KR101996480B1 - Curtain wall type system window having overheating prevention function and construction method thereof - Google Patents

Abstract

The present invention includes: a first support member installed in an opening of a building in one direction, and including a hollow part; a second support member placed at a distance from the first support member, connected with the first support member, and including a hollow part; a finishing member installed in a hall part divided by the first and second support members, and finishing the opening of the building; a window installed in the hall part divided by the first and second support members to be rotatable, and in which the finishing member is installed; an insulation part installed in the hall part divided by the first and second support members, blocking heat exchanged between the inside and outside of the first and second support members, and dividing the opening of the building into a transmission part and a non-transmission part depending on whether light is transmitted; and an air discharge part moving air in a hollow layer of the non-transmission part to the transmission part if the temperature of the air in the hollow layer of the non-transmission part, which is formed by a gap between the insulation part and the finishing member, is increased due to light emitted from the outside of the building. Therefore, the present invention is capable of increasing heating efficiency by discharging heated air inwards.

Description

TECHNICAL FIELD [0001] The present invention relates to a curtain wall system window having an overheat prevention function and a method of constructing the curtain wall system window.

The present invention relates to a curtain wall system window having an overheating prevention function and a method of constructing the curtain wall system window. More particularly, the present invention relates to a curtain wall system for preventing overheating of a hollow interior of a non- It is possible to prevent heat waves from being generated between the components due to thermal expansion and contraction of the components of the curtain wall system window and to prevent thermal deformation from occurring. The present invention relates to a curtain wall system window having an overheat prevention function that can be easily discharged by a door, and a method of constructing the same.

Generally, a window is a concept referred to as a window and a door of a structure, and general windows and system windows have been developed and are being used. System windows are mainly used for commercial high-rise buildings, residential building apartments, Technologies are being developed that meet requirements such as airtightness, watertightness, sound insulation, insulation, and wind resistance.

In the case of a curtain wall, the structure performance and the appearance of the building can be implemented in a relatively wide variety, and the curtain wall is actively utilized for doubling the esthetics.

The curtain wall is divided into a unit wall type and a stick wall type according to the assembly and construction method and the former is a method in which the curtain wall angular members are assembled in the factory in advance and installed on the field, And the latter is a method of assembling each constituent member of a curtain wall one by one in the field, and it is advantageous in that a construction error can be reduced in the field construction.

A window according to the prior art described in Japanese Patent Application Publication No. 10-0823663 (entitled " A transparent finishing curtain wall structure provided with a sliding window ") is characterized in that a vertical auxiliary member And an outer sliding window is provided on the rear side of the auxiliary vertical member so that the vertical member, the horizontal member and the auxiliary vertical member forming the boundary of the exterior member from the outside are kept at a constant interval and the auxiliary vertical The width of the member is formed to be equal to the width of the vertical member, and the outer surface of the vertical member, the horizontal member, and the auxiliary vertical member are formed in a straight line.

The construction method used in construction of window frames in general apartments is to install general window frames such as system windows and to install separate curtain wall frames above, below, or next to installed window frames, And a sealing process is performed by caulking between the curtain wall structures.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-1524973 (published on Jun. 02, 2015, entitled "Curtain Wall Structure of Aluminum-PVC Integrated Double Window").

Since the curtain wall window according to the related art is not provided with a separate technical structure in which the air filled in the hollow layer of the non-transmitting portion which does not transmit light is discharged to the outside, when the light is irradiated to the non- The internal temperature can be raised to 70 to 80 ° C. and since it is difficult to transfer the heat of the room to the hollow layer of the non-permeable part during the winter season, it can be cooled to about -15 ° C., And a contraction may be generated, thermal deformation may occur in the back panel constituting the heat insulating material, and the heat insulating performance of the curtain wall system window may be deteriorated.

Therefore, there is a need for improvement.

The present invention relates to a curtain wall system for preventing overheating of a hollow interior of a non-penetrating portion where light is not transmitted through a window of a curtain wall system, thereby preventing the glass member from being heated, and, by thermal expansion and contraction of the components of the curtain wall system window, A curtain wall system window and a method of constructing the curtain wall system can be provided which can prevent the occurrence of a gap or heat deformation of the curtain wall, and that the super heated air formed in the hollow layer can be easily discharged by a convection action It has its purpose.

According to the present invention, there is provided a building comprising: a first supporting member provided in an opening of a building in one direction and having a hollow portion; A second support member disposed in a direction away from the first support member and connected to the first support member and having a hollow portion; A closing member installed at a hole portion defined by the first supporting member and the second supporting member and closing an opening of the building; A window that is openably and closably provided in a hole portion defined by the first support member and the second support member, the window being provided with the closure member; The first support member and the second support member being provided at a hole portion defined by the first support member and the second support member and interrupting heat exchange between the inner side and the outer side of the first support member and the second support member, A heat insulating portion for partitioning the opening into a transparent portion and a non-transparent portion; And an air outlet for moving the air in the hollow layer to the permeable portion when the temperature of the air inside the hollow layer of the non-permeable portion formed by the gap between the heat insulating portion and the closing member is raised by light irradiated from outside the building And the like.

Further, the heat insulating portion of the present invention comprises: a heat insulating panel installed on a lower portion of the first supporting member so as to face the fan coil provided below the opening of the building; And a shielding panel installed at a hole portion which is defined by the first support member and the second support member so as to surround the outer wall and the inner wall of the heat insulating panel.

In addition, the air discharge portion of the present invention may further include a first support member, which is an inner wall of the hollow layer so as to be lifted along the first support member by natural convection when the air in the hollow layer is heated by light emitted from the outside, An air vent hole formed in the member; And a discharge hole portion formed on the first support member extending to the permeable portion and discharging the air in the hollow layer to the inner space of the permeable portion.

In addition, the air discharge portion of the present invention may further include a first support member, which is an inner wall of the hollow layer so as to be lifted along the first support member by natural convection when the air in the hollow layer is heated by light emitted from the outside, An air vent hole formed in the member; And an exhaust hole portion formed in the second support member communicating with the first support member and discharging the air inside the hollow layer to the inner space of the permeable portion.

In addition, the air discharge portion of the present invention may further include a first support member, which is an inner wall of the hollow layer so as to be lifted along the first support member by natural convection when the air in the hollow layer is heated by light emitted from the outside, An air vent hole formed in the member; A discharge hole formed in the upper portion of the first support member extending to the permeable portion and discharging the air in the hollow layer to the inner space of the permeable portion; And an exhaust hole portion formed in the second support member communicating with the first support member and discharging the air inside the hollow layer to the inner space of the permeable portion.

The vent hole portion of the present invention is characterized in that a plurality of the vent holes are formed symmetrically to each other in a pair of first support members arranged to face each other so as to form an inner wall of the hollow layer.

The vent hole portion of the present invention is characterized in that a plurality of the vent hole portions are formed in a pair of first support members facing each other so as to form an inner wall of the hollow layer so as to be spaced apart from each other.

In addition, the discharge hole portion and the exhaust hole portion of the present invention are formed at a position where the discharge hole portion and the exhaust hole portion are connected to each other at a gap between the first support member or the second support member and the window frame frame, and the air inside the hollow layer is heated A discharge hole is formed in the gasket interposed between the window frame and the first support member or the second support member so as to prevent the room temperature from rising when the air is raised to the outside of the building.

(A) a plurality of first supporting members and second supporting members are spaced apart from each other in an opening of a building, and the hollow portions inside the first supporting member and the second supporting member are connected to each other, ; (b) shaping the vent hole portion so that the heated air flows into the first support member constituting the inner wall of the non-permeable portion hollow layer of the window, so that the air hole portion is raised, and the first support member or the second support member Molding the discharge hole portion or the exhaust hole portion so that the raised air is discharged to the permeated portion; (c) installing a closing member or a window in a hole portion defined by the first supporting member and the second supporting member; And (d) disposing a heat insulating portion in a hole portion partitioned by the first and second support members so as to face the fan coils provided inside the first and second support members .

A curtain wall system window having an overheat preventing function and a method of constructing the same according to the present invention is a curtain wall system window having an overheat preventing function and an air construction method for the air which is heated to a predetermined temperature or more in a hollow layer of non- When the air inside the hollow portion of the non-permeable portion is heated to a certain temperature or higher by the light irradiated to the outer wall of the building during the summer season, the air is raised by the natural convection action and is moved to the permeable portion through the air discharge portion, And can be discharged to the outside of the building through a window.

In addition, the curtain wall system window having the overheat-preventing function according to the present invention and the construction method thereof can be applied to the double skin system window from which the air discharged from the hollow layer of the non- Can be discharged to the indoor or outdoor side. In the summer, the outer window of the double skin system window can be opened to discharge the heated air to the outside. In winter, the inner window of the double skin system window is opened and heated There is an advantage that the heating effect can be improved while discharging the air into the room.

1 is a front view showing a curtain wall system window provided with an overheating prevention function according to an embodiment of the present invention.
FIG. 2 is a rear view illustrating a curtain wall system window having an overheat preventing function according to an embodiment of the present invention.
3 is a cross-sectional side view of a curtain wall system window having an overheating prevention function according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a transparent portion of a curtain wall system window having an overheat prevention function according to an embodiment of the present invention.
5 is a plan view of a non-transparent portion of a curtain wall system window having an overheating prevention function according to an embodiment of the present invention.
6 is a front view showing a curtain wall system window having an overheating prevention function according to another embodiment of the present invention.
7 is a rear view illustrating a window of a curtain wall system having an overheating prevention function according to another embodiment of the present invention.
8 is a cross-sectional side view of a curtain wall system window having an overheating prevention function according to another embodiment of the present invention.
FIG. 9 is a cross-sectional view illustrating a transmissive portion of a curtain wall system window having an overheat-preventing function according to another exemplary embodiment of the present invention.
10 is an enlarged view of an air discharging portion and a coupling portion of a curtain wall system window having an overheat preventing function according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a concrete window system having an overheat prevention function according to the present invention and a construction method thereof will be described with reference to the accompanying drawings.

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

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

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

FIG. 1 is a front view of a curtain wall system window having an overheat prevention function according to an exemplary embodiment of the present invention. FIG. 2 is a side view of a curtain wall system window having an overheat prevention function according to an exemplary embodiment of the present invention. FIG. 3 is a side cross-sectional view illustrating a curtain wall system window having an overheat preventing function according to an embodiment of the present invention.

4 is a cross-sectional view illustrating a transmissive portion of a curtain wall system window having an overheat prevention function according to an exemplary embodiment of the present invention. FIG. 5 is a cross- Section of the curtain wall system window.

1 to 5, a curtain wall system window having an overheating prevention function according to an embodiment of the present invention includes a first support member 10 installed in an opening of a building in one direction and having a hollow portion, A second support member 20 disposed in a direction away from the first support member 10 and connected to the first support member 10 and having a hollow portion, A closing member 34 which is provided at a hole portion defined by the supporting member 20 and which finishes the opening of the building and an opening portion which is defined by the first and second supporting members 10 and 20, A window 30 provided with a closing member 34 and a first supporting member 10 provided in a hole portion defined by the first supporting member 10 and the second supporting member 20, The second support member 20 and the second support member 20 to prevent heat exchange between the transparent portion 52 and the non- The temperature of the air inside the hollow layer 58 of the non-permeable portion 54 formed by the interval between the heat insulating portion 56 and the closing member 34 is lower than the temperature of the outside of the building And an air discharge portion 70 for moving the air inside the hollow layer 58 to the permeable portion 52 when it is raised by the irradiated light.

The present embodiment is a curtain wall system window installed so that the closing member 34 constitutes the outer wall of a building and is a curtain wall system window in which the inside of the hollow layer 58 formed between the closing member 34 forming the outer wall of the building and the heat insulating portion 56 There is provided an air discharging portion 70 for discharging the air inside the hollow layer 58 so as to prevent the closure member 34 from being heated by the light irradiated from the outside of the building.

Therefore, when the internal air temperature of the hollow layer 58 is raised by the light irradiated to the outer wall of the building during the summer season, the internal air of the hollow layer 58 is discharged to the outside of the hollow layer 58 by the action of the air discharge portion 70 It is possible to prevent the closure member 34 forming the inner wall of the hollow layer 58 from being deformed or damaged by the high temperature.

In the case of installing a curtain wall system window in which the air discharge portion 70 is not provided, a hole portion is formed in the sealing material applied between the closing member 34 and the supporting member so as to prevent the closing member 34 from being deformed or damaged during the summer However, in the case of forming the hole portion in the sealing material, since the heat insulating effect is deteriorated, the heating efficiency and the cooling efficiency of the building in which the window system of the condensing month is installed are lowered. However, So that the heating efficiency and the cooling efficiency of the building are improved and the deformation or breakage of the closing member 34 due to the action of the air discharging portion 70 can be effectively prevented.

A plurality of first support members 10 are vertically installed in the opening of the building and a plurality of second support members 20 are horizontally installed so as to be connected to the plurality of first support members 10, A plurality of holes are formed between the first supporting member 10 and the second supporting member 20 and a hole formed between the first supporting member 10 and the second supporting member 20 is formed with a finishing A member (34) or a window (30) is installed.

In general, a window 30 is provided in a hole formed between the first supporting member 10 and the second supporting member 20 on the upper part of the opening of the building to enable the room to be ventilated, And a fan coil for performing a heating operation or a cooling operation in the room is installed inside the lower part of the first supporting member 10 and the second supporting member 20. [

A heat insulating portion 56 is provided under the first and second support members 10 and 20 opposite to the fan coils so that warm or cool air generated from the fan coils can flow through the first and second support panels 10 and 20, And is prevented from being transmitted to the closure member 34 and discharged to the outside.

As described above, the first supporting member 10, the second supporting member 20, and the closing member 34 opposed to the fan coil are blocked by the heat insulating portion 56 made of an opaque and heat insulating material, The first supporting member 10 and the second supporting member 20 in which the thermal insulating portion 56 is not provided and only the closing member 34 or the window 30 is provided are formed in the through- (52).

The heat insulating portion 56 of this embodiment includes a heat insulating panel 56a provided below the first supporting member 10 so as to face the fan coil provided below the opening of the building and an outer wall and an inner wall of the heat insulating panel 56a And a shielding panel 56b provided at a hole portion defined by the first support member 10 and the second support member 20 so as to be spaced apart from each other.

Therefore, it is possible to prevent the warm or cool air generated from the fan coil from being transmitted to the closing member 34 by the heat insulating panel 56a, and to prevent the heat or cold air generated from the fan coil from being damaged by the insulating panel 56b made of a metal Since the panel 56a is not directly transferred, it is possible to prevent the heat insulating panel 56a made of synthetic resin from being deformed or damaged.

When the air in the hollow layer 58 is heated by the light emitted from the outside, the air discharging unit 70 according to the present embodiment is arranged so as to be raised along the first supporting member 10 by the natural convection action, A ventilation hole portion 72 formed in the first supporting member 10 forming the inner wall of the hollow portion 58 and a hollow portion 58 formed in the upper portion of the first supporting member 10 extending to the transmitting portion 52, And a discharge hole portion 74 (see Figs. 8 and 10) for discharging the inner air into the inner space of the permeable portion 52. [

The first support member 10 of this embodiment is constructed such that it extends vertically from the non-permeable portion 54 disposed at the lower portion of the building opening to the transmissive portion 52 disposed at the upper portion of the opening of the building, The air that is raised inside the hollow layer 58 flows along the ventilation hole portion 72 to the outside of the first support member 10 along the ventilation hole portion 72. At this time, Is introduced into the hollow portion and is raised along the first support member 10 and discharged to the permeable portion 52 through the discharge hole portion 74 to prevent the internal temperature of the hollow layer 58 from rising above the set temperature.

Therefore, it is possible to prevent the inner air of the hollow layer 58 from being heated by the light irradiated to the outer wall of the building during the summer season, so that the closure member 34 made of the glass panel is not deformed or damaged.

The air discharge portion 70 of the present embodiment is configured such that when the air in the hollow layer 58 is heated by the light irradiated from the outside, the hollow layer 58 is lifted up along the first support member 10 by the natural convection action. A ventilation hole portion 72 formed in a first support member 10 forming an inner wall of the hollow portion 58 and a second support member 20 communicating with the first support member 10, And an exhaust hole portion 76 for exhausting air to the inner space of the permeable portion 52.

The air that has flowed along the first support member 10 flows into the hollow portion of the second support member 20 through the air hole portion 72 in the hollow layer 58 and flows into the first support member 10, And then can be discharged to the transmission portion 52 along the exhaust hole portion 76.

As described above, when the high temperature air discharged from the hollow layer 58 is lifted and moved along the first support member 10 and the second support member 20, The effect of lowering the temperature of the air in contact with the member 10 and the second support member 20 appears.

The air discharge portion 70 of the present embodiment is configured such that when the air in the hollow layer 58 is heated by the light irradiated from the outside, the hollow layer 58 is lifted up along the first support member 10 by the natural convection action. A ventilation hole portion 72 formed in the first supporting member 10 constituting the inner wall of the hollow portion 58 and an upper portion of the first supporting member 10 extending to the transmitting portion 52, And a second support member 20 communicating with the first support member 10 so as to discharge the air inside the hollow layer 58 into the permeable portion 52. [ And an exhaust hole portion 76 for exhausting the exhaust gas to an inner space of the exhaust pipe 52.

As described above, when the discharge hole portion 74 and the exhaust hole portion 76 are provided, the hot air rising along the first support member 10 passes through the permeable portion 52 of the first support member 10 The air is discharged to the permeable portion 52 along the discharge hole portion 74 while being discharged to the permeable portion 52 along the exhaust hole portion 76 while the hot air moves along the second support member 20, The inside air of the layer 58 can be effectively discharged to the permeable portion 52.

A plurality of vent holes 72 are formed symmetrically on a pair of first support members 10 disposed opposite to each other so as to form the inner wall of the hollow layer 58 so that the air inside the hollow layer 58 The air is introduced into the first support member 10 through the plurality of vent holes 72 disposed on both sides when heated, so that the air inside the hollow layer 58 can be effectively discharged.

A plurality of vent holes 72 may be formed on the pair of first support members 10 so as to face each other so as to form the inner wall of the hollow layer 58, The first support member 10 is formed with a vent hole 72 at a lower portion thereof and the first support member 10 forming the other side of the hollow layer 58 is provided with a vent hole portion 72 The inner air located at the upper and lower portions of the hollow layer 58 can be easily moved to the inside of the first supporting member 10 through the plurality of vent holes 72. [

The discharge hole portion 74 and the exhaust hole portion 76 according to the present embodiment are formed by the inner wall of the hole portion formed by the first support member 10 and the second support member 20 and the gap between the window frame 32 As shown in Fig.

The air introduced into the hollow portions of the first and second support members 10 and 20 through the ventilation hole portion 72 is guided to the first support member 10 through the vent hole portion 74 or the vent hole portion 76, And the first support member 10 or the second support member 20 is installed on the window frame 32. The first support member 10 and the second support member 20 (Not shown) formed in the gasket 76a which is in close contact with the gasket 76a.

The first supporting member 10, the second supporting member 20, the discharge hole portion 74, the exhaust hole portion 76, and the exhaust hole portion 76, when the internal air of the hollow layer 58 is heated and raised, And the discharging hole 76a to be discharged to the outside of the curtain wall system window to prevent the room temperature from rising, thereby preventing deformation or breakage of the closing member 34. [

Hereinafter, a construction method of a window system of a condominium month having an overheating prevention function according to an embodiment of the present invention will be described.

A method of constructing a curtain wall system window having an overheat-preventing function according to an embodiment of the present invention includes installing a plurality of first support members (10) and a second support member (20) , A first support member (10) and a hollow portion of the second support member (20) are connected to each other so as to communicate with each other, and a first support member The air hole portion 72 is formed so that the heated air flows into the first support member 10 or the second support member 20 constituting the inner wall of the permeable portion 52, Molding the discharge hole portion 74 or the exhaust hole portion 76 so as to be discharged to the portion 52 of the first supporting member 10 and the closing member 34 in the hole portion defined by the first supporting member 10 and the second supporting member 20. [ (30), and a step of mounting the first and second support members (10, 20) so as to face the fan coils installed inside the first and second support members And installing the heat insulating portion 56 in the hole portion defined by the support member 10 and the second support member 20. [

First, a plurality of first support members 10 are installed in the opening of the building in a vertical direction so as to maintain a predetermined interval, and a plurality of second support members 20 are horizontally arranged to connect the plurality of first support members 10 And a grid-like support member is installed in the opening of the building.

A vent hole portion 72, a vent hole portion 74 or an exhaust hole portion 76 are formed in the first support member 10 and the second support member 20 so that the first support member 10 and the second support member 20 and the first and second support members 10 and 20 in which the ventilation hole portion 72, the discharge hole portion 74 or the exhaust hole portion 76 are not formed, 20, the vent hole portion 72, the vent hole portion 74, or the vent hole portion 76 may be molded.

Thereafter, the closing member 34 or the window 30 is installed in each of the plurality of holes formed by the first supporting member 10 and the second supporting member 20 to close the opening of the building. A second connecting member 38 is inserted into an outer wall of the supporting member 20 and a second connecting member 38 coupled to the groove of the second supporting member 20 is provided with a closing member 34 A cap member 36 for supporting and fixing the rim of the first supporting member 10 and the second supporting member 20 can be provided so that a closing member 34 made of a glass panel can be provided in the hole formed by the first supporting member 10 and the second supporting member 20 do.

Since the second connecting member 38 is made of a heat insulating material for suppressing heat conduction, warm or cool air conducted along the cap member 36 exposed on the outer wall of the building is blocked by the second connecting member 38, It is possible to prevent warm or cool air from being conducted to the room along the second support member 20. [

The windows 30 are installed in the holes of the first and second supporting members 10 and 20 where the closing member 34 is not provided so that the room can be ventilated. Includes a window frame 32 provided in a hole formed by the first and second support members 10 and 20 and a closing member 34 provided on the window frame 32, The window frame 32 includes an outer frame 32a rotatably installed in a hole formed by the first and second support members 10 and 20 and a second frame 32a provided in the groove of the outer frame 32a A first connecting member 32c and an inner frame 32b connected to the first connecting member 32c and supporting the back surface of the closing member 34. [

Therefore, the outside warm air or cool air conducted along the outer frame 32a is blocked by the first connecting member 32c made of a heat insulating material, so that it is possible to prevent the outdoor warm air or cool air from being transmitted to the inner frame 32b It is possible to prevent the heating efficiency and the cooling efficiency of the building from deteriorating.

The step portion 22 is formed on the inner wall of the second support member 20 of the present embodiment so that the backing surface of the window frame 32 can be supported by the backing member 24 because the backing member 24 is provided, Since the panel 24 is made of a synthetic resin material rather than a separate frame made of a metal material and is in close contact with or joined to a connection portion provided on the second support member 20, the gap between the hole portion where the window 30 is installed and the window frame 32 Can be simplified.

The first finishing block 26 is interposed between the cap member 36 supporting the outer wall of the closure member 34 of the present embodiment and the second horizontal member outer wall to prevent the cap member 36 from flowing And the stiffening member 24 can be coupled to the second support member 20 by bolts in combination with the second finishing block 28.

The connection structure of the hole portion in which the window 30 is provided is simplified as described above so that the first and second support members 10 and 20 can be formed so as to form the discharge hole portion 74 or the exhaust hole portion 76. [ The inner wall can be exposed.

After the installation of the first supporting member 10, the second supporting member 20, the closing member 34 and the window 30 is completed, the first supporting member 10 and the second supporting member 20 are formed And a fan coil for performing a heating operation or a cooling operation is provided inside the heat insulating portion 56 so that the non-transparent portion 54 and the transparent portion 52 are separated from each other.

Thereafter, when the inside air of the hollow layer 58 is heated by the light irradiated from the outside of the building, the air is raised by the natural convection phenomenon and flows into the hollow portion of the first supporting member 10 through the ventilation hole portion 72 And is discharged to the permeable portion 52 through the discharge hole portion 74 and the exhaust hole portion 76 so that the closing member 34 constituting the hollow inner wall is deformed or broken.

FIG. 6 is a front view showing a window of a curtain wall system having an overheat-preventing function according to another embodiment of the present invention. FIG. 7 is a side view of a curtain wall system window having an overheat-preventing function according to another embodiment of the present invention. And FIG. 8 is a side cross-sectional view illustrating a curtain wall system window having an overheat preventing function according to another embodiment of the present invention.

9 is a cross-sectional view illustrating a transmissive portion of a curtain wall system window having an overheat-preventing function according to another exemplary embodiment of the present invention. FIG. 10 is a cross- Fig. 2 is an enlarged view of an air discharge portion and a coupling portion of a curtain wall system window. Fig.

6 to 10, a curtain wall system window having an overheat prevention function according to another embodiment of the present invention includes a first supporting member 10, a second supporting member 20, a closing member 34, And a window 30 and an outer wall portion 80a which is composed of a first supporting member 10, a second supporting member 20, a closing member 34 and a window 30, An outer wall 80a and an inner wall 80b are connected to each other so as to maintain an interval between the outer wall 80a and the inner wall 80b, And an awning member 80c provided on the coupling portion 80 to be interposed between the outer wall portion 80a and the inner wall portion 80b.

The present embodiment is characterized in that the outer wall portion 80a and the inner wall portion 80b are connected by a coupling portion 80 so as to maintain a constant gap therebetween and an awning member 80c is provided between the outer wall portion 80a and the inner wall portion 80b. The window 30 of the outer wall portion 80a and the window 30 of the inner wall portion 80b are opened so as to adjust the awning member 80c to perform the ventilation operation of the outdoor air into the room It is possible to prevent the light irradiated on the outer wall of the building from being introduced into the room and to prevent the sheath member 80c from flowing due to the wind blowing from the outside of the building.

The engaging portion 80 of the present embodiment includes a main body portion 82 which is coupled to enclose the first supporting member 10 or the second supporting member 20 of the outer wall portion 80a and includes a heat insulating material, An insertion portion 86 protruding from the first support member 10 or the second support member 20 of the inner wall portion 80b and forming a groove portion; an inner wall portion 80b integrally formed with the main body portion 82; And an extension 84 which is press-fitted into the insertion portion 86 and connects the outer wall portion 80a and the inner wall portion 80b.

The body portion 82 and the extension portion 84 are made of a heat insulating material and are manufactured by one drawing process so that the body portion 82 and the extension portion 84 are integrally formed, It is possible to manufacture the integrally formed body portion 82 by one step, thereby reducing the time and cost of manufacturing and installing the double skin system window.

The extended portion 84 is protruded from the main body toward the inner wall portion 80b and the extended portion 84 is compared with the inserted portion 86 so as to form a gap between the outer wall portion 80a and the inner wall portion 80b. A space is provided between the outer wall portion 80a and the inner wall portion 80b for installing the awning member 80c.

Even when the window 30 of the outer wall portion 80a and the window 30 of the inner wall portion 80b are opened simultaneously to perform the ventilation action, Can be supported without being flowed.

A method for constructing a curtain wall system window having an overheating prevention function according to the present embodiment is characterized in that a plurality of first supporting members 10 and second supporting members 20 are installed to be spaced apart from each other in an opening of a building, (10), which is the inner wall of the hollow layer (58) of the window non-transmissive portion (54), of connecting the support member (10) and the hollow portion in the second support member The air hole portion 72 is formed so that the heated air flows upward and the air raised in the first support member 10 or the second support member 20 forming the inner wall of the permeable portion 52 passes through the permeable portion 52 Molding the exhaust hole portion 74 or the exhaust hole portion 76 so as to be discharged through the first supporting member 10 and the second supporting member 20; And a step of installing an outer wall portion 80a by providing a coupling portion 80 on the outer wall portion 80a and attaching an attachment 80 to the coupling portion 80, And a plurality of first supporting members 10, second supporting members 20, a closing member 34 and a window 30 are installed so as to be connected to the outer wall portion 80a by the engaging portion 80 Thereby constructing the inner wall portion 80b.

In this embodiment, the outer wall portion 80a is constructed in the same manner as the first supporting member 10, the second supporting member 20, the closing member 34, and the window 30 in the embodiment The main body portion 82 is disposed on the first support member 10 and the second support member 20 after the outer wall portion 80a is formed and the extension portion 84 is disposed so as to protrude toward the room side.

Thereafter, a blind is provided in the extended portion 84 and a first support member 10 and a second support member 20, which form an inner wall portion 80b, are provided in the extended portion 84 to form an inner wall portion 80b, And a finishing member 34 or a window 30 is provided on each of the holes formed in the frame of the inner wall portion 80b to complete the construction of the curtain wall double skin system window.

As a result, it is possible to prevent the inside of the hollow layer of the non-penetrating portion from being overheated, thereby preventing the heat of the glass member from being transmitted through the window of the curtain wall system. Further, by the thermal expansion and contraction of the components of the curtain wall system window, There is provided a curtain wall system window and a method of constructing the curtain wall system which can prevent a gap or heat deformation from occurring and that can prevent overheating air formed in the hollow layer from being easily discharged by a convection action .

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

In addition, although the curtain wall system window having the overheat prevention function and the construction method thereof have been described as an example, the curtain wall system window and the method of constructing the curtain wall system according to the present invention And the method of construction thereof may be used.

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

10: first support member 20: second support member
22: stepped portion 24: supporting member
26: first finishing block 28: second finishing block
30: Window 32: Window frame
32a: outer frame 32b: inner frame
32c: first connecting member 34: closing member
36: cap member 38: second connecting member
52: transmissive portion 54: non-transmissive portion
56: heat insulating portion 56a:
56b: shield panel 58: hollow layer
70: air discharge portion 72: ventilation hole portion
74: discharge hole part 80:
80a: outer wall portion 80b: inner wall portion
80c: an awning member 82:
84: extension part 86: insertion part

Claims (9)

A first support member installed in an opening of the building in one direction and having a hollow portion;
A second support member disposed in a direction away from the first support member and connected to the first support member and having a hollow portion;
A closing member installed at a hole portion defined by the first supporting member and the second supporting member and closing an opening of the building;
A window that is openably and closably provided in a hole portion defined by the first support member and the second support member, the window being provided with the closure member;
The first support member and the second support member being provided at a hole portion defined by the first support member and the second support member and interrupting heat exchange between the inner side and the outer side of the first support member and the second support member, A heat insulating portion for partitioning the opening into a transparent portion and a non-transparent portion; And
And an air discharging portion for moving the air in the hollow layer to the transmitting portion when the temperature of air inside the hollow layer of the non-transmitting portion formed by the gap between the heat insulating portion and the closing member is raised by light irradiated from the outside of the building Including,
The window is installed in a hole formed between the first supporting member and the second supporting member to allow the room to be ventilated, and the closing member is installed at a lower portion of the opening of the building, A fan coil for performing a heating operation or a cooling operation in the room is provided inside the support member and the lower portion of the second support member,
Wherein the heat insulating portion is provided on a lower portion of the first support member and the second support member facing the fan coil so that warm or cool air generated from the fan coil is transmitted to the first support panel, And is prevented from being discharged to the outside,
Wherein the first support member, the second support member, and the closing member opposed to the fan coil are opaque portions which are opaque and not shielded by the heat insulating portion formed of the heat insulating material, And the first supporting member and the second supporting member, on which the closing member or the window is installed, form a transmitting portion,
The air-
A ventilation hole portion formed in the first support member forming the inner wall of the hollow layer so as to rise along the first support member by a natural convection when the air in the hollow layer is heated by light irradiated from the outside; And
And a discharge hole portion formed on an upper portion of the first support member extending to the permeable portion and discharging the air in the hollow layer to the inner space of the permeable portion,
The first supporting member is vertically extended from the non-transmitting portion to the transmitting portion and has a hollow portion. Therefore, when the air inside the hollow layer is heated by light, the first supporting member is raised by natural convection, And the air inside the hollow portion flows into the hollow portion of the first support member along the air hole portion and is lifted along the first support member and discharged to the permeate portion through the discharge hole portion, Or more,
Characterized in that the air inside the hollow layer is heated by the light irradiated to the outer wall of the building during the summer season so that the closing member made of the glass panel is prevented from being deformed or broken, Window.
The heat exchanger according to claim 1,
A heat insulation panel installed below the first support member so as to face a fan coil installed at a lower portion of an opening of a building; And
And a shielding panel installed at a hole portion which is defined by the first supporting member and the second supporting member so as to surround the outer wall and the inner wall of the heat insulating panel.
delete The method according to claim 1,
Wherein the air discharge portion further comprises an exhaust hole portion formed in the second support member communicating with the first support member and discharging the air in the hollow layer to the inner space of the permeable portion. A curtain wall system window provided.
delete 5. The method of claim 4,
Wherein a plurality of the ventilation holes are symmetrically formed on a pair of first support members arranged to face each other to form an inner wall of the hollow layer.
5. The method of claim 4,
Wherein a plurality of the ventilation holes are formed in a pair of first support members spaced apart from each other so as to face each other to form an inner wall of the hollow layer.
The method according to claim 6,
Wherein the discharge hole portion and the exhaust hole portion are formed at a position where they are connected to each other at a distance between the first support member or the second support member and the window frame frame,
Wherein the gasket interposed between the window frame frame and the first supporting member or the second supporting member is provided with a discharge hole for discharging air to the outside of the building when the air inside the hollow layer is heated and raised, And a curtain wall system window having an overheat prevention function.
(a) installing a plurality of first support members and a second support member in an opening of a building so as to be spaced apart from each other, and connecting the first support member and the hollow portion inside the second support member so as to be connected to each other;
(b) shaping the vent hole portion so that the heated air flows into the first support member constituting the inner wall of the non-permeable portion hollow layer of the window, so that the air hole portion is raised, and the first support member or the second support member Molding the discharge hole portion or the exhaust hole portion so that the raised air is discharged to the permeated portion;
(c) installing a closing member or a window in a hole portion defined by the first supporting member and the second supporting member; And
(d) installing a heat insulating portion in a hole portion partitioned by the first support member and the second support member so as to face the fan coil installed inside the first support member and the second support member,
The window is installed in a hole formed between the first supporting member and the second supporting member to allow the room to be ventilated, and the closing member is installed at a lower portion of the opening of the building, A fan coil for performing a heating operation or a cooling operation in the room is provided inside the support member and the lower portion of the second support member,
Wherein the heat insulating portion is provided on a lower portion of the first support member and the second support member facing the fan coil so that warm or cool air generated from the fan coil is transmitted to the first support panel, And is prevented from being discharged to the outside,
Wherein the first support member, the second support member, and the closing member opposed to the fan coil are opaque and are blocked by the heat insulating portion made of a heat insulating material, thereby forming the non-penetrating portion where light is not transmitted, And the first supporting member and the second supporting member to which the closing member or the window is installed form the transmitting portion,
The air-
A ventilation hole portion formed in the first support member forming the inner wall of the hollow layer so as to rise along the first support member by a natural convection when the air in the hollow layer is heated by light irradiated from the outside; And
And a discharge hole portion formed on an upper portion of the first support member extending to the permeable portion and discharging the air inside the hollow layer to the inner space of the permeable portion,
The first supporting member is vertically extended from the non-transmitting portion to the transmitting portion and has a hollow portion. Therefore, when the air inside the hollow layer is heated by light, the first supporting member is raised by natural convection, And the air inside the hollow portion flows into the hollow portion of the first support member along the air hole portion and is lifted along the first support member and discharged to the permeate portion through the discharge hole portion, Or more,
Characterized in that the air inside the hollow layer is heated by the light irradiated to the outer wall of the building during the summer season so that the closing member made of the glass panel is prevented from being deformed or broken, Construction method of window.

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