KR101450628B1 - Windows and doors curtain wall insulation system - Google Patents

Abstract

The present invention relates to a heat-insulating curtain wall window/door system. According to the present invention, a window is installed with a heat-insulating frame in which a heat-insulating PVC cap formed of a PVC material covers an outer surface of an aluminum fixing bar being disposed in a front surface of a fixed frame which is fixedly disposed in a building base frame so that heat insulation inside and outside of the heat-insulating frame is available at the same time. The present invention includes a fixed frame that is disposed transversely and horizontally on a building base frame to form a grid-shaped grid space, receiving grooves being formed with a predetermined depth in a longitudinal direction in a front surface thereof; heat-insulating frames that are received on the respective receiving grooves of the fixed frame and are fixedly installed by using multiple fixing screws; heat-insulating frame temporary coupling means for maintaining a temporary coupling state when the heat-insulating frames are received on the respective receiving grooves of the fixed frame; windows that are installed in the respective grid spaces which are formed by the heat-insulating frames; and adhesion means for fixing the windows to the respective grid spaces by adhering edges of the windows on the heat-insulating frames.

Description

{Windows and doors curtain wall insulation system}

The present invention relates to an adiabatic curtain wall window system, and more particularly, to an adiabatic curtain wall window system in which a heat insulating frame having a structure in which a heat insulating PVC cap of a PVC material is covered with an outer surface of a supporting bar made of aluminum is fixed to a base frame of a building, So that the glass can be adiabatically supported in the upper, lower, left, and right sides.

In general, a curtain wall is used for the exterior wall construction of modern buildings. It is an outer wall that does not support load, just a partition. The load of the building is supported by columns and frames, which are foundation frames. For this reason, curtain walls are also called non-bearing walls, curtain walls or partition walls.

As a material of the curtain wall as described above, a metal plate, a glass, a block, and precast concrete are used. These curtain walls are often used for high-rise or super-high-rise buildings, which use lightweight materials to reduce loads. In recent years, because of the characteristics of glass, i.e., transparency, openness, reflectivity and relatively light weight, a double-layer glass is widely used as a curtain wall.

On the other hand, the curtain wall as described above functions as an exterior material for a beautiful appearance of a building, and functions to block rain, wind, noise, heat, and the like. These curtain walls are interlaced in a plurality of grid units and are finished by a silicone sealant.

In other words, the curtain wall according to the related art is formed by vertically and horizontally joining a plurality of frames to the upper and lower interlayer slabs to form a lattice-shaped partition. Glass windows are installed in the vertical and horizontal frames partitioned in this way. The glazing bead and the silicone sealant are placed in the space partitioned in the lattice form so that the unit glass window is seated to prevent the glass window from being detached, and water tightness can be achieved.

Meanwhile, in the structure of the curtain wall according to the related art as described above, the frame is usually made of aluminum. Such a frame is formed of a tamper bar type hidden type in which the front portion of the frame is not exposed to the outside when the curtain wall is installed and a side type in which the front portion of the frame is exposed to the outside when the curtain wall is installed.

However, the curtain wall according to the related art is structured such that a window is installed in a lattice-like space by vertically and horizontally connecting through a frame made of an aluminum material, and thus there is a problem in leakage and insulation. In other words, there is a problem that insulation between the frame and the windshield is not achieved because the cross-section of the windshield is supported on the aluminum frame.

In addition, since the curtain wall according to the related art is structured such that the cross section of the window is supported on the frame made of aluminum, leakage occurs inside and outside through the gap between the frame and the window.

1. Korean Registered Patent No. 10-1356423 (issued by Mar. 29, 2014) 2. Korean Registered Patent No. 10-1218639 (issued by Mar. 1, 2014) 3. Korean Patent No. 10-1194693 (issued on September 29, 2012) 4. Korean Registered Patent No. 10-1172391 (Published in August, 2012) 5. Korean Registered Patent No. 10-1108921 (issued on January 31, 2012) 6. Korean Patent Laid-Open No. 2013-0117009 (Published October 25, 2013) 7. Korean Patent Laid-Open No. 2013-0117008 (Published October 25, 2013)

Disclosure of the Invention The present invention has been conceived in order to solve all the problems of the prior art, and an object of the present invention is to provide a heat insulating frame having a structure in which an outer surface of a fixing bar made of aluminum is covered with a PVC cap made of PVC, And a glass window is installed in the heat insulating frame so that the heat insulating inside and outside of the heat insulating frame can be made.

Another object of the present invention is to provide a heat insulating frame for supporting a glass window by forming a structure in which a PVC insulated PVC cap is covered on the outer surface of a fixing bar made of an aluminum material, And to be able to do so.

Another object of the present invention is to provide a heat insulating frame for supporting a glass window, which is formed by covering a heat insulating PVC cap of a PVC material on the outer surface of a fixing bar made of an aluminum material, So that it is possible to prevent leakage between the heat insulating frame and the end of the glass window, and to maintain the heat insulating performance.

The present invention configured to achieve the above-described object is as follows. In other words, the heat insulating curtain wall window system according to the present invention comprises a fixed frame having a lattice space formed vertically and horizontally on a base frame of a building, wherein a seating groove having a predetermined depth in the longitudinal direction is formed on the front surface; A heat insulating frame that is seated on each of the seating grooves of the stationary frame and fixedly installed through a plurality of fixing screws; Adiabatic frame fastening means for retaining a state of engagement when the heat insulating frame is seated on the seating grooves of the respective fixed frames; A glass window installed in each of the lattice spaces formed by the heat insulating frame; And adhering means for adhering the rim of the glass window on the heat insulating frame to fix the glass window to each of the lattice spaces.

In the construction according to the present invention as described above, the adiabatic frame assembling means includes: a mating groove formed on the inner side of both sides of the seating groove formed in the front surface of the fixed frame, And a coupling projection protruding from both sides of the heat insulating frame at a position corresponding to the coupling groove.

In the construction according to the present invention, the heat insulating frame is composed of a seat piece formed corresponding to the seating groove of the fixed frame, and an aluminum material made of a supporting piece protruding a predetermined width forward from the center of the front surface of the seating piece, Support bar; And a construction of a PVC insulated PVC cap forming a structure in which the support bar is inserted by covering the outer surface in the shape of the seat piece and the support piece.

In the construction according to the present invention as described above, the cross section of the windshield may be supported on a heat-insulating PVC cap covering the support piece of the support bar.

According to another aspect of the present invention, there is provided a bonding apparatus for bonding a front surface of a heat-insulating PVC cap covering a front surface of a supporting bar constituting a heat insulating frame to an inner edge surface of a glass window, And a double-sided adhesive member for fixing and fixing.

Another structure of the heat insulating frame constituting the present invention is a seat having a seating piece formed corresponding to a seating groove of a fixed frame, a supporting piece projecting forwardly and downwardly from the upper and lower sides of the seating piece, And an upper glass window support groove formed between the upper glass window support and the upper surface of the seat piece to be folded in an outward direction. A PVC insulated PVC cap forming a structure in which a support bar is inserted by covering the outer surface in the shape of a seat piece and a support piece; And an oscape which is formed in the same shape as a restraining piece of the supporting bar and which is detachably coupled to the upper surface of the upper end of the supporting piece of the supporting bar to form a lower end window supporting groove between the supporting piece and the seating surface Lt; / RTI >

In the structure of the heat insulating frame according to another embodiment as described above, at least one heat insulating space of the air layer may be formed between the supporting pieces constituting the supporting bar by the reinforcing pieces of the same material.

In addition, in the structure of the heat insulating frame according to another embodiment as described above, each of the restraint grooves formed by the two-step bent restraint piece of the support bar may be provided with an osacap formed in a corresponding shape.

In the technique in which the heat insulating frame according to another embodiment as described above is constituted, the cross section of the windshield can be configured to be supported on a heat-insulating PVC cap covering a windshield support groove formed between the seat piece of the support bar and the end of the restraint piece .

In addition, in the technique in which the heat insulating frame according to another embodiment as described above is constituted, the bonding means adheres the inner edge surface of the glass window to the front surface of the heat-insulating PVC cap covering the seat front surface of the supporting bar constituting the heat insulating frame, A double-sided adhesive member for attaching and fixing a glass window to each of the lattice spaces formed by the double-sided adhesive member; And a silicone sealant injected and bonded between the outer edge surface of the glass window and the rear surface of the heat-insulating PVC cap formed at the rear end of the restraint piece.

According to the technique of the present invention, the heat insulating frame of the aluminum material fixing bar outer cover is covered with the PVC heat insulating PVC cap is installed on the front surface of the fixing frame fixed to the base frame of the building, The effect of ensuring insulation between the heat insulating frame and the glass window can be achieved.

Further, according to the present invention, the effect of preventing the condensation through the heat insulation inside and outside the heat insulating frame is manifested by forming the heat insulating frame for supporting the window glass in a structure in which the PVC insulating heat PVC cap is covered on the outer surface of the aluminum fixing bar do.

In addition, according to the present invention, a heat insulating frame for supporting a window glass is formed on the outer surface of a fixing bar made of aluminum to have a structure in which a PVC insulated PVC cap is covered, so that the cross section of the glass window is contacted with a PVC insulated PVC cap It is possible to prevent leakage between the heat insulating frame and the end face of the glass window.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an unsealed frame type heat insulation curtain wall window system according to the present invention. FIG.
FIG. 2 is a perspective view showing a combination of an insulating curtain wall window system according to the present invention. FIG.
3 is a cross-sectional view showing an adiabatic curtain wall window system according to the present invention.
FIG. 4 is a perspective view showing an installation state of a heat insulating curtain wall window system according to the present invention. FIG.
FIG. 5 is a perspective view showing an isolation curtain wall window system of an exposure frame type according to another embodiment of the present invention. FIG.
FIG. 6 is a perspective view showing a combination of the adiabatic curtain wall window system according to FIG. 5; FIG.
FIG. 7 is a cross-sectional view showing an adiabatic curtain wall window system according to FIG. 5;
FIG. 8 is a perspective view showing an installation state of the heat insulating curtain wall window system according to FIG. 5; FIG.

Hereinafter, an adiabatic curtain wall window system 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 a heat insulating curtain wall window system according to the present invention, FIG. 2 is a perspective view of a heat insulating curtain wall window system according to the present invention, FIG. 3 is a perspective view of a heat insulating curtain wall window system according to the present invention, FIG. 4 is a perspective view showing an installation state of a heat insulating curtain wall window system according to the present invention. FIG.

As shown in FIGS. 1 to 4, the heat insulating curtain wall window system 100 according to the present invention is installed vertically and horizontally on a base frame of a building to form a lattice space in a lattice shape, A fixed frame 110 having grooves 112 formed therein and a heat insulating frame 120 fixed on the seating grooves 112 of the fixed frames 110 through a plurality of fixing screws 130, A heat insulating frame assembling means 140 for maintaining a state of assembly of the heat insulating frame 120 on the seating grooves 112 of the heat insulating frame 120, And adhering means 160 for adhering the rim of the windshield 150 on the heat insulating frame 150 and the heat insulating frame 120 to fix the windshield 150 to each of the lattice spaces.

In the heat-insulating curtain wall system 100 constructed as described above, the fixed frame 110 is installed vertically and horizontally on the foundation frame of the building so that a grid-like lattice space is formed. At this time, the fixed frame 110 installed vertically and horizontally has the same shape, and is installed with different directionality.

Meanwhile, as described above, the fixed frame 110 installed vertically and horizontally on the base frame of the building so as to form a lattice-shaped lattice space has a structure in which a seating groove 112 having a predetermined depth is formed in the longitudinal direction. At this time, the interior of the stationary frame 110 has a structure in which the heat insulating space 114 is formed in an empty form.

Next, after the fixing frame 110 is installed vertically and horizontally on the base frame of the building so as to form the lattice-shaped lattice spaces as described above, the heat insulating frame 120 is fixed to the seating grooves 112 The heat insulating frame 120 is completely fixed on the stationary frame 110 through the fixing screw 130 in a state where the heat insulating frame 120 is seated through the fixing unit 140 and fixed.

In the process of fixing the adiabatic frame 120 on the fixed frame 110 through the fixing grooves 112 of the fixed frame 110 as described above, The heat insulating frame 120 can be bonded onto the mounting groove 112 of the stationary frame 110 through the engagement of the fixing projections 144 formed on the heat insulating frame 120 at positions corresponding thereto .

When the heat insulating frame 120 is coupled to the seating groove 112 of the stationary frame 110 in the process of fixing the heat insulating frame 120 on the stationary frame 110 as described above, The front face of the heat insulating frame 120 is pushed in the direction of the mounting recess 112 by using a tool such as a rubber hammer in a state where the heat insulating frame 120 is positioned on the mounting recess 112 of the mounting recess 112, The fixing screw 130 is tightened with the fixing frame 110 from the front surface of the heat insulating frame 120 to complete the fixing of the heat insulating frame 120 on the mounting groove 112 of the fixing frame 110 .

Next, after the adiabatic frame 120 is coupled and fixed on the seating groove 112 of the fixed frame 110 as described above, the adiabatic frame 120 (not shown) formed on the lattice space formed by the fixed frame 110, The glass window 150 is inserted and fixed. In this case, a double-sided adhesive member 160 is formed between the heat insulating frame 120 facing the inner edge face of the window glass 150 and the inner edge face of the window glass 150 is adhered and fixed on the heat insulating frame 120 .

Each component constituting the curtain wall insulating window system 100 according to the present invention will be described in more detail as follows. First, the fixing frame 110 constituting the present invention forms a lattice space corresponding to the size of the window glass 150 to allow the installation of the window glass 150. The fixing frame 110 has a rectangular shape, As shown in FIG. 4, a grid-like lattice space is formed vertically and horizontally on a base frame (not shown) of a building, and a seating groove 112 having a predetermined depth in the longitudinal direction is formed on the front surface.

Meanwhile, as described above, a fixed frame 110 (see FIG. 1) having a structure in which a grid-like lattice space is formed on a base frame (not shown) The heat insulating space 114 is formed in a shape in which the inside is empty as described above. The formation of the heat insulating space 114 is intended to maximize the heat insulating effect through the air layer on the heat insulating space 114, as well as to reduce the weight of the fixed frame 110.

4, the fixed frame 120 constructed as described above includes a fixed frame 1100 installed at a predetermined distance in the vertical direction on the base frame of the building and a fixed frame 1100 installed at a predetermined interval in the vertical direction A grid-like lattice space is formed in which the glass window 150 is installed.

Next, the heat insulating frame 120 constituting the present invention supports the glass window 150 through the fixing and mounting on the fixing frame 1100, and the heat insulating frame 1200 is fixed And are fixedly installed on the seating grooves 112 of the frames 110 through a plurality of fixing screws 130. [

1 to 3, a seat piece 122a and a seat piece 122a, which are formed corresponding to the seating groove 112 of the fixed frame 110, A supporting bar 122 made of an aluminum material and having a predetermined width protruding forward from the front center of the window glass 150 and supporting a section of the window glass 150; And a PVC insulated PVC cap 124 that forms a structure in which the support bar 122 is inserted by covering the outer surface according to the shape of the seat piece 122a and the support piece 122b.

In other words, the adiabatic frame 120 of the present invention is formed so that the entire cross-sectional shape of the adiabatic frame 120 is supported in the form of being embedded in the adiabatic PVC cap 124, And is formed in the same shape as the bar 122. At this time, the support bar 122 constituting the heat insulating frame 120 is seated and fixed on the seating groove 112 of the fixed frame 110 while the seat piece 122a is fixed on the support frame 122b. Installation is done.

Since the heat insulating frame 120 having the above-described construction contacts and supports the end face of the windshield 150 through the heat insulating PVC cap 124 on the upper and lower sides of the support bar 122, the supporting bar 122 and the windshield 150 ).

As described above, the seat piece 122a of the heat insulating frame 120 having a structure in which the heat insulating PVC cap 124 is covered on the outer surface of the support bar 122 is mounted on the seating groove 112 of the stationary frame 110 The fixing frame 110 and the heat insulating frame 120 are separated from each other through the heat insulating PVC cap 124. [

Next, the adiabatic frame assembling means 140 constituting the present invention temporarily fixes the heat insulating frame 120 on the front mount recess 112 of the stationary frame 110 before fixing the heat insulating frame 120 through the fixing screw 130 1 to 3, the adiabatic frame assembling means 140 maintains the assembled state of the adiabatic frame on the seating grooves 112 of the respective fixed frames 110 as shown in FIGS. 1 to 3 .

The adiabatic frame fastening means 140 as described above is provided on both inner side surfaces of the seating grooves 112 formed on the front surface of the fixed frame 110 so as to correspond to the fastening grooves 142 and the coupling grooves 142 And a coupling projection 144 protruding from both sides of the heat insulating frame 120 at a position where the heat insulating frame 120 is located.

In other words, the adiabatic frame assembling means 140 as described above is provided on the inner side surfaces of both sides of the seating grooves 112 formed on the front surface of the fixed frame 110, and a coupling groove 142 and a coupling groove 142 And a joining protrusion 144 protruding from both sides of the heat-insulating PVC cap 124 covering the seating piece 122a of the supporting bar 122 corresponding to the joining portion 122a.

The heat insulating frame assembly unit 140 configured as described above can prevent the heat insulating frame 120 from being adversely affected when the seat member 122a of the heat insulating frame 120 is positioned on the seating groove 112 of the stationary frame 110, The coupling projections 144 on the frame 120 are forcibly entered into the coupling grooves 142 on the mounting grooves 112 and temporarily fixed on the mounting grooves 112 of the fixing frame 110 So that the sum can be made.

The provision of temporary fastening of the heat insulating frame 120 on the mounting recess 112 of the stationary frame 110 through the heat insulating frame assembly 140 as described above can be achieved by the fixing screw 130, So as to facilitate the tightening operation.

Next, as shown in FIGS. 1 to 4, the glass window 150 constituting the present invention is made up of the characteristics of the glass, that is, transparency, openness, reflectivity and relatively light weight, Function, rain, wind, noise and heat.

The glass window 150 as a curtain wall as described above is fixed to each of the lattice spaces formed by the heat insulating frame 120 via the adhesive means 160. At this time, the end face of the glass window 150 is supported on the heat-insulating PVC cap 124 covering the supporting piece 122b of the supporting bar 122 constituting the heat insulating frame 120.

The adhesive means 160 constituting the present invention allows the window pane 150 to be fixed to the heat insulating frame 120 when the window pane 150 is installed in the lattice space formed by the fixed frame 110, 1 to 3, the rim of the window pane 150 is adhered on the heat insulating frame 120 so that the window pane 150 is fixed to each of the lattice spaces.

The bonding means 160 may be formed on the front surface of the adiabatic PVC cap 124 covering the front surface of the seating piece 122a of the supporting bar 122 constituting the heat insulating frame 120 and the inner edge surface of the window glass 150 And a double-sided adhesive member for adhering the glass window 150 to each of the lattice spaces formed by the heat insulating frame 120 by bonding.

Meanwhile, as described above, in the embodiment as shown in FIGS. 1 to 4, the heat insulating frame 120 is in a non-exposed form.

FIG. 5 is a perspective view of a heat insulating curtain wall window system according to another embodiment of the present invention, FIG. 6 is a perspective view of a heat insulating curtain wall window system according to FIG. 5, and FIG. FIG. 8 is a perspective view showing an installation state of a heat insulating curtain wall window system according to FIG. 5. FIG.

The heat insulating curtain wall window system 200 according to another embodiment as shown in FIGS. 5 to 8 is also an exposing type in which the heat insulating frame 220 is exposed to the outside of the window glass 250 1 to Fig. 4, which are different from the unexposed heat insulating frames 120 shown in Figs.

5 to 8, the heat-insulating curtain wall window system 200 of the present invention is also installed vertically and horizontally on a base frame of a building to form a lattice space in the form of a lattice, A heat insulating frame 220 which is seated on a seating groove 212 of each of the fixing frames 210 and fixedly installed through a plurality of fixing screws 230, The adiabatic frame assembling means 240 for holding the adhered state when the adiabatic frame 220 is seated on the seating groove 212 of each of the frames 210 is installed in each of the lattice spaces formed by the adiabatic frame 220, And an adhesive means 260 for fixing the glass window 250 to each of the lattice spaces by adhering the rim of the window pane 250 on the glass window 250 and the heat insulating frame 220 as shown in Figs. 1 to 4 As shown in Fig.

5 to 8, the heat insulating frame 220 according to another embodiment of the present invention includes a seating piece 222a formed corresponding to the seating groove 212 of the fixed frame 210, A support piece 222b protruding forwardly and downward from the upper and lower surfaces of the front surface of the lower support piece 222a and a plurality of support pieces 222b bent in the outward direction on the lower surface of the lower end of the lower support piece 222b, A support bar 222 made of aluminum and made of a restraint piece 222c for forming an upper windshield support groove 222d-1 between the upper end and the front surface; A PVC insulated PVC cap 224 covering the outer surface in the shape of the seating piece 222a and the supporting piece 222b to form a structure in which the supporting bar 222 is inserted; And a restraining piece 222c of the supporting bar 222. The supporting piece 222 is detachably coupled to the upper surface of the upper end of the upper supporting piece 222b of the supporting piece 222b, And a lower end windshield support groove 222d-2 is formed between the lower end windshield support 222a and the front surface of the lower end windshield 222a.

The heat insulating frame 220 constructed as described above is installed in the lattice space formed by the heat insulating frame 220 as shown in FIG. 7, and the glass window 250 is fixed on both sides of the glass window 250 The upper end of the upper glass window support groove 222b on the lower side support piece 222b of the heat insulating frame 220 which is formed on the upper side while keeping the glass window 250 obliquely while separating the side cap 226 from the support piece 222b, (222d-1).

Next, after the upper end of the glass window 250 is inserted into the upper receiving window support groove 222d-1 on the lower side supporting piece 222b of the heat insulating frame 220 formed on the upper side as described above, the glass window 250 Is pressed toward the seat piece 222a so that the inner edge surface of the glass window 250 is bonded by the double-sided adhesive member 262 attached to the entire surface of the upper and lower and left and right seat pieces 222a.

As described above, the glass window 250 (not shown) is attached to the lattice space formed by the upper and lower heat insulating frames 220 through the double-sided adhesive member 262 attached to the entire upper and lower and right and left seating pieces 222a, The glass caps 250 are mounted on the support pieces 222b on the right and left sides and on the lower outer side.

Next, as described above, after the ergonomic cap 226 is fitted on the support pieces 222b on the left and right outer sides of the windshield 250, the upper and lower and left and right outer side edges of the windshield 250 and the outer side 226 by injecting and sealing a silicone sealant 264 so that watertightness can be made between the top, bottom, right and left outer side edges of the window 250 and the erosion cap 226.

As described above, when the glass window 250 is installed using the heat insulating frame 220 according to another embodiment of the present invention, the right and left sides of each lattice space need to be composed of the pentagonal cap 226, ) Can be inserted or replaced. That is, since the glass window 250 has a size corresponding to the lattice space formed by the upper and lower and the left and right heat insulating frames 220, the left and right sides of the glass window 250 must be opposed to each other through the pentagonal cap 226 ) Should be constructed. Of course, the upper side occasion cap 226 may be configured, but not necessarily so. The erecting cap 226 constituting the heat insulating frame 220 is used for installing the windshield 250.

When the erect caps 226 constituting the heat insulating frame 220 as described above are mounted and fixed on the support pieces 222b, the fixing grooves 226a formed on the front and rear sides respectively on the lower surface of the erecting cap 226 The fixing protrusions 226b formed on the supporting pieces 222b are aligned so that the fixing protrusions 226b are inserted and fixed on the fixing grooves 226a, 226 can be mounted.

On the other hand, in the technique according to another embodiment of the present invention in which the heat insulating frame 220 as described above is formed, when the glass window 250 is fixed on the lattice space formed by the heat insulating frame 220, Is supported on the adiabatic PVC cap 224 covering the outside of the support bar 222 between the front surface of the seat piece 222a and the windshield support grooves 222d-1 and 222d-2. As a result, the heat insulation due to the adiabatic PVC cap 224 is established between the support bar 222 and the windshield 250.

The seating piece 222a of the heat insulating frame 220 having a structure in which the heat insulating PVC cap 224 is covered on the outer surface of the supporting bar 222 is mounted on the seating groove 212 of the fixing frame 210 The fixing frame 210 and the heat insulating frame 220 are separated from each other by the heat insulating PVC cap 124. [

The seating piece 222a side of the heat insulating frame 220 according to another embodiment configured as described above is placed on the seating groove 212 of the fixing frame 210 and is fixed through the fixing screw 230, When the windshield 250 is installed on the support grooves 222d-1 and 222d-2, the restraint piece 222c and the part of the pentagonal cap 226 are exposed to the outside of the windshield 250. That is, the heat insulating frame 220 according to another embodiment of the present invention may be an exposed type.

On the other hand, between the upper and lower or right and left support pieces 222b constituting the support bar 222 in the structure of the heat insulating frame 220 as described above, the heat insulating space 228a of the air layer is formed by the reinforcing pieces 228 of the same material. So that the weight of the heat insulating frame 220 can be reduced, and the heat insulating space 228a can be used for heat insulation.

In the technique of the present invention in which the heat insulating frame 222 according to another embodiment as described above is constituted, the adhesive means 260 is formed on the front surface of the seat piece 222a of the support bar 222 constituting the heat insulating frame 220 A double-sided adhesive member 262 for adhering the front surface of the insulating PVC cap 224 and the inner edge of the window 250 to cover and fix the window 250 in each of the lattice spaces formed by the heat insulating frame 220, And a silicone sealant 264 injected and bonded between the outer edge surface of the glass window 250 and the rear surface of the heat-insulating PVC cap 224 formed at the rear end of the end of the restraint piece 222c.

In the meantime, since the structure of the fixing frame 210 and the adiabatic frame assembly unit 240 in the structure according to another embodiment of the present invention is the same as that of the embodiment shown in FIGS. 1 to 4, I will not explain.

As described above, according to the present invention, the heat insulating frames 120 and 220 are mounted on the outer surfaces of the support bars 122 and 222, that is, the support bars 122 and 222, The heat insulating frames 120 and 220 can be formed by inserting the heat insulating frames 120 and 220 and the heat insulating PVC caps 124 and 224 into the heat insulating frames 120 and 220, .

In addition, according to the present invention, the heat insulating frames 120 and 220 can be fixed to the front surfaces of the fixed frames 110 and 210 through the fixing screws 130 and 230, thereby preventing the installation of the curtain wall window systems 100 and 200 So that the work can be performed more easily than before.

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100, 200. Isolation curtain wall window system
110. 210. Fixed frame
120. 220. Insulation frame
130. 230. Fixing screws
140, 240. The adiabatic frame joining means
150. 250. Windshield
160, 260. Adhesion means

Claims (9)

A fixed frame having a grid-like lattice space formed vertically and horizontally on a base frame of the building, wherein a seating groove having a predetermined depth in the longitudinal direction is formed on the front surface;
A heat insulating frame which is seated on the seating groove of each of the fixed frames and fixedly installed through a plurality of fixing screws;
Adiabatic frame assembling means for retaining a state of assembly on the seating groove of each of the stationary frames when the heat-insulating frame is seated;
A glass window installed in each of the lattice spaces formed by the heat insulating frame; And
And adhering means for adhering the rim of the windshield onto the heat insulating frame to fix the windshield to each of the lattice spaces,
Wherein the heat insulating frame comprises a seating piece formed in correspondence with a seating groove of the fixed frame, and a supporting bar made of an aluminum material and protruding forward from the center of the front surface of the seating piece to have a predetermined width, And a PVC insulated PVC cabinet system configured to cover the outer surface in the shape of the seating piece and the supporting piece to form a structure in which the supporting bar is inserted. [3] The heat insulating frame assembly according to claim 1, wherein the heat insulating frame assembling means comprises: a mating groove formed on both inner side surfaces of the mounting recess formed in the front surface of the fixed frame, And
And a projecting projection formed on both sides of the heat insulating frame at positions corresponding to the coupling recesses. delete The system of claim 1, wherein the cross-section of the window is supported on the heat-insulating PVC cap covering the support piece of the support bar. The heat insulating frame according to claim 1, wherein the bonding means bonds the inner edge surface of the glass window to the front surface of the heat-insulating PVC cap covering the seating surface of the supporting bar constituting the heat insulating frame, Is a double-sided adhesive member for allowing the window glass to be installed and fixed on the curtain wall window system. The heat insulating frame according to any one of claims 1 to 3, wherein the heat insulating frame comprises: a seating piece formed corresponding to a seating groove of the fixed frame; A support bar made of aluminum and made of a restraint piece bent in a outward direction on the lower surface of the tip end portion of the support piece so as to form a windshield support groove between the support piece and the front surface of the seat piece;
A PVC PVC adiabatic PVC cap forming a structure in which the support bar is inserted by covering the outer surface in the shape of the seat piece and the support piece; And
Wherein the support bar is formed in the same shape as the restraint piece of the support bar and is detachably coupled to the upper surface of the upper end portion of the support piece of the support bar, Wherein the curtain wall window system comprises: The adiabatic curtain wall system of claim 6, wherein at least one heat insulating space of the air layer is formed between the supporting pieces constituting the supporting bar by reinforcing pieces of the same material. 7. The system of claim 6, wherein the cross-section of the windshield is supported on the heat-insulating PVC cap covering a windshield support groove formed between the seat of the support bar and the end of the restraint piece. 9. The heat insulating frame according to claim 8, wherein the bonding means bonds the inner edge surface of the glass window to the front surface of the heat-insulating PVC cap covering the seating surface of the supporting bar constituting the heat insulating frame, A double-sided adhesive member for fixing the glass window to the window glass; And
And a silicone sealant injected and bonded between the outer edge surface of the glass window and the rear surface of the heat-insulating PVC cap formed at the rear end of the restraint piece.

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