KR102397830B1 - Variable performance window integrated system - Google Patents

Abstract

A window integrated system with variable performance according to one aspect of the present invention comprises: a plurality of horizontal bars; a plurality of vertical bars which is provided in a lattice shape by forming verticality with the horizontal bars; glass which is provided in a mounting space formed by the horizontal bars and the vertical bars in the lattice shape to divide an indoor space and an outdoor space; a blind driving device which is driven in a vertical direction from the horizontal bars and changes solar radiation shielding through the glass; and a guide rail which is provided to face the vertical bars and guides the blind driving device. The window integrated system actively controls building energy.

Description

Variable performance window integrated system

The present invention relates to a performance-variable integrated window system, and more particularly, to a performance-variable integrated window system capable of selectively controlling building energy.

As the design of the building is emphasized, the window area ratio in the building is continuously increasing, and most of the newly constructed office buildings have a curtain wall structure.

Most of the residential and commercial complexes have a curtain wall structure, and the ratio of opening and closing windows is low, limiting cross-ventilation, and paying excessive heating and cooling costs throughout the year.

In the energy-saving design standards of domestic buildings, only the insulation performance value is stipulated for windows, so there is a limit to the reasonable energy saving of the building.

The performance of windows and doors has optical performance, visible light transmittance (VLT) and solar heat gain (SHGC), and thermal performance, thermal transmittance (U-value). , there is a need to selectively select performance values according to regions.

The insulation performance of curtain wall is correlated with SHGC, and SHGC tends to be lower when the insulation performance is high. However, if the proper insulation level is maintained, it can have a high SHGC. can be actively controlled.

Therefore, it is possible to control the thermal transmittance rate and SHGC in buildings with curtain wall structures such as office buildings and residential and commercial complexes, and through technology development that integrates them with windows, users can selectively adjust performance values to save building energy and provide a comfortable indoor environment. You need the skills to make the implementation a reality.

Republic of Korea Patent No. 10-1784360 (2017.10.11)

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a performance-variable integrated window system capable of actively controlling building energy in a blind manner by selectively applying various performances.

And to provide a performance-variable window-integrated system that not only saves building energy but can also realize a comfortable indoor environment.

The performance variable window and door integrated system according to an embodiment of the present invention for achieving the above object is a plurality of horizontal bars, a plurality of vertical bars provided in a grid form by forming the horizontal bars and vertical, the horizontal bars of the grid shape Glass provided in the seating space formed by the vertical bar to distinguish indoors and outdoors, a blind driving device driven in the vertical direction on the horizontal bar to change whether or not solar radiation is shielded through the glass, and provided to face the vertical bar, the blind A guide rail for guiding the driving device may be provided.

The blind driving device includes a shielding part that covers one surface of the indoor side of the glass, a driving part connected to the upper end of the shielding part and fixed to the horizontal bar so that the shielding part is driven in a vertical direction, and the driving part is combined with the horizontal bar A cover portion to be embedded in the interior of the horizontal bar may be provided.

The shielding unit may include a film that covers one surface of the interior side of the glass, and a fixing guide that is combined with the lower end of the film to lower the center of gravity of the film and secure expandability.

The fixing guide includes a body portion, a first coupling portion positioned at the upper end of the body portion to combine with the lower end of the film to restore the expandability of the film, and a first coupling portion provided on an outdoor surface of the body portion to which the heat insulating member is coupled. It may be provided with two coupling parts.

The driving unit includes a roller having a circular pipe shape in which the upper end of the film is fixed to wind the film in a roll shape, and a rotating shaft plate provided at both ends in the longitudinal direction of the roller to serve as an axis when the roller rotates; A fixing bracket may be provided in a form facing the upper end, the outdoor end, and the indoor end of the roller and fixed to the horizontal bar.

The fixing bracket includes a first part provided in a form facing the upper end of the roller and fixed to the horizontal bar through a fixing member, and a second part extending from the first part to the outdoor side and facing the outdoor surface of the roller and a third part extending from the first part to the indoor side and facing the indoor surface of the roller, and a fourth part extending from one end of the third part toward the indoor side and fastened to the cover part. .

The cover portion includes a vertical member provided to correspond to the third portion, a horizontal member extending from the lower end of the vertical member to the outdoor side and positioned at the lower end of the roller, and the fourth portion protruding from the vertical member to the outdoor side; It may include a fastening member coupled to the cover unit to be coupled to the driving unit, and a sealing member extending from the upper end of the vertical member to the outdoor side and enclosing and sealing the fastening protrusion extending downward from the horizontal bar.

An inner space is formed between the vertical member and the fastening protrusion and between the sealing member and the fastening protrusion, and the cover part is coupled to the horizontal bar in the inner space, and airtightness to increase the airtight performance between the horizontal bar and the cover part A joint may be provided.

The guide rail may include a pair of main bodies having left and right ends of the film respectively built therein, and a fastening plate extending from the main body to which screws are fastened.

The guide rail may include a cover for preventing the screw from being exposed.

According to the performance-variable integrated window system according to the present invention, it is possible to actively control the building energy in a blind method by selectively applying various performances.

In addition to saving building energy, it is possible to realize a comfortable indoor environment.

1 is a longitudinal cross-sectional view showing a performance variable window integrated system according to an embodiment of the present invention.
Figure 2 is a longitudinal cross-sectional view showing a modified example of the performance variable window integrated system shown in Figure 1.
Figure 3 is a longitudinal cross-sectional view showing another modified example of the performance variable window integrated system shown in Figure 1.
Figures 4 and 5 are perspective views showing the blind driving device of the performance-variable window and door integrated system shown in Figure 1;
Figure 6 is a view showing a portion A of Figure 1;
7 and 8 are cross-sectional views showing a performance variable window integrated system according to an embodiment of the present invention.
9 is a perspective view showing a state in which an extension is provided in the performance variable window integrated system shown in FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the performance variable window integrated system according to an embodiment of the present invention.

1 is a longitudinal cross-sectional view showing a performance-variable integrated window system according to an embodiment of the present invention, FIG. 2 is a longitudinal cross-sectional view showing a modified example of the performance-variable integrated window system shown in FIG. It is a longitudinal cross-sectional view showing another modified example of the performance variable window integrated system shown.

1 to 3, the performance variable window integrated system 10 according to an embodiment of the present invention is provided in a lattice form by forming a plurality of horizontal bars 11 and vertical bars 11 and In the glass 13, the horizontal bar 11 provided in a seating space (not shown) formed by a plurality of vertical bars 12, grid-shaped horizontal bars 11 and vertical bars 12 to differentiate indoors and outdoors A blind driving device 100 that is driven in the vertical direction to change whether or not solar radiation is shielded through the glass 13 and a guide rail 200 that is provided to face the vertical bar 12 and guides the blind driving device 100 is provided can do.

A plurality of horizontal bars 11 and a plurality of vertical bars 12 are generally similar to those used in a curtain wall structure, and the glass 13 has a variety of structures according to the surrounding environment, such as a double structure, a triple structure, an openable structure, etc. can be applied.

The blind driving device 100 is located on one side of the indoor side of the glass 13 and selectively adjusts the thermal transmittance rate, SHGC, etc. can

The guide rail 200 guides the blind drive device 100 when the blind drive device 100 is driven, so that the thermal transmittance rate and SHGC by the blind drive device 100 can be easily adjusted. there is.

And, as shown in FIGS. 1 to 3, the blind driving device 100 is embedded in the horizontal bar 11 when applied to new windows and doors, and when applied to existing windows and doors, as long as it is adjacent in the vertical direction. By positioning between the pair of horizontal bars 11, or by positioning them at one end of the indoor side of the horizontal bar 11, both the new and existing windows can be applied.

Hereinafter, the blind driving device 100 of the performance variable window integrated system 10 according to an embodiment of the present invention will be described in detail. In the following description, only parts different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

4 and 5 are perspective views showing the blind driving device of the performance variable window and door integrated system shown in FIG. 1, and FIG. 6 is a view showing part A of FIG. 1 .

1 to 6 , the performance-variable integrated window and door system 10 according to an embodiment of the present invention includes a plurality of horizontal bars 11 and a plurality of horizontal bars 11 and vertical bars provided in a lattice form. of the vertical bar 12, the lattice-shaped horizontal bar 11 and the vertical bar 12 provided in the seating space (not shown) to distinguish the indoor and outdoor glass 13, inside the horizontal bar 11 It is embedded and is driven in the vertical direction in the horizontal bar 11 to face the blind driving device 100 and the vertical bar 12 that change whether or not the solar radiation is shielded through the glass 13, so that the blind driving device 100 is operated. A guide rail 200 for guiding may be provided.

And the blind driving device 100 is connected to the shielding part 110 that covers one surface of the indoor side of the glass 13, the upper end of the shielding part 110, and is fixed to the horizontal bar 11 so that the shielding part 110 is moved in the vertical direction. In combination with the driving unit 120 and the horizontal bar 11 to be driven to the drive unit 120 may be provided with a cover unit 130 to be embedded in the interior of the horizontal bar (11).

Looking at the shielding part 110 in detail, the shielding part 110 is combined with the lower end of the film 111 and the film 111 covering the interior side of the glass 13 to lower the center of gravity of the film 111 and increase the expandability. It may be provided with a fixing guide 112 to secure the.

The film 111 can have various functions such as low-e, heat shielding, thermal insulation, or PV, and thus can be selectively used according to the building use, scale, and region, thereby saving building energy and realizing a comfortable indoor environment.

The fixing guide 112 has a body portion 112a provided in the form of a long plate in the left and right direction, a first coupling portion 112b at the upper end of the body portion 112a as a center, and a second coupling portion on one surface of the outdoor side. (112c) may be provided.

The first coupling portion 112b is located at the upper end of the body portion 112a and is coupled to the lower end of the film 111, the lower end of the film 111 is seated therein, and the width is narrower in the upward direction. The fixing guide 112 can be fixed to the film 111 in a state in which expandability of the film 111 is ensured by simultaneously pressing the front and rear surfaces of the film 111 as provided with.

The second coupling part 112c is provided on one side of the outdoor side of the body part 112a, and the second coupling part 112c has indoor air to penetrate into the space between the indoor side surface of the glass 13 and the film 111. A heat insulating member 20 may be coupled thereto to prevent the fixing guide 112 from being spaced apart from one surface of the indoor side of the glass 13 by a predetermined distance.

On the other hand, the driving unit 120 is provided at both ends of the roller 121 in the longitudinal direction of the roller 121 in the shape of a circular pipe for winding the film 111 in the form of a roll with the upper end of the film 111 fixed, and the roller ( The rotation shaft plate 122 serving as an axis when 121 rotates, and a fixing bracket 123 provided in a form facing the upper end, outdoor end, and indoor end of the roller 121 and fixed to the horizontal bar 11 . ) can be provided.

The roller 121 is capable of rotating about the rotating shaft plate 122 as an axis in a manual or automatic manner, and the film 111 wound on the roller 121 in the form of a roll according to the direction in which the roller 121 rotates in the downward direction. It may be driven to prevent inflow of solar radiation through the glass 13 or may be driven in an upward direction to allow solar inflow through the glass 13 .

The fixing bracket 123 is provided in a form facing the upper end of the roller 121 and extends outward from the first part 123a and the first part 123a fixed to the horizontal bar 11 through the fixing member. A third portion 123c extending from the second portion 123b and the first portion 123a facing the outdoor surface of the roller 121 to the indoor side and facing the indoor surface of the roller 121 may be provided. there is.

The first portion 123a to the third portion 123c may be formed in a 'C' shape to surround the remaining portions except for the lower end of the roller 121 for the film 111 to take out and insert.

And the third part 123c includes a fourth part 123d extending from one end of the third part 123c toward the indoor side, and the fourth part 123d is fastened to the cover part 130 to be described later, thereby driving the driving unit ( 120 and the cover 130 may be coupled to each other.

On the other hand, the cover 130 includes a vertical member 131 provided to correspond to the third portion 123c, and a horizontal member ( 132), a fastening member 133 protruding from the vertical member 131 to the outside and engaging with the fourth part 123d so that the cover part 130 is coupled to the driving part 120, and the vertical member 131 A sealing member 134 for enclosing and sealing the fastening protrusion 11a extending from the upper end to the outdoor side and extending downward from the horizontal bar 11 may be provided.

The vertical member 131 and the horizontal member 132 are provided in the shape of an 'L' and may serve to cover the inner surface of the driving unit 120 and the lower end except for the position where the film 111 is drawn out and inserted.

Accordingly, not only can the aesthetics be improved by minimizing the external exposure of the driving unit 120 , but also failure or damage can be prevented by protecting the driving unit 120 from external impact.

The fastening member 133 is provided in a form supported by the fourth part 123d by being fastened on top of the fourth part 123d, and the closing member 134 is provided in a 'L' shape to form a vertical member ( 131) together with a 'C' shape to wrap the fastening protrusion 11a of the horizontal bar 11 .

Here, an inner space 140 is formed between the vertical member 131 and the fastening protrusion 11a and between the sealing member 134 and the fastening protrusion 11a, and the cover part 130 is horizontally formed in the inner space 140 . An airtight joint 150 coupled to the bar 11 and increasing airtight performance between the horizontal bar 11 and the cover unit 130 may be provided.

The airtight joint 150 is provided in a 'V' shape so that it can be combined with the fastening protrusion 11a on the inner surface and the cover part 130 on the outer surface, and many are provided at regular intervals to improve the bonding force and airtight performance. can do it

As described above, by selectively applying the film 111 capable of exhibiting various performances to enable active building energy control in a blind method, it is possible to realize not only building energy savings but also a comfortable indoor environment.

Next, the guide rail 200 of the performance variable window integrated system 10 according to an embodiment of the present invention will be described. In the following description, only parts different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

7 and 8 are cross-sectional views showing a performance variable window integrated system according to an embodiment of the present invention.

1 to 8, the performance variable window and door integrated system 10 according to an embodiment of the present invention is a plurality of horizontal bars 11, a plurality of horizontal bars 11 and vertical to form a grid shape of the vertical bar 12, the lattice-shaped horizontal bar 11 and the vertical bar 12 provided in the seating space (not shown) to distinguish the indoor and outdoor glass 13, inside the horizontal bar 11 It is embedded and is driven in the vertical direction in the horizontal bar 11 to face the blind driving device 100 and the vertical bar 12 that change whether or not the solar radiation is shielded through the glass 13, so that the blind driving device 100 is operated. A guide rail 200 for guiding may be provided.

The guide rail 200 is provided in the vertical bars 12 adjacent to each other in the form of a long pipe in the vertical direction. An extended fastening plate 220 may be provided.

Here, the body 210 and the fastening plate 220 are provided in a state facing the vertical bar 12 or facing the frame (unsigned) of the glass 13, and when facing the vertical bar 12, a screw (30) is fastened to the vertical bar 12 in an exposed state, and when facing the frame (unsigned) of the glass 13, the screw 30 is fastened to the frame (unsigned) of the glass 13 A cover 230 to prevent exposure of the screw 30 may be provided.

As described above, the guide rail 200 is selectively provided as an exposed or non-exposed type depending on the installation environment, so that the blind driving device 100 can easily control the thermal transmittance rate, SHGC, etc. It can serve as an auxiliary. .

The following will be described with respect to the extension (112d) provided in the performance variable window integrated system 10 according to an embodiment of the present invention. In the following description, only parts different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

9 is a perspective view showing a state in which an extension is provided in the performance-variable window and door integrated system shown in FIG. 5 .

1 to 9, the performance variable window integrated system 10 according to an embodiment of the present invention is a plurality of horizontal bars 11, a plurality of horizontal bars 11 and vertical to form a lattice form of the vertical bar 12, the lattice-shaped horizontal bar 11 and the vertical bar 12 provided in the seating space (not shown) to distinguish the indoor and outdoor glass 13, inside the horizontal bar 11 It is embedded and is driven in the vertical direction in the horizontal bar 11 to face the blind driving device 100 and the vertical bar 12 that change whether or not the solar radiation is shielded through the glass 13, so that the blind driving device 100 is operated. A guide rail 200 to guide may be provided.

And the blind driving device 100 is connected to the shielding part 110 that covers one surface of the indoor side of the glass 13, the upper end of the shielding part 110, and is fixed to the horizontal bar 11 so that the shielding part 110 is moved in the vertical direction. In combination with the driving unit 120 and the horizontal bar 11 to be driven to the drive unit 120 may be provided with a cover unit 130 to be embedded in the interior of the horizontal bar (11).

The fixing guide 112 has a body portion 112a provided in the form of a long plate in the left and right direction, a first coupling portion 112b at the upper end of the body portion 112a as a center, and a second coupling portion on one surface of the outdoor side. (112c) may be provided.

Here, the interior surface of the body portion 112a may be provided with an extension portion 112d extending for a predetermined length toward the interior side to serve as a handle.

In the above, although the performance variable window integrated system according to an embodiment of the present invention has been described, the spirit of the present invention is not limited to the embodiment presented herein. And those skilled in the art who understand the spirit of the present invention will be able to easily suggest other embodiments by addition, change, deletion, addition, etc. of components within the scope of the same spirit, but this is also said to be within the scope of the present invention. will be.

10: Performance-variable window all-in-one system
11: horizontal bar 11a: fastening protrusion
12: vertical bar 13: glass
20: insulation member 30: screw
100: blind drive 110: shield
111: film 112: fixed guide
112a: body portion 112b: first coupling portion
112c: second coupling part 112d: extension part
120: driving unit 121: roller
122: rotation shaft plate 123: fixing bracket
123a: first part 123b: second part
123c: third part 124d: fourth part
130: cover part 131: vertical member
132: horizontal member 133: fastening member
134: sealing member 140: internal space
150: airtight joint 200: guide rail
210: body 220: fastening plate
230: cover

Claims (12)

a plurality of horizontal bars;
A plurality of vertical bars provided in a grid form by forming the horizontal bars and vertical,
A glass that is provided in a seating space formed by the horizontal bar and the vertical bar in the form of a grid to distinguish indoors and outdoors;
A blind driving device that is driven in the vertical direction on the horizontal bar to vary whether or not solar radiation is shielded through the glass;
and a guide rail provided to face the vertical bar to guide the blind driving device,
The blind driving device is embedded in the inside of the horizontal bar when applied to a new window and door, and is located between a pair of horizontal bars adjacent to each other in the vertical direction when applied to an existing window,
The blind driving device includes a shielding part that covers one surface of the indoor side of the glass, a driving part connected to the upper end of the shielding part and fixed to the horizontal bar so that the shielding part is driven in a vertical direction, and the driving part is combined with the horizontal bar and a cover part to be embedded in the interior of the horizontal bar,
The shielding unit includes a film that covers one surface of the interior side of the glass, and a fixing guide that combines with the lower end of the film to lower the center of gravity of the film and secure expandability,
The fixing guide includes a body portion, a first coupling portion positioned at the upper end of the body portion to recover the expandability of the film by combining with the lower end of the film, and a first coupling portion provided on an outdoor surface of the body portion to which the heat insulating member is coupled. 2 having a coupling part,
The driving unit includes a roller having a circular pipe shape so that the upper end of the film is fixed to wind the film in a roll shape, and a rotating shaft plate provided at both ends in the longitudinal direction of the roller to serve as an axis when the roller rotates; It is provided in a form facing the upper end of the roller, the outdoor end and the indoor end and is provided with a fixing bracket fixed to the horizontal bar,
The fixing bracket includes a first part provided in a form facing the upper end of the roller and fixed to the horizontal bar through a fixing member, and a second part extending from the first part to the outdoor side and facing the outdoor surface of the roller and a third part extending from the first part to the indoor side and facing the indoor surface of the roller; and a fourth part extending from one end of the third part toward the indoor side and fastened to the cover part;
The cover part includes a vertical member provided to correspond to the third part, a horizontal member extending from the lower end of the vertical member to the outdoor side and positioned at the lower end of the roller, and the fourth part protruding from the vertical member to the outdoor side; A fastening member for coupling to couple the cover with the driving unit, and a sealing member extending from the upper end of the vertical member to the outdoor side and enclosing and sealing the fastening protrusion extending downward from the horizontal bar,
An inner space is formed between the vertical member and the fastening protrusion and between the sealing member and the fastening protrusion, and the cover part is coupled to the horizontal bar in the inner space, and airtightness to increase the airtight performance between the horizontal bar and the cover part A joint is provided,
The guide rail includes a pair of main bodies in which one end of the film in the left and right directions is built, respectively, and a fastening plate extending from the main body to which a screw is fastened,
The guide rail is provided with a cover to prevent exposure of the screw,
The fixed guide is a performance-variable integrated window system, characterized in that it has an extension portion that extends from one surface of the interior side of the body portion to the interior side by a predetermined length to serve as a handle. delete delete delete delete delete delete delete delete delete delete delete

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