KR100217153B1 - Shadow mask assembly of flat cathode ray tube - Google Patents

Abstract

The present invention relates to a shadow mask structure of a flat brown tube, and in particular, the force applied to the mask is distributed while dispersing the concentration of a specific area, which is a problem that follows, while the force for deformation is uniformly distributed to the front to finally provide a power saving mask. The purpose is to.

In order to realize this, in the present invention, a through hole is formed in the effective surface, which is the center of the mask, so that the electron beam emitted from the electron gun passes, the rail is fixed at a predetermined distance to the periphery of the effective surface, and the outer surface of the rail fixing part is provided. Silver mask is formed of an ineffective surface formed with a mask hole, and in the shadow mask for a flat CRT tube having alignment holes respectively formed at the centers of both ends of the long sides of the ineffective surface, the width of the solid portion around the alignment holes is maintained at a predetermined size or more. will be.

Description

Shadow mask structure of flat CRT

The present invention relates to a planar color-brown tube, and more particularly, to a shadow mask structure of a flat-brown tube to solve the mis-landing of the electron beam due to thermal expansion generated by the mask converting the kinetic energy of the electron into thermal energy during operation of the CRT.

Looking at the configuration of the conventional flat brown tube as shown in Figures 1 and 2, the safety glass (1) fixed to the resin paper on the front of the flat panel 2 to maintain the explosion-proof characteristics, and the rear of the panel (2) A funnel (3) fused using frit glass, an electron gun (5) enclosed in a neck portion (3a) of the funnel (3) to fire R, G, and B three electron beams (4), and the panel (2) a flat tension mask (7) coupled to the inside of the slit-shaped small holes so as to perform the color screening function of the electron beam, and a rail supporting the mask (7) to maintain a constant distance from the panel (2) It consisted of (6).

An effective surface portion 10 is formed in the center of the mask 7 to form apertures for changing the color of the electron beam, and around the effective surface portion 10, apertures are formed for stretching the mask. An effective surface 12 is located, and an alignment hole a is formed in the invalid surface 12.

에 불과하고 나머지는 새도우마스크(7)에 충돌하여 열로 변환되며 이 열에 의하여 새도우마스크(7)가 열챙창하게 되는 도밍현상이 야기된다.In this configuration, the electron beam 4 emitted from the electron gun 5 passes through the mask hole 7 'of the shadow mask 7 and collides with a fluorescent screen (not shown) applied to the inner surface of the panel 2. The kinetic energy of the collimated electron beam 4 emits a phosphor to reproduce an image. At this time, the electron beam 4 passing through the electron beam through hole 7 'of the shadow mask 7 is about 20 of the entire electron beam.

Only the rest is hitting the shadow mask (7) is converted to heat, which causes the shadow mask (7) the domming phenomenon that the window visor.

This doming phenomenon changes the position of the electron beam 8 landing on the fluorescent film 9, thereby reducing color purity. To solve this problem, the tension mask 7 is forcibly tensioned to apply a tensile force to the mask. The thermal expansion of the mask caused by the former mask middle stones is coped with mechanical tension applied forcefully.

The alignment hole (a) of the tension mask (7) is a reference hole for matching the alignment of the mask with the machine capable of tensioning the mask. If the mask has a very inaccurate alignment of the machine, the strain applied to the mask is Partially different values result in the dominant phenomenon during the CRT operation, as well as the rapid change of the strain applied to the mask when the mask is tensioned. In addition, the alignment arc (a) can be located anywhere on the mask non-effective surface, but since the hole is formed, the physical properties will be remarkably changed, so the center portion is much more advantageous than the corner where stress is concentrated. For this reason, the alignment hole (a) is necessary in the flat mask applying the tension.

Looking more closely at the structure of the mask non-effective surface 12, as shown in FIG. 3, holes 7 'are formed in the non-effective surface, and an alignment hole a is positioned at the center portion. Holes in the outer circumference of the effective surface are not created in the portion where the alignment holes are located, as indicated by the dotted lines in the figure. The solid portion b of the mask having no hole is formed around the alignment hole a.

However, when forming the alignment hole as shown in FIG. 3, since the alignment hole is formed without considering the width of the solid part around the alignment hole, leaving the structure of the original mask ineffective surface, the width of the solid part is the slot of the mask hole. In the case of, the width of the solid part is at least almost 0 mm, at most, the distance between the slots and the holes connecting the slots Br.

In the conventional mask structure, when the mask is tensioned, a lot of stress is concentrated around the alignment hole (a) formed on the ineffective surface, and in particular, the width of the solid part (b) formed around the alignment hole is small so that the mask is broken. There was a problem that the ability to withstand falls and eventually the mask tear occurs.

It is an object of the present invention to provide a stress reduction mask for reducing the occurrence of mask breakage by dispersing the stress concentration in the alignment hole region, which is a subsequent problem while increasing the strain applied to the mask by setting the minimum width of the solid portion around the alignment hole. .

In order to realize this, in the present invention, the solid part around the alignment hole is kept above a certain size to cope with the mask breaking.

1 is a cross-sectional view of a general flat brown tube.

2 is an exploded perspective view of a panel structure of a flat brown tube.

3 is a structural diagram of a conventional flat foil tension mask.

4 is a structural diagram of a tension mask of the present invention.

5 and 6 are another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

100, 110, 120: alignment holes 101, 111, 121: solid part

102: mask hole

The present invention will be described in detail below with reference to the accompanying drawings.

First, the structure of the tension mask of the present invention, as shown in FIG. 4, in forming the solid portion 101 between the alignment hole 100 of the mask invalid surface and the mask hole 102 around the hole, The width of this part is proportional to the strain applied to the mask and is also proportional to the ratio of the hole spacing (Br) to the vertical pitch (Pv) of the hole in the case of slot holes as shown in FIG. (The larger the vertical pitch, because the smaller the hole spacing, the weaker the force corresponding to the stress is.) And the width of the solid part should be larger in proportion to the radius of the alignment hole 100. Calculating the specification of the mask applicable to the CRT, the width of the solid around the alignment hole is

to be.

In the above formula, 0.00283 is a mask maximum strain which is the maximum strain that can be applied to the mask, and 0.043 is a proportional constant that satisfies the condition that the stress around the alignment hole due to the change of the mask specification should be less than the yield strength. Indicates.

If the mask hole 102 around the alignment hole is a dot hole having a dot diameter D, even if the solid portion 101 around the alignment hole 100 is made relatively small, no mask rupture occurs. In general, when the dot hole is formed, the vertical pitch Pv and the horizontal pitch Ph follow the same or effective plane as they are, and the solid pitch around the alignment hole is considered based on the larger of the vertical pitch and the horizontal pitch. The width of the part

Condition must be met.

Another example is when the shape of the solid part outer part is configured differently from the alignment hole, that is, the shape of the alignment hole is circular, and the shape of the (111, 121) outer part of the surrounding solid part is an ellipse or irregularities such as FIGS. 5 and 3. It may be a shape. In this case, especially, the hole formed around the solid can be used to form a slot. In the vertical direction, the ability to cope with stress is small and the ability to cope with stress in the horizontal direction is small. In the lower portion, that is, the upper portion and the lower portion, the solid portions 111 and 121 may be slightly smaller. At this point, the part with the smallest width

Should be

As described above, the present invention increases the strain applied to the tension mask by setting the width of the solid part to a predetermined size or more, thereby dispersing the stress concentration around the alignment hole so that the force for deformation is uniformly distributed to the front surface. Therefore, it is possible to provide a stress reduction mask for removing mis-landing of the electron beam.

Claims (4)

A through hole is formed in the effective surface, which is the central portion of the mask, so that the electron beam emitted from the electron gun passes, and the rail is fixed at a predetermined distance to the periphery of the effective surface, and the outer surface of the rail fixing portion has an invalid effect in which a mask hole is formed. In the shadow mask for a flat CRT which is made of a surface, and the alignment hole is formed on the non-effective surface, the mask hole formed around the alignment hole is slot-shaped, and the width of the solid portion is

A shadow mask structure of a flat brown tube, characterized in that it is formed not less than the value. A through hole is formed in the effective surface, which is the central portion of the mask, so that the electron beam emitted from the electron gun passes, and the rail is fixed at a predetermined distance to the periphery of the effective surface, and the outer surface of the rail fixing portion has an invalid effect in which a mask hole is formed. In the shadow mask for a flat cathode ray tube made of a surface, and the alignment hole is formed on the non-effective surface, the width of the solid portion formed around the alignment hole is

Shadow mask structure of flat brown tube, characterized in that formed not less than the value. The shadow mask structure of claim 2, wherein the pitch of the dot holes is applied based on the larger of the vertical pitch and the horizontal pitch. The effective surface, which is the central portion of the mask, has a through hole formed to pass the electron beam emitted from the electron gun, and the rail is fixed at a predetermined distance to the periphery of the effective surface, and the outer surface of the rail fixing portion has an invalid effect in which a mask hole is formed. In the planar shadow tube shadow mask made of a surface, each alignment hole is formed at the center of both end portions of the non-effective surface, the shape of the solid portion formed around the alignment hole is irregularly formed, the minimum width of the solid portion Is

A shadow mask structure of a flat brown tube, characterized in that it is formed not smaller than a value.

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