KR101818354B1 - Energy harvesting sensor module, air conditioner having the same and air conditioning method using the same - Google Patents

Abstract

The present invention relates to an energy harvesting enabled and movable sensor module, an air conditioner for controlling air conditioning based on the temperature and/or humidity of a real-life space using the same, and a control method thereof. The air conditioner according to the present invention comprises: a communication unit which is disposed at a predetermined distance from the air conditioner and is paired with the sensor module that wirelessly communicates the temperature or temperature and humidity information measured in an arranged space via data; and a control unit which controls a wind direction and a wind speed based on position information of the paired sensor module and the temperature or the temperature and humidity information at the corresponding position. The sensor module according to the present invention comprises: a sensor unit which generates an electrical signal corresponding to the temperature or the temperature and humidity measured in the arranged space; a wireless communication unit which receives the electrical signal from the sensor unit and performs data communication with the communication unit; a secondary battery which supplies power to the sensor unit and the wireless communication unit; an energy harvester which generates electric power for charging the secondary battery; and a charging circuit which charges the secondary battery with the electric power generated by the energy harvester.

Description

TECHNICAL FIELD [0001] The present invention relates to an energy harvesting sensor module, an air conditioner having the same, and a control method of the air conditioner using the energy harvesting sensor module.

[0001] The present invention relates to an air conditioner, and more particularly, to a sensor module capable of energy harvesting and a movable sensor module for measuring temperature and / or humidity information of an actual space, And a control method thereof.

An air conditioner such as an air conditioner is a device that adjusts the temperature and humidity of a room to a level suitable for a person to live. A typical air conditioner has a sensor for measuring the temperature and humidity of the indoor space, and supplies cold air or heated air to the indoor space to adjust the measured temperature and humidity to the set target temperature and humidity.

Since most of the air conditioners are provided with the sensors in the air conditioner itself, the temperature and humidity measured by the sensors are information not measured in a real space occupied by a person but in a sensor near the air conditioner. Therefore, there is a difference between the room temperature and humidity measured in the air conditioner and the actual temperature and humidity of the actual living space.

In view of this, conventionally, a wireless temperature sensor is placed on a remote controller for controlling an air conditioner to measure a temperature around a user, or a wireless temperature sensor is placed at a predetermined position in a room to measure the temperature wirelessly, Attempts have been made to reflect the temperature and humidity of a real-life space as much as possible.

However, since one air conditioner normally has one remote controller, the temperature measured in one remote controller can not guarantee the temperature of the real space. In addition, since a plurality of air conditioners of the same type can be controlled by a single remote controller, the temperature and humidity values measured by the sensors installed on the remote controller can be controlled by the air conditioner It does not guarantee temperature and humidity.

Even when the wireless temperature sensor is placed at a predetermined position in the room, the temperature and humidity measured by the wireless temperature sensor do not guarantee the temperature or humidity of the real-life space, and energy is consumed while communicating information wirelessly measured with the air conditioner, There has been a problem in that it has to be replaced frequently. Also, if you want to operate the wireless temperature sensor with an external power source, you have to put a wireless temperature sensor near the external power outlet so that it can not guarantee that the temperature and humidity measured by the wireless temperature sensor is the temperature or humidity in the real- do.

On the other hand, when a plurality of air conditioners are installed in an indoor space, it is cumbersome to control them individually, and an attempt has been made to construct an air conditioning system that centrally controls the operation of a plurality of air conditioners. However, such an air conditioner system is troublesome to have a separate central control device and is not suitable for home or small office.

Japanese Patent Application Publication No. Hei 8-6955 and Japanese Patent Laid-Open Publication No. 2015-0072873 are known background technologies.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sensor module that measures the temperature and humidity of a real-life space in which a person mainly lives, and provides the measured temperature and humidity to the air conditioner through wireless communication.

It is another object of the present invention to provide a sensor module that does not inconvenience battery replacement and does not need to be connected to an external power source by providing the power source by self-energizing the sensor module in a real- .

Another object of the present invention is to provide a sensor module which is immediately paired with an air conditioner, consumes less power, and can be manufactured at low cost.

It is another object of the present invention to provide an air conditioner and a control method thereof that can control the temperature and humidity of a real-life space by providing the sensor module.

Another object of the present invention is to provide an air conditioner capable of controlling air conditioning based on temperature and / or humidity information measured by a sensor module corresponding to an installation position of the sensor module, and a control method thereof.

Another object of the present invention is to provide an air conditioner and a control method thereof, which can adjust the air flow rate and the air velocity discharged from a plurality of air outlets provided in an air conditioner in accordance with the installation position of the sensor module.

Another object of the present invention is to provide an air conditioner and a control method thereof that can control the air flow rate and wind speed of each air conditioner by sharing real-time space temperature and / or humidity information between neighboring air conditioners without a separate central control device The purpose.

According to an aspect of the present invention, there is provided an electronic apparatus comprising: a sensor unit for generating an electrical signal corresponding to a temperature or a temperature and a humidity measured in an arranged space; A wireless communication unit paired with a gateway of the air conditioner and receiving the electrical signal from the sensor unit and communicating data with the gateway; A secondary battery for supplying power to the sensor unit and the wireless communication unit; An energy harvester for generating electric power for charging the secondary battery; And a charging circuit for charging the secondary battery with electric power generated by the energy harvester.

The portable sensor module can be installed in a space where the user can freely select the location because the portable sensor module can provide a power source. Therefore, it is possible to measure the temperature and the humidity of the real-life space.

The wireless communication unit includes a reduced function device (RFD) and implements the sensor module with a simple configuration having necessary functions.

Since the wireless data communication is based on Bluetooth or Zigbee communication, power consumption is low and immediate pairing and information transmission and reception are possible.

The energy harvester can be constituted by a solar cell, and the energy harvesting amount of the sensor module can be secured in consideration of the fact that the area in which the user actually lives is generally bright.

In order to solve the above-described problems, the present invention provides an air conditioner disposed in a room, the air conditioner being capable of controlling a wind direction and an air speed, the air conditioner comprising: A communication unit that is paired with a sensor module that wirelessly communicates data with the measured temperature or temperature and humidity information; And a control unit for controlling the wind direction and the wind speed based on the position information of the paired sensor modules and the temperature, temperature, and humidity information of the corresponding position, and the sensor module includes: A sensor unit for generating an electrical signal corresponding to humidity; A wireless communication unit that receives the electrical signal from the sensor unit and performs data communication with the communication unit; A secondary battery for supplying power to the sensor unit and the wireless communication unit; An energy harvester for generating electric power for charging the secondary battery; And a charging circuit for charging the secondary battery with electric power generated by the energy harvester.

According to the air conditioner, the wind direction and the wind speed of the air conditioner can be controlled based on the temperature and humidity information of the real space.

Here, the air conditioner includes two or more discharge ports for discharging air in different directions, and the sensor module is provided corresponding to the number of the discharge ports, so that the controller associates the sensor module paired with the communication unit with the discharge port The wind direction and the wind speed can be controlled.

Further, the communication unit may be configured as a full function device (FFD), and may be paired with a plurality of sensor modules installed at different positions, and may be connected to a communication unit of another air conditioner, Alternatively, temperature and humidity information can be given (or given) to other air conditioners.

In order to solve the above problems, the present invention provides a control method of an air conditioner disposed in a room and capable of controlling wind direction and wind speed, the method being paired with respective sensor modules disposed around the air conditioner, Determining the position of each sensor module disposed around the sensor; And a controller for receiving the temperature, temperature, and humidity information measured by the plurality of sensor modules individually disposed in the space around the air conditioner wirelessly, and outputting the temperature, humidity, And controlling the air to be supplied to the air conditioner.

The air conditioner may have two or more discharge ports for discharging air in different directions, and the pairing of the sensor modules and the air conditioner may be performed corresponding to the respective discharge ports.

The power supplied to the sensor module may be provided by an energy harvester provided in the sensor module.

In addition, two or more air conditioners are disposed in the room, and the control method of the air conditioner is paired with one air conditioner, and data of a sensor module for wirelessly providing temperature, temperature, , Separately controlling the air discharged from the other air conditioner.

According to the present invention, the temperature and the humidity of a real-life space in which a person lives mainly are measured and provided to an air conditioner through wireless communication, so that air-conditioning control based on the temperature and humidity of the real-life space is possible.

In addition, according to the present invention, the sensor module performs energy harvesting in a real-life space in which a person is present, thereby providing a power source for the sensor module, thereby eliminating the inconvenience of battery replacement and connecting to an external power source.

Further, according to the present invention, the sensor module is immediately paired with the air conditioner, power consumption is reduced, and it can be manufactured at low cost.

In addition, according to the present invention, the sensor modules can be paired corresponding to the plurality of discharge ports provided in the air conditioner, so that the air flow rate and the air velocity discharged from the respective discharge ports can be controlled corresponding to the installation position of the sensor module.

In addition, according to the present invention, it is possible to control the air flow rate and wind speed of each air conditioner by sharing real-time space temperature and / or humidity information between neighboring air conditioners without a separate central control device.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

1 shows a wireless connection between an air conditioner and a sensor module according to the present invention,
2 is a view showing the operation of the air conditioner of FIG. 1,
3 is a block diagram of an air conditioner and a sensor module,
4 is a view illustrating an indoor space provided with the air conditioner according to the present invention, and FIG.
5 is a top view of the air conditioner and the sensor module of FIG.

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

It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

FIG. 1 shows a wireless connection between an air conditioner and a sensor module according to the present invention, FIG. 2 shows an operation of the air conditioner of FIG. 1, and FIG. 3 shows a configuration of an air conditioner and a sensor module.

The air conditioner (10) according to the present invention illustrates an air conditioner installed in a ceiling of an indoor space. However, the type and installation form of the air conditioner of the present invention are not limited thereto.

The air conditioner (10) has a plurality of discharge ports (13). The plurality of discharge ports are provided in the air conditioner so that air is discharged in different directions. In the embodiment of the present invention, four discharge ports are arranged at intervals of 90 degrees to discharge air. The air conditioner 10 can control the air discharge independently of the four discharge ports as well as independently adjust the air velocity of the air discharged through the four discharge ports. In some cases, the wind direction discharged from each discharge port can also be individually controlled. That is, the air conditioner can control the direction of the wind by discharging the air through any one of the four outlets, as well as controlling the direction of the vane or the like even in the individual outlet. These control functions of wind speed and direction can be appropriately added or subtracted according to the desired implementation.

Also, the air conditioner 10 of the present invention is paired with one or more sensor modules 30 to transmit and receive data. In the embodiment of the present invention, four sensor modules 301, 302, 303, and 304 are paired to one air conditioner 10. The air conditioner 10 and the sensor module 30 transmit and receive data wirelessly, and the wireless data can be transmitted optically, propagatively, electrically, or electromagnetically. In the embodiment of the present invention, it is exemplified that each of the sensor modules 301, 302, 303, 304 individually performs wireless communication with the air conditioner 10, and this communication is exemplified by ZigBee or Bluetooth. It goes without saying that various other methods such as infrared, WiFi, etc. may be applied to the communication method. However, if ZigBee and Bluetooth are applied, even if there is an obstacle between the air conditioner 10 and the sensor module 30, they can be bypassed, and the pairing and communication reaction speed is very fast and the power consumption is small.

The sensor module 30 is provided with a sensor unit 35 for measuring the temperature and / or humidity. The sensor module 30 measures the temperature and humidity of the space in which the sensor module 30 is located, converts the temperature and humidity into electrical signals, 10). The air conditioner 10 controls the amount of air discharged from each of the discharge ports 13 and the discharge direction based on the provided temperature and humidity signals. In the embodiment of the present invention, it is exemplified that the respective sensor modules 30 are located in a space where air is discharged from the four discharge ports 13. The sensor modules 30 are paired with the air conditioner 10 in association with the discharge ports 13 corresponding to the respective positions.

According to the present invention, based on the temperature and humidity information in the vicinity of the position where the sensor module 30 is installed, and by controlling the air volume and the direction of air discharged from each of the discharge ports 13 based on the temperature and humidity information, Humidity can be adjusted.

The sensor module 30 is provided with an energy harvester 31 such as a solar cell and a charging circuit 32 connected to the energy harvester to convert the collected energy into a chargeable state to the secondary battery 33. The charging circuit may include a converter for charging the battery by changing the voltage received from the solar cell. The secondary battery 33 supplies the necessary power to the control unit 34, the sensor unit 35, and the wireless communication unit 36.

The sensor module 30 of the present invention is a portable sensor module configured in a compact size and can be placed on a table, a desk, or the like. It can also be installed in other ways, such as hanging on the wall if necessary. Therefore, the solar cell of the sensor module 30 collects the energy from the room lighting and charges the secondary battery 33. Given that the indoor space in which a person lives is a bright environment, energy collection can be smooth. The solar cell 31 of the sensor module 30 constantly collects energy to charge the secondary battery 33 regardless of whether the air conditioner 10 and the sensor module 30 are operated do. Even when the air conditioner 10 is not operated and the sensor module 30 is in the rest state and the power switch of the sensor module 30 is turned off, The circuit 32 can be continuously operated to charge the secondary battery 33. [

The control unit 34 controls the pairing of the air conditioner 10 and the sensor module 30 and the communication between the wireless communication unit 36 and the communication unit 11 when the air conditioner 10 is in operation. The air conditioner 10 and the sensor module 30 are paired via a network such as ZigBee or Bluetooth and the controller stores the information of the air conditioner 10 paired with the sensor module 30. The information of the air conditioner 10 thus paired can be updated. For example, the sensor module 30 is provided with a pairing button for inputting a command for starting or completing a pairing operation, so that pairing, unpaired, and renewed with the air conditioner 10 are possible. Also, if necessary, the pairing information for each of the two or more air conditioners may be stored so that the air conditioners may be individually connected or multi-paired.

The control unit 34 controls whether the temperature / humidity information of the sensor unit 35 is acquired. The control unit 34 intermittently or continuously monitors information on whether the air conditioner 10 is operating from the communication unit 11 of the air conditioner 10 paired via the wireless communication unit 36. [ Therefore, when it is confirmed that the monitoring result shows that the air conditioner 10 is in operation, the control unit 34 can control the sensor unit 35 to acquire the temperature and humidity information (conversely, It will monitor whether the air conditioner has started to operate continuously without activating the ram sensor part).

The sensor unit 35 measures temperature and / or humidity, converts the temperature and / or humidity into an electrical signal, and transmits the electrical signal to the controller 34. The temperature and humidity of the sensor unit may be measured at predetermined time intervals or continuously. The control unit 34 can transmit the temperature and humidity information received from the sensor unit 35 to the communication unit 11 of the air conditioner 10 paired with the sensor module 30 through the wireless communication unit 36. [

The communication unit 11 of the air conditioner 10 transmits the identification code or ID of the paired sensor module 30 and the temperature and humidity information received from the corresponding sensor module to the control unit 12. Then, the control unit 12 uses the identification code of the paired sensor module 30 and the temperature and humidity information to determine how much air is to be discharged to which outlet 13. In addition, the control unit can control the temperature of the air discharged through the discharge port, the discharge direction, the discharge speed, and the like.

Discharge control may be performed based on information input by the user. If the user does not want to directly wind the wind, indirect wind blowing may be used to adjust the temperature and humidity of the space. If the user wants to directly receive a strong wind, a strong wind may be directly discharged into the space. The discharge control corresponding to the input information is possible.

Also, the discharge control may be determined according to the on-off state of the sensor module 30. [ 2, when the second sensor module 302 is turned off, the control unit 12 of the air conditioner 10 facing the space in which the sensor module is installed does not discharge air through the second discharge port 132 can do. That is, it is considered that there is no person in the space where the sensor module which is turned off is installed. According to such a control method, the air conditioning can be performed mainly by the space where the person is present, and the air conditioning efficiency can be improved.

The relative installation position of the sensor module 30 with respect to the air conditioner 10 can be acquired in various manners. The indoor positioning of the sensor module 30 can be realized by using a beacon in the room where a plurality of air conditioners 10 are installed. It is also possible to implement the indoor positioning by a triangulation method or a fingerprinting method. However, all of these methods may require designing and preliminary data acquisition and input when installing the air conditioner (10).

As described above, by applying the method of pairing the sensor module 30 installed in the space where the air conditioning is performed according to the air discharge direction of each of the discharge ports with the discharge port, it is possible to easily install the air conditioner It is possible to construct.

That is, the air conditioner 10 is installed in the ceiling of the room, and after power is supplied to the air conditioner 10, the first and second air outlets 131, The sensor module 301 is associated with and coupled to the first discharge port 131 and the second sensor module 302 installed in the space ventilated by the second discharge port 132 of the air conditioner 10, The third sensor module 303 provided in the space to be air-conditioned by the third discharge port 133 of the air conditioner 10 is paired with the third discharge port 133 in association with the discharge port 132 And the fourth sensor module 304 installed in the space ventilated by the fourth outlet 134 of the air conditioner 10 in association with the fourth outlet 134.

The temperature and humidity sensed by the first sensor module 301 can be regarded as the temperature and humidity of the space to be air-conditioned by the air discharged from the first discharge port 131, and the temperature sensed by the second sensor module 302 And the humidity can be regarded as the temperature and humidity of the space to be air-conditioned by the air discharged from the second discharge port 132, and the temperature and humidity sensed by the third sensor module 303 are discharged from the third discharge port 133 The temperature and humidity sensed by the fourth sensor module 304 can be viewed as the temperature and humidity of the space air-conditioned by the air, .

After the four sensor modules 30 are paired with the air conditioner 10 as described above, the temperature and humidity measured in the first to fourth sensor modules are provided to the air conditioner 10, In the air conditioner (10), the temperature of the real space can be controlled by controlling the air discharged through the first to fourth discharge ports based on the temperatures measured by the first to fourth sensor modules.

Particularly, when a person living in the room is, for example, a room where the first air outlet 131 of the air conditioner 10 is inhabited mainly by himself / herself, The first sensor module 301 measures the temperature and the humidity of the space close to the first sensor module 301 and provides the temperature and the humidity to the air conditioner 10 so that the actual temperature of the space To match the room temperature set in the controller (10). When the first sensor module 301 on the desk is turned off, the air conditioner 10 is no longer in the position where the first sensor module 301 is located, It is possible to further increase the air conditioning efficiency of the space to be air-conditioned by the other discharge port by reducing or blocking the amount of air discharged through the first discharge port 131.

In this way, the air conditioner 10 can control the air discharged from the first to fourth discharge ports in correspondence with the temperature and humidity measured by the first to fourth sensor modules, respectively, thereby improving the air conditioning efficiency. The air conditioner and the sensor module set of the present invention may be used in a case where a particular space in the room needs more cooling or heating than other spaces such as a room where the heat source is concentrated, It is possible to increase the efficiency of cooling and heating, reduce the temperature variation of the indoor space, and maintain a more pleasant environment.

In addition, since the sensor module is energy-harvesting even when the power is turned off and is portable, the sensor module is disposed almost all the time around the person staying in the room. In most places where people stay in the room, Can be continuously performed.

In the embodiment of the present invention, the wireless communication unit 36 uses ZigBee or Bluetooth, which consumes less power, so that the sensor module can be continuously used even when the energy harvesting amount is required without replacing the battery or connecting an external power source. Since the time required for the connection between the ZigBee and Bluetooth is very short, when the operation of the air conditioner 10 is started, the control unit 12 of the air conditioner 10 searches for and connects to nearby sensor modules , It immediately connects to the surrounding sensor module.

In addition, since it does not communicate with other communication modules other than the already-paired sensor module, the security is very high.

FIG. 4 is a view illustrating an indoor space provided with the air conditioner according to the present invention, and FIG. 5 is a top view of the air conditioner and the sensor module of FIG.

The first air conditioner 101 and the second air conditioner 102 are provided in the interior space exemplified in the embodiment of the present invention. The first air conditioner and the second air conditioner each include a communication unit 11, and the communication unit is a full function device (FFD) which can be connected to a plurality of sensor modules at the same time.

The communication unit 11 of the first air conditioner 101 is wirelessly connected to the first to fourth sensor modules 301, 302, 303 and 304 in a paired state, And is paired with the communication unit 11 in a state of being associated with the ejection openings 131, 132, 133, and 134.

The communication unit 11 of the second air conditioner 102 is wirelessly connected to the wireless communication unit 36 of the third and fourth sensor modules 303 and 304 in a state of being paired with the wireless communication unit 36 of the corresponding air conditioner 102 And is associated with the third and fourth ejection openings 133 and 134 of the communication unit 11, respectively. The sensor module is not paired in correspondence with the first discharge port 131 and the second discharge port 132 of the second air conditioner 102.

The wireless communication unit 36 of the sensor module 30 is a reduced function device (RFD) as a terminal device. Since the sensor module 30 illustrated in the embodiment of the present invention does not need to be connected to devices other than the air conditioner located in the topology in the topology, it can be configured with a simple RFD with low power consumption.

Since the communication unit 11 of the first air conditioner 101 and the communication unit 11 of the second air conditioner 102 are FFDs, not only the plurality of sensor modules 30 but also communication units 11 ) Can also be paired with each other. Therefore, if two or more air conditioners according to the present invention are installed in the same indoor space, the mesh topology shown in FIG. 5 can be realized.

As described above, the sensor modules are not paired in correspondence with the first discharge port 131 and the second discharge port 132 of the second air conditioner 102. However, even if the sensor module is not paired, the temperature and humidity information of the space to be air-conditioned by the corresponding outlet port is the same as the temperature of the second air in the sensor module of the first air conditioner 101 installed adjacent to the second air conditioner 102 Can be obtained from a sensor module installed in the vicinity of the space ventilated by the first discharge port (131) and the second discharge port (132) of the air conditioner (102). The second air conditioner 102 is connected to the communication unit 11 of the first air conditioner 101 via the communication unit 11 so that the second air conditioner 102 can control the operation of the first air conditioner 101 Humidity information received from the third sensor module 303 and the fourth sensor module 304 of the corresponding air conditioner 101 through communication between the communication units 11 and receives the temperature and humidity information from the second air conditioner Humidity information of the space to be air-conditioned by the second discharge port (132) and the first discharge port (131).

The person living in the room moves with the paired sensor module 30 in association with the outlet port of the corresponding air conditioner where the person himself / herself is mainly located, and moves the sensor module 30 on the office desk, And the power of the sensor module 30 is turned on. The control unit 34 of the sensor module 30 provides the temperature and humidity information measured by the sensor unit 35 to the air conditioner 10 via the wireless communication unit 36. The air conditioner 10 outputs the temperature and humidity information The amount of air discharged from the discharge port, and the like.

Referring to FIG. 4, the fourth sensor module 304 placed on the B desk is paired with the first air conditioner 101. Therefore, the air conditioning control through the fourth outlet 134 of the first air conditioner 101 is based on the temperature and humidity information measured by the fourth sensor module 304. The air conditioning control through the first discharge port 131 of the second air conditioner 102 without the separately paired sensor module is performed by the air conditioner 100 of the first air conditioner 101, . ≪ / RTI > Particularly, this type of temperature and humidity information collection is advantageously applied in the case where the air conditioning spaces of neighboring air conditioners overlap each other (a space around the desk B in Fig. 4).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed exemplary embodiments. It is obvious that a transformation can be made. Although the embodiments of the present invention have been described in detail above, the effects of the present invention are not explicitly described and described, but it is needless to say that the effects that can be predicted by the configurations should also be recognized.

10: Air conditioner
101: First air conditioner
102: Second air conditioner
11:
12:
13:
131: first outlet
132: second outlet
133: Third outlet
134: Fourth outlet
30: Sensor module (mobile wireless)
301: first sensor module
302: second sensor module
303: Third sensor module
304: fourth sensor module
31: Energy harvester (solar cell)
32: Charging circuit
33: Secondary battery
34:
35:
36:

Claims (13)

delete delete delete delete An air conditioner disposed indoors, capable of controlling wind directions and wind speeds,
The air conditioner (10) comprises:
A communication unit 11 disposed at a predetermined distance from the air conditioner and paired with a sensor module for wirelessly communicating temperature or humidity information measured in an arranged space; And
And a controller (12) for controlling the wind direction and the wind speed based on the position information of the paired sensor module and the temperature, temperature, and humidity information of the corresponding position,
The sensor module comprises:
A sensor unit for generating an electrical signal corresponding to a temperature measured in the arranged space or a temperature and a humidity; And
And a wireless communication unit that receives the electrical signal from the sensor unit and performs data communication with the communication unit,
The communication unit is a full function device (FFD)
The communication unit of the air conditioner is connected to the communication unit of another air conditioner,
The air conditioner may provide position information of the sensor module paired with the air conditioner and temperature or temperature and humidity information of the corresponding position to other air conditioners through a communication unit connection between the air conditioners, The location information of the other paired sensor modules and the temperature, temperature, and humidity information of the corresponding location are received from other air conditioners,
The air conditioner and the other air conditioners each have the control unit,
The control unit of the air conditioner may control the airflow direction and the air speed of the air conditioner based on the position information of the other sensor module provided from another air conditioner and the temperature, .
The method of claim 5,
The air conditioner includes:
And two or more outlets for discharging air in different directions.
The method of claim 6,
Wherein the sensor module is provided corresponding to the number of the discharge ports,
Wherein the control unit controls the wind direction and the wind speed by associating the sensor module paired with the communication unit and the discharge port.
The method of claim 5,
The sensor module comprises:
A secondary battery for supplying power to the sensor unit and the wireless communication unit;
An energy harvester for generating electric power for charging the secondary battery; And
And a charging circuit for charging the secondary battery with electric power produced by the energy harvester.
The method of claim 5,
Wherein the communication units of the at least two air conditioners are connected in the form of a mesh topology.
A control method for an air conditioner (10) which is disposed indoors and is capable of controlling a wind direction and an air speed through a control unit (12) provided in the air conditioner,
Determining a position of each sensor module paired with each of the sensor modules disposed around the air conditioner and disposed around the air conditioner; And
And temperature and humidity information measured by a plurality of sensor modules individually disposed in a space around the air conditioner and wirelessly receiving temperature and humidity information based on temperature, And separately controlling the air to be discharged through the control unit,
Wherein two or more air conditioners are disposed in the room,
The two or more air conditioners communicating with each other through the mutual communication with each other to receive information measured in a sensor module paired with each of the air conditioners; And
The control unit of each of the other air conditioners individually outputs the air discharged from the other air conditioner based on the data of the sensor module which is paired with one air conditioner and wirelessly provides temperature or temperature and humidity information to the corresponding air conditioner And controlling the operation of the air conditioner.
The method of claim 10,
Wherein the air conditioner has two or more outlets for discharging air in different directions,
Wherein the pairing of the sensor module and the air conditioner corresponds to each of the air outlets.
The method of claim 11,
Wherein the power supplied to the sensor module is provided by an energy harvester provided in the sensor module.
The method of claim 10,
Wherein the at least two air conditioners are connected and communicated in a mesh topology form.

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