KR20200087030A - Air conditioning system - Google Patents

Abstract

The present invention relates to an air conditioning system which can grasp a location of a user when a voice of the user is recognized in a space in which a plurality of indoor units are installed, select a controlling target indoor unit of the plurality of indoor units, and control the indoor unit. Moreover, voice information including at least one of a voice command, voice intensity, and voice arrival time is acquired by a central controller based on a voice signal received from each of the plurality of indoor units, and the controlling target indoor unit can be selected based on the acquired voice information.

Description

Air conditioning system

The present invention relates to an air conditioning system, and more particularly, to an air conditioning system controlled through voice recognition.

The air conditioning system is intended to create a pleasant indoor environment, and discharges cold and hot air into the room to control the indoor temperature and purify the indoor air.

The air conditioning system includes an indoor unit composed of an indoor heat exchanger, an outdoor unit composed of a compressor, an outdoor heat exchanger, an expansion mechanism, and a central controller for controlling the indoor unit and the outdoor unit, and includes a compressor, an outdoor heat exchanger, an expansion mechanism, Refrigerant circulates between the indoor heat exchangers to perform air conditioning.

The air conditioning system may be installed in a building or the like, and in this case, multiple indoor units may be installed in the same space. The user can control the indoor unit through a voice command, but when multiple indoor units are installed in the same space, there is a problem in that it is difficult to specify the indoor unit to be controlled by the user.

Republic of Korea Patent Publication No. 10-2010-0026353 (published on March 10, 2010) describes the invention to register and control the nickname for each unit, but in this case, the nickname must be registered in advance for each unit. There is a problem in that a voice command can be transmitted only by remembering the registered nickname.

Republic of Korea Patent Publication No. 10-2010-0026353 (released on March 10, 2010)

The present invention is to provide an air conditioning system for selecting a control target indoor unit among a plurality of indoor units by grasping the user's location when recognizing a user's voice in a space where a plurality of indoor units are installed.

The present invention is to provide an air conditioning system for determining a control command and a control target indoor unit to be transmitted to the indoor unit by grasping the location of the user and the type of voice command when recognizing the user's voice in a space where a plurality of indoor units are installed.

The air conditioning system according to an embodiment of the present invention acquires voice information including at least one of voice commands, voice strength, and voice arrival time based on voice signals received from each of a plurality of indoor units by the central controller, and the obtained voice The control target indoor unit can be selected based on the information.

The processor may acquire distance information to the user for each of the plurality of indoor units based on the voice strength.

The processor may set the control target indoor unit differently from the previous indoor unit when a voice signal including the same voice command is received after the set time elapses.

When the indoor unit closest to the user is already operating in an operation state according to a voice command, the processor may select the indoor unit closest to the user as the control target indoor unit.

The processor may acquire direction information with a user for each of the plurality of indoor units based on the voice arrival time.

The processor may select a control target indoor unit and a control target vane based on direction information with the user.

The processor may select the control target indoor unit based on the voice strength when the voice command is a power control command, and select the control target indoor unit based on the voice arrival time when the voice command is a driving control command.

The processor may transmit a control command according to a voice signal to the control target indoor unit when the voice command is a driving setting command, and determine a control command to be transmitted to the control target indoor unit and the control target indoor unit when the voice command is an additional setting command.

According to an embodiment of the present invention, when a voice signal is received from each of a plurality of indoor units, a user's position with respect to the plurality of indoor units can be predicted based on a voice intensity and a time of arrival, so that even when the user does not specify the indoor unit There is an advantage capable of providing an indoor environment desired by a user by selecting a control target indoor unit according to a user's voice command. In addition, since separate settings for specifying each of the plurality of indoor units are unnecessary, there is an advantage of easily controlling a plurality of indoor units located in the same space.

According to an embodiment of the present invention, for each of a plurality of indoor units, it is possible to obtain a sequence of indoor units close to the user through distance information from the user, and accordingly, it is possible to easily select a control target indoor unit according to a user's voice command.

According to an embodiment of the present invention, when continuously receiving a voice signal including the same voice command, there is an advantage that can quickly cope with additional commands of the user by selecting a control target indoor unit as a different indoor unit from the previously selected indoor unit.

According to an embodiment of the present invention, by selecting a control target indoor unit in consideration of the current operating state of the indoor unit, there is a predictable advantage of the indoor unit to be controlled by the user.

According to an embodiment of the present invention, it is possible to easily set the air discharge direction according to a voice command through direction information with a user for each of a plurality of indoor units. In addition, by selecting a control target vane as well as a control target indoor unit through direction information with a user, there is an effect of reducing power consumption than when air is discharged through all vanes.

According to an embodiment of the present invention, when the voice command is an additional setting command, the control command and the control target indoor unit are determined according to the voice command, so that the user can create an indoor environment desired by the user even without specifying the operating state and indoor unit of the indoor unit. It is possible to provide convenience when the user controls the indoor unit.

1 is a view showing the installation state of the air conditioning system according to an embodiment of the present invention.
2 is a schematic diagram of an air conditioning system according to an embodiment of the present invention.
3 is a cross-sectional view of the indoor unit shown in FIG. 2.
4 is an exemplary diagram showing the difficulty of controlling the indoor unit through the user's voice when a plurality of indoor units are installed in the same space.
5 is a control block diagram of an air conditioning system according to an embodiment of the present invention.
6 is a diagram illustrating an operation method of an air conditioning system according to an embodiment of the present invention.
7 is a flowchart illustrating an operation method of a central controller according to an embodiment of the present invention.
8 to 9 are exemplary views showing a method of selecting a control target indoor unit when a central controller according to an embodiment of the present invention receives a voice signal including a power control command.
10 to 12 are exemplary views illustrating a method for selecting a control target indoor unit when a central controller according to the first to third embodiments of the present invention receives a voice signal including an additional setting command.

Hereinafter, a specific embodiment of the present invention will be described in detail with the accompanying drawings.

1 is a view showing the installation of the air conditioning system according to an embodiment of the present invention, Figure 2 is a schematic diagram of an air conditioning system according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the indoor unit shown in Figure 2 .

The air conditioning system may include an indoor unit 10, an outdoor unit 20, and a central controller 50.

The air conditioning system may be installed in a building, etc., as shown in FIG. 1, at least one indoor unit 10 is installed inside the building, at least one outdoor unit 20 is installed outside the building, and the central controller 50 is It can be installed inside a building.

However, FIG. 1 is only an example for convenience of description, and according to an embodiment, the outdoor unit 20 may be installed inside a building such as a basement, and the central controller 50 may be in the form of an external server. .

That is, the present invention can be applied to all of the indoor air conditioner systems installed in the same building or space.

2, the air conditioning system includes a plurality of indoor units 10, at least one outdoor unit 20 and a central controller 50 connected to the plurality of indoor units 10, and the central controller 50 A can transmit and receive signals with the indoor unit 10 or the outdoor unit 20 through wired or wireless communication.

The plurality of indoor units 10 may be connected to the outdoor unit 20. For example, the first to third indoor units 10a, 10b, and 10c are connected to the first outdoor unit 20a, and the fourth to sixth indoor units 10d, 10e, and 10f are connected to the second outdoor unit 20b. The seventh to ninth indoor units 10g, 10h, and 10i may be connected to the third outdoor unit 20c. For convenience of explanation, three indoor units are illustrated as being connected to each outdoor unit, but this is only an example and specifies that the number is not limited to the number of indoor units or the type of indoor units.

Each of the plurality of indoor units 10 may communicate with the connected outdoor unit 20, and the outdoor unit 20 may communicate with the central controller 50.

In addition, each of the plurality of indoor units 10 may communicate with the central controller 50, and each of the plurality of outdoor units 20 may communicate with the central controller 50.

Referring to FIG. 3, the indoor unit 10 includes a case 9, a blowing unit 3, 5, 6 accommodated in the case 9, an indoor heat exchanger 4, and at least one microphone 7 ).

At least one air intake port (P) and at least one air discharge port (2) are formed in the indoor unit (10), and the indoor heat exchanger (4) can be formed between the air intake port (P) and the air discharge port (2). . The indoor heat exchanger (4) heats the air sucked through the air inlet (P) with a refrigerant, and the heat exchanged in the indoor heat exchanger (4) can be discharged to the air outlet (2).

The blowing units 3, 5, 6 may include a motor 5, a fan 6 connected to the motor 5, and a vane 3.

The motor 5 and the fan 6 can adjust the wind speed of the discharge air. The faster the RPM of the motor 5, the faster the discharge rate of air, and the slower the RPM of the motor 5, the slower the discharge rate of air.

The vane 3 can adjust the wind direction of the discharge air. The vane 3 is installed in the air discharge port 2 to control the discharge direction of air.

The blowing units 3, 5, and 6 are controlled by a control unit 19, which will be described later, and the control unit 19 controls the blowing units 3, 5, 6 to adjust the wind direction or wind speed of the discharged air. Can.

The microphone 7 can recognize a user's voice. The microphone 7 may be formed on the outer surface of the indoor unit 10.

For example, when the indoor unit 10 is mounted on the ceiling, the microphone 7 may be mounted on the bottom surface of the indoor unit 10. However, this is only an example for convenience of description, and the microphone 7 may be mounted at any position capable of recognizing the user's voice. For example, the microphone 7 may be mounted on a remote control (not shown) capable of transmitting a remote control signal to the indoor unit 10.

One indoor unit 10 may be equipped with one microphone 7 or one indoor unit 10 may be equipped with a plurality of microphones 7.

According to an embodiment, when the indoor unit 10 includes a plurality of microphones 7, the number of microphones 7 may be the same as the number of vanes 3. For example, the indoor unit 10 may include four vanes 8 and four microphones 7. In this case, each of the plurality of microphones 7 may be installed adjacent to each of the plurality of vanes 3.

The indoor unit 10 may recognize a user's voice through the microphone 7 and may be controlled by the recognized voice. The user can more easily control the indoor unit 10 through voice.

Meanwhile, a plurality of indoor units 10 may be mounted in a space used by a plurality of users, such as an office, and in this case, even if the user wants to transmit a control command to the specific indoor unit 10 by voice, the plurality of indoor units 10 may be As the voices are recognized together, there is a problem that it is difficult to specify a control target.

4 is an exemplary diagram illustrating the difficulty of controlling the indoor unit through the user's voice when a plurality of indoor units are installed in the same space.

4, the first to fourth indoor units 10a, 10b, 10c, and 10d may be installed in any one space. The user made a voice such as “Turn on the power” toward the second indoor unit 10b to turn on the second indoor unit 10b, but the first, third to fourth indoor units in addition to the second indoor unit 10b ( At least one of 10a, 10c, and 10d) may recognize the voice together. As described above, when a plurality of indoor units 10 are installed in the same space, it is difficult for a user to specify a control target when transmitting a control command by voice.

5 is a control block diagram of an air conditioning system according to an embodiment of the present invention.

The air conditioning system according to an embodiment of the present invention may include a plurality of indoor units 10 and a central controller 50.

Meanwhile, although not illustrated in FIG. 5, the air conditioning system may further include an outdoor unit (not shown) connected to at least one indoor unit 10.

The plurality of indoor units 10 includes a first indoor unit 10a, a second indoor unit 10b, ... , Nth indoor unit 10n. That is, the present invention is not limited to the number of indoor units 10.

Each of the plurality of indoor units 10 may include a microphone 7, an indoor communication unit 8, a motor 5, vanes 3, and an indoor control unit 1.

The microphone 7 can recognize a user's voice. The microphone 7 may recognize a user's voice and convert it into a voice signal. The voice signal recognized by the microphone 7 may be transmitted to the central controller 50 through the indoor communication unit 8.

Hereinafter, the voice signal recognized by the microphone 7 has been described as being analyzed by the central controller 50, but this is merely an example for convenience of description. That is, the voice signal recognized by the microphone 7 may be analyzed by a voice analysis unit (not shown) provided in the indoor unit 10, or may be analyzed together by the indoor unit 10 and the central controller 50.

For example, the indoor unit 10 may further include a voice analysis unit (not shown), and the voice analysis unit (not shown) analyzes the voice signal recognized by the microphone 7 to determine the type of voice command and voice. At least one of intensity and speech recognition time may be acquired.

The indoor communication unit 8 may communicate with the central controller 50. Specifically, the indoor communication unit 8 may transmit a voice signal to the central controller 50 or receive a control command from the central controller 50.

The motor 5 and the vane 3 may be controlled by the indoor control unit 1. That is, the indoor control unit 1 may receive the analysis result of the voice signal recognized by the microphone 7 and control the motor 5 and the vane 3 according to the analysis result of the voice signal.

The indoor control unit 1 can control the microphone 7, the indoor communication unit 8, the motor 5 and the vane 3.

The central controller 50 may communicate with the plurality of indoor units 10 by wire or wireless. The central controller 50 may include a processor 51, a central communication unit 52, and a voice analysis unit 53.

The central communication unit 52 may transmit and receive signals to and from each of the plurality of indoor units 10. For example, the central communication unit 52 receives a voice signal from the indoor communication unit 8 provided in each of the plurality of indoor units 10, and the control command obtained based on the analysis result of the audio signal to the indoor communication unit 8 Can be transmitted to a control target indoor unit, which will be described later.

The voice analysis unit 53 may analyze the voice signal received from the indoor unit 10. The voice analysis unit 53 may analyze the voice signal and obtain voice information including at least one of a voice command, voice strength, and voice arrival time based on the analysis result.

The voice analysis unit 53 may obtain voice information by analyzing a voice signal.

Here, the voice information indicates information included in the voice signal, and may include at least one of a voice command, voice strength, and voice arrival time.

The voice command may include a power control command and an operation control command.

The power control command may mean a power on command or a power off command.

The operation control command is a command for controlling the operation of the indoor unit in a power-on state, and means a command for setting wind direction, wind speed, operation mode (for example, air cleaning mode, dehumidification mode, sleep mode, etc.) can do.

Also, the operation control command may include an operation setting command and an additional setting command. The operation setting command is a setting command that specifies the operation of the indoor unit, and may include, for example, “set to wind direction 3”, “set to 23 degrees indoor temperature”, “set to air clean mode”, and the like. Meanwhile, the additional setting command is a setting command that changes the operation of the indoor unit based on the current state, and may include, for example, “make it cooler” or “make it cooler”.

The voice strength may indicate the size of the voice recognized by the microphone 7. According to an embodiment, the speech intensity may be expressed in decibels. According to another embodiment, the voice strength may be expressed as a voice level determined based on decibels, and the voice level may be any one of 1 to 10.

The voice arrival time may indicate time information when the microphone 7 recognizes the voice. The voice arrival time is time information at the time when the microphone 7 provided in each of the indoor units 10 recognizes the voice, or is expressed as 15:20:40 or the like, or the time counted equally in each of the plurality of indoor units 10 As information, it can be expressed as 9000, 10000 or 10005.

Each of the plurality of indoor units 10 may count time information, and a time point at which each of the plurality of indoor units 10 counts may be the same. In addition, the unit of time information counted by each of the plurality of indoor units 10 is 1 second or less, for example, the indoor unit 10 may be expressed to increase from 0 to 10000 after 1 second when the count starts.

The sound speed is about 340m per second, and the time difference between the voices recognized by the plurality of indoor units 10 for the same voice is usually within 1 second. Therefore, when the voice arrival time is displayed as the time information counted in each of the indoor units 10, there is an advantage that it is possible to more accurately determine the time information recognized by each microphone 7 of the indoor unit 10.

The pro sensor 51 may control the central communication unit 52 and the voice analysis unit 53. The processor 51 may control the voice analysis unit 53 to analyze the voice signal by transmitting the voice signal received through the central communication unit 52 to the voice analysis unit 53.

6 is a diagram illustrating an operation method of an air conditioning system according to an embodiment of the present invention, and FIG. 7 is a flowchart illustrating an operation method of a central controller according to an embodiment of the present invention.

The first indoor unit 10a, the second indoor unit 10b, and the Nth indoor unit 10n may recognize a voice (S11).

Each of the first indoor unit 10a, the second indoor unit 10b, and the Nth indoor unit 10n may recognize a voice through the microphone 7. That is, each of the plurality of indoor units 10 may recognize the voice uttered by the user through the microphone 7.

Meanwhile, referring to FIG. 6, only the first indoor unit 10a, the second indoor unit 10b, and the Nth indoor unit 10n are illustrated. However, among the n indoor units, the indoor unit recognized by speech is the first indoor unit 10a, It is assumed that there are three second indoor units 10b and Nth indoor units 10n. That is, the air conditioning system according to an embodiment of the present invention includes a plurality of indoor units 10, and is not limited to the number of indoor units 10.

The indoor unit 10 not only recognizes the voice in the power-on state, but also recognizes the voice in the power-off state. For example, the indoor unit 10 may recognize a voice through the microphone 7 even in a power-off state or a standby mode state.

The first indoor unit 10a, the second indoor unit 10b, and the Nth indoor unit 10n may transmit a voice signal to the central controller 50 (S12).

The indoor units 10a, 10b, and 10n that recognize speech among the plurality of indoor units 10 may convert the recognized speech into a voice signal and transmit it to the central controller 50.

The central controller 50 may receive a voice signal from at least one of the plurality of indoor units 10 (S13).

The central controller 50 may receive a voice signal from indoor units 10a, 10b, and 10n that recognize speech among the plurality of indoor units 10.

For example, if there is one indoor unit 10 recognized by voice, the central controller 50 receives one voice signal, and if there are multiple indoor units 10 recognized by voice, the central controller 50 receives multiple voice signals. Can receive.

The central controller 50 may acquire voice information based on the received voice signal (S14).

The voice information may include at least one of a voice command, voice strength, and voice arrival time.

A plurality of indoor units 10 can recognize one voice uttered by the user, and each of the plurality of indoor units 10 recognizes the same voice command, but each of the plurality of indoor units 10 and the user's location Depending on the voice strength and the time to reach the voice may be different.

When receiving a plurality of voice signals from the plurality of indoor units 10, the central controller 50 may obtain voice information for each of the plurality of voice signals.

The central controller 50 may select a control target indoor unit based on the voice information (S100).

Here, the control target indoor unit means an indoor unit to be controlled according to a voice signal, and the control target indoor unit may be 1 or more. That is, for a voice signal having the same voice command, one or more control target indoor units may be used. Further, the control target indoor unit may be an indoor unit that transmits a voice signal or may be another indoor unit that does not recognize voice. The control target indoor unit may be determined according to the analysis result of the voice signal.

The central controller 50 may transmit a control command to the control target indoor unit (S16).

The central controller 50 may transmit a control command to the control target indoor unit selected in FIG. 6.

The control command may be a command including control information for controlling a control target indoor unit based on voice information that is a result of analyzing a voice signal. The control command may be the same as the voice command included in the voice signal, or may include control information determined based on the voice command.

For example, if the voice command is'power on setting', the control information is'power on setting', and if the voice command is'make me cool', the control information is'wind speed increase setting' or'room temperature increase setting'. Can.

7 is a flowchart showing the operation of the central controller 50 by specifying step S100 of FIG. 6.

The central communication unit 52 may receive a voice signal from at least one of a plurality of indoor units (S13).

The processor 51 may acquire voice information including at least one of a voice command, voice strength, and voice arrival time based on the voice signal (S14 ).

For example, the processor 51 may receive the first to fourth voice signals, and the processor may be powered on with voice information of the first voice signal recognized by the first microphone of the first indoor unit 10a, Acquisition of voice strength 7, voice arrival time 10000, power on command with voice information of the second voice signal recognized by the second microphone of the first indoor unit 10a, voice strength 6, voice arrival time 10005, 2 A power-on command, a voice intensity of 10, and a voice arrival time of 9000 are acquired as voice information of a third voice signal recognized by the first microphone of the indoor unit 10b, and the second microphone of the second indoor unit 10b recognizes 4 Power-on command, voice strength 8, and voice arrival time 10000 can be obtained as voice information of the voice signal.

The processor 51 may select a control target indoor unit based on voice information. Also, the processor 51 may determine a control command based on the type of voice command.

Specifically, the processor 51 may acquire a type of voice command (S101).

The processor 51 may acquire a speech word included in a speech signal through speech-to-text (STT) or the like, and may acquire a type of speech command based on the speech word.

According to the first embodiment, the processor 51 may acquire a type of voice command based on the content information of the voice word.

For example, the processor 51 may include “turn on power”, “set to wind direction 3”, “set to room temperature 23 degrees”, “set to air cleaning mode”, “make it cooler” or “make it cooler”, etc. Acquiring a voice word, it is possible to determine whether the type of the voice command is a power control command or a driving control command according to the voice word, and if the type of the voice command is a driving control command, it may be determined whether it is a driving setting command or an additional setting command.

That is, the processor 51 determines that the voice command is a power control command when it is related to the power of the indoor unit, determines that the control command is a driving setting command when it is fixed irrespective of the current indoor unit status, and the control command is the current indoor unit status. If it depends, it can be judged as an additional setting command.

According to the second embodiment, the processor 51 may determine the type of the voice command according to the gap between the previous voice signal reception time and the current voice signal reception time and the content of the voice command.

For example, the processor 51 may determine the additional setting command if the gap between the previous voice signal reception time and the current voice signal reception time is within a set time (for example, 5 seconds).

The processor 51 may acquire distance information with the user based on the voice strength (S103).

The processor 51 may acquire distance information between each of the indoor units 10 that have transmitted the voice signal and the user based on the voice strength.

For example, the processor 51 may obtain distance information that lists the indoor units 10 in the order close to the user among the indoor units 10 to transmit a voice signal based on the voice strength.

The processor 51 may acquire direction information with the user based on the voice arrival time (S105).

When receiving a plurality of voice signals, the processor 51 may recognize the position of the microphone 7 that recognizes the voice signal having the fastest voice arrival time among the plurality of voice signals in a user direction.

For example, when the indoor unit 10 includes a plurality of microphones 7 and the plurality of microphones 7 provided in the same indoor unit 10 recognizes a plurality of voice signals, the voice is reached among the plurality of voice signals The direction of the microphone 7 that recognizes the voice signal having the fastest time can be recognized in the user direction.

Meanwhile, the processor 51 recognizes the user direction in the first direction based on the voice signal recognized by the plurality of microphones 7 provided in the first indoor unit 10a, and the plurality of microphones provided in the second indoor unit 10b. When the user's direction is recognized as the second direction based on the voice signal recognized by the microphone 7 of, the overlapping direction among the first direction and the second direction may be recognized as the user direction.

The processor 51 may select a control target indoor unit based on distance information and direction information from the user according to the type of voice command (S107).

The processor 51 selects a control target for executing a voice command based on distance information from the user, selects a control target for executing a voice command based on direction information, or based on distance information and direction information from the user It is possible to select a control target to execute a voice command.

Meanwhile, the processor 51 may select the control target indoor unit in different ways according to whether the type of the voice command is a power control command, a driving setting command, or an additional setting command. That is, the processor 51 may select the control target indoor unit identically or differently depending on the type of the voice command even when the distance information and the direction information with the user are the same.

For example, when the type of the voice command is a power control command, the processor 51 selects the control target indoor unit based on the voice strength, and when the type of the voice command is a driving control command, the control target indoor unit based on the voice arrival time. You can choose

However, this is only an example for convenience of description, and the processor 51 may select the control target indoor unit in various ways based on distance information and direction information from a user according to the type of voice command. The control target indoor unit may be plural.

The processor 51 may select a method of selecting a control target indoor unit according to environment information such as the number and location of the indoor units 10 installed in the same space, or user preference information.

Meanwhile, according to an embodiment, the processor 51 may select a control target vane together with a control target indoor unit. That is, the processor 51 may acquire the user's direction information for each of the plurality of indoor units based on the voice arrival time, and select a control target indoor unit and a control target vane to execute a voice command based on the direction information.

Also, according to an embodiment, when the voice command is an additional setting command, the processor 51 may determine a control command to be transmitted to the control target indoor unit and the control target indoor unit, and transmit the determined voice command to the control target indoor unit. The processor 51 may determine a control command based on the voice command. For example, when the voice word included in the voice command is “make it cooler”, the processor 51 may determine the control command as a command for setting the set temperature of the control target indoor unit to 1 degree lower than the current set temperature. However, this is only an example, and when the voice command is an additional setting command, the processor 51 may select the control target indoor unit and determine a control command based on the current operating state of the selected control target indoor unit.

After selecting the control target indoor unit, the processor 51 may transmit a control command to the selected control target indoor unit (S109).

Among the plurality of indoor units 10, the indoor unit receiving the control command may operate according to the control command. Among the indoor units that transmit the voice signal to the central controller 50, the indoor unit that does not transmit a control command may maintain the current operating state.

8 to 12 are exemplary views showing a method of operating an air conditioning system according to an embodiment of the present invention.

8 to 9 are exemplary views illustrating a method of selecting a control target indoor unit when a central controller according to an embodiment of the present invention receives a voice signal including a power control command.

The first indoor fourth indoor units 10a, 10b, 10c, and 10d are installed in the same space, and each of the first to fourth indoor units 10a, 10b, 10c, and 10d includes first to fourth vanes. The first to fourth microphones 7a, 7b, 7c, and 7d may be mounted adjacent to each of the first to fourth vanes. That is, the first to fourth microphones 7a, 7b, 7c, 7d are mounted on the first indoor unit 10a, and the first to fourth microphones 7a, 7b, 7c, 7d are mounted on the second indoor unit 10b. Is mounted, the first to fourth microphones 7a, 7b, 7c, 7d are mounted on the third indoor unit 10c, and the first to fourth microphones 7a, 7b, 7c are mounted on the fourth indoor unit 10d, 7d) can be mounted.

The user utters a voice such as “Turn on the power”, and at least one of the first to fourth microphones 7a, 7b, 7c, 7d provided in each of the first fourth indoor units 10a, 10b, 10c, 10d Can recognize the voice.

The indoor unit equipped with the microphone that recognizes the user's voice transmits the recognized voice signal to the central controller 50, and the central controller 50 analyzes the voice signal to obtain voice information.

The processor 51 of the central controller 50 is the first indoor unit, which is an indoor unit closest to the user based on the distance information from the user when the voice word is “power on” and the type of the voice command is the power control command, and the power is off. (10a) can be selected as the control target indoor unit. Here, the indoor unit having the closest distance to the user may mean a voice signal having the largest voice strength among voice signals.

That is, when the processor 51 receives a plurality of first voice signals including a first voice command (eg, “turn on the power”), the first voice signal having the highest voice strength among the plurality of first voice signals It is possible to select the indoor unit that has transmitted the control target indoor unit.

The processor 51 may transmit a control command including power on to the first indoor unit 10a, and the first indoor unit 10a receiving the control command may turn on the power.

Meanwhile, as illustrated in FIG. 9, when the power of the first indoor unit 10a is turned on, the user may utter a voice such as “Turn on the power”.

When the processor 51 acquires voice information in which the voice word is “power on” and the type of voice command is a power control command, the power is turned off and the second indoor unit that is the closest indoor unit to the user based on distance information from the user ( 10b) may be selected as a control target indoor unit. That is, when the first indoor unit 10a closest to the user is already powered on, the processor 51 may select the second indoor unit 10b closest to the user as the control target indoor unit. have. Here, the indoor unit having the second closest distance to the user may mean a voice signal having the second largest voice strength among voice signals.

As such, the processor 51 may select a control target indoor unit based on voice information and current operation information of each of the plurality of indoor units.

On the other hand, the processor 51 receives a plurality of first voice signals including a first voice command (for example, “Power On”) and a plurality of second voices including a second voice command after a set time has elapsed. When the signal is received and the second voice command is the same as the first voice command, the indoor unit that transmits the second voice signal having the second largest voice strength among the plurality of second voice signals may be selected as the control target indoor unit.

When the processor 51 receives a voice signal including the same voice command within a set time, it determines that a control command has not been made according to a user's intention and controls the indoor unit that has transmitted the voice signal having the greatest voice strength among the multiple voice signals When the target indoor unit is selected and a voice signal including the same voice command is received after a set time, it is determined that a control command has been made according to the user's intention, and the indoor unit transmits a voice signal having the second largest voice strength among the plurality of voice signals. Can be selected as the control target indoor unit.

10 to 12 are exemplary views illustrating a method of selecting a control target indoor unit when a central controller according to the first to third embodiments of the present invention receives a voice signal including an additional setting command.

In the state in which the first indoor unit 10a is operating in the cooling mode, the user utters a voice such as “make it cooler”, and the first to the fourth indoor units 10a, 10b, 10c, and 10d provided in each of the first indoor units At least one of the fourth microphones 7a, 7b, 7c, and 7d may recognize the voice and transmit the voice signal to the central controller 50. Each of the first to fourth microphones 7a, 7b, 7c, and 7d may be mounted adjacent to each of the first to fourth vanes 3a, 3b, 3c, 3d.

The processor 51 of the central controller 50 may acquire the type of the voice command as an additional setting command when the voice word is “make it cooler”.

As shown in FIG. 10, according to the first embodiment, the processor 51 is a second vane 3b facing the user according to user direction information among the four vanes formed in the first indoor unit 10a operating in the cooling mode ) And a control command for increasing the amount of air discharged from the fourth vane 3d may be transmitted to the first indoor unit 10a.

Or, as shown in FIG. 11, according to the second embodiment, the processor 51 is the first indoor unit 10a is already operating in the cooling mode, and the first indoor unit 10a is the second closest to the user. After turning on the power of the indoor unit 10b, a control command to operate in the cooling mode may be transmitted to the second indoor unit 10b.

Or, as shown in FIG. 12, according to the third embodiment, the processor 51 is the first indoor unit 10a is already operating in the cooling mode, and the first indoor unit 10a is the second closest to the user. The indoor unit 10b and the third indoor unit 10c can be selected as the control target indoor unit. In particular, the processor 51 has a first arrival time of the voice signal received from the first microphone 7a of the second indoor unit 10b, and a voice signal received from the third microphone 7c of the second indoor unit 10b. The second arrival time of, the third arrival time of the audio signal received from the third microphone 7c of the third indoor unit 10c, and the audio signal received from the fourth microphone 7d of the third indoor unit 10c In the fourth arrival time, the first to fourth arrival times are faster than the arrival time of the voice signal recognized by the microphone adjacent to the remaining vanes, and the first to fourth arrival times are similar to each of the first to fourth arrival times. When the difference is within a predetermined time, the first vane 3a and the third vane 3c of the second indoor unit 10b, the third vane 3c and the fourth vane 3d of the third indoor unit 10c are controlled. Can be selected as a target vane. Processor 51 is the first vane (3a) and the third vane (3c) of the second indoor unit (10b), the third vane (3c) and the fourth vane (3d) of the third indoor unit (10c) air in the direction of the user This is because it was judged as a vane that discharges.

After the processor 51 selects the control target indoor unit and the control target vane, control commands for discharging air from the first vane 3a and the third vane 3c facing the user among the four vanes of the second indoor unit 10b To the second indoor unit 10b, and among the four vanes of the third indoor unit 10c, the third indoor unit ( 10c).

For the same voice command, the control target indoor unit and the control target vane may be selected in various ways as shown in FIGS. 10 to 12, which may vary depending on a user preference or an indoor unit installation environment.

On the other hand, even when the type of the voice command is a driving setting command, the processor 51 may select the control target indoor unit based on the voice arrival time similarly to that described with reference to FIGS. 10 to 12. However, the processor 51 can also select the control target indoor unit based on the speech intensity similar to that described with reference to FIGS. 8 to 9.

Meanwhile, the method of selecting the control target indoor unit described in FIGS. 8 to 12 is merely exemplary, and the processor 51 of the central controller 50 includes at least one of a type of voice information, a voice strength, and a time to reach the voice. Based on this, a control target indoor unit can be selected in various ways.

For example, the processor 51 may determine the user's location based on distance information and direction information from the user for the power control command, and determine that the user's location is in the middle of two or more indoor units. In this case, the processor 51 may select two or more indoor units as control commands for turning on all of the indoor units or turning off one indoor unit after a predetermined time has elapsed. That is, according to an embodiment, the processor 51 may set an operation time to each of the selected control target indoor units when the control target indoor unit is selected.

As another example, the processor 51 may control the air volume differently according to the voice strength. The processor 51 determines a control command to control the air volume of the control target indoor unit as the first air volume when the voice strength is 50 dB, and the user sees it as close to the indoor unit. A control command for controlling the air volume of the target indoor unit to a second air volume greater than the first air volume may be determined. In this case, there is an advantage that can harmonize the indoor air desired by the user regardless of the user location.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

1: Indoor control unit 3: Bain
7: microphone 8: indoor communication department
10: indoor unit 50: central controller
51: processor 52: central communication unit
53: speech analysis unit

Claims (10)

In the air conditioning system comprising a plurality of indoor units and a central controller,
Each of the plurality of indoor units
At least one microphone;
It includes an indoor communication unit for transmitting the voice signal recognized by the microphone to the central controller,
The central controller
A central communication unit for receiving a voice signal from at least one of the plurality of indoor units;
And a processor that acquires voice information including at least one of a voice command, voice strength, and voice arrival time based on the voice signal received by the central communication unit and selects a control target indoor unit based on the obtained voice information.
Air conditioning system. According to claim 1,
The processor
Acquire distance information with a user for each of the plurality of indoor units based on the voice strength,
Selecting a control target indoor unit to execute the voice command based on the distance information
Air conditioning system. According to claim 1,
The processor
When receiving a plurality of first voice signals including a first voice command, the indoor unit transmitting the first voice signal having the highest voice strength among the plurality of first voice signals is selected as a control target indoor unit
Air conditioning system. According to claim 3,
The processor
Receiving the plurality of first voice signals and receiving a plurality of second voice signals including a second voice command after a set time has elapsed;
If the second voice command is the same as the first voice command, selecting an indoor unit that transmits a second voice signal having the second largest voice strength among the plurality of second voice signals as a control target indoor unit
Air conditioning system. According to claim 3,
The processor
After receiving the plurality of first voice signals, receiving a plurality of second voice signals including a second voice command,
If the indoor unit transmitting the second voice signal having the largest voice strength among the plurality of second voice signals is executing the second voice command, the second voice signal having the second largest voice strength among the plurality of second voice signals is executed. To select the indoor unit that sent the control target indoor unit
Air conditioning system. According to claim 1,
The processor
Acquire direction information with a user for each of the plurality of indoor units based on the voice arrival time,
Selecting a control target indoor unit and a control target vane to execute the voice command based on the direction information
Air conditioning system. The method of claim 6,
The processor
When the voice command is a driving control command for setting the wind speed, the vane facing the user is selected as the control target vane based on the direction information.
Air conditioning system. According to claim 1,
The processor
A control target indoor unit is selected based on the voice information and current operation information of each of the plurality of indoor units.
Air conditioning system. According to claim 1,
The voice command is
Power control command and operation control command,
The processor
When the voice command is a power control command, a control target indoor unit is selected based on the voice strength,
When the voice command is a driving control command, selecting a control target indoor unit based on the voice arrival time
Air conditioning system. The method of claim 9,
The driving control command
It includes operation setting command and additional setting command,
The processor
When the voice command is a driving setting command, the control command according to the voice signal is transmitted to the control target indoor unit
When the voice command is an additional setting command, the control target indoor unit and the control command to be transmitted to the control target indoor unit are determined, and the determined voice command is transmitted to the control target indoor unit.
Air conditioning system.

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