KR19980057671A - Hook spring - Google Patents

Abstract

Start the hook spring. A hook spring comprising a low-expansion metal plate made of a low-expansion material and a high-expansion metal plate bonded to a side of the low-expansion metal plate and made of a relatively high-expansion material to secure the assembly of the shadow mask to the stud pins of the panel. In the present invention, the length of the high-expansion metal plate is relatively larger than the length of the low-expansion metal plate, the metal plates are characterized in that both ends thereof are inclined in a straight line. By employing the present invention, it is possible to improve the bending efficiency of the hook spring to relatively increase the correction amount adjustment size.

Description

Hook spring

The present invention relates to a hook spring of a CRT, and more particularly, to a hook spring whose structure has been improved so that the amount of correction of the spring for fixing the shadow mask assembly to the inside of the CRT panel is greatly increased.

The hook spring is a factor that compensates for the phenomenon that the scanning point of the beam is shifted due to thermal expansion. It is important that this hook spring is configured to bend in equilibrium at the position of its support point so that the landing speed of the beam is accurate while the compensation speed is fast. Specifically, in coupling the shadow mask and the frame supporting the same to the CRT panel, the hook spring, which is the coupling means, should be made of bimetal to sense internal heat more quickly and to shorten the compensation time. The hook spring is made of a bimetal called a bimetal, which is formed by joining two kinds of metals having different coefficients of thermal expansion in one form and rolling them into a plate.

Once power is applied to the color CRT, the shadow mask assembly causes thermal expansion from about 3 minutes to about 90 minutes, resulting in poor landing of the electron beam. Thus, as shown in FIG. The hook spring 20, which is a means for supporting the panel, was manufactured and used as a bimetal. The hook spring 20 is made by contacting the low-expansion metal plate 21 and the high-expansion metal plate 22 is integrally formed, the stud pin is inserted into the hole 23 of the stud pin. One side portion 24 of the hook spring 20 is welded to the frame so that the other side is inclined and coupled to the stud pin.

1 is a cross-sectional view showing the structure of the CRT, showing a shadow mask support structure. That is, the shadow mask assembly 14 welded to the frame 12 is fixed by the combination of the stud pin and the hook spring 11 protruding inside the panel 13. Accordingly, when the shadow mask assembly 14 is coupled to the panel 13, the shadow mask assembly 14 is firmly fixed by the elasticity of the hook spring, and when the power is applied to the CRT, the shadow mask is thermally expanded by the heat and the hook spring 11 at the same time. The thermal deformation of the shadow mask assembly 14 pushes forward as it begins to bend, which is important because the hook spring is bent in an oblique manner as the curvature of the shadow mask assembly 14 is out of the initial state. The thermal deformation occurs in a consistent state. As shown in FIG. 3, the hole of the shadow mask is initially in the x-ray position and then moved to the y point due to thermal expansion, but it is moved to the z position by the bending action of the hook spring. Therefore, the holes coincide within the scanning line range of the beam, so that accurate correction is made.

However, since the hook spring has the same length and thickness as the high-expansion metal plate and the low-expansion metal plate, there is a problem in that the adjustment element of the correction amount is relatively small. This has the disadvantage of reducing the design range of the shadow mask assembly and the hook spring.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a hook spring which can improve the structure of the hook spring to widen the range of correction amount compared with the conventional art.

1 is a cross-sectional view schematically showing a mask support structure of a color brown tube,

Figure 2 is a perspective view schematically showing a conventional hook spring,

FIG. 3 is a diagram illustrating a doming phenomenon of a shadow mask.

4 is a perspective view schematically showing a hook spring according to the present invention.

Explanation of symbols for the main parts of the drawings

30 Hook spring 31 Low-expansion metal plate

32 High expansion metal plate 33 Stud pin hole

34.Welding area

In order to achieve the above object, the present invention is to fasten the assembly of the shadow mask to the stud pin of the panel, a low-expansion metal plate made of a low-expansion material, and a relatively high expansion material bonded to the side of the low-expansion metal plate In a hook spring provided with a high-expansion metal plate made, the metal plates are characterized in that both ends thereof are inclined in a straight line. In another aspect, the length of the high-expansion metal plate is relatively larger than the length of the low-expansion metal plate, the low-expansion metal plate and the high-expansion metal plate is preferably formed integrally. In still another feature, the low-expansion metal plate and the high-expansion metal plate are bent with a constant radius of curvature in the same direction.

According to the characteristic configuration of the present invention, the correction range of the hook spring is widened, there is an advantage that the correction efficiency is relatively increased.

Hereinafter, an embodiment of a hook spring according to the present invention will be described in detail with reference to the accompanying drawings. 4 is a perspective view schematically showing a hook spring according to the present invention.

A predetermined portion of one end of the hook spring 30 is formed with a stud pin insertion hole 33 coupled to the stud pin of the panel, and a welded portion 34 to be welded is formed at the other end. Hook spring 30 according to the present invention for fixing the frame assembly of the shadow mask to the stud pin of the panel, a low-expansion metal plate 31 made of a low-expansion material, and a high-expansion metal plate 32 made of a high-expansion material It is roughly divided into. The high-expansion metal plate 32 is bonded to the side of the low-expansion metal plate 31 and has a relatively large expansion ratio as compared to the low-expansion metal plate 31. The low-expansion metal plate 31 and the high-expansion metal plate 32 are integrally formed, and both ends thereof are inclined in a straight line so that the length of the high-expansion metal plate 32 is larger than that of the low-expansion metal plate 31. do. The low-expansion metal plate 31 and the high-expansion metal plate 32 are formed bent with a constant radius of curvature in the same direction.

The hook spring 30 according to the present invention operates as follows in the shadow mask of the color brown tube.

Although the shadow mask is somewhat different depending on the size of the color CRT, hundreds of thousands of small electron beam through holes are formed over the entire surface, and three electron beams emitted from the electron gun are deflected by the deflection coil, and the electron mask through the shadow mask After passing through, it collides with each color phosphor of the fluorescent film to display one point, and the displayed points gather to form a screen. In this type of color-brown tube, the predetermined screen is displayed, and about 15 to 30% of the electron beam emitted from the electron gun impinges on the fluorescent film through the electron beam through hole of the shadow mask, but the remaining about 70 to 80% The degree of electron beam impinges on the shadow mask so that the shadow mask heats and radiates heat radiation. The emitted heat radiation reflects off the inner surface of the panel and then enters the shadow mask again, so that the shadow mask heats up more and more. As the shadow mask is heated, a thermal expansion, that is, a doming phenomenon occurs, so that the electron beam emitted from the electron gun does not exactly collide with the color phosphor of the fluorescent film, thereby reducing the color purity of the displayed screen. In this case, in addition to thermal expansion of the shadow mask, the hook spring also starts to thermally bend and pushes the shadow mask assembly forward. As the curvature of the shadow mask deviates from the initial state, the hook spring is bent in an inclined shape so that thermal deformation occurs with the scan line of the beam uniformly aligned. As shown in FIG. 3, the shadow mask hole moved to the point y due to thermal expansion is moved in the z direction due to the operation of the hook spring according to the present invention so that the hole coincides within the scanning line range of the beam. can do.

As a result, by employing the hook spring according to the present invention, the correction efficiency is increased. In the related art, since the hook spring made of bimetal is integrally formed with the same low-expansion metal plate and the high-expansion metal plate in the same length and thickness, the thermal expansion range is fixed and consequently the correction range is limited. Since the low-expansion metal plate and the high-expansion metal plate are integrated, and both ends thereof are inclined in a straight line, the length of the high-expansion metal plate is relatively large, and thus the bending range becomes larger than in the prior art, and thus the correction range is increased. Therefore, since the correction amount is increased, the correction efficiency is increased, and the hook spring is bent in the corresponding direction against the phenomenon that the shadow mask is thermally expanded due to the internal heat of the CRT. There is an advantage that can be used.

As described above, the present invention has been described with reference to one embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art may various modifications and equivalent other embodiments from this. Will understand. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (3)

A hook spring comprising a low-expansion metal plate made of a low-expansion material and a high-expansion metal plate bonded to a side of the low-expansion metal plate and made of a relatively high-expansion material to secure the assembly of the shadow mask to the stud pins of the panel. To And the length of the high-expansion metal plate is relatively larger than the length of the low-expansion metal plate, wherein the metal plates are placed in a straight line at both ends thereof inclined. The method of claim 1, The low expansion metal plate and the high expansion metal plate is a hook spring, characterized in that formed integrally. The method of claim 1, The low-expansion metal plate and the high-expansion metal plate hook spring, characterized in that bent with a constant radius of curvature in the same direction.