KR101902742B1 - Insulation wall prefabricated pannel structure for thermal bridge blocking having T-type anker metal and insulation wall construction method using of the same - Google Patents

Abstract

The present invention provides a heat-bridging insulation panel assembly panel structure having T-shaped anchor hardware for minimizing a locking failure of a finishing material or a thermal insulation material and suppressing breakage deformation, and a method for constructing a thermal insulation panel for construction using the same. The present invention comprises: an angle; the T-shaped anchor hardware; and a finishing adiabatic integral panel.

Description

Technical Field [0001] The present invention relates to a heat-insulation-type heat insulating wall panel structure having a T-shaped anchor hardware, and a method of constructing a heat insulating wall panel using the same. }

[0001] The present invention relates to a heat insulating wall panel structure and a method of constructing a heat insulating wall panel for construction using the same. In particular, a panel with a thermal insulating material integrally accommodates in-plane conduction or in-plane deformation due to earthquake or wind load through a binding clip of a T- The upper part of the panel is screwed to the T-type anchor hardware and the lower part of the panel is moved and coupled. This allows the continuous connection with the supporting wall and furthermore the deformation accommodating dispersion of the heat insulating material integrated with the panel against the in- And a rotating friction member to be interposed with the supporting wall at the position of the center of the back surface of the panel is provided so as to minimize the rotation amount at the position of the panel and the T-shaped anchor hardware so as to minimize the locking failure of the finishing material or the heat insulating material, -Shaped heat-insulating wall-mounted panel structure with anchor hardware and use thereof It relates to a construction method for building insulation wall panels.

In general, a wall panel used as an exterior finishing material of a building is constructed of an outer finishing material composed of inorganic materials such as stone, a metal, a resin, etc., and a heat insulating material on the backside of the exterior finishing material to construct the supporting wall. A separate connecting plate is inserted between the wall panel and the wall panel to support the wall panel, and the fixing bracket is connected to the connecting plate and fixed to the supporting wall. In this case, in order to fix the wall panel, grooves are formed on the upper and lower surfaces of the wall panel, and a connection plate is inserted into the groove to fix the wall panel. However, in this case, There is a problem that the wall panel breaks down and falls into an accident.

As a background of the present invention, Korean Patent Registration No. 10-1283253, " High functional thermal insulation finishing panel structure " has been proposed. A fixing member attached and fixed to an outer wall of the building at a predetermined position; A connecting member extending in an L shape at the other end of the fixed part of the outer wall of the fixing member; An extending member which is a plate member having a long shape along a horizontal plane of the wall having one end connected to the other end of the connecting member and the other end having a coupling protrusion; And an insulation finishing panel having at least one heat insulator and a side pressure protector vertically installed at a predetermined distance from the outer wall and having an engaging groove on which the engaging projection is seated, So that it is possible to effectively cope with the pressure applied to the fluid.

However, in the background art, since the expansion member is inserted through the coupling protrusions into the thermal insulation finishing panel, the thermal insulation finishing panel generates an individual flow in the lateral direction (horizontal direction) when the earthquake arrives. Therefore, the thermal insulation finishing panel can not exhibit the seismic performance due to breakage and dropout due to failure of the integrated wall with the support wall.

Korean Registered Patent No. 10-1283253

The present invention can accommodate the in-plane conduction or in-plane deformation by earthquake or wind load through the binding clips of the T-shaped anchor hardware, and the finishing material insulation panel can continuously bond with the supporting wall. The present invention provides a method of constructing a heat shielding type heat insulating wall paneling panel structure having a T-shaped anchor hardware and a method of constructing a heat insulating wall panel using the same.

In addition, the present invention minimizes the rotational movement amount of the T-shaped anchor hardware when the in-plane deformation occurs due to the occurrence of an interlayer displacement such as an earthquake in the finishing material insulation panel, and mitigates the out-of-plane deformation of the panel against wind load or external impact. A heat-bridging insulation panel assembly panel structure having a T-shaped anchor hardware for preventing the blocking and breaking of the panels due to the rotation of the panel by rotating the inner and outer surfaces of the friction material and improving the functional performance of the panel, And an object of the present invention is to provide a method of constructing an insulating wall panel.

The heat-shielding type heat insulating wall panel assembly type panel structure provided with the T-shaped anchor hardware according to a preferred embodiment of the present invention is a wall panel structure fixed to a support wall of a building. The wall panel structure is fixed to the support wall through an anchor bolt Angle; A T-shaped anchor having a plate-like angled coupling portion having a long hole, an upper clip coupling portion extending perpendicularly to one end of the angle coupling portion, and a lower clip coupling portion extending downwardly at right angles to one end of the angle coupling portion, A T-shaped anchor hardware composed of a panel lower roller fixing binding clip sandwiched between the lower panel fixing pin and the upper pin fixing binding clip, ; A panel top fixing profile positioned at the top of the heat insulating material and disposed so as to be in contact with the back surface of the finishing material and joined to the upper panel pinching and binding clip to form pin fixing points, And a panel lower fixing profile, which is located at the lower end of the panel, and which is installed to contact the back surface of the finishing material, and which is joined to the lower roller fixing binding clip to form roller points.

In addition, it is located in the inner side of the inner wall of the finishing material insulation panel to absorb the impacts and deformations of the surface while minimizing the impact of the out-of-plane wind load and the in- And a further inner and outer rotation rubbing bodies are further provided.

In addition, the heat insulating material has a step-like joining step having a peripheral step so as to minimize the heat bridging when assembling between the heat insulating integrated panels of the finishing material.

Further, the in-plane and outer-side rotational rubbers may be fixed to the inner surface of the fin-and-heater integrated-type panel; And at least one elastic member connected to the fixing head and supported by the supporting wall to be installed, or an inelastic member having a self-supporting force.

The elastic member may be a linear spring, a plate spring, a loop spring, or a coil spring.

In addition, the inelastic member is characterized by being a non-elastic solid support having a non-flammable or non-flammable surface material.

In addition, in order to suppress rotation of the T-shaped anchor hardware, a slide cap inserted around the overlap portion where the angle and the T-shaped anchor hardware are connected is additionally provided. In order to fix the position of the T- And a T-shaped anchor fixing bolt is screwed into one place.

The apparatus further includes an angle rotation preventing bracket that is inserted into the anchor bolt, and has both ends fixed to the support wall via the auxiliary anchor to suppress the rotation of the angle.

Meanwhile, a method for constructing a heat insulating wall panel for a building using a heat-bridging heat insulating wall paneling panel structure having a T-shaped anchor hardware according to the present invention comprises the steps of: (a) fixing an angle to an installation wall to be installed by an anchor bolt, Connecting the T-shaped anchors to the angles by fastening the bolts and the nuts so that the T-shaped anchor hardware is installed at two places on the lower side and the upper side, respectively, for each of the finishing material integrated type panels; (b) The lower roller fixing binding clip assembled with the two T-shaped anchor hardware of the lower side is fitted to the lower panel fixing profile, so that the lower end of the finishing material thermal insulating integrated panel is fixed to the two panel lower roller fixing binding clips (2); (c) The upper part of the panel fastening and binding clip assembled to the two T-shaped anchor hardware of the upper part is fastened to the upper part fixing profile of the panel with the fixing screw, and the upper part of the finishing material- And pinning at two points by means of a bolt.

Further, the present invention is further characterized in that the above-mentioned finishing material insulation panel is further provided with a planar inner and outer rotation rubbing members for respective inner corners of the inner wall and supporting the inner and outer planar rubbing members on a supporting wall to be installed.

In order to suppress the rotation of the T-shaped anchor hardware by the external force on the angle, the slide cap is inserted around the overlap portion where the angle and the T-shaped anchor hardware are connected and then the T-shaped anchor fixing bolt is fastened, And a step of fixing the position of the optical fiber.

Further, it is further characterized in that, between adjacent thermal insulation integrated panels installed in the same horizontal position, a profile connecting clip is inserted into the upper panel fixing profile for the same behavior.

According to the heat-shrinkable heat insulating wall paneling structure having the T-shaped anchor hardware of the present invention and the construction method of the heat insulating wall panel for construction using the same, the upper panel pinching and binding clip assembled to the T- The upper part of the panel is integrally fixed to the profile through a fixing screw, and the lower roller fixing fastening clip assembled to the T-shaped anchor hardware is inserted into the lower panel fixing profile to be simply connected to receive movement or deformation, The finishing material insulation panel is constructed with a rigid fixing force to induce movement and deformation simultaneously with the T-shaped anchor steel for surface and external forces due to the continuous joining behavior, and the finishing material insulation panels act as one panel, And the seismic performance is exhibited. Accordingly, it is possible to prevent individual breakage or detachment of the finishing material heat insulating integrated panel according to the external surface force or the surface external force.

In addition, an interstory displacement such as an earthquake occurs between the finishing material insulation panel and the supporting wall to minimize the rotational movement of the T-shaped anchor hardware during the in-plane deformation and to mitigate the out-of-plane deformation of the panel against wind load or external impact, The friction material is installed to disperse the in-plane vibration and the out-of-plane impact, so that the use performance of the thermal insulation integrated panel of the finishing material can be further enhanced.

In addition, the finishing material thermal insulation integrated panels can minimize the thermal bridging by inserting the heat insulating materials in close contact with each other through the stepwise joining jaws, and can prevent the wall from being contaminated by water breaking.

In addition, the angle is prevented by the angle rotation preventing bracket and rotation about the axis of the anchor bolt is prevented, and when the slide cap is additionally provided at the angle, rotation of the T-shaped anchor hardware is suppressed to prevent the individual behavior of the heat- The seismic performance can be further enhanced.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a sectional side view of a construction of a heat-shading insulation panel structure according to the present invention; FIG.
1B is an enlarged view of a portion 'A' in FIG. 1A.
2 is a plan sectional view of a heat-shading type heat insulating wall panel assembly according to the present invention.
FIG. 3A is a perspective view of a T-shaped anchor iron piece assembled into a thermal insulating panel integrated with a finishing material applied to the present invention. FIG.
Figure 3b is a front view of Figure 3a;
4 is a side view of a thermal insulation integrated panel applied to the present invention.
FIG. 5A is a perspective view of a T-shaped anchor hardware and an angle coupled thereto according to the present invention. FIG.
FIG. 5B is a perspective view of the T-shaped anchor hardware of FIG.
Fig. 5c is a constructional view of a thermal insulation integrated panel to which the slide cap of Fig. 5a is applied. Fig.
FIG. 6A is a perspective view of a surface finishing material thermal insulating integrated panel to which the present invention is applied, with the inner and outer rotating rubbers on the back surface side. FIG.
FIG. 6B is a view showing a construction state of a heat-blocking type heat insulating wall prefabricated panel structure provided with the internal and external rotational friction bodies shown in FIG. 6A. FIG.
7 (a), 7 (b), 8 (c) and 12 (d) are illustrations showing various forms of internal and external rotating friction bodies applied to the present invention.
FIGS. 8A to 8E are views showing a construction procedure of a heat-shading insulation panel assembly panel structure according to the present invention. FIG.
FIGS. 9A and 9B are a plan view and a side cross-sectional view showing a state in which a neighboring finishing insulation panel according to the present invention is connected through a profile connecting clip. FIG.
Fig. 10 is an exemplary view showing a deformation state at the time of an earthquake according to the presence or absence of the installation of the inboard / outboard rotating friction body on the finishing material insulation panel according to the present invention. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

The wall panel structure according to the embodiment of the present invention is provided with an angle 10 fixed to the supporting wall 5 to be installed through the anchor bolts 7 as shown in FIGS. Here, the supporting wall 5 may be another supporting structure. The angle 10 may further include an angle rotation preventing bracket 9 as shown in FIG. 5A. The angle rotation preventing bracket 9 is inserted into the anchor bolt 7 and both ends thereof are fixed to the supporting wall body 5 via the auxiliary anchor 8. The angle rotation preventing bracket 9 forms a rectangular trough with the supporting wall 5 to surround the periphery of the angle 10 to suppress the rotation of the angle 10. [ Therefore, the angle 10 is blocked by the angle rotation preventing bracket 9, and rotation about the anchor bolt 7 is prevented.

The anchor 10 is provided with a T-shaped anchor iron 20 for connecting and supporting a finishing material insulating panel 30. 5A, the T-shaped anchor hardware 20 is composed of a T-shaped anchor 21, a lower roller fixing binding clip 22, a panel upper pinning binding clip 23, and a fixing screw 24 .

As shown in FIGS. 1B and 5A, the T-shaped anchor 21 has a plate-like angle combining portion 211 having an elongated hole 211a and connected to the angle 10 by fastening the bolt 11 and the nut 12, An upper clip coupling part 212 extending at right angles to one end of the coupling part 211 and a lower clip coupling part 213 extending downward at right angles to one end of the angle coupling part 211. The upper clip engagement portion 212 and the lower clip engagement portion 213 are provided with a clip position holding step 233 so that the positions of the lower roller fixing binding clip 22 and the upper panel fixing binding clip 23 are kept constant, (212a, 213a) are preferably formed.

The lower roller fixing fastening clip 22 is fitted to the upper clip fitting portion 212 and is preferably made of a soft material for the purpose of assembling buffering and fitting. The lower roller fixing fastening clip 22 has a rectangular cross section and is inserted into the upper clip fitting portion 212 through a clip fitting hole 22a passing through the center. The lower roller fixing fastening clip 22 of the panel can be made of, for example, soft plastic, rubber, urethane, silicone or the like.

1B, the upper panel pin binding clip 23 is fitted to the lower clip fitting portion 213 and is made of a hard material. The upper pin fixing clip 23 on the panel may be made of metal, hard plastic, FRP, or the like. The upper pin fixing and binding clip 23 has a rectangular cross section and is inserted into the lower clip fitting portion 213 through the clip fitting hole 23a penetrating the center.

As shown in FIG. 5A, the fixing screws 24 are inserted into both ends of the upper panel fixing fastening clip 23. The fastening screw 24 can be inserted into the pin-fixing fastening clip 23 on the panel via a screw connection or a hole. The fixing screw 24 is used for fixing the upper panel fixing clip 23 to the panel upper fixing profile 33 and is screwed to the panel upper fixing profile 33 of FIG. 1B. The fixing screw 24 fixes the upper panel pin binding and binding clip 23 to the panel upper fixing profile 33 of the finishing material thermal insulating integrated panel 30 so as to fix the T anchor hardware 20 and the panel upper pin 23. [ The fixing fastening clip 23 is integrally formed to thereby securely fix the finishing material insulating panel 30 to the supporting wall 5 to be installed without any flow.

As shown in Figs. 3 and 4, the thermal insulation integrated panel 30 is composed of a thermal insulation material 31 integrated on the back surface of the thermal insulation material 31 and a thermal insulation material 31 integrated on the back surface of the thermal insulation material 31, And a lower fixing profile 34 disposed at the lower end of the heat insulating material 31 and in contact with the back surface of the finishing material 32. [ The finishing material 32 is integrally bonded to the heat insulating material 31 by the self-adhesive force generated in the foaming process of the heat insulating material 31. [ And a rear finishing plate 35 may further be attached to the back surface of the heat insulating material 31. [ The rear finishing plate 35 is preferably made of a non-combustible material.

The heat insulating material 31 suppresses deformation and breakage of the finishing material heat insulating integrated panel 30 by using a polyurethane based material. The heat insulating material 31 is integrally formed with the panel upper fixing profile 33 and the lower panel fixing profile 34 when forming.

In order to maximize the self-adhesive strength and physical properties required during the forming process, the heat insulating material 31 is subjected to a two-pack type chemical reaction using MDI (methylene diphenyl diisocyanate) and polyol It is preferable to use a polyurethane foam manufacturing process. When the polyol is used in a weight ratio of about 2 to 10% of a polyester-based polyol having a molecular weight (MW) of 1000 to 5000 and the foaming process is carried out at 50 to 55 ° C, the physical properties (adhesion, Fracture strength, flexural strength) can be ensured. The polyurethane foam insulation produced through the above raw materials and manufacturing process has a thermal conductivity of 0.02 W / m · K or less, a density of 35 kg / m ³ or more, and an adhesive strength obtained when the tile brick is attached to the concrete wall with mortar It is possible to secure the foam bonding strength or fracture strength at a level of 40N to 45N / cm ^2, which is an equivalent level, and to secure a flexural strength of 50N / cm ² or more.

The panel upper fixing profile 33 and the lower panel fixing profile 34 may have the same cross sectional structure. The panel upper fixing profile 33 and the lower panel fixing profile 34 are respectively provided with a clip coupling member 33 which penetrates in the longitudinal direction and is inserted into the upper panel fixing coupling clip 23 and the lower panel roller fixing coupling clip 22 The grooves 33a and 34a and the anchor engagement grooves 33b and 34b which are communicated with each other with a smaller width than the clip engagement grooves 33a and 34a are formed. The panel upper fixing profile 33 and the lower panel fixing profile 34 may be made of metal, FRP, high-strength plastic, or the like. In the case of metal, it can be made of aluminum or stainless steel having corrosion resistance. Here, in the upper panel fixing profile 33, a screw-forming groove 33c may be formed below the anchor coupling groove 33b so as to facilitate screwing of the fixing screw 24. The screw-forming groove 33c includes a plurality of slits formed in the horizontal direction.

The panel upper fixing fastening clip 23 of the T-shaped anchor hardware 20 is inserted into the panel upper fixing profile 33 through the clip fitting groove 33a and the upper pin fixing fastening clip 23 And fixed to the panel upper fixing profile 33 by the fixing screw 24. [ Thus, the upper pin fixing clip 23 on the panel forms a fixed point with the panel upper fixing profile 33.

The panel upper fixing fastening clip 23 of the T-shaped anchor hardware 20 is inserted into the lower panel fixing profile 34 through the clip fitting groove 33a and the lower panel roller fixing fastening clip 22 Is fitted into the lower panel fixing profile 34 through the clip coupling groove 34a to form a roller point.

The upper end portion of the finishing material insulating panel 30 is fixedly coupled to the T-shaped anchor hardware 20 by a pin fixing pin 23 at the upper side of the panel with a pin fixing point, And is moved and joined to the T-shaped anchor hardware 20 through the clip 22 to the roller point.

Accordingly, along the in-plane horizontal displacement of the support wall 5 in the horizontal force such as the in-plane seismic force, the finishing material thermal insulation integrated type panels 30 are minimized in rotation between adjacent ones, and the displacement is induced in the same plane. As a result, it is possible to minimize the total rotation of the heat insulating integrated panels 30 and the breakage of the locking.

In addition, the finishing material insulating panel 30 may be manufactured to have a stepped coupling step 31a having a step around the heat insulating material 31 as shown in FIGS. 3 and 4. Therefore, the heat insulating materials 31 and 31 are closely contacted with each other through the stepwise coupling step 31a between the finishing insulation panel 30 and 30, and the T-shaped anchor 21 inserted in the profile is directly exposed to the outside air It is possible to minimize the thermal bridging, and water breakage can be carried out to prevent contamination of the supporting wall when the rainwater is infiltrated.

On the other hand, as shown in FIG. 6, the inside / outside surface rotating friction member 40 may be further installed inside the finishing material insulating panel 30. It is preferable that the inboard / outboard rotary friction body 40 is located in the inner center of the interior of the finishing material insulation panel 30 to exhibit the center of rotation. The inner and outer rotary rubbing bodies 40 perform a function of absorbing the rotary shock while enhancing the seismic performance while exerting a rotary center point function in the case of impact due to wind load and external vibration.

The inner and outer rotary friction bodies 40 are provided with a fixing head 41 which is fixed to the inner surface of the thermal insulation integrated panel 30 and a fixing head 41 which is connected to the fixing head 41 and supported by the supporting wall 5 And the elastic member 42 as described above. 7, the elastic member 42 may be formed of any one of a linear spring, a plate spring, a loop spring, and a coil spring. The elastic member 42 may be replaced with an inelastic member having a self-supporting force. The inelastic member may be a non-elastic solid support having a non-flammable or non-flammable surface material.

The fixing head 41 may be screwed to the inner surface (rear surface) of the finishing material insulating integrated panel 30 or may be fixedly installed with a separate fastening means (bolts, screws, etc.).

The inboard / outboard rotary friction body 40 can be installed at the center of the back surface of each of the finishing material integrated panel 30. Therefore, when the finishing material insulating panel 30 is installed, the inner and outer rotating rubbers 40 are positioned between the rear surface of the finishing material insulating panel 30 and the supporting wall 5, and each finishing material insulating panel 30 are transmitted to the mounting support wall body 5 through the inner and outer rotation rotatable members 40 to directly disperse the external forces exerted on the individual finishing material thermal insulating integrated panel 30. [ 10 (a) shows the displacement (Δ ₁ ) generated in the thermal insulation integrated panel 30 of the finishing material at the time of the earthquake when there is no in-plane and outer rotary friction body 40, In the case of the presence of the rotating friction body 40, when the displacement (Δ ₂ ) generated in the thermal insulation integrated panel 30 of the finishing material at the time of the earthquake is compared, Δ ₁ > ₂ < / RTI > That is, in the case where the inner and outer rotating friction bodies 40 are provided, the inner and outer rotating friction bodies 40 move the center of rotation and perform the friction function at the same time to reduce the rotational deformation, thereby improving the seismic performance.

At this time, also through the structure in which the lower panel roller fixing and binding clip 22, the upper panel pinching and binding clip 23 on the panel, and the stepped engagement step 31a between the heat insulating material 31 are integrated, So that the seismic performance of the finishing material insulating panel 30 is further enhanced.

5B to 5C, the angle 10 is provided with an overlap portion 20a to which the angle 10 and the T-shaped anchor hardware 20 are connected in order to suppress the rotation of the T-shaped anchor hardware 20 due to external force (vibration) A slide cap 25 is additionally inserted into the slide cap 25 and a T-shaped anchor fixing bolt 26 may be provided at least at one position to fix the position of the T-shaped anchor 21. [

The construction method of the heat insulating wall panel for building using the heat-bridging heat insulating wall paneling panel structure having the T-shaped anchor hardware constructed as described above will be sequentially described.

8A, the angle 10 is fixed to the supporting wall 5 by anchor bolts 7 and then the T-type anchor 21 is fastened to the angle 10 with bolts 11 and nuts (12) so that the T-shaped anchor hardware (20) is installed. Here, the T-shaped anchor hardware 20 is installed at two places on the lower side and two places on the upper side for each one of the finishing material insulating integrated type panels 30. [

5b is inserted into the angle 10 in order to suppress the rotation of the T-shaped anchor hardware 20 due to an external force (vibration), and then the T-shaped anchor fixing bolt 26 So that the position of the T-shaped anchor 21 can be fixed.

Next, as shown in Figs. 5C and 8C, the lower roller fixing binding clip 22 assembled to the two lower T-shaped anchor hardware 20 is fitted into the lower panel fixing profile 34, The lower end portion of the heat insulating integrated panel 30 is installed so as to be slidingly supported at two points by the two panel lower roller fixing binding clips 22.

Then, as shown in Figs. 3A, 8D and 8E, the panel upper pinning and binding clip 23 assembled to the two T-shaped anchor hardware 20 on the upper side is fixed to the panel with the fixing screws 24 And the upper end portion of the finishing material thermal insulation integrated panel 30 is pinned at two points by two pin fixing fastening clips 23.

In this process, as shown in FIG. 8D, the surface and inside / outside rotating friction body 40 may be installed on the finishing material insulation panel 30 to be supported on the supporting wall 5 to be installed.

Further, between the adjacent finishing material insulating integrated panels 30 and 30, which are installed in the same horizontal position, as shown in FIGS. 9A and 9B, a profile is formed in the clip coupling groove 33a formed on the panel- An operation of fitting the connecting clip 50 can be performed. The profile connecting clip 50 induces mutually integrated behavior in the case of external vibration or impact, thereby minimizing dropout of the individual panel.

According to the construction method of the present invention, the upper end portion of the finishing material insulating panel 30 is fixed to the upper portion of the panel through the fixing screws 34 at two places of the panel upper fixing profile 33 And is securely connected to the T-shaped anchor hardware 20 by being fastened to the clip 23. Therefore, the finishing material thermal insulating integrated panel 30 is installed on the mounting support wall 5 with a fixed fixing force without flowing.

In addition, during the in-plane movement, the lower end portion of the thermal insulation panel 30 is slidably supported at two points by the two panel lower roller fixing and binding clips 22, so that the entire finishing material thermal insulating integrated panels 30 are connected to one And acts as a panel to exhibit seismic performance with rigidity.

As described above, in the present method, in each of the thermal insulation integrated panels 30, the lower roller fixing fastening clip 22 at the lower side is provided as a roller point movable from the lower panel fixing profile 34 to the lower panel fixing profile 34, The upper panel pinching and binding clip 23 on the panel side is fastened to the panel upper fixing profile 33 with fixing screws 24 and is installed as a pin fixing point. Accordingly, along the in-plane horizontal displacement of the support wall 5 in the horizontal force such as the in-plane seismic force, the finishing material thermal insulation integrated type panels 30 are minimized in rotation between adjacent ones, and the displacement is induced in the same plane. Accordingly, it is possible to minimize the individual breakage or detachment of the finishing material insulating panel 30 according to the external vibration.

In addition, the inboard / outboard rotary friction body 40 is installed between the finishing material insulating panel 30 and the supporting wall 5 to disperse vibration and impact, thereby enhancing the seismic performance of the structure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: angle
20: T type anchor hardware
25: Slide cap
30: Finish insulation panel
40: inner and outer rotating friction body

Claims (12)

A wall panel structure fixed to a support wall (5) of a building,
An angle 10 fixed to the supporting wall 5 to be installed through the anchor bolts 7;
An upper clip engagement portion 212 extending perpendicularly upward from one end of the angle engagement portion 211 and a lower clip engagement portion 212 extending from the other end of the angle engagement portion 211 toward the lower end of the angle engagement portion 211, A lower roller fixing binding clip 22 that is fitted to the upper clip binding portion 212 and a lower pin fixing binding clip 22 which is fitted to the lower clip binding portion 213, A T-shaped anchor hardware 20 including an upper panel pin binding clip 23 and a fixing screw 24 screwed to both ends of the panel upper pin fixing clip 23;
A heat insulating material 31 integrally formed on the back surface of the finishing material 32 and a heat insulating material 31 located on the top of the heat insulating material 31 so as to be in contact with the back surface of the finishing material 32, A panel upper fixing profile 33 which is joined to the lower panel fixing fixing clip 33 and forms a pin fixing point, a lower panel fixing pin 33 which is positioned at the lower end of the heat insulating material 31 and is in contact with the back surface of the finishing material 32, And a panel lower fixing profile (34) which is joined to the lower panel fixing profile (34) to form a roller point. The T-shaped anchor iron structure as claimed in claim 1, The method according to claim 1,
Is positioned in the inner side of the inner wall of the finishing material insulation panel (30), absorbs the internal and external impacts and deformations while exhibiting the function of the rotation center point during the impact caused by the out-of- plane wind load and the in- plane vibration, thereby minimizing the prevention of the locking- Wherein the inner and outer rotary friction bodies (40) are further provided on the inner and outer surfaces of the panel body (2). The method according to claim 1,
The heat insulating material (31) has a stepped coupling step (31a) having a peripheral step so as to minimize the thermal bridging when the finishing material is assembled between the heat insulating integrated panels (30, 30) Blocked insulation panel prefabricated panel structure. 3. The method of claim 2,
The in-plane and outer-side rotating friction bodies 40
A fixing head (41) which is fixed to the inner surface of the fin-and-heater integrated panel (30);
(42) connected to the fixing head (41) and supported by the supporting wall (5) to be installed, or an inelastic member having a self supporting force. Insulated wall prefabricated panel structure. 5. The method of claim 4,
Wherein the elastic member (42) is one of a linear spring, a plate spring, a loop spring, and a coil spring. 5. The method of claim 4,
Wherein the inelastic member is a non-elastic solid support having a nonflammable or nonflammable surface material. ≪ RTI ID = 0.0 > 11. < / RTI > The method according to claim 1,
A slide cap 25 is additionally installed around the overlap portion where the angle 10 and the T-shaped anchor hardware 20 are connected to suppress the rotation of the T-shaped anchor hardware 20, 25) is provided with at least one T-shaped anchor fixing bolt (26) screwed to fix the position of the T-shaped anchor (21). Structure. The method according to claim 1,
And an angle rotation preventing bracket 9 for preventing the rotation of the angle 10 by fixing the both ends to the supporting wall body 5 via the auxiliary anchor 8 after being inserted into the anchor bolts 7 A heat shielding type heat insulating wall panel assembly having a T-shaped anchor hardware. (a) An angle 10 is fixed by anchor bolts 7 to a supporting wall 5 to be installed. Then, a T-shaped anchor 21 is connected to the angle 10 by a bolt and a nut, Installing each of the anchor hardware 20 at two places on the lower side and two places on the upper side for each one of the finishing material insulating integrated type panels 30;
(b) The panel lower roller fixing binding clip assembled to the two T-shaped anchor hardware 20 on the lower side is fitted into the panel lower fixing profile 34, Setting the lower end portion to be slidably supported at two points by the two panel lower roller fixing and binding clips 22;
(c) The upper panel pinching and binding clip 23 assembled with the two T-shaped anchor hardware 20 on the upper side are fastened to the panel upper fixing profile 33 with fixing screws 24, And pinning the upper end of the heat insulating integrated panel (30) by two pin-fixing binding clips (23) at two points. The T-type anchor hardware A Method of Construction of Insulation Wall Prefabricated Panel for Building Using Wall Prefabricated Panel Structure. 10. The method of claim 9,
The method of claim 1 or 2, further comprising the step of mounting the inner and outer rotary rubbers (40) on the finishing insulation panel (30) (EN) The present invention relates to a method for constructing a heat insulating wall panel for building using a heat shielding type heat insulating wall paneling structure. 10. The method of claim 9,
In the step (a)
In order to suppress the rotation of the T-shaped anchor hardware 20 by the external force on the angle 10, the slide cap 25 is inserted around the overlap portion where the angle 10 and the T-shaped anchor hardware 20 are connected And then fixing the position of the T-shaped anchor (21) by fastening the T-shaped anchor fixing bolt (26). The T-shaped anchor fixing structure according to claim 1, Construction method of insulation panels for building walls. 10. The method of claim 9,
And an operation of fitting the profile connecting clip 50 to the upper panel fixing profiles 33 and 33 for the same behavior between the adjacent finishing insulation panels 30 and 30 installed at the same horizontal position A method of constructing a heat insulating wall assembly panel for a building using a heat shielding type heat insulating wall panel assembly having a T-shaped anchor hardware.

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