KR20080010524A - Double window - Google Patents

Abstract

An energy saving type double window structure is provided to maximize energy efficiency by forming vents on the upper and lower parts of a window frame to transfer heat accumulated in a space of a double window to the outside by convection. An energy saving type double window structure is used for ventilating air by convection and dropping down the temperature if the air temperature in a space(B) between inner and outer glass windows(103) fitted to window frames(101,102) inserted to a widow sash(180) rises higher than the outside air in the summer time by opening a door(130) of a lower vent(101a) formed on the lower part of an outer window frame and letting the outside air in, and opening a door(140) of an upper vent(101b) formed on the outer window frame and sending out the heated inside air to the outside, and cutting off solar light entering the inside of a room by descending a roll blind(120) installed in a space between the glass windows.

Description

Energy saving double window structure {Double window}

1 is a cross-sectional view of a double window structure according to the prior art,

2 is a front view of the double glazing structure according to the first embodiment of the present invention;

3 is a cross-sectional view taken along line III-III shown in FIG. 2;

4 and 5 are cross-sectional views of the double-window structure according to the second embodiment of the present invention, showing the operation of the door.

<Explanation of symbols on main parts of the drawings>

13, 14, 103, 104: glass windows 11a, 11b, 101a, 101b: ventilation holes

20, 120: blinds

The present invention relates to a double-window structure, and more particularly, to an energy-saving double-window structure that can reduce the cooling energy of the room by discharging the heat by solar radiation that can be generated in the space between the double window structure.

Most of the buildings are equipped with windows for ventilation and lighting. Recently, when designing windows in buildings, the trend is to make double windows for the purpose of insulation and sound insulation.

1 shows the configuration of a conventional double glazing. As shown, the window frame 2, which is provided with the glass windows 3 and 4, respectively, is provided at a predetermined distance in double. In such a structure, there is a space (A) between the glass window and the sound insulation and heat insulation effect is increased by this space, the structures are well known and actually implemented.

However, in the conventional double-window structure, the temperature between the windows is very high due to daylight when the space between the windows is low, and when the air conditioner is operated as in summer, the heat of the space where the temperature rises is exchanged with the inside through the inner glass window. There is a problem of using a lot of cooling energy by increasing the temperature of the room.

The present invention has been made to solve the above problems of the prior art, by forming a hole in the upper and lower window frames so that the heat accumulated in the space between the double window is transferred to the outside by convection energy saving that can maximize energy efficiency The purpose is to provide a double glazing structure.

Energy-saving double glazing structure according to the present invention in the double glazing structure in which the glass window is installed more than double so as to have a certain space between the outer wall of the building,

One or more ventilation holes are provided in the window frame or the upper and lower window frames of the glass window installed on the outermost side of the glass window so that the air between the space with the glass window is vented by convection.

Here, blinds are installed in the spaces between the windows.

In addition, the ventilation port to enable the door that can be opened and closed.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a front view of a double-window structure according to a first embodiment of the present invention, FIG. 3 is a sectional view taken along line III-III shown in FIG. 2, and FIGS. 4 and 5 are second views of the present invention. A cross sectional view of a double glazing structure according to an embodiment, showing the operation of the door.

A first embodiment of the double glazing structure according to the invention is shown in FIGS. 2 and 3. As shown, the glass windows 13 fixed to the window frame 12 are fixed to the window frame 15 when viewed from the outside of the double windows 13 and 14 installed on the outer wall 10. Ventilation openings 11a and 11b are formed at regular intervals above and below the window frame 15. Referring to FIG. 3, a roll blind 20 is installed between two windows 13 and 14, and the ventilation holes 11a and 11b are formed at upper and lower portions of the outer window frame 15. The roll blind 20 serves to block sunlight coming through the outer glass window 14. Therefore, when a temperature difference is generated in the space between the inner and outer glass windows 13 and 14 and convection occurs, ventilation occurs. As shown by arrows in FIG. 3, when the air between the inner and outer glass windows 13 and 14 receives heat and the temperature increases, ventilation is performed by convection through the upper and lower ventilation holes 11a and 11b.

Without the ventilation openings 11a and 11b, in summer, the temperature of the space between the two windows 13 and 14 rises much higher than the outside air due to the heat transfer of sunlight, and thus the inside of the window 13 by heat exchange with the inner window 13 The heat transfer adds more load to the summer air conditioner that normally drives the air conditioner, thereby reducing energy efficiency. However, as shown in FIG. 3, when the air vents 11a and 11b are formed and the air temperature between the inner and outer glass windows 13 and 14 rises higher than the outside air temperature in summer, the air in the space therebetween is caused by convection. Ventilation will lower the temperature. Therefore, the load on the air conditioner is reduced.

4 to 5 show a second embodiment of the double glazing structure according to the present invention. As illustrated, the window frames 101 and 102 in which the glass window 103 is fitted are fitted to the window frame 180. The glass window 103 is a double glass window 103 inside and outside, and a space B is formed between the glass windows 103 and 104, and a roll blind 120 is provided in the space B. Ventilation openings 101a and 101b are formed in the outer window frame 101 at regular intervals in the upper and lower portions, and doors 130 and 140 are provided in the ventilation openings 101a and 101b, respectively.

As in the first embodiment, when the air temperature in the space B between the glass windows 103 increases in summer, the door 130 of the lower ventilation opening 101a is opened as shown by the arrow in FIG. 4 due to convection. While the outside air is introduced, the internal air heated as shown by the arrow in FIG. 5 is discharged to the outside while opening the door 140 of the upper ventilation opening (101b). In addition, the roll blind 120 can be cut down to block the sunlight flowing into the interior to save energy.

In this embodiment, the door is made of a very light material, but can be opened or closed manually or automatically, and can also be configured to roll or roll roll blinds manually or automatically.

In the embodiments according to the present invention, only the case of a double glass window is shown, but in the case of consisting of three or more multiple glass windows, if the ventilation openings are formed in the upper and lower windows so that air can be circulated in the window frame or the window frame of the outer glass window The effect can be obtained.

As such, the energy-saving double window structure according to the present invention provides an effect of reducing energy by lowering the air temperature in the space between the double windows by installing ventilation holes at a predetermined interval in the upper and lower window frames.

The present invention is not limited to the above embodiments and may be variously modified and implemented by those skilled in the art without departing from the technical gist of the present invention.

Claims (3)

In the double-window structure in which the glass windows are installed in double or more so as to have a certain space between the outer walls of the building Energy saving type double window structure, characterized in that the one or more ventilation holes are installed in the upper or lower window frame or the window frame of the glass window is installed on the outermost side of the glass window and then the air between the space with the glass window is ventilated by convection. The method of claim 1, Energy saving type double window structure, characterized in that the blinds are installed in the space between the windows. The method of claim 1, Energy saving type double window structure, characterized in that the ventilation opening is installed in the door opening.

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