KR101875981B1 - Curtain wall structure - Google Patents

Abstract

The heat load due to the four-row heat is reduced in the following while suppressing the light amount reduction in the room, and the heat is efficiently recovered by the four-row heat, thereby achieving significant energy saving. A plurality of louver units 1, 1, ... are arranged at predetermined intervals in the horizontal direction on the outside of the curtain wall panel CWP. Each louver unit 1 has two glass sheets 5, And two air hole panels 8 and 9 having a plurality of openings in parallel with the two glass sheets 5 and 6 are arranged in the air layer 7 with an interval therebetween , The surface of the one of the perforated panels 8 and 9 on the side of the glass 5 on the one side is colored with a white color and the surface of the other side of the glass 6 is colored with a black color Air communication holes 2b and 3b communicating with the outside of the air layer and the outside of the louver unit are formed on the upper and lower ends of the surface on the side of the glass 5 on the one side, .

Description

[0001] CURTAIN WALL STRUCTURE [0002]

The present invention relates to a curtain wall structure in which heat load due to four-row heating is reduced, and heat is efficiently recovered from the four-row heat by synchronizing, thereby achieving significant energy saving.

A curtain wall structure called so-called double skin has been proposed in order to reduce energy consumption by reducing the heat load due to the squirting heat coming from the glass window.

Specifically, Patent Document 1 discloses a structure in which a window is formed in a double structure by an outdoor side glass and an indoor side glass, an air layer is formed between both glasses, and a flow path switching device is provided on an upper portion and / Discloses a curtain wall structure in which blinds are arranged in an air layer. Patent Document 2 discloses an exterior system in which a function space for controlling the indoor environment of the building is formed outside the outer wall of the building and a light shielding / heat shielding member is disposed in the function space.

Japanese Patent Application Laid-Open No. 2006-291689 Japanese Patent Application Laid-Open No. 11-100929

However, the curtain wall structures described in the above Patent Documents 1 and 2 all have a blind or a louver installed in an air layer between both glasses to block the sunlight to reduce the heat load. Therefore, the blind or the louver is completely closed The sunlight is cut off and the room is darkened. For this reason, in order to compensate for insufficient amount of light in the room, energy for illumination has become necessary.

On the other hand, if the blind or the louver is not closed, sunlight penetrates through the glass and enters the room. In the following, the room temperature rises due to the heat of the room, and the air conditioning load increases.

Accordingly, a main object of the present invention is to provide a curtain wall structure capable of significantly reducing energy consumption by reducing the heat load caused by the four-row heat while reducing the light amount in the room, and by efficiently recovering heat from the four- .

In order to solve the above problems, according to a first aspect of the present invention, there is provided a curtain wall structure in which at least a plurality of louver units are arranged at predetermined intervals in the horizontal direction on the outside of a glass panel of a curtain wall panel,

The louver unit is configured such that two sheets of glass are arranged in a frame-assembled frame so as to form an air layer between both glass plates, and one or a plurality of perforated panels having a plurality of perforations in parallel with the two sheets of glass And the surface of the one side of the glass plate is colored with a white color and the surface of the other side of the glass plate is colored with a black color, Wherein a part of the perforated panel which is arranged on the glass side of the one side is colored white and the other side of the perforated panel is arranged on the glass side of the other side, An air communication port communicating with the air layer and the outside of the louver unit is formed on the upper and lower ends of the louver unit, Supported,

In the following mode, each of the louver units is rotated, the glass on one side is arranged outward, the glass on the other side is arranged inward, and the above-mentioned perforated panel, on which white coloring is performed, So that sunlight from outside is reflected on the surface subjected to the white coloring and an upward airflow is generated by raising the temperature in the air layer to discharge the air in the air layer outward from the air communication port in the upper end portion ,

In the synchronous mode, each of the louver units is rotated, the glass on the other side is arranged outwardly, the glass on one side is arranged inward, and the above-mentioned perforated panel, on which the black- The sunlight from the outside is absorbed on the surface subjected to the black coloration and an upward airflow is generated by the temperature rise in the air layer so that the air in the air layer can be conveyed inward from the upper air communication port A curtain wall structure is provided.

The invention of the first aspect is characterized in that at least the outside of the glass panel of the curtain wall panel is provided with a plurality of curtain wall panels for reducing the heat load of the four- Curtain wall structure in which the louver units are arranged at a predetermined interval in the horizontal direction.

The louver unit is configured such that two sheets of glass are arranged in a frame-assembled frame so as to form an air layer between both glass plates, and one or a plurality of perforated panels having a plurality of perforations in parallel with the two sheets of glass And the surface of the one side of the glass side is colored with a white color and the side of the other side of the glass side is colored with a black color, The panel is colored on the glass side of the one side and colored on the glass side of the other side so that the color of the black color is applied to the other side of the panel. An air communication port communicating with the air layer and the outside of the louver unit is formed on the upper and lower ends of the louver unit, It is supported. Here, the term " coloring of white color system " is a concept including a color of white color in addition to coloring of a white color, in addition to coating with a thin color. The "black coloration" was performed by applying a paint with a darker black color.

In the following mode, the louver units are rotated to dispose the glass on one side toward the outside, the glass on the other side to the inside, and the white glass By arranging the colored perforated panel facing outward, sunlight from the outside is reflected on the white colored surface, and the temperature in the air layer is raised by the heat of quadrature and radiant heat, And the air in the air layer is discharged to the outside from the air communication port at the upper end portion. Therefore, in the sunlight passing through the hole of the perforated panel, reduction of the amount of light is suppressed by diffraction of light, and a sufficient amount of light in the room is secured. Further, in the air layer, air in the air layer is heated by the heat of quartz and radiant heat, so that a rising air stream is generated in the air layer. The air raised by the upward air stream passes through the air communication hole at the upper end and is discharged to the outside. Therefore, the heat load in the room by the four-row heat is greatly reduced, and energy saving is achieved.

On the other hand, in the synchronous mode, the respective louver units are rotated, the glass on the other side is arranged outward, the glass on one side is arranged inward, and the above-mentioned perforated panel, Thereby absorbing sunlight from the outside on the surface subjected to the black coloration and generating an upward flow mainly by radiant heat so that air in the air layer can be conveyed inward from the air communication port in the upper end portion . Therefore, in the same manner as described below, the sunlight passing through the hole of the perforated panel is prevented from reducing the amount of light by the diffraction of light, and a sufficient amount of light in the room is secured. In the air layer, air in the air layer is heated by radiant heat to generate a rising air stream in the air layer. The air raised by the rising air stream is supplied to the inside through the air communication hole at the upper end, , It can be used as the air supply of the air conditioner, and energy saving can be expected.

In addition, by opening each louver unit by rotating it in the middle period, it is possible to easily introduce the outside air or to improve the ambient.

As a second aspect of the present invention, in the curtain wall structure of the first aspect, two perforated panels are arranged in the air layer, and the surface of the one perforated panel on the glass side is colored white And a black color is applied to the glass-side surface on the other side of the curtain wall structure.

The invention of the second aspect defines the configuration of the louver unit according to the first embodiment. In the first exemplary embodiment, two perforated panels are arranged in the air layer, and the surface of the perforated panel on the glass side on the one side is colored white, and the surface of the other side Coloring is performed. As a result, it is possible to reduce the sunlight energy or recover the heat energy over two steps.

In a third form of the present invention, in the curtain wall structure of the first aspect, two perforated panels are arranged in the air layer, and white coloring is performed on the one side glass side, There is provided a curtain wall structure which is arranged on the glass side of the other side and carries out black coloring.

The invention of the third aspect defines the configuration of the louver unit according to the second embodiment. In the second embodiment, two perforated panels are arranged in the air layer, and a white color is applied to the one side glass and a black color is applied to the other side glass. have. Thus, since the color is the same on the front and back surfaces, the production can be simplified.

According to a fourth aspect of the present invention, in the curtain wall structure of the first aspect, one perforated panel is arranged in the air layer, while a white color is applied to the glass-side surface on the one side, A curtain wall structure in which a black color is applied to a glass-side surface on the side of a glass side is provided.

The invention of the fourth aspect defines the configuration of the louver unit according to the third embodiment. In the third embodiment, one perforated panel is arranged in the air layer, and the surface on the side of the one-side glass is colored in white, and the surface on the side of the other side is colored in black. This makes it possible to simplify the structure. Further, the above-mentioned perforated panel may be integrally formed by joining the one obtained by applying the coloring of the white color system and the one colored with the black color system.

As a fifth aspect of the present invention, there is provided a curtain wall structure according to any one of the first to fourth aspects, wherein a lower frame member of the louver unit is provided with a curtain wall structure having an outside air introduction port for introducing outside air into the air layer do.

According to the invention of the fifth aspect, fresh air can be introduced into the room, particularly in synchronism, by forming an outer air inlet for introducing the outside air into the air layer on the lower frame member of the louver unit.

According to a sixth aspect of the present invention, in the curtain wall structures of the first to fifth aspects, a curtain wall structure in which the glass on one side is omitted is provided.

The invention of the sixth aspect further omits the glass on one side in order to simplify the structure.

As a seventh aspect of the present invention, there is provided a curtain wall structure according to any one of the first to sixth aspects, wherein a curtain wall panel provided with a fan for sucking air discharged from the louver unit is provided at an upper portion between the curtain wall panel and the louver unit. Structure is provided.

According to the seventh aspect of the present invention, by providing a fan for sucking the air discharged from the louver unit at the upper part between the curtain wall panel and the louver unit, it is possible to efficiently recover air heated by radiant heat in the air layer .

As described in detail above, according to the various aspects of the present invention, it is possible to reduce the heat load due to the four-row heat while suppressing the light amount reduction in the room, It becomes possible to provide a curtain wall structure.

1 is a front view of a curtain wall structure CW according to the present invention.
2 is an II-II line arrow diagram thereof.
3 is an enlarged view of the louver unit portion of Fig.
4 is an arrow line IV-IV in Fig.
5 is a cross-sectional view of the louver unit 1 (VV line arrow in Fig. 1).
Fig. 6 shows the operation of the louver unit 1 according to the first embodiment. Fig. 6A is a longitudinal sectional view of the synchronous state (arrows on the line II-II in Fig. 1), and Fig.
Fig. 7 shows the operation of the louver unit 1 according to the second embodiment. Fig. 7 (A) is a longitudinal cross-sectional view (II-II line arrow in Fig.
8A and 8B show the operation of the louver unit 1 according to the third embodiment. Fig. 8A is a vertical cross-sectional view of the synchronized state (the arrow II-II line in Fig.
9A and 9B show the operation of the louver unit 1 according to another embodiment; and FIG. 9B is a vertical sectional view (II-II line arrow in FIG.
Fig. 10 shows an example of a looper unit 1 according to another embodiment. Fig. 10 (A) is a longitudinal sectional view of the state of the synchronous state. Fig.
Fig. 11 shows an example of a looper unit 1 according to another embodiment, wherein (A) is a front view and (B) is a longitudinal sectional view (BB arrow).

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

As shown in Figs. 1 to 4, the curtain wall structure CW includes a curtain wall panel CWP such as glass (G, G, ...) arranged adjacent to each other in the vertical direction and the horizontal direction, (1, 1, ...). A plurality of the louver units 1 are arranged at predetermined intervals in the horizontal direction for each layer.

Hereinafter, the louver unit 1 will be described in detail.

[First embodiment example]

[Structure of Louver Unit (1)

3 and 5, the louver unit 1 according to the first embodiment is a louver unit having the upper frame member 2, the lower frame member 3 and the left and right side side frame members 4 and 4 Two glass plates 5 and 6 are formed in parallel in the frame surface to form an air layer 7 between the glass plates so as to be fitted and supported in the frame in which the perimeter frame is assembled, For example, two perforated panels 8, 9 having a plurality of openings parallel to the glass are fixed to the frame members 2, 3, 4 at intervals with fixing screws.

3, the upper frame member 2 and the lower frame member 3 each have a hollow cross section, and air communication holes 2a, 3a (not shown) for communicating the air cross- And air communication holes 2b and 3b communicating with the outside of the frame are formed on the side of the glass 5 on one side of the two glasses 5 and 6. In addition, the lower frame member 3 is provided with an outside air inlet port 3c for introducing outside air as required.

The above-mentioned perforated panels 8 and 9 are a so-called punching panel in which a plate made of metal such as aluminum is subjected to a plurality of openings, and the opening ratio thereof is 10 to 50%, preferably 30 to 40%.

In the louver unit 1 according to the first embodiment of the present invention, whiteness is imparted to each of the perforated panels 8, 9 on the side surfaces 8A, 9A of the one-side glass 5, And the surfaces 8B and 9B on the side of the glass 6 on the other side are colored black. The concept of "coloring of the white color system" is a concept including the color of the metal color of the material in addition to the color of the white color (including colors such as silver and pale colors that easily reflect light) coated with a light color paint. The concept of "coloring of the black color system" is a concept including the black color of the material in addition to the coloring of the black color system (including the brown color etc.).

3, the center portions of the upper frame member 2 and the lower frame member 3 are pivotally supported by the shaft members 10 and 10 with respect to the structure side, respectively, as shown in Fig. 3, (See Fig. 4). The louver unit 1 is disposed on the outer side with a sufficiently rotatable interval with respect to the curtain wall panel CWP and is arranged at an interval such that both ends of the adjacent louver unit 1 do not overlap.

As shown in Fig. 4, the louver unit 1 is provided substantially in parallel with the curtain wall panel CWP in the closed state, and is disposed substantially perpendicular to the curtain wall panel CWP in the open state.

Each of the side frames (4) is provided with a gas tight rubber (11) projecting to both sides. The airtight rubber 11 is provided so as to have an overlapping margin with the airtight rubber 11 of the adjacent louver unit 1 in the closed state of the louver unit 1. The airtightness between the upper frame member 2 and the lower frame member 3 is ensured in the closed state of the louver unit 1 by providing the airtight rubber 12 projecting upward and downward.

[Operation instructions of the louver unit 1]

Next, the operation of the louver unit 1 will be described in detail with reference to Fig.

[In the following mode]

6 (A), the louver units 1 are rotated to dispose the one-side glass 5 outwardly and the other-side glass 6 to be directed inward At the same time, the white colored surfaces 8A, 9A of the perforated panels 8, 9 are arranged outward.

Thereby, sunlight coming into the louver unit 1 is transmitted through the one-side glass 5 and irradiated to the outer perforated panel 8 to generate radiant heat, and at the same time, the white colored surface 8A, So that most sunlight is reflected. The sunlight passing through the apertures of the perforated panel 8 is irradiated to the inner perforated panel 9 to generate radiant heat, and most of sunlight is reflected by the white colored surface 9A do. This reflected light is radiated to the black-colored surface 8B of the outer perforated panel 8 to generate radiant heat as well. The light passing through the apertures of the perforated panel (9) passes through the other glass (6) and enters the room as visible light.

In the sunlight passing through the apertures of these perforated panels 8 and 9, reduction of the amount of light is suppressed by diffraction of light, and a sufficient amount of light in the room is secured. In the air layer 7, the air in the air layer 7 is heated by the heat generated by sunlight and the radiant heat, and a rising air current is generated in the air layer 7. The air raised by the upward airflow passes through the air communication openings 2a and 2b of the upper frame member 2 and is discharged to the outside while the lower frame member 2 Outside air is introduced into the air layer 7 from the air communication ports 3a, 3b, Therefore, the heat load in the room by the four-row heat is greatly reduced, and energy saving is achieved.

[In synchronous mode]

6B, each louver unit 1 is rotated, the other glass 6 is arranged outwardly, and the one glass 5 is rotated inwardly And the blackened colored surfaces 8B and 9B of the above-mentioned perforated panels 8 and 9 are arranged outwardly.

As a result, the solar light entering the louver unit 1 enters the other-side glass 6 and irradiates the outer perforated panel 9 to generate radiant heat. At this time, most of the light is absorbed by the black-colored surface 9B, and more radiation heat is generated. The sunlight passing through the hole of the outer perforated panel 9 is irradiated to the inner perforated panel 8 to generate radiant heat in the same manner and the surface 8B on which the black- More radiation is generated by absorbing light. Thereafter, the light passing through the opening of the inner perforated panel 8 passes through the one-side glass 5 and enters the room as visible light. As described below, in the sunlight passing through the apertures of these perforated panels 8 and 9, reduction of the amount of light is suppressed by diffraction of light, and a sufficient amount of light in the room is secured.

In the air layer 7, the air in the air layer 7 is mainly heated by the radiant heat, and a rising air current is generated in the air layer 7. The air raised by the rising airflow is supplied to the inside through the air communication openings 2a and 2b of the upper frame member 2 and can be fed directly to the room or used as air supply of the air conditioner. The negative pressure action in the air layer 7 accompanied by this introduces the outside air from the air communication ports 3a and 3c of the lower frame member 3 and the air communication holes 3a and 3b of the lower frame member 3, 3b into the air between the louver unit 1 and the curtain wall panel CWP.

[Intermediate mode]

On the other hand, when the louver unit 1 is in an open state in the middle of spring, autumn and autumn, the outside air (wind) can easily be introduced from the curtain wall panel CWP, and direct sunlight can be directly introduced into the room.

[Second embodiment example]

As shown in Fig. 7, the louver unit 1 according to the second exemplary embodiment has two air hole panels 8 and 9 arranged in the air layer 7, and is arranged on the side of the glass 5 on one side And the perforated panels 9 arranged on the side of the other glass 6 are colored with a black color.

In the following mode, as shown in Fig. 7A, the louver units 1 are rotated to dispose the one-side glass 5 outwardly and the other-side glass 6 inwardly And the perforated panel 8 on which the whitened coloring is applied is arranged on the outer side and the perforated panel 9 on which the black coloring is applied is arranged on the inner side.

As a result, sunlight coming into the louver unit 1 is transmitted through the one-sided glass 5 and irradiated to the outer perforated panel 8 to generate radiant heat, while the perforated panel 8 is colored white Most sunlight is reflected. The sunlight passing through the hole of the outer perforated panel 8 is radiated to the inner perforated panel 9 to generate radiant heat and the perforated panel 9 is colored in black, Solar light is absorbed. The sunlight passing through the openings of the inner perforated panel 9 passes through the inner glass 6 on the inner side and enters the room.

On the other hand, in the synchronous mode, as shown in Fig. 7B, each louver unit 1 is rotated, the other glass 6 is arranged outward, and the one glass 5 is turned inward And a perforated panel 9 on which a black coloring is applied is arranged on the outer side and a perforated panel 8 on which a white coloring is applied is arranged on the inner side.

As a result, sunlight coming into the louver unit 1 passes through the other glass 6 and irradiates the outer perforated panel 9 to generate radiant heat. At this time, the perforated panel 9 is colored black Most sunlight is absorbed, resulting in more radiant heat. The sunlight passing through the openings of the outer perforated panel 9 is radiated to the inner perforated panel 8 to generate radiant heat and the perforated panel 8 is colored in white, Sunlight is reflected, and this reflected light is irradiated to the perforated panel 9 to generate radiant heat. The sunlight passing through the opening of the inner perforated panel 8 passes through the inner one-side glass 5 and enters the room.

[Third embodiment]

As shown in Fig. 8, the louver unit 1 according to the third exemplary embodiment has a structure in which one perforated panel 8 is disposed in the air layer 7, and the one- 5 on the side 8B of the other glass 6 is colored on the side 8B of the side of the other glass 6 and the side 8B on the side of the other glass 6 is colored black. Further, the above-mentioned perforated panel 8 may be formed by laminating a white-based panel and a black-based panel.

In the following mode, as shown in Fig. 8A, the louver units 1 are rotated to dispose the one-side glass 5 outwardly and the other-side glass 6 inwardly And the surface 8A of the perforated panel 8 to which the white coloring is applied is arranged outward and the surface 8B to which the black coloring is applied is arranged inward.

As a result, sunlight coming into the louver unit 1 is transmitted through the one-side glass 5 and irradiated to the perforated panel 8 to generate radiant heat, while whiteness is imparted to the outer surface 8A Most sunlight is reflected. The sunlight passing through the opening of the perforated panel 8 passes through the inner glass 6 on the inside and enters the room.

On the other hand, in the synchronous mode, as shown in Fig. 8B, each louver unit 1 is rotated, the other glass 6 is arranged outward, and the one glass 5 is turned inward And the black colored surface 8B of the perforated panel 8 is disposed outward and the white colored surface 8A is arranged inward.

Thereby, sunlight coming into the louver unit 1 is transmitted through the other glass 6 and irradiated to the perforated panel 8 to generate radiant heat. At this time, black coloring is performed on the outer surface 8B Most solar radiation is absorbed, resulting in more radiant heat. The sunlight passing through the apertures of the perforated panel 8 passes through the inner one-side glass 5 and enters the room.

In the present embodiment, since the outside air inlet 3c provided in the lower frame member 3 easily raises the air heated by the radiant heat generated on the surface subjected to the black coloring in synchronization, Is formed on the surface side on which the coloring is performed.

[Modifications of the first to third embodiments]

As shown in Fig. 9, the louver unit 1 according to the modified examples of the first to third exemplary embodiments is obtained by omitting the one-side glass 5 of the louver unit 1 as shown in Fig. Although the louver unit 1 according to the first embodiment is taken as an example in the illustrated example, the one-side glass 5 can also be omitted for the louver unit 1 according to the second and third embodiments.

By omitting the glass 5 on one side of the louver unit 1 according to the first to third embodiments, the structure can be simplified, and at the same time, as shown in Fig. 9 (A) The radiant heat generated in the panels 8 and 9 can be easily discharged to the outside, and as shown in the diagram (B), the radiant heat can be easily transferred to the inside.

[Other embodiment]

(1) As shown in Fig. 10, a fan 13 for sucking the air discharged from the louver unit 1 may be provided on the upper part between the curtain wall panel CWP and the louver unit 1. Fig. 10 (A), the fan 13 sucks the air arranged from the upper part of the louver unit 1 in synchronism shown in the diagram (B), and efficiently conveys the air to the room or air conditioner can do.

(2) The louver unit 1 may be disposed at least outside the glass panel G among the curtain wall panels CWP. As shown in Fig. 11, the curtain wall panel CWP, not the glass panel G, It is also possible to dispose the panel P that does not transmit the light of the wavelength. As a result, the appearance of the building becomes an accent for each layer, and the design property is excellent.

(3) The number of the perforated panels disposed in the air layer 7 may be three or more.

1: louver unit
2: upper frame member
3: Lower frame member
4: closed frame material
5: One side glass
6: Glass on the other side
7: air layer
8 · 9: Perforated panel
CW: Curtain wall structure
CWP: Curtain Wall Panel

Claims (11)

A curtain wall structure in which a plurality of louver units are arranged at predetermined intervals in the horizontal direction on at least an outer side of a glass panel among curtain wall panels,
The louver unit is configured such that two sheets of glass are arranged in a frame-assembled frame so as to form an air layer between both glass plates, and one or a plurality of perforated panels having a plurality of perforations in parallel with the two sheets of glass And the surface of the one side of the glass plate is colored with a whitish color and the surface of the other side of the glass plate is colored with a black color. Of the glass on one side is colored on the glass side of the glass on one side and colored on the glass side of the other side is colored on the side of the glass on the side of the glass, An air communication port communicating with the air layer and the outside of the louver unit is formed at each of the upper and lower ends, And,
In the following mode, each of the louver units is rotated, the glass on one side is arranged outward, the glass on the other side is arranged inward, and the above-mentioned perforated panel, on which white coloring is performed, So that sunlight from outside is reflected on the surface subjected to the white coloring and an upward airflow is generated by raising the temperature in the air layer to discharge the air in the air layer outward from the air communication port in the upper end portion ,
In the synchronous mode, each of the louver units is rotated, the glass on the other side is arranged outwardly, the glass on one side is arranged inward, and the above-mentioned perforated panel, on which the black- The sunlight from the outside is absorbed on the surface subjected to the black coloration and an upward airflow is generated by the temperature rise in the air layer so that the air in the air layer can be conveyed inward from the upper air communication port Of the curtain wall structure. 2. The honeycomb structure according to claim 1, wherein two perforated panels are arranged in the air layer, and a white color is applied to the glass-side surface on one side of each of the perforated panels, The curtain wall structure performing the coloring of the system. 2. The honeycomb structure according to claim 1, wherein the perforated panel is disposed in the air layer, and a plurality of the perforated panels are arranged on the glass side of the one side and are arranged on the glass side of the other side, In the curtain wall structure. 2. The honeycomb structure according to claim 1, wherein the perforated panel is arranged in the air layer, the surface of the one side of the glass is colored white, and the surface of the other side of the glass is colored black Curtain wall structure. The curtain wall structure according to any one of claims 1 to 4, wherein the lower frame member of the louver unit is provided with an outside air introduction port for introducing outside air into the air layer. The curtain wall structure according to any one of claims 1 to 4, wherein the glass on one side is omitted. The curtain wall structure according to claim 5, wherein the glass on one side is omitted. The curtain wall structure according to any one of claims 1 to 4, wherein a fan for sucking air discharged from the louver unit is provided at an upper portion between the curtain wall panel and the louver unit. 6. The curtain wall structure according to claim 5, wherein a fan for sucking air discharged from the louver unit is provided at an upper portion between the curtain wall panel and the louver unit. 7. The curtain wall structure according to claim 6, wherein a fan for sucking air discharged from the louver unit is provided at an upper portion between the curtain wall panel and the louver unit. 8. The curtain wall structure according to claim 7, wherein a fan for sucking air discharged from the louver unit is provided at an upper portion between the curtain wall panel and the louver unit.

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