JP2021076286A - Air conditioning system and air conditioner - Google Patents

Abstract

To facilitate cooperation between an air conditioner and other apparatuses.SOLUTION: An indoor unit includes an indoor unit control section 40, and a humidifier includes a humidifier control section 50. The indoor unit control section 40 includes an operation information transmission section 44, and the humidifier control section 50 includes an acquisition section 52 and a control section 53. The acquisition section 52 periodically transmits an indoor unit state request to the indoor unit. When receiving the indoor unit state request from the humidifier, the operation information transmission section 44 transmits operation information to the humidifier. The control section 53 controls the humidifier on the basis of the operation information transmitted by the operation information transmission section 44.SELECTED DRAWING: Figure 2

Description

The present invention relates to air conditioning systems and air conditioning devices.

Air conditioners may be used with other equipment. For example, in a heating operation, the air conditioner is used with a humidifier because the air dries. When using the air conditioner and other equipment together, the user performs operations such as turning on / off the power of the air conditioner and setting the temperature with the remote controller of the air conditioner, and then turns the power of the other equipment on / off. Is performed using the operation panel provided by the other device, the remote controller of the other device, or the like. In this way, when the air conditioner and the other device are used together, the user needs to operate the air conditioner and the other device separately, which makes the operation cumbersome.

Therefore, there is a technique for operating the air conditioner and other devices in cooperation with each other. For example, there is an air conditioner that operates in cooperation with a blower (see Patent Document 1). This air conditioner has a plurality of different blower information in which an identifier uniquely assigned to the blower, an operation content executed by the blower, and control information for causing the blower to execute a process corresponding to the operation content are associated with each other. Blowers are stored in the storage unit for each blower. Then, when the air conditioner receives the selection of the identifier, the air conditioner controls the operation of the blower by using the blower information associated with the received identifier.

International Publication No. 2016/147399

When the air conditioner controls the operation of the blower using the blower information, it is necessary to create different blower information for each model of the blower to be linked, which imposes a heavy burden on software design. That is, when the air conditioner and the other device are operated in cooperation with each other, the conventional technique includes operation contents executed by the other device and control information for causing the other device to execute the processing corresponding to the operation content. There is a problem that the associated device information must be prepared in advance in the air conditioner for each linked device.

The disclosed technique has been made in view of this point, and an object thereof is to facilitate cooperation between an air conditioner and other devices.

In the disclosed aspect, the air conditioning system comprises an air conditioning device and equipment. The indoor unit of the air conditioner has an operation information storage unit that stores operation information related to the operation of the air conditioner, and an operation information stored by the operation information storage unit when a transmission request for the operation information is received from the device. It has an operation information transmission unit that transmits the above-mentioned device. The device has an acquisition unit that transmits a transmission request for the operation information to the indoor unit to acquire the operation information, and a control unit that controls the device based on the operation information acquired by the acquisition unit. ..

The disclosed air conditioning system can facilitate the coordination between the air conditioning device and other equipment.

FIG. 1 is a diagram showing a configuration of an air conditioning system according to an embodiment. FIG. 2 is a block diagram showing a configuration of functions of the indoor unit control unit and the humidifier control unit regarding the interlocking of the air conditioner and the humidifier. FIG. 3 is a diagram showing an example of driving information. FIG. 4 is a sequence diagram showing an operation when the humidifier performs the interlocking operation when the air conditioner is interlocked and the heating operation is performed. FIG. 5 is a sequence diagram showing an operation when the humidifier is interlocked with the sleep timer of the air conditioner when the air conditioner is interlocked effectively and the heating operation is performed. FIG. 6 is a sequence diagram showing an operation when the humidifier is interlocked with the eco function of the air conditioner when the air conditioner is interlocked effectively and the heating operation is performed.

Hereinafter, examples of the air conditioning system and the air conditioning device disclosed in the present application will be described in detail with reference to the drawings. The following examples do not limit the air conditioning system and the air conditioning device disclosed in the present application.

FIG. 1 is a diagram showing a configuration of an air conditioning system according to an embodiment. As shown in FIG. 1, the air conditioning system 1 according to the embodiment includes an air conditioning device 10 and a humidifier 20 as equipment. The air conditioner 10 is a device having a heating / cooling function. The humidifier 20 is a device having a humidifying function.

The air conditioner 10 includes an outdoor unit 11 and an indoor unit 12. The outdoor unit 11 and the indoor unit 12 are connected by a liquid pipe 14 and a gas pipe 15. The remote controller 10a transmits a signal to the air conditioner 10. The indoor unit 12 wirelessly communicates with the remote controller 10a and the humidifier 20. For wireless communication, for example, Bluetooth (registered trademark, the same applies hereinafter) is used. The remote controller 10a is operated by the user and transmits the operation instruction of the user to the indoor unit 12 by wireless communication. Further, the indoor unit 12 communicates with the operation terminal 61 via the Internet 60. The operation terminal 61 is, for example, a smartphone. The user remotely controls the air conditioner 10 using the operation terminal 61. The user may remotely control the humidifier 20 using the operation terminal 61.

The outdoor unit 11 uses an outdoor heat exchanger to exchange heat between the outdoor air taken inside the outdoor unit 11 and the refrigerant. At the time of heating, the outdoor unit 11 evaporates the refrigerant by transferring heat from the outdoor air to the refrigerant, and supplies the evaporated refrigerant to the indoor unit 12 via the gas pipe 15.

The indoor unit 12 uses an indoor heat exchanger to exchange heat between the indoor air taken inside the indoor unit 12 and the refrigerant. At the time of heating, the indoor unit 12 condenses the refrigerant by transferring heat from the refrigerant supplied through the gas pipe 15 to the indoor air. The condensed refrigerant is returned to the outdoor unit 11 via the liquid pipe 14. The indoor air that is heated by transferring heat from the refrigerant is blown into the room.

The indoor unit 12 has an absence detection sensor 30 and an indoor unit control unit 40. The absence detection sensor 30 detects whether a person is present or absent in the air-conditioned space, and notifies the indoor unit control unit 40 of the detection result.

The indoor unit control unit 40 controls the air conditioner 10 based on a signal from the remote controller 10a or the operation terminal 61. For example, the indoor unit control unit 40 controls ON (ON) and OFF (OFF) of the air conditioner 10. Further, the indoor unit control unit 40 controls so that the operation mode of the air conditioner 10 is heating or cooling. Further, the indoor unit control unit 40 controls a compressor and an expansion valve (not shown) so that the air conditioning device 10 exerts the air conditioning capacity required by the user. Further, the indoor unit control unit 40 controls the amount of indoor air blown into the room by heat exchange with the refrigerant by controlling the rotation speed of a blower (not shown).

Further, the indoor unit control unit 40 controls ON (ON) and OFF (OFF) of the sleep timer function of the air conditioner 10. Further, the indoor unit control unit 40 controls ON and OFF of the eco function of the air conditioner 10. When the eco function of the air conditioner 10 is ON and the absence detection sensor 30 detects the absence, the indoor unit control unit 40 operates with the eco function of the air conditioner 10.

The good night timer function is a function that weakens the driving ability at predetermined time intervals from the start of the timer and stops the operation of the air conditioner at the set time so that the user does not get too cold or too warm during sleep. The eco function is a function of setting the set temperature to 28 ° C for cooling / 20 ° C for heating to suppress power consumption.

The humidifier 20 has a humidifier control unit 50. The humidifier control unit 50 controls the humidifier 20 including interlocking with the air conditioner 10. The humidifier control unit 50 wirelessly communicates with the indoor unit control unit 40 to acquire operation information, and controls the humidifier 20 based on the acquired operation information. Here, the operation information is information regarding the operating state of the air conditioner 10. The operation information is also information regarding the operating state of the indoor unit 12.

FIG. 2 is a block diagram showing a configuration of functions of the indoor unit control unit 40 and the humidifier control unit 50 with respect to the interlocking of the air conditioner 10 and the humidifier 20. As shown in FIG. 2, the indoor unit control unit 40 includes a device communication unit 41, an operation information storage unit 42, an operation information setting unit 43, an operation information transmission unit 44, a first communication unit 45, and a second. It has a communication unit 46 and a determination unit 47. The humidifier control unit 50 includes a humidifier communication unit 51, an acquisition unit 52, a control unit 53, and a setting information storage unit 54.

The device communication unit 41 communicates with the humidifier communication unit 51 using wireless communication. The driving information storage unit 42 stores driving information. FIG. 3 is a diagram showing an example of driving information. As shown in FIG. 3, the operation information includes operation state information, operation mode setting information, good night timer information, eco operation information, and interlocking information.

The operating state information is information indicating whether the operating state of the air conditioner 10 is ON or OFF. The operation mode setting information is information indicating whether the operation mode of the air conditioner 10 is heating, cooling, blowing air, or dehumidifying. The good night timer information is information indicating whether the good night timer function of the air conditioner 10 is ON or OFF. The eco operation information is information indicating whether the eco function of the air conditioner 10 is ON or OFF, and whether or not a person exists. The interlocking information is information indicating whether or not the interlocking of the air conditioner 10 and the humidifier 20 is effective or not.

The driving information setting unit 43 sets driving information in the driving information storage unit 42 based on a signal from the determination unit 47, a notification from the absence detection sensor 30, and the like. When the operation information transmission unit 44 receives the indoor unit status request from the humidifier 20 via the device communication unit 41, the operation information transmission unit 44 transmits the operation information to the humidifier 20 via the device communication unit 41.

The first communication unit 45 communicates directly with the remote controller 10a or at a short distance by using wireless communication or the like, and notifies the determination unit 47 of an instruction from the remote controller 10a. The second communication unit 46 communicates with the operation terminal 61 via a public communication network such as the Internet 60, and notifies the determination unit 47 of an instruction from the operation terminal 61. The second communication unit 46 may receive an operation instruction for the humidifier 20 from the operation terminal 61 and send it to the humidifier control unit 50 via the device communication unit 41.

The determination unit 47 receives an instruction from the remote controller 10a from the first communication unit 45 or an instruction from the operation terminal 61 from the second communication unit 46, and notifies the operation information setting unit 43 of the setting of the operation information. When the determination unit 47 receives the instructions from the first communication unit 45 and the second communication unit 46 at the same time, the determination unit 47 gives priority to the instruction from the first communication unit 45 over the instruction received from the second communication unit 46. For example, when the determination unit 47 receives an instruction from the first communication unit 45, the determination unit 47 does not accept the instruction from the second communication unit 46 until a predetermined time (for example, 1 minute) has elapsed. By giving priority to the instruction by the remote controller 10a in the house (indoor where the indoor unit is installed) over the instruction from the outside (remote place) via the Internet 60, the user who operates in the house feels uncomfortable. You don't have to give.

The humidifier communication unit 51 communicates with the device communication unit 41 using wireless communication. The acquisition unit 52 transmits an indoor unit status request to the indoor unit 12 and acquires operation information from the indoor unit 12. The acquisition unit 52 transmits the indoor unit status request and receives the operation information via the humidifier communication unit 51. The acquisition unit 52 transmits an indoor unit status request, for example, every 10 seconds. The acquisition unit 52 passes the acquired operation information to the control unit 53.

The control unit 53 controls the humidifier 20 based on the operation information. For example, when the operation state information indicates ON, the operation mode setting information indicates heating operation, and the interlocking information indicates validity, the control unit 53 turns ON if the humidifier 20 is OFF. The control unit 53 controls the humidifier 20 based on the setting information set in the setting information storage unit 54. Further, when the operation state information indicates ON, the operation mode setting information indicates an operation other than heating, and the interlocking information indicates valid, the control unit 53 turns OFF if the humidifier 20 is ON.

When the operation status information indicates ON, the operation mode setting information indicates heating operation, the interlocking information indicates valid, and the good night timer information indicates ON, the control unit 53 indicates the good night humidification operation of the humidifier 20. If is OFF, turn it ON. When the good night timer information indicates OFF, the control unit 53 controls the humidifier 20 based on the setting information set in the setting information storage unit 54. The good night humidification operation may be, for example, an operation in which the operation noise of the humidifier is reduced or an operation in which the operation is stopped at a set time.

When the operation status information indicates ON, the operation mode setting information indicates heating operation, the interlocking information indicates validity, and the eco operation information indicates ON of the eco function and the presence of a person, the control unit 53 sets the control unit 53. If the humidifier 20 is OFF, the humidifier 20 is turned ON. When the operation status information indicates ON, the operation mode setting information indicates heating operation, the interlocking information indicates validity, and the eco operation information indicates ON of the eco function and the absence of a person, the control unit 53 sets the control unit 53. If the humidifier 20 is not in the eco mode, the eco mode is set. The eco mode of the humidifier 20 may be, for example, an operation that consumes less power.

Further, when the operation information cannot be acquired, the operation state information indicates OFF, or the interlock information indicates that the interlock is not effective, the control unit 53 is based on the setting information set for the operation of the humidifier 20. Controls the humidifier 20.

The setting information includes, for example, operation mode setting information, humidity setting information, and function setting information. The operation mode setting information is information indicating whether the operation mode of the humidifier 20 is set to, for example, a standard mode, a silent mode, an eco mode, or a throat / skin mode. The humidity setting information is information indicating whether the humidity is set to, for example, 50%, 60%, or 70%. The function setting information is, for example, information indicating whether or not to turn on the good night humidification function of the humidifier 20 and the eco mode. The setting information storage unit 54 stores the setting information set for the operation.

The function of the indoor unit control unit 40 is realized by executing a program by a processing device such as a microcomputer included in the indoor unit 12. Further, the function of the humidifier control unit 50 is realized by executing a program by a processing device such as a microcomputer included in the humidifier 20.

Next, an example of interlocking operation between the air conditioner 10 and the humidifier 20 will be described with reference to FIGS. 4 to 6. FIG. 4 is a sequence diagram showing an operation when the humidifier 20 performs the interlocking operation when the air conditioner 10 is interlocked and the heating operation is performed. As shown in FIG. 4, the remote controller 10a transmits the heating operation and the interlocking effect to the indoor unit 12 based on the operation of the user (step S1). Then, the indoor unit 12 is in a state during heating operation in which interlocking is effective.

In this state, the humidifier 20 transmits an indoor unit status request to the indoor unit 12 (step S2), and in response, receives information indicating heating and interlocking effectiveness from the indoor unit 12 (step S3). Although the operation information that has changed is mainly described in FIGS. 4 to 6, the indoor unit 12 responds to the indoor unit status request (every 10 seconds in this embodiment) transmitted from the humidifier 20. In response to this, the operation state information, the operation mode setting information, the good night timer information, the eco operation information, and the interlocking information are always returned. Upon receiving the response from the indoor unit 12, the humidifier 20 turns on the power and enters the humidifier ON state.

After that, the remote controller 10a transmits the cooling operation and the interlocking effect to the indoor unit 12 based on the operation of the user (step S4). Then, the indoor unit 12 is in a state during cooling operation in which interlocking is effective. In this state, when the humidifier 20 transmits the indoor unit status request to the indoor unit 12 (step S5), as a response, the information that the indoor unit 12 is operating other than the heating operation and that there is no heating is provided. Receives information indicating that the interlocking is valid (step S6). Then, the humidifier 20 is turned off and the humidifier is turned off.

In this way, during the heating operation of the air conditioner 10, the humidifier 20 acquires the operation information of the air conditioner 10 and turns on its own power supply. Therefore, the air conditioner system 1 humidifies the air conditioner 10 and the air conditioner 10. The interlocking of the vessels 20 can be easily performed.

FIG. 5 is a sequence diagram showing an operation when the humidifier 20 is interlocked with the sleep timer function of the air conditioner 10 when the air conditioner 10 is interlocked effectively and the heating operation is performed. As shown in FIG. 5, when the air conditioner 10 is interlocked effectively and the heating operation is in progress, the humidifier 20 transmits an indoor unit status request to the indoor unit 12 (step S11), and as a response, the indoor unit 12 Receives information indicating the heating and interlocking effectiveness from (step S12). Then, the humidifier 20 is turned on and the humidifier is turned on.

After that, the remote controller 10a transmits a signal for turning on the good night timer function to the indoor unit 12 based on the operation of the user (step S13). Then, the indoor unit 12 is in the state of turning on the good night timer in the heating operation in which the interlocking is effective. In this state, the humidifier 20 transmits an indoor unit status request to the indoor unit 12 (step S14), and in response, receives information from the indoor unit 12 indicating that the sleep timer is ON, which is effective in conjunction with heating (step S15). ). Then, the humidifier 20 is in the state of the good night humidification operation by turning on the good night humidification function.

After that, the time set by the good night timer function elapses, and the indoor unit 12 is turned off. In this state, the humidifier 20 transmits an indoor unit status request to the indoor unit 12 (step S16), and receives information indicating that the good night timer is OFF from the indoor unit 12 as a response (step S17). Then, the humidifier 20 is in an operating state based on the setting information.

In this way, when the humidifier 20 receives the information indicating that the good night timer is ON from the indoor unit 12, the good night humidifier function is turned on. Therefore, the air conditioning system 1 facilitates the interlocking of the air conditioning device 10 and the humidifier 20. Can be done.

FIG. 6 is a sequence diagram showing an operation when the humidifier 20 is interlocked with the eco function of the air conditioner 10 when the air conditioner 10 is interlocked effectively and the heating operation is performed. As shown in FIG. 6, when the air conditioner 10 is interlocked and performing the heating operation, the remote controller 10a transmits the eco function ON to the indoor unit 12 based on the operation of the user (step S21). .. At this time, the humidifier 20 turns on the humidifier 20 in the standard mode and receives a signal indicating that a person exists. The indoor unit 12 periodically performs an absence determination to determine whether or not a person exists.

In this state, the humidifier 20 transmits an indoor unit status request to the indoor unit 12 (step S22), and in response, receives information indicating that the eco function is ON and the presence of a person from the indoor unit 12 (step S23). .. Upon receiving the response from the indoor unit 12, the humidifier 20 maintains the humidifier ON state (step S24).

After that, the indoor unit 12 determines the absence, and the humidifier 20 transmits an indoor unit status request to the indoor unit 12 (step S25) in a state where the determination result has changed from existence to absence. Information indicating the absence of a person is received from No. 12 (step S26). Then, the humidifier 20 turns on the eco mode (step S27).

After that, when the indoor unit 12 determines the absence and the determination result changes from absent to present, the humidifier 20 transmits an indoor unit status request to the indoor unit 12 (step S28), and as a response, the indoor unit 20. Information indicating the existence of a person is received from 12 (step S29). Then, the humidifier 20 is set to the standard mode (step S30).

In this way, when the eco function of the air conditioner 10 is turned on, the humidifier 20 turns on the eco mode, so that the air conditioning system 1 can reduce the electricity bill of the humidifier 20.

As described above, in the air conditioning system 1 of the present embodiment, the acquisition unit 52 periodically transmits the indoor unit status request to the indoor unit 12. When the indoor unit 12 receives the indoor unit status request from the humidifier 20, the indoor unit 12 transmits the operation information to the humidifier 20. The control unit 53 controls the humidifier 20 based on the operation information transmitted by the indoor unit 12. Therefore, the air conditioning system 1 can easily link the air conditioning device 10 and the humidifier 20.

Further, when the air conditioner 10 is effectively interlocked and the heating operation is performed, the control unit 53 turns on the humidifier 20 if the power supply is OFF, so that the humidifier 20 can be interlocked with the air conditioner 10.

Further, the setting information storage unit 54 stores the setting information, and the control unit 53 indicates that the operation information cannot be acquired, the operation state information indicates OFF, or the interlocking information indicates that the interlocking is not effective. The humidifier 20 is controlled based on the setting information. Therefore, the humidifier 20 can prevent the setting from becoming invalid by interlocking with the air conditioner 10.

Further, when the sleep timer information indicates that the sleep timer is ON, the control unit 53 sets the humidifier 20 to the sleep humidification operation state unless the humidifier 20 is in the sleep humidification operation state. Therefore, the control unit 53 can operate the humidifier 20 in conjunction with the sleep timer function of the air conditioner 10.

Further, when the eco operation information indicates that the eco function is ON and a person is absent, the control unit 53 sets the humidifier 20 to the eco mode if it is not in the eco mode, so that the electricity cost of the humidifier 20 can be reduced. To.

In the embodiment, the case where the device is linked with the humidifier 20 has been described, but the air conditioner 10 may be linked with an air purifier, a blower, another air conditioner, or the like. Further, the air conditioner 10 may have only a cooling function or only a heating function.

1 Air conditioning system 10 Air conditioning device 10a Remote control 12 Indoor unit 20 Humidifier 40 Indoor unit control unit 42 Operation information storage unit 43 Operation information setting unit 44 Operation information transmission unit 45 1st communication unit 46 2nd communication unit 47 Judgment unit 50 Humidifier control unit 52 Acquisition unit 53 Control unit 54 Setting information storage unit 60 Internet 61 Operation terminal

Claims (7)

An air conditioning system that has an air conditioning device and equipment.
The indoor unit of the air conditioner is
An operation information storage unit that stores operation information related to the operation of the air conditioner, and
It has a driving information transmitting unit that transmits the driving information stored in the driving information storage unit to the device when the driving information transmission request is received from the device.
The device is
An acquisition unit that transmits the operation information transmission request to the indoor unit to acquire the operation information, and
An air conditioning system including a control unit that controls the device based on the operation information acquired by the acquisition unit. The operation information includes interlocking information indicating whether or not the interlocking of the air conditioner and the device is effective.
The control unit is characterized in that, when the interlocking information included in the operation information acquired by the acquisition unit indicates that the interlocking is effective, the control unit is turned on if the power of the device is off. The air conditioning system described in. The operation information includes operation state information indicating whether the power of the air conditioner is on or off.
The device is
It also has a setting information storage unit that stores the setting information set for driving.
The control unit indicates that the operation information is not acquired by the acquisition unit, the operation state information indicates that the power of the air conditioner is off, or the interlocking information indicates that the interlocking is not effective. The air conditioning system according to claim 2, wherein the device is controlled based on the setting information stored in the setting information storage unit. The operation information includes good night timer information indicating whether or not the good night timer is on.
The control unit operates the device in a good night operation when the good night timer information included in the operation information acquired by the acquisition unit indicates that the good night timer is on. The air conditioning system according to 3. The driving information includes information indicating whether the eco function is on and a person is absent.
The claim is characterized in that the control unit operates the device in the eco mode when the information included in the driving information acquired by the acquisition unit indicates that the eco function is on and a person is absent. Item 2. The air conditioning system according to item 2, 3 or 4. The device is a humidifier
The operation information includes operation mode setting information indicating an operation mode of the air conditioner.
The control unit is characterized in that when the operation mode setting information included in the operation information acquired by the acquisition unit indicates that the operation mode is heating, the humidifier is turned on if the power is off. The air conditioning system according to any one of claims 2 to 5. A driving information storage unit that stores driving information related to driving,
It is characterized by having a driving information transmitting unit that transmits the driving information stored in the driving information storage unit to the device when receiving a transmission request of the driving information from a device that controls itself based on the driving information. Air conditioner.

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