KR102474850B1 - Construction structures of architectural finishing panels for seismic and heat-blocking - Google Patents

Abstract

The present invention relates to a construction structure of a seismic and heat-bridge preventing finishing panel for a building. The construction structure of the seismic and heat-bridge preventing finishing panel for a building includes: a finishing panel installed in a profile frame of a building structure; a panel bracket installed in the building structure by being connected to both side edges of the finishing panel; and multiple heat-bridge preventing frame brackets including a hinge insertion member to block vibration and heat transfer between the finishing panel and the profile frame of the building structure. The construction structure of the seismic and heat-bridge preventing finishing panel for a building also has a structure of preventing a contaminant from entering a gap between the multiple adjacent panel brackets, which is the gap between finishing panels. The construction structure of the seismic and heat-bridge preventing finishing panel for a building can reinforce seismic reinforcement performance by using a vibration control structure capable of easily absorbing vibration. The construction structure of the seismic and heat-bridge preventing finishing panel for a building is easy to manufacture and produce and has excellent thermal insulation performance. Moreover, the construction structure of the seismic and heat-bridge preventing finishing panel for a building can sufficiently prevent external contamination between the finishing panels.

Description

Construction structure of finishing panels for seismic thermal bridge breakers

The present invention relates to a construction structure of a finishing panel of a seismic thermal bridging barrier building, and more particularly, to a construction structure of a finishing panel of a seismic thermal bridging barrier building having a combination of earthquake resistance and thermal bridging function.

In general, various interior and exterior materials are used to decorate or insulate the interior or exterior walls of a building. Recently, metal panels having a certain thickness, light weight, and beautiful appearance are used as interior and exterior materials for buildings. These metal panels are being constructed in such a way that they are attached to the outer wall of a building structure.

Metal panels used as interior and exterior materials for construction include aluminum composite panels, aluminum joint panels, stainless steel joint panels, and the like. When these panel-type interior and exterior materials are enlarged, problems such as smoothness or strength or surface damage may occur. To prevent this, a panel having a honeycomb structure is sometimes used.

On the other hand, the building structure refers to a structure made to support a load by forming a skeleton of a building or to attach various interior and exterior materials, and is made in various forms such as solid, tube, H-beam, and I-beam.

By attaching a panel, which is an interior and exterior material for construction, to a building structure, the inner or outer wall of the building is formed. Here, the building structure and the panels are joined together with adhesives or bolts or rivets. On the other hand, in order to facilitate the connection between the building structure and the panel, a coupling device having a coupling groove may be interposed between the building structure and the panel. Couplers such as bolts and rivets are inserted or fixed into the coupling grooves.

On the other hand, in recent years, as the frequency of occurrence of earthquakes is gradually increasing, the seismic design standards of buildings are being strengthened more and more. In accordance with the trend of seismic reinforcement, technologies for imparting seismic performance to exterior panels installed as finishing materials of buildings are being proposed. .

An example of an exterior building panel having such earthquake-resistant performance is “an earthquake-resistant reinforcing panel in which earthquake-resistant strength is improved by adding a fiber member of a honeycomb structure to the inside of a reinforcing panel” disclosed in Patent Registration No. 10-2029006.

As another example, the inner surface of the panel frame for supporting the panel on the pipe disclosed in Patent Registration No. 10-1788291, the intermediate body and the connecting body are not fixed but have flexible movement within a certain range. There is a panel structure”.

However, since the panel assembly is composed of a rather complex configuration, the above-described finished panel requires a dedicated manufacturing device for production work, which has disadvantages in assembly productivity, economic feasibility, workability and light weight.

As another example, a movable member is inserted into a guide rail provided on a side frame on the four sides disclosed in Patent Registration No. 10-1602460, and is configured to simultaneously absorb horizontal and vertical vibration by the movable member. seismic panel”.

Such a conventional earthquake-resistant panel for absorbing vibration has a complex configuration in which connecting members such as corner frames and packing are added to each of the side frames on the four sides to be connected to each other. There is a problem of dew condensation due to a decrease in insulation performance because a separate insulation means is not provided at each connection part of the panel assembly.

In addition, since the above conventional technologies do not provide a structure that eliminates or narrows the gap between the finished and earthquake-resistant panels, contamination occurs in the gap between the panels after being assembled on the wall of the building, and sealing or filling to create a contamination structure The work takes a long time, and the structure is not precise and robust, so there is a problem in that durability is weak.

The present invention is a seismic thermal bridge blocking building finishing panel that enhances seismic reinforcement performance by a vibration damping structure that is easy to absorb vibration, is easy to manufacture and produce, has excellent insulation performance, and sufficiently prevents external contamination between the finishing panels. It provides a construction structure.

The construction structure of the seismic thermal bridge barrier building finishing panel according to the present invention includes a finishing panel installed on a profile frame provided in a building structure; A plurality of panel brackets coupled to both edge portions of the finishing panel and installed in a building structure; And a thermal bridge blocking frame bracket having a hinge insertion member rotatably connected to the panel bracket and being coupled to the profile frame to block vibration and heat transfer between the finishing panel and the profile frame of the building structure,

The panel bracket may include a bracket accommodating rail disposed outward from the rim of the finishing panel and having accommodating grooves in a longitudinal direction; an elastic fixing part that is elastically accommodated and fixed to the receiving groove of the bracket accommodating rail, and is fixed in position so that the hinge insertion member is inserted so as to be rotatable and movable; a blocking accommodating rail located on the opposite side of the panel bracket to the bracket accommodating rail and provided with a blocking accommodating groove along the longitudinal direction of the panel bracket; and a contamination blocking unit blocking gaps between adjacent finishing panels by being coupled to and fixed to the blocking receiving grooves disposed to face each other of the plurality of panel brackets.

The anti-contamination unit may include a rail coupling member having a part inserted into the blocking accommodating groove and the other part being contacted and supported by an outer surface of the interception accommodating rail; And it is appropriate to include a contamination prevention plate provided in a convexly curved shape bent from the other part of the rail coupling member toward the profile frame.

The anti-fouling plate may include a blocking contact member that extends from one side of the other portion of the rail coupling member to the other side and gradually becomes thinner so as to be elastically deformable.

”와 같은 차단 접촉 구조를 제공할 수 있다.The pair of anti-fouling plates, “

It is possible to provide a blocking contact structure such as “.

The resilient fixing part may include: an resilient fixing body provided with an inner hollow to be resiliently inserted into and seated in the accommodating groove of the bracket accommodating rail of the panel bracket; and a plurality of elastic ribs protruding from inner wall portions of both sides of the resilient fixing body into the inner hollow to contact and support the hinge insertion member of the thermal bridge blocking frame bracket in a rotatable and movable manner.

an outer frame bracket connected to and coupled to a bracket accommodating rail of the panel bracket; an inner frame bracket provided to be supported in contact with the profile frame of the building structure; and a heat insulating member that bridges the outer frame bracket and the inner frame bracket to block heat transfer and absorb vibration.

The outer frame bracket and the inner frame bracket include a bracket body having an inner passage into which one end of the heat insulating member is linearly press-fitted and a side entrance protrusion narrowing the side entrance of the inner passage; And a connection plate formed extending from one outer wall of the bracket body,

The connecting plate of the outer frame bracket may be shorter than the connecting plate of the inner frame bracket, and the hinge insertion member may be provided with a round protrusion at an end thereof.

The present invention described above enhances seismic reinforcement performance by means of a vibration damping structure that is easy to absorb vibration, is easy to manufacture and produce, has excellent insulation performance, and seismic thermal bridge that sufficiently prevents external contamination between finished panels. It is possible to provide the construction structure of the blocking building finishing panel.

1 is a front view showing an assembly arrangement of a finishing panel of a construction structure of a finishing panel of an earthquake-resistant thermal bridge barrier building according to an embodiment of the present invention with respect to a building structure.
Figure 2 is a plan view of the assembly structure of the closing panel of Figure 1;
FIG. 3 is an enlarged view of the circular area of FIG. 2 .
FIG. 4 is a rotated detailed view of one end panel assembly structure in FIG. 3 .
5 is a detailed view of an assembly structure of a finishing panel and a contamination prevention unit of a construction structure of a finishing panel of an earthquake-resistant thermal bridge barrier building according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described with reference to specific embodiments shown in the accompanying drawings. Differences in the embodiments should be understood in terms of the drawings as a non-exclusive matter, and without departing from the spirit and scope of the present invention, specific shapes, structures, and characteristics described in relation to the embodiments are implemented in other embodiments. It can be.

The location or arrangement of individual components according to embodiments of the present invention is changeable and should be understood as a combination of the drawings, in which similar reference numerals may indicate the same or similar functions across various aspects, length and area, thickness The specific form may be exaggerated and expressed for convenience of description.

It is assumed that each unit, module, part, member, or arbitrary structure in which sub-elements are not described includes or can include common sub-elements for each assigned function, and is limited to sub-elements or detailed structures shown in the drawings. I don't. It should be understood that components that are shown but whose descriptions are omitted due to typical content are inherent in the detailed description of the embodiments.

The construction structure of the finishing panel of a seismic thermal bridge barrier building according to an embodiment with high practical implementation and high industrial applicability among various embodiments of the present invention will be described with reference to the above conventional matters.

Hereinafter, main components of the construction structure of the finishing panel of a seismic thermal bridge barrier building according to an embodiment of the present invention will be described based on drawings.

1 is a front view showing the assembly arrangement of a finishing panel of a construction structure of a finishing panel of an earthquake-resistant thermal bridge barrier building according to an embodiment of the present invention, FIG. 2 is a plan view of the assembly structure of the finishing panel of FIG. 1, and FIG. is an enlarged view of the circular area of FIG. 2, and FIG. 4 is a rotated detailed view of the one end panel assembly structure in FIG.

1 to 4, the construction structure of the seismic thermal bridge barrier building finishing panel according to an embodiment of the present invention includes a closing panel 110 installed on a profile frame 11 of a building structure 10, a closing panel A hinge to block vibration and heat transfer between the panel bracket 120 coupled to both side edges of the 110 and installed in the building structure 10, and the finishing panel 110 and the profile frame 11 of the building structure 10 It includes a plurality of thermal bridge blocking frame brackets 130 having an insertion member H, and has a structure in which contaminants are prevented from entering between a plurality of adjacent panel brackets 120, which are gaps between finishing panels 110.

The finishing panel 110 is a metal panel formed by bending a metal plate material such as aluminum or galvanized steel sheet and a composite in which they are laminated, and the side wall 112 bent to one side at the edge of the rectangular plate material 111 It is composed of, and is made in the form of a relatively thin slim case.

Although not shown, the finishing panel 110 may be provided as a rectangular flat plate having a constant thickness and excluding side walls on the edge. As the frame panel 110 having this shape, a stone plate or a ceramic plate may be effectively used.

The panel bracket 120 includes a chassis frame 121 having an “a” shape, one end of which is bent so as to be interviewed on the inner edge of the square plate 111 of the finishing panel 110 and the inner surface of the side wall 112, the chassis frame 121 ) The bracket accommodating rail 122 having an accommodating groove along the longitudinal direction so as to protrude from the other end and be exposed to the outside, and the elastic fixing part 123 of the clip structure inserted into the bracket accommodating rail 122 and elastically seated and coupled thereto include

The panel bracket 120 is installed on the edge edge of the finishing panel 110 to form an integrated assembly structure, and the bracket accommodating rail 122 protrudes to be exposed to the top of the side wall 112 of the finishing panel 110. installed as

The panel bracket 120 is in a state where the chassis frame 121 is aligned so that the inner edge of the square plate 111 of the finishing panel 110 and the inner side of the side wall 112 are simultaneously interviewed, for example, rivets or screws or It may be coupled by a coupling member such as a bolt.

The bracket accommodating rail 122 is formed so that a pair of accommodating members protrude from the other end of the chassis frame 121 to provide a rectangular accommodating groove, and the accommodating groove is an elastic fixing part in a direction orthogonal to the chassis frame 121. It has an opening into which 123 is fitted.

The elastic fixing part 123 corresponds to the receiving groove of the bracket accommodating rail 122 of the panel bracket 120, the elastic fixing body 123a coupled to be seated after being press-fitted, and the hollow formed as an internal passage in the resilient fixing body 123a. It protrudes oppositely toward the part 123d and includes a plurality of elastic ribs 123b and 123c arranged vertically and spaced apart from each other with a predetermined gap.

The elastic fixing part 123 can be manufactured by molding a synthetic resin material having constant strength and elasticity, and is assembled into the receiving groove by being press-fitted and coupled to the receiving groove of the bracket accommodating rail 122 of the panel bracket 120.

The elastic ribs 123b and 123c are inserted into and fixed to the hinge insertion member H of the thermal cross-blocking frame bracket 130, and elastically support the hinge insertion member H in a movable and rotatable state. The hinge insertion member (H) is surrounded by elastic ribs (123b, 123c) and comes into contact with each other.

Between the elastic ribs 123b and 123c of the elastic fixing part 123, for example, a buffering member such as lubricating oil such as grease or a damping material may be filled. Accordingly, when the hinge insertion member H of the outer frame bracket 131 performs its functions and actions, rapid movement or generation of noise can be suppressed.

5 is a detailed view of an assembly structure of a finishing panel and a contamination prevention unit of a construction structure of a finishing panel of an earthquake-resistant thermal bridge barrier building according to an embodiment of the present invention.

2 to 5, the panel bracket 120 according to the present embodiment includes a blocking accommodating rail 125 having a blocking accommodating groove 124 along the longitudinal direction of the panel bracket 120, and a plurality of panel brackets. A contamination blocking part 127 blocking a gap between adjacent closing panels 110 by being coupled to and fixed to the blocking receiving groove 124 disposed to face each other of 120 is further included.

The contamination prevention part 127 includes a rail coupling member 127a, a part of which is inserted into the blocking receiving groove 124 and the other part of which is supported in contact with the outer surface of the blocking receiving rail 125, and the rail coupling member 127a. It includes an anti-fouling plate 127b provided in a convexly curved shape bent toward the profile frame 11 from the other part.

The anti-fouling plate 127b may include a blocking contact member 127c extending from one side of the other portion of the rail coupling member 127a to the other side and gradually becoming thinner so as to be elastically deformable. have.

”와 같은 차단 접촉 구조를 제공할 수 있다.The pair of contamination prevention plates 127b are “

It is possible to provide a blocking contact structure such as “.

According to the present embodiment, while the panel brackets 120 are disposed to face each other in the adjacent closing panels 110, the anti-fouling plates 127b of the anti-fouling parts 127 inserted into the blocking receiving rail 125 are blocked. The contact members 127c face each other and contact each other elastically.

These antifouling plates 127b are disposed as a pair on one side of the adjacent finishing panels 110 to fill the gap between the finishing panels 110, and to remove foreign substances or air from the outside of the finishing panels 110 to the inside. block the inflow.

As the anti-contamination unit 127 according to the present embodiment is inserted into the blocking receiving rail 125 of the panel bracket 120, contamination due to gaps between side walls of adjacent finishing panels 110 is prevented, and air Since the inflow is blocked, the insulation of the outer wall of the building is maintained.

On the other hand, the panel bracket 120 is a profile structure and can be molded and manufactured using a conventional extrusion process for molding an aluminum chassis constructed as a window frame.

The panel bracket 120 has the same length standard as the edge of the finish panel 110, may be disposed at right angles to the corner edge of the finish panel 110, and has a length relative to the edge of the finish panel 110. Others may be disposed facing each other, or the same relatively short lengths on the edge of the finishing panel 110 may be disposed with the square corner portion empty.

2 to 5, the thermal bridge blocking frame bracket 130 includes a hinge insertion member H that supports the closing panel 110 to the profile frame 11 of the building structure 10 in a movable state. The hinge insertion member (H) is inserted into the elastic fixing part 123 of the panel bracket 120 disposed at regular intervals on the finishing panel 110 and is fixed in position to move elastically.

The thermal bridge blocking frame bracket 130 is installed to be supported in contact with the outer frame bracket 131 coupled to be connected to the bracket accommodating rail 122 of the panel bracket 120 and the profile frame 11 of the building structure 10 It includes an inner frame bracket 132 and a heat insulating member 133 connecting the bridge between the outer frame bracket 131 and the inner frame bracket 132 .

The outer frame bracket 131 and the inner frame bracket 132 are connected to bracket bodies 131a and 132a having grooves in which one end of the heat insulating member 133 is continuously press-fitted and one outer wall of the bracket bodies 131a and 132a. and includes extended connecting plates 131b and 132b.

The bracket bodies 131a and 132a of the outer frame bracket 131 and the inner frame bracket 132 form a narrow inner passage where one end and the other end of the heat insulating member 133 are linearly press-fitted and a side entrance of the inner passage. It is provided with a side entrance protrusion to do.

The connection plate 131b of the outer frame bracket 131 is formed shorter than the connection plate 132b of the inner frame bracket 132, and the hinge insertion member H is provided with a round protrusion at the end.

That is, the hinge shaft 131c formed to protrude in the form of an extended protrusion is provided at the end of the connecting plate 131b of the outer frame bracket 131.

The grooves of the outer frame bracket 131 and the grooves of the inner frame bracket 132 are provided to have a symmetrical arrangement structure. Accordingly, the heat insulating member 133 has side portions on both sides of the central portion located between the outer frame bracket 131 and the inner frame bracket 132 in the groove of the outer frame bracket 131 and the groove of the inner frame bracket 132, respectively. inserted into a symmetrical structure.

At least one or more thermal bridge frame brackets 130 may be installed according to the specifications of the finishing panel 110 and the panel bracket 120, and a plurality of them may be set and installed at 30 cm intervals on a building finishing panel of a typical standard. can

The heat insulating member 133 blocks heat transfer between the outer frame bracket 131 and the inner frame bracket 132 made of metal, and may be made of, for example, a heat insulating material such as polyurethane or polyamide.

As the heat insulating member 133, a product name “AZON” heat insulating bar known to have good heat insulating performance while being easily coupled between the outer frame bracket 131 and the inner frame bracket 132 may be used.

In this way, when constructing the outer wall of a building of the finishing panel 100, the thermal bridge phenomenon is effectively suppressed or blocked by interposing a heat insulating member 133 between the outer frame bracket 131 and the inner frame bracket 132 of the thermal bridge blocking frame bracket 130. By doing this, it is possible to prevent condensation and minimize heat loss of the profile frame installed on the outer wall of the building.

According to the construction structure of the finishing panel of the seismic thermal bridge breaking building according to the present embodiment as described above, efficient transportation and In addition to enabling movement and loading, it is possible to select the procedure of the assembly process of the thermal bridge blocking frame bracket 130 at the construction site, thereby improving workability and economic feasibility through ease and efficiency of assembly.

In addition, in the construction structure of the outer wall of a building using the earthquake-resistant thermal bridge blocking architectural finishing panel according to the present invention, a plurality of thermal bridge blocking frame brackets 130 provided on each of the four sides of the panel bracket 120 of the earthquake-resistant thermal bridge blocking finishing panel 100 It is constructed so as to form a certain part of the outer wall of the building by sequentially fixing to the alignment position of the lattice profile frame 11 installed in the building structure 10 by coupling members such as bolts and nuts.

In this way, as the construction process of sequentially fixing the thermal bridge breaking frame bracket 130 of another seismic thermal breaking barrier finishing panel 100 to the profile frame 11 is repeatedly performed, a plurality of earthquake resistant thermal breaking breaking finishing panels 100 The outer wall of the building of the curtain wall structure is formed over the predetermined design area.

The assembly structure in which the closing panel 110 and the panel bracket 120 are combined is constructed as an outer wall supported in a flexible state with respect to the profile frame 11 of the building structure 10 by the action of the hinge insertion member H It can be.

Accordingly, the closing panel 110 and the panel bracket 120, for example, depending on the state of the strength and direction of external force applied from the outside due to an earthquake, etc., each hinge insertion member (H) provided on each side is individually and a continuous, responsive flow.

The finishing panel 110 and the panel bracket 120 are installed in a state where each of the four sides is constrained by the hinge insertion member H, and when an external force actually acts, which side rotates within the range of the rotation angle allowed Rather, when the rotation of one side starts in response to the state of the direction and strength of the external force, the hinge insertion member H of the other side performs the action of restraining and limiting the rotation variably and continuously.

Since the finishing panel 11 absorbs the working force of the external force through continuous conversion between horizontal vibration and vertical vibration, it can have very efficient and effective seismic reinforcement performance.

In addition, in the construction structure of the seismic thermal bridge blocking building finishing panel according to the present embodiment, the thermal bridge in which the heat insulating member 133 of the thermal bridge blocking frame bracket 130 is transferred to the inner frame bracket 132 through the outer frame bracket 131 By effectively blocking and suppressing the phenomenon, it is possible to effectively prevent condensation and suppress heat loss on the outer wall of the building.

Furthermore, in the construction structure of the finishing panels for thermal bridge barrier buildings according to the present embodiment, the contamination blocking parts 127 are provided between the finishing panels 110 to sufficiently prevent contamination from the outside to the inside.

Other application examples of the present invention are not limited to the embodiments shown above, and it is noted that embodiments can be configured by appropriately combining claims that do not have an explicit citation relationship in the claims.

As described above, the embodiments of the present invention have been described, but based on this, those skilled in the art can add or change components within the scope that does not deviate from the essential technical idea of the present invention described in the claims. The present invention can be variously modified and changed by deletion, addition, etc., and this is also included within the scope of the present invention.

10: building structure 11: profile frame
100: Construction structure of the finishing panel
110: finish panel
111: square plate 112: side wall
120: panel bracket
121: chassis frame
122: bracket accommodating rail 123: elastic fixing part
123a: elastic fixed body
123b: elastic rib 123c: elastic rib
124: blocking receiving groove 125: blocking receiving rail
127: contamination prevention unit 127a: rail coupling member
127b: pollution prevention plate 127c: blocking contact member
130: thermal bridge frame bracket
131: outer frame bracket
131a, 132a: bracket body
131b, 132b: connecting plate 131c: hinge shaft
132: inner frame bracket
133: heat insulation member

Claims (7)

finishing panels installed on profile frames provided on building structures;
A plurality of panel brackets coupled to both edge portions of the finishing panel and installed in a building structure; and
A thermal bridge blocking frame bracket having a hinge insertion member rotatably connected to the panel bracket and being coupled to the profile frame to block vibration and heat transfer between the finishing panel and the profile frame of the building structure,
The panel bracket,
a bracket accommodating rail disposed outward from the rim of the finishing panel and having accommodating grooves in the longitudinal direction;
an elastic fixing part that is elastically accommodated and fixed to the receiving groove of the bracket accommodating rail, and is fixed in position so that the hinge insertion member is inserted so as to be rotatable and movable;
a blocking accommodating rail located on the opposite side of the panel bracket to the bracket accommodating rail and provided with a blocking accommodating groove along the longitudinal direction of the panel bracket; and
A contamination blocking unit blocking gaps between adjacent finishing panels by being coupled to and fixed to the blocking receiving grooves disposed to face each other of the plurality of panel brackets; and
The elastic fixing part,
an elastic fixing body provided with an inner hollow to be resiliently inserted into and seated in the receiving groove of the bracket accommodating rail of the panel bracket; and
It includes a plurality of elastic ribs protruding into the inner hollow from both inner wall portions of the resilient fixing body to contact and support the hinge insertion member of the thermal bridge blocking frame bracket in a rotatable and movable manner,
The thermal bridge blocking frame bracket,
an outer frame bracket connected to and coupled to a bracket accommodating rail of the panel bracket;
an inner frame bracket provided to be supported in contact with the profile frame of the building structure; and
The outer frame bracket and the inner frame bracket are connected by a bridge, and a heat insulating member blocks heat transfer and absorbs vibration,
The outer frame bracket and the inner frame bracket,
A bracket body having an inner passage into which one end of the heat insulating member is linearly press-fitted and a side entrance protrusion narrowing the side entrance of the inner passage; and
It includes a connecting plate formed extending from one outer wall of the bracket body,
The connection plate of the outer frame bracket is formed shorter than the connection plate of the inner frame bracket, and the hinge insertion member is provided with a round protrusion at an end,
A hinge shaft formed to protrude in an extended protrusion is provided at an end of the connecting plate of the outer frame bracket,
Some of the plurality of elastic ribs are in contact with the connecting plate to support the connecting plate, and the other part is in contact with the hinge axis to support the hinge axis. . According to claim 1,
The contamination prevention unit,
a rail coupling member having a part inserted into the blocking accommodating groove and the other part being contacted and supported by an outer surface of the blocking accommodating rail; and
The construction structure of the seismic thermal bridge blocking building finishing panel, characterized in that it comprises a contamination prevention plate provided in a convexly curved shape from the other part of the rail coupling member to the profile frame side. According to claim 2,
The anti-contamination plate extends on one side of the other part of the rail coupling member and extends onto the other side, and has a blocking contact member that is gradually formed to be thin so as to be elastically deformable. The construction structure of the panel. According to claim 3,
The pair of anti-fouling plates, “

The construction structure of the seismic thermal bridge barrier building finishing panel, characterized in that it provides a blocking contact structure such as ". delete delete delete

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