KR101534320B1 - Exterior insulation panel assembly for structure and construction method using that - Google Patents

Abstract

According to the present invention, an exterior insulation panel assembly for a building comprises: a main frame to accommodate an insulation material; a finish panel installed in the main frame to finish an outer wall of a building; a connecting member on which the main frame is mounted, and combined with the outer wall; an adhesive member coated to be interposed between the main frame and the outer wall; and a fixing member injected into a gap between a plurality of main frames and cured. The present invention has effects of firmly installing the exterior insulation panel assembly to be applied to the at least 15-story tall building, reducing the weight and finishing the exterior of the building.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an external heat insulating panel assembly for a building,

The present invention relates to an outer panel panel for a building and an outer panel construction method using the panel panel. More particularly, the present invention relates to an outer panel panel for a building which is firmly installed so as to be applicable to a high- The present invention relates to an outer heat insulating panel assembly for a building and an outer heat insulating method using the same.

Recently, effective management of energy has become a common problem in the world including Korea due to rapid increase of consumption of energy.

Particularly, a large amount of energy is consumed in the building part due to the problem of the thermal management of the building and the energy conservation method and the lack of the alternative energy utilization technology. In the building sector, if energy is saved through the insulation of the outer wall, .

The envelope of the building is one of the biggest energy loss path among the various constituent elements of the building. It makes a lot of contribution to the energy saving by obliging the construction of each part of the building and the part of the building not only in advanced countries but also in Korea, in order to reduce heat loss through the building envelope .

However, energy conservation through the insulation of a building can not achieve the effect only by the legal insulation criterion value. Therefore, studies on insulation design, construction technology and insulation method by the building structure have been carried out steadily.

Many materials such as polystyrene-based foam, glass surface, rock surface, urethane foam, perlite, vermiculite and foamed concrete are used as insulation materials currently used in building walls.

As a universal application method using these heat insulating materials, there is an inner heat insulating method in which a heat insulating material such as glass wool is filled in a cavity between an outer wall and an inner wall.

In most conventional buildings, heat insulation is given to the building wall by the above-mentioned internal insulation method. In the case of the internal insulation, the insulation is more easily protected than the external insulation, and the construction cost is low. .

On the other hand, there is less effect on the adiabatic side than the form of the outer heat insulating layer surrounding the casing, and damage such as condensation may occur inside the thermal bridge.

In the case of the adiabatic method, a method called dry bit is a method in which a heat insulating material (styrofoam or the like) is placed in the inside as shown in FIG. 1B and a thin plate type outer covering of about 5 mm or so is applied to the outside, followed by drying and curing.

The above-mentioned external adiabatic method has a good thermal performance, but has problems such as deterioration in workability, increase in construction cost, and breakage caused by the presence of the heat insulating material.

The insulation of the external insulation is superior to that of the existing insulation method. In the external insulation method, since the thin layer outside the insulation has a weak strength, there is a high risk of breakage. Since the insulation between the insulation unit and the unit is integrated After a lapse of time, a thin plate-like sheath applied on the heat insulating material causes cracks between the units, and there are problems such as leakage, condensation, difficulty in repairing, and the like.

In addition, since the rigidity of the dry bit itself is small, a separate concrete structure must be formed to form a wall, thereby increasing the thickness of the wall as a whole, thereby reducing the internal area.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-1054925 (published on Aug. 05, 2011, entitled " Dry Exterior Wall System).

In general heat insulation wall systems, there is a problem that the exterior panels can be easily detached due to strong winds or storms because separate exterior panels for closing the exterior walls of the building are adhered to the exterior walls of the exterior heat insulation panel.

In addition, since a general external wall system is difficult to reduce the thickness and weight of the external wall system in order to maintain the heat insulating effect, it is difficult to install the external wall system in a high level of 15 or more.

In addition, when a conventional external heat insulation wall system is adhered to an outer wall of a building by an adhesive member, there is a problem that the wall system can be separated by an excellent or strong wind. In the case where the wall system is connected to the building outer wall by a connecting member such as an anchor Since the gap between the outer wall system and the outer wall of the building is likely to be formed, the heat insulation effect may be reduced due to the flow of air passing through the gap, and an outer wall system is constructed by connecting members such as an anchor, When the adhesive member is injected into the gap between the outer walls of the building and cured, the weight of the external wall system increases, making it difficult to construct the high-rise building.

Therefore, there is a need for improvement.

It is an object of the present invention to provide an outer insulation panel assembly for a building which is rigidly installed so as to be applicable to a 15-storey or higher-rise building and whose weight is reduced and the appearance of the building can be closed, and an outer insulation installation method using the same.

According to the present invention, there is provided a refrigerator comprising: a main body frame in which a heat insulating material is accommodated; A finishing panel installed on the main body frame and closing an outer wall of the building; A connecting member which is coupled to the outer wall through the body frame; An adhesive member applied to be interposed between the main frame and the outer wall; And a fixing member which is injected and cured in a space between the plurality of main body frames.

Further, the main body frame is opened so that the finishing panel of the present invention is inserted to form a front surface of the outer heat insulating panel assembly, and a sealing member is installed to close the gap between the finishing panel and the main body frame.

In addition, the main body frame and the finishing panel of the present invention may include a restricting portion that restrains the finishing panel to maintain the installed state of the finishing panel.

Further, the restricting portion of the present invention may include: a coupling protrusion formed on the main body frame; And a coupling groove formed in the finishing panel to insert the coupling protrusion.

Further, the main body frame of the present invention is provided with a latching protruding portion protruding toward the heat insulating material, and the connecting member is provided with a recessed portion into which the latching protruding portion is inserted.

The adhesive member of the present invention is characterized in that it comprises a urethane foam applied to the main frame or the heat insulating material and pressurized to the outer wall.

In addition, the adhesive member of the present invention is characterized in that it comprises a urethane foam which is applied to the frame of the main body frame or the rim of the heat insulating material and pressed to the outer wall.

Further, the main frame of the present invention is characterized in that a support panel supporting the back surface of the heat insulating material and coated with the adhesive member is provided.

The adhesive member of the present invention is characterized by including a urethane foam applied to the support panel and pressed toward the outer wall.

In addition, the fixing member of the present invention includes cement mortar injected at a distance between the adhesive frames so as to be filled in the gap between the main frame, the heat insulating material or the support panel and the outer wall, and cured in a grid pattern do.

According to another aspect of the present invention, there is provided a method of manufacturing a display device, the method comprising the steps of: (a) installing a finishing panel on a main frame and accommodating a heat insulating material in a space formed by the main frame and the finishing panel; (b) installing a connecting member on the outer wall of the building; (c) applying an adhesive member to the body frame or the heat insulating member, and attaching the body frame to the connecting member and bonding the body frame to the outer wall; (d) repeating the step (c) to continuously bond the plurality of main body frames to the outer wall; And (e) injecting a fixing member between the plurality of main frame frames and curing the main frame.

In addition, in the step (a) of the present invention, the coupling protrusion formed by deforming the main body frame is press-fitted into the coupling groove formed in the finishing panel to join the main body frame and the finish panel, And a sealing member is bonded to cover the gap between the finishing panels.

The step (a) of the present invention is characterized in that a supporting panel is provided on the main body frame so as to support the back surface of the heat insulating material and to apply the adhesive member.

In the step (c) of the present invention, the adhesive member is applied to the support panel, and the outer wall presses the outer surface of the main body frame.

The step (c) of the present invention is characterized in that the adhesive member is applied to the entire rear surface of the main body frame and the heat insulating material, and the main body frame is pressed and adhered to the outer wall.

The step (c) of the present invention is characterized in that the adhesive member is applied to the rear edge of the main frame or the heat insulating material, and the main body frame is pressed against the outer wall.

The outer heat insulating panel assembly for a building according to the present invention and the outer heat insulating method using the same are characterized in that a body frame for housing a heat insulating material is mounted on an outer wall of a building by a connecting member, Since the adhesion member is interposed between the rim and the outer wall of the building to prevent the air from being leaked from the space, the weight of the outer heat insulating panel assembly can be reduced while preventing deterioration of the heat insulating efficiency, have.

In addition, the outer heat insulating panel assembly for a building and the outer heat insulating method using the same according to the present invention are characterized in that a fixing member is injected into a gap between adhesive members formed by successively installing a plurality of outer heat insulating panel assemblies, The connection structure between the panel assemblies can be firmly maintained and the air layer can be more effectively prevented from being lost from the space between the outer heat insulating panel assembly and the outer wall of the building to increase the heat insulating effect without increasing the weight of the outer heat insulating panel assembly. There is an advantage that can be made.

In addition, the outer panel panel for a building and the method for manufacturing an outer panel panel using the same according to the present invention are installed such that the finishing panel is mechanically coupled to the front surface of the main frame, It is possible to prevent detachment or breakage of the finished panel due to strong wind or rain, and it is possible to extend the life of the outer heat insulating panel assembly.

1 is an exploded perspective view illustrating an outer heat insulating panel assembly for a building according to an embodiment of the present invention.
2 is a rear perspective view of an outer panel panel for a building according to an embodiment of the present invention.
FIG. 3 is a plan view showing a connection structure of an outer heat insulating panel assembly for a building according to an embodiment of the present invention.
4 is a rear perspective view of a main body frame of an outer panel panel for a building according to an embodiment of the present invention.
5 is a cross-sectional view illustrating a finishing panel installation structure of an outer heat insulating panel assembly for a building according to an embodiment of the present invention.
FIG. 6 is a perspective view illustrating a lower-layer frame of an outer heat-insulating panel assembly for a building according to an embodiment of the present invention. FIG.
FIG. 7 is a perspective view showing another installation structure of the lower-layer outer frame for a building according to the embodiment of the present invention.
8 is a perspective view illustrating a middle-layer frame of an outer heat insulating panel assembly for a building according to an embodiment of the present invention.
9 is a perspective view of a high-rise frame of an outer panel panel for a building according to an embodiment of the present invention.
10 is a cross-sectional view of a building constructed by an external heat insulating method using an external heat insulating panel assembly for a building according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of an outer thermal insulation panel assembly for a building and an outer insulation installation method using the same according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is an exploded perspective view illustrating an outer heat insulating panel assembly for a building according to an embodiment of the present invention, FIG. 2 is a rear perspective view illustrating an outer heat insulating panel assembly for a building according to an embodiment of the present invention, Is a plan view showing a connection structure of an outer heat insulating panel assembly for a building according to an embodiment of the present invention.

4 is a rear perspective view showing a main body frame of an outer heat insulating panel assembly for a building according to an embodiment of the present invention, and FIG. 5 is a perspective view of a finishing panel installation of an outer heat insulating panel assembly for a building according to an embodiment of the present invention And FIG. 6 is a perspective view illustrating a lower-layer frame of an outer heat-insulating panel assembly for a building according to an embodiment of the present invention.

7 is a perspective view showing another installation structure of the lower outer layer frame for a building according to the embodiment of the present invention, and FIG. 8 is a perspective view of the middle layer frame of the outer thermal insulation panel assembly for a building according to an embodiment of the present invention. And FIG. 9 is a perspective view illustrating a high-rise frame of an outer heat insulating panel assembly for a building according to an embodiment of the present invention, and FIG. 10 is a perspective view illustrating an outer heat insulating panel assembly for a building according to an embodiment of the present invention. Sectional view showing a structure constructed by an external heat insulation method used.

1 to 10, an external thermal insulation panel assembly for a building according to an embodiment of the present invention includes a body frame 10 in which a heat insulating material 16 is housed, A closing panel 30 which closes the main body frame 10 and the outer wall 102, a connecting member 50 which is coupled to the outer wall 102 by way of the main body frame 10, And a fixing member 84 which is injected and hardened in a gap between the plurality of main frame frames 10.

A connecting piece 56 is provided on the outer wall 102 by an anchor when the outer heat insulating panel assembly 100 is installed on the outer wall 102 of the building and a connecting member 50 ).

The main body frame 10 and the finishing panel 30 are joined to a front surface of a main body frame 10 having front and rear openings and formed in a rectangular band shape, The heat insulating material 16 is accommodated in the space formed by the heat insulating material 16.

Thereafter, an adhesive member 82 made of urethane foam is applied to the rear surface of the main body frame 10 and the heat insulating material 16 and the adhesive member 82 is attached while the upper end of the main body frame 10 is mounted on the connecting member 50. [ The body frame 10 is pressed toward the outer wall 102 to adhere the outer heat insulating panel assembly 100 to the outer wall 102 of the building so that the outer frame 102 is in close contact with the outer wall 102.

As described above, after the single external heat-insulating panel assembly 100 is adhered to the outer wall 102, the plurality of external heat-insulating panel assemblies 100 are successively adhered to the outer wall 102 by repeating the bonding operation.

When a plurality of external heat insulating panel assemblies 100 are successively adhered to the outer wall 102, a gap is generated between the adhesive members 82 interposed between the respective main frame 10 and the outer wall 102, The fixing member 84 made of cement mortar is injected and cured at an interval between the fixing members 82.

Therefore, since the fixing member 84 made of cement mortar is injected and hardened at the intervals between the outer heat insulating panel assemblies 100, the bonding force between the outer wall 102 of the building and the outer heat insulating panel assembly 100 is strengthened And at the same time, the gap between the external heat-insulating panel assemblies 100 is closed.

As described above, a plurality of external heat-insulating panel assemblies 100 are installed in the lateral direction in succession and a plurality of external heat-insulating panel assemblies 100 are installed on the top of the external heat-insulating panel assemblies 100, When the heat insulating panel assembly 100 is closed, a lattice-shaped fixing member 84 is formed between the external heat insulating panel assemblies 100.

In addition, since the space 104 forming the air layer is formed on the rear surface of each of the external heat-insulating panel assemblies 100, the heat insulating effect is prevented from being reduced and the weight of the external heat-insulating panel assembly 100 can be reduced.

A finish panel 30 is provided at the front end of the main body frame 10 to close the front surface of the main body frame 10 and to form the appearance of the building. Accordingly, the outer wall 102 of the building So that it can be decorated with the finishing panel 30.

The main body frame 10 is opened so that the finish panel 30 is inserted to form the front surface of the external heat insulating panel assembly 100 and the interval between the finishing panel 30 and the main frame 10 A sealing member 34 is provided.

The sealing member 34 is formed of a corner bead and is formed in a rectangular band shape bent from the inner wall of the front end portion of the main body frame 10 to the back surface of the finishing panel 30 to define an inner wall of the finishing panel 30, So that the gap between the finishing panel 30 and the main body frame 10 prevents the inflow of rain or wind.

The gap between the finishing panel 30 and the main body frame 10 is closed by the sealing member 34 and the gap between the external heat insulating panel assemblies 100 is fixed to the fixing member 84 as described above, It is possible to prevent deformation or breakage of the outer heat-insulating panel assembly 100, which is generated due to the inflow of wind and good air at the connection portion between the outer wall 102 of the building and the outer heat-insulating panel assembly 100, The life of the panel assembly 100 can be extended.

Since the body frame 10 and the finishing panel 30 are provided with the restricting portions for restricting the finishing panel 30 to maintain the installed state of the finishing panel 30, the finishing panel 30, which forms the appearance of the building, So that the structural coupling can be performed by the restricting portion.

The restricting portion includes an engaging projection 14 formed in the main frame 10 and an engaging recess 32 formed in the finishing panel 30 so that the engaging projection 14 is inserted.

The finishing panel 30 is inserted through the front end portion of the main body frame 10 to engage the finishing panel 30 and the main body frame 10 and the tool 10 is inserted in the inward direction from the outer wall 102 of the front end portion of the main body frame 10 The coupling protrusion 14 is formed while being bent to the inside of the main body frame 10.

The coupling protrusion 14 formed as described above is bent inward and inserted into the coupling groove 32 formed at the edge of the finishing panel 30 to restrict the edge of the finishing panel 30, So that it is bonded to the main body frame 10 without a separate adhesive.

A sealing member 34 of a rectangular band shape is bonded between the inner wall of the main body frame 10 and the back surface of the finishing panel 30 after the finishing panel 30 and the main body frame 10 are coupled, And the main body frame 10 is closed.

The main body frame 10 is provided with a latching jaw portion 12 projecting toward the heat insulating material 16 and the connecting member 50 is provided with a recessed portion 52 into which the latching jaw portion 12 is inserted.

A plurality of engagement protrusions 12 are formed on the upper surface, the lower surface, and both side surfaces of the main body frame 10 while being spaced apart from each other with the engagement protrusions 12 being bent concavely in the inward direction. And a plurality of continuous concave and convex portions 52 are formed.

When the main body frame 10 is mounted on the connecting member 50, the engaging jaw portion 12 protruding downward is inserted into the recessed portion 52 and the engaging jaw portion 12 is inserted into the recessed portion 52 The main body frame 10 can be prevented from being detached from the connecting member 50 when the main body frame 10 is inserted.

A pair of connecting pieces 56 are provided on an outer wall 102 of the building by an anchor and a connecting member 50 is coupled to an end of each connecting piece 56 by a fastening member, The upper end of the body frame 10 is mounted.

A connecting piece 56 provided laterally is provided on the building outer wall 102. When the connecting piece 50 is coupled to the connecting piece 56 installed laterally, A connecting member 50 disposed laterally when the main body frame 10 is mounted is disposed in close contact with the inner wall of one side face of the main body frame 10. [

The pair of connecting members 50 arranged in the horizontal direction determines the vertical position of the main body frame 10 by receiving the upper end of the main frame 10. At this time, The main frame 10 is not separated from the outer wall 102, but the engaging jaw 12 can be slid along the recessed portion 52.

Therefore, when the main frame 10 is mounted on the pair of connecting members 50 arranged in the horizontal direction and then the main frame 10 is slid laterally, The engaging jaw 12 formed on one side surface of the main body frame 10 is inserted into the concave and convex portion 52 to determine the horizontal position of the main body frame 10 while being closely attached to one side inner wall of the main body frame 10.

After the vertical and horizontal positions of the main frame 10 are determined as described above, the operator presses the main body frame 10 toward the outer wall 102 and presses the main body frame 10 by the adhesive member 82 applied to the main frame 10, So that the frame 10 is adhered to the outer wall 102.

The adhesive member 82 includes the urethane foam which is applied to the main body frame 10 or the heat insulating material 16 and pressed against the outer wall 102. Therefore, The heat insulating material 16 adheres to the outer wall 102 to form the outer heat insulating panel assembly 100.

Particularly, the outer heat-insulating panel assembly 100 installed in one row at the lower end of the building outer wall 102 is formed by applying the adhesive member 82 to the back surface of the lower frame 10a and the entire rear surface of the heat insulating material 16, 100) back surface is brought into close contact with the outer wall 102.

Since the adhesive member 82 of the present embodiment includes the urethane foam that is applied to the rim of the main body frame 10 or the heat insulating material 16 and pressed to the outer wall 102, 100 may be manufactured by applying the adhesive member 82 to the rim of the middle layer frame 10b or the heat insulating material 16 and adhering to the outer wall 102 on the middle frame 10b, A space portion 104 filled with an air layer is formed.

The main body frame 10 to which the adhesive member 82 is applied only on the rear edge of the external heat insulating panel assembly 100 is provided with the support panel 70 for supporting the back surface of the heat insulating member 16 and applying the adhesive member 82 thereto And the adhesive member 82 includes a urethane foam that is applied to the support panel 70 and pressed toward the outer wall 102 side.

The supporting panel 70 is installed on the rear surface of the main body frame 10 after the heat insulating material 16 is housed in the space formed by the main body frame 10 and the finishing panel 30 so that the back edge of the heat insulating material 16 And the adhesive member 82 is applied to the support panel 70 and the main body frame 10 to be adhered to the outer wall 102.

The main body frame 10 of this embodiment includes a lower layer frame 10a provided at the lower end of the building and the outer wall 102 of the lower layer portion and a middle layer outer wall 102 disposed at the upper portion of the lower layer frame 10a, And a high-level frame 10c disposed on the high-level outer wall 102 disposed above the middle-layer frame 10b and having about 15 or more layers.

The lower frame 10a is formed so that the entire back surface of the external heat insulating panel assembly 100 is in close contact with the external wall 102 by applying the adhesive member 82 to the entire back surface of the main body frame 10 and the heat insulating material 16, The support panel 70 may be provided on the rear surface of the lower layer frame 10a for supporting the back surface of the heat insulating material 16. [

7, the adhesive member 82 can be applied only to the edges of the heat insulating material 16 and the middle-layer frame 10a, and the adhesive material 82 can be applied to the bottom surface of the lower-layer frame 10a, The lower layer frame 10a is coated with an adhesive member 82 on the back surface of the lower layer frame 10a and the lower layer frame 10a is laminated on the upper layer frame 10a, . ≪ / RTI >

The middle layer frame 10b is attached to the outer wall 102 after the support panel 70 is installed on the rear surface and the adhesive member 82 is applied only to the rim of the middle frame 10b and the support panel 70, A space portion 104 filled with an air layer is formed between the central portion of the outer wall 102 and the outer wall 102.

The high-level frame 10c is adhered to the outer wall 102 after the support panel 70 is provided on the backside and the adhesive member 82 is applied only to the rim of the high-level frame 10c and the support panel 70, Three or more connecting members 50 are connected to the upper end of the middle frame 10b and two or more connecting members 50 are connected to one side of the high frame 10c to connect the outer frame 102 to the outer frame 102 So that the binding force is increased.

Therefore, it is possible to effectively prevent the high-rise frame 10c, which is relatively exposed to the strong wind, from being separated from the outer wall 102. [

As described above, after the main frame 10 is adhered to the outer wall 102 by the adhesive member 82, a gap is formed between the cured adhesive members 82 even if the respective main frame frames 10 are closely arranged In this embodiment, the fixing member 84 is injected into the gap between the adhesive members 82 and hardened to fill the gap between the adhesive members 82.

The fixing member 84 of this embodiment is injected at intervals between the adhesive members 82 so as to be filled in the space between the main body frame 10, the heat insulating material 16 or the supporting panel 70 and the outer wall 102, Cement mortar that is hardened.

When a plurality of body frames 10 are continuously installed so that a plurality of the body frames 10 are continuous in the building outer wall 102, a gap is formed between the plurality of body frames 10 and the adhesive members 82, The cement mortar constituting the fixing member 84 is injected at intervals between the adhesive members 82 to fill the spaces between the connecting portions of the main frame 10 and the outer wall 102 with the cement mortar, Shaped fixing member 84 is formed at the connection portion between the main body frames 10 of the first embodiment.

When the cement mortar constituting the fixing member 84 is cured, the connecting portion between the body frames 10 is closed to prevent the inflow of the excellent or the inflow of wind at the interval between the main frame frames 10, It is possible to prevent the external heat insulating panel assembly 100 from being broken due to rain or wind that flows in the gap between the external heat insulating panel 100 and the outside.

As described above, the fixing members 84 are fixed at the connection portions between the body frames 10, which are continuously arranged in the horizontal direction, and are hardened, and the connecting portions between the body frames 10 arranged continuously in the vertical direction So that the lattice-shaped fixing member 84 is formed on the outer wall 102 of the building.

The present embodiment is characterized in that a space 104 in which the air layer is filled is formed at the center of the outer heat insulating panel assembly 100 and an adhesive member 82 and a fixing member 84 formed at the rim of the outer heat insulating panel assembly 100, The air layer filled between the outer heat insulating panel assembly 100 and the outer wall 102 is prevented from being lost to the outside of the outer heat insulating panel assembly 100. [

Therefore, the outer heat insulating panel assembly 100 according to the present embodiment can reduce the weight of the outer insulating panel assembly 100 by reducing the amount of the adhesive member 82 and the fixing member 84 while improving the heat insulating effect by the air layer. The outer heat insulating panel assembly 100 according to the present embodiment can be installed on the outer wall 102 of the high-rise building of 15 or more layers in which relatively strong winds collide with each other.

Reference numeral 18 denotes a stopper 18 for supporting the back surface of the finishing panel 30 to prevent the finishing panel 30 from being inserted into the main body frame 10 more than necessary.

The outer insulation construction method using the outer insulation panel assembly for a building according to an embodiment of the present invention will be described as follows.

A method of manufacturing an external thermal insulation panel assembly 100 using a building according to an embodiment of the present invention is characterized in that a finishing panel 30 is installed on a main body frame 10 and a main body frame 10 and a finishing panel 30 A step of installing a connecting member 50 on the outer wall 102 of the building and a step of attaching an adhesive member 82 to the main body frame 10 or the heat insulating material 16 A step of bonding the main frame 10 to the outer wall 102 by attaching the main frame 10 to the connecting member 50 and the step of bonding the main frame 10 to the outer wall 102, To the outer wall 102, and injecting a fixing member 84 between the plurality of main frame 10 and curing the same.

A space is formed by joining the finish panel 30 to the front end portion of the main body frame 10 and the heat insulating material 16 is housed in a space formed by the main frame 10 and the finishing panel 30, 102, a plurality of connecting pieces 56 are provided by an anchor, and the connecting piece 56 and the connecting member 50 are engaged.

The step of assembling the finishing panel 30 and the main frame 10 includes the step of pressing the engaging projection 14 formed by the deformation of the main frame 10 into the engaging groove 32 formed in the finishing panel 30, The frame 10 and the finishing panel 30 are combined and the sealing member 34 is bonded to cover the gap between the main body frame 10 and the finishing panel 30. [

Since the connecting member 50 is provided with the engaging portion 54 formed with the long hole at one end thereof, the engaging portion 54 and the connecting piece 56 are disposed so as to overlap with each other, .

The main body frame 10 is placed on the pair of connecting members 50 so that the main frame 10 is placed and pressed toward the outer wall 102 So that the main body frame 10 is installed.

The step of assembling the body frame 10 and the finishing panel 30 provided at the middle layer of the building comprises the steps of supporting the back surface of the heat insulating material 16 and supporting the body frame 10 so that the adhesive member 82 can be applied. A panel 70 is provided.

Therefore, after the heat insulating material 16 is housed in the main body frame 10, the supporting panel 70 is installed to apply the adhesive member 82 to the supporting panel 70 and adhere to the outer wall 102, The outer heat insulating panel assembly 100 can be installed such that a space 104 is formed at the center of the outer insulating panel 100 to fill the air layer.

Here, the connection structure between the support panel 70 and the main body frame 10 can be easily implemented by a person skilled in the art who is aware of the technical constitution of the present invention, so that specific drawings and explanations thereof will be omitted.

This embodiment differs from the method of constructing the outer heat-insulating panel assembly 100 by dividing into the lower layer portion including the lower end of the building, the middle layer portion, and the upper layer portion. In the lower end portion of the building, 10 is performed by applying an adhesive member 82 to the entire rear surface of the main body frame 10 and the heat insulating material 16 and pressing the main body frame 10 against the outer wall 102 to adhere thereto.

Accordingly, the entire outer surface of the outer heat insulating panel assembly 100 installed at the bottom of the building is firmly attached to the outer wall 102 while the rear surface thereof is in contact with the outer wall 102 without forming the space portion 104.

The step of attaching the main frame 10 to the lower or middle layer of the building includes applying the adhesive member 82 to the rear edge of the main frame 10 or the heat insulating material 16 and attaching the main frame 10 to the outer wall 102).

Therefore, a space 104 is formed in the center of the outer heat-insulating panel assembly 100 installed in the lower and middle layers except for the outer heat-insulating panel assembly 100 installed at the lower end of the building.

The step of installing the main body frame 10 in the middle or upper part of the building is performed by applying the adhesive member 82 to the support panel 70 and pressing the main body frame 10 by pressing the outer wall 102, A space portion 104 filled with an air layer is formed at the center of the outer heat-insulating panel assembly 100 disposed at the middle and upper portions.

Accordingly, it is possible to provide an outer insulation panel assembly for a building, which is rigidly installed so as to be applicable to a 15-storey or higher-rise building and whose weight is reduced and the appearance of the building can be closed, and an outer insulation installation method using the same.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

The present invention is not limited to the above embodiments. For example, the outer panel panel for a building and the outer panel construction method using the same may be used as an example. However, Assembly and a construction method using the same can be used.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: main frame 10a: lower layer frame
10b: middle layer frame 10c: high layer frame
12: engaging jaw portion 14: engaging projection
16: Insulation material 18: Stopper
30: Finishing panel 32: Coupling groove
34: sealing member 50: connecting member
52: concave / convex portion 54:
56: connecting piece 70: supporting panel
82: Adhesive member 84: Fixing member
100: Outer Adiabatic Panel Assembly 102: Outer Wall
104:

Claims (16)

A body frame in which the heat insulating material is housed;
A finishing panel installed on the main body frame and closing an outer wall of the building;
A connecting member which is coupled to the outer wall through the body frame;
An adhesive member applied to be interposed between the main frame and the outer wall; And
And a fixing member that is injected and hardened in a gap between the plurality of main body frames,
Wherein a protruding portion protruding toward the heat insulating material is formed on the main body frame, and a concave / convex portion into which the locking protrusion is inserted is formed in the connecting member.
The method according to claim 1,
And a sealing member is installed to close the gap between the finishing panel and the main frame so that the finishing panel is inserted to form a front surface of the outer heat insulating panel assembly. .
The method according to claim 1,
Wherein the body frame and the finishing panel are provided with a restricting portion for restricting the finishing panel to maintain the installed state of the finishing panel. 4. The apparatus according to claim 3,
A coupling protrusion formed on the main body frame; And
And a coupling groove formed in the finishing panel to insert the coupling protrusion.
delete The method according to claim 1,
Wherein the adhesive member comprises a urethane foam applied to the body frame or the heat insulating material and pressed against the outer wall.
The method according to claim 1,
Wherein the adhesive member comprises a urethane foam applied to a rim of the body frame or the heat insulating material and pressed against the outer wall.
The method according to claim 1,
Wherein the main body frame is provided with a support panel supporting the back surface of the heat insulating material and coated with the adhesive member.
9. The method of claim 8,
Wherein the adhesive member comprises a urethane foam applied to the support panel and pressed toward the outer wall.
9. The method of claim 8,
Characterized in that the fixing member comprises a cement mortar which is injected at a distance between the adhesive frames so as to be filled in the gap between the main frame, the heat insulating material or the outer panel and the outer wall, and cured in a lattice shape Panel assembly.
(a) installing a finishing panel on a main body frame, and storing the heat insulating material in a space formed by the main frame and the finishing panel;
(b) installing a connecting member on the outer wall of the building;
(c) applying an adhesive member to the body frame or the heat insulating member, and attaching the body frame to the connecting member and bonding the body frame to the outer wall;
(d) repeating the step (c) to continuously bond the plurality of main body frames to the outer wall; And
(e) injecting and hardening a fixing member between the plurality of main frame frames,
Wherein the step (c) comprises: a step of protruding from the main body frame toward the heat insulating material; and a step of forming an uneven portion formed on the connecting member to insert the stopping step portion. Insulation construction method.
12. The method of claim 11,
In the step (a), a coupling protrusion formed by deforming the main body frame is press-fitted into a coupling groove portion formed in the finishing panel to couple the main body frame and the finishing panel, and the interval between the main frame and the finishing panel And a sealing member is adhered to cover the ceiling and the ceiling of the building.
12. The method of claim 11,
Wherein the step (a) comprises the step of supporting a rear surface of the heat insulating material and providing a support panel on the main body frame so that the adhesive member can be applied to the external heat insulating panel assembly.
14. The method of claim 13,
Wherein the step (c) comprises applying the adhesive member to the support panel, and pressing the outer frame of the main frame to adhere the outer frame to the outer frame.
12. The method of claim 11,
Wherein the step (c) comprises applying the adhesive member to the entire rear surface of the main body frame and the heat insulating material, and pressing the main body frame against the outer wall to adhere the outer surface of the main body frame to the outer wall. .
12. The method of claim 11,
Wherein the step (c) comprises applying the adhesive member to a rear edge of the main frame or the heat insulating material, and pressing the main body frame against the outer wall to adhere the outer wall to the outer wall. .

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