KR20200094591A - automatically operated Window system according to surrounding environment - Google Patents

Abstract

The present invention relates to a window system which automatically operates according to the surrounding environment. The window system includes: a window frame having an opening and closing window and a fixed window formed so that the opening and closing window slides in a horizontal direction; a driving unit formed on the window frame and sliding the opening and closing window horizontally by external power to open and close; a sensor unit formed on the front and rear sides of the window frame and controlling the driving unit by measuring the surrounding environment; and a control unit supplying power to the sensor unit and the driving unit and controlling the operation.

Description

{Automatically operated Window system according to surrounding environment}

The present invention relates to a window system that is automatically operated in accordance with the surrounding environment, and more specifically, when fine dust, rain, and snow are detected outside, the window is automatically closed according to the surrounding environment to automatically close the window so as not to enter the room. It relates to a window system that is operated by.

Normally, windows and doors refer to various windows or doors that are installed in openings such as windows and doorways to block the inside of the building from the outside. In buildings, windows and doors serve as a wall separating indoors and outdoors, while the sun It becomes a supply channel for light and fresh outside air, and it is an essential component that gives people indoors a sense of view and openness.

Recently, due to the improvement of construction technology and the performance of construction materials, windows and doors have excellent airtightness, so the inflow of outdoor air as well as the outflow of indoor air are tightly controlled, resulting in excellent heating and cooling efficiency. It causes mold propagation in windowpanes, etc., which threatens the hygiene environment or causes various respiratory, gas, dust, smoke, odor, and bacteria in the room.

In addition, it is necessary to frequently ventilate the outside air by opening the window due to fine dust or moisture generated during living, and especially in the summer, since the indoor air is heated, the window is often opened.

Korean Patent Registration No. 10-1397187 relates to an automatic closing device for a window, and as shown in FIG. 1, the connecting member 10 connected to the sliding window and the connecting member 10 are pulled out while the window is opened. The closing driving unit 20, the condition setting unit 40 for setting the time or room temperature for closing the window, and the control unit 50 for driving the driving unit 20 by the time or temperature set in the condition setting unit 40 ), and the driving unit 20 includes a rotating drum 21 in which the connecting member 10 is wound, and an electric motor 30 connected to the rotating drum 21 and powered by the control unit 50. It is characterized in that the window is automatically closed by the set time or the set room temperature, so it is possible to solve the inconvenience of closing the window by waking up in the middle even if you fall asleep.

However, in the case of the prior art as described above, since it is automatically closed according to the temperature and time of the room, there is a problem that the window is not closed and pollutes the room even if there is rain, snow, yellow dust, or dust outdoors.

In addition, there is a problem in that the prior art as described above cannot be opened or closed remotely, so that the user must always keep it open to close it.

Korean Patent Registration No. 10-1397187

The object of the present invention for solving the above problems is to automatically operate the window according to the surrounding environment that can be prevented from entering the room by automatically closing the window when yellow dust, fine dust, rain and snow are detected outdoors It is to provide a system.

Another object of the present invention is to provide a window system that is automatically operated according to a surrounding environment that can be controlled by continuously communicating with an external terminal through wireless communication so that a window can be opened or closed remotely.

In addition, another object of the present invention is to provide a window system that is automatically operated in accordance with the surrounding environment that can detect a user around the window when the window is closed and prevent the accident of being caught in the window.

The window system that is automatically operated according to the surrounding environment of the present invention for solving the above problems is formed of an open window and a fixed window, a window frame formed to be able to slide the open window in a horizontal direction, and is formed on the window frame and is driven by external power. A driving unit for sliding the opening/closing window in a horizontal direction to open and close, and a sensor unit formed on the front and rear surfaces of the window frame to measure the surrounding environment to control the driving unit, supply power to the sensor unit and the driving unit, and operate It characterized in that it comprises a control unit for controlling the.

In addition, the sensor unit of the window system that is automatically operated in accordance with the surrounding environment of the present invention is formed on the rear of the window frame, rain sensor for detecting any one of outdoor humidity, moisture, water, and formed on the rear of the window frame outdoor Characterized in that it consists of a fine dust sensor for measuring the concentration of yellow dust or fine dust contained in the air, and an ultrasonic sensor formed on the front of the window frame to detect whether a user exists around the window frame.

In addition, the drive unit of the window system that is automatically operated according to the surrounding environment of the present invention is formed at the lower front of the window frame, and a pinion is formed at the end, and a driving motor for rotating the pinion is formed at the lower portion of the opening and closing window. It is characterized in that it consists of a rack that slides the opening and closing window according to the rotational direction of the driving device in engagement with the pinion.

In addition, the control unit of the window system that is automatically operated according to the surrounding environment of the present invention is characterized in that it can wirelessly communicate with an external terminal using Wi-Fi, and the external terminal can remotely control the control unit using an application.

In addition, the control unit of the window system that is automatically operated according to the surrounding environment of the present invention measures the outdoor environment through the sensor unit, and when the set outdoor environment value is reached, operates the driving unit to automatically open or close the open/close window. It is characterized by.

As described above, according to the window system that is automatically operated according to the surrounding environment according to the present invention, when yellow dust, fine dust, rain, and snow are detected outside, the window is automatically closed to prevent entry into the room. It works.

In addition, according to the window system that is automatically operated in accordance with the surrounding environment according to the present invention, there is an effect that can be controlled by continuously communicating with an external terminal through a wireless communication to open or close the window remotely.

In addition, according to the window system that is automatically operated in accordance with the surrounding environment according to the present invention, when the window is closed, there is an effect that can detect the user around the window and prevent accidents in the window.

1 is a front view showing a window automatic closing device of the prior art.
Figure 2 is a perspective view showing a state viewed from the indoor direction of the window system that is automatically operated in accordance with the surrounding environment according to the present invention.
Figure 3 is a perspective view showing a state viewed from the outdoor direction of the window system that is automatically operated in accordance with the surrounding environment according to the present invention.
4 is a screen showing an application of an external terminal for controlling a window system that is automatically operated according to the surrounding environment according to the present invention.
5 is a flow chart showing a sequence that is operated in the automatic and manual mode of the window system that is automatically operated according to the surrounding environment according to the present invention.
Figure 6 is a flow chart showing the sequence according to the presence or absence of detection of rain and fine dust in the automatic mode of the window system that is automatically operated according to the surrounding environment according to the present invention.
7 is a flow chart showing a sequence for preventing pinching in the automatic mode of the window system that is automatically operated according to the surrounding environment according to the present invention.

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. Prior to this, when it is determined that the detailed description of the functions and configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

The present invention relates to a window system that is automatically operated in accordance with the surrounding environment, and more specifically, when fine dust, rain, and snow are detected outside, the window is automatically closed according to the surrounding environment to automatically close the window so as not to enter the room. It relates to a window system that is operated by.

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

Figure 2 is a perspective view showing a state viewed from the indoor direction of the window system automatically operated in accordance with the surrounding environment according to the present invention, Figure 3 is viewed from the outdoor direction of the window system automatically operated in accordance with the surrounding environment according to the present invention It is a perspective view showing a state, Figure 4 is a screen showing an application of an external terminal for controlling the window system that is automatically operated according to the surrounding environment according to the present invention.

2 to 4, the window system that is automatically operated according to the surrounding environment according to the present invention is formed of an opening and closing window 110 and a fixed window 120, and the opening and closing window 110 is sliding in a horizontal direction The window frame 100 is formed so as to be, the driving unit 300 is formed on the window frame 100 and is opened and closed by sliding the opening and closing window 110 in the horizontal direction by external power, and the front and rear of the window frame 100 The sensor unit 200 is formed to measure the surrounding environment to control the driving unit 300, and includes a control unit (not shown) that supplies power to the sensor unit 200 and the driving unit 300 and controls the operation. It is characterized by.

In addition, the sensor unit 200 is formed on the rear of the window frame 100 is formed in the outdoor air is formed on the rear of the window frame 100 and rain detection sensor 210 that detects any one of the humidity, moisture, water in the outdoor. It is characterized in that it consists of a fine dust sensor (220) for measuring the concentration of dust or fine dust, and an ultrasonic sensor (230) formed on the front of the window frame (100) to detect whether a user exists around the window frame (100).

In addition, the driving unit 300 is formed at the bottom of the front of the window frame 100, the pinion 320 is formed at the end of the drive motor 310 for rotating the pinion 320, and is formed under the opening and closing window 110, It is characterized in that it consists of a rack 330 that slides the opening/closing window 110 according to the rotational direction of the driving device in engagement with the pinion 320.

In addition, the control unit (not shown) is characterized in that the wireless communication with the external terminal using a Wi-Fi, the external terminal can remotely control the control unit (not shown) using an application.

The window frame 100 is formed in an open part of the building, and inside the window frame 100, an open/close window 110 and a fixed window 120 for blocking outdoor air or adjusting outdoor air to be introduced are formed. .

The opening/closing window 110 and the fixing window 120 are formed with a glass at the center, and a frame is formed at the edge, and the opening/closing window 110 is mounted in the front direction of the window frame 100, which is an indoor direction, and the fixing window 120 ) Is mounted in the rear direction of the window frame 100 which is an outdoor direction.

At this time, the fixed window 120 is fixed so that it does not move in close contact with one side of the window frame 100, and the open/close window 110 is located on the other side of the window frame 100 and then slides toward one side of the window frame 100 to outdoor The window can be opened and closed to allow air to flow in.

The sensor unit 200 is for collecting outdoor and indoor environment information, and is formed on the rear top of the window frame 100 in the outdoor direction to detect any one of humidity, moisture, and rainwater to detect whether rain or snow is coming outdoors. The detection sensor 210 and the window frame 100 are formed on the rear upper part to measure the concentration of outdoor dust or fine dust 220 and the indoor window frame 100, which is formed on the front top of the window frame 100. It consists of an ultrasonic sensor 230 that prevents the user from being caught by the opening/closing window 110 when the opening/closing window 110 is closed by recognizing a user existing on the main surface.

In the case of the rainwater detection sensor 210, the sensor is positioned toward the upper side after protruding from the outer surface of the window frame 100 so that rain or snow can be detected more accurately, so that when the rain or snow falls, it is directly contacted to the sensor. It is desirable to do.

The fine dust sensor 220 is installed in parallel to the outer surface of the window frame 100 to analyze the concentration of fine dust, yellow dust, and foreign substances remaining in the air existing around the window frame 100, the flow of air flowing into the room Accordingly, it is preferable to allow air to flow in while contacting the fine dust sensor 220.

The ultrasonic sensor 230 is located on the upper front of the window frame 100, which is an indoor direction, and more precisely, when the opening/closing window 110 is closed, it is located on the upper boundary of the window frame 100 and the opening/closing window 110, so that a user or child can open and close When the opening/closing window 110 is automatically closed by detecting whether it exists around the window 110, an accident caused by a user or a child's body being caught between the opening/closing window 110 and the window frame 100 is prevented.

The driving unit 300 is for automatically opening and closing the opening/closing window 110 by power, and a driving motor 310 with a pinion 320 formed on the lower front of the window frame 100 which is an indoor direction is mounted, and the opening/closing window ( A rack 330 formed to be engaged with the pinion 320 is formed in a horizontal direction of the opening/closing window 110 at a lower portion of the 110).

As the pinion 320 rotates according to the rotation direction of the driving motor 310, the rack 330 is transferred horizontally, and the opening/closing window 110 is opened or closed by this action.

At this time, in order to automatically stop the operation of the driving motor 310 according to the position of the opening/closing window 110, limit switches (not shown) are formed on one side and the other side of the window frame 100, respectively. When the limit switch (not shown) is reached when 110) is transferred to one side and the other side of the window frame 100, the operation of the driving motor 310 is stopped, so that the opening and closing window can always be transferred to a certain position.

In addition, by using a limit switch (not shown), it is possible to determine the direction in which the opening/closing window 110 is moved, and through this, the control unit (not shown) can determine whether the current window is open or closed. .

The control unit (not shown) supplies power to the sensor unit 200 and the driver unit 300 and receives data generated from the sensor unit 200 and the driver unit 300 to grasp the operation state and surrounding environment information in real time. It becomes possible.

In addition, a control unit (not shown) is provided with a communication module (not shown) using Wi-Fi to enable real-time communication with an external terminal, and an application is formed in the external terminal to control the control unit (not shown) It is possible to control the driving unit 300 by transmitting the remote.

At this time, the control unit (not shown) in the external terminal can be controlled to automatically open and close the opening and closing window 110 according to the measured environmental information, or to manually open and close the opening and closing window 110.

5 is a flow chart showing a sequence that is operated in the automatic and manual mode of a window system that is automatically operated according to the surrounding environment according to the present invention, and FIG. 6 is a window system that is automatically operated according to the surrounding environment according to the present invention It is a flow chart showing a sequence according to the presence or absence of detection of rain and fine dust in the automatic mode, and FIG. 7 is a flowchart showing a sequence for preventing pinching in the automatic mode of the window system automatically operated according to the surrounding environment according to the present invention. .

5 to 6, the window system that is automatically operated according to the surrounding environment according to the present invention, the control unit (not shown) measures the outdoor environment through the sensor unit 200 to the set outdoor environment value. When it reaches, it is characterized in that the opening/closing window 110 can be automatically opened or closed by operating the driving unit 300.

The control unit (not shown) can select an automatic or manual mode according to a control signal transmitted through an external terminal, and in the manual mode, can manually open and close the opening/closing window 110 using a button to open or close. do.

At this time, when opening and closing the opening/closing window 110 remotely, a person may exist in the room, so when the opening/closing window 110 is closed through the ultrasonic sensor 230, when there is a person around the window frame 100, the driving unit 300 You can also stop the operation and send a warning alarm through the application.

In the automatic mode, the control unit (not shown) measures the outdoor environment through the sensor unit 200 to automatically close and close the opening/closing window 110, and the humidity, moisture, and humidity of the outdoor measured by the rainwater detection sensor 210. It is determined which one of the bites reaches and exceeds the set value.

In addition, it is determined whether the concentration of any one of the fine dust, yellow dust and foreign substances contained in the outdoor air measured by the fine dust detection sensor reaches and exceeds the set value.

At this time, the control unit (not shown) determines whether the window is open or closed after determining the position of the opening/closing window 110 through a limit switch (not shown), and if it is open, operates the driving unit 300 to open/close By moving the window 110 in the other direction of the window frame 100 to block outdoor air from entering, and in the closed state, the control unit 300 waits without transmitting a control signal.

In addition, in the automatic mode, the control unit (not shown) determines whether the user exists around the window frame 100 using the ultrasonic sensor 230, and when the user exists within the set distance value around the window frame 100, the driving unit To stop the operation 300, or rotate the driving motor 310 in the direction in which the window is opened, and if the user does not exist within the set distance value, operate the driving motor 310 in the direction in which the window is closed to close the window. do.

As described above, according to the window system that is automatically operated according to the surrounding environment according to the present invention, when yellow dust, fine dust, rain, and snow are detected outside, the window is automatically closed to prevent entry into the room. , It can be controlled by continuously communicating with an external terminal through wireless communication so that the window can be opened or closed remotely, and it is possible to detect a user around the window when the window is closed and prevent an accident from being caught in the window.

As described above, the present invention has been described mainly with respect to preferred embodiments, but those skilled in the art to which the present invention pertains vary the present invention without departing from the technical spirit and scope described in the claims of the present invention. It can be modified or modified. Accordingly, the scope of the invention should be construed by the claims set forth to cover many examples of these variations.

100: window frame
110: opening and closing window
120: fixed window
200: sensor unit
210: rain water detection sensor
220: fine dust sensor
230: ultrasonic sensor
300: drive unit
310: drive motor
320: pinion
330: rack

Claims (5)

A window frame in which an opening and closing window are formed and the opening and closing window is slidable in a horizontal direction;
A driving unit formed on the window frame and slidingly opening and closing the opening/closing window by an external power;
A sensor unit formed on front and rear surfaces of the window frame to measure a surrounding environment to control the driving unit;
And a control unit that supplies power to the sensor unit and the driving unit and controls operation.
Window system that operates automatically according to the surrounding environment.
According to claim 1,
The sensor unit
A rain water detection sensor formed on a rear surface of the window frame to detect any one of outdoor humidity, moisture, and water;
A fine dust sensor formed on the rear of the window frame to measure the concentration of yellow dust or fine dust contained in outdoor air;
It is formed on the front of the window frame, the ultrasonic sensor for detecting whether a user exists around the window frame; characterized in that consisting of
Window system that operates automatically according to the surrounding environment.
According to claim 1,
The driving unit
A driving motor that is formed at a lower front of the window frame and a pinion is formed at an end to rotate the pinion;
It is formed on the lower portion of the opening and closing window and the pinion mesh, characterized in that consisting of a rack for sliding the opening and closing window in accordance with the rotational direction of the driving device;
Window system that operates automatically according to the surrounding environment.
According to claim 1,
The control unit wirelessly communicates with an external terminal using Wi-Fi,
The external terminal is characterized in that it can remotely control the control unit using an application
Window system that operates automatically according to the surrounding environment.
According to claim 1,
The control unit may measure the outdoor environment through the sensor unit, and when the set outdoor environment value is reached, operate the driving unit to automatically open or close the opening and closing window.
Window system that operates automatically according to the surrounding environment.

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