KR20220020522A - Metal plate for heat treatment of display panel with thermal strain prevention slit - Google Patents

Abstract

The present invention relates to a metal plate for a flat display heater, in which deformation of a flat plate due to heat is prevented during heating to maintain flatness and uniformly heat a display panel. According to the present invention, the metal plate comprises: a base metal plate made of a metal material having an elongation of 20 to 25%, a coefficient of thermal expansion of 9 to 12, and a thermal conductivity of 19 to 30, and including and a first surface (110) and a first rear surface (120) disposed on the rear surface of the first surface (110); and a first slit (200) provided to be formed by a predetermined length and a small width from the edge of the base metal plate (100) to the inside of the base metal plate (100) to penetrate from the first surface (110) of the base metal plate (100) to the first rear surface (110).

Description

Metal plate for display flat heater { METAL PLATE FOR HEAT TREATMENT OF DISPLAY PANEL WITH THERMAL STRAIN PREVENTION SLIT }

The present invention relates to a metal plate for a display flat panel heater, and more particularly, a base metal plate, a first slot, an auxiliary metal plate and a second plate to prevent deformation of the flat plate due to heating during heating to maintain flatness and uniformly heat the display panel. It relates to providing a metal plate for a display flat panel heater including two slots.

In general, in recent years, practical use of a large-screen flat panel display (FPD) that can be used as a wall-mounted TV or a display for multimedia is progressing. Such a large-screen flat panel display (FPD) is self-luminous, has a wide viewing angle, has good quality display, and has advantages in manufacturing such as a simple manufacturing process and easy enlargement.

The glass substrate for flat panel display (FPD) as described above may be heat-treated using a heater, and heating methods for the heat treatment of the heater include convection heating, conduction heating, and radiation heating. Among the heating methods, conduction heating is a heating method representative of HOT ROLL or HOT PLATE, and it is in contact with a heated object to transfer heat by heat conduction. heating method.

A conventional heater for heat-treating a glass substrate for a flat panel display (FPD) is made of a radiation heating method. A space was formed in the space, and the heat radiated from the heater was subjected to heat treatment through a radiative heating method to the object to be heat treated.

However, in the conventional heater as described above, a temperature deviation occurs in the space between the glass substrate and the heater by the radiation heating method, so that uniform heat treatment is not performed.

Accordingly, a technique for heat-treating a flat panel display using a heated metal flat plate has been disclosed, but the flatness of the flat metal plate is damaged by heating, and the flat panel display becomes a major cause of failure during the flat panel display heat treatment.

Laid-Open Patent Publication No. 10-2006-0117794 (20061117), a heat treatment apparatus for manufacturing a plasma display panel.

The technical problem to be achieved by the present invention is to solve the problems or necessity as described above, and for a display flat panel heater that prevents deformation of a metal flat plate due to heating during heating and maintains flatness to uniformly heat a display panel It is intended to provide a metal plate.

Another object of the present invention is a first surface 110 and the first surface 110 as a metal plate having a rectangular shape of a metal material having an elongation of 20% to 25%, a coefficient of thermal expansion of 9 to 12, and a thermal conductivity of 19 to 30. of the base metal plate 100 provided as a first back surface 120 on the back surface of The expanded portion of the base metal plate 100 heated by the first slit 200 provided to form a narrow length of a predetermined width from the edge to the inside of the base metal plate 100 is absorbed by the first slit 200 . This is to provide a metal plate for a display flat panel heater in which flatness is maintained.

Another object of the present invention is that the first slit 200 starts from the first starting point 210 in the direction of the opposite edge at any edge of the base metal plate 100 and ends at the first endpoint 220 . , The length of the first slit 200 is provided to be formed to be 1/3 of the length between the edge and the edge, and the first starting point 210 is four so as to start on all four edges of the base metal plate 100 . The first surface 110 and the first back surface 120 pass through each edge, and the first slot 200 is provided up to the first end point 220 so that heat expansion and absorption is performed from the vicinity of the edge. An object of the present invention is to provide a metal plate for an efficient display flat panel heater.

Another object of the present invention is that the first starting point 210 formed on each of the four edges is 1/3 of the length of each edge, but at the same interval 230 so that each interval is similar to the edge length. An object of the present invention is to provide a metal plate for a display flat panel heater that is provided to limit thermal expansion generated from an oblique angle.

Another object of the present invention is to have a metal material having an elongation of 20% to 25%, a coefficient of thermal expansion of 9 to 12 and a thermal conductivity of 19 to 30 at a position directly below the base metal plate 100 as a square-shaped metal plate with a second surface An auxiliary metal plate 300 provided as a second back surface 320 and having four edges of the same size as the base metal plate 100 is further disposed on the back surface of the 310 and the second surface 310, and the second surface A second slit 400 is disposed so as to penetrate 310 and the second back surface 320, and the second starting point 410 of the second through slit 400 is 2/3 of the length of each edge. Provided to be offset from the first starting point 210, the second slot 400 is provided with the same length as the first slot 200 to further accommodate thermal expansion. will do

Another object of the present invention is that the first slot 200 and the second slot 400 are provided with a first through surface 201 and a second through surface 202 in a shape facing each other, The first through surface 201 and the second through surface 202 are provided with an oblique line formed to be inclined with the edge, and the angle is changed for each predetermined length so that the slit length is extended to further improve thermal expansion absorption capacity. It is intended to provide a metal plate for use.

On the other hand, the technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned are clearly to those of ordinary skill in the art to which the present invention belongs from the description below. can be understood

First, the metal plate for a display flat panel heater related to an example of the present invention for realizing the above-described problems is a metal plate having a metal material having an elongation of 20% to 25%, a coefficient of thermal expansion of 9 to 12, and a thermal conductivity of 19 to 30 as a square-shaped metal plate. The first surface 110 and the base metal plate 100 provided as the first rear surface 120 on the rear surface of the first surface 110; may include.

Here, a predetermined width from the edge of the base metal plate 100 to the inside of the base metal plate 100 so that the first back surface 120 is penetrated from the first surface 110 of the base metal plate 100 is It may include; a first slit 200 provided to be formed in a narrow length.

At this time, the first slit 200 starts from the first starting point 210 in the direction of the edge facing the edge of the base metal plate 100 and ends at the first endpoint 220, the first slit ( The length of 200) is provided to be formed to be 1/3 of the length between the rim and the rim, and four first starting points 210 are provided so that all four rims of the base metal plate 100 are provided on each rim. The first slot 200 may be provided up to the first end point 220 through the first surface 110 and the first back surface 120 .

In addition, the first starting point 210 formed on each of the four edges is one-third the length of each edge, but it is characterized in that it is provided at the same interval 230 so that each interval is similar to the edge length. can

Here, at a position directly below the base metal plate 100, the second surface 310 and the second surface 310 and the second surface 310 are made of a metal material having an elongation of 20% to 25%, a coefficient of thermal expansion of 9 to 12, and a heat conductivity of 19 to 30. An auxiliary metal plate 300 provided as a second back surface 320 on the back surface of the second surface 310 and having four edges having the same size as the base metal plate 100 is further included, the second surface 310 and the The second slit 400 is disposed so as to penetrate the second back surface 320, and the second starting point 410 of the second through slit 400 is 2/3 of the length of each edge, but the first starting point ( 210) to be shifted from each other, and the length of the second slot 400 may be the same as that of the first slot 200.

At this time, the first slot 200 and the second slot 400 are provided with a first through surface 201 and a second through surface 202 in a shape facing each other, the first through surface 201 and the second through surface 202 may be provided with an oblique line formed to be inclined from the edge, and the angle may be changed for each predetermined length.

Accordingly, the present invention provides a metal plate for a display flat panel heater,

First, there is an effect of uniformly heating the display panel by maintaining flatness by preventing deformation of the metal plate due to heating during heating of the flat panel display.

Second, the elongation is 20% to 25%, the coefficient of thermal expansion is 9 to 12, and the metal material having a thermal conductivity of 19 to 30 is a rectangular metal plate with a first surface 110 and a first on the back surface of the first surface 110. The base metal plate 100 provided as the back surface 120 and the base metal plate at the edge of the base metal plate 100 so that the first back surface 120 passes through the first surface 110 of the base metal plate 100 The first slit 200 absorbs the expanded portion of the base metal plate 100 heated by the first slit 200 provided to form a narrow length with a predetermined width to the inside of the first slit 200 to maintain flatness has the effect of being

Third, the first slit 200 starts from the first starting point 210 in the direction of the edge facing the edge of the base metal plate 100 and ends at the first endpoint 220, the first slit ( The length of 200) is provided to be formed to be 1/3 of the length between the rim and the rim, and four first starting points 210 are provided so that all four rims of the base metal plate 100 are provided on each rim. The first surface 110 and the first back surface 120 are penetrated and the first slot 200 is provided up to the first end point 220 so that heat expansion and absorption are efficiently performed from the vicinity of the edge.

Fourth, the first starting point 210 formed on each of the four edges is a point 1/3 of the length of each edge, but it is provided at the same interval 230 so that each interval is similar to the edge length and occurs from the quadrilateral. It has the effect of limiting the thermal expansion.

Fifth, at a position directly below the base metal plate 100, the elongation is 20% to 25%, the coefficient of thermal expansion is 9 to 12, and the metal material having a thermal conductivity of 19 to 30 is a rectangular metal plate with a second surface 310 and the second surface 310 An auxiliary metal plate 300 provided as a second back surface 320 on the back surface of the second surface 310 and having four edges having the same size as the base metal plate 100 is further disposed, and the second surface 310 and the second surface 310 are further disposed. 2 The second slit 400 is disposed so as to penetrate the back surface 320, and the second starting point 410 of the second through slit 400 is 2/3 of the length of each edge, but the first starting point 210 ) and is provided to be shifted from each other so that the length of the second slot 400 is provided with the same length as the first slot 200 to further accommodate the heating expansion.

Sixth, the first slot 200 and the second slot 400 are provided with a first through surface 201 and a second through surface 202 in a shape facing each other, and the first through surface 201 ) and the second through surface 202 are provided with an oblique line formed to be inclined from the edge, and the angle is changed for each predetermined length, so that the slit length is extended to further improve thermal expansion absorbing ability.

On the other hand, the effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. will be able

The following drawings attached to the present specification illustrate a preferred embodiment of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in those drawings It should not be construed as being limited.
1 to 5 are 3D views for explaining the lamination structure of the base metal plate and the auxiliary metal plate and the arrangement of the first and second slits of the metal plate for a display flat panel heater according to an embodiment of the present invention.
6 to 8 are 3D views for explaining in detail the first and second slits formed in the base metal plate and the auxiliary metal plate of the metal plate for a display flat panel heater according to an embodiment of the present invention.
9 is a 3D view for explaining an example in which a base metal plate and an auxiliary metal plate of a metal plate for a display flat panel heater are used according to a preferred embodiment of the present invention.

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in this specification are only exemplified for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention are It may be implemented in various forms and is not limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention may have various changes and may have various forms, the embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to specific disclosed forms, and includes all changes, equivalents, or substitutes included in the spirit and scope of the present invention.

1 to 5 are 3D views for explaining the lamination structure of the base metal plate and the auxiliary metal plate and the arrangement of the first and second slits of the metal plate for a display flat panel heater according to a preferred embodiment of the present invention, and FIGS. 6 to 8 are It is a 3D drawing for explaining in detail the first and second slits formed in the base metal plate and the auxiliary metal plate of the metal plate for a display flat panel heater according to a preferred embodiment of the present invention, and FIG. 9 is a display flat panel according to a preferred embodiment of the present invention. It is a 3D drawing for explaining an example in which the base metal plate and the auxiliary metal plate of the metal plate for a heater are used.

The metal plate for a display flat panel heater according to an embodiment of the present invention is first, as shown in FIG. 1, an elongation of 20% to 25%, a coefficient of thermal expansion of 9 to 12, and a metal plate made of a square metal material having a heat conductivity of 19 to 30. The first surface 110 and the base metal plate 100 on which the first back surface 120 is disposed on the back surface of the first surface 110 are provided.

That is, a heating element using power as a driving source is disposed under the base metal plate 100 to transfer the heat of the heating element to the base metal plate 100, and the base metal plate 100 is provided to provide a flat panel display to be heated. will become

At this time, it is preferable that the thermal conductivity be 19 to 30 W/m·°C at 100°C so that the flat panel display can be heated by the amount of emission of the heating element.

At this time, while the base metal plate 100 is heated, the base metal plate 100, which is a metal material, is heated and has no choice but to expand. Do.

Here, a predetermined width is narrow from the edge of the base metal plate 100 to the inside of the base metal plate 100 so that the first back surface 120 passes through the first surface 110 of the base metal plate 100 . The first slit 200 is provided so as to be formed in a lengthwise manner to prevent the base metal plate 100 from being thermally expanded even when heated from the heating element 630 shown in FIG. 9 to prevent flatness from being impaired.

At this time, the first slit 200 starts from the first starting point 210 in the direction opposite to the edge at any edge of the base metal plate 100 and the first end point 220 as shown in FIGS. 2 to 3 . As shown in the figure, the length of the first slit 200 is provided to be about 1/3 the length between the edge and the edge, so that it does not reach the center of the base metal plate 100 .

In addition, four first starting points 210 are provided so as to start on all four edges of the base metal plate 100, so that the first surface 110 and the first back surface 120 are penetrated through each edge. The first slot 200 is provided up to the first end point 220 so that the virtual connection line A of the four first end points 220a, 220b, 220c and 220d forms a virtual rectangle parallel to the outer rim. It is provided so that thermal expansion of the base metal plate 100 can be absorbed or alleviated using the first slot 200 while gradually progressing from the center to the outside.

At this time, the first starting point 210 formed on each of the four edges is one-third the length of each edge, but is provided with the same slit spacing (L) so that each spacing is similar to the edge length to evenly distribute thermal expansion. so that it can be distributed.

On the other hand, at a position directly below the base metal plate 100, as shown in FIG. 5, a metal material having an elongation of 20% to 25%, a coefficient of thermal expansion of 9 to 12, and a thermal conductivity of 19 to 30 is made of a square-shaped metal plate. A second surface 310 and an auxiliary metal plate 300 provided as a second back surface 320 on the back surface of the second surface 310 and having four edges having the same size as the base metal plate 100 are further included, The second slit 400 is disposed so as to penetrate the second surface 310 and the second back surface 320, and the second starting point 410 of the second slit 400 is 2/3 of the length of each edge. However, the second slot 400 of the same length as the first slot 200 is provided to be shifted from the first starting point 210 to prevent thermal expansion due to the heat generated from the heating element 620. to alleviate it.

At this time, the first slot 200 and the second slot 400 are provided with a first through surface 201 and a second through surface 202 in a shape facing each other as shown in FIGS. 6 to 7 . , the first through-surface 201 and the second through-surface 202 are provided with an inclined line 201a formed to be inclined with the edge and are provided so that the angle is changed for each predetermined length, thereby increasing the length of the slit. It is provided to prepare for thermal expansion that is further increased during high-temperature heating.

When the metal plate for a display flat panel heater described above according to an embodiment is used, deformation of the metal flat plate due to heating is prevented during heating of the flat panel display, and the flatness is maintained to uniformly heat the display panel, and the elongation is 20% to 25 %, a coefficient of thermal expansion of 9 to 12, and a metal material having a thermal conductivity of 19 to 30. A base provided as a first surface (110) and a first surface (120) on the rear surface of the first surface (110) as a square-shaped metal plate From the edge of the base metal plate 100 to the inside of the base metal plate 100 so that the first back surface 120 is penetrated from the first surface 110 of the metal plate 100 and the base metal plate 100, a predetermined The first slit 200 absorbs the expanded portion of the base metal plate 100 heated by the first slit 200 provided to have a narrow width to the first slit 200 to maintain flatness, and the first slit 200 ) starts from the first starting point 210 in the direction of the edge facing at any edge of the base metal plate 100 and ends at the first endpoint 220, the length of the first slit 200 is the edge and edge It is provided to be formed with a length of 1/3 of the length, and four first starting points 210 are provided so as to start on all four edges of the base metal plate 100, so that each edge has the first surface 110 and The first back surface 120 is penetrated and the first slot 200 is provided up to the first end point 220 so that thermal expansion and absorption is efficiently made from the vicinity of the edge, and the first slot formed in each of the four edges is provided. 1 starting point 210 is a point 1/3 of the length of each edge, but is provided at the same interval 230 so that each interval is similar to the edge length to limit thermal expansion generated from the quadrilateral, and the base metal plate 100 ), the elongation is 20% to 25%, the coefficient of thermal expansion is 9 to 12, and the metal material having a heat conductivity of 19 to 30 is a square-shaped metal plate. A second surface 310 and an auxiliary metal plate 300 provided as a second back surface 320 on the back surface of the second surface 310 and having four edges having the same size as the base metal plate 100 are further disposed and the The second slit 400 is disposed so as to penetrate the second surface 310 and the second back surface 320, and the second starting point 410 of the second through slit 400 is 2/3 of the length of each edge. The first slot ( 200) and the second slot 400 are provided with a first through surface 201 and a second through surface 202 in a shape facing each other, the first through surface 201 and the second through surface 202 is provided with an oblique line formed to be inclined with the edge, and the angle is changed for each predetermined length, so that the slit length is extended to further improve thermal expansion absorption capacity, thereby fundamentally eliminating quality errors of flat panel displays produced.

As described above, the present invention has been described through a preferred embodiment, but the above-described embodiment is merely illustrative of the technical idea of the present invention, and various changes are possible within the scope without departing from the technical spirit of the present invention. Those of ordinary skill in the art will be able to understand. Therefore, the protection scope of the present invention should be interpreted by the matters described in the claims, not specific embodiments, and all technical ideas within the corresponding scope should be interpreted as being included in the scope of the present invention.

100 ... base metal plate
110 ... first surface
120 ... the first side
130 ... joint
200 ... first slit
201 ... first through surface
201a ... inclined line
202 ... second through surface
210 ... the first starting point
220 ... first endpoint
300 ... auxiliary metal plate
310 ... second surface
320 ... the second side
400 ... 2nd slit
410 ... the second starting point
610 ... side borders
620 ... heating element
630 ... insulating member
640 ... bottom cover
A ... virtual connector
L ... spacing between slits

Claims (5)

The elongation is 20% to 25%, the coefficient of thermal expansion is 9 to 12, and the metal material having a thermal conductivity of 19 to 30 is a square-shaped metal plate. a base metal plate 100 provided with 120); and
A predetermined width is narrow from the edge of the base metal plate 100 to the inside of the base metal plate 100 so that the first back surface 120 passes through the first surface 110 of the base metal plate 100 . A first slit 200 provided to be formed; including,
Metal plate for display flat panel heater.
The method of claim 1,
The first slit 200 is
Doedoe starting from the first starting point 210 in the direction of the edge facing at any edge of the base metal plate 100 and ending at the first ending point 220,
The length of the first slit 200 is provided to be formed to be 1/3 of the length between the edge and the edge,
Four of the first starting points 210 are provided so as to start on all four edges of the base metal plate 100, so that the first surface 110 and the first back surface 120 are penetrated through each edge of the first The first slot 200 is provided up to the end point 220 so that the virtual connection lines of the four first end points 220a, 220b, 220c and 220d are provided to form a virtual square shape parallel to the outer edge. ,
Metal plate for display flat panel heater.
3. The method of claim 2,
The first starting point 210 formed on each of the four rims is 1/3 of the length of each rim, and each interval is provided at the same interval (L) similarly to the rim length.
Metal plate for display flat panel heater.
4. The method of claim 3,
At a position directly below the base metal plate 100,
A second surface 310 and a second surface ( 320) is provided.
An auxiliary metal plate 300 having four edges of the same size as the base metal plate 100 is further included,
A second slit 400 is disposed to pass through the second surface 310 and the second back surface 320, and the second starting point 410 of the second slit 400 is 2/3 of the length of each edge. It is provided as a point, but is provided to be shifted from the first starting point 210, so that the length of the second slot 400 is provided with the same length as the first slot 200,
Metal plate for display flat panel heater.
5. The method of claim 4,
The first slot 200 and the second slot 400 are,
A first through-surface 201 and a second through-surface 202 are provided to face each other, and the first through-surface 201 and the second through-surface 202 are inclined lines ( 201a), characterized in that it is provided so that the angle is changed every predetermined length,
Metal plate for display flat panel heater.

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