landing error ΔL of the electron beam 6 with the compensation amount Δq, the cathode ray tube This will improve the picture quality.

However, in such a conventional color cathode ray tube, a spring made of a high expansion material and a low expansion material has a weak rigidity, so the bimetal action occurs too much, which causes a large amount of landing change of the electron beam, thereby degrading the reliability of the product. .

The present invention aims to increase the rigidity of the spring by forming a reinforcing member (for example, a bead) in the bent portion connecting each support portion and the compensation portion of the spring.

1 is a longitudinal cross-sectional view of a typical cathode ray tube.

2 is a spring for a conventional color cathode ray tube,

(A) The top view.

(B) is front view.

Figure 3 is a cross-sectional view showing the dominant phenomenon of the shadow mask for conventional color cathode ray tube.

Figure 4 is an operation of the spring for the conventional color cathode ray tube.

5 is a spring for a cathode ray tube of the present invention,

(A) The top view.

(B) is front view.

*** Explanation of symbols for the main parts of the drawing ***

101: spring 102: high expansion material

103: low expansion material 104: frame support

105: compensation unit 106: stud pin support unit

107, 107 ': bend portion 108, 108': reinforcing member

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

5 shows a spring for a cathode ray tube according to the present invention, which supports a frame on a panel surface, and a spring 101 for compensating for thermal deformation of a shadow mask by the impact of an electron beam is a high expansion material 102 and a low expansion material. The expansion coefficient difference of 103 is used to include a frame support 104 welded to the frame, a compensator 105 for compensating for thermal deformation of the shadow mask, and a stud pin support 106 mounted to the stud pin. .

A first bent part 107 is formed between the frame support part 104 and the compensator 105, and a second bent part 107 ′ between the compensator 105 and the stud pin support part 106. The first bent portion 107 and the second bent portion 107 ′ are provided with reinforcing members (eg, beads) 108 and 108 ′ to increase the rigidity of the spring.

The reinforcing members 108 and 108 'are located on the inner side of the bent portions 107 and 107' to increase rigidity.

When described in detail with reference to the accompanying drawings the operation of the present invention configured as described above are as follows.

First, 20% of the electron beam emitted from the electron gun passes through the shadow mask to participate in the reproduction of the image, and the remaining 80% strikes the shadow mask surface, causing the shadow mask to dope.

The spring 101 connecting the frame and the panel surface compensates for the dominant phenomenon of the shadow mask by using a difference in expansion ratio between the high expansion material 102 and the low expansion material 103, that is, by a bimetallic action. In the spring 101, the strength of the spring 101 is small so that the amount of change in landing of the electron beam formed on the fluorescent film is increased.

An embodiment according to the present invention is a reinforcing member in each of the bent portions 107, 107 'formed between the frame support portion 104 and the compensation portion 105, between the compensation portion 105 and the stud pin support portion 106. 108 and 108 ′ are formed to increase the strength of the spring 101.

In particular, the reinforcing members 108 and 108 'are positioned on the inner side of the bent portions 107 and 107' to obtain higher strength.

As such, by increasing the strength of the spring 101, the bending of the mask frame structure due to the mask strike of the electron beam is prevented, thereby reducing the amount of landing change of the electron beam formed on the fluorescent film.

In addition, the same effect can reduce the width and length of the material in the initial design of the spring (101).

As described above, according to the present invention, the strength of the spring is increased by forming a reinforcing member at the bent portion of the spring, thereby preventing warpage of the mask frame structure, thereby reducing the amount of change in landing of the electron beam.

Claims (2)

In a spring for a color cathode ray tube comprising a high expansion material and a low expansion material, a welded portion welded to the frame surface, a compensating portion for compensating for the heat deformation of the shadow mask, and a stud pin mounting portion, The bent part is formed between the welding part and the compensating part and between the compensating part and the stud pin mounting part. The bent portion is a spring for the color cathode ray tube, characterized in that provided with a reinforcing member for increasing the rigidity. The method of claim 1, The reinforcing member is a spring for the color cathode ray tube, characterized in that located on the inner surface of the bent portion.