KR101375028B1 - the insulation complex panel with structural wood and the construct method of wall therewith - Google Patents

Abstract

The present invention relates to a heat insulation composite panel containing a structural wood and a wall construction method using the heat insulation composite panel, the wooden board of a larger area than the heat insulating material is integrally attached to both sides of the heat insulating material of the rectangular plate shape, each side and In the space formed by the facing wood board, auxiliary insulation material, structural wood and auxiliary insulation material are inserted, and it is equipped with an insulation composite panel having an integrated structure, and each material, an el-shaped member having an 'L' cross section, and a side insulation material having a predetermined thickness Further provided; Install the El-shaped member on the construction site using anchor bolts, erect the insulation composite panel, fix the lower end of the insulation composite panel to the protruding surface of the el-shaped member and fix it with a piece, and the side insulation material on the side of the installed insulation composite panel. Install a plurality of thermal insulation composite panels on the el-shaped member by placing other thermal insulation composite panels in order, and fixing them to the el-shaped member, and place the materials on the finishing surface of the plurality of thermal insulation composite panels and fix them with pieces. The construction is easy, because no additional beams and columns are required by the structural wood of the insulation composite panel, and the insulation is excellent by the insulation material, the auxiliary insulation material and the side insulation material of the insulation composite panel, and the thermal bridge phenomenon of the constructed wall This can be prevented.

Description

The insulation complex panel with structural wood and the construct method of wall therewith}

The present invention relates to a heat insulation composite panel containing a structural wood and a wall construction method using the heat insulation composite panel, the wooden board of a larger area than the heat insulating material is integrally attached to both sides of the heat insulating material of the rectangular plate shape, each side and In the space formed by the facing wood board, auxiliary insulation material, structural wood and auxiliary insulation material are inserted, and it is equipped with an insulation composite panel having an integrated structure. Further provided; Install the El-shaped member on the construction site using anchor bolts, erect the insulation composite panel, fix the lower end of the insulation composite panel to the protruding surface of the el-shaped member and fix it with a piece, and the side insulation material on the side of the installed insulation composite panel. Install a plurality of thermal insulation composite panels on the el-shaped member by placing other thermal insulation composite panels in order, and fixing them to the el-shaped member, and place the materials on the finishing surface of the plurality of thermal insulation composite panels and fix them with pieces. The construction is easy, because no additional beams and columns are required by the structural wood of the insulation composite panel, and the insulation is excellent by the insulation material, the auxiliary insulation material and the side insulation material of the insulation composite panel, and the thermal bridge phenomenon of the constructed wall This can be prevented.

In general, panels for thermal insulation are made of so-called sandwich panels that surround insulation materials such as expanded polystyrene, foamed polyurethane, and polyisocyanurate foams with non-combustible reinforcements such as steel sheets. It is often used for partitions and prefabricated construction.

In addition, recently, a fire resistant panel integrated with a non-flammable board is provided on both sides of a board-shaped expanded polystyrene, thereby increasing durability and making it safe for fire.

Looking at an example of such an insulation panel, Korean Patent Application No. 1986-0000201 consists of a rectangular plate body made of rigid foamed plastic and a groove extending in the center of the two opposite end sides of the fuselage, spline Is described for panels for use in insulating wall assemblies in which the fuselage is coupled to the groove so that the fuselage can be connected to other wall assembly members and the insulating wall assemblies for interconnecting the panels using struts. .

And in Korean Patent Application No. 2002-0029575, the inner, outer moisture-proof plate (wood) and the inner, outer wall panels are sequentially attached to both sides of the wall frame filled with the heat-insulating sound absorbing material therein, the side of the wall frame is steel The reinforcement is installed in an upright position, and the side of the wall frame is posted on the steel wall structure of the structure in which the upper and lower steel fixing materials are connected and installed.

However, in the conventional sandwich panel exemplified above, the foamed urethane and polyisocyanurate foams are weak in durability and strength, and thus, the reinforcement such as steel sheet does not have sufficient bending strength, tensile strength, durability, and weather resistance. there was.

And when looking at the insulation wall assembly according to the first exemplary patent, a plurality of struts to connect the panel is required, when using the struts are equipped with a separate strut, it takes a lot of time because it must be installed together with the panel, In addition, there is a problem that the thermal bridge phenomenon (that means that the outside air enters into the room due to weakening or breaking of the insulation of any part of the building) occurs in the contact portion between the support and the panel.

Similarly, even in the steel wall structure according to the second exemplary patent, since the heat insulating sound absorbing material is connected to the steel reinforcing material, there is a high possibility that the thermal bridge phenomenon occurs in the portion where the steel reinforcing material and the heat insulating flaw material contact, and the internal and external moistureproof plates are Since the heat-insulating sound absorbing material is attached and installed, the upper and lower steel fixing materials fix only the heat insulating sound absorbing material and the steel reinforcing material.

Therefore, the present invention, in order to solve the above problems, a wooden board of a larger area than the heat insulating material is integrally attached to both sides of the heat insulating material of the rectangular plate shape, each side of the heat insulating material and facing the board formed in the auxiliary insulation material, structural wood And an auxiliary heat insulating material inserted therein, the insulating composite panel having an integrated structure, and a lumber member, an El-shaped member having an 'L' cross section, and a side heat insulating material having a predetermined thickness; Install the El-shaped member on the construction site using anchor bolts, erect the insulation composite panel, fix the lower end of the insulation composite panel to the protruding surface of the el-shaped member and fix it with a piece, and the side insulation material on the side of the installed insulation composite panel. Install a plurality of thermal insulation composite panels on the el-shaped member by placing other thermal insulation composite panels in order, and fixing them to the el-shaped member, and place the materials on the finishing surface of the plurality of thermal insulation composite panels and fix them with pieces. The construction is easy, because no additional beams and columns are required by the structural wood of the insulation composite panel, and the insulation is excellent by the insulation material, the auxiliary insulation material and the side insulation material of the insulation composite panel, and the thermal bridge phenomenon of the constructed wall To prevent it.

Thus, in the present invention, a wooden board having a larger area than the heat insulating material is integrally attached to both sides of the rectangular plate-shaped heat insulating material, and the auxiliary heat insulating material, the structural wood and the auxiliary heat insulating material are inserted into the space formed by each side of the heat insulating material and the facing wood board. And a heat insulation composite panel having an integrated structure, and further comprising a square member, an El-shaped member having an 'L' cross section, and a side insulation having a predetermined thickness; Install the El-shaped member on the construction site using anchor bolts, erect the insulation composite panel, fix the lower end of the insulation composite panel to the protruding surface of the el-shaped member and fix it with a piece, and the side insulation material on the side of the installed insulation composite panel. Install a plurality of thermal insulation composite panels on the el-shaped member by placing other thermal insulation composite panels in order, and fixing them to the el-shaped member, and place the materials on the finishing surface of the plurality of thermal insulation composite panels and fix them with pieces. The construction is easy, because no additional beams and columns are required by the structural wood of the insulation composite panel, and the insulation is excellent by the insulation material, the auxiliary insulation material and the side insulation material of the insulation composite panel, and the thermal bridge phenomenon of the constructed wall It is effective to prevent.

1 is a perspective view of a heat insulating composite panel according to the present invention.
2 is a cross-sectional view of the insulating composite panel according to the present invention.
3 and 4 are assembled perspective view according to the production of the insulating composite panel according to the present invention.
5 and 6 is a perspective view of the installation according to the wall construction using a heat insulating composite panel according to the present invention.
Figure 7 is a partial perspective view showing the corner of the wall is installed corner member in accordance with the present invention.
8 is a front view according to the wall construction of the present invention.
9 is a cross-sectional view according to the wall construction according to the wall construction of the present invention.
10 is a perspective view and a cross-sectional view showing another example of the insulating composite panel according to the present invention.

The present invention relates to a heat insulation composite panel containing a structural wood and a wall construction method using the heat insulation composite panel, the wooden board of a larger area than the heat insulating material is integrally attached to both sides of the heat insulating material of the rectangular plate shape, each side and In the space formed by the facing wood board, auxiliary insulation material, structural wood and auxiliary insulation material are inserted, and it is equipped with an insulation composite panel having an integrated structure, and each material, an el-shaped member having an 'L' cross section, and a side insulation material having a predetermined thickness Further provided; Install the El-shaped member on the construction site using anchor bolts, erect the insulation composite panel, fix the lower end of the insulation composite panel to the protruding surface of the el-shaped member and fix it with a piece, and the side insulation material on the side of the installed insulation composite panel. Install a plurality of thermal insulation composite panels on the el-shaped member by placing other thermal insulation composite panels in order, and fixing them to the el-shaped member, and place the materials on the finishing surface of the plurality of thermal insulation composite panels and fix them with pieces. The construction is easy, because no additional beams and columns are required by the structural wood of the insulation composite panel, and the insulation is excellent by the insulation material, the auxiliary insulation material and the side insulation material of the insulation composite panel, and the thermal bridge phenomenon of the constructed wall This can be prevented.

The insulation composite panel according to the present invention will be described, and the wall construction method using the insulation composite panel will be described sequentially. First, the structure of the insulation composite panel will be described as follows.

First, the thermal insulation composite panel 100 is composed of a heat insulating material 10, a wooden board 20 (20 '), an auxiliary heat insulating material 30, a structural wood 40, the heat insulating material 10 has a rectangular plate shape As a heat insulating material, a conventional foamed polystyrene board (also called styrofoam) is used, or a flame-retardant foamed polystyrene board (also called a flame retardant EPS board) having a flame retardancy is coated by coating a fireproof coating on the unit particles of the foamed polystyrene, or Insulation boards such as urethane foam boards are used, and heat insulating materials of appropriate thickness are used in consideration of insulation properties.

And wood board 20 (20 ') is a square plate-shaped wood, the type of wood applied, solid wood, plywood, MDF (medium density fiberboard), particle board (PB, particle board), OS Solid wood or wood, such as non-board (OSB, Oriented Strand Board, a plate made by cross-aligning small pieces of wood about 2 inches wide by 3 inches long and bonded to each other at right angles) The composite board processed in the form of a board can be used.

On the other hand, the wooden board 20 (20 ') has a larger area than the heat insulating material 10, in detail, the length of the horizontal, vertical length of the wood board 20 (20') is the horizontal, vertical length of the heat insulating material (10). Configure longer.

Next, the auxiliary heat insulating material 30 is composed of a band structure having heat insulation, and the auxiliary heat insulating material 30 is a heat reflection type heat insulating material, a fiber heat insulating material, a urethane heat insulating material (polyurethane foam, PU foam), and a polypropylene foam (PP foam). ), Polyethylene foam (PE foam), wood rock (aka, iso pink, a good insulation made from a hydrobag, which is a polymer extruded polystyrene), and a foamed polystyrene board (aka styrofoam). It is preferable to use the material having excellent durability, excellent hardness and cushioning, and the length of the auxiliary insulation material 30 is provided considering the horizontal length and the vertical length of the wood board 20 (20 '). do.

And the structural timber 40 uses a general structural timber (構造 用 木 材) having a rectangular cross section, the general structural timber refers to the wood used as a structural material, such as foundation, pillar, beam, purlin, brace, etc. in a wooden building, this The length of the structural timber 40 is provided in consideration of the horizontal length and the vertical length of the wood board 20 (20 ').

When described as a process of manufacturing a structure of the insulation wood panel including the heat insulating material 10, the wood board 20 (20 '), the auxiliary heat insulating material 30, the structural wood 40 is configured as follows.

First, as shown in FIG. 3, the wood board 20 (20 ') is attached to the center of both surfaces of the heat insulator 10, and integrated. The heat insulating material 10 has a larger area than the wood board 20 (20'). As it is small, a space occurs between the edges of the two wood boards 20 (20 ') attached to the thermal insulator 10.

Then, the auxiliary insulation 30 is attached along one surface of the structural timber 40, and the total thickness of the structural timber 40 and the auxiliary insulation 30 is attached to the two wood boards 20 attached to the heat insulating material 10. (20 ') is equal to or slightly thicker than the space between, the total length of the structural timber 40 and the auxiliary insulation 30 is attached to the horizontal length of the wooden board 20 (20') and the heat insulating material (10) The vertical length of each, or, respectively, or consists of the vertical length of the wood board 20 (20 ') and the horizontal length of the heat insulating material 10, respectively.

For reference, the attachment of the insulation 10 and the wood board 20 (20 '), the attachment of the structural timber 40 and the auxiliary insulating material 30 uses a urethane foam and other adhesives.

Thus, as shown in Figure 4, the integrated structural timber 40 and the auxiliary insulating material 30 is inserted into the space between the edge of the wood board 20 (20 ') attached to the heat insulating material 10, pieces, etc. Driven and fixed by the fixing member 50 of the auxiliary insulation material 30 is inserted into the space slightly compressed with a cushion of the insulating material, the structural timber 40 and the auxiliary insulating material 30 is in contact with each side of the heat insulating material (10). The structural timber 40 is in contact with the inside of one wood board 20, the outer surface of the auxiliary insulating material 30 has a structure in contact with the inside of the other wood board (20 ') facing, two wood board (20) (20 ') to drive the fixing member 50, such as a piece from the outside to fix the end of the piece to be embedded in the structural timber 40, respectively.

1 and 3, when both of the structural timber 40 and the auxiliary insulation 30 integrated into the four sides of the heat insulator 10 are inserted, the wood board 20 on both sides of the heat insulator 10 is inserted. 20 'is integrally attached, and the auxiliary insulation 30 and the structural timber 40 are inserted into the space between the four sides of the heat insulating material 10 and the wood board 20 (20'). Insulating composite panel 100 having a structure is configured.

On the other hand, the heat insulating composite panel 100 manufactured by the above-described manufacturing method is a structure in which the auxiliary insulating material 30 constitutes only one surface of the structural timber 40, but, as shown in FIG. Insulation composite panel 100 configured to configure auxiliary insulations 30 and 30 'on both sides of the wood 40 so that the auxiliary insulation materials 30 and 30' are in contact with the wood boards 20 and 20 ', respectively. By constructing the heat insulation can be further improved.

The wall construction method using the insulation composite panel 100 configured as described above will be described, but first, the connection member and the side insulation material 500 necessary for the construction of the wall will be described, and the insulation insulation panel having the structure configured by the auxiliary insulation material 30 only on one surface thereof. The wall construction method using 100 is demonstrated.

First, the connection member is to connect a plurality of insulating composite panel 100, the el-shaped member 200, the auxiliary el-shaped member (200 ') angle member 300, the band member, the corner member 400, etc. , El-shaped member 200 has a cross-section 'L' shape, has a structure having a predetermined length, and forms a plurality of holes 201 through the two sides of the el-shaped member 200 at regular intervals, The el-shaped member 200 is used to bend the metal plate, the el-shaped member 200 has two kinds according to the length, the el-shaped member 200 having a length of about the length of one side of the wall, and continuous Consists of the auxiliary el-shaped member (200 ') having a length enough to connect the two insulation composite panels (100).

7 to 9, the lumber 300 is a timber having a square cross section, applying a structural timber, or by processing a general solid wood in a square, the width of the lumber 300 described above It consists of the thickness of the thermal insulation composite panel 100.

In addition, the band plate material (not shown) is a plate material having a band structure having a relatively narrow thickness compared to the width, and metal, wood, or the like is used.

As shown in FIG. 7, the corner member 400 has a structure in which its cross section is bent at an angle of the corner of the wall, and has a cross-sectional shape of approximately 'L', the length of which is the corner member 400. A plurality of holes are formed along the two surfaces at regular intervals, and the corner member 400 is used by bending a metal plate, and a plurality of holes are formed along the surfaces at regular intervals.

Next, as shown in Figure 5, the side insulation 500 has a horizontal and vertical length corresponding to the thickness and height of the heat insulating composite panel 100, the appropriate thickness as a heat insulating material, to the side heat insulating material 500 A flame retardant polystyrene board using a foamed polystyrene board (also called styrofoam) or having a flame-retardant coating coated on a unit particle of the foamed polystyrene, or a heat reflective insulation material, a fiber insulation material, a urethane insulation material (polyurethane foam, PU foam), polypropylene foam (PP foam), polyethylene foam (PE foam), iso-pink (wood rock type, high-temperature insulation material made by the method called hydrobag, which is a polymer extruded polystyrene).

When the wall construction method using the insulation composite panel 100 using the insulation composite panel 100, the connection member, the side insulation 500 provided as described above is as follows.

First, as shown in Figs. 5 and 9, in the process of installing the el-shaped member 200 in the construction paper to be installed on the wall, the el-shaped member 200 to the construction paper using a fixing member 210 such as an anchor bolt. Fixed, the other surface of the installed el-shaped member 200 has a structure protruding upward, the length of the el-shaped member 200 to be installed is installed in consideration of the length of the wall to be installed, at this time, the el-shaped member 200 May be replaced with a lumber (not shown).

Next, as shown in Figs. 5 and 9, the thermal insulation composite panel 100 is installed upright, while the lower surface of the thermal insulation composite panel 100 is in close contact with the el-shaped member 200, fixing pieces, screws, and the like. Using the member 220, the insulation composite panel 100 is to be fixed to the el-shaped member 200, the end of the fixing member 220 to be embedded in the structural timber 40 of the insulation composite panel 100. desirable.

In addition, when installing the heat insulation composite panel 100, the structural timber 40 of the heat insulation composite panel 100 is located in the inner space side, and in the case of configuring the auxiliary insulation material 30 only on one side of the structural timber 40, Insulating material 30 is preferably located toward the outer space, while installing the insulating composite panel 100, the el-shaped member 200 is an el-shaped member (in the inner space of the wall, that is, the inner wall of the insulating composite panel 100) 200 is located, since the el-shaped member 200 is embedded by floor construction, the el-shaped member 200 may be exposed in the wall construction.

5 and 6, the insulation composite panel 100 is continuously installed on the side of the installed insulation composite panel 100, but the side surface is between the insulation composite panel 100 and the insulation composite panel 100. Insulation material 500 is in close contact with each other, and install the following thermal insulation composite panel 100 in the same manner as described above, the bottom portion of the adjacent two insulation composite panel 100 is in contact with the bottom and two insulation composite panel 100. Position the auxiliary el-shaped member 200 'so as to drive the fixing member 230 to the auxiliary el-shaped member 200' toward the bottom and fix it, and to the auxiliary el-shaped member 200 'of the thermal insulation composite panel 100, pieces, screws, etc. By using the fixing member 240 of the, the thermal insulation composite panel 100 is to be fixed to the auxiliary el-shaped member (200 '), the end of the fixing member 240 to the structural timber 40 of the thermal insulation composite panel 100 It is desirable to get stuck.

When the insulation wall is continuously constructed in this manner, once one surface of the wall is completed, as shown in FIGS. 7 to 6, the shell member 300 is positioned on the installed insulation panel 100, and pieces, screws, and the like. Using the fixing member 310 of the, the lumber 300 is to be fixed to each of the insulating composite panel 100, the end of the fixing member 310 to the structural timber 40 of the insulating composite panel 100 It is desirable to get stuck.

When the horn 300 is installed on the upper surface of the plurality of insulation composite panels 100, the plural insulation composite panels 100 are integrated by the horn 300, which is a continuous insulation composite during the wall construction process. The panel member 100 may be installed while the panel member 100 and the auxiliary el-shaped member 200 'may be installed, or may be performed after all the insulation composite panels 100 and the auxiliary el-shaped member 200' are installed. The angle member 300 used for the integration of the thermal insulation composite panel 100 may be replaced with a band member (not shown), and the angle member 300, or the band member, is an upper surface of the thermal insulation composite panel 100. Of course, it may be installed along the side where the structural timber 40 of the thermal insulation composite panel 100 is located.

When one side of the wall to be constructed by the above-described method is completed, the el-shaped member 200 on the construction paper so as to have a proper angle (generally, vertical) with respect to the el-shaped member 200 on which the insulation composite panel 100 is installed. It is installed in the same manner as described above, and the side insulation material 500 and the insulation composite panel 100 are continuously installed in the el-shaped member 200 thus installed.

If this process is repeated according to the number of wall surfaces, the wall construction is completed. For reference, the interior surface of the constructed wall can be finished with ordinary interior materials, that is, paint, wallpaper, Hanji, etc. The outer surface of the wall is a conventional exterior material, that is, magnesium board, cement board, gypsum board, iron plate, fiber reinforced cement board (CRC Board), calcium silicate board, calcium silicate board, coating material, ash, Finish with paint, ocher and siding.

On the other hand, as shown in Figures 7 and 9, the corner of the wall corner, that is, the inner corner of the corner member 300 and the corner member 300 meets the upper surface of the insulating composite panel 100, the corner member 400 Is positioned, fixed with a fixing member 410, such as pieces, screws, the end of the fixing member 410 to be fixed from the top to pass through the lumber 300, to be embedded in the structural timber 40 of the thermal insulation composite panel 100. By the corner member 400, the thermal insulation composite panel 100 connected at the corner of the wall is integrated.

Walls constructed by the wall construction method using the above-described heat insulating composite panel 100, the structural timber 40 of the heat insulating composite panel 100 acts as a beam and a column, the wall construction method of the existing wooden building and Unlike the installation of columns or beams, the construction is easy, and the air is shorter than before, and the thermal insulation composite panel 100 is formed by various types of connection members (el type member, auxiliary el type member, angle member, strip plate, corner member). ) Is easy to install and prevents thermal bridges between the upper and lower ends of the insulating composite panel 100, ie, the structural wood 40 and the insulating member 10, by the auxiliary insulating material 30 of the insulating composite panel 100. In addition, since the thermal bridge phenomenon between the heat insulating composite panel 100 by the side insulating material 500 provided between the heat insulating composite panel 100, there is a feature that is superior in heat insulation than the wall of the existing wooden building.

10: insulation 20, 20 ': wood board
30: auxiliary insulation material 40: structural wood
100: heat insulation composite panel 200: el-shaped member
300: angle member 400: corner member
500: side insulation

Claims (5)

On both sides of the rectangular plate-shaped heat insulator 10 having a longer length in the longitudinal direction, the wood boards 20 and 20 'having a larger area than the heat insulator 10 are integrally attached to each other, and the heat insulator 10 and Wood boards 20 and 20 'are attached by foamed urethane,
Structural wood that corresponds to the edge side of the heat insulating material 10, and has a space formed at the edge formed by the two facing wooden boards 20, 20 ', the auxiliary heat insulating material 30 is attached to one side in this space 40 is inserted to form an integrated structure,
One surface of the structural timber 40 is in contact with the inner surface of the wood board 20 on one side, and the auxiliary insulation material 30 attached to the structural wood 40 has a structure in contact with the inner surface of the other wood board 20 '. Inserted so that
The fixing member 50 is driven from the outside of these wood boards 20 and 20 'so that the end of the fixing member 50 is fixed to the structural timber 40 so as to form an integrated thermal insulation composite panel 100. by doing,
Insulation composite panel with easy on-site construction, characterized by excellent insulation and thermal bridge prevention effect.
delete delete Insulation composite panel 100 of the wood material having the same width as the thickness of the insulation composite panel 100 and the insulation composite panel 100 according to claim 1; El-shaped member 200 of the metal material having an 'L' cross section; It has a horizontal length and a vertical length corresponding to the height and thickness of the insulation composite panel 100, and has a heat reflection type insulation, fiber insulation, urethane insulation, polypropylene foam, polyethylene foam, wood lock, foamed polystyrene board with heat insulation and durability The side insulation material 500 is further provided;
Fixing the El-shaped member 200 corresponding to the length of the wall to be installed on the floor of the construction site for the construction of the wall using the fixing member 210. Install it,
The insulation composite panel 100 is erected, the lower end of the insulation composite panel 100 is in close contact with the protruding surface of the el-shaped member 200 and fixed by the fixing member 220, and the side surface of the insulation composite panel 100 installed. After installing the other thermal insulation composite panel 100 adjacent to the side insulation material 500 in order, and then fixed to the el-shaped member 200, a plurality of thermal insulation composite panels 100 are continuously installed along the el-shaped member 200. And, by placing the lumber 300 on the upper surface of the plurality of thermally insulating composite panel 100 installed in a row so as to complete the construction of the wall by fixing the fixing member 310,
Wall construction method using a composite heat insulating panel characterized in that the construction is easy, and excellent insulation.
5. The method of claim 4,
The auxiliary el-shaped member 200 'having an' L 'cross section is further provided.
Corresponds to the opposite side of the el-shaped member 200 installed in the heat insulating composite panel 100, the second el-shaped member 200 'is positioned in the position of the two consecutive heat insulating composite panel 100 and then the auxiliary el-shaped member 200' By fixing the fixing members 230, 240 to install the thermal insulation composite panel 100 on the floor of the construction site,
The corner member 400 of the structure bent at an angle of the corner of the wall is further provided, the corner member 400 is installed on the corner side of the wall and fixed with the fixing member 410, and then the insulation composite panel 100 By allowing continuous construction
Wall construction method using the insulation composite panel characterized in that the connection of the corner portion of the continuous insulation composite panel is made more closely.

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