KR101578860B1 - Outer Wall Window System and Connecting Installation Method Thereof - Google Patents

Abstract

According to one aspect of the present invention, there is provided an outer wall window system comprising: an outer wall body formed of concrete on an outer wall surface of a building and having an opening; a heat insulating material installed on an outer surface of the outer wall body to increase heat insulating property; And a window portion which is brought into contact with the outer wall body and the closing member of the heat insulating member and which is coupled to the outer side of the outer wall body to enhance the dew condensation and heat insulating performance.

Description

{Outer Wall Window System and Connecting Installation Method Thereof}

The present invention relates to an outer-wall window system and an installation method thereof, and more particularly, to an outer-wall window system and a method of installing the same in an outer wall body and an outer wall body.

Generally, residential buildings such as apartment buildings, office buildings, and single-family homes, office buildings, and the like are provided with windows for ventilation and mining.

In recent years, construction of a building that minimizes energy consumption is promoted by increasing the efficiency of heating and cooling by improving the heat insulating performance. Accordingly, a heat insulating material is installed on the wall to increase the heat insulating effect.

Insulation methods of buildings include internal insulation, interrupted heat, and external insulation. Insulating insulation causes heat bridges due to insulation insulation. In recent years, in accordance with the low-carbon green growth trend of the country, In order to improve the energy efficiency of buildings, it is necessary to install insulation material on the outer surface of concrete wall after foundation work.

In the method of installing the insulation on the building, the window is installed in a set size so that the window penetrates through the wall of the building. The window is provided with a window capable of opening and closing the window, And a frame to be installed. In this case, the outer heat insulating material is installed only on the outer surface of the concrete wall except for the window, so that the concrete wall secures the heat insulating performance even when the indoor and outdoor temperature deviation of the building is large.

Here, the frame supporting the window is fixed and installed with respect to the wall as the frame is stuck and fixed to the wall made of concrete by a coupling means such as a concrete nail.

However, most of the frame of a window is formed of a metal material such as aluminum, and the aluminum material frame has a very high thermal conductivity, which adversely affects the heat insulation performance of the interior of the building.

For example, when indoor heating is performed in the winter season, the outdoor temperature is low and the indoor temperature is relatively high. As a result, the frame of the window frame absorbs the temperature of the cold outside air as it is by the high heat conductivity and transmits it to the concrete wall The air in the room is influenced by the cold outside air. On the contrary, the warm air in the room is directly transferred to the frame of the window with high thermal conductivity through the concrete wall and discharged to the outside, thereby deteriorating the heat insulation performance of the room.

In addition, when indoor cooling is performed during the summer season, the outdoor temperature is high and the room temperature is relatively low. As a result, the frame of the window frame absorbs the temperature of the outdoor outside air as it is due to the high thermal conductivity and transfers it to the concrete wall The air in the room is influenced by the warm outside air. On the other hand, the cold air in the room is directly transferred to the frame of the window with high thermal conductivity through the concrete wall and is discharged to the outside, .

It is an object of the present invention to provide an outer wall window system and a method of installing the outer wall window system that can prevent a thermal bridge phenomenon occurring through a window frame.

It is still another object of the present invention to provide an outer-wall window system and a method of installing the outer-wall window system which can prevent a window provided outside the outer wall body from being detached.

According to an aspect of the present invention, there is provided an outer wall window system comprising: an outer wall body formed of concrete on an outer wall surface of a building and having an opening; a heat insulating material installed on an outer surface of the outer wall body to increase heat insulation; And a window portion that is in contact with the outer wall body and the closing member of the heat insulating material and is coupled to the outer side of the outer wall body to improve the dew condensation and heat insulating performance, have.

The heat insulating material is bonded to the outer wall and has a first outer heat insulating material for improving the heat insulating performance, a partition plate partitioned by the opening portion in the outer thermal insulating material, and a partition wall provided on the other surface of the partition plate, 2 external insulation.

The closing member may be installed to cover the opening of the outer wall and the upper portion of the heat insulating material, and may be formed of an inorganic thermal insulating material to prevent fire spread.

The window unit includes a frame coupled to the outside of the outer wall body by an airtight tape, a load support base provided at a lower portion of the frame and supporting the frame to be lowered by a load of the frame, Or the like.

The load supporting bracket includes a contact portion contacting the lower portion of the frame, a coupling portion extending downward from an end of the contact portion to be coupled to the outer wall body, and a side surface coupled to the contact portion and the coupling portion, As shown in Fig.

The fixed metal member includes a coupling surface on which the frame is coupled to the lower portion, a first extended surface extending perpendicularly to the coupling surface, and a second extended surface extending from the first extended surface in the other direction to the coupling surface, 2 extending surface.

The fixed hardware may extend outward from one side of the frame and may be coupled to the outer wall body with at least one of an anchor bolt, a screw, and a nail.

The frame may be fixed to the outer wall body by interference with projections protruding from the outer surface of the closing member covering the opening of the outer wall body.

According to another aspect of the present invention, there is provided a method of installing an outer wall window system, the method comprising: (a) forming an outer wall body having an opening by pouring concrete; (b) installing a closure member on the inner surface of the opening and closing the closure member; (c) installing a load support on a lower outer side of the opening; (d) installing a window frame over the load support; (e) fixing the side wall of the frame to the outer wall body using a fixing hardware; (f) installing a heat insulating material on the outer side of the outer wall body; .

The heat insulating material is bonded to the outer wall and has a first outer heat insulating material for improving the heat insulating performance, a partition plate partitioned by the opening portion in the outer thermal insulating material, and a partition wall provided on the other surface of the partition plate, 2 external insulation.

The closing member may be installed to cover the opening of the outer wall and the upper portion of the heat insulating material, and may be formed of an inorganic thermal insulating material to prevent fire spread.

The window unit includes a frame coupled to the outside of the outer wall body by an airtight tape, a load support base provided at a lower portion of the frame and supporting the frame to be lowered by a load of the frame, Or the like.

The load supporting bracket includes a contact portion contacting the lower portion of the frame, a coupling portion extending downward from an end of the contact portion to be coupled to the outer wall body, and a side surface coupled to the contact portion and the coupling portion, As shown in Fig.

Wherein the fixed hardware includes a coupling surface for receiving the frame at an upper portion thereof, a first extending surface vertically extending from the coupling surface, and a second extending surface extending from the first extending surface in the other direction to the coupling surface, 2 extending surface.

According to the outer wall window system and the installation method thereof according to the present invention, since the window portion is provided outside the opening and is provided between the heat insulating materials provided outside the outer wall body, the thermal bridging phenomenon can be prevented.

In addition, a load supporting frame is provided under the frame so as to prevent the window from being detached from the outer wall body, and a plurality of fixed fittings can be fixed to the frame side to fix the frame.

1 is a perspective view illustrating an outer wall window system according to an embodiment of the present invention;
2 is a sectional view showing an outer wall window system according to an embodiment of the present invention;
3 is a front view showing a window portion according to an embodiment of the present invention;
4 is a cross-sectional view showing a state where a frame according to an embodiment of the present invention is coupled to an outer wall body.
FIG. 5 is a perspective view of a stationary iron according to an embodiment of the present invention; FIG.
6 is a flowchart showing a method of installing an outer wall window system according to another embodiment of the present invention.
FIG. 7 is an exemplary view showing an installation method of the outer wall window system shown in FIG. 6. FIG.

Hereinafter, an outer wall window system and an installation method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of an outer wall window system according to an embodiment of the present invention, and FIG. 2 is a sectional view of an outer wall window system according to an embodiment of the present invention.

As shown in FIGS. 1 and 2, the outer wall window system according to an embodiment of the present invention includes an outer wall body 100 formed of concrete on an outer wall surface of a building and having an opening 10, A thermal insulation material 200 installed on an outer surface of the outer wall 100 to increase heat insulation property; a finishing member 300 having a predetermined thickness to be finished on the outer wall 100 and the heat insulating material 200; And a window portion 400 which is in contact with the closure member 300 of the outer wall body 100 and is coupled to the outer side of the outer wall body 100 to enhance condensation and heat insulation performance.

The outer wall window system includes a frame 410 having a heat insulating material 200 on the outside of the outer wall body 100 and a window 410 between the outer wall body 100 and the heat insulating material 200 to prevent heat bridging have. Since the window 400 is provided outside the outer wall 100, condensation due to the opening 10 can be prevented and the heat insulating material 200 is provided on the outer side of the window 400, have.

The outer wall body 100 may be an outer wall surface of a building, and may be formed by forming concrete to have an opening 10 and pouring concrete into the concrete molding.

The heat insulating material 200 includes a first external heat insulating material 210 coupled to the outer wall body 100 to improve the heat insulating performance and a partition plate 220 partitioned by the external heat insulating material 200 toward the opening 10, And a second external thermal insulator 230 provided on the other surface of the partition plate 220 to receive a part of the window 400.

The heat insulating material 200 may be provided on the outer side of the outer wall body 100 to increase the heat insulating effect and enhance the prevention of condensation. The heat insulating material 200 may be formed of a fiber system and a foam system, and the first external thermal insulator 210 and the second external thermal insulator 230 may be used differently.

The first external thermal insulator 210 may be coupled to the front surface of the outer wall body 100 and may include a second external thermal insulator 230 separated from the first external thermal insulator 210 by a partition plate 220 .

The second external thermal insulator 230 may be formed around the opening 10 and may be formed of a material different from that of the first external thermal insulator 210.

The partition plate 220 may be provided between the first external thermal insulator 210 and the second external thermal insulator 230 and may be provided between the second external thermal insulators 230 to prevent the condensation of the window part 400 The second external heat insulating material 230 may be filled between the partition plates 220 to block the external heat insulating material 230.

The closing member 300 may be formed on the surface of the opening 10 so as to compensate the roughness of the surface of the opening 10 when the opening 10 is laid and to prevent a heat bridge phenomenon occurring through the window 400 Can be covered. The closing member 300 may be formed of an inorganic insulating material 200 to prevent fire spreading and the covering member 300 may be covered with the opening 10 of the heat insulating material 200.

The closing member 300 covering the upper portion of the heat insulating material 200 provided below the opening 10 may be inclined outward so that the rain may be released to the outside when it comes to the window 400 have.

The window unit 400 includes a frame 410 coupled to the outer side of the outer wall body 100 and a frame 410 provided below the frame 410. The frame 410 is moved downward And a fastening hardware 430 for fixing the frame 410 to the outer wall body 100. The load supporting member 420 supports the frame 410,

The frame 410 may be coupled to the outside of the opening 10 and may be opened to allow a window to be installed. The lower part of the frame 410 may be provided with an induction plate 424 for guiding the rain to the outside so that the rain does not penetrate into the inside.

FIG. 3 is a front view showing a window portion according to an embodiment of the present invention, FIG. 5 is a sectional view showing a state where a frame according to an embodiment of the present invention is coupled to an outer wall body, FIG. And FIG.

3 to 5, the window 400 according to an embodiment of the present invention includes a frame 410 coupled to the outer side of the outer wall body 100 by the airtight tape 411, A load supporting member 420 provided at a lower portion of the frame 410 to support the frame 410 to be lowered by the load of the frame 410 and a fixing member 420 for fixing the frame 410 to the outer wall body 100, A metal piece 430 may be provided.

The frame 410 may be opened to the same size as the opening 10 at the center and the frame 410 may be primarily coupled to the outside of the opening 10 using the airtight tape 411. The airtight tape 411 may be a double-sided tape, and may be attached to the inside of the frame 410 in the form of an opening 10 to enhance airtightness.

The frame 410 may be coupled to an outer side of the closing member 300 that is covered on the surface of the opening 10 and the closing member 300 is fixed to the surface of the opening 10, Can be prevented from being detached together with the closure member (300).

As shown in FIG. 4, the frame 410 is forced into the protrusion 310 protruding from the outer surface of the closing member 300, which covers the opening 10 of the outer wall body 100, And may be fixed to the outer wall body 100. The frame 410 may include an insertion hole 440 into which the protrusion 310 can be inserted and a plurality of protrusions 310 are coupled to the insertion hole 440, It is possible to prevent the outer wall member 100 from being damaged.

Although not shown in the drawing, the frame 410 may be separately provided with an insertion portion to which the frame 410 can be forcedly inserted into the outer wall body 100. The insertion part may be fixed to the frame 410 by having a separate insertion protrusion that can be inserted into the insertion part in the frame 410 by coupling the outer wall body 100 before curing the outer wall body 100.

In order to enhance the integrity of the lower frame 410 and the heat insulating material 200, a fixing body 450 may be provided on the entire surface of the lower frame 410 so as to pass through the heat insulating material 200. The fixing member 450 is fixed through the heat insulating material 200 when the heat insulating material 200 is coupled to the frame 410 so that the frame 410 is not separated from the outside.

The insertion portion may be provided on a side surface of the outer wall body 100 or may be provided at an edge of the outer wall body 100 to allow the frame 410 to be coupled.

The load supporting member 420 includes a contact portion 421 contacting the lower portion of the frame 410, a coupling portion 422 extending downward from the end of the contact portion 421 and coupled to the outer wall body 100, And a support portion 423 coupled to one side of the contact portion 421 and the coupling portion 422 to support the load of the frame 410.

3, the contact portion 421 extends upwardly and outwardly from the frame 410 so as to receive the lower portion of the frame 410, 420, respectively.

The engaging portion 422 may extend downward from the rear surface of the contact portion 421 and may be coupled to the outer wall body 100. The engaging portion 422 may include a through hole through which at least one of the anchor bolt, the screw, and the nail can be inserted to be fixed to the outer wall body 100.

The support portion 423 is connected to the contact portion 421 and the engagement portion 422 to prevent the contact portion 421 from being damaged by the load of the frame 410. [ The supporting portion 423 may be formed in a plane shape connected to the center of the engaging portion 422 in the shape of an oblique line from the lower center of the contact portion 421.

5, the fixed piece 430 includes a coupling surface 431 to which the frame 410 is coupled at a lower portion thereof, a first extending surface 432 extending vertically from the coupling surface 431, And a second extended surface 433 extending from the first extended surface 432 in the other direction to the coupling surface 431 and coupled to the outer wall body 100.

The fixing hardware 430 may extend outward from one side of the frame 410 and may be coupled to the outer wall body 100 with at least one of anchor bolts, screws and nails, A screw, a bolt, and the like, and may be integrated with the frame 410.

In addition, as shown in FIG. 4 (b), the fixed hardware 430 may be integrally provided on one side of the frame 410. Referring to FIG. The fixed metal piece 430 may protrude from the lower end of the side of the frame 410 and may be fixed to the outer wall body 100 to fix the frame 410 to the outer wall body 100.

Hereinafter, an installation method of an outer wall window system according to another embodiment of the present invention will be described with reference to the same reference numerals as those of the outer wall window system according to the above-described embodiment, and a detailed description thereof will be omitted.

FIG. 6 is a flowchart illustrating an installation method of an outer wall window system according to another embodiment of the present invention, and FIG. 7 is an exemplary view illustrating an installation method of the outer wall window system shown in FIG.

In step S1100, a mold may be formed to have the opening 10 in the outer wall body 100, and the outer wall body 100 may be formed by pouring concrete into the mold.

In step S1200, the finishing member 300 may be installed on the surface of the opening 10 of the outer wall body 100 formed by curing concrete in step S1100. The closing member 300 may be formed on the surface of the opening 10 so as to compensate the roughness of the surface of the opening 10 when the opening 10 is laid and to prevent a heat bridge phenomenon occurring through the window 400 Can be covered. The closure member 300 may be formed of an inorganic insulating material 200 to prevent fire spread.

In step S1300, the load supporting member 420 may be installed on the outer lower part of the outer wall body 100 such that the frame 410 is not separated downward. The load supporting member 420 includes a contact portion 421 contacting the lower portion of the frame 410, a coupling portion 422 extending downward from the end of the contact portion 421 and coupled to the outer wall body 100, And a support portion 423 coupled to one side of the contact portion 421 and the coupling portion 422 to support the load of the frame 410.

In step S1400, the frame 410 may be installed on the upper part of the load support 420 installed in step S1300. When the frame 410 is fixed to the outer wall body 100, the frame 410 may be firstly coupled with the airtight tape 411 The frame 410 may be coupled to an outer side of the closing member 300 which is covered with the surface of the opening 10 and the closing member 300 is fixed to the surface of the opening 10, Can be prevented from being detached together with the closure member 300.

The outer wall member 100 may be fixed to the outer wall member 100 by being pressed against the protrusion 310 protruding from the outer surface of the closure member 300 covering the opening 10 of the outer wall member 100. The frame 410 may include an insertion hole 440 into which the protrusion 310 can be inserted and a plurality of protrusions 310 are coupled to the insertion hole 440, It is possible to prevent the outer wall member 100 from being damaged.

In step S1500, the fixing hardware 430 may be used to fix the frame 410 installed on the outer wall body 100 to the outer wall body 100 in step S1400. The fixed metal piece 430 includes a coupling surface 431 to which the frame 410 is coupled at a lower portion thereof, a first extension surface 432 extending vertically from the coupling surface 431, And a second extended surface 433 extending in the other direction from the coupling surface 431 and coupled to the outer wall body 100 in the first and second coupling portions 432 and 432.

The fixed metal piece 430 may extend outward from one side of the frame 410 and may be coupled to the outer wall body 100 with at least one of an anchor bolt, a screw, and a nail. In another embodiment of the fixed metal piece 430, And a plurality of frames may be integrally formed on one side of the frame 410.

In step S1600, the heat insulating material 200 may be installed on the outer side of the outer wall body 100 so as to surround the frame 410 fixed to the outer side of the outer wall body 100. [

The heat insulating material 200 includes a first external heat insulating material 210 coupled to the outer wall body 100 to improve the heat insulating performance and a partition plate 220 partitioned by the external heat insulating material 200 toward the opening 10, And a second external thermal insulator 230 provided on the other surface of the partition plate 220 to receive a part of the window 400.

The heat insulating material 200 may be provided on the outer side of the outer wall body 100 to increase the heat insulating effect and enhance the prevention of condensation. The heat insulating material 200 may be formed of a fiber system and a foam system, and the first external thermal insulator 210 and the second external thermal insulator 230 may be used differently.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, I would say.

100: outer wall member 200:
300: closing member 400: window portion
410: frame 420: load support
430: Fixed hardware 440: Insertion hole
450: Fixed body

Claims (14)

An outer wall body formed of concrete on an outer wall surface of the building and having an opening,
A heat insulating material provided on an outer surface of the outer wall body to increase the heat insulating property,
A finishing member having a predetermined thickness finishing the surface of the outer wall member and the heat insulating material,
And a window portion which is brought into contact with the outer wall body and the closing member of the heat insulating material and is coupled to the outer side of the outer wall body to improve condensation and heat insulation performance,
Wherein the window portion includes a frame coupled to the outside of the outer wall body by an airtight tape,
A load supporting member provided at a lower portion of the frame and supporting a lower portion of the frame due to a load of the frame,
And a fixing hardware for fixing the frame to the outer wall body.
The method according to claim 1,
Wherein the heat insulating material is bonded to the outer wall body and includes a first external heat insulating material for improving heat insulating performance,
A partition plate which is partitioned from the external heat insulating material to the opening portion side,
And a second external thermal insulator provided on the other surface of the partition plate to receive a part of the window portion.
3. The method of claim 2,
Wherein the closing member can be installed so as to cover the opening of the outer wall body and the upper portion of the heat insulating material and is formed of an inorganic heat insulating material to prevent fire spreading.
delete The method according to claim 1,
Wherein the load supporting member includes a contact portion contacting the lower portion of the frame,
A coupling portion extending downward from an end of the contact portion and coupled to the outer wall body,
And a support portion for supporting a load of the frame, the supporting portion being coupled to the contact portion and the coupling portion, respectively.
The method according to claim 1,
The fixed metal member has a coupling surface on which the frame is coupled to the lower portion,
A first extended surface extending vertically from the mating surface,
And a second extended surface extending from the first extended surface in a direction different from the mating surface and coupled to the outer wall body.
The method according to claim 1,
Wherein the fixed hardware extends outward from one side of the frame and is coupled to the outer wall body by at least one of an anchor bolt, a screw, and a nail.
The method of claim 3,
Wherein the frame is fixed to the outer wall body by interference with a protruding portion protruding from an outer surface of the closing member covering the opening of the outer wall body.
(a) forming an outer wall body having an opening by pouring concrete;
(b) installing a closure member on the inner surface of the opening and closing the closure member;
(c) installing a load support on a lower outer side of the opening;
(d) installing a window frame over the load support;
(e) fixing the side wall of the frame to the outer wall body using a fixing hardware;
(f) installing a heat insulating material on the outer side of the outer wall body;
Wherein the installation of the outer wall window system comprises the steps of:
10. The method of claim 9,
Wherein the heat insulating material is bonded to the outer wall body and includes a first external heat insulating material for improving heat insulating performance,
A partition plate which is partitioned from the external heat insulating material to the opening portion side,
And a second external thermal insulator provided on the other surface of the partition plate to receive a portion of the window portion.
11. The method of claim 10,
Wherein the closing member can be installed so as to cover an opening of the outer wall body and an upper portion of the heat insulating material, and is formed of an inorganic heat insulating material to prevent fire spreading.
10. The method of claim 9,
Wherein the window portion includes a frame coupled to the outside of the outer wall body by an airtight tape,
A load supporting member provided at a lower portion of the frame and supporting a lower portion of the frame due to a load of the frame,
And fixing the frame to the outer wall body.
13. The method of claim 12,
Wherein the load supporting member includes a contact portion contacting the lower portion of the frame,
A coupling portion extending downward from an end of the contact portion and coupled to the outer wall body,
And a support portion for supporting a load of the frame, the supporting portion being coupled to the contact portion and the coupling portion, respectively.
13. The method of claim 12,
Wherein the fixed hardware includes a coupling surface for receiving the frame at an upper portion thereof,
A first extended surface extending vertically from the mating surface,
And a second extension surface extending from the first extension surface in a direction different from the coupling surface and coupled to the outer wall body.

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