KR20210020806A - Integrated future window system - Google Patents

Abstract

According to the present invention, in a next-generation window system, at least an air circulation system and an automatic window system are integrally provided in a window frame, so that indoor air quality can be maintained while the air circulation system and the automatic window system are driven to be selective with or complementary to each other.

Description

All-in-one next-generation window system {INTEGRATED FUTURE WINDOW SYSTEM}

The present invention relates to a window system, and more particularly, to an integrated next-generation window system provided with all of a sensor, an air circulation system, an automatic window system, other auxiliary devices, a monitor, and a controller.

Window systems are essential to the building. Although various studies have been conducted on this, an integrated next-generation window system equipped with all of a sensor, an air circulation system, an automatic window system, other auxiliary devices, a monitor, and a controller has not yet been developed.

Korean Patent Registration No. 10-0540694 discloses a window-integrated ventilation device for indoor air quality control in which a filter and a ventilation fan are built-in through windows and doors.

The prior art has the advantage of being detachably provided in the window system of the veranda and automatically ventilating during the driving time set by the user, but it is operated irrespective of the condition of the indoor air quality, so that the user must set the driving time individually. There is this.

Accordingly, an object of the present invention is to provide an integrated next-generation window system in which an air circulation system and an automatic window system are integrally provided in a window frame, and an indoor/outdoor sensor, a security system, and a monitor are also provided.

In order to achieve the above object, an integrated next-generation window system according to an embodiment of the present invention includes a frame provided at an edge of a through hole penetrating a boundary dividing indoor and outdoor; An automatic window system disposed in an inner space surrounded by the frame; And an air circulation system disposed on the frame.

The air circulation system may include at least one intake and exhaust pipe penetrating through one side of the frame; And a thermally conductive heat exchange member in which a plurality of thermally conductive plates are spaced apart from each other in each of the intake and exhaust cylinders.

The thermally conductive heat exchange member may be arranged symmetrically and gradually narrower while a plurality of thermally conductive plates go up and down in a horizontal virtual line passing through the center of the intake and exhaust cylinder.

The air circulation system includes an intake cylinder penetrating above the frame; An exhaust pipe passing through the lower side of the frame; And a thermally conductive heat exchange member provided with a plurality of thermally conductive plates spaced apart from the inside of the intake cylinder.

A sensor unit including at least one indoor sensor on the indoor side of the frame and at least one outdoor sensor on the outdoor side of the frame, and comprising the indoor sensor and the outdoor sensor on one side of the frame or adjacent to the frame; An air circulation system driver driving the air circulation system; An automatic window system driving unit driving the automatic window system; And a controller for controlling the air circulation system driving unit and the automatic window system driving unit based on the data measured by the sensor unit.

Further comprising a remote control unit capable of communicating with the control unit, wherein the remote control unit is provided with a manual button, an automatic button, and a circulation button, and the control unit receives the button signal of the remote control unit and the manual button signal is received, the air The control operation of the circulation system and the automatic window system stops, returns to the step of receiving the button signal, and when the automatic button signal is received while receiving the button signal, the control operation of the air circulation system is stopped, and the sensor When the indoor sensor and the outdoor sensor are driven through the unit, and each data measured by the indoor sensor is less than each set standard, and each data measured by the outdoor sensor reaches each set standard, the indoor sensor The automatic window system is driven by opening until all of the data measured at reach the set standard, and each data measured by the indoor sensor reaches the set standard or each data measured by the outdoor sensor is If all do not meet the set criterion, the automatic window system is driven to close and returns to the step of receiving the button signal, and when a circular button signal is received while receiving the button signal, the control operation of the automatic window system is stopped. And, by driving the indoor sensor through the sensor unit, if all of the data measured by the indoor sensor does not meet each set criterion, the air until all data measured by the indoor sensor reaches the set criterion. The circulation system is driven to operate the heat exchanger, and when all data measured by the indoor sensor reaches the set standard, the control operation of the air circulation system is stopped and the control returns to the step of receiving the button signal. It can be provided.

The indoor sensor may include a CO ₂ sensor, an O ₂ sensor, and a radon sensor, and the outdoor sensor may include a fine dust sensor, a pollen sensor, and a humidity sensor.

The control unit is further connected to a security system driving unit and an output monitoring unit provided on one side of the frame or adjacent to the frame, and the method system driving unit is provided to be opened and closed separately from the frame outside the window constituting the automatic window system. The system is driven, and the security system includes: a security cover formed of a high-strength material capable of withstanding external impacts for crime prevention purposes; A filter capable of filtering out foreign substances including fine dust, pollen, and mosquitoes from the outdoor air provided between the cover and the window; And an automatic alarm device that sounds an alarm when a certain or more impact is applied to the cover, and the output monitoring unit is red when each preset standard for each data measured by the indoor sensor and the outdoor sensor is not reached. , When reached, it is displayed in green, and when an action not previously registered in the security system is detected, an alarm signal may be received and displayed.

In the present invention, at least an air circulation system and an automatic window system are integrally provided on a window frame, so that indoor air quality can be maintained while selectively or complementarily driven with each other.

1 and 2 are conceptual diagrams showing an integrated next-generation window system according to an embodiment of the present invention as viewed from a room (indoor) and outside a room (outdoor), respectively.
3 is an operation block diagram for driving an integrated next-generation window system according to an embodiment of the present invention.
4 is a conceptual diagram illustrating the remote control unit of FIG. 3 by way of example.
5 is a control flowchart of the control unit of FIG. 3.
6 is a conceptual diagram showing an integrated next-generation window system according to another embodiment of the present invention as viewed from a room (indoor).
7 is a view of configuring a thermally conductive heat exchange member with a plurality of thermally conductive plates in an intake and exhaust container or an intake container constituting an air circulation system according to an embodiment of the present invention ) Is a conceptual diagram showing.

First, this application claims priority based on patent application No. 10-2019-0099875 filed on August 14, 2019 as a basic application, and the following contents are all included in this specification as the contents of the basic application.

<Basic Concept of Next Generation Window System>

The next-generation window system consists of sensors, air circulation systems, automatic window systems, other auxiliary devices, monitors and controllers.

1.Sensor

1) The sensor is attached to the designated place on the frame itself.

2) CO ₂ , O ₂ and radon sensors are located on the frame side of the room, and fine dust, pollen and humidity sensors are located on the outer frame of the room.

2. Air circulation system

1) Next-generation window system is largely composed of air circulation system, automatic window system and frame. The air circulation system has windows, whereas automatic window systems have windows. The automatic window system is located inward inside the frame, while the air circulation system is located in a designated place inside the frame itself.

_{2) This device measures the concentration of CO 2} , O ₂ and radon in the room before operating the device in order to circulate air in and out of the room, without opening the window, and circulates air in and out of the room.

3) When the device is switched on _{, it automatically operates when any of the concentrations of CO 2} , O ₂ and radon in the room do not reach the reference value. However, when all concentrations of the three gases reach the reference value, it automatically stops working.

4) Gas leaving the room from the room is discharged without passing through a filter, but the air entering the room from outside the room can only enter through a specially designed filter that can filter out fine dust, pollen, and mosquitoes.

5) This device is equipped with a heat exchanger, so it transfers heat from a high-temperature indoor gas to a low-temperature outdoor gas in winter, and circulates air by transferring heat in the opposite way in summer. .

6) This device has the advantage of being able to freshen the air in the room at any time without using a window. Moreover, it circulates the air in the room even when it rains under any external conditions such as fine dust, pollen, mosquitoes, etc. Can be made into fresh air.

7) This device can be operated manually, but it can also be operated with a smartphone with the equipment onboard.

8) This device is mainly for the purpose of living a healthy and convenient daily life, and in order to improve the quality of human life, it is necessary not only for ordinary people, but also for the disabled, respiratory diseases, the elderly and children, pregnant women, atopic patients, sick house syndrome patients. It has a greater advantage because it can circulate air and make it fresh without opening the window.

9) On the other hand, since this device is a facility that circulates air without a window, it can itself be a vulnerability, and moreover, the filter installed in this device loses its efficiency over time and does not have a long lifespan. There is this. So, the next-generation window system can be supplemented with a device called an automatic window system.

3. Power window system

1) The automatic window system and the air circulation system differ in their operating method and structure. Because the air circulation system itself circulates air outside the room and room without windows, the automatic window system can circulate air outside the room and outside the room by opening the window when necessary.

2) This device is connected to the sensor, and before operation, the sensor detects the concentration and humidity of 5 different gases, i.e. CO ₂ , O ₂ and radon in the room, fine dust, pollen and humidity outside the room. And it works.

3) The window _{starts to open automatically when any one of CO 2} , O ₂ and radon inside the room does not reach the reference value, and at the same time, fine dust, pollen, and humidity outside the room all reach the reference value. On the other hand, even if the operation button of this device is turned on (even if it is on), if all the air quality in the room has already reached the standard value, or if any of the external fine dust, pollen, and humidity is less than the standard value, the air quality in the room is Even if it is less than, the window remains closed or works toward closing.

4) The difference between the air circulation system and the automatic window system is that the former allows the air in the room to reach the standard value by circulating air under any conditions in the external environment, and a heat exchange device can be installed to save energy, but the latter If any one of the external environments (fine dust, pollen, and humidity) does not reach the reference value, the device will not operate, so the air quality in the room cannot be improved.

5) The air circulation system has the advantage of being able to circulate the air in the room under any conditions under any conditions, so that the air in the room can reach the standard value, and it is equipped with a heat exchanger to save energy. The absence of the filter itself may act as a disadvantage, and it may take a lot of cost to maintain the filter, and the efficiency decreases as time passes due to contamination of the filter as the filter is used. On the other hand, the automatic window system has windows, so you can use the windows manually or automatically, and has the advantage of lowering maintenance cost compared to the air circulation system, but on the other hand, there is a disadvantage that it cannot be used if the external environment is less than the standard value. .

6) This device can be operated by a smart phone or manually by the equipment installed in the system.

7) This device is mainly for the purpose of living a healthy and convenient daily life, and in order to improve the quality of human life, it is necessary not only for ordinary people, but also for the disabled, respiratory diseases, the elderly and children, pregnant women, atopic patients, sick house syndrome patients. It has a greater advantage because it can circulate air and make it fresh without opening the window.

4. Other auxiliary devices

Other auxiliary devices consist of security systems, energy saving glass and smart window hardware.

1) Security system

This system is installed outside and outside the window, and is installed to protect the entire window used for movement, and is installed separately from the window. This device has three important functions.

A) It is designed to withstand a large external impact by using a very high strength material, so it can be used for crime prevention.

B) It has an automatic alarm function.

C) A filter that can filter out substances such as fine dust, pollen and mosquitoes from the air is installed, so it has a complementary function to the air circulation system and automatic window system.

2) Energy saving glass

This glass saves energy by controlling the radiation and makes it possible to properly maintain the illuminance of the room, that is, visible light makes it easier to enter the room, so that the brightness of the room can be maintained, but infrared rays do not enter the room. It prevents heat from leaving the room in winter, but prevents heat from entering the room in summer to save energy, adjust the brightness of the room, and also have a soundproof effect.

3) Smart window hardware

This hardware refers to the frame across the entire smart window, with a special focus on energy savings with special sealing and easy opening and closing. Complete sealing brings energy saving, airtightness, watertightness and sound insulation effect, and easy opening and closing ensures energy saving and convenient operation.

5. Monitor

The monitor is mounted on the <Next Generation Window System> itself, and is divided into two signals, one of which is CO ₂ , O ₂ , radon, fine dust and humidity sensor, and if this signal is red, it means that the reference value has not been reached. If it is green, it indicates that the reference value has been reached, and also shows the independently measured values for each signal value. The other is the alarm linked with the security system. The alarm signal sends an alarm signal when any activity not registered in the window security system is detected.

6. Regulator

1) There are two adjusters, one is attached to the system itself in a designated place on the frame of the <Next Generation Window System> installed throughout the room and outside the room, and the other is portable.

2) The controller has three different push button buttons in order from top to bottom, manual, automatic window system and air circulation system button.

3) There is a manual button at the top, and when this manual button is pressed, the next-generation automatic window system is operated only manually. In other words, when the manual button is pressed, the automatic window system and the automatic device of the air circulation system are stopped, and it is used when trying to open the window manually.

4) When the automatic window system button in the center is pressed, the CO ₂ , O ₂ and radon sensors in the room and the fine dust, pollen and humidity sensors outside the room are all activated. This means that when you press this button, sensors in the room and outside the room are automatically activated. When this button is pressed, the windows are not operated manually, the air circulation system is not activated, only the automatic window system is activated. When any of the air quality in the room (CO ₂ , O ₂ and radon) falls short of the reference value, and the air quality outside the room (fine dust, pollen and humidity) all reaches the reference value, the window automatically starts to open. . As soon as the air quality in the room (CO ₂ , O ₂ and radon) reaches the threshold, the window starts moving toward closing. However, even if the air quality (CO ₂ , O ₂ and radon) in the room is less than the standard value, the automatic window system will not work if the air quality (fine dust, pollen, and humidity) outside the room is less than the standard value. .

5) When the air circulation system button located at the bottom is pressed, the CO ₂ , O ₂ and radon sensors in the room all start working, but the fine dust, pollen and humidity sensors outside the room do not always work. In this case, it means that no matter what the air quality outside the room is, the sensors outside the room do not work. When this button is pressed, the windows are not activated manually, the automatic window system is not activated, only the air circulation system is activated. The air circulation system starts to operate, regardless of the external air quality, if the air quality in the room does not reach the reference value (i.e., _{if any of CO 2} , O _{2 and radon is below the reference value).} At this time, when all of the air quality in the room reaches the reference value (ie, when both CO ₂ , O ₂ and radon reach the reference value), the air circulation system automatically stops. Pressing this button means that the air circulation system and heat exchanger are activated.

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

The integrated next-generation window system according to the present invention, as commonly understood in FIGS. 1, 2 and 6, includes frames 101 and 102 provided at the edges of through holes penetrating a boundary (eg, an outer wall) that separates indoors and outdoors. ; 101, 103, 105, 107); An automatic window system 120 disposed in an inner space surrounded by the frame; And an air circulation system 110; 111, 113 disposed on the frame.

In one embodiment, as shown in FIGS. 1 and 2, the air circulation system 110 includes one or more intake and exhaust cylinders passing through one side of the frames 101 and 102; And a thermally conductive heat exchange member 115 in which a plurality of thermally conductive plates are spaced apart from each other in each of the intake and exhaust cylinders.

The thermally conductive heat exchange member 115 is configured to pass air and make heat exchange by contacting the passing air. Specifically, as shown in FIGS. 1 and 2, a plurality of thermally conductive plates 116 may be stacked and spaced apart from each other. In this case, as shown in FIG. 7, it is preferable that the plurality of thermally conductive plates 116 are arranged symmetrically and gradually narrower going up and down in the horizontal virtual line 114 passing through the center of the intake and exhaust cylinder 112. It is preferable that the intake and exhaust cylinder 112 is also formed of a thermally conductive material such as iron to maximize the heat exchange effect by the thermally conductive heat exchange member 115.

By being configured as described above, that is, when a plurality of thermally conductive plates 116 are arranged symmetrically and gradually narrower, moving upward and downward from the horizontal virtual line 114 in the intake and exhaust cylinder 112 formed of a thermally conductive material, Heat exchange is better achieved by increasing the likelihood of passing through and contacting the thermally conductive plate 116 more at a location where the temperature difference occurs during exhaust. In winter, the warmth obtained when exhausting to the thermally conductive plate 116 under the horizontal virtual line 114 is transferred to the thermally conductive plate 116 above the horizontal virtual line 114 through the intake and exhaust cylinder 112 In the end, this has the advantage of using heat (heat energy) discarded during exhaust by warming the cold outdoor air entering between the thermally conductive plates 116 on the horizontal virtual line 114 and entering the room. In the summer, on the contrary, there is an advantage of using cold air (heat energy) discarded during exhaust.

The intake and exhaust cylinder 112 may be always open, but an opening/closing device (not shown) may be further provided, and may be configured to be driven by a control unit 142 and an air circulation system driver 112 to be described later.

In addition, although not shown in the accompanying drawings, depending on the embodiment, the intake and exhaust cylinder 112 may further include a filter and a fan for exhaustion going from the outdoor side to the indoor side (if a switch is provided, an opening and closing device and a thermoelectric Between the conductive heat exchange members), the filter is preferably a backwash type filter provided to be degassed when the exhaust fan is operated as exhaust. In addition, it is preferable that the backwash type filter further includes a dedusting device at one side that can focus air flow or vibrate the filter when the degassing fan is operated as exhaust.

As described above, when a fan for dust removal, a backwash filter, and/or a dust removal device are further provided, there is an advantage in that filter clogging due to fine dust and pollen can be solved and used repeatedly.

In another embodiment, as shown in Fig. 6, the air circulation system includes an intake cylinder 111 penetrating the upper portion 103 of the frame; An exhaust tube 113 penetrating through the lower side 107 of the frame; And a thermally conductive heat exchange member 115 provided with a plurality of thermally conductive plates 116 spaced apart from the inside of the intake cylinder.

Here, the thermally conductive heat exchange member 115 is configured to pass air and contact the passing air to cause heat exchange. Specifically, as described above, a plurality of thermally conductive plates 116 may be stacked and spaced apart from each other. In this case, as shown in FIG. 7, it is preferable that the plurality of thermally conductive plates 116 are arranged symmetrically and gradually narrower going up and down in a horizontal virtual line 114 passing through the center of the intake cylinder 111. It is preferable that the intake cylinder 111 is also formed of a thermally conductive material such as iron to maximize the heat exchange effect by the thermally conductive heat exchange member 115.

The intake cylinder 111 and the exhaust cylinder 113 may also be in an open state at all times, but each is further provided with an opening/closing device (not shown), and is driven by a control unit 142 and an air circulation system driver 112 to be described later. It can be configured to be.

Further, depending on the embodiment, although not shown in the accompanying drawings, the intake cylinder 111 may be further provided with a filter and a fan for exhaustion going from the outdoor side to the indoor side (if a switch is provided, an opening and closing device and a thermoelectric Between the conductive heat exchange members), the filter is preferably a backwash type filter provided to be degassed when the exhaust fan is operated as exhaust. In addition, it is preferable that the backwash type filter further includes a dedusting device at one side that can focus air flow or vibrate the filter when the degassing fan is operated as exhaust.

1, one or more indoor sensors 132 may be provided on the indoor side 101 of the frame, and one or more outdoor sensors 134 may be provided on the outdoor side 102 of the frame, as shown in FIG. .

The indoor sensor 132 includes a CO ₂ sensor 133, an O ₂ sensor 131 and a radon sensor 135, and the outdoor sensor 134 is a fine dust sensor 136, a pollen sensor 137, and A humidity sensor 138 may be included. The indoor sensor 132 is located in the indoor frame 101 at a position spaced apart from the intake and exhaust cylinder 112 or the exhaust cylinder 113, and the outdoor sensor 134 is adjacent to the intake and exhaust cylinder 112 or the intake cylinder 111. It is preferable to place each on the outdoor frame 102 of the location.

1 and 2, the driving device 170 for driving the air circulation system 110 and the automatic window system 120 is provided adjacent to the frames 101 and 102, or as shown in FIG. 6, It may be provided on one side of the frame 101.

As shown in FIG. 3, the driving device 170 includes a sensor unit 130 including the indoor sensor 132 and the outdoor sensor 134; An air circulation system driver 112 for driving the air circulation system 110; An automatic window system driving unit 122 that drives the automatic window system 120; And a control unit 142 for controlling the air circulation system driving unit 112 and the automatic window system driving unit 122 based on the data measured by the sensor unit 130.

A remote control unit 144 is further connected to the control unit 142 to configure one controller 140. The remote control unit 144 may be a remote control or a smart phone. In addition, a security system driver 160, an output monitoring unit 150, and a storage unit (not shown), which will be described later, may be further connected to the control unit 142.

The remote control unit 144 may be provided with a manual button 141, an automatic button 143, and a circulation button 145, as shown in FIG. 4. As shown in FIG. 5, the control unit 142 may be provided to drive the air circulation system driving unit 112 and the automatic window system driving unit 122 through the remote control unit 144.

Specifically, as shown in FIG. 5, when starting with a predetermined switch (not shown), the control unit 142 receives a button signal of the remote control unit 144 (S100), and when a manual button signal is received (S110). ), the control operation of the air circulation system 110 and the automatic window system 120 is stopped (S111), and the control may be provided to return to the step (S100) of receiving the button signal.

Subsequently, when the button signal is received and the automatic button signal is received (S120), the control operation of the air circulation system 110 is stopped, and the indoor sensor 132 and the outdoor sensor through the sensor unit 130 By driving 134 (S121), all of the data measured by the indoor sensor 132 does not meet each set standard (set to a specific value or range) (S122), and measured by the outdoor sensor 134 When all of the data reaches each set criterion (S123), the automatic window system 120 is driven to open until all data measured by the indoor sensor 132 reach the set criterion (S124). .

On the other hand, when all of the data measured by the indoor sensor 132 reaches the set criterion or all of the data measured by the outdoor sensor 134 do not meet the set criterion, the automatic window system 120 is closed. It may be provided to control to drive (S125) and return to the step (S100) of receiving the button signal.

Subsequently, when the button signal is received and the circular button signal is received (S130), manual operation is prevented by driving a predetermined locking device, and at the same time, the control operation of the automatic window system 120 is stopped, and the sensor unit When the indoor sensor 132 is driven through 130 (S131), and all of the data measured by the indoor sensor 132 does not meet each set standard (S132), the measured by the indoor sensor 132 The air circulation system 110 is driven until each data reaches the set standard, so that the heat exchanger by the thermally conductive heat exchange member 115 is operated (S134).

On the other hand, when all of the data measured by the indoor sensor 132 reaches the set standard, the control operation of the air circulation system 110 is stopped and the control returns to the step (S100) of receiving the button signal. It can be provided.

By being configured as described above, the integrated next-generation window system according to the embodiment is a desired manual, automatic window system 120 and air circulation system 110 through the control unit 142 anywhere with a remote control unit 144 such as a remote control or a smart phone. ) Is selectively driven, and indoor air quality can be maintained at a certain level.

As described above, the control unit 142 may further include a security system driving unit 160 and an output monitoring unit 150 provided at one side of the frame or adjacent to the frame.

Here, as shown in FIG. 2, the method system driving unit 160 is provided to drive a method system 162 provided to be separately opened and closed in the frame outside a window constituting the automatic window system 120.

The crime prevention system 162 includes a security cover formed of a high-strength material capable of withstanding external impacts for crime prevention purposes; A filter capable of filtering out foreign substances including fine dust, pollen, and mosquitoes of outdoor air provided between the cover and the window; And an automatic alarm device that sounds an alarm when a certain or more impact is applied to the cover.

On the other hand, the output monitoring unit 150 is red when each of the data measured by the indoor sensor 132 and the outdoor sensor 134 does not reach each preset standard, and green when it reaches the corresponding sensor. And receiving and displaying an alarm signal when an action that is not previously registered in the security system 162 is detected.

In the embodiment of Figure 6, the opening and closing device of the intake cylinder 111 and the exhaust cylinder 113 is shown to be opened and closed by pushing left and right, but is not limited thereto. The automatic window system 120 is also shown to be opened and closed while rotating indoors and outdoors by a rotating shaft 121 protruding from the left and right as a single window, but is not limited thereto. In addition, the configuration of the automatic window system 120 may be composed of a commonly known automatic window opening and closing system or an automatic door opening and closing system.

101; Indoor frame 102: outdoor frame
103: finger insertion groove 110: air circulation system
116: thermally conductive plate 120: automatic window system
130: sensor unit 132: indoor sensor
134: outdoor sensor 162: method system
170: drive device

Claims (8)

A frame provided at the edge of the through-hole penetrating the boundary dividing the indoor and outdoor areas;
An automatic window system disposed in an inner space surrounded by the frame; And
An integrated next-generation window system comprising an air circulation system disposed on the frame.
The method of claim 1,
The air circulation system may include at least one intake and exhaust pipe penetrating through one side of the frame; And
An integrated next-generation window system, comprising: a thermally conductive heat exchange member having a plurality of thermally conductive plates spaced apart from each other in each of the intake and exhaust cylinders.
The method of claim 2,
The thermally conductive heat exchange member is an integrated next-generation window system, characterized in that a plurality of thermally conductive plates are arranged symmetrically and gradually narrower upward and downward in a horizontal virtual line passing through the center of the intake and exhaust cylinder.
The method of claim 1,
The air circulation system includes an intake cylinder penetrating above the frame;
An exhaust pipe passing through the lower side of the frame; And
An integrated next-generation window system, comprising: a thermally conductive heat exchange member provided with a plurality of thermally conductive plates spaced apart from the inside of the intake cylinder.
The method according to any one of claims 1 to 4,
One or more indoor sensors are provided on the indoor side of the frame, and one or more outdoor sensors are provided on the outdoor side of the frame, respectively,
One side of the frame or adjacent to the frame,
A sensor unit composed of the indoor sensor and the outdoor sensor;
An air circulation system driver driving the air circulation system;
An automatic window system driving unit driving the automatic window system; And
And a control unit for controlling the air circulation system driving unit and the automatic window system driving unit based on the data measured by the sensor unit.
The method of claim 5,
Further comprising a remote control unit capable of communicating with the control unit,
The remote control unit is provided with a manual button, an automatic button and a circulation button,
The control unit stops the control operation of the air circulation system and the automatic window system when a manual button signal is received while receiving the button signal of the remote control unit, and returns to the step of receiving the button signal,
When an automatic button signal is received while receiving the button signal, the control operation of the air circulation system is stopped, and the indoor sensor and the outdoor sensor are driven through the sensor unit, so that each data measured by the indoor sensor is If less than the set criterion and each data measured by the outdoor sensor reaches each set criterion, the automatic window system is driven to open until all data measured by the indoor sensor reach the set criterion, ,
When all of the data measured by the indoor sensor reaches the set criterion or all of the data measured by the outdoor sensor does not meet the set criterion, driving the automatic window system to close and receiving the button signal Go back to,
When the button signal is received and the circular button signal is received, the control operation of the automatic window system is stopped, and the indoor sensor is driven through the sensor unit, so that all the data measured by the indoor sensor do not meet each set standard. Then, the air circulation system is driven until each data measured by the indoor sensor reaches the set standard so that the heat exchanger is operated,
When all of the data measured by the indoor sensor reaches the set criterion, the control operation of the air circulation system is stopped and the integrated next-generation window system is provided to control to return to the step of receiving the button signal.
The method of claim 6,
The indoor sensor includes a CO ₂ sensor, an O ₂ sensor, and a radon sensor,
The outdoor sensor includes a fine dust sensor, a pollen sensor, and a humidity sensor.
The method of claim 7,
The control unit is further connected to a security system driving unit and an output monitoring unit provided on one side of the frame or adjacent to the frame,
The method system driving unit drives a method system provided to be separately opened and closed in the frame outside the window constituting the automatic window system,
The security system includes a security cover formed of a high-strength material capable of withstanding external impacts for crime prevention purposes; A filter capable of filtering out foreign substances including fine dust, pollen, and mosquitoes from the outdoor air provided between the cover and the window; And an automatic alarm device that sounds an alarm when a certain or more impact is applied to the cover,
The output monitoring unit displays red when each of the data measured by the indoor sensor and the outdoor sensor does not reach each preset standard, and displays green when it has reached, and when an activity not previously registered in the security system is detected. An integrated next-generation window system, characterized in that receiving and displaying an alarm signal.

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