KR200448199Y1 - Indoor ventilation apparatus using window frame - Google Patents

Abstract

The present invention is installed in the lower window frame (4) of the window (2) as an indoor ventilation device using a window and configured to receive power from the solar panel (24) embedded in the multi-layer glass window (6) of the window (2) do. That is, the indoor ventilation device of the present invention, the cylindrical fan 10 connected to the motor 12 on both side brackets 14, the flexible plate-shaped filter body 18 is wrapped around the upper and front and rear surfaces of the cylindrical fan 10 The filter slot 16 for guiding the support is formed in the window frame 4, and the housing 20 having the front and rear openings is provided, and the through hole 8a is provided at the outside and the inside of the window frame 4 installed in the housing 20. 8b are formed, and the solar panel 24 electrically connected to the motor 12 is built in the window glass pane 6, and the air inside and outside the room can be exchanged without opening the window. It has no problem opening and closing windows and allows independent operation without external power supply.

Indoor ventilation, window frame, cylindrical fan, solar panel

Description

Indoor ventilation system using windows {INDOOR VENTILATION APPARATUS USING WINDOW FRAME}

The present invention relates to a ventilator, and more particularly to a device that can ventilate the room using a window.

These days, as the window system is developed, it blocks the cold air, warmth and noise from the outside air. On the other hand, indoor air becomes increasingly dirty due to various effects such as gas stove use, human movement and breathing, and livestock hair, and the dirty air is not well-ventilated with the outside. Easier to expose.

When the concentration of carbon dioxide gas increases due to the breathing of a person in the room, the amount of oxygen is relatively decreased and the smell is increased, and the overall air condition is worsened. In the case of a heated room, the condition of the air is worsened by carbon monoxide, and in a room such as a dusty workplace, the air may be worsened by the dust or bacteria contained in the dust.

If a person in the room opens the window from time to time, ventilation with the outside air can be made properly, but opening the window from time to time is cumbersome, especially when the outside environment is cold, such as in winter, the interior window becomes cold due to the open window. You will be reluctant to keep it open.

Therefore, the indoor and outdoor air can be exchanged without leaving the window open, but if the user can ventilate the room by using the window without any device, the user will get a great response.

Therefore, an object of the present invention is to provide an indoor ventilation device capable of indoor ventilation using a window.

Another object of the present invention is to provide an indoor ventilation device that can be driven independently without an external power supply at the same time using the window ventilation.

In accordance with the above object, the present invention, the flexible fan-shaped filter body 18 is installed on both sides of the bracket 14, the cylindrical fan 10 connected to the motor 12 is axially installed to surround the upper and front and rear surfaces of the cylindrical fan 10. The filter slot 16 for guiding the support is formed, and the housing 20 having the front and rear openings is installed in the window frame 4, and the through and outside portions of the window frame 4 installed in the housing 20 8a) and 8b are formed, and the window ventilation apparatus using indoor windows, characterized in that the solar panel 24 electrically connected to the motor 12 is built in the window glass pane (6).

The present invention has the advantage that the indoor and outdoor air can be exchanged without opening the window by installing the indoor ventilation device on the window frame, there is no problem in opening and closing the window at all and can be driven independently without supplying external power.

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

1 is an exemplary configuration diagram of a window employing an indoor ventilation device according to an embodiment of the present invention, Figure 2 is a side cross-sectional view of the indoor ventilation device of Figure 1, Figure 3 is a perspective view of the indoor ventilation device of FIG. And, Figure 4 is a front sectional view of the main part of Figure 1, Figure 5 is a circuit block diagram of an indoor ventilation device according to an embodiment of the present invention.

Indoor ventilation device according to an embodiment of the present invention is implemented by using the window (2) of the window as shown in FIG. The window 2 is composed of a window frame 4 and a glass window. In the present invention, the glass window is preferably formed of a multilayer glass window 6, and a lower portion of the multilayer glass window 6 has a solar panel 24 thereon. Configure it to be built. The solar panel 24 converts solar energy into electricity and supplies the electricity to the indoor ventilation device of the present invention.

Among the window frames 4 enclosing the multi-layered glass windows 6 of the window 2, one of the window frames on one side is preferably provided in the lower window frame 4 as shown in FIG. 1. Allow built-in installation

The lower window frame 4 is a shaped steel frame in which the upper coupling portion 4a and the lower rail groove portion 4c are integrally formed above and below the intermediate pipe portion 4b, as shown in FIG. The multilayer glass window 6 is inserted and installed, and the lower coupling part 4c has a sliding rail groove part formed on the rail part of the window frame supporting the window 2, and the mohair 5 is installed.

In the present invention, the components of the indoor ventilation device are mounted in the intermediate pipe portion 4b of the lower window frame 4, and a plurality of air flows on the outer side and the inner side surface of the intermediate pipe portion 4b. The through holes 8a and 8b are formed. The through hole 8a formed in the outer portion of the window frame 4 in contact with the outside is formed to be somewhat long in the horizontal direction and press-drilled from the inside to prevent rain from entering, but the shield member 9 which is inclined downward is integrally formed on the upper side. It is configured to extend. In addition, the through-hole 8b formed in the inner side of the window frame 4 in contact with the interior is preferably configured in the form of a remnant hole, and the inner side of the window frame 4 has a lengthwise cut-out filter entrance hole for filter cleaning or replacement. 23 is formed.

In the lower window frame 4, i.e., the intermediate pipe portion 4b, a housing 20 having a structure open to front and rear for component mounting is provided, and brackets 14 are provided on both sides in the bottom portion of the housing 20 so as to have a cylindrical shape. A shaft of both ends of the fan 10 is axially supported, and one side rotation shaft of the cylindrical fan 10 is connected to the motor 12 mounted on one side bracket 14. In addition, in the housing 20, the circuit parts of the electric circuit unit 40 electrically connecting the motor 12 and the solar panel 24 embedded in the lower part of the multilayer glass window 6 are configured to be mounted together.

The cylindrical fan 10 is a blower fan for ventilation, it is preferable to configure the inclined impeller wing type that the suction air to be supplied to the room can be better than the exhaust to the contrary, if necessary, It will be apparent to those skilled in the art that may be implemented to achieve a balanced air supply in both directions.

In addition, in the embodiment of the present invention, the housing 20 has a filter slot 16 for guiding and supporting the flexible plate-shaped filter body 18 surrounding the upper and front surfaces of the cylindrical fan 10 as shown in FIG. 2. It is configured to be formed in a curved shape on both side walls of the (20), one end of the filter slot 16 is formed to extend to the bottom of the inner surface of the outer side of the window frame (4) and the other end of the filter slot (16) of the window frame (4) It extends to connect with the filter entrance hole 23 formed in the inner portion. Therefore, the flexible plate filter body 18 can be pushed into the filter slot 16 through the filter access hole 23 of the window frame 4 so that the flexible plate filter body 18 can be mounted as shown in FIG. When the filter needs cleaning, the flexible plate filter body 18 can be easily taken out from the filter entrance hole 23.

The filter access hole 23 of the lower window frame 4 is covered with the fastening plate 22, and both ends of the fastening plate 22 are fixed to the window frame 4 by screwing in the flexible plate filter body 18. ) Is not exposed to the outside.

In addition, the inner panel of the lower window frame 4 is configured to expose the operation panel 26 to the inner side together with the fastening plate 22 and the remaining hole-type through holes (8b). The operation panel 26 may be provided with control buttons for adjusting the rotation speed of the power switch, the cylindrical fan 10, etc., such as low and high, and the negative ion generator 36 shown in FIG. 4) a switch button (38 in FIG. 5) may be further provided in the operation panel 26 to allow the negative ion generator 36 to selectively operate if they are installed together.

The operation panel 26 is connected to the electric circuit portion 40 mounted on the housing 20 in the window frame 4.

As shown in the circuit block diagram of FIG. 5, the electric circuit unit 40 charges the electricity from the solar panel 24 and supplies a predetermined voltage (V1, V2, V3, etc.) and the motor 12. The controller 30 may be configured to control the driving of the motor 12 or the operation of the negative ion generator 36 on the basis of an operation control signal applied from the motor driving unit 34 and the operation panel 26 for driving. . The controller 30 may be implemented in one of an IC chip form or an analog circuit form.

Referring to the exploded perspective view of FIG. 3, the electric circuit unit 40, the motor 12, the cylindrical fan 10, the bracket 14, the filter slot 16, and the flexible plate filter body 18 are as described above. The mounted housing 20 can be inserted into the lower window frame 4 and its bottom screwed in position prior to assembling the windows with the window frames 4 as shown in FIG. 3. Alternatively, an insertion hole is formed at the bottom of the intermediate pipe portion 4b of the window frame 4, which is smaller than the bottom length of the housing 20, but in which the housing 20 can be inserted sufficiently, thereby forming the housing ( 20) can be inserted and fixed by screwing both bottom portions of the housing (20).

As described above, when the indoor ventilation device according to the embodiment of the present invention is installed in the lower window frame 4 constituting the window 2 of the window, the air outside the room can be exchanged without leaving the window open. Since external air flows in through the flexible plate filter body 18, clean air in which pollutants are blocked is introduced.

In addition, since the indoor ventilation device of the present invention is installed in the window frame 4 of the window 2, there is no problem in opening and closing the window 2, and the solar panel embedded between the multilayer glass windows 6 of the window 2 ( Since 24 is used as the supply power supplied from the outside, the independent driving of the cylindrical fan 10 for ventilation is possible without a separate external power supply.

The user may adjust the amount of air introduced from the outside using the operation panel 26, and if necessary, the anion may be introduced together with the outside air using the anion generator 36. In addition, it is possible to turn off the power switch of the operation panel 26 to prevent the indoor ventilation device from operating.

If it is determined that the filter needs cleaning, the user can screw off the fastening plate 22 and take out the flexible plate filter body 18 inserted into the filter slot 16 for cleaning. Sieve 18 may also be reinserted to remain intact.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but should be determined by the equivalent of utility model registration claims and utility model registration claims.

The present invention can be used for indoor ventilation.

1 is an exemplary configuration diagram of a window and door employing an indoor ventilation device according to an embodiment of the present invention,

Figure 2 is a side cross-sectional view of the indoor ventilation device of Figure 1,

Figure 3 is a perspective view of the indoor ventilation device of Figure 1,

4 is a front sectional view of the main part of FIG. 1;

5 is a circuit block diagram of an indoor ventilation device according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

(2)-window (4)-window frame

(6)-Double-glazed windows (8a) (8b)-Through

(10)-Cylindrical Fan (12)-Motor

(14)-Bracket (16)-Filter slot

(18)-Flexible Plate Filter (20)-Housing

(22)-Fastening plate (23)-Filter entrance

(24)-Solar Panel

Claims (4)

Cylindrical fan 10 connected to the motor 12 on both brackets 14 is axially installed, and the filter slot 16 for guiding and supporting the flexible plate-shaped filter body 18 which surrounds the upper and front surfaces of the cylindrical fan 10. The housing 20 is formed in the window frame 4, and the front and rear openings are formed, and the through holes 8a and 8b are formed in the outer and inner portions of the window frame 4 installed in the housing 20. The solar panel 24 electrically connected to the motor 12 is embedded in the window glass pane 6, and the flexible plate filter body 18 is formed on the inner side of the window frame 4 by a filter slot 16. Indoor and ventilating device using a window, characterized in that the filter entry and exit hole (23) is formed so that the) can enter and exit and configured to be opened and closed by the fastening plate (22). 2. An electric circuit section (40) according to claim 1, comprising an electric circuit portion (40) between the solar panel (24) and the motor (14) for charging and supplying electricity from the solar panel (24) at a predetermined voltage and controlling the motor (14). , Indoor ventilation device using a window, characterized in that the control panel 26 connected to the electrical circuit unit 40 is configured to be installed on the inner surface of the inner side of the window frame (4). delete The method according to claim 2, further comprising an anion generator (36) installed in the side of the window frame (4) in which the through holes (8a) (8b) are formed and electrically connected to the electric circuit portion (40) to generate anions. Indoor ventilation using windows.

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