KR101589487B1

KR101589487B1 - Panel structure of assembling outer insulation

Info

Publication number: KR101589487B1
Application number: KR1020150142505A
Authority: KR
Inventors: 이대형
Original assignee: 이대형
Priority date: 2015-10-13
Filing date: 2015-10-13
Publication date: 2016-01-28

Abstract

The present invention relates to a structure to assemble outer insulation panels and, more specifically, relates to a structure to assemble outer insulation panels capable of simplifying a construction process, adjusting a gap to an outer wall, and preventing a diffusion of a fire by having a structure of continuously assembling panels wherein an insulation material and a finishing material are integrated. According to the present invention, the structure to assemble the outer insulation panels comprises: L-shaped fixing frames fixated on a predetermined position of an outer wall of a building; and panels charged with an insulation material and coated with a finishing material having an upper part whereon a panel fixing member bent backwards to have a fitting groove with a rear surface opened to be fitted in a horizontal part of the fixing frame is longitudinally formed and both surfaces whereon panel connection members bent outwards to have a connection groove are respectively formed symmetric to each other. A coupling protrusion protruding at a same height as the panel fixing member is longitudinally formed on an upper part of the panels, and a coupling member having a coupling groove corresponding to the coupling protrusion is longitudinally formed on a lower part thereof. The present invention additionally comprises a floor finishing panel assembled to finish the lower part of the lowermost panels among the panels. The floor finishing panel has a C-shaped fitting groove longitudinally formed with an opened rear surface, an L-shaped groove formed on an upper part of a front side, and a coupling protrusion longitudinally formed on one surface thereof.

Description

[0001] The present invention relates to a panel structure of assembling outer insulation,

More particularly, the present invention relates to a structure for assembling a panel in which a heat insulating material and a finishing material are integrally assembled, thereby simplifying a construction process and controlling a gap with an outer wall, To a prefabricated outer heat insulating panel structure of an outer wall that can prevent the heat insulating layer.

In general, insulation panels made of insulating materials such as urethane foam, glass surface, rock surface and polyester foam are attached to the outer wall of the building continuously to improve the appearance of the building and improve the insulation and soundproofing.

In particular, wet insulation and dry external insulation are applied to exterior insulation by using EPS insulation, flame retardant coating EPS, urethane foam, phenol foam, organic insulation and flame retardant insulation.

In recent years, the use of wet extraneous heat applied with general EPS which is vulnerable to fire because of low cost has been widely used. However, in the case of wet external heat, when fire occurs, the installation of insulation is integrated, , Due to the adhesion method of mortar, the insulation of the material is dropped due to the strong wind pressure, and the finishing work is also vulnerable to fire due to the thin finishing layer. In addition, the structural strength is weak. In case of construction in the subzero weather during the winter construction, the water-based adhesive breaks down and there is a problem such as the disappearance of the finishing material and the complete construction and the failure work according to the skill and reliability of the worker due to the wet construction.

An example of a technique for solving such a problem is disclosed in Document 1 below.

Patent Literature 1 discloses an L-shaped anchor having an L-shape formed by a vertical plate and a horizontal plate, the vertical plate being fixed to a wall surface; A horizontal plate attached to and fixed to an upper rear surface and a lower rear surface of the panel, a fixing plate protruding along the longitudinal direction at the center of the rear surface of the horizontal attachment plate and fixedly engaged with the horizontal plate of the L- A horizontal fixing member protruding in the longitudinal direction and composed of a horizontal mesa plate that fills a gap between adjacent upper and lower panels; A vertical attachment plate fixed to the horizontal attachment plates of the horizontal fixing members adjacent to each other at both ends of the vertical attachment plate and a vertical mage plate protruding along the longitudinal direction at the front center of the vertical attachment plate to fill the gap between the adjacent left and right panels, Wherein the horizontal mounting plate and the vertical mounting plate are bonded to each other with a double-faced tape and silicone, and then the panel is inserted into the mounting space provided by the horizontal and vertical meshed plates, So that the panel is fixed to the horizontal attaching plate and the vertical attaching plate, respectively.

However, in the conventional technique as described above, since the L-shaped angle is provided for fixing the panel to the outer wall and the horizontal fixing member and the vertical fixing member are installed, the manufacturing cost is increased due to the manufacturing of these members, . Further, when the panel is fixed to the outer wall, if the outer wall of the building is not flat, the panel can not be fixed flat.

Korean Registered Patent No. 10-0645488 (Registered on November 2006)

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a structure for continuously assembling a panel in which a heat insulating material and a finishing material are integrated, thereby simplifying a construction process, It is an object of the present invention to provide a prefabricated outer insulation panel structure capable of adjusting a gap with an outer wall and fixing the panel flat on the outer wall.

Further, it is an object of the present invention to provide a prefabricated outer insulation panel structure capable of preventing the panel from falling off due to wind pressure such as a typhoon, preventing inflow of rainwater, and preventing spread of fire due to vertical rise.

It is also an object of the present invention to provide a prefabricated outer insulation panel structure which can vary the finish layers such as dry bits, fine stones, CRC boards, and exposed plaster finishes, and can prevent strength and fire diffusion by adjusting the thickness of the finish layer .

In order to accomplish the above object, a prefabricated outer insulation panel structure according to the present invention comprises: an 'L' shaped stationary frame tightly fixed to a predetermined position of an outer wall of a building; A panel fixing member having a fitting groove in which a rear surface thereof is opened to be fitted to a horizontal portion of the fixing frame is formed in the longitudinal direction, Each panel connecting member having a connecting groove bent outwardly and formed symmetrically with respect to each other; A coupling protrusion protruding at the same height as the panel fixing member is formed in an upper portion of the panel in a longitudinal direction and a coupling member having a coupling groove corresponding to the coupling protrusion is formed in a longitudinal direction; Further comprising a floor finishing panel assembled to finish a lower portion of the panels positioned at the lowermost one of the panels, wherein the bottom finishing panel has a " C "shaped fitting groove with a rear opening formed in the longitudinal direction, And a coupling protrusion is formed in a longitudinal direction on one surface of the depression groove.

As described above, the prefabricated outer insulation panel structure according to the present invention has a structure in which the panels integrally formed with the heat insulating material and the finishing material are continuously assembled, thereby simplifying the construction process and greatly reducing the construction time and construction cost. It is possible to adjust the vertical and smoothness of the panel with respect to the outer wall before and after the vertical wall, the smoothness due to the protruding portion of the outer wall of the city, and the truss for fixing the panel.

In addition, it is possible to solve the vulnerability, safety and economical feasibility of the fire by integrating the vertical and horizontal grooving, taping, silicon finishing, etc. by forming grooves that can finish the joints when the panels are assembled continuously. have.

In addition, it is possible to prevent the panel from falling off due to wind pressure such as a typhoon, to prevent inflow of rainwater, and to prevent fire from spreading due to vertical rise, thereby preventing human and material damage.

In addition, it is possible to diversify the finish layers such as dry bit, fine stone, CRC board, and exposed plaster finish, and it has an effect of preventing the strength and fire spread by controlling the thickness of the finish layer.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a structure of a prefabricated outer insulation panel according to the present invention. FIG.
2 is a cross-sectional view showing a structure of a prefabricated outer insulation panel according to the present invention.
3 is an exploded perspective view showing a fixing frame and a panel of the assembled outer insulation panel structure according to the present invention.
4 is a plan view showing a panel of a prefabricated outer insulation panel structure according to the present invention.
5 is a perspective view showing a panel of a prefabricated outer heat insulating panel structure according to the present invention.
6 is a perspective view showing an assembly state of a panel and a bottom finishing panel according to the present invention.
7 is a perspective view showing an upper finishing panel and a side finishing panel of the assembled outer insulating panel structure according to the present invention.
FIG. 8 is a perspective view showing a column panel for performing direction switching and finishing of the assembled outer insulation panel structure according to the present invention; FIG.
9 is a plan view showing an assembled state of the column panel according to FIG.
10 is a perspective view showing a window finishing panel of a prefabricated outer insulation panel structure according to the present invention.
11 is a view showing an assembly state between a window closing panel and a panel according to Fig.

The prefabricated outer heat insulating panel structure according to the present invention comprises: an "L" shaped stationary frame tightly fixed to a predetermined position on an outer wall of a building; A panel fixing member having a fitting groove in which a rear surface thereof is opened to be fitted to a horizontal portion of the fixing frame is formed in the longitudinal direction, Each panel connecting member having a connecting groove bent outwardly and formed symmetrically with respect to each other; A coupling protrusion protruding at the same height as the panel fixing member is formed in an upper portion of the panel in a longitudinal direction and a coupling member having a coupling groove corresponding to the coupling protrusion is formed in a longitudinal direction; Further comprising a floor finishing panel assembled to finish a lower portion of the panels positioned at the lowermost one of the panels, wherein the bottom finishing panel has a " C "shaped fitting groove with a rear opening formed in the longitudinal direction, And a coupling protrusion is formed in a longitudinal direction on one surface of the depression groove.

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The grooves formed between the panels are filled with an adhesive, and the processed joints are adhered and fixed.

The finishing material is formed of a cement layer, a glass fiber mesh adhered to the cement layer, and a fine layer finished on the glass fiber mesh.

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The upper finishing panel further includes a coupling member having a coupling groove corresponding to the coupling projection of the panel at a front lower portion thereof, and an upper finishing panel assembled to finish an upper portion of the panels positioned at the uppermost one of the panels, Direction.

The panel further includes a side finishing panel assembled to close the side faces of the outermost panels among the panels, wherein the side finishing panel has a finishing member having a fitting groove to be fitted into the panel connecting member on the inner side, Is formed.

Further, the present invention further includes a column panel that is assembled to the panels positioned on the corner side of the panels, wherein the column panel is formed by bending and extending a fitting member that is fitted to one or more adjacent surfaces of the panel panel, .

The window finishing panel further includes a first supporting member having a groove portion to which a joint member is adhered and fixed on the front surface of the first supporting member and protruding from the upper surface of the first supporting member, And a panel fixing member having a first panel on which the panel connecting members having the connecting grooves and which have a connecting groove formed to be symmetrical to each other and a fitting groove extending and bent backward on the upper surface, A second panel having protrusions formed on a front surface thereof, a second support member having a groove portion to which a joint member is adhered and fixed to the front surface thereof and protrudingly formed on the lower surface thereof, The first and second fitting members being respectively fitted to the panel connecting members of other panels fitted to one side of the first and second panels, A second finishing member to be fitted to and joined to the panel connecting member of another panel which is respectively fitted to the other side of the first and second panels is bent and formed to be symmetrical with respect to the first finishing member And a second finishing bracket for supporting the second finishing bracket.

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

FIG. 1 is a perspective view showing a structure of a prefabricated outer heat insulating panel according to the present invention, FIG. 2 is a sectional view showing a prefabricated outer heat insulating panel structure according to the present invention, 4 is a plan view showing a panel of the assembled outer insulation panel structure according to the present invention, and FIG. 5 is a partial perspective view of the panel of the assembled outer insulation panel structure according to the present invention And FIG. 6 is a perspective view showing an assembly state of a panel and a bottom finishing panel of the prefabricated outer panel structure according to the present invention. FIG. 7 is a perspective view of the upper finishing panel and the side finishing panel of the prefabricated outer panel structure according to the present invention. FIG. 8 is a perspective view showing a column panel for performing direction change and finishing of the assembled outer insulation panel structure according to the present invention, and FIG. 9 is a perspective view 10 is a perspective view showing a window finishing panel having a structure of a prefabricated outer heat insulating panel according to the present invention, and FIG. 11 is a perspective view showing a state of assembly between a window finishing panel and a panel according to FIG. Fig.

As shown in FIGS. 1 to 4, the structure of the prefabricated outer heat insulating panel according to the present invention includes a fixed frame 10 tightly fixed to a predetermined position on an outer wall of a building, As shown in Fig.

In particular, the fixing frame 10 is preferably made of a metal material in consideration of strength and the like. The panel 20 is preferably made of a fire-retardant plastic in consideration of fire and heat insulation. The size of the fixed frame 10 and the panel 20 can be changed depending on the size, shape, etc. of the outer wall of the building.

The fixed frame 10 is preferably formed in an L shape so as to be closely contacted with the outer wall of the building. A plurality of through holes 111 are formed at regular intervals in the vertical portion 11 of the fixed frame 10. The fastening members such as fasteners and anchor bolts are passed through the through holes 111 to fix the fastening frame 10 to the outer wall of the building.

The stationary frame 10 is placed on the outer wall in such a manner that the panel 20 can be fixed to the outer wall so as to be vertical and smooth.

The panel 20 is filled with a heat insulating material 23 and a finishing material 24 is applied to the outer surface of the panel 20. The upper portion of the panel 20 is bent and extended rearward to be fitted to the horizontal portion 12 of the fixed frame 10, The panel fixing member 21 having the fitting grooves 211 to be opened is formed in the longitudinal direction and the panel connecting members 22 having the connecting grooves 221 bent outwardly on both sides are symmetrically formed do.

Particularly, since the panel fixing member 21 can be assembled to the fixed frame 10 and the gap between the panel fixing member 21 and the outer wall of the building can be adjusted, the panel 20 can be fixed to the outer wall in accordance with the vertical and smoothness .

The panel fixing member 21 protrudes from one side of the upper surface of the panel 20,

And the panel connecting member 22 is protruded from one end of both sides of the panel 20,

"Now or"

"

When the panel fixing member 21 is assembled to the horizontal portion 12 of the fixing frame 10, an auxiliary adhesive such as silicone is used together to provide airtightness so that there is no gap and the fixing force is strengthened. In addition, when the panel fixing member 21 is assembled to the horizontal portion 12, the fixing force can be reinforced by further tightening the anchor bolts.

The panel connecting member 22 functions to enable the plurality of panels 20 to be assembled continuously in the left and right direction. In the same manner as the panel fixing member 21, when a plurality of panels 20 are assembled and connected, An adhesive such as silicone is used together.

A coupling protrusion 25 protruding at the same height as the panel fixing member 21 is longitudinally formed on an upper portion of the panel 20 and a coupling groove 261 corresponding to the coupling protrusion 25 is formed at a lower portion thereof And an adhesive such as silicone is preferably used together when the engaging protrusions 25 and the engaging grooves 261 are engaged with each other.

A plurality of panels 20 which are vertically continuously assembled by the engaging projections 25 and the engaging members 26 are rigidly supported to prevent peeling due to wind pressure such as strong winds or typhoons.

Further, since the jaws are formed naturally by the formation of the coupling protrusions 25, the coupling member 26, and the panel fixing member 21, rainwater or the like is prevented from flowing into the clearance of the panel 20 in advance.

The grooves 27 are formed between the panels 20 while the panels 20 are continuously assembled in the up, down, left, and right directions. The grooves 27 are filled with an adhesive, . The processed joint material 30 is adhered and fixed to the groove portion 27 in a state in which all the panels 20 are assembled on the outer wall of the building. Since the pre-processed product is used, As a result, it is possible to prevent the joint material from getting on the panel due to the flow of the joint material, and besides, it is possible to greatly reduce the construction period and cost by simplifying the construction by eliminating the horizontal and vertical diagonal lines and the silicon finishing process.

The prefabricated outer insulation panel structure according to the present invention is a structure in which panels 20 are rapidly assembled vertically, horizontally, and laterally so as to reduce the horizontal and vertical lines of work on the outer wall of a building, It has the advantage of saving manpower, reducing construction cost and working in winter.

Also, according to the present invention, since the panels 20 are individually assembled, it is possible to prevent the spread of fire, which is a problem of the existing wet external insulation structure made up of the heat insulating material continuous attachment system, to prevent human and material damage.

5, the finishing material 24 includes a cement layer 241, a glass fiber mesh 242 attached to the cement layer 241, (243).

The finishing material 24 is finished on the outer surface of the heat insulating material 23 filled in the panel 20 after the panels 20 are assembled and the heat insulating material 23 is preferably made of EPS or urethane And a plurality of grooves are formed in the form of a lattice pattern using a heat ray to reinforce the strength.

The cement layer 241 is formed by applying mortar or attaching a cement board to the outer surface of the heat insulating material 23 and the glass fiber mesh 242 is formed on the surface of the cement layer 241, And the mortar may be applied again to the surface. The fine matte layer 243 finishes by selecting any one of a fine stone, a dry bit, a CRC board, and an exposed plaster finish.

6, the bottom finishing panel 40 may further include a bottom finishing panel 40, which is assembled to finish the bottoms of the panels positioned at the bottom of the panels 20, An opening "C" -shaped fitting groove 41 is formed in the longitudinal direction, an upper " C "shaped concave groove 42 is formed, and a coupling projection 43 is formed in the longitudinal direction do.

The horizontal part 12 of the fixed frame 10 is fitted into the fitting groove 41 and the coupling protrusion 43 is engaged with the coupling part of the panel 20 located at the lowermost end of the outer wall among the plurality of panels 20. [ And is coupled to the groove 261. Particularly, when the horizontal part 12 of the fixing frame 10 is fitted to the fitting groove 41, an adhesive such as silicone is used together to prevent the bottom finishing panel 40 from being detached from the fixing frame 10 .

7, the upper finishing panel 50 may further include an upper finishing panel 50, which is assembled to finish an upper portion of the uppermost panels among the panels 20, A coupling member 51 having a coupling groove 511 corresponding to the coupling projection 25 of the panel 20 is formed in the longitudinal direction. It is preferable to use an adhesive such as silicone when the engaging projections 25 of the panel 20 and the engaging grooves 511 of the upper finishing panel 50 are engaged.

Therefore, the coupling recess 511 of the upper finishing panel 50 and the coupling protrusions 25 of the panel 20 located at the uppermost one of the panels 20 are coupled to each other, Cover.

The side finishing panel 60 may further include a side finishing panel 60 that is assembled to close the sides of the outermost panels among the panels 20, (61) having a fitting groove (611) to be fitted into the fitting groove (22) is formed.

Particularly when the closing member 61 of the side finishing panel 60 is fitted to the panel connecting member 22 of the outermost panel 20, 22 so that the side finishing panel 60 is not detached.

8 and 9, the panel panel 70 may further include a column panel 70 assembled to the panels located on the corner side of the panels 20, and the column panel 70 may include adjacent one And a fitting member 71 to be fitted into the panel connecting member 22 is formed to be bent and extended.

That is, any one of the fitting members 71 formed on one or more surfaces of the column panel 70 is inserted into the connecting groove 221 of the panel connecting member 22 formed on the side of the panel 20 located on the corner side, Are bonded together by using the adhesive of the adhesive layer. And the panel connecting member 22 of the panels 20 installed on the other side of the edge side is fitted to the other shim member 71 so that the panel 20 is continuously assembled.

The window finishing panel 80 may further include a window finishing panel 80 assembled in the up, down, left, and right directions between the panels 20, as shown in FIGS. 10 and 11, 81, a second panel 82, a first finishing bracket 83, and a second finishing bracket 43.

The first panel 81 includes a first support member 811 having a groove portion 811a to which a joint material 30 is adhered and fixed on a front surface thereof and a coupling groove 812a Member 812 is protruded and the panel connecting members 813 having the connecting grooves 813a are formed symmetrically with respect to each other.

The second panel 82 has a groove 822a having a groove 822a on which a panel fixing member 821 having a fitting groove 821a which is bent and extended backward is protruded, 2 supporting members 822 protrude downward and each of the panel connecting members 823 having the connecting grooves 823a extended outwardly on both sides thereof are formed symmetrically with respect to each other.

The grooves 811a and 822a formed in the first panel 81 and the second panel 82 are filled with an adhesive and the processed joint material 30 is adhered and fixed to the fixed frame 10 fixed to the outer wall And an adhesive such as silicone is used together to join each other.

The first finishing bracket 83 is connected to the panel connecting member 22 of the other panel 20 fitted to one side of the first and second panels 81 and 82, Is formed to be bent and extended.

The second finishing bracket 84 includes a second fitting member 841 fitted to the panel connecting member 22 of the other panel 20 fitted to the other side of the first and second panels 81 and 82, Is formed to be bent and symmetrical with respect to the first shim member 831.

The first finishing bracket 83 and the second finishing bracket 84 are disposed on both sides of the first panel 81 and the second panel 82 to close the side surfaces of the other panels 20, So that a plurality of panels 20 are connected and assembled, and a groove portion to which the joint material 30 is adhered and fixed is formed.

The window finishing panel 80 includes a first panel 81 installed on the lower side of the window with respect to the window, a panel 20 connected to both sides of the first panel 81, The first finishing bracket 83 and the second finishing bracket 84 are connected to the side surface of the panel 20 and closed. The panels 20 connected to the first and second finishing brackets 83 and 84 and the second panel 82 located on the upper side of the window are connected and assembled.

The window finishing panel 80 configured as described above is used to finish the side surfaces of the panels 20 installed around the windows formed on the outer wall, while preventing deformation in the process of partitioning the panels according to the shape of the windows, .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the scope of the invention.

10: Fixed frame
11:
12:
111: Through hole
20: Panel
21: Panel fixing member
211: Fitting groove
22: panel connecting member
221: Connection groove
23: Insulation
24: Finishing material
241: cement layer, 242: glass fiber mesh, 243: plaster layer
25:
26:
261: Coupling groove
27: Groove
30: jointing material
40: Floor Finishing Panel
41: fitting groove
42:
43: engaging projection
50: upper finishing panel
51:
511: Coupling groove
60: side finishing panel
61:
611: Fitting groove
70: Column panel
71:
80: Window Closing Panel
81: First panel
811: first support member, 811a:
812: coupling member, 812a: coupling groove
813: panel connecting member, 813a: connecting groove
82: second panel
821: Panel fixing member, 821a: Fitting groove
822: second supporting member, 822a:
823: panel connecting member, 823a: connecting groove
83: 1st finishing bracket
831:
84: 2nd finishing bracket
841:

Claims

An L-shaped stationary frame 10 fixedly attached to a predetermined position of a building exterior wall;
A heat insulating material 23 is filled in the heat insulating material 23 and a finishing material 24 is applied to the outer surface of the heat insulating material 23 and the upper part of the upper part of the heat insulating material 23 extends rearward to be fitted into the horizontal part of the stationary frame 10, Wherein the panel fixing member is formed in a longitudinal direction and each of the panel connecting members is bent symmetrically with respect to the panel connecting member,
A coupling protrusion 25 protruding at the same height as the panel fixing member 21 is longitudinally formed on an upper portion of the panel 20 and a coupling groove 261 corresponding to the coupling protrusion 25 is formed at a lower portion thereof The engaging member 26 is formed in the longitudinal direction;
Further comprising a floor finishing panel (40) assembled to finish a lower portion of the panels located at the bottom of the panels (20), the floor finishing panel (40) having a " (41) is formed in the longitudinal direction, and an engaging recess (42) in the shape of "?" Is formed in the front upper part, and a coupling protrusion (43) .

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The method according to claim 1,
Wherein the groove (27) formed between the panels (20) is filled with an adhesive and the processed joint material (30) is adhered and fixed.

The method according to claim 1,
The finishing material 24 is formed of a cement layer 241, a glass fiber mesh 242 attached to the cement layer 241 and a fine layer 243 finished to the glass fiber mesh 242 A prefabricated outer insulation panel structure.

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The method according to claim 1,
Further comprising an upper finishing panel (50) assembled to finish an upper portion of the uppermost panels of the panels (20), wherein the upper finishing panel (50) 25) is formed in the longitudinal direction of the coupling member (51).

The method according to claim 1,
Further comprising a side finishing panel (60) assembled to close the sides of the outermost panels among the panels (20), wherein the side finishing panel (60) And a closing member (61) having a fitting groove (611) to be fitted to the fitting member (61) is formed.

The method according to claim 1,
And a column panel (70) assembled to the panels located on the corner side of the panels (20), wherein the column panel (70) Is formed to be bent and extended.

The method according to claim 1,
And a window finishing panel 80 assembled in the up, down, left, and right directions between the panels 20. The window finishing panel 80 has a groove portion 811a through which a joint material 30 is adhered and fixed A coupling member 812 having a coupling groove 812a at the lower portion thereof is protruded and a first supporting member 811 is formed at an upper portion of the coupling member 813a, A panel fixing member 821 having a first panel 81 formed to be symmetrical with respect to the first panel 813 and a fitting groove 821a bent and extended backward is formed and a joint material 30 is adhered to the front surface A second support member 822 having a groove portion 822a to be fixed is protruded downward and each panel connection member 823 having a connection groove 823a which is bent and extended outward is formed symmetrically with respect to each other. A second panel 82, and another panel 82 fitted to one side of the first panel 81, A first finishing bracket 83 in which a first fitting member 831 is bent and extended so as to be fitted into the panel connecting member 22 of the board 20 and a second finishing bracket 83 formed on the other side of the first and second panels 81, And a second finishing member 841 which is fitted and joined to the panel connecting member 22 of the other panel 20 which is respectively fitted to the first and second fitting members 831 and 822 and which is formed to be symmetrical with respect to the first fitting member 831, And a bracket (84).