KR102367085B1 - Planar heater for heat treatment of display panel with thermal strain prevention - Google Patents

Abstract

The present invention relates to a metal heat deformation prevention flat plate heater for a display, and more particularly, to prevent deformation of the flat plate due to heating during heating to maintain a flat state and uniformly heat the display panel with the first upper plate border (110) on the left side. ) is provided, and a second upper plate border 120 and a third upper plate border 130 are formed in parallel with each other at both ends of the first upper plate border 110, respectively, and the second upper plate border 120 and the third upper plate are provided. The first, second, third and fourth upper plate borders 110 are a flat plate made of a rectangular metal material in which a fourth upper plate border 140 is provided in parallel with the first upper plate border 110 to connect the border 130 to each other. ~140) in the slit upper plate 100 provided with an upper slit 150 in the inward direction; and the first lower plate border 210 at positions corresponding to the first, second, third and fourth upper plate borders 110 to 140, respectively. ), the second lower frame 220, the third lower frame 230 and the fourth lower frame 240 are disposed directly below the slit upper panel 100, and the first, second, third and fourth lower frame 210-240), the lower slit plate 200 having a lower slit 250 in the inner direction; and the slit upper plate 100 and the slit lower plate 200 are provided to extend downwardly in the direction of the ground at the four edges of the slit A side plate 300 provided to form an accommodating space 310 at a position directly below the lower plate 200; and the side plate 300 at a lower portion of the accommodating space 310 are connected to each other to form a ground direction finish a bottom cover 400 provided to do so; and the slit lower plate 200 and the slit upper plate 100, by guiding the heating element 520 with a heating guide tube 510 seated in the receiving space 310 and formed therein to release the heat generated by the heating element 520. It relates to providing a metal heat deformation prevention flat heater for a display comprising; an insulator 500 that is provided to transmit.

Description

Metal Heat Deflection Prevention Flat Heater for Display { PLANAR HEATER FOR HEAT TREATMENT OF DISPLAY PANEL WITH THERMAL STRAIN PREVENTION }

The present invention relates to a metal thermal deformation prevention flat plate heater for a display, and more particularly, to prevent deformation of the flat plate due to heating during heating to maintain a flat state and uniformly heat the display panel. , It relates to providing a metal heat deformation prevention flat heater for a display comprising a bottom cover and an insulator.

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.

Here, FIG. 1 is a photograph of the main part of a conventional flat plate heater for heat treatment. Referring to the drawings, the conventional flat heater for heat treatment has a structure in which a hot wire coil 20 is mounted inside the ceramic board 10, and is installed on the floor, ceiling, and sidewall of the heating furnace to generate heat according to the applied driving power. The display panel inside the furnace could be heated.

However, since the conventional flat plate heater for heat treatment has a structure in which the hot wire coils 20 extending linearly along the longitudinal direction are spaced apart in the width direction, the spacing between the respective hot wires 20 is widened so that the hot wires 20 are disposed. There was a problem in that a temperature difference between the portion and the heat source emitted from the portion between each heating wire 20 occurred.

In addition, in order to insert the hot wire coil 20 into the ceramic board 10, after the plate-shaped ceramic board 10 is manufactured, an insertion groove having a shape corresponding to the hot wire coil 20 must be post-processed, so the manufacturing cost is high. As it ascends and post-processing, dust-free processing is limited, and dust can be generated while being used for heat treatment. When it is disposed between display panels stacked up and down on the display panel, the temperature difference between the heat source emitted to the upper side (the part where the heater is exposed) and the heat source emitted to the lower side (the back side of the ceramic board) occurs, so that the upper and lower surfaces of the display panel As an imbalance occurred in the heating temperature of

In addition, in the related art, it is inconvenient to set the heating area according to the area and area requiring heating, and the flatness of the heating surface changes according to the heating temperature, thereby causing a serious problem in the quality of the display panel.

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 the deformation of the flat plate due to heating during heating is prevented to maintain a flat state and heat deformation of the display metal for uniformly heating the display panel It is intended to provide an anti-plate heater.

Another object of the present invention is to have a first upper plate border 110 on the left side, and a second upper plate border 120 and a third upper plate border 130 at both ends of the first upper plate border 110, respectively, side by side. It is formed and the fourth upper plate border 140 is provided in parallel with the first upper plate border 110 so as to connect the second upper plate border 120 and the third upper plate border 130 to each other. Heat expansion is prevented with the slit top plate 100 provided with the upper slit 150 in the inner direction from the first, second, third and fourth upper plate borders 110 to 140 with a flat plate, so that the display can be heated while maintaining flatness. It is intended to provide a metal heat distortion-resistant flat panel heater for display.

Another object of the present invention is to provide a first lower panel 210, a second lower panel 220, and a third lower panel at positions corresponding to the first, second, third and fourth upper panel edges 110 to 140, respectively. 230 and the fourth lower plate frame 240 are disposed at a position directly below the slit upper plate 100, and the lower slit 250 is formed in the inner direction from the first, second, third and fourth lower plate borders 210-240. An object of the present invention is to provide a metal thermal deformation prevention flat panel heater for a display that induces thermal expansion in a direction different from that of the upper plate slit by the provided slit lower plate 200 .

Another object of the present invention is to extend downwardly from the four edges of the slit upper plate 100 and the slit lower plate 200 in the ground direction to form a receiving space 310 at a position directly below the slit lower plate 200 . A bottom cover 400 provided to form a ground-direction finish by connecting the side plate 300 and the side plate 300 in the lower part of the accommodation space 310 so as to have a strong structure and prevent deformation. It is intended to provide a metal heat deformation-resistant flat panel heater for display.

Another object of the present invention is to guide the heating element 520 to the heating guide tube 510 that is seated in the receiving space 310 and formed therein to release the heat generated by the heating element 520 to the slit lower plate 200 . ) and the insulator 500 provided to transmit to the slit top plate 100 to provide a metal thermal deformation prevention flat panel heater for a display with improved insulation performance.

Another object of the present invention is that the upper slit 150 has a longitudinal direction parallel to the inner edge at the first, second, third and fourth upper plate edges 110 to 140, and the first, second, third and the fourth upper plate frame (110-140) is provided in about 1/3 of the length, and in the lower slit (250), the length is parallel to the inner edge from the first, second, third and fourth lower plate borders (210-240). direction and to be provided to have the same length as the length of the upper slit 150, the upper slit 150 and the lower slit 250 are provided to deviate from each other at positions starting from the edge to induce thermal expansion differently An object of the present invention is to provide a metal heat distortion-resistant flat panel heater for a display.

Another object of the present invention is that the insulator 500 is provided with a central insulator 530 placed in the accommodating space 310 and an edge insulator 540 placed along the side plate 300, the central insulator The 530 is provided with a bottom surface 531 provided to form a quadrilateral flat and parallel to the ground, and side surfaces 532 formed by vertically bending upward from both ends of the bottom surface 531 are provided, and the side surface 531 of It is provided with an upper surface 533 formed flat from the top in the inward direction and front and rear surfaces 534 forming front and rear so that the front and rear surfaces 534 of the plurality of central insulators 530 are connected to each other, and the edge insulator 540 is a metal thermal deformation for a display in which heating ability and insulation ability are improved by having an opening 541 having an inner side open to change the direction of the heating element 520 accommodated in the heating guide tube 510 . It is intended to provide an anti-plate heater.

Another object of the present invention is that the heating element 520 is made of a rotating heating wire 521 in which one heating wire spirally rotates along the heating guide tube 510 and is disposed in the vicinity of the side plate 300 . The edge insulator 540 is provided with a rotary refraction heating wire 522 so that the traveling direction is switched through rotation, is repeated in an S shape between the side plate 300 and the side plate 300, and forms a unit heating element in one row. and provide a heating area corresponding to the slit top plate 100 while continuously forming a plurality of rows of unit heating elements from one side to the other in the width direction to prevent disconnection and improve heating ability. will do

Another object of the present invention is to further include a plurality of reinforcing members 320 having a bent shape so that a part of the slit top plate 100 spans the upper plate edge and a part spans the side plate 300, and the The curved surface of the reinforcing member 310 is provided as a curved surface 321, and the reinforcing member 320 and the reinforcing member 320 and the reinforcing member 320 are restricted from direct contact with each other at the four corner positions of the slit upper plate 100. An object of the present invention is to provide a metal thermal deformation prevention flat panel heater for display in which a space portion 322 is formed between the reinforcing members 320 to prevent thermal expansion of side portions and corners.

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, in the metal thermal deformation prevention flat panel heater for display related to an example of the present invention for realizing the above-described problem, a first upper plate border 110 is provided on the left side, and the first upper plate frame 110 is formed at both ends of the first upper plate frame 110, respectively. The second upper panel frame 120 and the third upper panel frame 130 are formed in parallel with each other, and the fourth upper panel frame 140 is formed to connect the second upper panel frame 120 and the third upper panel frame 130 to each other. A slit top plate provided with an upper slit 150 inwardly from the first, second, third and fourth upper plate borders 110 to 140 as a rectangular metal flat plate provided in parallel with the first upper plate border 110. (100); may include.

Here, the first lower panel 210, the second lower panel 220, the third lower panel frame 230 and the second panel at positions corresponding to the first, second, third and fourth upper panel frames 110 to 140, respectively. 4 lower plate rim 240 is disposed at a position directly below the slit upper plate 100, and the slit lower plate provided with a lower slit 250 inward from the first, second, third and fourth lower plate borders 210-240 ( 200); may include.

In addition, the slit upper plate 100 and the slit lower plate 200 are provided to extend downwardly from the four edges of the lower plate 200 in the direction of the ground so that the receiving space 310 is formed at a position directly below the slit lower plate 200. 300); may include.

In addition, a bottom cover 400 provided to connect the side plates 300 to each other in the lower portion of the accommodating space 310 to form a finish in the ground direction; may include.

Here, by guiding the heating element 520 to the heating guide tube 510 which is seated in the receiving space 310 and formed therein, the heat generated by the heating element 520 is transferred to the slit lower plate 200 and the slit upper plate. It may include; an insulator 500 provided to transmit to (100).

On the other hand, the upper slit 150 has a longitudinal direction parallel to the inner edge at the first, second, third and fourth upper plate edges 110 to 140, and the first, second, third and fourth upper plate borders 110 ~140) is provided about 1/3 of the length, and the lower slit 250 has a longitudinal direction parallel to the inner edge at the first, second, third, and fourth lower plate borders 210 to 240. It is provided to have the same length as the length of the upper slit 150, and the upper slit 150 and the lower slit 250 may be characterized in that the positions starting from the edge are shifted from each other.

At this time, the insulator 500 is provided with a central insulator 530 placed in the accommodating space 310 and an edge insulator 540 placed along the side plate 300 , and the central insulator 530 is on the ground. A bottom surface 531 provided to form a flat and quadrangular shape in parallel with the side surface 531 is provided, and side surfaces 532 formed by vertically bending upward from both ends of the bottom surface 531 are provided, and from the upper end of the side surface 531 to the inward direction It is provided with a flat upper surface 533 and front and rear surfaces 534 forming front and rear so that the front and rear surfaces 534 of the plurality of central insulators 530 are connected to each other, and the edge insulator 540 is In order to change the direction of the heating element 520 accommodated in the heating guide tube 510, it may be characterized in that it is provided with an opening 541 having one inner surface opened.

Here, the heating element 520 is made of a rotating heating wire 521 in which one heating wire is spirally rotated along the heating guide tube 510, and the edge insulator 540 disposed near the side plate 300. is provided with a rotary refraction heating wire 522 so that the traveling direction is switched through rotation and is repeated in an S shape between the side plate 300 and the side plate 300 to form a unit heating element in one row, in the width direction It may be characterized in that it is provided to provide a heating area corresponding to the slit top plate 100 while continuously forming a plurality of rows of unit heating elements from one side to the other side.

At this time, a plurality of reinforcing members 320 having a bent shape so that a part of the slit top plate 100 spans the upper plate edge and a part spans the side plate 300 is further provided,

The bending surface of the reinforcing member 310 is provided as a curved surface 321, and the reinforcing member 320 and A space portion 322 may be provided between the reinforcing members 320 to be formed.

Accordingly, the present invention provides a metal heat deformation prevention flat heater for display,

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

Second, a first upper plate border 110 is provided on the left side, and a second upper plate border 120 and a third upper plate border 130 are formed in parallel with each other at both ends of the first upper plate border 110, respectively, and the second A fourth upper plate rim 140 is provided in parallel with the first upper plate rim 110 so as to connect the upper plate rim 120 and the third upper plate rim 130 to each other. , 2, 3, and 4 Heat expansion is prevented by the slit top plate 100 having the upper slit 150 in the inner direction from the top plate edges 110 to 140, so that the display can be heated while maintaining flatness.

Third, the first lower panel 210, the second lower panel 220, the third lower panel frame 230 and the fourth at positions corresponding to the first, second, third and fourth upper panel frames 110 to 140, respectively. The lower slit 240 is disposed at a position directly below the slit upper plate 100, and the lower slit 250 is provided in the inner direction from the first, second, third and fourth lower rims 210-240. ) to induce thermal expansion in a direction different from that of the upper plate slit to prevent thermal deformation,

Fourth, the slit upper plate 100 and the slit lower plate 200 are provided to extend downwardly from the four edges in the direction of the ground, so that the receiving space 310 is formed at a position directly below the slit lower plate 200 side plate ( 300) and the bottom cover 400 provided to connect the side plates 300 to each other in the lower portion of the accommodating space 310 to form a ground direction finish, the structure is strong and deformation is prevented.

Fifth, the slit lower plate 200 and the slit upper plate ( 100) to increase the insulation performance with the insulator 500 provided to transmit.

Sixth, the upper slit 150 has a longitudinal direction parallel to the inner edge at the first, second, third and fourth upper plate edges 110 to 140, and the first, second, third and fourth upper plate borders 110 ~140) is provided about 1/3 of the length and has a longitudinal direction parallel to the rim inward from the first, second, third and fourth lower plate borders 210 to 240 in the lower slit 250 and the upper part It is provided to have the same length as the length of the slit 150, and the upper slit 150 and the lower slit 250 are provided to deviate from each other at positions starting from the edge, so that thermal expansion is induced differently.

Seventh, the insulator 500 is provided with a central insulator 530 placed in the accommodating space 310 and an edge insulator 540 placed along the side plate 300, and the central insulator 530 is connected to the ground. A bottom surface 531 provided to be flat and quadrangular in parallel is provided, and side surfaces 532 formed by vertically bending upward from both ends of the bottom surface 531 are provided, and the top surface of the side surface 531 is flat in the inward direction. The front and rear surfaces 534 of the plurality of central insulators 530 are arranged to be connected to each other, and the edge insulator 540 is the heating element. By having an opening 541 having an inner surface open to change the direction of the heating element 520 accommodated in the guide tube 510 , heating ability and insulating ability are improved.

Eighth, the heating element 520 is made of a rotating heating wire 521 in which one heating wire spirally rotates along the heating guide tube 510, and the edge insulator 540 is disposed near the side plate 300. It is provided with a rotary refraction heating wire 522 so that the traveling direction is switched through rotation, is repeated in an S-shape between the side plate 300 and the side plate 300, and forms a unit heating element in one row, one side in the width direction A plurality of rows of unit heating elements are continuously formed from to the other side while providing a heating area corresponding to the slit top plate 100 to prevent disconnection and improve heating ability.

Ninth, a plurality of reinforcing members 320 having a bent shape so that a part of the slit top plate 100 is over the top edge of the slit top plate 100 and a part of the side plate 300 is covered is further provided. The curved surface is provided as a curved surface 321, and at the four corner positions of the slit top plate 100, the reinforcement member 320 and the reinforcement member 320 are limited so that the reinforcement member 320 is directly contacted with each other. A space portion 322 is formed between the space portion 322 to prevent thermal expansion of the side portions and corners.

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 is a 3D view for explaining the overall configuration of a metal heat deformation preventing flat heater for a display according to a preferred embodiment of the present invention.
2 to 3 are 3D views for explaining the configuration of a slit upper plate and a slit lower plate of a metal thermal deformation prevention flat heater for a display according to a preferred embodiment of the present invention.
5 to 11 are 3D views for explaining the configuration of an insulator and a heating element of a metal heat deformation prevention flat heater for a display according to a preferred embodiment of the present invention.
12 and 13 are 3D diagrams for explaining the external configuration of a metal heat deformation prevention flat heater for a display 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 is a 3D diagram for explaining the overall configuration of a metal thermal deformation prevention flat heater for a display according to a preferred embodiment of the present invention, and FIGS. 2 to 3 are metal thermal deformation for a display according to a preferred embodiment of the present invention. It is a 3D drawing for explaining the configuration of the slit upper plate and the slit lower plate of the anti-plate heater, and FIGS. 5 to 11 are the insulator and the heating element of the metal heat deformation prevention flat heater for display according to a preferred embodiment of the present invention. is a 3D drawing, and FIGS. 12 and 13 are 3D views for explaining the external configuration of a metal heat deformation prevention flat heater for a display according to a preferred embodiment of the present invention.

First, as shown in FIG. 2 , in the metal heat deformation prevention flat panel heater for a display according to an embodiment of the present invention, a first upper plate border 110 is provided on the left side, and at both ends of the first upper plate border 110 , respectively. The second upper plate border 120 and the third upper plate border 130 are formed in parallel with each other, and the fourth upper plate border 140 is formed to connect the second upper plate 120 and the third upper plate border 130 to each other. A slit in which an upper slit 150 is formed inwardly from the first, second, third and fourth upper plate borders 110 to 140 with a rectangular metal flat plate provided in parallel with the first upper plate border 110 . A top plate 100 is provided.

That is, the upper slit 150 is configured to prevent the slit top plate 100 from being thermally expanded and deformed through a heat generating member, which will be described later, to prevent flatness from being deteriorated.

Here, the first lower panel 210, the second lower panel 220, the third lower panel frame 230 and the second panel at positions corresponding to the first, second, third and fourth upper panel frames 110 to 140, respectively. 4 lower plate rim 240 is disposed at a position directly below the slit upper plate 100, and the lower slit 250 is formed in the inner direction from the first, second, third and fourth lower plate borders 210-240. 200) is provided so as to be in surface contact with each other at a position directly below the slit top plate 100 .

At this time, the flatness due to thermal expansion is continuously maintained by using the lower slit 250 formed in the lower slit plate 200 .

Here, the side plate 300 is provided to extend downwardly from the four edges of the slit upper plate 100 and the slit lower plate 200 in the ground direction to form a receiving space 310 directly under the slit lower plate 200 . ) will be provided.

In addition, the bottom cover 400 is configured to form a finish in the ground direction by connecting the side plates 300 to each other in the lower portion of the receiving space 310 .

In addition, by guiding the heating element 520 to the heating guide tube 510 seated in the receiving space 310 and formed therein, the heat generated by the heating element 520 is transferred to the slit lower plate 200 and the slit upper plate ( The insulator 500 is configured to transmit to 100).

At this time, the upper slit 150 has a longitudinal direction parallel to the inner edge in the first, second, third and fourth upper plate edges 110 to 140, and the first, second, third and fourth upper plate borders 110 ~140) is provided about 1/3 of the length, and the lower slit 250 has a longitudinal direction parallel to the inner edge at the first, second, third and fourth lower plate edges 210 to 240, and the It is provided to have the same length as the length of the upper slit 150, and the upper slit 150 and the lower slit 250 are provided to shift positions starting from the edge, so that the thermal expansion can be offset from the top and bottom, and heat is generated. The heat of the member is to reach the surface of the slit top plate 100 evenly.

Here, the insulator 500 is provided with a central insulator 530 placed in the accommodating space 310 and an edge insulator 540 placed along the side plate 300, and the central insulator 530 is on the ground. A bottom surface 531 provided to form a flat and quadrangular shape in parallel with the side surface 531 is provided, and side surfaces 532 formed by vertically bending upward from both ends of the bottom surface 531 are provided, and from the upper end of the side surface 531 to the inward direction It is provided with a flat upper surface 533 and front and rear surfaces 534 forming front and rear so that the front and rear surfaces 534 of the plurality of central insulators 530 are connected to each other.

In addition, the edge insulator 540 is provided to have an opening 541 having an inner surface open to change the direction of the heating element 520 accommodated in the heating guide tube 510 .

The heating element 520 seated on the heating guide tube 510 provided in this way consists of a rotating heating wire 521 in which one heating wire rotates spirally along the heating guide tube 510, and the side plate 300 The edge insulator 540 disposed in the vicinity is provided with a rotational refractive heating wire 522 so that the traveling direction is switched through rotation.

In addition, the slit top plate ( 100) and is provided to provide a corresponding heating area.

At this time, the opening 541 of the edge insulator 540 is provided with a side curved surface 541a and a vertical flat surface 541b so that the direction change of the rotary refraction heating element 522 is made smoothly and heat is transmitted evenly. provided, for the same reason

A concave portion 511 and an opening 513 are formed in the central insulator 530 to safely protect the rotating heating wire 521 from protruding upward and to transmit heat upward.

At this time, a plurality of reinforcing members 320 having a bent shape so that a part of the slit top plate 100 spans over the upper plate edge and a part spans the side plate 300 is further provided, The curved surface is provided as a curved surface 321, and at the four corner positions of the slit top plate 100, the reinforcement member 320 and the reinforcement member 320 are limited so that the reinforcement member 320 is directly contacted with each other. A space portion 322 is formed between the slit top plate 100 so as to maintain the flatness of the slit top plate 100 in preparation for thermal expansion of the side plate 300 at the edges and corners.

When the metal heat deformation prevention flat heater for display described in the above embodiment is used, deformation of the flat plate due to heating is prevented during heating to maintain a flat state and uniformly heat the display panel, and the first upper plate on the left side A border 110 is provided, and a second upper plate border 120 and a third upper plate border 130 are formed in parallel with each other at both ends of the first upper plate border 110, respectively, and the second upper plate border 120 and the second upper plate border 120 and the The first, second, third and fourth upper plates are flat metal plates in a square shape in which a fourth upper plate rim 140 is provided in parallel with the first upper plate rim 110 to connect the third upper plate rim 130 to each other. Heat expansion is prevented by the slit top plate 100 having the upper slit 150 in the inner direction from the edges 110 to 140, so that the display can be heated while maintaining flatness, and the first, second, third and fourth At positions corresponding to the upper panel edges 110 to 140, respectively, the first lower panel frame 210, the second lower panel frame 220, the third lower panel frame frame 230, and the fourth lower panel panel frame frame 240, the slit upper panel 100, respectively. ) and heat expansion from the first, second, third and fourth lower plate edges 210-240 to the slit lower plate 200 provided with the lower slit 250 in the inner direction in a different direction from the upper plate slit to prevent thermal deformation, and is provided to extend downwardly from the four edges of the slit upper plate 100 and the slit lower plate 200 in the direction of the ground to the receiving space 310 at a position directly below the slit lower plate 200. The side plate 300 provided to be formed and the bottom cover 400 provided to connect the side plate 300 to each other in the lower part of the accommodation space 310 to form a finish in the ground direction. The heat generated by the heating element 520 by guiding the heating element 520 to the heating guide tube 510 seated in the receiving space 310 and formed inside the slit lower plate 200 and the slit upper plate phrase to pass to (100) Insulation performance is increased with the insulator 500 that is not applied, and the upper slit 150 has a longitudinal direction parallel to the inner edge at the first, second, third, and fourth upper plate borders 110 to 140, and the first , 2, 3, and 4 are provided at about 1/3 of the length of the upper panel borders 110 to 140, and are provided in the lower slit 250 from the first, second, third and fourth lower panel borders 210 to 240 to the inside. It has a length running direction parallel to and is provided to have the same length as the length of the upper slit 150, and the upper slit 150 and the lower slit 250 are provided to deviate from each other at positions starting from the edge to prevent thermal expansion. Guided differently, the insulator 500 is provided with a central insulator 530 placed in the accommodating space 310 and an edge insulator 540 placed along the side plate 300 , the central insulator 530 . is provided with a bottom surface 531 provided to form a quadrilateral flat and parallel to the ground, and side surfaces 532 formed by vertically bending upward from both ends of the bottom surface 531 are provided, and from the upper end of the side surface 531 to the inner side It is provided with an upper surface 533 formed flat in the direction and front and rear surfaces 534 forming front and rear so that the front and rear surfaces 534 of the plurality of central insulators 530 are connected to each other, and the edge insulator 540 . has an opening 541 having an inner side open to change the direction of the heating element 520 accommodated in the heating guide tube 510 to improve heating ability and insulating ability, and the heating element 520 is In the edge insulator 540 disposed in the vicinity of the side plate 300 and made of a rotating heating wire 521 in which one heating wire rotates spirally along the heating guide tube 510, the traveling direction is rotated to be switched through rotation. It is provided with a refraction heating wire 522 and is repeated in an S shape between the side plate 300 and the side plate 300 to form a unit heating element in one row, and a plurality of rows of unit heating elements are connected from one side to the other in the width direction. By providing a heating area corresponding to the slit top plate 100 while forming the inside, disconnection is prevented and heating ability is improved, and a part of the slit top plate 100 is spread over the top plate edge and a part of the side plate 300 is A plurality of reinforcing members 320 having a shape bent to span are further provided, the bent surface of the reinforcing member 310 is provided as a curved surface 321 , and the reinforcing member is provided at the four corners of the slit top plate 100 . A space portion 322 is provided between the reinforcing member 320 and the reinforcing member 320 so that direct contact of the 320 with each other is limited, thereby preventing thermal expansion of the side portions and corners. .

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.

100 ... slit tops
110 ... 1st top plate border
120 ... 2nd top panel border
130 ... 3rd top panel border
140 ... 4th top plate border
150 ... upper slit
200 ... slit lower plate
210 ... 1st lower border
220 ... 2nd lower border
230 ... 3rd lower border
240 ... 4th lower panel border
300 ... side plate
310 ... accommodating space
320 ... reinforcing member
321 ... curved surface
322 ... space department
330 ... power supply
330 ... power supply
400 ... bottom cover
500 ... insulators
510 ... heating guide tube
511 ... cylindrical part
512 ... recesses
513 ... opening
520 ... heating element
521 ... rotating heating wire
522 ...
530 ... central insulator
531 ... underside
532 ... side
533 ... top
534 ... front and back
540 ... border insulator
541 ... opening
541a ... side curvature
541b ... flat top and bottom

Claims (5)

A first upper plate border 110 is provided on the left side, and a second upper plate border 120 and a third upper plate border 130 are formed in parallel with each other at both ends of the first upper plate border 110, respectively, and the second upper plate border A fourth upper plate frame 140 is provided in parallel with the first upper plate border 110 so as to connect 120 and the third upper plate frame 130 to each other. , 3 and 4 slit top plate 100 is provided with an upper slit 150 in the inner direction from the top plate border (110 ~ 140);
A first lower panel 210, a second lower panel 220, a third lower panel frame 230, and a fourth lower panel frame at positions corresponding to the first, second, third and fourth upper panel edges 110 to 140, respectively a slit lower plate 200 having a 240 disposed at a position directly below the slit upper plate 100 and having a lower slit 250 inwardly from the first, second, third and fourth lower plate edges 210-240;
The slit upper plate 100 and the slit lower plate 200 are provided to extend downwardly in the ground direction from the four edges of the slit lower plate 200 to form an accommodating space 310 at a position directly below the slit lower plate 200. Side plate 300 ;
a bottom cover 400 provided to connect the side plates 300 to each other in the lower portion of the accommodating space 310 to form a finish in the ground direction; and
The slit lower plate 200 and the slit upper plate 100 are seated in the accommodating space 310 and guide the heating element 520 to the heating guide tube 510 formed therein to release the heat generated by the heating element 520. Insulator 500 provided to transmit to; including,
Metal thermal strain relief flat panel heater for display.
The method of claim 1,
The upper slit 150 is
A length of 1/3 of the length of the first, second, third, and fourth upper panel borders 110 to 140 has a longitudinal direction parallel to the inner edge, and the first, second, third and fourth upper panel borders 110 to 140 lengths. provided inside and outside,
The lower slit 250 is
The first, second, third and fourth lower plate edges 210 to 240 have a longitudinal direction parallel to the inner edge and are provided to have the same length as the length of the upper slit 150,
Characterized in that the upper slit 150 and the lower slit 250 are provided to be shifted from each other at positions starting from the edge,
Metal thermal strain relief flat panel heater for display.
The method of claim 1,
The insulator 500 is
It is provided with a central insulator 530 placed in the receiving space 310 and an edge insulator 540 placed along the side plate 300, wherein the central insulator 530 is provided to form a quadrilateral in parallel with the ground. A bottom surface 531 is provided, and side surfaces 532 formed by vertically bending upward from both ends of the bottom surface 531 are provided, and an upper surface 533 formed flat inward from the upper end of the side surface 531 and It is provided with front and rear surfaces 534 forming the front and rear surfaces so that the front and rear surfaces 534 of the plurality of central insulators 530 are connected to each other,
The edge insulator 540 is provided so as to have an opening 541 having an inner surface open to change the direction of the heating element 520 accommodated in the heating guide tube 510,
Metal thermal strain relief flat panel heater for display.
4. The method of claim 3,
The heating element 520 is
In the edge insulator 540 disposed in the vicinity of the side plate 300, one heating wire is made of a rotating heating wire 521 that rotates spirally along the heating guide tube 510 so that the traveling direction is switched through rotation. It is provided with a rotary refractive heating wire 522.
The slit top plate 100 is repeated in an S-shape between the side plate 300 and the side plate 300 to form one row of unit heating elements, and a plurality of rows of unit heating elements are continuously formed from one side to the other in the width direction. characterized in that it is provided to provide a heating area corresponding to
Metal thermal strain relief flat panel heater for display.
The method of claim 1,
A plurality of reinforcing members 320 having a bent shape such that a part of the slit top plate 100 spans over the upper plate edge and a part spans the side plate 300 is further provided, the bending surface of the reinforcement member 310 is provided as a curved surface 321, and between the reinforcing member 320 and the reinforcing member 320 so that the reinforcing member 320 is restricted from direct contact with each other at the four corner positions of the slit top plate 100. Characterized in that the space portion 322 is provided to be formed,
Metal thermal strain relief flat panel heater for display.

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