KR20240173519A - Insulation structure of aluminum panel and glass curtain wall and its construction method - Google Patents

Abstract

The present invention relates to insulation of a building constructed with a curtain wall, and more particularly, to an insulation structure of a glass curtain wall and a construction method thereof, which provides an insulation structure having multiple functions such as protection from fire, stability of the insulation structure, and aesthetic finish, while improving the insulation effect without impairing the aesthetics and view of the interior and exterior by constructing insulation material at a gap from the glass curtain wall in a part that is not easily visible from the interior, and which does not impede the aesthetics and view of the interior and exterior.
To this end, the present invention comprises an insulating structure including a glass curtain wall (10) forming an outer wall surface, a rear aluminum panel (12) forming an interior surface while forming a space of a certain interval between the glass curtain wall, an insulating panel (11) inserted between the space, and a supporting means for finishing and supporting the rear aluminum panel and the insulating panel, and is characterized in that the insulating panel is installed at a certain interval from the glass curtain wall and the rear aluminum panel, an aluminum frame (15) or a folded end (16) of the rear aluminum panel is used as a supporting means, and an air hole (14) is installed.

Description

{Insulation structure of aluminum panel and glass curtain wall and its construction method}

The present invention relates to insulation of a building constructed with a curtain wall, and more particularly, since a building constructed with a curtain wall is advantageous in terms of design and high-rise construction, but has relative disadvantages in terms of energy efficiency, such as blocking heat from the outside or insulating the inside of the building, the present invention relates to an insulation structure of a glass curtain wall and a construction method thereof, which can satisfy both energy saving and design without impairing the aesthetics of the interior and exterior, by constructing insulation material at a gap from the glass curtain wall in a part that is not easily visible from the interior.

Curtain wall refers to a non-load-bearing wall that is independently constructed on the exterior wall of a building and does not bear the load of the roof or floor, which separates the exterior space from the interior space of the building, and is widely installed considering the high-rise and design of the building. However, existing curtain wall buildings mainly use glass as non-load-bearing walls, so although they are glassy on the exterior, they are particularly vulnerable to insulation. To address this, paired glass, insulation inside window frames, blinds or curtains, etc. have been used. Using only paired glass or insulation inside window frames is effective in blocking conduction and convection heat to some extent, but is not very effective in blocking radiant heat, which accounts for 75% of the heat transfer ratio. In addition, although installing blinds or curtains can have some effect in blocking radiant heat, there is a risk of spread in the event of a fire, it does not provide a good aesthetic appearance, and it is difficult to block conduction and convection heat. Of course, insulating the entire curtain wall portion using insulation materials may be the most energy-efficient, but in the case of a building with the glass curtain wall structure, insulating the entire surface defeats the purpose of securing a view and sunlight from inside while maintaining a beautiful exterior appearance by adopting the glass curtain wall structure.

The present invention is intended to solve the above problems, and aims to safely protect a building having a glass curtain wall structure from fire while improving the insulation function without impairing the aesthetic appeal of the building.

In addition, the present invention aims to provide a structurally safe construction method that does not impose a load or other strain on an already installed glass curtain wall structure even when construction is performed for insulation by using a lightweight material in the installation of an insulating structure.

In addition, another purpose of the present invention is to prevent the insulation structure from becoming unstable due to a pressure difference occurring between the internal space of the insulation structure and the indoor space due to heat absorption.

In addition, the present invention aims to provide an insulating structure having multiple functions such as blocking radiant heat, preventing the spread of fire, and preventing condensation.

To solve the above problem,

The present invention comprises an insulating structure including a glass curtain wall forming an outer wall surface, a rear aluminum panel forming an interior surface while forming a space of a certain interval between the glass curtain wall, an insulating panel inserted between the space, and a supporting means for finishing and supporting the lower portions of the rear aluminum panel and the insulating panel.

The present invention is characterized in that the insulating panel is installed at a constant interval from the glass curtain wall.

The present invention is characterized by installing the rear aluminum panel with a gap between it and the insulation panel, or attaching the insulation panel to the rear aluminum panel and installing the rear aluminum panel.

The present invention is characterized in that, in addition to using an aluminum frame as a supporting means for supporting the insulating panel, it uses a folded end formed by bending a rear aluminum panel.

First, it can be constructed on new buildings and existing glass curtain wall buildings.

Second, by installing the insulation structure in a visually unnecessary area and installing it at a certain distance from the glass curtain wall, conduction and convection heat can be blocked, and the view can be secured from the inside without causing any changes due to insulation construction from the outside.

Third, by using a rear aluminum panel, it provides a good aesthetic and is also effective in insulation and fire prevention, such as blocking radiant heat.

Fourth, the rear aluminum panel can be installed with a gap between it and the insulation panel to maximize the insulation effect, or the process can be simplified by attaching the insulation panel to the rear aluminum panel and installing the rear aluminum panel to shorten the air time.

Fifth, by bending the rear aluminum panel as a support means for supporting the above-mentioned insulation panel and using the bent portion as the support means, an aesthetic finishing effect and material cost reduction effects can be obtained.

Sixth, by using lightweight materials to install the above insulation structure, it does not cause any problems with the safety of the building, and it is possible to produce and process products of various specifications for each construction area. In addition, products can be manufactured in advance and assembled on-site, making construction easy and fast.

Seventh, by maintaining the pressure equal between the internal space of the insulation structure and the indoor space, deformation of the insulation panel and its joints due to pressure resulting from temperature increase can be prevented.

Eighth, since each component is structured to be easily attached and detached, when the structure is to be changed according to a change in the building's purpose, not only can damage to the structure be minimized, but partial construction and removal are also easy.

Figure 1 is a cross-sectional view of a conventional glass curtain wall.
Figure 2a is a plan view of each embodiment of the present invention.
FIGS. 2b to 2c are schematic vertical and horizontal cross-sectional views of a first embodiment of the present invention.
FIGS. 3A and 3B are schematic vertical and horizontal cross-sectional views of a second embodiment of the present invention.
FIGS. 4A and 4B are schematic vertical and horizontal cross-sectional views of a third embodiment of the present invention.
FIGS. 5A and 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 each drawing according to an embodiment.

Heat is transferred in three ways: conduction, convection, and radiation. If heat energy is 100, conduction transfers 10%, convection transfers 15%, and radiation transfers 75%. Therefore, blocking radiant heat is the most effective insulation method.

Figure 1 is a cross-sectional view of a conventional glass curtain wall. It is a structure that can achieve some effect of blocking heat conduction and convection by forming a space between layers of glass, but the effect of blocking radiant heat is extremely minimal.

In order to achieve perfect insulation in a glass curtain wall structure, it would be desirable to block and insulate the entire surface of the glass curtain wall. However, if the entire surface is blocked in this way, not only will the purpose of adopting the glass curtain wall structure be lost, but there is also a disadvantage in that the outside cannot be seen at all from the inside. Therefore, it would be most desirable to attempt insulation without blocking the glass portion if possible. To this end, the present invention installs an insulation structure in a visually relatively unnecessary portion, such as a portion reserved for installing curtains on each floor, so as not to impair the appearance, while also securing a viewing space from the inside, and thereby obtaining the maximum insulation effect.

Hereinafter, the present invention will be explained using FIGS. 2 to 5.

In insulating a portion of a glass curtain wall structure, the present invention comprises a glass curtain wall (10) forming an outer wall surface, a rear aluminum panel (12) forming an interior surface while forming a space (13) of a constant interval between the glass curtain wall, an insulating panel (11) inserted between the space (13), and a supporting means for finishing the lower portions of the rear aluminum panel and the insulating panel and supporting them.

The above insulation panel (11) can use existing volume insulation materials such as Styrofoam, glass wool, rock wool, and isopink. However, the above volume insulation materials are heat-absorbing insulation materials, and although they have a certain effect in delaying the transfer of conductive and convective heat, they have a minimal effect in blocking radiant heat, as they re-emit more than 90% of radiant heat after absorption. Therefore, it is true that the insulation performance is low compared to the thick thickness and large volume.

Therefore, it is desirable to use insulation that is thin and has a small volume while still being effective in blocking radiant heat, and it is most desirable to use the following multi-functional insulation panels.

The composite functional insulation panel is formed by sequentially attaching PET film, aluminum foil, hollow PET, cross-linked PE foam, aluminum foil, adhesive layer, and polycarbonate layer, and the characteristics of each layer are as follows.

PET film is used to protect aluminum foil, and aluminum foil is a thin aluminum foil with high purity (over 99%) in the form of foil, and is used for heat radiation blocking, sound insulation, surface reinforcement, flame retardancy, etc. Hollow PET is a PET hollow fiber in the form of non-woven fabric, and has excellent heat resistance. It has a hollow layer, so it is used for insulation (heat conduction blocking), sound insulation, and moisture proofing (condensation prevention), and cross-linked PE foam is a foam form with independent cells of PE material, and has the effects of insulation (heat conduction blocking), flame retardancy, sound insulation, moisture proofing, and dust proofing. In addition, the adhesive layer is a water-soluble emulsion form and is used as a substitute for bond and paint glue. Finally, the polycarbonate layer is a honeycomb-shaped panel form that acts as an air layer in existing walls and has a flame retardant effect, so it has the effect of replacing finishing materials.

The composite functional insulation panel formed by sequentially attaching the materials having the above-mentioned various characteristics is thinner and lighter than bulk insulation materials, is harmless to the human body due to the use of eco-friendly insulation materials, does not cause condensation even under extreme temperature changes, has excellent heat resistance (flame retardancy), does not spread fire or generate toxic gases even in the event of a fire, and most importantly, has an excellent radiation heat blocking effect, making it the most suitable insulation panel of the present invention.

In order to install the above insulation panel (11), it is desirable to install it with a certain distance between the glass curtain wall (10) and the insulation panel (11) in order to increase the radiation heat blocking effect and minimize construction traces visible from the outside.

At this time, the space between the glass curtain wall (10) and the insulation panel (11) may experience a change in pressure due to the heat transferred, which may cause a pressure difference with the interior, which may result in the attached insulation panel not being fixed and the joint being damaged, etc. Therefore, an air hole (14) is formed on the upper part of the rear aluminum panel (12) or at an appropriate location so that the pressure with the interior can be maintained the same. It is preferable to install the air hole (14) in a size that can minimize energy loss.

FIG. 2a is a plan view as viewed from the outside in the first embodiment, FIG. 2b is a schematic vertical cross-sectional view taken in the A-A' direction of FIG. 2a, and FIG. 2c is a schematic horizontal cross-sectional view taken in the B-B' direction of FIG. 2a. In the case of other embodiments, the plan views as viewed from the outside are configured in the same way as FIG. 2a. FIGS. 3a, 4a, and 5a are schematic vertical cross-sectional views taken in the A-A' direction according to the respective embodiments, and FIGS. 3b, 4b, and 5b are schematic horizontal cross-sectional views taken in the B-B' direction according to the respective embodiments.

As one embodiment of the present invention, as shown in Fig. 2b, the rear aluminum panel (12) can be fixed by a fixing means by leaving a certain space (13) between the insulation panel (11) and the rear aluminum panel (12). In this way, by leaving a space between the insulation panel (11) and the rear aluminum panel (12), energy loss due to conduction and convection of the insulation structure can be prevented to the greatest extent possible.

On the other hand, as shown in Fig. 3a, the insulation panel (11) may be 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 while the insulation panel is attached to the rear aluminum panel on the other side, thereby facilitating construction and shortening the construction period.

As the support means, a lightweight aluminum frame (15) that is good as a finishing material can be used. In another embodiment, as shown in Fig. 4a, a folded end (16) formed by folding a rear aluminum panel (12) with an extended end toward a glass curtain wall (10) can be used as a support means, thereby enhancing the aesthetic finishing effect and reducing the amount of materials.

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

Below, the construction method for each insulation structure is explained in detail.

<First embodiment> - Figs. 2b to 2c

1) Step for measuring the surface on which the glass curtain wall (10) will be constructed (S1)

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

2) Step of fixing the aluminum frame (15) to the existing support member using a fixing means (S2A)

An aluminum frame (15) is installed as a support means to support the lower part of the insulation panel (11) and the rear aluminum panel (12) on the lower part of the construction surface. In order to secure the aluminum frame (15) to the existing support member, an aluminum angle (17) is added over each joint and secured with a piece or rivet (18).

3) Step of fixing the insulation panel (11) with silicone while separating it from the glass curtain wall (10) (S3A)

An insulation panel (11) is installed at a certain distance from the glass curtain wall (10). The insulation panel (11) is installed in a form that is sandwiched between the existing support member and the aluminum frame (15), and the contact area is finished with silicone.

4) Step (S4A) of fixing the rear aluminum panel (12) with an air hole (14) formed on the interior side of the above insulation panel (11) to the existing support member and aluminum frame (15) using a fixing means.

A rear aluminum panel (12) is installed on the indoor side (opposite of the glass curtain wall) behind the above-mentioned insulation panel (11). Before installing the rear aluminum panel (12), an aluminum angle (17) is first fixed to an existing support member with a piece or rivet (18). At this time, by installing the aluminum angle (17) at a distance from the insulation panel (11), a space is formed between the rear aluminum panel (12) fixed to the aluminum angle (17) and the insulation panel (11), so that the insulation structure has a double space structure. Next, the rear aluminum panel (12) is installed, and an air hole (14) is formed at the upper portion or an appropriate 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) Step of finishing the space between the rear aluminum panel (12) and the existing support member and aluminum frame (15) with silicone (S5A)

The area where the above rear aluminum panel (12) comes into contact with the existing support member and aluminum frame (15) is finished with silicone.

<Second embodiment> - Figs. 3a to 3b

1) Step for measuring the surface on which the glass curtain wall (10) will be constructed (S1)

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

2) Step of fixing the aluminum frame (15) to the existing support member using a fixing means (S2B)

An aluminum frame (15) is installed as a support means to support the lower part of the insulation panel (11) and the rear aluminum panel (12) on the lower part of the construction surface. In order to secure the aluminum frame (15) to the existing support member, an aluminum angle (17) is added over each joint and secured with a piece or rivet (18).

3) Step (S3B) of attaching an insulation panel (11) to the cross section of a rear aluminum panel (12) in which an air hole (14) is formed, positioning the insulation panel (11) toward the glass curtain wall (10), and then fixing the rear aluminum panel (12) to an existing support member and an aluminum frame (15) by a fixing means while separating it from the glass curtain wall (10).

An insulation panel (11) is attached to a rear aluminum panel (12). An air hole (14) is formed at the upper portion or an appropriate position of the rear aluminum panel (12). The surface to which the insulation panel is attached is directed toward the glass curtain wall (10), and the rear aluminum panel (12) to which the insulation panel is attached is fixed at a predetermined distance from the glass curtain wall (10). First, an aluminum angle (17) is fixed to an existing support member and an aluminum frame (15) using a piece or rivet (18), and the rear aluminum panel (12) is fixed to the aluminum angle (17) using a piece or rivet (18).

4) Step of finishing the space between the rear aluminum panel (12) and the existing support member and aluminum frame (15) with silicone (S4B)

The area where the above rear aluminum panel (12) comes into contact with the existing support member and aluminum frame (15) is finished with silicone.

<Third embodiment> - Figs. 4a to 4b

1) Step for measuring the surface on which the glass curtain wall (10) will be constructed (S1)

The construction surface to be constructed in the glass curtain wall structure is measured. In this measurement step, the sizes of the insulation panel (11) and the rear aluminum panel (12) are determined, and the gaps between the glass curtain wall (10) and the insulation panel (11), and between the insulation panel (11) and the rear aluminum panel (12) are determined. At this time, the size of the rear aluminum panel (12) should further consider the area of the folded end (16) to be formed by folding later.

2) Step of fixing the insulation panel (11) with silicone while separating it from the glass curtain wall (10) (S2C)

An insulation panel (11) is installed at a certain distance from the glass curtain wall (10), the upper surface and left and right sides of the insulation panel (11) are inserted into the existing support member, and the contact area is finished with silicone.

3) Step (S3C) of forming a folded end (16) by bending the end of the rear aluminum panel (12) in which the air hole (14) is formed

An air hole (14) is formed at the upper or appropriate position of the rear aluminum panel (12), and the lower part is bent 90 degrees in an L shape toward the glass curtain wall to form a folded end (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, and thus must be manufactured to a length sufficient for the end of the folded end (16) to touch the glass curtain wall (10).

4) Step (S4C) of fixing the rear aluminum panel (12) to an existing support member using a fixing means while positioning the folded end (16) of the rear aluminum panel on the inner side of the insulation panel (11) at the lower side of the insulation panel (11).

The folded rear aluminum panel (12) is installed on the indoor side (opposite of the glass curtain wall) behind the above-mentioned insulation panel (11). By installing it at a distance from the above-mentioned insulation panel (11), a space is formed between the rear aluminum panel (12) and the insulation panel (11), so that the insulation structure has a double space structure. In order to install the above-mentioned rear aluminum panel (12), first, an aluminum angle (17) is fixed to an existing support member with a piece or rivet (18). Next, the upper surface of the folded end (16) of the above-mentioned folded rear aluminum panel is attached to the lower surface of the insulation panel (11), and then fixed to the above-mentioned aluminum angle (17) with a piece or rivet (18).

5) Step of finishing the space between the rear aluminum panel (12) and the existing support member with silicone (S5C)

The area where the above rear aluminum panel (12) comes into contact with the existing support member and glass curtain wall (10) is finished with silicone.

<Fourth embodiment> - Figs. 5a to 5b

1) Step for measuring the surface on which the glass curtain wall (10) will be constructed (S1)

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

2) Step (S2D) of forming a folded end (16) by bending the end of the rear aluminum panel (12) in which the air hole (14) is formed

An air hole (14) is formed at the upper or appropriate position of the rear aluminum panel (12), and the lower part is bent 90 degrees in an L shape toward the glass curtain wall to form a folded end (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, and thus must be manufactured to a length sufficient for the end of the folded end (16) to touch the glass curtain wall (10).

3) A step (S3D) of attaching an insulation panel (11) to a cross-section of the above-mentioned folded rear aluminum panel (12), positioning the cross-section to which the insulation panel is attached toward the glass curtain wall (10), and then fixing the rear aluminum panel (12) to an existing support member using a fixing means while spaced apart from the glass curtain wall (10);

An insulation panel (11) is attached to the upper inner surface of the rear aluminum panel (12) folded in the above L shape. Next, the rear aluminum panel (12) is installed at a predetermined distance from the glass curtain wall (10) with the surface of the rear aluminum panel (12) to which the insulation panel is attached facing the glass curtain wall (10). To this end, an aluminum angle (17) is fixed to an existing support member with a piece or rivet (18), and the rear aluminum panel (12) is fixed to the aluminum angle (17) with the piece or rivet (18).

4) Step of finishing the space between the rear aluminum panel (12) and the existing support member with silicone (S4D)

The area where the above rear aluminum panel (12) comes into contact with the existing support member and glass curtain wall (10) is finished with silicone.

Although the present invention has been described in detail above with reference to specific embodiments, the embodiments are merely examples to facilitate understanding of the present invention. Therefore, embodiments that are substituted, added, and modified within the scope that does not depart from the technical spirit of the present invention are also considered to fall within the scope of protection of the present invention defined by the following claims.

10 Glass Curtain Wall
11 Insulation Panels
12 Rear aluminum panel
13 space
14 air holes
15 Aluminum Frame
16 bend section
17 Aluminum Angle
18 pieces or rivets
19 Existing horizontal bar
20 Existing vertical bars

Claims (4)

In some insulating structures of a glass curtain wall, the insulating structure of the glass curtain wall comprises a glass curtain wall (10) forming an outer wall surface, a rear aluminum panel (12) forming an interior surface while forming a space (13) of a certain interval between the glass curtain wall, an insulating panel (11) inserted between the space, and a supporting means for finishing the lower part of the rear aluminum panel and the insulating panel and supporting them, wherein an air hole (14) is installed in the rear aluminum panel (12). In the first paragraph,
The above insulation panel (11) is characterized by the insulation structure of a glass curtain wall formed by sequentially attaching PET film, aluminum foil, hollow PET in the form of non-woven fabric, cross-linked 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. In insulating a portion of a glass curtain wall structure,
1) Step (S1) of measuring the surface on which insulation is to be constructed of a glass curtain wall (10);
2) Step of fixing the aluminum frame (15) to the existing support member using a fixing means (S2A);
3) Step (S3A) of fixing the insulation panel (11) to the aluminum frame (15) and the existing support member with silicone while separating it from the glass curtain wall (10);
4) Step (S4A) of fixing a rear aluminum panel (12) having an air hole (14) formed on the interior side of the above insulation panel (11) to an existing support member and an aluminum frame (15) using a fixing means;
5) A method for constructing an insulating structure of a glass curtain wall, characterized by including a step (S5A) of finishing the space between the rear aluminum panel (12) and the existing support member and aluminum frame (15) with silicone. In insulating a portion of a glass curtain wall structure,
1) Step (S1) of measuring the surface on which insulation is to be constructed of a glass curtain wall (10);
2) Step of fixing the aluminum frame (15) to the existing support member using a fixing means (S2B);
3) Step (S3B) of attaching an insulation panel (11) to one section of a rear aluminum panel (12) in which an air hole (14) is formed, positioning the insulation panel (11) toward the glass curtain wall (10), and then fixing the rear aluminum panel (12) to an existing support member and an aluminum frame (15) by a fixing means while distancing it from the glass curtain wall (10);
4) A method for constructing an insulating structure of a glass curtain wall, characterized by including a step (S4B) of finishing the space between the rear aluminum panel (12) and the existing support member and aluminum frame (15) with silicone.