KR101059319B1 - Non-combustible exterior wall panel for building and construction method - Google Patents

Abstract

In the present invention, a heat insulating material layer made of a non-combustible material having excellent heat insulation is formed on the outer surface of the base material made of a flame retardant material, and a mesh layer is formed on the outer surface of the heat insulating material layer, while a finish layer is formed on the outer surface of the mesh layer. The insulation and non-combustibility of the building can be further improved by attaching and forming the non-combustible material, which is a disadvantage of the conventional simple foamed styrene (EPS) series insulation and the non-combustible material, which is the biggest disadvantage in the exterior wall finishing method by the dry bit method. A non-combustible outer wall panel for building and a method of constructing the same are disclosed.

The present invention has a size and thickness according to the design, and a base material made of any one material selected from CRC board (Cellulose fiber Reinforced Cement Board), plywood, steel sheet, gypsum board having a flame retardancy; It is made of any one material selected from rock wool or glass wool, and is formed to have the same size as the base material and a thickness thicker than the base material, and is bonded in close contact with the outer surface of the base material. An insulation layer; A mesh layer made of a nonwoven fabric or glass cloth fabric (GCF) or glass fiber or steel material, the mesh layer being bonded to the outer surface of the insulation layer; It includes a finish layer made of lightweight brick, tile or marble attached to the outer surface of the mesh layer or painted on the outer surface of the mesh layer.

Outer wall panel, base material, insulation layer, mesh layer, finish layer, fastener, rock wool

Description

Non-combustible exterior wall panel for construction and construction method {Architectural panel for outer wall and construction process of the same}

The present invention relates to a non-combustible outer wall panel for building and its construction method, and more particularly, to form an insulation layer made of a non-combustible material having excellent heat insulation on the outer surface of the base material made of a flame-retardant material, the lattice ( While forming a mesh type mesh layer, by attaching and forming a finish layer on the outer surface of the mesh layer, the insulation and non-combustibility of the building are further improved, which is a disadvantage of the conventional simple foamed styrene (EPS) -based insulation. The present invention relates to a non-combustible exterior wall panel for building and its construction method which can solve the non-combustibility which is the biggest disadvantage in the exterior wall finishing method by non-flammable ductility and dry bit method.

In general, in the construction surface of the concrete wall, brick masonry wall or steel stud constituting the building to prevent rainwater from seeping into the interior of the building during rainy weather, outer wall panels of various materials are beautifully decorated. It is constructed.

Such exterior wall panel for building is made of a non-metal or metal material such as aluminum, hot-dip galvanized steel sheet, stainless steel sheet in consideration of durability, the outer wall panel of such a metal material is cut non-metal or metal plate material to a predetermined size according to the design, The edges are processed by bending or welding the edges, and after the edges are processed into a predetermined shape, the surface is finished.

However, in the case of finishing the conventional building exterior wall panel made of non-metallic or metallic materials, most of the finishing process is expensive after coating or heat treatment in a chemical precipitation tank, and is expensive to be used. Of course, there is a problem that can not be applied to a variety of finishing materials, and because of the serious environmental pollution caused by the discharge of various pollutants are not environmentally friendly.

In addition, when a conventional building exterior wall panel made of metal or non-metallic material is to be installed on the wall of a building, an insulation material of foam-styrene (EPS) series such as a styrofoam block is essentially disposed inside the metal panel for insulation. Should be installed in the bar, there is a problem that the heat treatment for the stud (Stud) itself is usually installed vertically in the wall of the building in the conventional case is very difficult.

As a result of the difficulty of the insulation treatment, if the insulation treatment for the stud part is excluded during the construction of the exterior wall panel, there is a problem that the insulation effect of the building is significantly lowered due to the heat bridge phenomenon. Or there is a problem that can not prevent condensation (結露) phenomenon that water droplets form on the back.

In the case of the conventional exterior wall panel made of metal or non-metallic materials, there is a serious problem that the smoothness after construction is extremely high due to high expansion and contraction such as expansion when the outside temperature increases and shrinkage when the outside temperature decreases.

In addition, when the impact force is applied from the outside before or after construction, the impact force may not be properly dispersed and attenuated, and thus the impact resistance is very weak, such as being easily crushed or damaged. There is a problem that it is difficult to shorten the air and construction is difficult because of the construction.

Accordingly, recently, the dry beet method of applying a foamed styrene-based insulation board to a wall of a building, attaching a mesh made of glass fiber (MESH), and then treating it with an external finishing material has been applied, but an exterior wall panel constructed by the dry bit method described above In case of fire, the problem is that it is vulnerable.

The present invention is to solve such a conventional problem, the object is to form a heat insulating material layer made of a non-combustible material excellent in heat insulation on the outer surface of the base material made of a flame-retardant material, a lattice mesh on the outer surface of the heat insulating material layer While forming the (Mesh) layer, by attaching and forming a finish layer on the outer surface of the mesh layer, the insulation and non-combustibility of the building is further improved, thereby causing non-combustibility and dry bits, which are disadvantages of the conventional EPS foam insulation. It is to provide a non-combustible exterior wall panel for building that can solve the non-combustibility which is the biggest disadvantage in the exterior wall finishing method by the construction method.

Another object of the present invention is to provide a method for constructing a new non-combustible outer wall panel for building, which makes it easier to construct the building outer wall panel.

In order to achieve the above object, the building exterior wall panel according to the present invention has a predetermined size and thickness according to the design, and any one material selected from CRC board (Cellulose fiber Reinforced Cement Board), plywood, steel sheet or plaster board having flame retardancy Base material consisting of; It is made of any one material selected from rock wool or glass wool, and is formed to have the same size as the base material and a thickness thicker than the base material, and is bonded in close contact with the outer surface of the base material. An insulation layer; A lattice mesh layer made of a nonwoven fabric, glass cloth fabric (GCF), glass fiber or steel, and bonded to the outer surface of the heat insulating material layer; It includes a finish layer made of lightweight bricks, tiles or marble attached to the outer surface of the mesh layer or painted on the outer surface of the mesh layer.

 In order to combine the base material and the heat insulating material layer and the mesh layer in the present invention, the predetermined position on the outer surface of the base material to a vertical portion having a predetermined size, and the horizontal portion of a predetermined length bent outward from the top and bottom of the vertical portion A fastening piece having a "c" type side cross section structure is fixed and installed by a fastening member of a screw or rivet; A fastening piece fitting hole in which the fastening piece is fitted is formed on the surface of the insulation layer and the mesh layer corresponding to the installation position of each fastening piece; The upper and lower horizontal portions on the fastening piece fitted through the fastening piece fitting holes on the insulation layer and the mesh layer are inserted into upper and lower through holes on a separate fixing piece which is in close contact with the outer surface of the fastening piece fitting holes on the mesh layer, and then bent upward or downward. Has configured features.

In order to achieve the above another object, the construction method of the building exterior wall panel according to the present invention is the installation position of the outer wall panel along the longitudinal and transverse direction on the steel stud (Stud) erected perpendicular to the position of the wall or wall of the building A baseline setting step of setting; A fixing plate having a predetermined size fixed to the wall is formed on the upper portion, and a coupling plate is formed on the lower portion by a fastening member for fixing the outer fastening member in close contact with the inner surface of the base member constituting the outer wall panel. Preparing a mounting bracket having a stepped fitting fitting jaw formed in a stepped shape for inserting a separate connection piece for connecting the outer wall panels disposed adjacent to each other in the longitudinal or transverse direction between the fixing plate and the coupling plate; The inner surface of the base material is brought into close contact with the joining plate on the mounting bracket, and the vertical part on the fastening piece is in close contact with the outer surface of the base material corresponding to the joining plate. Fastening the fastening member toward the coupling plate from the base material and installing the fastening piece on the coupling plate on the mounting bracket; Fixing the fixing plate on the mounting bracket to which the base material and the fastening piece are coupled to the wall or the steel stud with an anchor bolt, or welding and fixing a separate fixing member to which the base material and the fastening piece are coupled to the steel stud; Insulating the insulation layer having a mesh layer on the outer surface in close contact with the outer surface of the base material fixed on the wall or steel stud so that each fastening piece on the base material is fitted into the fastening piece fitting hole on the heat insulating material layer, fastening on the heat insulating material layer Fixing the upper and lower horizontal portions on the fastening piece protruding outward from the knitting hole to the bottom or top, respectively, to fix the insulation layer and the mesh layer bonded to the base material; Applying an adhesive to an outer surface of the mesh layer and attaching bricks, tiles, or marble, or painting the outer surface of the mesh layer to form a finish layer.

According to the present invention, a heat insulating material layer of a material having excellent heat insulation and non-combustibility is combined with an outer surface of a base material made of a flame retardant material, and a flame-retardant mesh layer is formed on the outer surface of the heat insulating material layer, while on the outer surface of the mesh layer As a finishing layer is formed by attaching bricks, tiles, or marble by an adhesive or by painting, there is an effect of greatly improving heat insulation and non-combustibility compared to conventional exterior wall panels.

In addition, if the present invention is applied to the mesh using a separate mounting bracket after the base material is fixed on the wall or steel studs by combining the insulation layer having a mesh layer formed on the outer surface of the base material in a fitting manner Attaching bricks, tiles, or marble to the outer surface of the floor has the effect that the construction is very simple as the construction of the outer wall panel is completed.

In addition, the application of the present invention can simplify the construction period while satisfactorily satisfying the building standards, and significantly reduce the construction period, as well as greatly reduce the cost, and improve the quality of the product through quality control based on factory production. It is possible to improve the production of each part integrally, and is constructed by the assembly method is convenient to transport, it is possible to reuse when dismantling later to minimize the generation of construction waste has the effect of being environmentally friendly.

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

1 is an exploded perspective view showing a non-combustible outer wall panel for building according to the present invention, Figure 2 is a perspective view of the construction state of the non-combustible outer wall panel for building according to the present invention.

In addition, Figure 3 is a side cross-sectional view showing a state in which the base member is coupled to the fastening member in the construction method of the non-combustible outer wall panel for building according to the invention installed on the wall via a mounting bracket, Figure 4 is a non-combustible outer wall for building according to the present invention In the construction method of the panel is a side cross-sectional view showing a state in which the insulation layer, the mesh layer and the finish layer is sequentially installed on the outer surface of the base material installed on the wall.

In addition, Figure 5 is a side cross-sectional view showing a state in which the non-combustible outer wall panel for building construction in the present invention by the mounting bracket of another example, Figure 6 is a side cross-sectional view showing a state in which the neighboring building non-combustible outer wall panel is installed in the longitudinal direction in the present invention. to be.

Referring to this, the present invention forms a heat insulating material layer made of a non-combustible material having excellent heat insulating property on the outer surface of the base material made of a flame retardant material, while forming a mesh layer on the outer surface of the heat insulating material layer, the outer surface of the mesh layer By adding and forming a finishing material layer on the building, the insulation and non-combustibility of the building are further improved. It is possible to solve the problem, and to make the outer wall panel simpler to construct.

To this end, the building exterior wall panel 10 according to the present invention has a base material 12 having a predetermined size and thickness according to the design, a heat insulating material layer 14 bonded to the outer surface of the base material, and the heat insulating material layer 14 It consists of a mesh layer 16 attached to the outer surface of the finish layer 18 bonded or painted on the outer surface of the mesh layer.

In the present invention, the base material 12 is made of any one material selected from a flame retardant CRC board (Cellulose fiber Reinforced Cement Board), plywood or steel sheet or gypsum board.

In addition, the heat insulating material layer 14 is made of any one material selected from rock wool or glass wool, and is formed in the same size as the base material 12, so as to have a predetermined thickness according to the design. Is formed is configured to be coupled in close contact with the outer surface of the base material (12).

The insulation layer 14 may vary in thickness and density depending on external factors such as construction area, construction site environment, temperature, surface strength, etc. Silver can be manufactured by the method of bonding with an adhesive agent in the state which arrange | positioned the high density thing.

In the present invention, the mesh layer 16 bonded in close contact with the outer surface of the heat insulating material layer 14 is made of a nonwoven fabric or glass cloth fabric (GCF) or a glass fiber or steel material woven in a fine lattice form.

On the other hand, the finishing material layer 18 of the present invention may be made of a lightweight brick, tile or marble attached to the outer surface of the mesh layer 16 with an adhesive, the outer surface of the mesh layer 16 (도장) Iii) may be formed in such a manner as to be treated.

In order to combine the base material 12, the heat insulating material layer 14 and the mesh layer 16 in the building exterior wall panel 10 of the present invention described above, a fastening piece 20 provided separately at a predetermined position on the base material 12 It is fixed and installed, the fastening piece fitting hole (14a) is formed in the heat insulating material layer 14 and the mesh layer 16 is fitted into the fastening piece 20 on the base material 12, the fastening piece fitting hole The outer end of the fastening piece 20 fitted through 14a is configured to be locked by a separate fixing piece 24 on the outer surface of the mesh layer 16.

The fastening piece 20 has a vertical portion 20a having a predetermined size and a horizontal portion 20b having a predetermined length horizontal portion 20b bent outward from the upper and lower ends of the vertical portion 20a. Has a fixed on the outer surface of the base material 12 by a separate fastening member 22, such as a screw or rivet.

In addition, the fixing piece 24 is made of a size that can cover the fastening piece fitting hole (14a) formed on the outer surface of the mesh layer 16, the upper and lower horizontal portions 20b on the fastening piece 20 on the upper and lower surfaces ) Has a structure in which a through hole 24a is fitted.

In order to bond the heat insulating material layer 14 to which the mesh layer 16 is coupled to the base material 12, the heat insulating material layer 14 and the mesh on the fastening piece 20 fixedly installed on the base material 12. The fastening piece fitting holes 14a on the layer 16 are fitted to each other, and are fitted through the fastening piece fitting holes 14a on the heat insulating material layer 14 and the mesh layer 16 to protrude on the outer surface of the mesh layer 16. The upper and lower horizontal portions 20b on the fastening pieces 20 are fitted into the upper and lower through holes 24a on the fixing pieces 24 and then bent upwards or downwards.

In the present invention, when the plurality of outer wall panels 10 are connected to each other in the longitudinal or transverse direction, the base material constituting the outer wall panel 10 so that the contact surface of each outer wall panel 10 can be fitted to each other The groove 12a may be formed along the longitudinal direction of the top surface of the 12, and the protruding jaw 12b may be formed along the longitudinal direction of the bottom surface.

The non-combustible outer wall panel for building according to the present invention thus constructed is constructed as follows.

1 to 6, when the outer wall panel 10 according to the present invention is to be constructed on the wall 34 of the building or the steel studs 36 perpendicular to the position where the wall is formed, first, the wall ( 34) or a reference line indicating the installation position of the outer wall panel 10 along the longitudinal and transverse directions of the steel studs 36 is set.

Then, the base member 12 constituting the outer wall panel 10, a separate mounting bracket 28 that can be fixed on the wall 34 or the steel stud 36, or a flat plate or hat-shaped metal fixing member ( 39).

The mounting bracket 28 has a fixed plate 28b having a predetermined size fixed to the wall 34 or the steel stud 36 at the upper portion thereof, and the base member 12 constituting the outer wall panel 10 at the lower portion thereof. In the state in close contact with the inner surface of the) to be coupled to the coupling plate 28a is formed by the fastening member 22 for fixing the fastening piece 20 of the outside.

In addition, between the fixing plate (28b) and the coupling plate (28a) of the stepped form so that a separate connecting piece 32 for connecting the outer wall panel 10 disposed adjacent to the longitudinal or transverse direction can be fitted Connection piece fitting jaw (30) is made of a structure formed.

Then, the inner surface of the base member 12 is brought into close contact with the coupling plate 28a on the mounting bracket 28 prepared in advance as shown in FIG. 3, and the base member 12 corresponding to the coupling plate 28a is provided. The fastening member 22 is fastened from the coupling plate 28a toward the vertical part 20a on the fastening piece 20 in a state where the vertical part 20a on the fastening piece 20 is brought into close contact with the outer surface of the fastening piece 20, or the fastening piece ( The fastening member 22 is fastened from the vertical portion 20a on the side toward the coupling plate 28a so that the base member 12 and the fastening piece 20 are installed on the coupling plate 28a on the mounting bracket 28. do.

At this time, the connection piece 32 is provided between the inner side of the boundary portion of the base member 12 which is installed to be connected to each other along the longitudinal direction and the transverse direction and the connecting piece fitting jaw 30 on the mounting bracket 28 is fitted in the state Fastening to the member 22 so that the neighboring base material 12 is firmly coupled to each other.

In this state, the fixing plate 28b on the mounting bracket 28 to which the base member 12 and the fastening piece 20 are coupled is driven by anchor bolts 26 for a predetermined position of the wall 34.

Alternatively, as shown in FIG. 2, when the outer wall panel 10 is installed on the steel stud 36, the steel stud is a flat iron or hat-shaped fixing member 39 to which the base member 12 and the fastening piece 20 are coupled. (36) Weld and fix in a state of being in close contact with the inner surface portion of the predetermined position on the (36).

On the outer surface of the wall 34 or the steel stud 36, a plurality of base material 12 is installed in a state connected to each other in the longitudinal and transverse direction, each predetermined position on the outer surface of each base material 12 The fastening piece 20 is fixed and protrudes.

In the case where the groove 12a is formed on the top and one side of the base member 12 connected to each other in the longitudinal and transverse directions, and the protruding jaw 12b is formed on the bottom and the opposite side of the base member 12, as shown in FIG. As described above, as the protruding jaw 12b on the lower surface of the upper substrate is fitted into the recess 12a on the upper surface of the lower substrate 12, the connection between the substrate 12 is more stable.

Then, as illustrated in FIG. 4, the insulating layer 14 having the mesh layer 16 attached to the outer surface of the base 12 is brought into close contact with each other, and each fastening piece 20 on the base 12 is attached. ) Is inserted into the fastening piece fitting hole 14a on the heat insulating material 14 layer, the upper and lower horizontal portions 20b on the fastening piece 20 protrude outward from the fastening piece fitting hole 14a on the mesh layer 16. It becomes a state.

In this way, the through-hole 24a on the fixing piece 24 is fitted to the upper and lower horizontal portions 20b on the fastening piece 20 protruding to the outside of the mesh layer 16, and then the upper and lower horizontal parts on the fastening piece 20 ( When the 20b) is bent upward or downward, respectively, the heat insulating material layer 14 and the mesh layer 16 bonded to the base material 12 are fixed.

In this state, when the adhesive is applied to the outer surface of the mesh layer 16 and the brick, the tile, or the marble is attached, the finish layer 18 is formed and the construction of the outer wall panel 10 is completed.

The finish layer 18 may be formed by painting the outer surface of the mesh 16 layer.

The following Table 1 is a comparison table of the heat transmission rate of the local building area determined by Article 21 (prevention of heat loss of the building) and the heat transmission rate of the heat insulating material applied to the present invention, and Table 2 is a heat insulating grade and It is a comparison table of the thickness and the thickness of the heat insulating material applied to this invention.

Table 1.Comparison table of heat transmission rate of local building site and heat insulation rate of insulation of the present invention

Site of building
Heat transmission rate (unit: W / m ² .k)

Remarks

Exterior wall of living room

When facing the outside air
Central Southern The present invention
insulator
0.47
0.58
0.30

Table 2. Insulation grade and thickness of local buildings and thickness comparison table of the present invention

Grade of building of insulation Allowable Thickness by Insulation Grade (mm)

Remarks

Living room
outer wall

Outside
If you face

end

I
All
la Insulation material of the present invention
65
75
85
100
50
* See Asterisk

* Asterisk: Insulation Classification Table

Rating
Classification
Range of thermal conductivity
Thermal conductivity under test conditions of 20 ± 5 according to KS L9106 or KS F2227 Corresponding insulation and other insulation according to KS M3808,3809 and KS L9102
(W / mk) kcal / mh)
end
0.034 or less
0.029 or less If the thermal conductivity is less than 0.034W / mk (0.029kcal / mh) as other insulation
I
0.035-0.040
0.030-0.034 As other heat insulator, when thermal conductivity is less than 0.035 ~ 0.040W / mk (0.030 ~ 0.034kcal / mh)

As shown in Table 1 and Table 2, the heat insulating material applied to the building non-combustible outer wall panel according to the present invention is 0.30W / heat permeability despite the relatively very thin (50mm) compared to the thickness of the conventional EPS foam insulation (EPS) As shown by m ² .k it can be seen that a very excellent heat insulating effect compared to the conventional heat insulating materials.

In addition, the non-combustible exterior wall panel for building according to the present invention is excellent in thermal insulation as described above, and the heat insulating material is made of rock wool or glass fiber, and the outer surface is made of a non-combustible structure in which a lattice mesh layer made of glass fiber or steel material is laminated. It will not catch fire in case of fire.

1 is an exploded perspective view showing a non-combustible outer wall panel for building according to the present invention.

Figure 2 is a perspective view of the construction state of the non-combustible outer wall panel for building according to the present invention.

Figure 3 is a side cross-sectional view showing a state in which the base member coupled to the fastener in the construction method of the non-combustible outer wall panel for building according to the invention installed on the wall via a mounting bracket.

Figure 4 is a side cross-sectional view showing a state in which the insulation layer and the mesh layer and the finish layer is sequentially installed on the outer surface of the base material installed on the wall in the construction method of the non-combustible outer wall panel for building according to the present invention.

Figure 5 is a side cross-sectional view showing a state in which the non-combustible outer wall panel for building construction in the present invention by the mounting bracket of another example.

Figure 6 is a side cross-sectional view showing a state in which the non-combustible outer wall panels for building construction in the present invention in the longitudinal direction.

* Description of the symbols for the main parts of the drawings *

12: base material 14: insulation layer

14a: fastener pieces 16: mesh layer

18: finishing layer 20: fastener

22: fastening member 24: fixed piece

28: mounting bracket 30: fitting piece fitting jaw

32: connection piece 39: fixing member.

Claims (3)

A base material 12 having a predetermined size and thickness according to the design, and made of any one material selected from a CRC board (Cellulose fiber Reinforced Cement Board), plywood, steel sheet, and gypsum board having flame retardancy; It is made of any one material selected from rock wool or glass wool, formed of the same size as the base material 12, and formed to have a predetermined thickness according to the design of the base material 12 A heat insulating material layer 14 coupled in close contact with the outer surface; A lattice mesh layer 16 made of a nonwoven fabric, glass cloth fabric (GCF) or glass fiber or steel, and bonded to the outer surface of the heat insulating material layer 14 in a state of being in close contact; Non-combustible exterior wall panel for building comprising a finishing material layer 18 made of lightweight brick, tile or marble adhered to the outer surface of the mesh layer 16 or coated on the outer surface of the mesh layer. To In order to combine the base material 12 and the heat insulating material layer 14 and the mesh layer 16, At a predetermined position on the outer surface of the base member 12, a vertical portion 20a having a predetermined size and a horizontal portion 20b having a predetermined length bent outward from the top and bottom of the vertical portion 20a " The fastening piece 20 of the "C" side cross-sectional structure is fixed and installed by the fastening member 22 of the screw or rivet; A fastening piece fitting hole 14a into which the fastening piece 20 is fitted is formed on a surface of the heat insulating material layer 14 and the mesh layer 16 corresponding to the installation position of each fastening piece 20; The upper and lower horizontal portions 20b on the fastening piece 20 fitted through the fastening piece fitting holes 14a on the heat insulating material layer 14 and the mesh layer 16 are outside the fastening piece fitting holes 14a on the mesh layer 16. Non-combustible outer wall panel for building, characterized in that configured to be bent upward or downward after being fitted into the upper and lower through holes (24a) on a separate fixing piece 24 in close contact with the surface. delete A baseline setting step of setting the installation position of the outer wall panel 10 along the longitudinal and transverse directions on the steel studs 36 perpendicular to the wall 34 or the wall formation position of the building; A fixing plate 28b having a predetermined size fixed to the wall 34 or the steel studs 36 is formed at an upper portion thereof, and at a lower portion thereof in close contact with an inner surface of the base member 12 constituting the outer wall panel 10. A coupling plate 28a is formed to be coupled by a fastening member 22 to fix the outer fastening piece 20, and the fixing plate 28b and the coupling plate 28a are adjacent to each other in the longitudinal or transverse direction. A mounting bracket 28 having a connection piece fitting jaw 30 having a stepped shape to allow a separate connection piece 32 for connecting the outer wall panel 10 to be arranged or a separate metal fixing member made of a flat plate or a hat shape. Preparing (39); The inner surface of the base member 12 is brought into close contact with the joining plate 28a on the mounting bracket 28, and the top of the fastening piece 20 is perpendicular to the outer surface of the base member 12 corresponding to the joining plate 28a. Fastening member 22 from the coupling plate 28a toward the coupling plate 28a from the vertical portion 20a on the fastening piece 20 or from the vertical portion 20a on the fastening piece 20 with the part 20a being in close contact. Mounting the base member 12 and the fastening piece 20 to the coupling plate 28a on the mounting bracket 28; The base plate 12 and the fixing plate 28b on the mounting bracket 28 to which the fastening pieces 20 are coupled to the wall 34 or the steel studs 36 by anchor bolts 26 or the base material ( 12) welding and fixing a separate fixing member 39, to which the fastening piece 20 is coupled, to the steel stud 36; On the base material 12 is brought into close contact with the heat insulating material layer 14 having the mesh layer 16 attached to the outer side of the base material 12 fixed to the wall 34 or the steel stud 36. Each fastening piece 20 is fitted into the fastening piece fitting hole 14a on the heat insulating material 14 layer, and is horizontally up and down on the fastening piece 20 which protruded outside the fastening piece fitting hole 14a on the heat insulating material layer 14. Bending the portion 20b downward or upward, respectively, to fix the heat insulating material layer 14 and the mesh layer 16 coupled to the base material 12; Applying an adhesive to the outer surface of the mesh layer 16 and attaching bricks, tiles or marble, or painting the outer surface of the mesh 16 layer to form a finish layer 18. A construction method of a non-combustible exterior wall panel for building.

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