KR101685608B1 - Improved heterogeneous material Bar is exposed to the exterior of a building curtain wall system - Google Patents

Abstract

The present invention relates to a curtain wall system and, specifically, to a curtain wall system with improved bar formed of different materials and exposed to an exterior of a building. The curtain wall system highlights a building elevation property of an insulation glass wall using a frame in which an exposure side on an outer side of a window sill frame is removed and a window of a hidden bar type curtain wall system. The curtain wall system can improve insulation performance by blocking thermal bridge between indoor and outdoor spaces by removing the window sill frame and the window, formed of the different materials, exposed except a glass surface. The curtain wall system enables a worker to be rapidly skilled by having a simple construction structure and can be constructed at high quality. The curtain wall system can reduce construction periods. The hidden bar type curtain wall system is formed as an opening and closing window comprising a window sill and a window frame is connected to a part of an opening unit. The hidden bar type curtain wall system comprises: the window sill frame (40) which is formed of an aluminum extruded material and is assembled on the inner circumference of the opening unit in which the opening and closing window is installed, as a grid frame; the window frame (50) which is formed of the aluminum extruded material and is assembled as the grid frame to be inserted into the window sill frame; and a structure member, wherein a tip-shaped protrusion piece protruding to the outer side is removed from vertical and horizontal structure members on four sides around the opening unit in which the opening and closing window is installed. The insulation glass fixed to the four sides around the opening unit in which the opening and closing window is installed is formed as a separation space between the insulation glass fixed by comprising the insulation glass wall extended to the opening and closing window and the insulation window of the window frame open and closed is minimized so that a thermal bridge path is blocked.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curtain wall system that improves the bar of a heterogeneous material exposed to the exterior of a building.

The present invention relates to a curtain wall system, and more particularly, to a curtain wall system that includes a mullion (hereinafter referred to as a vertical structural member), which is a structural member installed vertically between a floor and a floor to receive a wind load or the like applied to the curtain wall, (Hereinafter referred to as "horizontal structural member") which is a sub structural member for horizontally installing and connecting between the vertical structural member and the horizontal structural member, In a curtain wall constructed by interposing an exterior wall material such as a glass, the inner and outer frames constituting the window and the window frame are not exposed from the exterior of the building, thereby enhancing the aesthetic appearance and enabling the construction of a window useful for opening feeling and ventilation. The present invention relates to a curtain wall system that improves the bar of a heterogeneous material exposed to the exterior.

Generally, in a structure that supports horizontal loads due to vertical load, wind, earthquake, etc. due to the structure of pillars and beams, which are the main structure of the building, the walls are merely curtains that partition the spaces. Also known as non-proof bulkhead.

Such a curtain wall is used to block rain or wind from the outside, to block noise or heat, to prevent the column and the beam from being exposed to the outside, and the wall using glass or the like has a great function as a modern architecture, particularly for exterior use.

The curtain wall system according to the construction specifications can be classified into a unit system and a stick system by division.

The unit system is a panel system that assembles and assembles each component into a factory panel and installs a glass panel so that it can be finished at the factory and the quality can be improved. In the construction of a high-rise or high-rise building which is simplified and has excellent ability to cope with the vertical inter-story displacement, it is difficult to assemble the exterior scaffold.

This is a disadvantage in that it is difficult to demonstrate flexibility in the field and requires a preparatory period of at least three months because it is a factory prefab structure in which components are assembled in a batch ordering method of frame, glass, and panel.

Stick System is a method of assembling each component in the field one by one. It is widely used in middle and low-rise buildings. It is also called knock down system as most of curtain wall construction method. It is known that it is advantageous to start the construction quickly because it is possible to adjust the air because it is excellent in field adaptability, and the preparation period is short, by assembling and connecting the components in the field by the separate ordering method.

On the other hand, the curtain wall has a so-called hidden bar type in which a glass wall is observed only from the outer wall surface according to the specific structure of the vertical and horizontal structural members and the bar is concealed by the structural member, And a cap bar having a cap for closing the binding portion along a partition line of the cap bar.

The hidden bar type is mainly used to cover the outer wall surface of the building with the heat insulating glass material. When emphasizing the lattice type line, the cap bar type structure member is adopted. In some cases, the hidden bar and cap bar may be vertically or horizontally Or a mixture of two or more of them.

The present invention addresses and overcomes the problems associated with the construction of windows that provide ventilation and openness, primarily in the hiden-bar type construction of curtain walls.

Accordingly, all the following descriptions are based on a tilt & turn (hereinafter, simply referred to as a TT window) type window in a curtain wall which is made of a hidden bar type and which is installed close to each other while forming a wall of a heat insulating glass on an outer wall of a building And the curtain wall system forming the curtain wall system is to be subjected to emphasis improvement.

In order to isolate the inside and outside spaces in the construction and to vent the polluted air in the inside airtight space, windows that can be opened and closed are installed.

The installation structure of the windows is widely known.

If you look at the project window separately,

Casement window - open to push out and open side,

Pull-down window - pulled inside and open top,

Turn-type window - Open to the inside and open side,

TT window - A window with an open top and / or side open to pull inside.

The project window and the casement window are pushed outward and can be applied to the curtain wall of the hiden bar type.

However, pull-down / turn / TT types that pull into the inside are required to overlay the window frame frame and window frame so that excessive frame exposure is seen when the exterior surface of the building is viewed, As exposed to this outside air, the area where the heat conduction takes place becomes large, which causes a great problem in heat insulation.

As a result, the window structure that can be adopted when the wall of the insulating glass is applied to the whole elevation by conventional hidden bar type is the project window and the case window, but the case window is like the casement window and is vulnerable to the wind load when it is opened to the outside, Or a glass breakage problem occurs and the material such as aluminum which is exposed is exposed to the outside of the bar related frame of the heterogeneous material having a thermal conductivity different from that of the glass.

The remaining window that can be adopted is just a project window.

There is a problem that the ventilation efficiency is not high and there is a problem that the opening feeling is significantly lowered when it is pushed out to the outside, It is difficult.

Therefore, it is inevitably applied to pull down / turn / TT type so as to increase the open feeling. However, as described above, there is a problem in that the cross section of various frames related to the window is exposed to the outside air.

This problem of lowering the facial aesthetics is more problematic in the curtain wall of the hiden bar type than the cap bar curtain wall.

Sectional view of a window portion of a curtain wall constructed by a conventional bar type according to the prior art shown in FIG.

The vertical and horizontal structural member 1 constituting the curtain wall is formed by integrally (or assembling) the projecting pieces 110 for receiving the glass load, ), And the end portions of the heat insulating glass 3 are placed close to each other by covering the heat insulating covers. The structural sealant 6 is injected into the surface clearance between the heat insulating glass through the backing 5 between the heat insulating glass and the projecting pieces It is composed of construction to construct.

The window is composed of a window frame frame 200 which forms a window frame 100 in a lattice, attaches hardware used for opening and closing a window, and surrounds the outside of the window frame and inserts and fixes the window frame 100 in a section of the structural member 1 .

The window frame 100 and the window frame frame 200 are made of aluminum extruded material having high heat conductivity and are made by applying azon heat insulation material 101 as a thermal breaker.

The outside surface exposed area D1 of the window frame frame 200 is configured to support an outside side surface of a window to be opened and closed. The exposed surface area D1 is a structural sealant line The window frame is exposed to a large width similar to the shape of the frame, and the aesthetics is markedly deteriorated.

In addition, the exposed area D1 is a main cause of the outside air conduction, which is a problem of adiabatic heat.

Although the window frame frame 200 is formed with the heat insulating material 101 therebetween, there is a problem that the heat transfer performance is deteriorated due to the heat bridging between the inside and outside of the room while radiation and convection diffusion are diffused in the space g.

2, the heat insulating glass 3 as a fixed wall and the heat insulating glass window 3a as a window are formed on the hidden bar type curtain wall structural member 1. The window frame 100, And forms a window that is opened and closed by the window frame frame 200.

1, the heat-insulating performance is improved by various heat insulating materials at various positions, but the exposed areas D2 and D3 are increased. In this case, There is a problem that it causes a worse result, and various gaps inside the frame can not prevent the thermal bridge phenomenon due to radiation and convection even if the heat bridge is interposed through the heat insulating material, which is not good for insulation.

As a result, it is necessary to expose only the glass due to the nature of completely building the glass outer wall through the construction of the hidened bar type with the heat insulating glass 3 as the wall, but the exposed areas D1 to D3 of the aluminum heterogeneous material forming the window and the window frame frame, The above-described various problems are caused.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the problems of the prior art as described above, and it is intended to solve the following problems.

The present invention relates to a window of a hidden bar type curtain wall system and a frame formed by removing the exposed surface of the window frame frame from the outer side of the window frame frame to improve the appearance of the building, To provide a curtain wall system.

The present invention provides a curtain wall system that improves the bar of a dirty material exposed to the exterior of a building, which is capable of enhancing the heat insulation performance by preventing the windows of the dirty material and the window frame frame from being exposed other than the glass surface, .

The present invention provides a curtain wall system that improves the bar of a heterogeneous material which is exposed to the exterior of a building in which the construction structure is simplified, the worker is skilled, the quality is high, and the construction air is shortened.

The present invention significantly removes the space inside the frame used as the passage for the inside and outside air transmission of the curtain wall to prevent conduction and reliably blocks the convection and radiant heat movement due to the outside air staying in the space inside the frame, And to provide a curtain wall system that improves the bar of the heterogeneous material exposed to the exterior of the building.

The present invention provides a curtain wall system that improves the bar of a foreign substance exposed to the exterior of a building that enables rapid ventilation of the outside air and allows a TT window to be opened with a wide opening angle by a wide opening angle.

According to an aspect of the present invention, there is provided a floor structure comprising a plurality of vertical structural members spaced apart from each other in a lateral direction of a building, a plurality of horizontal structural members orthogonal to the lateral direction from the vertical structural member, In a curtain wall system of a hidden bar type in which a window glass frame and a window frame made of a window frame are combined with some opening windows by inserting and fixing a heat insulating glass into an opening window of the two structural members, A window frame frame which is an aluminum extruded material to be assembled with a lattice frame around the inner periphery of the opening portion, a window frame which is an aluminum extrusion material to be assembled with a lattice frame for fitting into the window frame frame, The horizontal structural member is a structural member from which a protruding piece of a claw shape protruding toward the outside side is removed. The heat insulating glass which is fixedly coupled to four sides of the opening around which the opening and closing window is to be installed can minimize the space between the insulating glass fixed by the heat insulating glass wall extended to the opening and closing window and the insulating window of the window frame which is opened and closed, Blocking the passageway, and removing the window frames and the exposed frame on the outside of the window frame frame.

The heat insulating glass is joined to the outer side surface of the window frame through a Norton backing material and is adhered to the heat insulating glass by removing the aluminum exposed areas D1 to D3 exposed to the outside of the building .

Aluminum heterogeneous materials, which are inferior to the heat insulating effect and performance of the heat-insulated glass (fair glass), function as a cancellation in terms of heat insulation performance other than structural rigidity, so that the present invention completely suggests a technical means of defining and rejecting the heterogeneous material .

The window frame frame and the window frame frame are coupled to the window frame frame and the window frame frame so as to form the window frame connection member and the window frame connection member at the opposite end face portions between the heat insulating glass and the heat insulating glass window.

The outer frame connecting member is formed in an "L" shape so as to enclose the heat insulating glass surface and the end face portion. The outer frame connecting member is formed by forming a toothed protrusion at one end thereof, .

Wherein the wood connecting member is linearly formed to cover the end face of the heat insulating glass window and is formed by forming a toothed protrusion at one end thereof and a support protrusion for supporting a surface of the heat insulating glass window at the rear of the toothed protrusion, And is integrally formed by being molded so as to be positioned side by side with the outer surface of the glass window.

And a gasket having a gasket coupling groove of the window frame and a coupling protrusion which is fitted into the gasket coupling groove of the inner ring connecting member is interposed between the outer shell connecting member and the outer shell connecting member.

The construction of the curtain wall is variously improved by improving the frame constituting the window as described above.

In a curtain wall system of a hidden bar type, a window frame frame, which is an aluminum extruded material to be assembled with a lattice frame around an inner periphery of an opening of the opening frame to be installed, and a window frame which is an aluminum extrusion material to be assembled into a grid- And vertical and horizontal structural members on four sides of the opening perimeter to which the opening and closing window is to be installed are composed of a structural member from which a tangential protruding piece protruding to the outside side is removed and fixed to four surfaces around the opening perimeter The heat insulating glass is made of a heat insulating glass wall which is extended and fixed to the opening and closing window side and minimizes a space between the window frame and the heat insulating glass window.

The heat insulating glass wall which is further extended to the opening and closing window side is separately made of a finishing glass for filling a space between the round insulating glass end portion and the opening and closing window insulating glass end portion Or may be integrally extended to the end portion of the rectangular heat insulating glass.

A window frame frame having a predetermined height (h) based on a level (L) of an inner surface of the structural member; and a window frame which is sandwiched by an inner periphery of the window frame frame and moves by a casement, Type window having a level (+ L) of the insulated glass end portion, and a heat insulating glass end portion having a low level (-L) based on the level (L) The first and second conversion connecting members are selectively fixed to the window frame in accordance with the insulation barrel type of the bar bar or cab bar type which is constructed as a second conversion connection member which surrounds and protects the glass end portion of the cap bar type window having the cap bar type window So that the window frame and the window frame frame can be commonly installed.

The transforming connecting member is formed by molding a polyamide reheating column having excellent mechanical strength and heat insulating performance. The transforming connecting member is formed in a crank shape so as to press-fit the window frame into the upper horizontal section and cover the end of the insulating glass in the lower horizontal section. A window frame is implemented by inserting a gasket on the surface.

The conversion connecting member has a long extension portion corresponding to a vertical portion on the crank to form a first conversion connecting member, and an extension portion corresponding to a vertical portion on the crank is shortened to form a second conversion connecting member.

According to the present invention, the window of the hidden bar type curtain wall system and the frame of the window frame frame are removed from the exposed surface of the window frame frame to expose only the sealant line of the narrow gap of the building, It is possible to increase the aesthetics, to highlight the characteristics of the building, to remove the window and window frame frame of the heterogeneous material exposed in addition to the glass surface, to prevent the heat bridge phenomenon inside and outside the room and to improve the heat insulation performance, The skill is fast and quality is high, construction air is shortened, aluminum extrusion frame is reduced, manufacturing cost is reduced, and facility load on curtain wall is reduced.

In addition, the space inside the frame used as the passage for the inside and outside air of the curtain wall is minimized to prevent heat conduction, and the convection and radiant heat movement due to the outside heat staying in the space inside the frame is surely blocked. And it is an invention having various excellent effects that enable quick ventilation of the outside air and increase the satisfaction of the user with the TT window construction giving a large opening feeling by the wide opening angle.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a window portion of a curtain wall constructed using a conventional hidden bar type.
Fig. 2 is a cross-sectional view of a window portion of a curtain wall constructed using a conventional hidden bar type.
3 is a cross-sectional view of a window portion of a curtain wall according to the present invention.
Fig. 4 is an exploded state configuration diagram of the invention of Fig. 3; Fig.
FIG. 5 is a schematic view showing an internal and external connection member excerpt of a window according to the present invention. FIG.
Fig. 6 (a) is a cross-sectional view of a window portion of a curtain wall with a closed glass piece inserted therein according to the present invention. Fig.
Fig. 6 (b) is an assembled cross-sectional view of the curtain wall system according to the present invention with a screen screen for insect protection added thereto.
6 (c) is an exploded state configuration diagram of Fig. 6 (b). Fig.
FIG. 7 to FIG. 11 are external views of an assembled state of the heat insulating glass according to the present invention. FIG.

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

The present invention relates to a building comprising a plurality of vertical structural members spaced apart in the lateral direction of the building, a plurality of horizontal structural members orthogonal to the lateral direction and spaced longitudinally of the building from the vertical structural members, In a curtain wall system of a hidden bar type in which a window glass frame and a window frame are combined with some openings by inserting a heat insulating glass into the openings of the openings of the openings, A window frame frame 40 which is an aluminum extrusion material to be assembled into a frame, a window frame 50 which is an aluminum extrusion material to be assembled with a lattice frame for fitting into the inside of the window frame frame, The structural member is constituted by a structural member from which a protruding piece of a calkate protruding toward the outside side is removed, The heat insulating glass which is fixedly connected to four sides of the flank includes a heat insulating glass which is formed by a heat insulating glass wall extending to the opening and closing window side and a window frame which is opened and closed to minimize a space between the heat insulating glass windows, And removing the exposed frame on the outside of the window frame frame.

A heat insulating glass window is formed by adhering the heat insulating glass 3a to the outside surface of the window frame 50 with the Norton backing 5 interposed therebetween. The aluminum exposed area D1- D3).

The minimum spacing space is about ten to several millimeters (14 to 18 mm), and the outer frame connecting member 41 and the outer frame connecting member 51 are formed in the opposite end face portion between the heat insulating glass and the heat insulating glass pane, And is coupled to the window frame frame 40 and the window frame 50 so as to protect the glass cross section.

The window frame frame 40 has a Y-shaped protrusion 401 formed on one side of the outside of the window frame 40, and a triangular protruding protrusion 402 is formed at both ends of the window frame 40 to form a tapped coupling groove 404, And an engaging portion 408 is formed.

The window frame 50 is formed with a coupling groove 504 between the protruding protrusions 502 on the outer side and a gasket coupling groove 501 formed in a stepped shape and has a hardware coupling portion 508 are formed.

The outer joint member 41 is formed in an "L" shape so as to surround the surface of the heat insulating glass and the end face of the heat insulating glass member. The tooth connecting member 41 is formed at one end thereof with a toothed protrusion 411, And is engaged with the engaging groove 404 of the frame 40.

The top surface of the heat insulating glass window (3a) is formed on the rear side of the toothed protrusion (511), and the bottom surface of the bottom surface And the other end is integrally formed by being formed so as to be positioned side by side with the outer surface of the heat insulating glass window.

The outer frame connecting member 41 and the outer frame connecting member 51 are configured to engage with frames 40 and 50 of the aluminum extruded frame member located on the inner side of the heat insulating glass and are provided to protect the end portions of the heat insulating glass The connecting members 41 and 51 are made of a polyamide-based molding material and have heat insulation and mechanical strength. As the clearance is smaller, the influence of heat conduction cutoff and convection radiation is reduced, thereby improving heat flow.

The gasket coupling groove 501 of the window frame 50 and the gasket coupling groove 513 of the arm coupling member 41 are provided between the outer shell connecting member 41 and the inner shell connecting member 51, (Not shown).

The gasket is suitable for EPDM resin having excellent stretchability and durability. The gasket is fitted to a window frame 50 which is opened and closed and a to-be-connected body 51 fixed to the window frame, It comes in contact with a part to achieve sound insulation and space sealing.

Typical hardware, that is, a hinge-related part or a door lock-related part is inserted and fixed to the opposing hardware coupling parts 408 and 508.

A roll type roll screen 60 may be further added to the space between the window frame 40 and the window frame frame 50 and the outer frame connecting member 41.

As shown in Figs. 6 (b) and 6 (c), in order to sufficiently secure the space between the window frame 40, the window frame 50 and the heat insulating glass 3, the window frame frame 50a And the window frame frame 40a is extended from the window frame frame 40a to the end of the heat insulating glass so as to extend through the installation space 62. The window frame frame connection member 41 And a gasket 53a fixed between the window frame frame 50a and the window frame frame 50a may be formed extending through the installation space 62 and the roll screen 60 may be built in the installation space 62. [

The roll screen 60 may typically function as an insect screen or may be an interior protective screen similar to a curtain.

The addition of the roll screen will be selectively performed according to the construction design and will be described below with the roll screen excluded as in the basic embodiment of the present invention.

6 to 12, the construction of the curtain wall is varied by improving the frame constituting the window.

In a curtain wall system of a hidden bar type, a window frame frame, which is an aluminum extruded material to be assembled with a lattice frame around an inner periphery of an opening of the opening frame to be installed, and a window frame which is an aluminum extrusion material to be assembled into a grid- And vertical and horizontal structural members on four sides of the opening perimeter to which the opening and closing window is to be installed are composed of a structural member from which a tangential protruding piece protruding to the outside side is removed and fixed to four surfaces around the opening perimeter The heat insulating glass is formed of a heat insulating glass wall which is extended and fixed to the opening and closing window side and is spaced apart from the heat insulating glass window of the window frame to be opened or closed by the heat insulating glass.

The heat insulating glass wall, which is fixedly connected to four sides of the opening around which the opening and closing window is to be installed and which is further extended toward the opening and closing window, is made of a finishing glass that fills a space between the end of the heat insulating glass 3 and the end of the opening and closing window Or may be separately formed, extended by fitting, or integrally extended to the end of the heat insulating glass.

The heat insulating glass 3b on the upper, lower, left, and right sides of the heat insulating glass window 3a constituting the opening / closing window extends in the direction of the opening and closing window, and the extended portion of one side is chamfered in a trapezoidal manner to overlap with the adjacent heat insulating glass 3b (See Fig. 7).

The space between the adjacent glass pane 3a and the adjacent glass pane 3a is formed by the trapezoidal chamfered shape of the escaping section so that the minimally exposed end faces of the inner and outer frame connecting members 51 and 41 are located close to each other at a distance, It is possible to maintain the sealant at a clearance of the sealant line.

As a result, observing the aesthetics of the facade of the building, the entire building is observed to be covered with glass walls spaced about the same line of sealant.

When two or more of the open / close windows are continuous, the heat insulating glass 3b on the upper, lower, left, or right sides of the heat insulating glass window 3a extends in the direction of the opening / closing window, and the extension of one side is chamfered in a trapezoid (See FIG. 8), which is integrally formed by extending and escaping so as not to overlap with the adjacent heat insulating glass 3b, and a symmetrical finished glass piece 3c which is chamfered in a trapezoidal manner between the high-heat insulating glass windows 3a.

The finishing glass added between the plurality of the heat insulating glass windows is composed of a finishing glass (3d) piece formed by symmetrically dividing into two in the longitudinal direction, or a glass which is in contact with the upper, lower, left or right sides of the heat insulating glass window (3) and closing the gap between the opening and closing window with a closed glass (3d) piece (see Fig. 9).

11 or 12, the heat insulating glass for closing the space between the opening / closing window and the surface when the opening / closing window is in contact with the wall or the interlayer slab surface is narrow and long in width, and both the upper and lower ends are cut at right angles And the glass 3f is formed in combination with the heat insulating glass 3e made of the finishing glass 3g having one end cut at a right angle at one end and the other end chamfered at one side and the other side cut at a right angle .

It is preferable that the construction that is constructed by extending the escape so as not to overlap with the adjacent heat insulating glass is the highest priority in the construction construction of all the heat insulating glass, and the structure for prohibiting the exposure of all the heterogeneous materials excluding the sealant line is required .

According to the present invention, in the construction of the opening / closing window on the outer wall surface constituting the curtain wall, the unnecessary area of the thermal conductor is completely excluded and the surface of the heat insulating glass is extended to be close to the heat insulating glass of the opening / The frame structure of the window frame has not been attempted at all.

Accordingly, the technical scope of the present invention can be known from the description of the claims. However, according to this description, the deformation and the combination of the heat insulating glass pieces can be carried out in various ways. However, It is to be understood that all the structures for applying the window opening degree belong to the scope of the present invention.

1: structural members 3, 3b, 3e: insulating glass
3a: Insulating glass window 3c, 3d, 3f, 3g: Finishing glass
5: Backup material 6: Sealant
40: window frame frame 41: outer frame connecting member
50: window frame 51:
53: gasket 60: roll screen
401: "Y" -shaped protrusion 402:
404, 504: coupling grooves 411, 511:
412: Hexagon protrusion 501, 513: Gasket coupling groove
502: raised protrusion 515: support protrusion
531, 532:

Claims (19)

A plurality of vertical structural members spaced apart in the lateral direction of the building and a plurality of horizontal structural members orthogonal to the lateral direction from the vertical structural member and spaced apart from each other in the longitudinal direction of the building, In a curtain wall system of a hidden bar type in which a heat insulating glass is fixed to a window frame and an opening / closing window made up of a window frame and a window frame is combined with some opening windows,
A window frame frame 40 which is an aluminum extruded material to be assembled with a lattice frame around the inner periphery of the opening for installing the opening and closing window,
A window frame 50 which is an aluminum extruded material to be assembled into a grid-shaped frame for fitting into the window frame frame,
Wherein the vertical and horizontal structural members on four sides around the opening of the opening to be provided with the opening and closing window are constituted by a structural member from which a protruding piece of a claw protruding toward the outside is removed,
The heat insulating glass fixedly coupled to four sides of the opening around which the opening and closing window is to be installed minimizes the space between the heat insulating glass fixed by the heat insulating glass wall extended to the opening and closing window and the heat insulating window of the window frame opened and closed, And,
And removing the exposed frames of the window frame and the outward side of the window frame frame.
The method according to claim 1,
The heat insulating glass 3 is placed on the outer surface of the window frame 50 with the Norton backing 5 interposed therebetween,
The window frame frame 40 and the window frame frame 50 are coupled to each other so as to protect the end face of the heat insulating glass by molding the outer frame connecting member 41 and the outer frame connecting member 51 at the opposite end face portions between the heat insulating glass and the heat insulating glass window, The curtain wall system according to claim 1, wherein the curtain wall system is a curtain wall system. The method according to claim 1,
The window frame frame 40 has a Y-shaped protrusion 401 formed on one side of the outside of the window frame 40, and a triangular protruding protrusion 402 is formed at both ends of the window frame 40 to form a tapped coupling groove 404, And a joint part (408) is formed on the outer surface of the curtain wall system. The method according to claim 1,
The window frame 50 is formed with a coupling groove 504 between the protruding protrusions 502 on the outer side and a gasket coupling groove 501 formed in a stepped shape and has a hardware coupling portion 508) is formed on the outer surface of the curtain wall system. The method of claim 2,
The outer joint member 41 is formed in an "L" shape so as to surround the surface of the heat insulating glass and the end face of the heat insulating glass. The tooth connecting member 41 is formed at one end by forming a tooth protrusion 411, (40) of the frame (40). The curtain wall system according to any one of claims 1 to 3, The method of claim 2,
The top surface of the heat insulating glass window (3a) is formed on the rear side of the toothed protrusion (511), and the bottom surface of the bottom surface And the other end is formed integrally with the outer surface of the heat insulating glass so as to be positioned in parallel with the outer surface of the heat insulating glass window. The method of claim 2,
The outer frame connecting member 41 and the outer frame connecting member 51 are connected to the frames 40 and 50 of the aluminum extruded frame member located on the inside side of the heat insulating glass so as to protect the end portions of the heat insulating glass, 51) is extruded and molded with a polyamide-based molding material, and is pressed and fixed by pushing the protruding protrusions (402, 502), thereby improving the bar of the dicing material exposed to the exterior of the building. The method of claim 2,
The gasket coupling groove 501 of the window frame 50 and the gasket coupling groove 513 of the arm coupling member 51 are provided between the outer shell connection member 41 and the inner shell coupling member 51, The gasket according to claim 1, wherein the gasket (53) is provided with a gasket (53). The method of claim 2,
In order to secure a space between the window frame frame and the heat insulating glass, an installation space 62 is formed by forming a window frame frame 50a with a longer side length, The gasket 53a extending between the window frame frame 50a and the window frame member connecting member 51 extends from the mounting space 62a to the end portion of the window frame frame 50a, And a roll screen (60) is further added to the installation space (62). The curtain wall system according to any one of claims 1 to 6, wherein the roll screen (60) is further provided in the installation space (62). A plurality of vertical structural members spaced apart in the lateral direction of the building and a plurality of horizontal structural members orthogonal to the lateral direction from the vertical structural member and spaced apart from each other in the longitudinal direction of the building, In a curtain wall system of a hidden bar type in which a heat insulating glass is fixed to a window frame and an opening / closing window made up of a window frame and a window frame is combined with some opening windows,
A window frame frame 40 which is an aluminum extruded material to be assembled with a lattice frame around the inner periphery of the opening for installing the opening and closing window,
A window frame 50 which is an aluminum extruded material to be assembled into a grid-shaped frame for fitting into the window frame frame 40,
The vertical and horizontal structural member on four sides around the opening of the opening to be provided with the opening and closing window is composed of a structural member 1 from which a protruding piece of a claw protruding toward the outside is removed,
The heat insulating glass fixedly coupled to four sides of the opening of the opening for installing the opening and closing window is formed of a heat insulating glass wall which is extended and fixed to the opening and closing window side, Wherein the curtain wall system improves the bar of the heterogeneous material exposed to the exterior of the building. The method of claim 10,
The heat insulating glass wall, which is fixedly connected to four sides of the opening around which the opening and closing window is to be installed and which is further extended toward the opening and closing window, is made of a finishing glass that fills a space between the end of the heat insulating glass 3 and the end of the heat insulating glass window 3a (3c, 3d, 3f, 3g) are separately prepared, and the curtain wall system is extended by customizing and extending the curtain wall system. The method of claim 10,
The heat insulating glass wall which is fixedly connected to four sides of the opening around which the opening and closing window is to be installed and which is further extended toward the opening and closing window is a space between the end of the heat insulating glass 3 and the end of the heat insulating glass window 3a, And the heat insulating glass (3b, 3e) extending integrally with the glass at the end of the glass. The method of claim 12,
Wherein the heat insulating glass (3b) is integrally formed by extending one side in the direction of the opening and closing window and extending in a trapezoidal chamfered shape so as not to overlap with the adjacent heat insulating glass. A curtain wall system that improves the bar. The method of claim 12,
Wherein the heat insulating glass (3e) is integrally formed by extending one side in the direction of the opening and closing window and chamfering one side of the extended portion and cutting the other side at a right angle. system. The method of claim 10,
When two or more of the open / close windows are continuous, the heat insulating glass 3b on the upper, lower, left, or right sides of the heat insulating glass window 3a extends in the direction of the opening / closing window, and the extension of one side is chamfered in a trapezoid (3c) piece of symmetrical shape, which is integrally formed by extending and escaping so as not to overlap with the adjacent heat insulating glass (3b) and chamfered in a trapezoidal manner between the high-heat insulating glass windows (3a) A curtain wall system that improves exposed bar of heterogeneous material. 16. The method of claim 15,
And a finishing glass added between the plurality of the heat insulating glass panes (3a) is composed of a finishing glass (3d) piece which is divided into two in the longitudinal direction and formed into a symmetrical shape. Month system. The method of claim 10,
Characterized in that the glass contacting the upper, lower, left, or right sides of the heat insulating glass window (3a) is made of a rectangular heat insulating glass (3) and the gap between the window and the opening / closing window is finished with a finished glass A curtain wall system that improves the bar of heterogeneous materials exposed to the exterior.
The method of claim 11,
Characterized in that the heat insulating glass for closing the space between the opening / closing window and the building surface is made of a narrow and long width, and both the upper and lower ends are composed of a finished glass (3f) cut at right angles. Curtain wall system with improved bar. The method of claim 11,
Characterized in that the heat insulating glass for closing the space between the opening / closing window and the building surface has a narrow and long width, and one end is cut at a right angle and the other end is chamfered. A curtain wall system that improves the bar of heterogeneous materials.

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