KR20120069832A - Control method for airconditioning apparatus - Google Patents

Abstract

PURPOSE: A control method of an air conditioner is provided for control the operation of an air conditioner through a portable terminal unit comprising a voice recognition function for inputting the driving condition to an air conditioner. CONSTITUTION: A control method of an air conditioner includes follow steps. A portable terminal unit comprising a voice recognition function and an indoor unit are connected to communicate by wireless. An indoor unit control application installed in the portable terminal unit is operated. Voice command is input in the portable terminal unit through a voice input part. The input voice command is transferred into the indoor unit. The indoor unit is started by the transferred voice command.

Description

Control method for air conditioner apparatus

The present invention relates to a control method of an air conditioner.

In general, an air conditioner is a home appliance that supplies hot air or cold air to an indoor space by an operation of a refrigerant cycle.

Recently, a portable terminal capable of freely downloading and executing a document or a game program and a document file and the like as well as an internet connection such as a smart phone has been released in large quantities.

In addition, recently, a home network system capable of controlling the operation of electrical appliances including home appliances installed in homes using portable terminals has been widely used in new apartments or general homes.

In this way, it is possible to remotely control at a long distance without directly operating various home appliances including the air conditioner, and the usability is greatly improved.

Hereinafter, an object of the present invention is to provide a control method of an air conditioner that enables remote control of an indoor unit of an air conditioner using a portable terminal such as a smart phone.

A control method of an air conditioner according to an embodiment of the present invention for achieving the above object comprises the steps of connecting the portable terminal with a voice recognition function and the indoor unit to enable wireless communication; Executing the indoor unit control application installed in the portable terminal; Inputting a voice command through a voice input unit provided in the portable terminal; Transmitting the input voice command to the indoor unit; And starting operation of the indoor unit according to the transmitted voice command.

According to the control method of the air conditioner which comprises the above structure, it has the following effects.

First, even when the wireless remote controller for inputting the operating condition of the air conditioner is lost or damaged, there is an advantage that the operation control using the portable terminal.

Second, since a wireless communication method such as Wi-Fi, Bluetooth, ZigBee, etc. can be used, there is an advantage that the convenience of use is increased by increasing the remote control range.

Third, there is a low risk of loss due to the characteristics of the portable terminal. That is, when the portable terminal cannot be found, there is an advantage that the position of the portable terminal can be immediately determined by calling the portable terminal.

Fourth, since it is not necessary to operate the control panel provided in the air conditioner body, there is an advantage that the user's copper wire for the air conditioner operation operation is shortened.

1 is a system diagram schematically showing a network system according to an embodiment of the present invention.
Figure 2 is a block diagram showing the configuration of a portable terminal and an indoor unit capable of wireless communication with each other in a network system according to an embodiment of the present invention.
3 is a flowchart showing a control method of the air conditioner according to the first embodiment of the present invention.
4 is a flowchart showing a control method of the air conditioner according to the second embodiment of the present invention.

Hereinafter, a configuration and a system operating method of a network system including an air conditioner according to an embodiment of the present invention, that is, an air conditioner control method will be described in detail with reference to the accompanying drawings and a flowchart.

1 is a system diagram schematically showing a network system according to an embodiment of the present invention.

Referring to FIG. 1, a network system according to an embodiment of the present invention includes an indoor unit 10 of an air conditioner for supplying cold or warm air to a room, and a smart phone capable of wireless communication with the indoor unit 10. It includes a portable terminal 20, a wired / wireless router 1 and / or a wireless router 2 to enable internet communication with the portable terminal 20 and the indoor unit 10. Additionally, the wired / wireless router 1 may further include a computer connected by wire or wirelessly.

In detail, the portable terminal 20 and the indoor unit 10 may have a built-in communication module for wireless communication. The communication module may include a Bluetooth module, a Wi-Fi module, a ZigBee module, and the like. The indoor unit 10 may be equipped with a camera 12 for capturing the user's face and a recorder 11 for recording the user's voice. Of course, the portable terminal 20 may have a built-in camera and a recorder.

The portable terminal 20 may have one-to-one communication with the indoor unit 10 through the communication module for wireless communication. Therefore, a user may input driving conditions through the control panel mounted on the indoor unit 10 or input driving conditions through the portable terminal 20. When the driving condition is input through the portable terminal 20, the driving condition is transmitted to the indoor unit 10 through the communication module, and the speed or wind direction of the indoor fan is adjusted according to the transmitted driving condition. The angle of the device 13 is set or changed.

Figure 2 is a block diagram showing the configuration of a portable terminal and an indoor unit capable of wireless communication with each other in a network system according to an embodiment of the present invention.

2, the portable terminal 20 constituting the network system according to an embodiment of the present invention may be a smart phone that is recently released.

In detail, the portable terminal 20 includes a control unit 200, a key input unit 210 for inputting a specific command or information to the control unit 200, a state of the portable terminal 20, or the indoor unit ( 10) a display unit 220 showing the driving state, a voice input unit 230 for inputting the user's voice, a voice output unit 240 for outputting the recorded voice, and the user can take a picture of the face The unit (or imaging device) 250, the angular velocity sensor 260 and the acceleration sensor 270 for detecting the movement of the portable terminal 20, and the communication module 280 for wireless communication with the indoor unit 10. And a GPS module 290 for identifying the location of the portable terminal 20 and a memory 295 for storing various information and data. In addition, the portable terminal 20 includes a recently released smart phone, and includes a portable terminal capable of a call function, an Internet connection, a program download function, and one-to-one wireless communication.

In detail, the key input unit 210 includes an input button or a touch panel provided in the portable terminal 20, the photographing unit 250 includes a camera mounted on the portable terminal 20, and the voice. The input unit 230 includes a recorder mounted on the portable terminal 20, and the voice output unit 230 includes a speaker mounted on the portable terminal 20.

In addition, the angular velocity sensor 260 includes a gyro sensor or a gravity sensor that detects an inclination or rotation angle of the portable terminal 20. In addition, the acceleration sensor 270 is a sensor that detects a speed or acceleration in which the portable terminal 20 linearly moves in a specific direction.

In addition, the communication module 280, as mentioned above, includes Bluetooth, Wi-Fi, Zigbee. In addition, the display unit 220 includes a liquid crystal panel provided in the portable terminal 20.

Meanwhile, the indoor unit 10 includes a control unit 100, a key input unit 110, a voice input unit 130, a voice output unit 140, a photographing unit 150, a display unit 120, Communication module 180 and memory 170. In addition, the fan unit 161, the compressor 162, and the wind direction control device 163 mounted to the indoor unit 10 further include a driving unit 160, and the driving unit 160 includes the fan 161. The motor driver may control the amount of current supplied to the driving motor driving the compressor 162 and the wind direction control device 163.

In addition, since the photographing unit 150, the voice input unit 130, the voice output unit 140, the display module 120, and the communication module 180 are the same as those provided in the portable terminal 20, Duplicate explanations are omitted.

As shown, the portable terminal 20 and the indoor unit 10 may independently receive information from the Internet or transmit and receive information from each other through the communication modules 280 and 180 embedded therein. That is, it is possible to download weather information or product information of the indoor unit by accessing the Internet through the communication module 280 of the portable terminal 20. In addition, the indoor unit 10 may also be connected to the Internet through the communication module 180 to download weather information or product information of the indoor unit, and display the same on the display unit 120. By such a configuration, the portable terminal 20 is not only able to access the Internet through Wi-Fi communication via an access point (Access Point) -the wired / wireless router 1 or the wireless router 2, but also the indoor unit. You can exchange information with (10). This is called Infrastructure Structure Networking.

In addition, the portable terminal 20 and the indoor unit 10 may also perform peer-to-peer communication using the communication modules 180 and 280. For example, when the communication modules 180 and 1280 are Wi-Fi modules, direct communication is possible without going through a wireless router using Wi-Fi Direct technology or Ad-Hoc mode (or network). .

In detail, Wi-Fi Direct refers to a technology capable of high-speed communication using a communication standard such as 802.11a, b, g, or n regardless of the installation of a wireless access point (AP). That is, it means that the portable terminal 20 and the indoor unit 10 can wirelessly communicate without passing through a wireless access point (Access Point) (wireless router or wireless router described above). This technology has recently been in the spotlight as a communication technology for wirelessly connecting the indoor unit 10 and the portable terminal 20 to Wi-Fi without the Internet network.

Ad-hoc mode (or ad-hoc network) is a network that is composed of only mobile hosts without a fixed wired network. This is it. That is, even without the WLAN access point (AP) enables the wireless communication between terminals. Therefore, in the ad hoc mode, the portable terminal 20 and the indoor unit 10 can wirelessly communicate without the wireless LAN access device.

Bluetooth communication is a well-known short-range wireless communication method, and when the Bluetooth module built in the portable terminal 20 and the Bluetooth module built in the indoor unit 10 undergo a pairing process, the wireless communication is performed within a specific range. This is possible.

Hereinafter, a method of controlling the indoor unit 10 using the portable terminal 20 will be described in detail with reference to a flowchart.

3 is a flowchart showing a control method of the air conditioner according to the first embodiment of the present invention.

Referring to FIG. 3, in order to input a driving command of the indoor unit 10 of the air conditioner installed indoors, the portable terminal 20 and the indoor unit 10 are interconnected to enable wireless communication (S11).

As the method of the wireless communication, as mentioned above, any one of Bluetooth communication, Wi-Fi communication and Zigbee communication may be used. In the case of Bluetooth communication, the indoor unit 10 and the portable terminal 20 may be connected in a state capable of wireless communication through a pairing process. In the case of Wi-Fi communication, wireless communication may be performed by setting a Wi-Fi Direct or Ad-hoc mode to enable one-to-one communication between the indoor unit 10 and the portable terminal 20. Since the communication connection method is a widely known method, a detailed description thereof will be omitted.

Once the portable terminal 20 and the indoor unit 10 are connected in a state capable of wireless communication, the indoor unit control application downloaded to the portable terminal 20 is executed by the user (S12).

Then, the user inputs the driving condition through the voice (S13). In detail, when a driving condition is input as a voice through the voice input unit 230 provided in the portable terminal 20, the input voice command is recorded and transmitted to the controller 200 of the portable terminal 20. When a voice command input is detected by the user, a speech application programming interface (SAPI) is operated to interpret the input voice command (S14). The voice command is interpreted to determine what the input driving conditions are.

On the other hand, if it is determined what is the operating condition input through the voice analysis process, the process of converting the electrical signal corresponding to the analyzed operating conditions is performed (S15). Then, an electric signal corresponding to the driving condition is transmitted to the control unit of the indoor unit 10 (S16), and the operation of the indoor unit 10 is started under the transmitted driving condition.

In summary, the user may input driving conditions of the indoor unit 10 using the portable terminal 20, and the input driving conditions are transmitted to the indoor unit 10 through the wireless communication module. Then, driving of the indoor unit 10 is started according to the transmitted driving condition (S17).

Here, the input operating conditions include room temperature, room humidity, air volume, wind direction, indoor unit power on, indoor unit stop, and additional functions. The additional function may include a command for checking indoor unit power consumption or current outdoor weather information.

The present embodiment is characterized in that the driving condition corresponding to the input voice command is converted into an electric signal in the portable terminal 20, and the converted electric signal is transmitted to the indoor unit 10.

Hereinafter, as another embodiment, it will be described that the speech analysis process is performed by the control unit of the indoor unit 10.

4 is a flowchart showing a control method of the air conditioner according to the second embodiment of the present invention.

Referring to FIG. 4, the portable terminal and the indoor unit are connected to enable wireless communication (S21), and in this state, a process of inputting a voice command by executing the indoor unit control application installed in the portable terminal 20 (S22) The same as in the first embodiment.

However, there is a difference in that voice command information recorded through the voice input unit 230 of the portable terminal 20 is immediately transmitted to the control unit 100 of the indoor unit 10 (S24).

In detail, when the voice command recorded in the portable terminal 20 is transmitted to the control unit 100 of the indoor unit 10 as it is, the control unit 100 of the indoor unit 10 operates the speech analysis device SAPI. In addition, the driving condition confirmed through the voice analysis (S25) is converted into an electrical signal (S26), the motor 160 driving the indoor fan by operating the drive unit 160 of the indoor unit 10 according to the converted electrical signal, and the wind direction The current is supplied to the motor driving the regulating device and the motor driving the compressor. That is, the operation of the indoor unit 10 is started according to the input driving condition (S27).

In summary, in the present embodiment, the portable terminal 20 records only the input voice command, performs a function of wirelessly transmitting the recorded voice command to the indoor unit 10, and the received voice command from the indoor unit 10. It is characterized by performing a process of interpreting and converting into an electrical signal.

Claims (6)

Connecting the portable terminal having a voice recognition function and the indoor unit to enable wireless communication;
Executing the indoor unit control application installed in the portable terminal;
Inputting a voice command through a voice input unit provided in the portable terminal;
Transmitting the input voice command to the indoor unit; And
And starting operation of the indoor unit according to the transmitted voice command. The method of claim 1,
The wireless communication between the portable terminal and the indoor unit is performed by any one of Wi-Fi communication, Bluetooth communication and Zigbee communication. The method of claim 1,
Wireless communication between the portable terminal and the indoor unit is performed by any one of Wi-Fi Direct, ad-hoc and Bluetooth pairing. The method of claim 1,
The step of transmitting the input voice command to the indoor unit,
Converting a voice command input to the portable terminal into an electrical signal corresponding to an analysis and driving condition in the portable terminal;
The control method of the air conditioner comprising the step of transmitting the converted electrical signal to the control unit of the indoor unit. The method of claim 1,
The step of transmitting the input voice command to the indoor unit,
A voice command input to the portable terminal is directly transmitted to the controller of the indoor unit;
And converting the transmitted voice command into an electric signal corresponding to an analysis and an operating condition in the controller of the indoor unit. The method of claim 1,
The voice command,
A method of controlling an air conditioner including at least one of room temperature, room humidity, air volume, wind direction, indoor unit power on, indoor unit stop, command for checking indoor unit power consumption, and command for checking current outdoor weather information.

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