KR101056746B1 - The adiabatic structures and methodes of the glass curtain wall - Google Patents

Abstract

PURPOSE: An insulating structure of a glass curtain wall and a method of constructing the same are provided to prevent load from becoming applied to a curtain-wall structure even if insulation construction is made to the glass curtain-wall structure previously installed using a light material. CONSTITUTION: An insulating structure of a glass curtain wall(10) is as follows. An insulating panel(11) is formed in a manner that a PET film, an aluminum plate, a non-woven hollow PET, a cross-linking PET foam, an aluminum plate, an water-soluble emulsion form of an adhesive layer, and a honeycomb panel form of a polycarbonate layer are attached in turn.

Description

The adiabatic structures and methodes of the glass curtain wall}

The present invention relates to thermal insulation of buildings constructed with curtain walls. In particular, the buildings constructed with curtain walls are advantageous in terms of design and high-rise, but have relative disadvantages in terms of energy efficiency such as blocking heat from the outside or thermal insulation inside buildings. Therefore, the insulation structure of glass curtain wall that can satisfy both energy saving and design without sacrificing interior and exterior aesthetics by installing insulation in space where it is hard to see in the room, spaced apart from glass curtain wall. will be.

A curtain wall is a non-bearing wall that is composed independently of the building's exterior walls and does not bear loads such as the roof floor that blocks the building's exterior and interior spaces. . However, the existing curtain wall-type buildings have glass as a non-bearing wall, which is advantageous in appearance but is particularly vulnerable to insulation. Therefore, fair glass, insulation inside window frames, and installation of blinds or curtains have been implemented. . The use of only paired glass or insulation inside the window frame has a certain effect on blocking conduction and convective heat, but not so much on blocking radiant heat, which accounts for 75% of the heat transfer rate. In addition, the installation of blinds or curtains may have some effects on shielding radiant heat, but there is a danger of diffusion in a fire, a lack of appearance, and difficulty in blocking conduction and convection heat. Of course, insulating the front surface of the curtain wall part using an insulation material may be the most efficient in terms of energy, but in the building of the glass curtain wall structure, insulating the front surface has a beautiful appearance by adopting a glass curtain wall structure. It can be said that the purpose of securing the right of view and sunshine is lost.

The present invention is to solve the above problems, it is an object to safely protect from fire while improving the thermal insulation function without impairing the aesthetics of a building having a glass curtain wall structure.

In addition, the present invention is to provide a structurally safe construction method that does not impose load on the curtain wall structure even if the construction for the insulation of the glass curtain wall structure already installed by using a light material in the installation of the insulation structure. do.

In addition, the present invention is another object to prevent the destabilization of the thermal insulation structure is generated by the pressure difference due to the heat absorption between the interior space and the interior of the thermal insulation structure.

In addition, an object of the present invention is to provide a heat insulating structure having a complex function such as radiant heat shielding, fire diffusion prevention, condensation prevention.

In order to solve the above problems,

The present invention provides a glass curtain wall forming an outer wall surface, a rear aluminum panel forming an interior surface while forming a space of a predetermined interval between the glass curtain wall, an insulation panel inserted between the space, and the rear aluminum panel And it is made of an insulating structure including a support means for supporting it while closing each lower end of the insulating panel.

The present invention is characterized in that the insulating panel is installed spaced apart from the glass curtain wall by a predetermined interval.

The present invention is characterized in that the rear aluminum panel is installed spaced apart from the insulation panel, or the insulation panel is attached to the rear aluminum panel and the rear aluminum panel is installed.

The present invention is characterized by using a bent end formed by bending the rear aluminum panel in addition to using an aluminum frame as a support means for supporting the insulation panel.

First, it is possible to construct new buildings and existing glass curtain wall buildings.

Second, by installing the insulation structure in a visually unnecessary area and spaced apart from the glass curtain wall by a certain interval, it can block the conduction and convection heat, and can secure the view even inside without changing the insulation construction from the outside. .

Third, the use of the rear aluminum panel can give a good aesthetic and also effective in thermal insulation and fire protection, such as radiation shielding.

Fourth, the rear aluminum panel may be spaced apart from the insulation panel to maximize the insulation effect, or the process may be simplified by attaching the insulation panel to the rear aluminum panel and installing the rear aluminum panel to shorten the air.

Fifth, by bending the rear aluminum panel as a support means for supporting the heat insulation panel, the bent portion is used as the support means, thereby achieving an aesthetic finishing effect and reducing material costs.

Sixth, it is possible to produce and process products of various specifications for each construction site by using light materials in installing the insulation structure without causing problems on the safety of the building. Construction is easy and quick.

Seventh, it is possible to maintain the same pressure between the interior space and the interior of the thermal insulation structure it is possible to prevent the deformation of the thermal insulation panel and its coupling portion due to the pressure caused by the temperature rise.
Eighth, it is easy to detach the structure of each component when changing the structure according to the use of the building, it is possible to minimize the damage of the structure as well as easy to construct and remove part.

1 is a cross-sectional view of a conventional glass curtain wall.
2A is a plan view of each embodiment of the present invention.
2B and 2C are schematic vertical and horizontal cross-sectional views of the first embodiment of the present invention.
3A to 3B are schematic vertical and horizontal cross-sectional views of a second embodiment of the present invention.
4A to 4B are schematic vertical and horizontal cross-sectional views of a third embodiment of the present invention.
5A through 5B are schematic vertical and horizontal cross-sectional views of a fourth embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Heat is transmitted in three ways: conduction, convection, and radiation. When the heat energy is 100, conduction is transmitted at 10%, convection at 15%, and radiation at 75%. Therefore, it is best to block radiant heat in insulation. The effect of insulation is great.

1 is a cross-sectional view of a conventional glass curtain wall, a structure consisting of a layer of glass layers and having a space between the glass to prevent the heat conduction and convection of the heat, and the effect of blocking the heat is very minimal. .

In order to achieve perfect insulation in the glass curtain wall structure, it would be desirable to cut off the front surface of the glass curtain wall to insulate it.However, in the case of insulating the front surface of the glass curtain wall, the purpose of adopting the glass curtain wall structure is lost. Since there is a drawback of not seeing at all, it would be most desirable to attempt insulation without blocking the glass part as much as possible. To this end, the present invention is to install the insulation structure in the visually relatively unnecessary portion, such as the part prepared to install the curtain of each layer, so as not to impair the aesthetics, but also to secure the viewing space in the interior to obtain the maximum insulation effect It is.

Hereinafter, the present invention will be described with reference to FIGS. 2 to 5.

In insulating a part of the structure of the glass curtain wall, the present invention provides a rear surface aluminum that forms an interior surface while forming a space 13 at regular intervals between the glass curtain wall 10 constituting the outer wall surface and the glass curtain wall. The panel 12, a heat insulation panel 11 inserted between the space 13, and the support means for supporting it while closing each lower end of the rear aluminum panel and the heat insulation panel.

The insulating panel 11 may use existing volume insulating materials such as styrofoam, glass wool, rock wool, and iso pink, but the volume insulating materials are heat absorbing thermal insulating materials, which have a certain effect on the delay of conduction heat and convective heat transfer. In this case, since the radiation shielding effect is insignificant, such as re-releasing more than 90% after absorption, the thermal insulation performance is lower than that of the thick thickness and the large volume.

Therefore, it is preferable to use a heat insulating material having an effect of blocking the radiant heat while occupying a thin thickness and a small volume, it is most preferable to use a multi-functional insulating panel as follows.

The composite functional insulation panel is formed by sequentially attaching a PET film, an aluminum sheet, a hollow PET, a crosslinked PE foam, an aluminum sheet, an adhesive layer, and a polycarbonate layer, and the characteristics of each layer are as follows.

PET film is used to protect aluminum foil, and aluminum foil is a high-purity (more than 99%) thin aluminum plate in the form of foil, which is used for radiant heat shielding, sound insulation, surface reinforcement, and flame retardant. Hollow PET is a PET hollow fiber made of non-woven fabric, which has good heat resistance, and has a hollow layer, which is used for insulation (blocking conductive heat), sound insulation, and moisture prevention (condensation prevention), and crosslinked PE foam is a foam having an independent bubble of PE material. It has the effect of heat insulation (conduction heat shield), flame retardant, soundproof, moisture proof, dustproof. The adhesive layer is also used as a water-soluble emulsion to replace the bond and the papering paste. Lastly, the polycarbonate layer has a honeycomb panel shape, which has the role of an air layer and flame retardant effect of existing walls, thereby replacing the finishing material.

The composite functional insulation panel made by sequentially attaching the materials having various characteristics is thinner and lighter than the volume insulating material, and is harmless to the human body due to the use of environment-friendly insulating materials, and does not cause condensation even under severe temperature changes. Good flame retardancy), even when a fire does not spread the fire and no toxic gas is generated, the most important radiant heat shielding effect is excellent, it can be said to be the most suitable as the thermal insulation panel of the present invention.

For the installation of the heat insulation panel 11, it is preferable to install the glass curtain wall 10 and the heat insulation panel 11 spaced apart at regular intervals in order to increase the radiation shielding effect and minimize construction traces seen from the outside. .

At this time, a change in pressure occurs due to a change in pressure due to heat transferred between a space between the glass curtain wall 10 and the heat insulation panel 11, so that the attached heat insulation panel is not fixed and the coupling part is broken. Since it may cause, to form an air hole 14 in the upper or proper position of the rear aluminum panel 12 to maintain the same pressure with the room. The air hole 14 is preferably installed on a scale capable of minimizing energy loss.
FIG. 2A is a plan view seen from the outside in the first embodiment, FIG. 2B is a schematic vertical sectional view seen from the AA ′ direction of FIG. 2A, and FIG. 2C is a schematic horizontal sectional view seen from the BB ′ direction of FIG. 2A. Also in the case of another embodiment the plan view seen from the outside was configured in the same manner as in FIG. 3A, 4A, and 5A are schematic vertical cross-sectional views seen from the AA ′ direction, and FIGS. 3B, 4B and 5B are schematic horizontal cross-sectional views seen from the BB ′ directions according to the embodiments.

As an exemplary embodiment of the present invention, as shown in FIG. 2B, the rear aluminum panel 12 may be fixed by fixing means by having a heat insulating panel 11 and a predetermined space 13. By providing a space between the heat insulation panel 11 and the rear aluminum panel 12 as described above, energy loss due to conduction and convection of the heat insulation structure can be prevented as much as possible.

On the other hand, as shown in FIG. 3a, the rear panel is attached to the rear aluminum panel 12 in advance, and then the rear aluminum panel may be installed. Through the above process, the support means can be installed on one side and the operation of attaching the insulation panel to the rear aluminum panel on the other side can be carried out, thereby facilitating construction and shortening the air.

As the supporting means, a light aluminum frame 15 may be used as a light finish. In another embodiment, by using the bent end portion 16 formed by bending the rear aluminum panel 12 extending in the direction of the glass curtain wall 10 as shown in Figure 4a as a support means to enhance the aesthetic finishing effect, We can save.

At this time, the rear aluminum panel 12, the bent end 16 and the aluminum frame 15 of the rear aluminum panel 15 and the existing horizontal bar 19 and the existing vertical bar 20 (hereinafter referred to as 'existing support member'), etc. An aluminum angle 17 is used as a fixing means for fixing, and the aluminum angle 17 is padded on each of the coupling surfaces and fixed with a piece or a rivet 18.

Hereinafter, the construction method according to each insulation structure will be described in detail.

First Embodiment-Figs. 2B to 2C

1) measuring the surface to be constructed of the glass curtain wall 10 (S1)

The construction surface to be constructed in the glass curtain wall structure is measured. In this measurement step, the size of the heat insulating panel 11, the rear aluminum panel 12, and the aluminum frame 15 is determined, and the glass curtain wall 10, the heat insulating panel 11, the heat insulating panel 11, and the rear aluminum panel ( 12) Determine the interval between.

2) fixing the aluminum frame 15 to the existing support member by the fixing means (S2A)

An aluminum frame 15 is installed as a support means for supporting the lower portion of the insulation panel 11 and the rear aluminum panel 12 at the lower portion of the construction surface. In order to fix the aluminum frame 15 to the existing support member, the aluminum angle 17 is padded on each coupling portion and fixed with pieces or rivets 18.

3) fixing the heat insulation panel 11 away from the glass curtain wall 10 with silicon (S3A)

Insulating panel 11 is installed spaced apart from the glass curtain wall 10 by a predetermined interval, the insulating panel 11 is installed in the form of being sandwiched between the existing support member and the aluminum frame 15 and the contact portion Finish with silicone.

4) fixing the rear aluminum panel 12 in which the air hole 14 is formed in the interior side of the insulation panel 11 to the existing supporting member and the aluminum frame 15 by fixing means (S4A)

The rear side aluminum panel 12 is installed on the interior side of the rear side of the insulation panel 11 (in the opposite direction of the glass curtain wall). Before installing the rear side aluminum panel 12, the aluminum angle 17 is first supported. The member is fixed with pieces or rivets 18. In this case, by installing the aluminum angle 17 at a distance from the heat insulation panel 11, a space is formed between the rear aluminum panel 12 and the heat insulation panel 11 fixed to the aluminum angle 17 to form a heat insulation structure. Have a double space structure. Next, the rear aluminum panel 12 is installed. The air hole 14 is formed at an upper portion or a proper position of the rear aluminum panel 12. The rear aluminum panel fixing step is completed by fixing the rear aluminum panel 12 to the aluminum angle 17 with a piece or rivet 18.

5) closing the rear aluminum panel 12 and the existing support member and the aluminum frame 15 with silicon (S5A)

The rear aluminum panel 12 finishes the contact with the existing supporting member and the aluminum frame 15 with silicon.

<Second Embodiment>-Figs. 3A to 3B

1) measuring the surface to be constructed of the glass curtain wall 10 (S1)

The construction surface to be constructed in the glass curtain wall structure is measured. In this measurement step, the size of the heat insulation panel 11, the rear aluminum panel 12, and the aluminum frame 15 is determined, and the distance between the glass curtain wall 10 and the heat insulation panel 11 is determined.

2) fixing the aluminum frame 15 to the existing support member by the fixing means (S2B)

An aluminum frame 15 is installed as a support means for supporting the lower portion of the insulation panel 11 and the rear aluminum panel 12 at the lower portion of the construction surface. In order to fix the aluminum frame 15 to the existing support member, the aluminum angle 17 is padded on each coupling portion and fixed with pieces or rivets 18.

3) After attaching the heat insulation panel 11 to the end surface of the rear aluminum panel 12 in which the air holes 14 are formed, and placing the heat insulation panel 11 toward the glass curtain wall 10, the glass curtain wall ( Fixing the rear aluminum panel 12 to the existing support member and the aluminum frame 15 by fixing means spaced apart from the 10 (S3B)

The insulation panel 11 is attached to the rear aluminum panel 12. An air hole 14 is formed at an upper or proper position of the rear aluminum panel 12. With the side to which the heat insulation panel is attached faces the glass curtain wall 10, the rear aluminum panel 12 to which the heat insulation panel is attached is fixed by being spaced apart from the glass curtain wall 10 by a predetermined distance. The angle 17 is fixed to the existing support member and the aluminum frame 15 by a piece or rivet 18, and the rear aluminum panel 12 is fixed to the aluminum angle 17 by a piece or rivet 18.

4) closing the rear aluminum panel 12 and the existing supporting member and the aluminum frame 15 with silicon (S4B).

The rear aluminum panel 12 finishes the contact with the existing supporting member and the aluminum frame 15 with silicon.

Third Embodiment-FIGS. 4A-4B

1) measuring the surface to be constructed of the glass curtain wall 10 (S1)

The construction surface to be constructed in the glass curtain wall structure is measured. In this measurement step, the size of the insulation panel 11 and the rear aluminum panel 12 is determined, and the gap between the glass curtain wall 10 and the insulation panel 11, the insulation panel 11 and the rear aluminum panel 12 is determined. Decide At this time, the size of the rear aluminum panel 12 should further consider the area of the bent end 16 to be formed by bending later.

2) fixing the heat insulation panel 11 away from the glass curtain wall 10 with silicon (S2C)

The insulation panel 11 is installed spaced apart from the glass curtain wall 10 by a predetermined interval, the upper and left and right sides of the insulation panel 11 is inserted into the existing support member and the contact portion is finished with silicon.

3) bending the end of the rear aluminum panel 12 in which the air hole 14 is formed to form the bent end 16 (S3C).

The air hole 14 is formed at an upper portion or a proper position of the rear aluminum panel 12, and the lower portion is bent by 90 degrees in an L-shape in the direction of the glass curtain wall to form the bent end portion 16. The rear aluminum panel 12 used here has a longer cross section than the rear aluminum panel used in the first and second embodiments so that the end portion of the bent end 16 may contact the glass curtain wall 10. It should be made long enough.

4) While the bent end 16 of the rear aluminum panel on the indoor side of the insulation panel 11 is located on the lower surface of the insulation panel 11 while fixing the rear aluminum panel 12 to the existing support member with fixing means. Step (S4C)

The bent rear aluminum panel 12 is installed on an indoor side (opposite direction of the glass curtain wall) behind the insulation panel 11. The rear aluminum panel 12 is installed at a distance from the insulation panel 11. ) And the insulation panel 11 to form a space so that the insulation structure has a double space structure. In order to install the rear aluminum panel 12, the aluminum angle 17 is first fixed to an existing support member by a piece or rivet 18. Next, the bent end portion 16 of the bent rear aluminum panel is fixed to the aluminum angle 17 with a piece or rivet 18 while being attached to the bottom surface of the insulation panel 11.

5) closing the rear aluminum panel 12 and the existing support member with silicon (S5C)

The rear aluminum panel 12 finishes the contact with the existing support member and the glass curtain wall 10 with silicon.

Fourth Embodiment-FIGS. 5A-5B

1) measuring the surface to be constructed of the glass curtain wall 10 (S1)

The construction surface to be constructed in the glass curtain wall structure is measured. In this actual measurement step, the size of the heat insulation panel 11 and the rear aluminum panel 12 is determined, and the distance between the glass curtain wall 10 and the heat insulation panel 11 is determined. At this time, the size of the rear aluminum panel 12 should further consider the area of the bent end 16 to be formed by bending later.

2) bending the end portion of the rear aluminum panel 12 in which the air holes 14 are formed to form the bent end portion 16 (S2D).

The air hole 14 is formed at an upper portion or a proper position of the rear aluminum panel 12, and the lower portion is bent by 90 degrees in an L-shape in the direction of the glass curtain wall to form the bent end portion 16. The rear aluminum panel 12 used here has a longer cross section than the rear aluminum panel used in the first and second embodiments so that the end portion of the bent end 16 may contact the glass curtain wall 10. It should be made long enough.

3) After attaching the heat insulation panel 11 to the end face of the bent back aluminum panel 12, position the end face to which the heat insulation panel is attached toward the glass curtain wall 10, and then separate it from the glass curtain wall 10. Fixing the rear aluminum panel 12 to an existing support member by fixing means (S3D);

The heat insulation panel 11 is attached to the upper inner side surface of the rear aluminum panel 12 bent by L. Next, the rear aluminum panel 12 is spaced apart from the glass curtain wall 10 by a predetermined distance in a state in which the surface to which the heat insulation panel is attached in the rear aluminum panel 12 faces the glass curtain wall 10. Install. To this end, the aluminum angle 17 is fixed to the existing support member by a piece or rivet 18, and the rear aluminum panel 12 is fixed to the aluminum angle 17 by a piece or rivet 18.

4) closing the rear aluminum panel 12 and the existing support member with silicon (S4D)

The rear aluminum panel 12 finishes the contact with the existing support member and the glass curtain wall 10 with silicon.

The present invention has been described in detail above with reference to specific embodiments, but the above embodiments are merely examples for easy understanding of the present invention. Embodiments will also belong to the protection scope of the present invention as defined by the claims below.

10 Glass Curtain Wall 11 Insulated Panel
12 rear aluminum panels and 13 spaces
14 Air Hole 15 Aluminum Frame
16 Bend End 17 Aluminum Angle
18 pieces or rivets 19 Original horizontal bar
20 Original Vertical Bars

Claims (13)

In a part of the heat insulation structure of the glass curtain wall, the rear aluminum panel 12 forming the interior surface while forming a space 13 at regular intervals between the glass curtain wall 10 constituting the outer wall surface and the glass curtain wall. And, the insulating panel 11 is inserted between the space, and the support means for supporting it while closing the lower end of the rear aluminum panel and the insulation panel, the rear aluminum panel 12 has an air hole 14 Insulation structure of glass curtain wall, characterized in that the installation The method of claim 1,
The thermal insulation panel 11 is formed by sequentially attaching a PET film, aluminum foil, non-woven hollow PET, crosslinked PET foam, aluminum foil, an adhesive layer in the form of a water-soluble emulsion, and a polycarbonate layer in the form of a honeycomb panel. Insulation structure of glass curtain wall The insulation panel 11 is spaced apart from the glass curtain wall 10 and the rear aluminum panel 12 by a predetermined distance so that the space 13 is divided around the insulation panel 11. Insulation structure of glass curtain wall The heat insulation structure of the glass curtain wall according to claim 1, wherein the heat insulation panel 11 is in close contact with the rear aluminum panel 12 so that the space 13 forms a single space. The heat insulation of the glass curtain wall according to any one of claims 1 to 4, wherein the support means is an aluminum frame (15) installed below the rear aluminum panel (12) and the heat insulation panel (11). rescue The glass as claimed in claim 1, wherein the support means is a bent end portion 16 which extends an end of the rear aluminum panel 12 and is bent toward the glass curtain wall 10. Insulation structure of curtain wall In insulating part of the glass curtain wall structure,
1) measuring the surface to be insulated of the glass curtain wall 10 (S1);
2) fixing the aluminum frame 15 to the existing support member by the fixing means (S2A);
3) fixing the heat insulation panel (11) from the glass curtain wall (10) to the aluminum frame (15) and the existing support member with silicon (S3A);
4) fixing the rear aluminum panel 12 having the air hole 14 in the interior side of the insulation panel 11 to the existing supporting member and the aluminum frame 15 by fixing means (S4A);
5) a method of constructing a thermal insulation structure of the glass curtain wall, comprising the step (S5A) of finishing the silicon between the rear aluminum panel 12 and the existing support member and the aluminum frame (15). In insulating part of the glass curtain wall structure,
1) measuring the surface to be insulated of the glass curtain wall 10 (S1);
2) fixing the aluminum frame 15 to the existing support member by fixing means (S2B);
3) After attaching the heat insulation panel 11 to one end surface of the rear aluminum panel 12 in which the air holes 14 are formed, and placing the heat insulation panel 11 toward the glass curtain wall 10, the glass curtain wall Fixing the rear aluminum panel 12 to the existing support member and the aluminum frame 15 by fixing means spaced apart from the space (S3B);
4) a method of constructing a thermal insulation structure of the glass curtain wall, comprising the step (S4B) of finishing the silicon between the rear aluminum panel 12 and the existing supporting member and the aluminum frame 15. In insulating part of the glass curtain wall structure,
1) measuring the surface to be insulated of the glass curtain wall 10 (S1);
2) fixing the heat insulation panel 11 from the glass curtain wall 10 to the existing support member with silicon (S2C);
3) bending the end portion of the rear aluminum panel 12 in which the air holes 14 are formed to form the bent end portion 16 (S3C);
4) While the bent end 16 of the rear aluminum panel on the indoor side of the insulation panel 11 is located on the lower surface of the insulation panel 11 while fixing the rear aluminum panel 12 to the existing support member with fixing means. Step S4C;
5) a method of insulating structure construction of the glass curtain wall comprising the step (S5C) between the rear aluminum panel 12 and the existing support member to finish with silicon. In insulating part of the glass curtain wall structure,
1) measuring the surface to be insulated of the glass curtain wall 10 (S1);
2) bending the end of the rear aluminum panel 12 in which the air holes 14 are formed to form the bent end 16 (S2D);
3) After attaching the heat insulation panel 11 to the end face of the bent back aluminum panel 12, position the end face to which the heat insulation panel is attached toward the glass curtain wall 10, and then separate it from the glass curtain wall 10. Fixing the rear aluminum panel 12 to an existing support member by fixing means (S3D);
4) a method of constructing a thermal insulation structure of the glass curtain wall, comprising the step (S4D) of finishing the silicon between the rear aluminum panel 12 and the existing support member. The method according to any one of claims 7 to 10,
The thermal insulation panel 11 is formed by sequentially attaching a PET film, aluminum foil, non-woven hollow PET, crosslinked PET foam, aluminum foil, an adhesive layer in the form of a water-soluble emulsion, and a polycarbonate layer in the form of a honeycomb panel. Insulation construction method of glass curtain wall The method according to claim 7 or 9,
Method for constructing a heat insulation structure of a glass curtain wall, characterized in that to install the rear aluminum panel 12 spaced apart between the insulation panel 11 and the rear aluminum panel 12 The method according to any one of claims 7 to 10,
Means for fixing the aluminum frame 15 or the rear aluminum panel 12 to the existing support member, the glass curtain, characterized in that the mating surfaces are padded with an aluminum angle 17 and fixed with a piece or rivet 18. Wall insulation structure construction method

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