KR102416565B1 - Tubular heater structure for flat panel display - Google Patents

Abstract

The present invention relates to a tubular heater structure for a flat panel display, and more particularly, to provision of a tubular heater for a flat panel display and a tubular heater structure for a flat panel display, wherein the tubular heater for a flat panel display comprises a heating material, an insulating casing, a cover member, and an insulating filler, so as to prevent contamination of a flat panel display due to dust generated from an insulator when heating the flat panel display, and prevent deformation of the flat panel display due to heating, to heat the flat panel display uniformly, and the tubular heater structure for a flat panel display includes a slit plate, a side plate, a bottom plate, and a heating space accommodating the tubular heater for a flat panel display.

Description

Tubular heater structure for flat panel display { TUBULAR HEATER STRUCTURE FOR FLAT PANEL DISPLAY }

The present invention relates to a tubular heater structure for a flat panel display, and more particularly, to prevent contamination of the flat panel display with dust generated from an insulating material when heating the flat panel display, and prevent deformation of the flat panel display due to heating and heating the flat panel display. A flat panel display comprising a slit plate, a side plate, a bottom plate, and a heating space in which the flat panel heater tubular heater is accommodated in a tubular heater for a flat panel display including a heating material, an insulating casing, a cover member, and an insulating filler to uniformly heat To provide a tubular heater structure.

In general, a thin film and a wiring pattern are formed on the surface of a substrate used in a flat panel display panel. In addition, the substrate is usually formed of a glass substrate and is heated to 400° C. or higher for film formation, etching, and predetermined resist film processing.

The flat plate heater stably heats the glass substrate to 400° C. or more, and it is necessary to uniformly heat the substrate as a whole. In particular, it is more important to uniformly heat the entire glass substrate in the current trend in which the glass substrate is enlarged.

At this time, a heating wire or a heating coil is used for heating, and the end of the heating wire is closed with an insulating material so that the heat of the heating wire is restricted from being discharged in the lateral direction.

Here, the insulator is generally arranged to obtain heat insulation and non-combustible effect with glass fiber, etc., but such a heat insulator generates dust and causes contamination in the flat panel display, which is a heating object, resulting in defects in the flat panel display produced. It is becoming.

Laid-Open Patent Publication No. 10-2006-0117794 (published on November 17, 2006), 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, to prevent the flat panel display from being contaminated with dust generated from the heat insulating material when heating the flat panel display, and to prevent the flat panel display from being deformed by heating. An object of the present invention is to provide a tubular heater structure for a flat panel display including a heating material, an insulating casing, a cover member, and an insulating filler to uniformly heat the flat panel display by preventing it.

Another object of the present invention is to form a tubular shape with a heating material 110 provided in the form of a coil 112 so that a terminal 111 provided to transmit a current applied from a power source is connected to both ends to generate heat. The insulating casing 120 and the insulating casing provided to surround the heating member 110 by being spaced apart from the inside of the heating material 110 and the heating material 110 so that the receiving part 121 can be inserted therein. A first cover member 131 is disposed on the outside so that the heat insulating space 133 is formed at both ends of the insulating casing 120 at a position spaced apart from the first cover member 131 inward by a predetermined distance. An object of the present invention is to provide a tubular heater structure for a flat panel display that evenly heats the flat panel display with the cover member 130 provided as the second cover material 132 therein.

Another object of the present invention is to provide a thermal insulation filler 140 filled in the thermal insulation space 133 so that the heat generated by the heating material 110 is restricted from being transmitted to the outside in the direction of both ends of the thermal insulation space 133. ) to provide a tubular heater structure for a flat panel display that increases safety in use by limiting the heat in the lateral direction.

Another object of the present invention is that a terminal through hole 131a is provided at the center of the first cover member 131 so that a power line passes, and a power line or a hot wire passes through the center of the second cover member 132. A hot wire through hole 132a is provided, and the heat insulating filler 140 is made of alumina, which is a non-combustible material. ) so that the insulating space 133 is filled with an insulating void 143 between the insulating bead 141 and the insulating bead 141 so as not to contaminate the flat panel display with dust. It is intended to provide a structure.

Another object of the present invention is a slit plate 200 that is provided with a rectangular metal plate and a slit 210 is provided in parallel with the edge moving direction so that the upper and lower sides of the metal plate pass through, and at the upper edge of the slit plate 200. A side plate 300 disposed in the ground direction to form a side surface and a bottom plate provided to be placed on the floor or bottom by connecting the lower edges of the side plate 300 at a position directly below the slit plate 200 to each other An object of the present invention is to provide a tubular heater structure for a flat panel display capable of uniform heating with a heating space 500 formed of 400 and the slit plate 200 , the side plate 300 and the bottom plate 400 .

Another object of the present invention is to fill the heating space 500 with a central insulator 510 placed on the bottom plate 400 and an edge insulator 520 placed along the side plate 300, and the center In the center of the insulator 510 , a casing seating part 511 is provided in a semicircular shape so that the insulating casing 120 is placed, and a cover seating groove 521 is provided in the edge insulator 520 to support the first cover material 131 . ) is provided to provide a tubular heater structure for a flat panel display capable of heating and dust-free insulation.

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 tubular heater structure for a flat panel display related to an example of the present invention for realizing the above-described problem is in the form of a coil 112 such that a terminal 111 provided to transmit a current applied from a power source is connected to both ends to generate heat. It may include; a heating material 110 provided with.

Here, the receiving part 121 is formed in a tubular shape so that the heating material 110 can be inserted, and the heating material 110 and the inside are spaced apart from each other to surround the heating material 110 . It may include a; insulated casing 120 to be.

In addition, a first cover member 131 is disposed on the outside so that the insulating space 133 is formed at both ends of the insulating casing 120 , and the insulation is spaced apart from the first cover member 131 inward by a predetermined distance. It may include; a cover member 130 provided as a second cover member 132 inside the casing 120 .

In addition, it is filled with the heat insulating space 133, the heat generated by the heat generating material (110) is provided to limit the transfer of the heat to the outside in the direction of both ends of the insulating space (133); can

Here, a terminal through-hole 131a is provided at the center of the first cover material 131 so that a power line passes, and a hot wire through-hole 132a is provided at the center of the second cover material 132 through which a power line or a hot wire passes. At this time, the insulating filler 140 is provided with alumina, which is a non-combustible material, and an air central hole 142 filled with air inside and a spherical insulating bead 141 surrounding the air central hole 142. The heat insulating space 133 may be provided so as to be filled with a heat insulating void 143 between the heat insulating bead 141 and the heat insulating bead 141 .

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Here, the first cover material 131 is inserted along the outer circumferential surface of the insulating casing 120 from the outside to the inside of the insulating casing 120 to close both ends of the insulating casing 120 . can be done with

On the other hand, the tubular heater structure for a flat panel display provided using the above-described tubular heater for flat panel display is provided with a rectangular metal plate, and the slit 210 is provided in parallel with the direction of the border so that the top and bottom of the metal plate penetrate. The plate 200 and the side plate 300 disposed in the direction of the ground from the upper edge of the slit plate 200 to form a side surface; may include.

Here, at a position directly below the slit plate 200, the lower edge of the side plate 300 is connected to each other and the bottom plate 400 is provided so as to be placed on the floor or the bottom surface; may include.

In addition, the slit plate 200, the side plate 300, and the heating space 500 formed of the bottom plate 400; may include.

Here, the heating space 500 is filled with a central insulator 510 placed on the bottom plate 400 and an edge insulator 520 placed along the side plate 300 , and the center of the central insulator 510 . is provided with a casing seating part 511 in a semicircular shape so that the insulating casing 120 according to claim 1 or 2 is placed, and the edge insulator 520 has a cover to support the first cover material 131 It may be characterized in that a seating groove 521 is provided.

On the other hand, in the slit plate 200, the slit 210 is provided parallel to the rim on the inner side spaced apart from the rim of the slit plate 200 by a predetermined distance, and is formed to be about 1/3 of the length of the rim. A heating zone 240 having a virtual rectangular shape may be formed around the center and corners of the slit plate 200 .

At this time, the first slit plate 220 and the second slit plate 230 are stacked up and down, and the slit 210 proceeding direction of the first slit plate 220 and the second slit plate 230 are formed. The traveling direction may be characterized in that it is provided to be orthogonal to each other.

In addition, the terminals 111 disposed at both ends of the insulating casing 120 are provided with refractive lines 111a so that the traveling direction is switched through rotation in the edge insulator 520 near the side plate 300. The slit plate (S) repeats between the side plate 300 and the side plate 300 to form one row of unit heating elements, and continuously form a plurality of rows of unit heating elements from one side to the other in the width direction ( 200) and may be characterized in that it is provided to provide a heating area with an area corresponding to the area.

Accordingly, the present invention provides a tubular heater structure for a flat panel display,

First, a heating material, an insulating casing, a cover member, and an insulating filler to prevent the flat panel display from being polluted with the dust generated from the heat insulating material when heating the flat panel display, and to prevent the flat panel display from being deformed by heating heating to uniformly heat the flat panel display A tubular heater for a flat panel display, including a slit plate, a side plate, a bottom plate, and a heating space in which the tubular heater for a flat panel display is accommodated, has an effect of eliminating defects due to uniform availability and dust-free.

Second, the terminal 111 provided to transmit the current applied from the power source is connected to both ends to form a tubular shape with the heating material 110 provided in the form of a coil 112 so that the heating material 110 is inserted. Insulating casing 120 and both ends of the insulating casing 120 provided so that the receiving part 121 is formed so as to be able to be, and the inner heating material 110 and the top, bottom, left and right are spaced apart to surround the heating material 110 . A first cover material 131 is disposed on the outside so that an insulating space 133 is formed in The flat panel display is heated evenly with the cover member 130 provided with the ashes 132 .

Third, the heat in the lateral direction with the heat insulating filler 140 that is filled in the heat insulating space 133 and is provided so that the heat generated by the heat generating material 110 is transmitted to the outside in the direction of both ends of the heat insulating space 133 to the outside. to increase the safety of use.

Fourth, a terminal through-hole 131a is provided at the center of the first cover material 131 so that a power line passes, and a hot wire through-hole 132a is provided at the center of the second cover material 132 so that a power line or a hot wire passes through. The insulating filler 140 is provided with alumina, which is a non-combustible material, and is provided with an air central hole 142 filled with air and a spherical thermal insulation bead 141 surrounding the air central hole 142 to provide the insulation. The space 133 is provided to be filled with an insulating void 143 between the insulating bead 141 and the insulating bead 141 to prevent contamination of the flat panel display with dust.

Fifth, the slit plate 200 is provided with a rectangular metal plate material and the slit 210 is provided in parallel with the edge moving direction so that the upper and lower sides of the metal plate penetrate, and the upper edge of the slit plate 200 is disposed in the direction of the ground. The bottom plate 400 and the slit provided to be placed on the bottom or bottom by connecting the lower edge of the side plate 300 to each other at a position directly below the side plate 300 and the slit plate 200 to form a Even heating is possible with the heating space 500 formed of the plate 200 , the side plate 300 , and the bottom plate 400 .

Sixth, the heating space 500 is filled with a central insulator 510 placed on the bottom plate 400 and an edge insulator 520 placed along the side plate 300 and the center of the central insulator 510 . is provided with a casing seating portion 511 in a semi-circular shape so that the insulating casing 120 is placed, and the edge insulator 520 is provided with a cover seating groove 521 to support the first cover material 131, so that heating and Dust-free insulation is possible.

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 7 are 3D views for explaining the configuration of a tubular heater structure for a flat panel display according to an embodiment of the present invention.
8 to 16 are 3D views for explaining the configuration of a tubular heater structure for a flat panel display using a tubular heater for a flat panel display according to an 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 7 are 3D views for explaining the configuration of a tubular heater for a flat panel display according to a preferred embodiment of the present invention, and FIGS. 8 to 16 are views of a tubular heater structure for a flat panel display according to a preferred embodiment of the present invention. It is a 3D drawing to explain the configuration.

In the tubular heater structure for a flat panel display according to an embodiment of the present invention, first, as shown in FIGS. 1 to 5 , the terminal 111 provided to transmit the current applied from the power source is connected to both ends so that the coil ( 112), the heating material 110 is configured in the form.

In addition, the receiving portion 121 is formed in a tubular shape so that the heating material 110 can be inserted therein, and the heating material 110 and the inside are spaced apart from each other so as to surround the heating material 110 by being spaced apart from each other. (120) is provided.

At this time, the insulating casing 120 is disposed to be spaced apart from the coil 112 at a predetermined distance by 360 degrees so that the heated heat inside the receiving part 121 is filled and then discharged through the surface of the insulating casing 120 . This is to be provided to evenly heat the flat panel display.

Here, the first cover member 131 is disposed on the outside so that the insulating space 133 is formed at both ends of the insulating casing 120, and the first cover member 131 is spaced apart from the first cover member 131 inward by a predetermined distance. The cover member 130 is constituted by the second cover member 132 inside the insulating casing 120 .

At this time, the insulating filler 140 is filled so that the heat generated by the heat generating material 110 filled in the insulating space 133 is restricted from being transmitted to the outside in the direction of both ends of the insulating space 133 .

In addition, at this time, a terminal through-hole 131a is provided at the center of the first cover member 131 so that a power line passes, and a hot wire through-hole 132a is provided at the center of the second cover member 132 so that a power line or a hot wire passes through. this will be provided.

And, the insulating filler 140 is provided with alumina, which is a non-combustible material, as shown in FIG. 6 , and an air central hole 142 filled with air inside and a spherical insulating bead surrounding the air central hole 142 ( 141), so that the heat insulating space 133 is provided to be filled with a heat insulating void 143 between the heat insulating bead 141 and the heat insulating bead 141.

That is, the heat insulation performance is increased through the air center hole 142 .

Here, the first cover material 131 is inserted along the outer circumferential surface of the insulating casing 120 from the outside to the inside direction of the insulating casing 120 as shown in FIG. 2 or 3 , the insulating casing 120 . It is provided to close both ends of the.

On the other hand, the tubular heater structure for a flat panel display according to an embodiment of the present invention is first provided with a rectangular metal plate as shown in FIG. 8 or 9 , so that the upper and lower sides of the metal plate penetrate through the slit 210 in the edging direction and A slit plate 200 is provided side by side.

Here, the slit 210 is configured to prevent deformation due to thermal expansion of the metal according to the heating of the slit plate 200 .

Here, the lower edge of the side plate 300 is disposed at the upper edge of the slit plate 200 in the direction directly below the side plate 300 and the slit plate 200, which are disposed in the ground direction to form a side surface. The bottom plate 400 provided to be connected to each other to be placed on the floor or the bottom is configured.

In addition, a heating space 500 formed of the slit plate 200 , the side plate 300 and the bottom plate 400 is formed in the center, where the heating space 500 is the bottom plate 400 . The insulating casing according to claim 1 or 2 is filled with a central insulator (510) placed on A casing seating portion 511 is provided in a semicircular shape so that 120) is placed, and a cover seating groove 521 is provided in the edge insulator 520 to support the first cover material 131 .

At this time, as shown in FIG. 9 , the slit plate 200 is provided with the slit 210 parallel to the rim on the inside spaced apart from the rim of the slit plate 200 by a predetermined distance, 1/3 of the rim length It is formed inside and outside the length, and is provided to form a heating zone 240 having a virtual square shape around the center and corners of the slit plate 200 .

In addition, in the slit plate 200, it is preferable that the first slit plate 220 and the second slit plate 230 are vertically stacked.

The traveling direction of the slit 210 of the first slit plate 220 and the traveling direction of the second slit plate 230 are orthogonal to each other to prevent thermal expansion.

On the other hand, as shown in FIG. 16 , the terminal 111 disposed at both ends of the insulating casing 120 changes the traveling direction inside the edge insulator 520 near the side plate 300 through rotation. It is provided with a refraction line 111a so as to be repeated in an S (S) shape between the side plate 300 and the side plate 300 to form a unit heating element in one row, and a unit of a plurality of rows from one side to the other in the width direction. It is provided to provide a heating area in an area corresponding to the slit plate 200 while continuously forming the heating element, so that it is structurally safe and suppresses the internal heat from being emitted in the lateral direction.

By using the tubular heater structure for flat panel display according to an embodiment of the present invention described above, the flat panel display is prevented from being contaminated with dust generated from the heat insulating material when the flat panel display is heated, and the flat panel display is deformed by heating heating. A tubular heater for a flat panel display including a heating material, an insulating casing, a cover member, and an insulating filler to uniformly heat the flat panel display by preventing the A heating material 110 provided in the form of a coil 112 so that the terminal 111 provided to transmit the current applied from the power source is connected to both ends to eliminate the occurrence of defects due to the uniform availability effect and dust-free, and to generate heat. An insulating casing provided to surround the heating material 110 by forming a tubular shape and having a receiving portion 121 formed therein so that the heating material 110 can be inserted and spaced apart from the inserted heating material 110 in upper, lower, left, and right directions A first cover member 131 is disposed on the outside so that the insulating space 133 is formed at both ends of the 120 and the insulating casing 120, and is spaced apart from the first cover member 131 inward by a predetermined distance. The flat panel display is evenly heated with the cover member 130 provided as the second cover material 132 in the insulating casing 120 , and is filled in the heat insulating space 133 to generate the heat generating material 110 . The thermal insulation filler 140 is provided to limit the transfer of heat to the outside in the direction of both ends of the insulation space 133 to limit the heat in the lateral direction to increase safety in use, and a power supply is provided at the center of the first cover material 131 A terminal through hole 131a is provided so that the wire passes, and a hot wire through hole 132a is provided at the center of the second cover material 132 so that a power wire or a hot wire passes, and the insulating filler 140 is made of alumina, a non-combustible material. The interior is provided with an air central hole 142 filled with air and a spherical thermal insulation bead 141 surrounding the air central hole 142, so that the thermal insulation space 133 is formed between the thermal insulation bead 141 and the thermal insulation It is provided to be filled with insulating voids 143 between the beads 141 so as not to contaminate the flat panel display with dust. The slit plate 200 being a slit plate 200 and the side plate 300 disposed in the ground direction from the upper edge of the slit plate 200 to form a side surface and the side plate 300 at a position directly below the slit plate 200 A heating space 500 formed of the bottom plate 400 and the slit plate 200, the side plate 300 and the bottom plate 400 provided to be placed on the floor or bottom by connecting the lower edges of the It has the effect that even heating is possible.

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 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.

110 ... heating element
111 ... terminal
112 ... coil
120 ... insulated casing
121 ... receptacle
130 ... cover member
131 ... first cover material
131a ... terminal through hole
132 ... second cover material
132a ... heated wire through hole
133 ... insulated space
140 ... insulation filler
141 ... insulation bead
142 ... air centroid
143 ... insulation voids
200 ... slit plate
210 ... slit
220 ... first slit plate
230 ... second slit plate
240 ... heat zone
300 ... side plate
400 ... base plate
500 ... heating space
510 ... central insulator
511 .. Casing seating part
520 ... border insulator
521 ... Cover seating groove

Claims (6)

a heating material 110 provided in the form of a coil 112 so that a terminal 111 provided to transmit a current applied from a power source is connected to both ends to generate heat;
An insulating casing provided to surround the heating material 110 by forming a tubular shape and having a receiving part 121 formed therein so that the heating material 110 can be inserted and spaced apart from the inserted heating material 110 in upper, lower, left and right sides. (120);
The insulating casing ( a cover member 130 provided as a second cover member 132 inside the 120; and a thermal insulation filler 140 filled in the thermal insulation space 133 and provided so that the heat generated by the heating material 110 is restricted from being transmitted to the outside in the direction of both ends of the thermal insulation space 133;
A terminal through-hole 131a is provided at the center of the first cover member 131 so that a power line passes, and a hot wire through-hole 132a is provided at the center of the second cover member 132 through which a power line or a hot wire passes. , the insulating filler 140 is provided with alumina, which is a non-combustible material, and the inside is provided with an air central hole 142 filled with air and a spherical insulating bead 141 surrounding the air central hole 142, so that the insulating space 133 is provided so as to be filled with a heat-insulating void 143 between the heat-insulating bead 141 and the heat-insulating bead 141,
The first cover material 131 is inserted along the outer circumferential surface of the insulating casing 120 from the outside to the inside of the insulating casing 120 to close both ends of the insulating casing 120,
The slit plate 200 is provided with a rectangular metal plate material, and the slit 210 is provided in parallel with the edge moving direction so that the upper and lower sides of the metal plate penetrate.
A side plate 300 provided to form a side surface of the slit plate 200 disposed in the ground direction and
A bottom plate 400 provided to be placed on a floor or a bottom surface by connecting the lower edges of the side plates 300 to each other at a position directly below the slit plate 200, and
and a heating space 500 formed of the slit plate 200, the side plate 300, and the bottom plate 400,
The heating space 500 is filled with a central insulator 510 placed on the bottom plate 400 and an edge insulator 520 placed along the side plate 300, and at the center of the central insulator 510 is the A casing seating portion 511 is provided in a semi-circular shape so that the insulating casing 120 is placed, and the edge insulator 520 is provided with a cover seating groove 521 to support the first cover material 131,
The slit plate 200 is provided with the slit 210 parallel to the rim on the inside spaced apart from the rim of the slit plate 200 by a predetermined distance, and is formed to be about 1/3 of the length of the rim, the slit plate It is characterized in that it is provided so as to form a heating zone 240 having a virtual rectangular shape around the center and corners of the 200.
Tubular heater structure for flat panel display.
delete delete delete The method of claim 1,
In the slit plate 200 , a first slit plate 220 and a second slit plate 230 are stacked up and down, and the traveling direction of the slit 210 disposed on the first slit plate 220 and the The traveling directions of the slits 210 formed in the second slit plate 230 are provided to be orthogonal to each other,
Tubular heater structure for flat panel display.
The method of claim 1,
The terminals 111 disposed at both ends of the insulating casing 120 are provided with refractive lines 111a so that the traveling direction is switched through rotation inside the edge insulator 520 near the side plate 300. The slit plate (S) repeats between the side plate 300 and the side plate 300 to form one row of unit heating elements and continuously form a plurality of rows of unit heating elements from one side to the other in the width direction. 200) characterized in that it is provided to provide a heating area in an area corresponding to that of
Tubular heater structure for flat panel display.

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