KR101844499B1 - Heat insulating and earthquake-proof widdow system using heat insulating and storage cell - Google Patents

Abstract

The present invention relates to a heat insulation and earthquake resistance window system. According to the present invention, the heat insulation and earthquake resistance window system includes: a PVC insulation cap (120) installed on one side of an aluminum frame (110); an earthquake resistance shock-absorbing cap (150) installed between the aluminum frame, the PVC insulation cap, and a wall (W), wherein the earthquake resistance shock-absorbing cap (150) absorbs shock due to external vibration and blocks heat transfer between indoor and outdoor sides by having a heat storage space (S) divided into multiple spaces; a first vertical unit (113) vertically extended from the center of the one side of the aluminum frame and comprising an upper vertical member and a lower vertical member vertically divided; a heat insulation azon (117) blocking the heat transfer by connecting the upper vertical member and the lower vertical member while the upper vertical member and the lower vertical member are spaced at predetermined intervals; and a first heat insulation storage space (118) storing air by horizontally passing through the first vertical unit (113). The PVC insulation cap (120) includes a second heat insulation storage space (128) having a space formed on both sides of the first vertical unit and improving a heat insulation function by storing the air inside as the second heat insulation storage space (128) comprises left and right sides and a lower bottom, which are a part of the PVC insulation cap. According to the present invention, a member having heat insulation performance and earthquake resistance performance is installed between the wall and the frame. So, the heat insulation and earthquake resistance window system can effectively block the heat transfer of the outside and the inside of a building and can reduce the shock by performing the earthquake resistance performance in a case that earthquake occurs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insulating window housing system having an insulating storage space,

The present invention relates to a window system having an insulation performance and an earthquake-proof performance, and more specifically, a window system having a shock absorbing member having a plurality of heat insulating spaces between a wall and a window to improve seismic performance and heat insulation performance.

As an example of a window system, there is a curtain wall installed on a non-proof wall in a wall of a building such as a building. The curtain wall is supported by a frame which is provided long in the horizontal or vertical direction while securing the view from the wall of the building and functioning as an indoor lighting by sunlight.

In general, the conventional curtain wall is composed of a curtain wall aluminum frame installed inside the building, a finishing cap spaced apart from the curtain wall aluminum frame by a predetermined distance, a curtain wall aluminum frame and a finishing cap, A heat insulating box rail for connecting between the finishing cap and the finishing cap, and a heat insulating bracket and a window pane to be inserted and bonded into the spaced space between the curtain wall aluminum frame and the finishing cap. The curtain wall is made of a transparent material so that outdoor sunlight is transmitted as it is, so that sunlight shines light in the indoor space, thereby functioning as an indoor lighting function. A prior art for curtain wall is disclosed in " Composite Curtain Wall ", No. 10-1697739.

However, the conventional curtain wall window system and wall fixing system can not simultaneously satisfy the heat insulating property and the earthquake resistance.

The frame structure of the conventional curtain wall system and the method of attaching it to the wall are attached by caulking between the wall and the curtain wall. However, in the case of only caulking between the wall and the curtain wall, there is a problem that heat insulation is not sufficient and heat energy inside the building is released to the outside. In addition, when the earthquake occurs, the caulking portion does not sufficiently perform the buffering function. There was a problem that was hard to bear.

It is an object of the present invention to provide a window system that can effectively block heat transfer inside and outside a building, thereby providing insulation between the PVC insulation cap and the wall, as well as inside and outside of the PVC insulation cap. .

Also, the present invention provides a window system and a construction method that can prevent a phenomenon that a window is twisted or separated when an external force is transmitted to a building by an earthquake or the like, and at the same time, .

The present invention relates to a PVC insulation cap (120) mounted on one side of an aluminum frame (110); A heat-insulating buffer cap disposed between the aluminum frame and the PVC heat-insulating cap and the wall body and having a heat storage space S partitioned into a plurality of spaces to block heat transfer outside the room and absorb shock due to external vibration 150); A first vertical part 113 formed vertically at one center of the aluminum frame and having upper and lower vertical members and a lower vertical member; An insulating adzone 117 for blocking heat transfer by coupling the upper vertical member and the lower vertical member at a predetermined distance; And a first adiabatic storage space (118) formed to horizontally penetrate the first vertical part (113) to store air.

The PVC insulation cap 120 has left and right side walls and bottom walls which are formed on both sides of the first vertical portion and are part of the PVC insulation cap and store air therein to improve the heat insulation performance. (128).

The aluminum frame includes a first horizontal portion 112 having one end of the PVC insulation cap and a first vertical portion 113 extending vertically from a center of the first horizontal portion, And first and second coupling grooves 115a and 115b formed at a lower end and an upper end of the first side portion.

The PVC insulation cap 120 includes a second transverse section 121 that is seated in contact with the first transverse section 112 and a second transverse section 121 extending vertically from the center of the second transverse section, A second vertical portion 122 having vertical grooves 122a into which the first and second side portions 113 and 113 are inserted, a second side portion 124 formed to extend vertically at both ends of the second lateral portion, And first and second engaging projections 124a and 124b formed by increasing the width in the transverse direction.

A buffer cap mounting groove 125 for coupling with the vibration damping buffer cap is formed on the second coupling protrusion 124b of the PVC insulation cap and the horizontal member of the vibration damping buffer cap is protruded outward, A mounting projection 155 is formed.

A cap member 130 comprising a horizontal member 131 having a center groove 131a into which the upper end of the second vertical part 122 of the PVC insulating cap is inserted and a plurality of vertical members 132 extending vertically from the horizontal member, (130); And an aluminum cap 140 coupled to the upper side of the cap frame.

The horizontal member 131 of the cap frame has a heat storage space in which a cushioning cap mounting groove 135 for coupling with the seismic buffer cap is formed.

A first fixing piece P1 coupling the cap frame with the PVC insulation cap and the upper vertical member of the first vertical portion and a second fixing piece P2 coupling the PVC insulation cap and the aluminum frame .

According to the present invention, by providing the member having the heat insulation and the seismic performance between the wall and the frame by the above-described structure, it is possible to effectively block the heat transfer inside and outside the building and to exhibit the seismic performance even when the earthquake occurs, Effect occurs.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view of an endowed anti-earthquake window system according to an embodiment of the present invention,
2 is a cross-sectional view of an aluminum frame of a heat-resistant seismic resistant window system according to an embodiment of the present invention,
3 is a cross-sectional view of a PVC insulation cap of an endowed anti-icing window system according to an embodiment of the present invention,
4 is a cross-sectional view of a part of the construction of the heat-resistant seismic resistant window system according to the embodiment of the present invention,
5 is a cross-sectional view of an anti-seismic damping window system of an anti-seismic damping window system according to an embodiment of the present invention,
FIG. 6 and FIG. 7 are cross-sectional views partially illustrating the shape of the PVC insulation cap for sealing the second adiabatic storage space in the heat-resistant seismic resistant window system according to the embodiment of the present invention,
8 is a sectional view of a hidden type curtain wall system in which a frame is not exposed to the outside as a second embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Also, terms used are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user operator. Therefore, definitions of these terms should be based on the entire contents of the present specification.

2 is a sectional view of an aluminum frame of an endowed anti-seismic window system according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of an embodiment of the present invention FIG. 4 is a cross-sectional view of a part of the heat insulating seismic resistant window system according to an embodiment of the present invention, and FIG. 5 is a sectional view of a heat insulating seismic window system according to an embodiment of the present invention. Sectional view of the seismic buffer cap of the system.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described with reference to the drawings. The window system of the present invention can be applied not only to a window or a door, but also to a general window system including a window such as a curtain wall. It should be noted that the following description is based on a curtain wall as one example.

The upper, lower, left, right, upper, lower, and the like, which denote directions in the process of describing the present embodiment, mean the directions of the drawings shown in the drawings, and are for convenience of explanation and do not limit the scope of the invention.

The window system (curtain wall system) according to the present invention includes an aluminum frame 110 and a PVC insulation cap 120, and the side surfaces of the aluminum frame and the PVC insulation cap are attached to the wall W. One end of the glass window G is mounted on the concave portion of the PVC insulation cap 120.

In the case of a curtain wall system in which a window is not provided (in case of contacting with a wall), a window is not provided in a concave portion where a window of the PVC insulating cap is inserted. Therefore, (150) is provided to improve the heat insulation and seismic performance between the wall (W) and the curtain wall.

In the window system (curtain wall) of the present invention, the aluminum frame 110 is an aluminum frame, and the PVC insulation cap 120 is a cap made of a PVC material having heat insulation performance.

Mounting grooves 111 for mounting the PVC insulating caps are formed on one side of the aluminum frame of the present invention (upper surface as viewed in Fig. 2). The waterproof buffer cap 150 is disposed between the aluminum frame and the PVC insulating cap and the wall W and has a heat storage space S partitioned into a plurality of spaces. The heat storage space of the seismic buffer cap 150 is formed by intersecting the plurality of horizontal members 151 and the vertical members 152 to block heat transfer outside the room and to absorb shocks due to vibration such as an external earthquake.

A first vertical part 113 vertically extending from the center of the first horizontal part 112 and a second vertical part 113 extending vertically from the center of the first horizontal part; And first and second coupling grooves 115a and 115b formed at the lower end and the upper end of the first side portion, the width of which is increased in the transverse direction.

The first vertical part 113 may be vertically divided into two members. The upper vertical member 113a and the lower vertical member 113b are spaced apart from each other to prevent heat transfer between the room and the outside because the first vertical portion is made of aluminum. The upper vertical member and the lower vertical member are separated from each other by a predetermined distance and are coupled to each other through the adiabatic azon 117 to block the heat transfer. The first vertical part 113 of the present invention further includes a rectangular first adiabatic storage space 118 formed below the adiabatic zone to store the adiabatic air. The first adiabatic storage space 118 is formed so that the indoor heat transfer can be blocked again and the strength of the aluminum frame can be further increased by forming such a space.

The PVC insulation cap 120 includes a second transverse portion 121 that is seated in contact with the first transverse portion 112 of the PVC insulating cap and a second transverse portion 121 formed vertically at the center of the second transverse portion, A second vertical part 122 having a vertical groove 122a into which the vertical part 113 is inserted, a second side part 124 formed to extend vertically at both ends of the second horizontal part, And first and second coupling protrusions 124a and 124b formed at an upper end and an upper end of the coupling protrusions 124a and 124b, respectively. A cushioning cap mounting groove 125 for coupling with the vibration damping cap 150 is formed on the second coupling protrusion 124b of the PVC insulation cap.

In addition, the present invention may further include a cap frame 130 and an aluminum cap 140 which are coupled to the upper side of the PVC insulating cap 120 to form a heat insulating means. The cap frame 130 includes a horizontal member 131 having a central groove 131a into which the upper end of the second vertical part 122 of the PVC insulating cap 120 is inserted, And a plurality of vertical members 132 formed. The aluminum cap is a cap-shaped aluminum member coupled to the upper side of the cap frame.

The vibration damping cap 150 of the present invention is coupled using a wedge-shaped triangular protrusion and a groove. The horizontal member 131 of the cap frame has a buffer cap mounting groove 135 for coupling with the vibration damping buffer cap. . The seismic buffer cap is fitted to the buffer cap mounting groove of the PVC insulation cap and the buffer cap mounting groove of the cap frame, respectively.

The seismic buffer cap is directly adhered to the wall, and a caulking space 158 for caulking is formed on an upper side portion where the seismic buffer cap abuts against the wall. In FIG. 1, reference numerals C and N denote caulking and snap members respectively on the upper side of the wall of the seismic buffer cap. In FIG. 1, reference numerals 160 and 170 denote sealants and backup materials, respectively.

In the present invention, an earthquake-proof buffer cap 150 made of a material having a heat insulating property and an elastic performance is provided between a frame and a wall, and a plurality of horizontal members 151 and a vertical member 152 The heat storage space S is interposed between the heat storage space S and the heat storage space S so that the shock due to vibration such as an external earthquake is absorbed.

The first vertical portion 113 of the PVC insulation cap is separated from the upper portion and the lower portion of the PVC insulation cap so as to be interposed therebetween via the adiabatic azon 117 so as to block the heat transfer and to penetrate through the first vertical portion 113 The first adiabatic storage space (118) has a rectangular shape for storing the adiabatic air. Further, since the seismic buffer cap forms a heat storage space, it has heat insulation performance in addition to seismic performance. The first adiabatic storage space 118 may be formed to penetrate along the longitudinal direction when aluminum is extruded.

The present invention is also applicable to a case in which the first side portion 115 of the aluminum frame 110 and the second side portion 124 of the PVC thermal insulating cap 120 are relatively long and the glass window G is mounted and the sealant and the backup material are filled A second adiabatic storage space 128 is formed in the lower part of the PVC insulation cap 120 of the window G. [ The second adiabatic storage space 128 is a space where the air is filled in a sealed state, and such a heat insulation space serves as a heat storage space for interrupting the heat transfer between the room and the outside again. That is, the PVC insulation cap 120 has left and right side walls and bottom walls, which are formed on both sides of the first vertical portion and are part of the PVC insulation cap, to store air therein to improve the heat insulation performance. And has a storage space 128.

6 and 7, a sectional view of the PVC insulation cap is partially modified for sealing the second adiabatic storage space in the heat-resistant seismic resistant window system according to the embodiment of the present invention,

6 to 7 are basically the same as the window system described with reference to Figs. 1 to 5, except that the PVC adiabatic cap 120 and the PVC adiabatic cap 120 are provided in order to improve the sealing performance of the second adiabatic storage space 128. [ A connecting member 127 connecting one side of the second vertical part 122 and the upper side of the second side part 124 to each other is added. The second adiabatic storage space 128 is connected to the second transverse portion 121, the second vertical portion 122, the second side portion 124 and the connecting member 127 of the PVC insulation cap 120 It is completely enclosed so that a completely sealed space can be secured in the PVC insulating cap itself, and the heat insulating property is further enhanced.

The present invention is advantageous in that it is possible to simultaneously exhibit the heat insulation performance and the seismic performance by the concrete structure and the shape of the seismic buffer cap in addition to the concrete structure and the shape of the aluminum frame and the PVC insulation cap.

FIG. 8 is a cross-sectional view of a hidden type curtain wall system in which a frame is not exposed to the outside as in another embodiment of the present invention. The cap frame and the aluminum cam are omitted, . Also in this embodiment, since the seismic buffer cap is mounted between the wall and the frame, and the first vertical portion of the aluminum frame is separated from the upper and lower portions to be coupled with the adiabatic azon, the duplicate description is avoided.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

110: aluminum frame, 117: adiabatic azon
118: primary adiabatic storage space, 120: PVC insulation cap
125: Buffer cap mounting groove, 128: Secondary heat storage space
130: cap frame, 140: aluminum cap
150: Seismic buffer cap, P1, P2: Fixing piece

Claims (7)

A PVC insulation cap 120 mounted on one side of the aluminum frame 110;
A heat-insulating buffer cap disposed between the aluminum frame and the PVC heat-insulating cap and the wall body and having a heat storage space S partitioned into a plurality of spaces to block heat transfer outside the room and absorb shock due to external vibration 150);
A first vertical part 113 formed vertically at one center of the aluminum frame and having upper and lower vertical members and a lower vertical member;
An insulating adzone 117 for blocking heat transfer by coupling the upper vertical member and the lower vertical member at a predetermined distance; And
And a first adiabatic storage space (118) formed to laterally pass through the first vertical part (113) to store air,
The aluminum frame
A first transverse portion 112 to which one end of the PVC insulating cap contacts,
A first vertical portion 113 formed vertically at the center of the first transverse portion,
A first side portion 115 formed to extend vertically at both ends of the first lateral portion,
And first and second coupling grooves (115a, 115b) formed at a lower end and an upper end of the first side surface portion,
The PVC insulation cap (120)
A second transverse portion 121 that is seated in contact with the first transverse portion 112,
A second vertical part 122 extending vertically from the center of the second horizontal part and having a vertical groove 122a into which the first vertical part 113 is inserted,
A second side portion 124 formed to extend vertically at both ends of the second lateral portion,
And first and second coupling protrusions (124a, 124b) formed at an upper end and a lower end of the second side surface with an increased transverse width. The method of claim 1, wherein the PVC insulation cap (120)
And a second adiabatic storage space (128) having left and right side and bottom floors, which are part of the PVC insulation cap, and which have spaces formed on both sides of the first vertical part to improve the heat insulation performance by storing air therein. An insulation seismic window system with space. delete The method according to claim 1,
A connecting member 127 connecting one side of the second vertical part 122 and the upper side of the second side part 124 to each other; And
A second adiabatic storage space 128 completely surrounded by the second transverse portion 121, the second vertical portion 122, the second side portion 124 and the connecting member 127 of the PVC insulation cap 120; Further comprising a heat insulating storage space for storing the heat insulating storage space. The method according to claim 1,
A cushioning cap mounting groove 125 for coupling with the earthquake-proof buffer cap is formed on the second coupling protrusion 124b of the PVC insulation cap,
Wherein the horizontal member of the seismic buffer cap is formed with a mounting protrusion (155) protruded outward to be coupled to the PVC insulating cap. The method according to claim 1,
A cap member 130 comprising a horizontal member 131 having a center groove 131a into which the upper end of the second vertical part 122 of the PVC insulating cap is inserted and a plurality of vertical members 132 extending vertically from the horizontal member, (130); And
And an aluminum cap (140) coupled to the upper side of the cab frame. The method according to claim 6,
A cushioning cap mounting groove 135 formed in the horizontal member 131 of the cap frame for engagement with the seismic buffer cap;
A first fixing piece (P1) connecting the cap frame with the PVC insulation cap and the upper vertical member of the first vertical part; And
And a second fixing piece (P2) connecting the PVC insulating cap and the aluminum frame.

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