KR101792142B1 - Device setup method of smart devices that control radio control devices linked with internet of things - Google Patents

Abstract

Disclosed is a radio control apparatus interfaced with a thing Internet and a device setup method of a smart device for controlling the same. A method for setting up a smart device includes the steps of: storing, in a storage unit, an IoT environment setting value according to a user input by a control unit of a smart device; The control unit of the smart device reads the original data of the IoT environment setting value stored in the storage unit according to the user input to generate the queue code; Displaying the generated quay code on a screen of the smart device; A control unit driving a camera to capture and receive a cue code displayed on a screen of another smart device; The control unit reads environment setting information from the received quail code and stores the read IoT environment setting value in the storage unit as its IOT environment setting value. The embodiment of the present invention can simplify the pairing method between wireless devices and make it possible to pair with each other conveniently.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for setting up a wireless control device and a smart device for controlling the same,

In particular, the present invention relates to a wireless control apparatus interfaced with a thing Internet and a device setup method of a smart device controlling the same.

In recent years, the spread of smart devices including smart phones, smart pads, and tablet PCs has progressed at a rapid pace, and each person has at least one smart device.

In addition, as the Internet of things is rapidly spreading due to the innovative development of the network environment and the provision of various contents, the home network industry using the smart device is also activated, which enables remote control of various electric / electronic devices required for daily life.

The smart device can be downloaded and installed from various developers in the App Store or the Android Market, and then the application can be executed to operate the electric / electronic devices installed in the home or office Can be controlled.

The device setup method of such a smart device is as follows.

FIG. 1 is a flowchart showing an entire process from the physical installation of the IoT device to the IoT application for controlling the IoT device from the smart device, the initial setting value change of the IoT application, and the pairing process for setting the wireless communication path of the smart device .

Referring to FIG. 1, a process S101 of installing an IoT device at home, a process S102 of installing an IoT app to control the IoT device in a smart device, a process of controlling an IoT app and a controllable IoT device A step S103 to S104 of performing a setting function of an app for selecting an IoT device and a place used by the actual user by an actual user. When the setting is completed according to the convenience of the user, the installed IoT device and the smart device are wirelessly communicated The process of steps S105 to S106 for performing the pairing process for enabling the connection is performed.

If there are a large number of family members in the household and all of them have smart devices, all the family members repeat the processes of S102 to S106 to control the IOT device in the home smart device.

If this process is limited to a single set of smart devices, it's not a complicated and time-consuming process, but if you have a lot of family members, you'll have to set up the same settings on all your family members' smart devices, Inconvenience is caused.

2 shows an example of a basic setting value of a smart device app for controlling home IoT devices and an environment setting value set according to a user's own home environment.

The basic structure of an IoT app is the same list of available IoT electronics for each place in the house. By default, it consists of the default names from location 1 to location n, and the default names of each place IoT device. IoT device is checked for use.

Users can select the place and IoT device to use according to their own home environment and display it on the screen of the smart device, change the name of the place and the name of the electronic device, and configure the preference according to the user's convenience.

In the process of S103 and S104 of FIG. 1, the setting of FIG. 2 is performed. However, there is no problem with the function of the app providing user convenience. However, there are a lot of time and setting difficulties in setting the environment of the smart device according to the home environment exist.

In particular, IoT device settings in the home can be used by all members of the family, so it is necessary to set the same setting for each smart device of each family member. In such a case, the IoT device configuration becomes inconvenient and the user's convenience becomes poor.

FIG. 3 is a diagram illustrating a basic pairing process for connecting the smart light switch and the IoT app, which is the IoT device (S607).

Referring to FIG. 3, the pairing process includes a step S601 of selecting the room information in which the smart light switch is installed, an S602 process of selecting a device of the IoT device to be paired next, a step S602 of selecting the smart light switch Step S603, step S604 for selecting the number of pieces of the smart light switch, and step S605 for storing the selected pieces of information.

After this process is performed, the screen of the smart light switch is set to the set S606 screen. Then, in the screen S606, the menu button S613 of the smart device is pressed to display the pairing button S614. When the pairing button S614 is displayed, Press the # 1 button S615 to enter the paired waiting state.

After putting the application in the waiting state for pairing, the user then enters the pairing mode by pressing the pairing button S608 of the smart light switch, and pressing the No. 1 switch S609 to be paired and the S610 button of the OK button completes the pairing of the No. 1 switch do.

In this way, pairing of switch # 1 is completed and pairing of switch # 2 is done in a similar way by pressing S616 and pressing S608 -> S611 -> S610 to complete the pairing. Press S608 -> S612 -> S610 to complete the pairing.

This basic process takes many steps, is somewhat complicated and time consuming, and there are many difficulties for actual users to understand and complete the corresponding pairing process.

FIG. 4 is a diagram illustrating an initial setting process of a smart light switch of an existing IOT application.

Referring to FIG. 4, in step S701, the user selects a location where the smart light switch is installed on the IoT application. In step S702, the smart light switch is selected on the application. In step S703, In step S704, in step S704, in step S704, in step S705, in step S705, and in step S706, in step S706, a desired balloon setting is finally completed.

FIG. 5 is a flowchart illustrating a conventional smart device pairing process of FIG.

5, the pairing process includes a step S801 of selecting a place where a smart light switch is installed in the IoT app, a step S802 of selecting a smart light switch as a device, a step S803 of pressing a menu button to select a pairing menu, A step S804 of pressing a button, a step S805 of selecting a pair of switches of the smart light switch, a step S806 of pressing a pairing button to enter a pairing function in the IoT device, and a step S807 of selecting a pair of switches of the IoT device , Step S808 of selecting OK to transmit the pairing communication information from the IoT device, step S809 of receiving the pairing communication information received from the IoT device and sending the pairing completion information, receiving the pairing completion information, and finally storing the pairing information S810 < / RTI >

After the completion of the pairing of one switch button of the smart light switch, the pair of the second and third switch buttons S805 to S810 is continuously performed. When the pairing of all the switch buttons is completed (S811) And ends the process.

As described above, there is a problem that a plurality of users must perform a complicated setup process to control a device in a room using a smart device.

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve the conventional problems, and it is an object of the present invention to provide a wireless control device interfaced with the Internet to simplify a pairing method between wireless devices and enable convenient pairing, .

It is another object of the present invention to provide a smart home control system that enables a plurality of object Internet smart home devices connected to a home in pairing of Internet devices and sharing user information using a smart device, (QR code) to simplify the pairing method, and a device setup method of a smart device for controlling the wireless control device.

In addition, a problem to be solved by the present invention is to convert user information into QR code in a smart home app to share user information, scan it from other smart home apps, apply it to smart home apps of other users, The present invention provides a wireless control apparatus interfaced with the Internet and a device setup method of a smart device that controls the wireless control apparatus.

A problem to be solved by the present invention is to provide a QR code including a plurality of pieces of information including a serial number, a date of manufacture, a kind of device, and the like, A smart home device, and a device for setting up a device of a smart device for controlling the wireless control device and the smart control device.

    It is another object of the present invention to provide a system and a method for controlling information stored in one smart home application, that is, a type of control device, a quantity, an installation place, a type of registered IR home appliance, The present invention provides a device for setting up a device for controlling a wireless control device and a smart device for controlling the wireless control device connected to the Internet, which can be applied at once through a QR code generation to a smart home application installed in a smartphone and a pad.

According to an aspect of the present invention, there is provided a method for setting up a device for controlling a wireless control device and a smart device for controlling the same,

1. A device setup method of a wireless control device interfaced with a thing Internet and a smart device controlling the same,

The control unit of the smart device stores the IoT environment setting value in the storage unit according to the user input;

The control unit of the smart device reads the original data of the IoT environment setting value stored in the storage unit according to the user input to generate the queue code;

And displaying the generated squall code on the screen of the smart device.

According to an aspect of the present invention, there is provided a method for setting up a device for controlling a wireless control device and a smart device for controlling the same,

1. A device setup method of a wireless control device interfaced with a thing Internet and a smart device controlling the same,

A control unit driving a camera to capture and receive a cue code displayed on a screen of another smart device;

The control unit reads environment setting information from the received quail code and stores the read IoT environment setting value in the storage unit as its IOT environment setting value.

According to an aspect of the present invention, there is provided a method for setting up a device for controlling a wireless control device and a smart device for controlling the same,

1. A device setup method of a wireless control device interfaced with a thing Internet and a smart device controlling the same,

Selecting a pairing menu button to enter a pairing mode at the IoT device by the user;

After the IoT device enters the pairing mode, the control unit of the smart device scans the IQT app with the QQ code to the camera;

The controller of the smart device executes the IoT application to read the information of the radio code, and collects information for pairing;

Transmitting the pairing information to the IoT device using the pairing information collected by the controller of the smart device;

The IoT device includes receiving the pairing completion information and completing the pairing process.

The method comprises:

An IoT device having a display unit generates a quail code containing software's own pairing information and displays it on a display unit. An IoT device without a display unit attaches a quail code containing the pairing information to a product in a form of a sticker .

The control unit executes an IoT application, and scans the corresponding queue code to find out what IoT device is.

And generating the pairing completion information with a queued code.

The embodiment of the present invention can provide a wireless control device interfaced with the Internet to simplify the pairing method between wireless devices and enable easy pairing, and a device setup method of a smart device that controls the wireless control device.

In addition, in the embodiment of the present invention, a plurality of object Internet smart home appliances connected to each other in pairing of object Internet equipments and sharing user information using a smart device are connected to a QR code (QR code to simplify a pairing method, and a device setup method of a smart device for controlling the wireless control device.

In the embodiment of the present invention, in order to share user information, the user information is converted into a QR code in the smart home application, and the application is applied to the smart home application of other smart home application, It is possible to provide a device setup method of a wireless control device and a smart device that controls the wireless control device.

In the embodiment of the present invention, the QR code including a plurality of pieces of information including the serial number, the date of manufacture, the type of the device, and the like is stored in the smart home app using the camera of the smart phone and the pad It is possible to provide a device for setting up a device for controlling a wireless control device and a smart device for controlling the wireless control device interfaced with the Internet, which controls pairing between the smart home main device and the device.

    In addition, in the embodiment of the present invention, the information stored in one smart home application, that is, the type of the control device, the quantity of the control device, the installation place, the type of the registered IR home appliance, And a device for setting up a device for setting up a wireless control device and a smart device for controlling the wireless control device interlocked with the Internet, which can be applied at one time through the generation of QR codes in a smart home application installed in the pad.

1 to 5 are diagrams illustrating a conventional smart device setup method.
FIG. 6 is a conceptual diagram illustrating a connection state between a wireless control apparatus interfaced with the object Internet and a smart device controlling the wireless control apparatus according to an embodiment of the present invention.
7 is a block diagram of a smart device.
8 is a block diagram of the radio network controller.
FIGS. 9 to 13 are diagrams for explaining a method of setting up a wireless control device and a smart device for controlling the wireless control device in accordance with an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, the terms " part, "" module," and " module ", etc. in the specification mean a unit for processing at least one function or operation and may be implemented by hardware or software or a combination of hardware and software have.

FIG. 6 is a conceptual diagram illustrating a connection state between a wireless control apparatus interfaced with the object Internet and a smart device controlling the wireless control apparatus according to an embodiment of the present invention.

Referring to FIG. 6, the smart device 100 is wirelessly connected to the control target device 300 through the wireless control device 200.

The smart device 100 includes a smart phone, a smart pad, and the like. Specific apps provided in an app store or an Android market are downloaded and installed in a wireless control device 200 to control the operation of the control target device 300.

The smart device 100 and the wireless control device 200 are connected to each other via Bluetooth communication or WiFi communication and transmit key signals for various buttons configured in a specific application installed in the smart device 100, Send and receive with specific code.

The contracted specific code is composed of a hexa code as a code value set for recognizing key signals of various buttons configured in a specific application in the communication between the smart device 100 and the radio control device 200 .

In this patent, it is desired to simplify the process of S103 to S107, which is a process of setting a simple repetitive task which takes a long time, by using a squirrel code. The process of S103 to S104 is simplified by generating the information set in the first smart device 100 as the queued code information and transmitting the quail code to the second or more other smart devices and transmitting the same, To simplify the process. In addition, the information required for pairing is different for each device.

We intend to use the QR Code to automatically transmit the device information and to facilitate user convenience.

In order to solve the problem of FIG. 2, the smart device 100 can reduce the setup time and complexity by directly copying the environment setting value set to the first smart device to another smart device, Is generated in the first smart device 100 and converted into QR Code, and the other smart device 101 scans the QR Code to simplify the configuration problem.

The method of transmitting the configuration file to another smart device 101 includes a method of transmitting the configuration file from the first smart device 100 to another smart device 101 using the Wi-Fi wireless communication of the first smart device 100, A method of using a short distance communication technology such as a second NFC, a method of uploading a configuration file to a remote server such as a third server or a cloud service, and downloading the configuration file from another smart device, but the process itself must be complicated . In the embodiment of the present invention, a method of using the QAR code in a simpler manner than those methods will be used. The QQ code scanning method is a simpler method than the other methods because it transmits data using the camera unit of the smart device. Especially, since the environment setting information does not have a large amount of information, the QQ code scanning method is suitable.

The wireless control device 200 is connected to the smart device 100 through Bluetooth communication or Wi-Fi communication and is connected to the control target device 300 through infrared communication.

The communication connection between the radio network controller 200 and the control target device 300 may be connected through any one of Bluetooth communication, Wi-Fi communication, RF (radio frequency) communication, Zigbee communication, and infrared communication.

The wireless control device 200 stores the integrated remote control code for each product model of each maker in the memory means and the control code for the control target device 300 to be controlled by the smart device 100 is stored in the integrated remote control code And is set.

The wireless control device 200 analyzes a specific code according to the key selection provided in the Bluetooth communication or the Wi-Fi communication in the smart device 100, and matches the control code for each product model of the set control target device 300, And causes the control target device 300 to execute the designated operation.

The radio controller 200 provides the control result of the control target device 300 to the smart device 100 so that the control result can be displayed on the screen of the smart device 100. [

The radio control device 200 may be connected to a computer terminal or the Internet to provide upgrades of firmware and integrated remote control codes.

The control target device 300 may include a set-top box 310, a television 320, a DVD 330, an air conditioner 340, a lamp 350, audio, etc. installed in various spaces in a home or an office have.

Since the control target device 300 is generally sold and is not a core configuration of the present invention, a detailed description thereof will be omitted.

Referring to FIG. 7, a smart device 100 according to an embodiment of the present invention includes:

A smart device (100) interlocked with at least one radio control device (200) and controlling a controlled device (300) interlocked with the radio control device (200)

A communication unit 140 for performing a communication function;

A camera unit 160 for capturing a cue code;

A storage unit 150 for storing setting information for controlling the user's controlled device 300;

An input unit 110 including a touch panel or a keypad for receiving a user's selection;

And a controller 130 that operates in accordance with the information input through the input unit 110 and generates and stores a quail code by processing setting information.

The control unit 130 drives the camera unit 160 to recognize a quail code displayed on a screen of another smart device, and copies the setting information included in the quail code and stores the copied setting information in the storage unit 150 as setting information.

The smart device 100 may be one of a smart phone, a smart pad, and a tablet PC.

In the smart device 100, an application of a home network function provided in an app store or an Android market is downloaded and installed, and a shortcut icon for executing an application of a home network function is installed on the desktop.

The application of the home network function provided in the app store or the Android market refers to an application developed and provided by the applicant of the present invention.

The control unit 130 of the smart device 100 activates the application of the home network function when the shortcut icon provided on the desktop is touched in the standby state. Here, the home network function may be an integrated remote control function.

The smart device 100 registers and sets the wireless control device 200 and the controlled device 300 linked to the wireless control device 200 for each place to be controlled in the home network application, selects a desired place anytime and anywhere, The device 300 can be controlled.

The present invention may control the controlled device 300 through the wireless control device 200 through a network from a remote place to a single smart device 100 according to the present invention.

8 is a diagram showing a configuration of a radio network controller according to an embodiment of the present invention.

8, the wireless control apparatus equipped with the integrated remote controller according to the present invention includes a first wireless communication unit 201, a USB port 203, a memory unit 205, a control unit 207, and a second wireless communication unit 209 ).

The first wireless communication unit 201 connects the smart device 100 by Bluetooth communication or Wi-Fi communication, receives the specific code provided from the smart device 100, and provides the received specific code to the control unit 205 do.

The first wireless communication unit 201 provides the smart device 100 with the result of operating the control target device 300 under the control of the control unit 205 with the specified specific code.

The USB port 203 is connected to an adapter or a USB port of a computer in a normal operation state to supply power required for operation of the wireless control device 200.

Also, the USB port 203 is connected to a computer terminal or an Internet network to provide upgrade of the firmware and the integrated remote control code.

The memory unit 205 is stored in the control code of the controlled device in which the product model by integrating the remote control codes of each manufacturer to control the RF in the specified area.

If the control code is set, the control unit 207 searches the integrated wireless remote control code stored in the memory unit 205 for a product code of the control target device Respectively.

The control unit 207 recognizes the specific code provided by the first wireless communication unit 201 and matches the control code set for the product model if the control code is a control target device, (209).

The second wireless communication unit 209 transmits the control code applied by the control unit 207 through the IR communication or the RF communication so that the operation of the control target device can be controlled.

The IR communication of the second wireless communication unit 209 is made up of at least one or more infrared LEDs so that the transmission angle of the control code is extended up to 360 degrees so that the control target device can be controlled at any position.

Hereinafter, a method of setting up a device for controlling a wireless control device and a smart device for controlling the wireless control device linked to the Internet with objects having such a configuration will be described.

9 shows a comparison between the S910 method for manually setting the IoT device and the S920 using the Qar code scan method.

Referring to FIG. 9, the process of setting the first smart device as the default value of the IOT (S921) is the same as the conventional manual operation (S912). However, if there are more smart devices to be set up in the process, the complexity and time of setting will be significantly different.

9, the control unit 130 of the first smart device 100 stores the IoT environment setting value in the storage unit according to a user input, and when the control unit 130 of the smart device 100 stores And reads the original data of the IoT environment setting value stored in the storage unit 150 to generate a quail code.

And displays the generated squall code on the screen of the smart device.

Then, the control unit 130 drives the camera 160 to capture a quail code displayed on the screen of the first smart device 100 with the second smart device, and the control unit 130 acquires environment setting information from the received quail code And stores the read IoT environment setting value as its own IOT environment setting value in the storage unit (S923). Then, the Nth smart device is set as the second smart device (S924).

Thus, from the second smart device, it is possible to set the IOT environment of the smart device simply by using the QAR code.

This process is described in more detail as follows.

10 is a flowchart illustrating a method of generating a data list 301 to be transmitted to a wireless terminal using a camera 160 of an N-th smart device 101, which is another smart device, And the process of transmitting information.

The Nth smart device 101 can transmit the environment setting value much faster than reading the received quail code 304 and performing the same setting manually.

11 is a detailed view illustrating a process of setting environment of IoT devices in the first smart device and replicating environment setting values by transmitting a jail code to another smart device.

Referring to FIG. 11, in step S401, the environment setting of the IoT device is performed using the first smart device.

Next, in step S402, the environment setting value is stored in the first smart device.

Then, in step S403, a queue code for transmitting the environment setting value to another smart device is generated.

Then, the squelch code generated in step S404 is displayed on the screen of the first smart device.

Then, in step S405, the Nth smart device for replicating the environment setting value executes the IoT application, and in step S406, the IoT application function for scanning the radio code is called.

Then, in step S407, the Nth smart device scans the QQ code with the camera 160, and in step S408, the controller 130 reads information on the QQ code from the camera 160.

Next, in step S409, the environment setting information read by the control unit 130 is stored in the storage unit.

Then, in S410, it is determined whether or not the environment setting information is continuously copied to another smart device, and the subsequent process can be further performed.

In the embodiment of the present invention, the complexity of the setting and the set time can be greatly reduced by performing this series of processes, and the user convenience can be maximized.

FIG. 12 is a schematic diagram of a process of pairing IoT devices to simplify the conventional complex pairing process.

12, data 901 including a network address required during the pairing process and a date of manufacture, a device serial number, and the like necessary for production management, for example, what device the IoT device is and how many switches are used in the case of a smart light switch And is attached to an IOT device 902 such as a smart light switch.

Then, the smart device 100 scans the quail code with the camera 160 and reads the corresponding information, thereby simplifying the complicated and time-consuming pairing process as in the conventional FIG. 3 or FIG. 5.

Unlike the smart light switch 902, the smart light switches 904, 905, and 906 in which the LCD is attached to the smart light switch are provided with smart light switches 904, 905, 906), the LCD displays its own light bulb information and other information (901) including the QR code, thereby enhancing the production efficiency.

12, reference numeral 904 denotes information on three-way switches in information 901, reference numeral 905 denotes information on four-way switches in information 901, reference numeral 906 denotes information on six-way switches Changes may be included.

This process will be described in detail as follows.

FIG. 13 is a flowchart illustrating a pairing process of a squall code scanning method that reduces a pairing time and complexity according to an embodiment of the present invention.

Referring to FIG. 13, a pairing process of a quail code scanning method, which reduces the pairing time and complexity in the conventional pairing method of FIGS. 3 and 5, is started.

First, the process of step S1001 for selecting a place where the smart device is installed on the IoT app is the same as the existing method. The information about where the IoT device will be installed is not known at the time of production, so the information can not be stored in the code. This process selects a place on the IoT app as in the previous process.

Next, we need to know what IoT device is and what kind of system it is in case of smart light switch. In case of smart light switch, this information is printed and sticky on the product. .

The controller 130 executes the IoT application, scans the corresponding quay code to find out what kind of IoT device it is, and if it is a smart light switch, it can know what product it is. S1001 Next, the IoT app performs step S1002 to scan the product's code.

Next, in step S1003, the IoT device 500 performs a process of pressing a pairing menu button to enter the pairing mode.

Next, the IoT device 500 with a display unit generates a QR code containing software's own pairing information and displays it on the display unit. The IoT device 500 without a display unit generates a QR code containing the pairing information at the time of production And is attached to the product in the form of a sticker, and when the pairing is performed, the control unit 130 of the smart device scans the corresponding cue code with the camera 160. (S1004)

Then, after turning on the IoT device 500 in the pairing mode, the control unit 130 of the smart device scans the I / O app with the QAL code to the camera 160 (S1005)

After scanning the queue code, the controller 130 of the smart device executes the IoT application to read the information of the queue code, and collects all the information for pairing (S1006)

Then, the control unit 130 of the smart device finally transmits the pairing information to the IoT device 500 using the collected pairing information. (S1007)

Then, the IoT device 500 receives the pairing completion information, and finally the pairing process is completed (S1008)

In the above process, compared with the complex and time-consuming pairing process of FIG. 3 or FIG. 5, the pairing process of the quail code scanning method according to the embodiment of the present invention provides convenience for user operation and shortening of time required.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (6)

A device setup method of a smart device for controlling at least one control target device operable in connection with an object Internet,
Storing the IoT environment setting value for controlling the control target device in the storage unit according to a user input by the control unit of the smart device;
The control unit of the smart device reads the original data of the IoT configuration value stored in the storage unit according to a user input to generate a queue code;
And displaying the generated queue code on a screen of the smart device,
A step in which another smart device drives a camera to photograph and receive a quail code displayed on a screen of the smart device;
Further comprising: reading the IoT environment setting value from the QR code received by the other smart device and storing the read IoT environment setting value as a IoT environment setting value in the storage unit,
Characterized in that the control target device is installed in an IoT environment
A device setup method of a smart device. delete delete delete delete delete

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