KR20080051643A - Window ventilation system - Google Patents

Abstract

A window ventilation system is provided to improve its external appearance by embedding a heat exchanging device in a window sash. A window ventilation system comprises a window sash(10), and a heat exchanging device(20). The window sash includes an intake path(11) and an exhaust path(12). The heat exchanging device includes an intake guide path(21) and an exhaust guide path(22). The air passing through the intake path passes through the intake guide path. The exhaust guide path is installed next to the intake guide path and lets the air passing through the exhaust path pass through. An intake fan(30) and an exhaust fan(40) are installed in the intake path and the exhaust path.

Description

Window ventilation system

1 is a perspective view of a conventional ceiling-mounted ventilation system,

2 is a perspective view of a conventional window-mounted ventilation system,

3 is a perspective view of a window ventilation system according to the present invention,

Figure 4 is an enlarged perspective view of the electrothermal exchange element installation area of FIG.

5 is a sectional front view of the electrothermal exchange element installation region of FIG. 4.

* Explanation of symbols for the main parts of the drawings

10: window frame 11: intake flow path

12: exhaust passage 20: total heat exchange element

21: intake passage 22: exhaust passage

30: intake fan 40: exhaust fan

The present invention relates to a window ventilation system.

In general, a residential building or an office building opens or closes a window or operates a separate ventilation system to ventilate indoor contaminated air.

Ventilation by opening and closing windows is often used in urban areas due to outside noise and influx of pollutants, and the air is ventilated by using a separate ventilation system.

On the other hand, recently, the ventilation system has a heat exchange function for compensating not only the ventilation but also the temperature difference between the indoor air and the outdoor air. Such a conventional ventilation system is shown in FIGS. 1 and 2 according to its installation form. The ceiling type total heat exchange ventilation system 101 and the window type total heat exchange ventilation system 201 are distinguished.

Among them, the ceiling type heat exchange ventilation system (101) includes an electric heat exchanger (not shown) and an electric heat exchanger having an intake fan and an exhaust fan, and is installed to be connected to an intake duct and an exhaust duct previously installed in the indoor ceiling. Ventilate with total heat exchange between air and outdoor air.

However, in the conventional ceiling type heat exchange ventilation system 101, a duct must be constructed in the ceiling in advance for installation, and a separate installation space must be formed in the ceiling, so that it is necessary to install it in an existing house or building interior. At the same time as changing the ceiling structure, additional construction of the duct is necessary. As a result, there is a problem in that construction of existing houses or buildings is very difficult.

On the other hand, the window-type electrothermal heat exchange ventilation system 201 was installed by providing an installation space in one area of the window 301, it could be installed without changing the structure or additional construction of the duct.

By the way, since the window-type heat transfer ventilation system 201 has to form a separate installation space in the existing window 301, there is a problem that increases the construction cost and impedes the aesthetics of the window.

Accordingly, an object of the present invention is to provide a window ventilation system that can be installed in existing houses and buildings without impeding the aesthetics of windows without additional construction such as structural changes.

According to the present invention, there is provided a window ventilation system, comprising: a window frame having an intake passage and an exhaust passage communicating interior and exterior with a window; An intake flow passage provided in at least one section of the intake flow passage and the exhaust flow passage, the intake passage passing through the air passing through the intake passage, and the exhaust flow passage formed in contact with the intake passage and passing through the exhaust passage; It is achieved by a window ventilation system characterized in that it comprises a total heat exchange element is formed.

Here, the intake flow path and the exhaust flow path of the window frame are partitioned adjacent to each other by a partition wall is formed along the circumferential direction of the window frame; An outdoor side inlet and an indoor side inlet communicating with the intake passage are formed at one side of the window frame and at the outdoor side and the indoor side, respectively; It is preferable that the indoor side and the outdoor side exhaust passages communicating with the exhaust passage are formed on the indoor side and the outdoor side of the other area of the window frame, respectively.

The barrier ribs are provided with a plurality of device mounting holes at predetermined intervals along the circumferential direction of the window frame; It is effective that the electrothermal heat exchange element is provided at the element mounting port such that the intake passage and the intake passage communicate with each other, and the exhaust passage and the exhaust passage communicate with each other.

Further, it is more preferable that the total heat exchange element is formed of a pulp material, and a plurality of the intake passages and the exhaust passages are alternately stacked.

Further, the inlet and the outlet of the intake passage and the exhaust passage of the total heat exchange element are more effectively located alternately in the intake passage and the exhaust passage of the window frame.

On the other hand, it is preferable that an intake fan and an exhaust fan are respectively provided in the intake passage and the exhaust passage.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the present invention.

Figure 3 is a perspective view of the window ventilation system according to the present invention, Figure 4 is an enlarged perspective view of the electrothermal exchange element installation area of Figure 3, Figure 5 is a front sectional view of the electrothermal exchange element installation area of FIG. As shown in these figures, the window ventilation system 1 according to the present invention comprises a window frame 10 in which intake and exhaust channels 11 and 12 of indoor and outdoor air are formed, and an intake and exhaust channel 11 of the window frame 10. And a total heat exchange element 20 installed on the 12 to mutually heat-exchange the indoor and outdoor air, and an intake fan 30 and an exhaust fan 40 that intake and exhaust air to and from the intake and exhaust flow paths 11 and 12.

The window frame 10 has a frame shape of a hollow body corresponding to the inner circumference of a window opening formed in a building wall, and inside the hollow, an intake passage 11 and an exhaust gas partitioned adjacent to each other by a partition wall 13. The flow path 12 is formed along the circumferential direction of the window frame 10.

In addition, at least one region of the partition 13 partitioning the intake passage 11 and the exhaust passage 12 is provided with an element mounting tool 13a for installing the total heat exchange element 20. The element mounting holes 13a are provided at predetermined intervals along the circumferential direction of the partition wall 13 of the window frame 10 according to the size of the room and the size of the window and the conditions of the installation location of the heat exchange element 20. It may be formed in plurality.

In addition, the outdoor side inlet 15 and the indoor side inlet 16 are formed on one side of the window frame 10 and the indoor side corresponding thereto so that outdoor air flows into the interior through the intake passage 11. In addition, the indoor side exhaust pipe 17 and the outdoor side exhaust pipe 18 are provided on the indoor side of the window frame 10 and the outdoor side corresponding thereto to exhaust the indoor air to the outside through the exhaust passage 12. Formed.

Here, the interior and exterior inlet and the interior and exterior exhaust vent may be formed adjacent to one corner area of the window frame 10 according to various conditions such as the heat exchange capacity and the size of the window frame 10, the window frame 10 It may be formed at both corners of the diagonal direction of, or may be formed on both sides of one side of the window frame 10 in the longitudinal direction.

As shown in FIGS. 4 and 5, the total heat exchange element 20 includes at least one intake passage 21 through which air passing through the intake passage 11 of the window frame 10 passes through the intake passage 21 and the intake passage. It is formed in contact with the furnace 21 and has at least one exhaust passage 22 through which the air passing through the exhaust passage 12 of the window frame 10 passes.

The total heat exchange element 20 is formed of a pulp material, and the intake passage 21 and the exhaust passage 22 are formed by alternately stacking a plurality of the intake passage 21 and the exhaust passage 22. Inlet and outlet are preferably formed in a counterflow manner located in mutually opposite directions (diagonal direction on the drawing).

The total heat exchange element 20 is installed in the element mounting holes 13a formed in the window frame 10, in which case, if a plurality of heat exchange element 20 is provided at a predetermined interval, each total heat exchange element 20 Inlet and outlet of the intake passage (21) and the inlet and outlet of the exhaust passage (22) are alternately located in the intake passage (11) and the exhaust passage (12) of the window frame 10, and eventually the window As shown in FIG. 5, the intake passage 11 and the exhaust passage 12 of the frame 10 are alternately formed. This is to increase the total heat exchange efficiency by making the total heat exchange section as long as possible.

The heat exchange action of the total heat exchange element 20 uses the principle that heat and moisture move from a place where the temperature and humidity are high to a low place, respectively, as shown in FIG. When passing through the intake passage 21 of (20) and the contaminated air in the room passes through the exhaust passage (22) of the total heat exchange element (20), mutual fresh heat exchange is carried out to the outdoor fresh air of the indoor air Heat exchanged with the air flows into the room, and the indoor polluted air is exchanged with the outdoor air and then exhausted to the outside. Thereby, it is possible to ventilate while preserving the thermal energy of the indoor air while maintaining a predetermined appropriate temperature and humidity.

On the other hand, the intake fan 30 is installed on the intake passage 11 of the window frame 10 to blow outdoor air into the room through the intake passage 11, and the exhaust fan 40 exhausts the window frame 10. It is installed on the flow path 12 to blow the indoor air to the outside through the exhaust flow path (12). At this time, the intake fan 30 is preferably installed to be fixed and detachable at a position adjacent to the outdoor side inlet 15 or the indoor side inlet 16, the exhaust fan 40 is the indoor side exhaust port 17 or the outdoor side It is preferable to be installed in a position adjacent to the exhaust port 18 so as to be fixed and detachable.

Of course, the intake fan 30 and the exhaust fan 40 are driven by the power delivered from a power supply (not shown), although not shown to provide a separate control unit for controlling the driving of the intake fan 30 and the exhaust fan 40 It is preferable.

With this configuration, the process of evacuating the indoor and outdoor air by the window ventilation system 1 according to the present invention will be described.

When the intake fan 30 and the exhaust fan 40 are driven, the indoor air is blown out through the indoor side exhaust port 17, the exhaust passage 12, and the outdoor side exhaust port 18 of the window frame 10, The outdoor air is blown into the room through the outdoor side inlet 15, the intake passage 11, and the indoor side inlet 16 of the window frame 10.

At this time, indoor air and outdoor air move along the exhaust flow path 12 and the intake air flow path 11 of the window frame 10, respectively, and pass through the heat exchange element 20. Air exhausted from the outdoor heat exchange element 20 via the exhaust passage 22, and the air intakes from the outdoor to the interior via the intake air passage 21 of the heat exchange element 20.

Then, the outdoor cool and fresh air is heat-exchanged with the indoor warm and polluted air in the heat exchange element 20 to be introduced into the room as warm and fresh air, and the warm and polluted air in the indoor air is transferred from the heat exchange element 20 to the outdoor. Heat exchanged with cold and fresh air, exhausting it as outdoor, cold and polluted air. As a result, indoor air is ventilated by fresh air outside while maintaining proper temperature and humidity in the room while preserving thermal energy of the indoor air.

As described above, the window ventilation system according to the present invention forms an intake passage and an exhaust passage in a window frame, and installs an electrothermal exchange element and an intake exhaust fan on the intake and exhaust passage, thereby constructing a ventilation system. Ventilation systems can be provided only by rebuilding window frames without the need for modifications or additional ductwork.

In addition, by providing the heat exchange element and the intake and exhaust fan in the window frame, it is not necessary to form a separate installation space in the window and can be provided with a ventilation system without disturbing the aesthetics of the window. This reduces construction costs and improves the beauty of windows and doors.

As described above, according to the present invention, it is to provide a window ventilation ventilation system that can be installed in existing houses and buildings without hindering the aesthetics of windows without additional construction such as structural change.

Claims (6)

In the window ventilation system, A window frame formed with an intake flow passage and an exhaust flow passage communicating interior and exterior of the interior; An intake flow passage provided in at least one section of the intake flow passage and the exhaust flow passage, the intake passage passing through the air passing through the intake passage, and the exhaust flow passage formed in contact with the intake passage and passing through the exhaust passage; Window ventilation system comprising a total heat exchange element is formed a furnace. The method of claim 1, The intake flow passage and the exhaust flow passage of the window frame are partitioned adjacent to each other by a partition wall and formed along the circumferential direction of the window frame; An outdoor side inlet and an indoor side inlet communicating with the intake passage are formed at one side of the window frame and at the outdoor side and the indoor side, respectively; A window ventilation system according to claim 1, wherein the indoor side and the outdoor side of the window frame are formed with an indoor side and an outdoor side exhaust in communication with the exhaust passage, respectively. The method of claim 2, The partition wall is formed with a plurality of device mounting holes at predetermined intervals along the circumferential direction of the window frame, And the electrothermal heat exchange element is installed in the element installation port such that the intake passage and the intake passage communicate with each other, and the exhaust passage and the exhaust passage communicate with each other. The method of claim 3, The total heat exchange element is formed of a pulp material, the window ventilation system, characterized in that the plurality of the intake passage and the exhaust passage alternately stacked. The method of claim 4, wherein And an inlet and an outlet of the intake passage and the exhaust passage of the total heat exchange element are alternately located in the intake passage and the exhaust passage of the window frame. The method according to any one of claims 1 to 5, And an intake fan and an exhaust fan are respectively provided in the intake passage and the exhaust passage.

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