KR20000033507A - Mask frame for cathode ray tube and fabrication method thereof - Google Patents

Abstract

PURPOSE: A mask frame for a cathode ray tube is provided which prevents the lowering of an image quality by compensating the doing of a shadow mask in its early stage and minimizes the loss of a material as not extending the volume of a device used in fabricating the mask frame. CONSTITUTION: A mask frame(2) comprises a high expansion part(4) and a low expansion part(6), and corresponds more effectively to the thermal expansion in a horizontal direction of a shadow mask(10) by inducing the thermal expansion more toward the side part where the high expansion part is located. A method for fabricating the mask frame comprises the steps of: preparing a high expansion metal material and a low expansion metal material having different thermal expansion coefficients respectively; cutting the metal materials in a fixed shape and size; forming a high expansion part and a low expansion part having a bottom part and a flange part respectively by drawing-processing the cut high expansion metal sheet and low expansion metal sheet; and forming the mask frame in a body by joining the high expansion part and the low expansion part.

Description

Mask frame for cathode ray tube and manufacturing method thereof

The present invention relates to a cathode ray tube mask frame and a method of manufacturing the same, and more particularly, to a cathode ray tube mask frame and a method of manufacturing the same to change the thermal expansion characteristics of the mask frame to more effectively correct the shadowing of the shadow mask. will be.

In general, the mask frame supports the shadow mask so that the shadow mask is placed at a proper position with respect to the panel, and at the same time serves to correct the shadowing of the shadow mask.

That is, when the shadow mask is doomed due to the heat energy increase due to the electron beam collision, the mask frame is expanded by the heat transfer from the shadow mask to perform the first correction, and then the spring member is deformed by the heat transfer from the mask frame to compensate the second. By correcting the shadowing of the shadow mask is corrected.

In this case, the shadow mask is mainly doomed in a direction in which the horizontal width is wider than the vertical width, and thus the positions of the beam passing holes are mainly shifted in the horizontal direction. Since the parallel arrangement is performed vertically, the positional movement of the beam passing holes changes the landing trajectory of the electron beam mainly in the horizontal direction, which causes landing errors or light emission of other colors.

For example, in the case of a 28-inch cathode ray tube, the horizontal thermal expansion amount of the shadow mask is about 17 μm, whereas the vertical thermal expansion amount is about 9 μm, and the horizontal and vertical thermal expansion amounts of the shadow mask are about 2 times different. It can be seen.

However, since the long side and the short side are integrally formed of the same material, the mask frame does not have a large compensation effect on horizontal thermal expansion of the shadow mask, and has a problem in that it cannot adequately cope with uneven thermal expansion of the shadow mask.

In addition, referring to the manufacturing process of the mask frame, the manufacturing process of the mask frame, cutting the plate of a suitable size to form each mask frame from the metal base material, and using a deep drawing (deep drawing) process to the mask frame shape After molding, cutting the hole-forming portion for electron beam passing and the hole-forming portion for fastening other parts is included.

At this time, the cutting of the opening for electron beam passage forming a relatively large area causes a large material loss in the use of the entire material, and the problem of enlarging the volume of the apparatus used for manufacturing the mask frame by integrally molding the individual mask frames. Has

Therefore, the present invention was devised to solve the above problems, and an object of the present invention is to change the thermal expansion characteristics of the mask frame to more effectively correspond to the horizontal doming of the shadow mask, and to correct the shadowing of the shadow mask early. The present invention provides a mask frame for a cathode ray tube and a method of manufacturing the same, which can prevent degradation of image quality and minimize material loss without increasing the volume of an apparatus used for fabricating a mask frame.

1 is a perspective view of a mask assembly including a mask frame according to a first embodiment of the present invention.

2 is a top view of the combined mask assembly.

3 is a cross-sectional view taken along a line A-A of FIG. 2.

4 is a cross-sectional view taken along line BB of FIG. 2.

5 is a plan view of a mask assembly showing a thermally expanded state.

FIG. 6 is a sectional view taken along the line C-C in FIG. 5; FIG.

7 is a perspective view of a mask assembly including a mask frame according to a second embodiment of the present invention.

8 is a top view of the combined mask assembly.

9 is a plan view of a mask assembly showing a thermally expanded state.

10 is a process flowchart showing the manufacturing process of the mask frame according to the present invention.

In order to achieve the above object, the present invention,

Provided is a mask frame for a cathode ray tube further comprising a high expansion portion provided in a pair of opposing short sides, and a low expansion portion provided in a pair of opposing long sides to further induce thermal expansion in the direction of the short side where the high expansion portion is located.

In addition, the present invention to achieve the above object,

A high-expansion metal base material and a low-expansion metal base material having different thermal expansion coefficients are prepared, respectively, and the high-expansion metal base material and the low-expansion metal base material are cut into a predetermined shape and size to form a high-expansion metal piece and a low-expansion metal piece, According to the present invention, there is provided a method of manufacturing a mask frame for a cathode ray tube, the method including drawing the high-expansion metal piece and the low-expansion metal piece to form a high-expansion part and a low-expansion part, and then joining the high-expansion part and the low-expansion part.

Preferably, the high expansion portion and the low expansion portion are made of stainless steel and Invar steel, respectively, and the joining of the high expansion portion and the low expansion portion is preferably made of welding.

Accordingly, the mask frame is more expanded in the direction of the short side where the high expansion portion is located during thermal expansion, thereby more effectively coping with the horizontal thermal expansion of the shadow mask.

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

1 is a perspective view of a mask assembly including a mask frame according to a first embodiment of the present invention, Figure 2 is a plan view of the combined mask assembly, the mask frame 2 according to the present invention as shown It consists of a combination of the high-expansion portion 4 constituting the short side portion and the low-expansion portion 6 constituting the long side portion facing each other, consisting of a combination of the high-expansion portion 4 and the low-expansion portion 6 The mask frame 2 forms a bottom portion 2b having an opening 2a for electron beam passage, and a flange portion 2c which is bent from the bottom portion 2b toward the shadow mask 10.

The shadow mask 10 mounted on the mask frame 2 includes a curved portion 12 that forms the same curved surface as a screen portion of a panel (not shown), and a mask frame (eg, a four-sided edge of the curved portion 12). It consists of a skirt portion 14 which is bent toward 2), wherein the curved portion 12 includes an effective screen portion 16 for forming a plurality of beam passing holes (16a).

The shadow mask 10 having such a configuration has a side spring whose skirt portion 14 is integrally welded with the flange portion 2c of the mask frame 2 and attached to the outer surface of the flange portion 2c. 8) is detachably fastened to a stud pin (not shown) embedded in the inner surface of the panel to secure the mask assembly to the panel.

When the cathode ray tube acts, the shadow mask 10 causes a domming phenomenon due to an increase in thermal energy due to the collision of an electron beam radiated from an electron gun (not shown). FIG. 3 is a cross-sectional view taken along line AA of FIG. 4 is a cross-sectional view taken along line BB of the mask assembly in which the mask assembly is vertically cut. As shown, the curved portion 12 of the shadow mask 10 is more convexly thermally expanded in the horizontal direction than in the vertical direction. have.

However, at the same time as the doming in the horizontal direction, the high-expansion portion 4 of the mask frame 2 induces deformation of the mask frame 2 in the direction of correcting the horizontal doming of the shadow mask 10. Correcting the shadowing of the shadow mask 10.

That is, the mask frame 2 is composed of a combination of the low-expansion portion 6 constituting the opposite long side portion and the high-expansion portion 4 constituting the opposite short side portion, for example, the low-expansion portion 6 Is made of invar steel having a thermal expansion coefficient of approximately 0.5 to 1.2 × 10 ⁻⁶ / ° C., and the high expansion portion 4 is 18 to 20 × 10 ⁻⁶ / ° C. higher than the thermal expansion coefficient of the Invar steel. It is preferably made of stainless steel having a coefficient of thermal expansion of.

At this time, both ends of the high expansion portion 4 are combined with the inner surface portions of both ends of the low expansion portion 6 to form an integral mask frame 2.

As such, as the high expansion portion 4 and the low expansion portion 6 having different thermal expansion coefficients are combined to form an integral mask frame 2, the mask frame 2 is a shadow mask in which the thermal expansion pattern is changed. (10) is corrected, and this is made such that the thermal expansion of the short side portion is further induced in the outer direction so that the horizontal thermal expansion of the shadow mask 10 can be corrected.

That is, when the thermal energy of the mask frame 2 rises, the high expansion portion 4 constituting the short side portion has a larger coefficient of thermal expansion than the low expansion portion 6 constituting the long side portion. More than the low-expansion portion 6, the high-expansion portion 4 and the low-expansion portion 6 is integrally coupled so that the high-expansion portion 4 of the mask frame (2) The short side portion is suppressed in the longitudinal direction by the low expansion portion 6, which in turn causes the short side portion of the mask frame 2 to expand in the outward direction.

Accordingly, as shown in FIG. 5, the finally-expanded mask frame 2 is a phenomenon in which the high expansion portion 4 forming the short side portion is further expanded while forming a predetermined curved surface toward the outer direction.

Therefore, the high-expansion portion 4 of the mask frame 2 further expands in the outer direction as shown in FIG. 6 to enlarge the horizontal width of the shadow mask 10, thereby performing horizontal doming of the curved portion 12. It can be calibrated effectively.

7 is a perspective view of a mask assembly including a mask frame according to a second embodiment of the present invention, Figure 8 is a plan view of the combined mask assembly.

As shown in the drawing, the mask frame 2 according to the present embodiment includes a high-expansion portion 4 constituting a short side portion facing each other and a low-expansion portion 6 constituting a long side portion facing each other. 4) consists of a central portion 4a forming a short side portion of the mask frame 2 and a side portion 4b formed at both ends of the central portion 4a to form both ends of the long side portions of the mask frame 2. The side portion 4b of the high expansion portion 4 is combined with both ends of the low expansion portion 6 to form an integral mask frame 2.

At this time, the high expansion portion 4 and the low expansion portion 6 is also preferably made of stainless steel and Invar steel, respectively, and the thermal expansion pattern change of the mask frame 2 is also made as described above in the previous embodiment, As shown in FIG. 9, the finally expanded mask frame 2 is a phenomenon in which the short side portion where the high expansion portion 4 is located is further expanded while forming a predetermined curved surface toward the outer direction.

As a result, the horizontal width of the shadow mask 10 is expanded to absorb the doming of the curved portion 12 to compensate for the shadowing of the shadow mask 10. Such a decrease in the amount of doming may reduce the amount of landing movement of the electron beam. The decrease in the amount of landing movement of the electron beam leads to the improvement of color purity, white uniformity, and the like, thereby effectively preventing the deterioration of image quality due to the shadowing of the shadow mask 10.

10 is a process flow chart sequentially showing a manufacturing process of the mask frame according to the present invention, the manufacturing process of the mask frame is a metal base material preparation step 100 for preparing each of the high-expansion and low-expansion metal base material, and prepared A metal base material cutting process 110 for cutting the metal base material into a predetermined shape and size, a metal piece forming process 120 for drawing the cut metal pieces, respectively, and a joint for joining the molded high and low expansion parts integrally. Process 130.

First, the metal base material preparation process 100 is a process of providing a high-expansion metal base material and a low-expansion metal base material having different thermal expansion coefficients, for example, the high-expansion metal base material is stainless steel, the low-expansion metal base material is Inba Provided by the river.

The metal base material cutting step 110 of cutting the metal base materials into a predetermined shape and size is a process of cutting the high-expansion metal base material into the high-expansion metal piece and the low-expansion metal base material into the low-expansion metal piece by using a conventional cutting machine. The cut metal pieces are completed in each of the high expansion portion and the low expansion portion through a subsequent process.

Next, the metal piece forming process 120 is a process of drawing each metal piece into a high-expansion portion 4 and a low-expansion portion 6 each having a bottom portion and a flange portion by drawing with a conventional press. .

At the same time, the drawing operation is such that both ends of the low expansion portion 6 have a predetermined curvature so that both ends of the low expansion portion 6 are curved, or both ends of the high expansion portion 4 face each other. Both ends of the high expansion portion 4 are vertically bent to form a mask frame 2 having a curved corner portion when the high expansion portion 4 and the low expansion portion 6 are coupled to each other.

After manufacturing the high expansion part 4 and the low expansion part 6 through the above process, the pair of low expansion parts 6 face the short side part which faces a pair of high expansion parts 4, respectively. It is arranged on the long side side, and the ends of the high expansion portion 4 and the low expansion portion 6 are brought into contact with each other, and then the contact surface is joined to complete the integral mask frame 2. ) Is preferably made by welding.

Accordingly, the mask frame according to the present invention can be easily manufactured. As described above, the method of manufacturing the mask frame according to the present invention is formed by forming individual metal pieces and welding them, thereby being used for manufacturing the mask frame. The device can be further miniaturized, and since cutting of the opening for electron beam passing is not necessary, the material loss can be minimized to improve the material utilization efficiency.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

As described above, the mask frame according to the present invention can more effectively correct the horizontal masking of the shadow mask by changing the thermal expansion characteristics of the mask frame, thereby improving display quality by preventing image degradation due to shadowing of the shadow mask. In addition, by processing the individual high and low expansion parts and then welding them, they have the effect of maximizing the material utilization efficiency of downsizing the apparatus used for manufacturing the mask frame.

Claims (10)

In the mask frame for cathode ray tubes welded to the periphery of the shadow mask to mount the shadow mask, The mask frame includes a high expansion portion provided in pairs on the opposite short sides and a low expansion portion provided in pairs on the opposite long sides to induce thermal expansion in the direction of the short sides where the high expansion portions are located, thereby providing a horizontal width of the shadow mask. Mask frame for cathode ray tube to further enlarge. The mask frame for a cathode ray tube according to claim 1, wherein the high expansion portion is formed at a central portion and side portions bent at both ends of the central portion and joined to both ends of the low expansion portion. The mask frame for a cathode ray tube according to claim 1, wherein the high expansion portion is made of stainless steel. The mask frame for cathode ray tube according to claim 1, wherein the low expansion portion is made of Invar steel. A metal base material preparation step of preparing a low-expansion metal base material and a high-expansion metal base material having a thermal expansion coefficient greater than that of the low-expansion metal base material; A metal base material cutting step of cutting the high-expansion metal base material and the low-expansion metal base material into a predetermined shape and size, respectively, to form a high-expansion metal piece and a low-expansion metal piece; A metal piece forming step of drawing the high-expansion metal piece and the low-expansion metal piece respectively to form a high-expansion portion and a low-expansion portion having respective bottom portions and flange portions; A method of manufacturing a mask frame for a cathode ray tube, comprising a bonding step of bonding the high expansion portion and the low expansion portion to form an integral shape. 6. The method of manufacturing a mask frame for a cathode ray tube according to claim 5, wherein the metal piece forming step comprises drawing processing such that the low-expansion portion forms a bottom portion and a flange portion and both ends form a predetermined curvature. The method of manufacturing a mask frame for a cathode ray tube according to claim 5, wherein the metal piece forming step comprises drawing the high-expansion portion so as to form a bottom portion and a flange portion, and at both ends thereof are vertically bent to face each other. The said joining process is a process which arrange | positions a pair of low expansion part in the opposing long side part, arranges a pair of high expansion part in the opposing short side part, and performs welding to the contact surface of the said low expansion part and high expansion part. The manufacturing method of the mask frame for cathode ray tubes consisting of these things. The method of manufacturing a mask frame for a cathode ray tube according to claim 5, wherein the high-expansion metal base material is made of stainless steel. The method of manufacturing a mask frame for a cathode ray tube according to claim 5, wherein the low-expansion metal base material is made of Invar steel.