KR20160053695A - Automatic window control system and method based on smartphone - Google Patents

Abstract

The present invention relates to a system for automatically controlling a window based on a smartphone capable of automatically opening and closing a window by collecting the interior temperature and humidity, a reference, and meteorological information, and a control method thereof. The method for automatically controlling a window based on a smartphone comprises: a reference setting step of setting a reference for the temperature and humidity for opening and closing a window using a smartphone of a user; a meteorological information collecting step of collecting meteorological information on the temperature, the humidity, and weather from a meteorological administration server; an interior data measuring step of obtaining the interior temperature and humidity data using a temperature sensor and a humidity sensor of the window opening and closing device; a data comparing and analyzing step of comparing and analyzing the reference, meteorological information, and interior data; a determination step of determining whether the window is opened or closed according to the comparison and analysis result; and a window opening and closing step of opening and closing a window by generating and transmitting a control signal controlling the window to be opened or closed according to a determination result and controlling a motor using the window opening and closing device that received the control signal.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart window-based automatic window control system and method,

The present invention relates to a smartphone-based automatic window control system and method, and more particularly, to a smartphone-based automatic window control system and method for comparing and analyzing indoor temperature data measured by sensors and weather data of a meteorological service server using a user's smartphone The present invention relates to a smart phone-based automatic window control system and method for controlling the opening and closing of a window, and photographing an object using an infrared sensor and an infrared camera to confirm the photo on the smartphone of a user.

The damage caused by disaster disasters is increasing every year. There are natural disasters such as typhoons and heavy snow, but there are accidents like fires caused by human neglect. Many of the fires that occur annually often occur in large areas in areas where the residential environment is weak, that is, the population is denser than the space.

In the case of facilities such as living quarters or nursing homes, the number of personnel engaged in welfare facilities is insufficient compared to the number of residents. If a fire accident caused by carelessness occurs, it often leads to large human resources. In the case of recent hospital disasters, careless human resources can also be said.

In order to compensate for this, the prior arts have proposed various methods and systems for transmitting and confirming the emergency situation to the user by using the mobile communication terminal in case of intruder occurrence, fire occurrence, gas leakage or emergency occurrence.

Korean Patent Laid-Open Publication No. 10-2014-0050773 discloses a technique for real-time transmission of a distance between a window frame to which a multipurpose alarm device is attached and a window chassis, and image image information on a smart phone. An object is detected using an infrared light emitting diode and a light receiving transistor, and a control unit outputs an alarm control signal to an alarm signal generating unit, and a sound signal is output from a speaker connected to the alarm signal generating unit. The control unit photographs the entire area of the window including the window frame and the window chassis using the photographing / storing device to generate an image, and the distance sensing unit measures the distance between the window frame and the window chassis, The information and the generated image are transmitted to the smartphone. However, the above-described window surveillance system only discloses the technical configuration of the crime prevention function, and does not disclose a technique of controlling the indoor temperature and humidity in real time and controlling the window to be opened or closed by using an automatic or smart phone, There is a problem in that it is necessary to directly open or close it.

Second, in Korean Patent Laid-Open Publication No. 10-2005-0005139, when an intruder occurs, a fire is generated, a gas leak or an emergency occurs, the alarm is easily detected and a warning sound is generated, and automatic dialing is performed Directional communication with the recipient's terminal and the field so that the situation of the field can be verified in real time or reproduced by voice and image by providing a predetermined voice message to the receiver and simultaneously the optimal security and security function Of course, we have introduced a security system that can cope with emergencies promptly. However, the security system only detects the temperature and the intrusion, and only discloses a technique for transmitting the voice and the image in real time when an emergency occurs. Thus, there is a problem that a direct window must be opened or closed in an emergency.

As described above, various methods and systems for presenting the current situation in the case of the crime prevention function and the emergency situation are presented, but only in real time, it is necessary to move to the space where the windows are directly installed and take opening or closing.

Korean Patent Publication No. 10-2014-0050773 (Apr. 30, 2014) Korean Patent Publication No. 10-2005-0005139 (January 13, 2005)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a smart phone-based automatic window control system and method for automatically opening and closing a window by collecting reference values, weather information, .

It is another object of the present invention to provide a smart phone-based automatic window control system and method for opening a window in real time when a human being such as a fire occurs, and for taking out a fire situation.

It is another object of the present invention to provide a smartphone-based automatic window control system and method for opening and closing a window using a smartphone for a disabled person and an elderly person whose mobility is inconvenient.

The present invention also relates to a smart phone-based automatic window for controlling a user to take a picture or close a window by confirming in real time a picture taken by the camera when a smartphone user leaves the house for a long period of time when the user senses an object outside the window A control system and method are provided.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a method for controlling a temperature of a vehicle, the method comprising: setting a reference value for temperature and humidity for opening and closing a window using a smartphone of a user; An indoor data measuring step of measuring indoor temperature and humidity data using a temperature sensor and a humidity sensor of a window opening / closing device; a data comparing / analyzing step of comparing / analyzing the reference value with weather information and indoor data; Wherein the window opening / closing device generates and transmits a control signal for controlling the window to be opened or closed as a result of the determination, And opening and closing the window by controlling the window.

The method may further include transmitting a window opening / closing signal to the smartphone of the user according to the smartphone-based automatic window control method according to the present invention, wherein the opening / closing of the window with the user's smartphone And transmits the generated control signal to the window opening / closing apparatus.

A method for controlling an automatic window based on a smartphone according to the present invention comprises the steps of detecting an object outside the window using an infrared sensor and photographing the outside of the window using an infrared camera during object detection, Storing a photograph in the smartphone of the user and transmitting the photograph storage message to the smartphone of the user, and checking the photograph stored in the smartphone of the user connected to the operation server .

According to another aspect of the present invention, there is provided a smartphone for a user that sets a reference value for temperature and humidity for opening and closing a window, a meteorology server that stores weather information about temperature, humidity, and weather, The control unit receives the reference value and the weather information stored in the operation server and transmits the reference value and the weather information to the control unit. The control unit controls the reference value and the weather And a window opening / closing device for comparing / analyzing the information and the indoor data, determining whether the window is opened / closed, generating a control signal, and operating the motor to open / close the window.

In the smartphone-based automatic window control system according to the present invention, the smartphone of the user generates a control signal for controlling the window to be opened or closed and transmits the control signal to the window opening / closing device .

In the automatic window control system of a smartphone based on the present invention, the window opening / closing device further includes an infrared sensor and an infrared camera, and when the object is detected outside the window using the infrared sensor, Storing a photo taken by the external to the operating server and transmitting a photo storage message to the smartphone of the user, and when the user receiving the photo storage message accesses the operation server with the smartphone of the user, .

According to the smartphone-based automatic window control method and system according to the present invention configured as described above, the reference value, the weather information, the room temperature and the humidity are collected and the window is automatically opened and closed.

In addition, when a human being such as a fire occurs, the user can check the temperature in real time using a smart phone, open the window, and transmit the fire situation.

In addition, disabled people and elderly people with inconvenient behavior can easily open and close windows using smart phones.

Also, if you detect an object outside the window, you can check the picture outside the window with your smartphone, so you can check the intruder in advance and take appropriate action.

1 is a block diagram illustrating a smartphone-based automatic window control system according to a preferred embodiment of the present invention.
2 is a flowchart illustrating a smartphone-based automatic window control method according to a preferred embodiment of the present invention.
3 is a flowchart illustrating a method for monitoring a window outside of a smartphone-based automatic window control method according to an exemplary embodiment of the present invention.
4 is an operation diagram illustrating a smartphone-based automatic window control method according to another embodiment of the present invention.

The present invention may have various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

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

1 is a block diagram illustrating a smartphone-based automatic window control system according to a preferred embodiment of the present invention.

Referring to FIG. 1, a smartphone-based automatic window control system includes a user's smartphone 100, a weather station server 200, an operation server 300, and a window switch 400.

The user's smartphone 100 sets a reference value for temperature and humidity for the user to open and close the window. In the present embodiment, the user's smartphone 100 can set the reference value using a program, an application, or the like.

The weather station server 200 stores weather information about the temperature, humidity, and weather of the corresponding area announced by the Korea Meteorological Administration.

The operation server 300 collects and stores the reference value set by the user's smartphone 100 and the weather information stored in the weather station server 200. The operation server 300 updates the reference value and the weather information with a time period set by the user.

The window opening and closing apparatus 400 controls the window to be opened or closed and includes a transmitting and receiving unit 410, a control unit 420, a temperature sensor 421, a humidity sensor 422, an infrared sensor 423, an infrared camera 424 ), And a motor 430.

The transmission / reception unit 410 receives the reference value and the weather information stored in the operation server 300. The transceiver 410 may receive data from the operation server 300 using various short-range communications. For example, it uses various short-range communication methods such as Wi-Fi, Zigbee, and Ultra Wide Band (UWB).

The temperature sensor 421 measures the temperature of the room. The temperature sensor 421 may be a module composed of a contact type temperature sensor, a non-contact type temperature sensor, and a combination of the contact type temperature sensor and the non-contact type temperature sensor. For example, various sensors and modules such as thermosensitive semiconductors, thermistors, infrared thermometers, and thermocouples are used.

The humidity sensor 422 measures the humidity of the room. In the present embodiment, the humidity sensor 422 can use various sensors and modules such as a humidity sensor and a semiconductor humidity sensor.

The infrared sensor 423 senses an object outside the window. The infrared sensor 423 may use a PIR sensor for detecting a human body or a human body detection sensor having various configurations including a light receiving unit and a light emitting unit.

The infrared camera 424 photographs an object outside the window when the infrared sensor 423 detects the object. The infrared camera 424 can use various shapes of cameras such as a domed camera and a general CCTV type camera.

The control unit 420 compares / analyzes the reference value and the weather information received by the transceiver unit 410 together with the indoor data measured by the temperature sensor 421 and the humidity sensor 422 to determine whether the window is opened or closed, .

The motor 430 operates according to the control signal generated by the control unit 420 to open or close the window. Various types of motors may be used for the motor 430, and a stepping motor is used in the present embodiment.

2 is a flowchart illustrating a smartphone-based automatic window control method according to a preferred embodiment of the present invention.

As shown in FIG. 2, the user sets a reference value for temperature and humidity for opening and closing a window using the user's smartphone 100 (S110). The reference value may be set using a program or an application of the smartphone 100 of the user.

The window opening / closing apparatus 400 collects weather information on temperature, humidity, and weather from the weather station server 200 (S120). The weather station server 200 parses the XML document provided by the weather station and stores weather information about temperature, humidity and weather of the corresponding area.

In addition, the window opening / closing apparatus 400 measures indoor data on the room temperature and humidity using the internal temperature sensor 421 and the humidity sensor 422 (S130). The reference value, the weather information, and the indoor data are transmitted to the control unit 420 of the window opening / closing apparatus 400.

The control unit 420 of the window opening / closing apparatus 400 performs comparison / analysis of the collected reference value, weather information, and indoor data (S140). The comparison / analysis compares the reference temperature set by the smartphone 100 of the user with the temperature measured by the temperature and temperature sensor 421 collected by the weather station server 200, and the humidity measured by the humidity sensor 422 And the weather information collected by the weather station server 200.

The set value is compared with weather information and indoor data to determine whether the window is opened or closed (S150). The window opening / closing apparatus 400 opens the window when it is determined that the indoor data is higher than the set value (S151), and closes the window when it is determined that the indoor data is lower than the set value (S152). The opening and closing of the window controls the control unit 420 of the window opening / closing apparatus 400 to automatically operate the motor 430 in accordance with opening or closing of the motor 430.

3 is a flowchart illustrating a method for monitoring a window outside of a smartphone-based automatic window control method according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the window opening / closing apparatus 400 operates the infrared sensor 423 when the window is opened (S200). The infrared sensor 423 detects an intruder intruding into the room from the outside.

The infrared sensor 423 determines whether an object is sensed (S210). When an object is sensed, a photograph taken outside the window using the infrared camera 424 of the window opening / closing apparatus 400 is stored in the operation server 300 (S220). When the photograph is stored in the operation server 300, the photograph storage message is transmitted to the smartphone 100 of the user.

The user who has received the photo storage message accesses the operation server 300 using the smartphone 100 of the user and confirms the photographed photos using the infrared camera 424 at step S230. If the user is determined to be an intruder as a result of the confirmation, the user can call the police or take emergency actions such as emergency broadcasting.

4 is an operation diagram illustrating a smartphone-based automatic window control method according to another embodiment of the present invention.

4, a smartphone-based automatic window control method includes a sensor module 10, an infrared camera module 20, a Wi-Fi module 30, a motor module 40, a DB / FTP server 50, A GCM server 60, and an application 70 of a smartphone.

The sensor module 10 includes a temperature sensor, a humidity sensor, and an infrared sensor. First, the sensor module 10 measures temperature and humidity using a temperature sensor and a humidity sensor (S11). The measured temperature and humidity are transmitted to the Wi-Fi module 30 and transmitted to the server using a Wi-Fi communication method as a short distance communication method (S12).

The DB / FTP server 50 stores data on the temperature and humidity measured by the sensor module 10 (S13), and transmits the stored data to the GCM server 60. The process of storing data in the DB / FTP server 50 means storing the data received through the JSP parameter in the DB, and the GCM server 60 means the Android push notification service.

The GCM server 60 compares the received data with the set value set in the application 70 of the smartphone to determine whether the window is opened or closed (S14). The CGM server 60 reads the DB table and determines whether the window is opened or closed by confirming that the value is changed to a value equal to or higher than the set temperature.

The determination whether the window is opened or closed according to the determination step transmits a push notification to the smartphone application 70 (S15). The user can confirm the change of the room temperature through the push notification received by the application 70 of the smartphone.

The GCM server 60 transmits a control signal to the Wi-Fi module 30 according to the window opening / closing determination result (S16), and the Wi-Fi module 30 confirms the state of the window according to the received control signal (S17 ).

The Wi-Fi module 30 that has confirmed the window status controls the motor module 40 according to the received control signal (S18). When the control signal received by the WiFi module 30 is in the same state as the current window, the motor module 40 is not operated.

The user receiving the push notification transmits a control signal for manually controlling the opening or closing of the window to the DB / FTP server 50 using the application 70 of the smart phone (S21) The control unit 50 transmits the control signal to the Wi-Fi module 30 (S23). The Wi-Fi module 30 confirms the status of the window according to the received control signal (S23).

The Wi-Fi module 30 having confirmed the window status controls the motor module 40 according to the received control signal (S24). When the control signal received by the WiFi module 30 is in the same state as the current window, the motor module 40 is not operated.

In addition, the sensor module 10 senses an object outside the window using an infrared sensor (S31).

When an object is detected by the infrared sensor, the infrared camera module 20 photographs the outside of the window (S32). The infrared camera module 20 photographs the outside of the window to confirm the object sensed by the infrared ray display.

FTP server 50 transmits the photographed image to the WiFi module 30 in step S33 and the WiFi module 30 reads the photograph in step S34 and stores the byte array in the buffer. (S35), and the DB / FTP server 50 receives and stores the photograph (S36). The DB / FTP server 50 may transmit a picture storage message to the user, such as the push notification, when the picture is stored.

The user who has received the photo storage message accesses the DB / FTP server 50 using the application 70 of the smart phone at step S41 and the DB / FTP server 50 transmits the stored photo to the application 70 of the smart phone, (S42). The user can confirm the object with the received photograph by using the application 70 of the smart phone, and call the police or take emergency broadcasting or the like if it is determined that the intruder is the intruder.

The embodiments of the present invention described in the present specification and the configurations shown in the drawings relate to the most preferred embodiments of the present invention and are not intended to encompass all of the technical ideas of the present invention so that various equivalents It should be understood that water and variations may be present. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments, and that various modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. , Such changes shall be within the scope of the claims set forth in the claims.

10: Sensor module 20: Infrared camera module
30: Wi-Fi module 40: Motor module
50: DB / FTP server 60: GCM server
70: Smartphone application
100: user's smartphone 200: weather station server
300: Operating server 400: Window opening / closing device

Claims (6)

A reference value setting step of setting a reference value for temperature and humidity for opening and closing a window using a smartphone of a user;
A weather information collection step of collecting weather information about temperature, humidity and weather from the weather service server;
An indoor data measuring step of measuring temperature and humidity data of a room using a temperature sensor and a humidity sensor of a window opening / closing device;
A data comparison / analysis step of comparing / analyzing the reference value with weather information and indoor data;
Determining whether the window is open or closed with the comparison / analysis result; And
A window opening / closing step of opening / closing the window by controlling and opening the window by the window opening / closing device that receives the control signal, and generates and transmits a control signal for controlling the window to be opened or closed;
Based smart window control method.
The method according to claim 1,
And transmitting a window opening / closing signal to the smartphone of the user,
Wherein the controller generates a control signal for controlling the window to be opened or closed with the user's smartphone according to a command of the user and transmits the control signal to the window opening / closing device.
The method according to claim 1,
An object sensing step of sensing an object outside the window using an infrared sensor;
A photo storage step of storing a photo taken outside the window using an infrared camera in an operation server and transmitting a photo storage message to the user's smartphone, And
A photograph confirming step of allowing a user who has received the photograph storing message to confirm a photograph stored in the smart phone of the user by accessing the operation server;
Further comprising the steps of:
A user's smartphone that sets a reference value for temperature and humidity for window opening and closing;
A weather station server that stores weather information about temperature, humidity, and weather;
An operation server for collecting and storing the reference value and weather information; And
The control unit receives the reference value and the weather information stored in the operation server and transmits the reference value and the weather information to the control unit. A window opening / closing device for comparing / analyzing data, judging whether a window is opened / closed, generating a control signal and operating a motor to open / close a window;
A user's smartphone-based automatic window control system.
5. The method of claim 4,
The smartphone of the user,
Wherein the controller generates a control signal for controlling the window to be opened or closed and transmits the control signal to the window opening / closing device.
5. The method of claim 4,
The window opening /
Further comprising an infrared sensor and an infrared camera,
Storing a photograph taken outside the window by the infrared camera on the operating server when the infrared sensor detects an object outside the window, and transmitting a photograph saving message to the user's smartphone,
Wherein the user who has received the photo storage message confirms the photo stored in the smartphone of the user by accessing the operation server.

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