KR101615126B1 - Outer insulation system and installation method of outer wall using it - Google Patents

Abstract

The present invention is made by a dry method in which a heat insulating material of an external heat insulating system is formed to have a uniform thickness on the outer wall to ensure uniform heat insulating performance and to facilitate assembly and disassembly of an external heat insulating system, And an object of the present invention is to provide a method of installing an outer wall of a building using the same.
In order to achieve the above-mentioned object, the present invention is characterized in that a plurality of set anchors (2) arranged at predetermined intervals on the upper surface of a slab (1) are embedded in a plurality of slot holes (14) of a primary fastener (10) The bolts 3 are inserted into the slot holes 14 and 24 of the secondary fastener 20 and the projections 13 of the primary fastener 10 and the nuts (4), the primary fastener (10) and the secondary fastener (20) of the steel are integrally joined together,
A truss insulation frame 30 is inserted and installed between the vertical portions 22 of the secondary fasteners 20 and a self-screw 5 is fastened to the secondary fasteners 20 and the inner longitudinal fixing bars 40. [ And the secondary fastener 20 and the truss insulating frame 30 are integrally combined.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an external insulation system,

The present invention relates to an external insulation system capable of securing structural stability against external force and insulation performance of an insulation system forming a building outer wall, and can be systemized in a prefabricated manner by a dry method, and a method of installing a building exterior using the same.

Generally, the external insulation system installed on the exterior wall of a building is divided into two methods. First, when the outer wall is composed of a concrete wall, it is an external thermal insulation system in which a heat insulating material is placed on the wall surface,

Secondly, in the case where there is no concrete wall on the outer wall, a steel frame is installed on the interlayer slab (or beam), and a heat insulating panel (unit) is attached to the surface of the steel frame or a heat insulating material is inserted in the inside of the steel frame A stud is installed and a heat insulating material is installed).

As a method of installing the external wall of the building, the fastener is firmly attached to the slab or the joint of the beam, and the steel frame is welded to the fastener vertical and horizontal joints A heat insulating material and a finishing material are attached to each other by using a screw or a fixing hardware at a joint position, and the caulking material is filled in the vertical and horizontal joints.

The external heat insulating system of FIG. 1, which is a prior art example, includes an anchor bolt 102 installed on a side surface of an end portion of a slab 100, a pair of spaced apart side surfaces of a side surface of a slab 100, An L-shaped angle 101 of the anchor bolt 102 is fixed to the anchor bolt 102,

A pair of L-shaped angle (101) galvanized square pipes (104) are assembled by inserting and joining the galvanized square pipe (104) to the joint between the pair of L angles (101) ,

The inside and outside of the metal sheet 106 are manufactured by the factory. The inside of the metal sheet 106 is fixed to the upper surface of the zinc plating angle pipe 104 by screwing the heat insulating panel filled with the heat insulating material 105 to the joint position of the wall, The joint portion is constituted by filling the backup material 107 and filling the caulking material 108 thereon.

However, in the prior art external heat insulation system, the cross-section of the heat insulating material is reduced in the steel frame and the joint portion. As a result, the thickness of the heat insulating material is reduced in the reduced portion of the heat insulating material, Each pipe is exposed to the outside air without being insulated, and a discontinuity surface of the heat insulating material is generated.

As a result, the temperature of the outside air is transferred to the room through the pipes of the steel frame and the joint portion, and the heat bridging phenomenon is generated, thereby causing heat loss and condensation of the outer wall and deteriorating the heat insulating efficiency and durability of the heat insulating system. It is necessary to develop new technology that can improve the heat insulation performance of the external heat insulation system.

The present invention is made by a dry method in which a heat insulating material of an external heat insulating system is formed to have a uniform thickness on the outer wall to ensure uniform heat insulating performance and to facilitate assembly and disassembly of an external heat insulating system, And an object of the present invention is to provide an external thermal insulation system for improving the rigidity of a truss insulation frame so that various exterior materials can be attached to the exterior wall surface, and a method of installing a building exterior wall using the same.

In order to accomplish the above object, the present invention provides an external thermal insulation system that simplifies the structure of fastener and truss insulation frame fixed to the upper surface of the slab, and that the transverse fixing bar for fixing the heat insulating material is spaced apart from the fastener The principle of solving the problem is to disperse the concentrated load of the steel frame joint portion to secure the structural safety and to facilitate the attachment of the heat insulating material.

In the external heat insulation system installed on the outer wall of the building, which is one embodiment of the present invention, primary fasteners 10 are installed on the upper surface of the slab at predetermined intervals in the longitudinal direction of the slab, and the primary fasteners 10 installed on the upper surface of the slab 1 A plurality of set anchors 2 form one anchor group and are embedded in the slab 1 in the plurality of slot holes 14 formed in the horizontal portion 11 so that the primary fastener 10 is inserted into the slab 1 ),

Bolts 3 are inserted and penetrated into the pair of slot holes 14 and 24 formed in the protruding portion 13 of the primary fastener 10 and the protruding portion 23 of the secondary fastener 20, The primary fastener 10 and the secondary fastener 20 of the steel material are integrally joined,

The inner longitudinal fixing bar 40 of the truss insulation frame 30 is inserted and installed between the pair of vertical portions 22 of the secondary fastener 20 and the vertical portion of the secondary fastener 20 The second fastener 20 is fastened through the lower vertical portion 44 of the inner longitudinal direction fixing bar 40 by inserting the self-screw 5 into the through hole 25 formed at a predetermined interval in the first longitudinal direction fixing bar 22, And the truss insulation frame 30 are integrally connected to each other.

The outer wall installation method using the external heat insulation system of the present invention is characterized in that a plurality of set anchors 2 are inserted into a plurality of slot holes 14 formed in the horizontal portion 11 of the primary fastener 10, The primary fasteners 10 are installed at predetermined intervals in the longitudinal direction of the slab and are fixed to the upper surface of the slab 1;

Bolts 3 are inserted and penetrated into the pair of slot holes 14 and 24 formed in the protruding portion 13 of the primary fastener 10 and the protruding portion 23 of the secondary fastener 20, And fastening the primary fastener (10) and secondary fastener (20) of the steel together;

The inner longitudinal fixing bar 40 of the truss insulation frame 30 is inserted and installed between the pair of vertical portions 22 of the secondary fastener 20 and the vertical portion of the secondary fastener 20 The secondary fastener 20 and the truss insulation frame 25 are inserted into the through hole 25 formed in the inner longitudinal fixing bar 40 and the vertical vertical portion 44 of the inner longitudinal fixing bar 40, 30) are integrally combined with each other.

The present invention has the effect of improving the heat insulation performance and durability of the external heat insulating system by preventing the heat loss and the condensation due to the heat bridging phenomenon by forming the heat insulating material of the steel frame and the joint portion of the external heat insulating system to have the same thickness as the other portions of the wall have.

In addition, the present invention can be easily manufactured by assembling and disassembling an external heat insulating system by assembling a steel frame of an external heat insulating system as a unit unit and connecting the body frame with a bolt, a self-screw or the like and fixing a heat insulating material and a finish material to a steel frame with a self- The air is shortened, and the maintenance and repair can be easily performed when the outer wall heat insulator and the finish material are damaged.

In addition, the present invention can prevent a safety accident caused by welding or the like on the site by uniting the external heat insulating system by a dry method, and it is possible to construct various exterior materials by a unitized external heat insulating system.

Figure 1 is a perspective view of a prior art building exterior wall insulation system.
Fig. 2 is a perspective view showing installation of an external heat insulation system, which is an embodiment of the present invention,
3 is an exploded perspective view showing that the truss insulation system of the present invention and the first and second fasteners are coupled;
Figure 4a is a perspective view showing that a longitudinal finishing bar is installed in the truss insulation system of the present invention.
Fig. 4B is a cross-sectional view showing an inner longitudinal fixing bar of the present invention
Fig. 4c is a cross-sectional view showing an outer longitudinal fixing bar of the present invention
Figure 4d is a cross-sectional view illustrating the longitudinal bar of the present invention
5 is a perspective view showing a secondary fastener according to the present invention;
6 is a perspective view showing a primary fastener according to the present invention;
7 is a perspective view showing a bar clip for lateral fixing according to the present invention;
8 is a cross-sectional view showing the bar for lateral finishing of the present invention
9 is a cross-sectional view showing the transverse direction fixing bar of the present invention
10 is a perspective view showing the step of installing the external thermal insulation system of the present invention on the outer wall;

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

FIG. 2 is a perspective view showing the installation of an external heat insulation system, which is one embodiment of the present invention, on a slab, FIG. 3 is an exploded perspective view showing that the truss insulation system and the first and second fasteners are combined, In the external thermal insulation system provided on the outer wall, the primary fasteners 10 are installed on the upper surface of the slab 1 at predetermined intervals in the longitudinal direction of the slab.

The set anchors 2 are inserted into the three slot holes 14 formed in the horizontal portion of the primary fastener 10 so as to be embedded in the slab 1 so that the primary fastener 10 is inserted into the slab 1, Is fixed to the upper surface.

The rectangular protrusion 13 welded to the center of the outer side of the vertical part 12 of the primary fastener 10 is formed with a slot hole 14 in the up and down direction, 13 of the primary fastener 10 and the secondary fastener 20 are provided with protrusions 23 formed with upper and lower slot holes 24 on the upper and lower sides of the secondary fastener 20, The primary fastener 10 and the secondary fastener 20, which are steel materials, are integrally joined to each other by inserting and bolting the bolts 3 through the nuts 4.

An inner longitudinal fixing bar 40 of the truss insulation frame 30 is inserted and installed between a pair of vertical portions 22 of the secondary fastener 20, The through holes 25 formed at predetermined intervals in the second vertical fastening bar 22 are inserted through the lower vertical portions 44 of the inner longitudinal direction fixing bars 40 and inserted into the secondary fasteners 20 And the truss insulation frame 30 are integrally joined.

A transverse direction fixing bar 60 is provided outside the inner longitudinal direction fixing bar 40 of the truss insulating film frame 30 at a predetermined distance in the upward and downward directions from the secondary fastener 20, The bar fitting portion 71 of the fixing bar clip 70 is engaged with the groove 64 of the lateral fixing bar 60 and the vertical portion 72 of the lateral fixing bar clip 70, The upper and lower portions 73 and 73 are provided in surface contact with the lower vertical portion 44 and the intermediate horizontal portion 43 of the inner barrel fixing bar 40, respectively.

The self-screw 5 is inserted into the through hole 74 formed in the vertical portion 72 of the transverse fixing bar clip 70 and is fastened through the lower vertical portion of the inner longitudinal fixing bar 40 The inner longitudinal fixing bar 40 and the transverse fixing bar 60 are integrally joined by the transverse fixing bar clip 70.

A plate-shaped heat insulating material 83 is provided on the upper surface of the transverse fixing bar 60. A self-screw 5 is provided on the upper surface of the plate-like heat insulating material 83 at a predetermined interval, The plate-like heat insulating material 83 is fixed and attached to the transverse direction fixing bar 60 by being fastened through the transverse direction fixing bar 60.

A vertical finishing bar 80 is inserted between the vertical portions 52 of the outer longitudinal fixing bars 50 and is fixed to the left and right sides of the longitudinal finishing bars 80 for lateral fixing A horizontal side edge bar 90 is provided parallel to the bar 60 and an outer horizontal side edge portion 53 of the lateral longitudinal direction fixing bar 50 and a lower horizontal portion 93 of the lateral side edge closing bar 90 The outer longitudinal fixing bar 50, the lateral finishing bar 90, and the longitudinal finishing bar 80 are integrally joined to each other.

In the present invention, a primary fastener and a secondary fastener are bolted to each other through a slot hole. The secondary fastener and the truss insulating frame are integrally combined with a screw through a through hole and are fastened to the upper surface of the slab, The joining structure of the frame is simplified to improve the workability,

A transverse fixing bar for fixing the heat insulating material is provided so as to be spaced apart from the engaging portion of the fastener and the truss insulating frame and the transverse fixing bar are integrally joined to the transverse fixing bar clip to facilitate assembly and disassembly of the heat insulating material It is a technical feature.

The first and second fasteners 10 and 20 support the load of the external heat insulating system using structural steel having a steel thickness of 6 t to 9 t and are fixed to inner and outer longitudinal fixing bars 40 , 50) is a mullion function of the adiabatic system and is used to bend galvanized steel sheet with thickness of 1.2t ~ 3.2t in order to secure waterproof function and rigidity.

The lateral fixing bar 60, the longitudinal finishing bar 80 and the lateral finishing bar 90 are used by bending a galvanized steel sheet having a thickness of 1.2 to 1.6t in order to prevent corrosion, The horizontal fixing bar clip 70 is used by bending a galvanized steel sheet having a thickness of 2t.

FIG. 4A is a perspective view showing that a longitudinal finishing bar is installed in the truss insulation system of the present invention. In the truss insulation system, inner and outer longitudinal fixing bars 40, 50 formed by bending a steel plate are arranged at predetermined intervals and,

A pair of lattice reinforcing bars 31 are interposed between the inner and outer longitudinal fixing bars 40 and 50 so that the middle horizontal portion 43 of the inner longitudinal fixing bar 40 and the outer longitudinal fixing bar 50 And is welded and joined to the outer horizontal portion 53 of the upper portion 53,

A heat insulating material 32 is filled in a section formed by the intermediate horizontal portion 43 of the inner longitudinal fixing bar 40 and the outer horizontal portion 53 of the outer longitudinal fixing bar 50.

4B is a cross-sectional view showing an inner longitudinal fixing bar of the present invention, wherein the inner longitudinal fixing bar 40 is bent and extended at both ends of the outer horizontal portion 41 so that the upper vertical portion 42 A middle horizontal portion 43 is formed by bending and extending perpendicularly outward from the end of the upper vertical portion 42 and is bent and extended vertically at the end of the middle horizontal portion 43 to form a lower vertical portion 44 And an inner horizontal portion 45 is formed by bending and extending perpendicularly from the end of the lower vertical portion 44 to the inside.

4C is a cross-sectional view showing an outer longitudinal fixing bar according to the present invention, wherein the outer longitudinal fixing bar 50 is bent and extended at both ends of the inner horizontal portion 51 to form a vertical portion 52 And an outer horizontal portion 53 is formed by bending and extending vertically from the end of the vertical portion 52 to the outside.

Fig. 4D is a cross-sectional view showing a longitudinal finishing bar according to the present invention, wherein the longitudinal finishing bar 80 is bent and extended vertically at both ends of the horizontal portion 81 and the horizontal portion 81, A portion 82 is formed.

FIG. 5 is a perspective view showing a secondary fastener according to the present invention. In the secondary fastener 20, both inner ends of the horizontal portion 21 are bent and extended at right angles to form a pair of vertical portions 22, A rectangular protrusion 23 is welded to the center of the outer side of the horizontal portion 21 and a through hole 25 is formed at a predetermined interval in the vertical portion 22. The protrusion 23 is provided with a pair of slot holes (24) are formed at predetermined intervals,

The bolts 3 penetrate through the pair of slot holes 24 and are inserted through the through holes 25 so that the bolts 3 penetrate through the pair of slot holes 24, (4) so that the secondary fastener (20) is integrated with the primary fastener (10).

6 is a perspective view showing a primary fastener according to the present invention in which the primary fastener 10 is bent in a bend to form a horizontal portion 11 and a vertical portion 12, And a plurality of slot holes 14 are formed at predetermined intervals in the horizontal portion 11 and the protruding portion 13 so that the set anchors 14 are inserted through the plurality of slot holes 14, The first fastener 10 is fixed on the upper surface of the slab 1 by inserting and embedding the first fastener 2 in the slab 1.

7 is a perspective view showing the bar clip for lateral fixing according to the present invention. The bar clip for lateral fixing 70 has a rectangular bar coupling portion 71 and a bar coupling portion 71 at a predetermined distance A vertically extending portion 72 having a through hole 74 formed at the center thereof and an edge portion 73 bent and extending vertically at an end portion of the vertical portion 72.

The bar fitting portion 71 of the transverse fixing bar clip 70 is engaged with the groove 64 of the transverse fixing bar 60 and the vertical portion 72 of the transverse fixing bar clip 70 And the corner portion 73 are provided on the lower vertical portion 44 and the middle horizontal portion 43 of the inner vertical fixing bar 40 and the vertical vertical bar portion 70 of the lateral fixing bar clip 70, The self-screw 5 is inserted and fastened to the through-hole 74 formed in the housing 72.

8 is a cross-sectional view illustrating a bar for lateral finishing according to the present invention. The bar 90 for lateral finishing is formed by vertically bending and extending at both ends of an upper horizontal portion 91 and an upper horizontal portion 91 And a lower horizontal portion 93 formed by bending and extending vertically outward at the ends of the pair of vertical portions 92 and the vertical portion 92.

FIG. 9 is a cross-sectional view illustrating a lateral fixing bar according to the present invention. The lateral fixing bar 60 includes an upper horizontal portion 61 and an upper horizontal portion 61, A lower horizontal portion 63 formed by vertically bending and extending inward at the ends of the pair of vertical portions 62 and the vertical portions 62 and a lower horizontal portion 63 extending from the upper and lower horizontal portions 61, (Not shown).

FIG. 10 is a perspective view showing the step of installing the external thermal insulation system of the present invention on the outer wall. In the construction procedure of installing the external thermal insulation system of the present invention on the outer wall of the building, the primary fastener 10 is placed on the upper surface of the slab in the longitudinal direction of the slab Installing at predetermined intervals; Wherein the primary fastener (10) and the secondary fastener (20) are integrally joined;

The second fastener 20 and the truss insulating frame 30 are integrally joined; The inner longitudinal fixing bar 40 and the transverse fixing bar 60 being integrally joined by the transverse fixing bar clip 70;

Installing a plate-shaped heat insulating material (83) on both sides of the truss insulation frame (30); The outer longitudinal fixing bar 50, the lateral finishing bar 90 and the longitudinal finishing bar 80 are integrally joined; And an aluminum finish sheet 94 is installed on the outer side surface of the longitudinal finishing bar 80 and the outer side surface of the lateral finishing bar 90 at predetermined intervals in the up, down, left, and right directions .

The step of installing the primary fasteners 10 on the upper surface of the slab at predetermined intervals in the lengthwise direction of the slabs may include a plurality of slot holes 14 formed in the horizontal portion 11 of the primary fastener 10 installed on the upper surface of the slab 1 A plurality of set anchors 2 are embedded in the slab 1 and the primary fasteners 10 are installed at predetermined intervals in the longitudinal direction of the slab and fixed to the upper surface of the slab.

The step of integrally joining the primary fastener 10 and the secondary fastener 20 may include the step of joining the projections 13 of the primary fastener 10 and the projections 23 of the secondary fastener 20 The bolts 3 are inserted into the slot holes 14 and 24 so that the primary fasteners 10 and the secondary fasteners 20 are integrally coupled with each other through the nuts 4.

The step of integrally joining the secondary fastener 20 and the truss insulating frame 30 may be performed by inserting the truss insulator frame 30 between the pair of vertical portions 22 of the secondary fastener 20, And the vertical bar 22 of the secondary fastener 20 is inserted into the through hole 25. The vertical bar 22 is inserted into the through hole 25 of the vertical fastener 20, And the secondary fastener 20 and the truss insulating frame 30 are integrally coupled by being passed through the lower vertical portion 44. [

Wherein the step of integrally joining the inner longitudinal fixing bars 40 and the lateral fixing bars 60 together by the transverse fixing bar clip 70 is performed at a predetermined distance A transverse direction fixing bar 60 is provided outside the inner longitudinal direction fixing bar 40 of the truss insulation frame 30 so that the transverse direction fixing bar 60 is provided in the groove 64 of the transverse direction fixing bar 60, And the vertical portion 72 and the corner portion 72 of the transverse fixing bar clip 70 are engaged with the inner barrel fixing bar 40 And the through hole 74 formed in the vertical portion 72 of the transverse direction fixing bar clip 70 is provided in contact with the lower vertical portion 44 and the intermediate horizontal portion 43 of the vertical fixing bar clip 70, The inner longitudinal fixing bar 40 and the transverse fixing bar 60 are integrally joined by the transverse fixing bar clip 70. As shown in Fig.

In the step of installing the plate-shaped heat insulating material 83 on both sides of the truss insulating film frame 30, a plate-shaped heat insulating material 83 is provided on both sides of the truss insulating film frame 30 and on the upper surface of the transverse direction fixing bar 60 And fixing the plate-shaped heat insulating material 83 by fastening the self-screw 5 to the transverse direction fixing bar 60 at a predetermined interval on the outer surface of the plate-like heat insulating material 83.

The step of integrally joining the outer longitudinal fixing bar 50, the lateral finishing bar 90 and the longitudinal finishing bar 80 integrally includes a pair of vertical And a longitudinal finishing bar 90 is inserted between the outer horizontal portions 53 of the outer longitudinal fixing bars 50. The lateral finishing bar 90 is inserted between the outer lateral portions 53 of the outer longitudinal fixing bars 50, The overlapping portion of the lower horizontal portion 93 of the lateral finishing bar 90 and the outer horizontal portion 53 of the outer longitudinal fixing bar 50 is provided in parallel with the direction fixing bar 60, And the outer longitudinal fixing bar 50, the lateral finishing bar 90 and the longitudinal finishing bar 80 are integrally joined by tightening the screw 5.

An aluminum finishing sheet 94 is provided on the outer side surface of the longitudinal finishing bar 80 and the outer side surface of the lateral finishing bar 90 at predetermined intervals in the up, down, left, and right directions, And fixing the aluminum finishing sheet 94 by fastening the self-screw 5 to the upper horizontal portion 91 of the lateral finishing bar 90 at the outer surface of the sheet 94 at predetermined intervals.

1, 100: Slab 2: Set anchor
3: Bolt 4: Nut
5: Self-screw 10: Primary fastener
11, 21, 81: horizontal part 12, 22, 52, 62, 72, 82, 92:
13, 23: protrusion 14, 24: slot hole
20: secondary fastener 25, 74: through hole
30: truss insulation frame 31: lattice reinforcement
32: Insulation material 40: Inner longitudinal direction fixing bar
41, 53: outer horizontal part 42: upper vertical part
43: intermediate horizontal part 44: lower vertical part
45, 51: inner horizontal part 50: outer longitudinal fixing bar
60: transverse direction fixing bar 61, 91: upper horizontal part
63, 93: lower horizontal portion 64: groove
70: bar clip for lateral fixing 71:
73: corner portion 80: longitudinal finishing bar
83: Plate insulation 90: Bar for lateral finishing
94: Aluminum finish sheet
101: L-shaped angle 102: Anchor bolt
103: Nut 104: Square pipe
105: Insulation material 106: Steel finish sheet
107: backup material 108: caulking material

Claims (7)

delete In an adiabatic system installed on an outer wall of a building,
A plurality of slot holes 14 formed in the horizontal portion 11 of the primary fastener 10 installed on the upper surface of the slab 1 are provided with a plurality of first fasteners 10 at predetermined intervals in the longitudinal direction of the slab, The set anchors 2 are inserted into the slab 1 while forming one anchor group so that the primary fasteners 10 are fixed to the upper surface of the slab 1,
Bolts 3 are inserted and penetrated into the pair of slot holes 14 and 24 formed in the protruding portion 13 of the primary fastener 10 and the protruding portion 23 of the secondary fastener 20, The primary fastener 10 and the secondary fastener 20 of the steel material are integrally joined,
The inner longitudinal fixing bar 40 of the truss insulation frame 30 is inserted and installed between the pair of vertical portions 22 of the secondary fastener 20 and the vertical portion of the secondary fastener 20 The second fastener 20 is fastened through the lower vertical portion 44 of the inner longitudinal direction fixing bar 40 by inserting the self-screw 5 into the through hole 25 formed at a predetermined interval in the first longitudinal direction fixing bar 22, And the truss insulating frame 30 are integrally coupled to each other,
A transverse direction fixing bar 60 is provided outside the inner longitudinal direction fixing bar 40 of the truss insulating film frame 30 at a predetermined distance in the upward and downward directions from the secondary fastener 20,
The bar fitting portion 71 of the transverse fixing bar clip 70 is engaged with the groove 64 of the transverse fixing bar 60 and the vertical portion 72 of the transverse fixing bar clip 70 And the corner portion 73 are provided in surface contact with the lower vertical portion 44 and the intermediate horizontal portion 43 of the inner vertical fixing bar 40 and the lateral fixing bar clip 70, By screwing the self-screw 5 into the through hole 74 formed in the vertical portion 72 of the main body 1,
Wherein the inner longitudinal fixing bar (40) and the transverse fixing bar (60) are integrally joined by a transverse fixing bar clip (70). 3. The method of claim 2,
The transverse fixing bar clip 70 includes a bar connecting portion 71 having a rectangular shape and a vertical portion 72 having a through hole 74 protruding from the one end of the bar connecting portion 71 by a predetermined distance, And a vertically bent edge portion 73 at the end of the vertical portion 72,
A longitudinal finishing bar 80 is inserted between the vertical portions 52 of the outer longitudinal fixing bars 50 and is provided at the left and right sides of the longitudinal finishing bars 80 for lateral finishing A bar 90 is provided parallel to the transverse direction fixing bar 60 and an outer horizontal portion 90 of the lateral longitudinal fixing bar 50 and a lower horizontal portion 93 of the transverse finishing bar 90 53 by tightening the self-screw 5,
Characterized in that the outer longitudinal fixing bars (50), the lateral finishing bars (90) and the longitudinal finishing bars (80) are integrally joined. The method according to claim 2 or 3,
The primary fastener 10 is bent in a bend shape to form a horizontal portion 11 and a vertical portion 12. A quadrangular projection 13 is welded to an outer center of the vertical portion 12, A plurality of slot holes 14 are formed in the part 11 and the protrusion 13,
The secondary fastener 20 has a pair of vertical portions 22 formed by bending and extending at right angles at both inner ends of the horizontal portion 21 and a rectangular projecting portion 23 A through hole 25 is formed at a predetermined interval in the vertical part 22 and a pair of slot holes 24 are formed at predetermined intervals in the projecting part 23. [ Exterior insulation system. 5. The method of claim 4,
The inner and outer longitudinal fixing bars 40 and 50 formed by bending a steel plate are arranged at predetermined intervals and the truss insulating frame 30 is fixed between the inner and outer longitudinal fixing bars 40 and 50 The pair of lattice bars 31 are welded and welded between the middle horizontal portion 43 of the inner longitudinal fixing bar 40 and the outer horizontal portion 53 of the outer longitudinal fixing bar 50,
The heat insulating material 32 is filled in the inner horizontal portion 43 of the inner longitudinal direction fixing bar 40 and the outer horizontal portion 53 of the lateral longitudinal direction fixing bar 50 Outer insulation system characterized by. 6. The method of claim 5,
The inner longitudinal fixing bar 40 is bent and extended vertically at both ends of the outer horizontal portion 41 to form an upper vertical portion 42 and vertically outward at the end of the upper vertical portion 42 And a lower vertical portion 44 is formed by bending and extending vertically at an end portion of the intermediate horizontal portion 43. The lower vertical portion 44 is formed at an end portion of the lower vertical portion 44 inwardly And vertically folded and extended to form an inner horizontal portion 45,
The outer longitudinal fixing bar 50 is bent and extended vertically at both ends of the inner horizontal portion 51 to form a vertical portion 52 and is bent and bent vertically outward from the end portion of the vertical portion 52, And an outer horizontal portion (53) extending from the outer horizontal portion (53). The horizontal part 11 and the vertical part 12 are formed on the upper surface of the slab to form a horizontal part 11 and a rectangular projecting part 13 is welded to the center of the outer part of the vertical part 12, Installing a primary fastener (10) having a plurality of slot holes (14) in the protrusion (13) at predetermined intervals in the longitudinal direction of the slab;
The first fastener 10 and the inner end portions of the horizontal portion 21 are bent and extended at right angles to form a pair of vertical portions 22. A rectangular protrusion A through hole 25 is formed at a predetermined interval in the vertical portion 22 and a pair of slot holes 24 are formed in the protruding portion 23 at predetermined intervals, Inserting a bolt into the slot hole (24) of the fastener (20), passing the bolt therethrough, and fastening the fastener (20) with a nut to integrally join the first and second fasteners;
The second fastener 20 and the truss insulating frame 30 are integrally joined;
The inner longitudinal fixing bar (40) and the lateral fixing bar (60) of claim 2 are integrally joined by the lateral fixing bar clip (70) and the self-screw (5);
Installing a plate-shaped heat insulating material (83) on both sides of the truss insulating frame (30);
The outer longitudinal fixing bar (50), the lateral finishing bar (90) and the longitudinal finishing bar (80) of claim 3 being integrally joined by the self-screw (5);
An aluminum finishing sheet 94 is provided on the outer side surface of the longitudinal finishing bar 80 and the outer side surface of the lateral finishing bar 90 at predetermined intervals in the up, down, left, and right directions, And fixing the self-screw (5) to the outer surface of the finishing sheet (94) at a predetermined interval.

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