JP6473651B2 - Air conditioning system, smart device used therefor, and data communication method - Google Patents

Description

  Embodiments described herein relate generally to an air conditioning system, a smart device used for the air conditioning system, and a data communication method.

  Conventionally, as a commercial air conditioner, there is a multi air conditioner configured by connecting a plurality of indoor units to one outdoor unit. In such an outdoor unit of a multi air conditioner, setting information, sensor information, and the like regarding each connected indoor unit are sequentially acquired, and an administrator communicates with the outdoor unit using a remote controller. The air conditioner is managed by acquiring information on the unit and changing the settings for outdoor units and indoor units.

  As a remote controller for managing an air conditioner, a smart device that has been widely used in recent years may be used. By managing the air conditioner using a smart device, it is possible to perform processing efficiently using various applications.

JP 2014-155376 A

  When managing air conditioners using smart devices, the multi air conditioner as described above has multiple outdoor units and indoor units to be managed, and there are many information management items. The amount of information transmitted and received between the two is enormous and requires a lot of time for management work.

  However, when working for a long time using a smart device, there is a problem that the amount of charge may be insufficient in the middle of the work, which may hinder the work.

  The present invention has been made in view of the above circumstances, and when performing a management operation of an air conditioning system using a smart device, it avoids interruption of the work due to insufficient charge of the smart device, and smoothly transmits and receives information. It is an object of the present invention to provide an air conditioning system that makes it possible to perform the above, a smart device used therefor, and a data communication method.

  According to the embodiment for achieving the above object, a smart device used in an air conditioning system includes a storage battery remaining capacity monitoring unit, a device antenna, and a switching control unit. The remaining capacity monitoring unit monitors the remaining capacity of the storage battery of the smart device. The device antenna performs wireless communication with an outdoor unit in the air conditioning system. When it is detected that the remaining capacity of the storage battery is equal to or lower than the first threshold value set in advance, the switching control unit transmits a power supply request to the outdoor unit, and in response to transmitting the power supply request, The battery is charged with the electric power supplied wirelessly.

1 is an overall view showing an air conditioning system according to an embodiment of the present invention. It is a block diagram which shows the structure of the air conditioning system by one Embodiment of this invention. It is a flowchart which shows operation | movement of the air conditioning system by one Embodiment of this invention. It is a figure which shows the example which installed the holder holding a smart device in the outdoor unit of the air conditioning system by one Embodiment of this invention.

<Configuration of air conditioning system according to one embodiment>
A configuration of an air conditioning system according to an embodiment of the present invention will be described with reference to FIG. The air conditioning system 1 according to the present embodiment includes an outdoor unit 10, indoor units 20-1, 20-2, and 20-3 connected to the outdoor unit 10 through communication lines and refrigerant pipes, an outdoor unit 10, and an NFC (Near Field). Smart device 30 configured to be capable of wireless communication by communication). In this embodiment, a case where three indoor units 20-1 to 20-3 are connected to the outdoor unit 10 will be described, but the present invention is not limited to this, and two or four or more indoor units are connected. May be.

  Detailed functional configurations of the outdoor unit 10 and the smart device 30 will be described with reference to FIG. The outdoor unit 10 includes an outdoor unit control unit 11 and an outdoor unit antenna 12 for performing communication by NFC. The outdoor unit control unit 11 includes a data processing unit 111 and a power supply processing unit 112. The data processing unit 111 holds data related to air conditioning control of each of the indoor units 20-1 to 20-3 and its own outdoor unit 10, and provides these data in response to a data request from the smart device 30. In response to an instruction from the smart device 30, the data processing unit 111 controls the operation of the corresponding indoor unit 20 or the outdoor unit 10 and changes the setting. The power supply processing unit 112 is connected to the commercial power supply 40 and performs a wireless power supply process in response to a power supply request from the smart device 30.

  The smart device 30 includes an input / output unit 31 configured by a touch panel, a device control unit 32, a device antenna 33 for performing communication by NFC, and a storage battery 34 that supplies power to the own smart device 30.

  The device control unit 32 includes a remaining capacity monitoring unit 321, a management information processing unit 322, a charging control unit 323, and a switching control unit 324. The remaining capacity monitoring unit 321 monitors the remaining capacity of the storage battery 34 at predetermined time intervals. The management information processing unit 322 performs processing for acquiring predetermined data related to air conditioning control from the outdoor unit 10 based on information input from the input / output unit 31, and operations of the indoor units 20-1 to 20-3 and the outdoor unit 10. A process for transmitting an instruction for performing control, setting change, or the like is performed. The charging control unit 323 charges the storage battery 34 with power supplied wirelessly from the outdoor unit 10. The switching control unit 324 normally sets the management information processing unit 322 in a state in which data communication with the outdoor unit 10 is possible via the device antenna 33, and the remaining capacity of the storage battery 34 is set to a predetermined value in the remaining capacity monitoring unit 321. When it is detected that the following has occurred, the data communication between the management information processing unit 322 and the outdoor unit 10 is interrupted, and a power supply request is transmitted from the charging control unit 323 to the outdoor unit 10 via the device antenna 33, The setting is switched so that the storage battery 34 is charged with the power supplied in response to the transmission of the power supply request.

<Operation of Air Conditioning System According to One Embodiment>
Next, as an operation of the air conditioning system 1 according to the present embodiment, a process when the administrator of the air conditioning system 1 acquires data related to air conditioning control in the air conditioning system 1 from the outdoor unit 10 using the smart device 30. This will be described with reference to the flowchart of FIG.

  In the present embodiment, as a default state, the management information processing unit 322 is set to a state in which data communication regarding the air conditioning control can be performed with the outdoor unit 10 via the device antenna 33 by the switching control unit 324 of the smart device 30. Further, the remaining capacity monitoring unit 321 of the smart device 30 monitors the remaining capacity of the storage battery 34 at predetermined time intervals.

  When a predetermined data request related to air conditioning control is input from the input / output unit 31 of the smart device 30 by the operation of the administrator in the state set in this way (S1), the input data request is changed to management information processing. The unit 322 wirelessly transmits from the device antenna 33 (S2).

  In the outdoor unit 10, the data request transmitted from the smart device 30 is received from the outdoor unit antenna 12, and the data processing unit 111 specifies data specified based on the data request, for example, the indoor units 20-1 to 20-. 3, initial setting data, room temperature data acquired by sensors installed in the indoor units 20-1 to 20-3, operation state data by the outdoor unit 10, and the like are acquired. Then, the data processing unit 111 starts processing to wirelessly transmit the acquired data from the outdoor unit antenna 12 to the smart device 30 (S3).

  In the smart device 30, data reception from the outdoor unit 10 is started in the management information processing unit 322 via the device antenna 33 (S4).

  When the data transmission from the outdoor unit 10 to the smart device 30 is being executed, when the remaining capacity monitoring unit 321 detects that the remaining capacity of the storage battery 34 has become equal to or less than a preset first threshold value ( “YES” in S5), the setting is switched by the switching control unit 324 so that the data communication regarding the air conditioning control between the management information processing unit 322 and the outdoor unit 10 is interrupted and the charging control unit 323 starts the charging control. . Here, the first threshold value is a value that is set in advance as the amount of electricity stored in the storage battery 34 that is required for the smart device 30 to complete the predetermined management operation of the air conditioning system 1 to the end.

  When the setting is switched, a power supply request is transmitted from the charging control unit 323 to the outdoor unit 10 via the device antenna 33 (S6).

  In the outdoor unit 10, the power supply request transmitted from the smart device 30 is received from the outdoor unit antenna 12, and based on this, the data transmission process related to the air conditioning control being executed in the data processing unit 111 is interrupted, and the power supply processing unit In 112, a wireless power supply process is started in response to the power supply request (S7).

  When the wireless power supply processing by the power supply processing unit 112 is started, the power supplied from the outdoor unit 10 via the outdoor unit antenna 12 is received from the device antenna 33 of the smart device 30 and is supplied to the storage battery 34 by the charge control unit 323. Is started (S8).

  When the remaining capacity monitoring unit 321 detects that the remaining capacity of the storage battery 34 has exceeded a preset second threshold ("YES" in S9) due to the execution of charging, the switching control unit 324 The setting is switched so that the charging process by the charging control unit 323 is interrupted, and retransmission of the data interrupted during execution is started in step S7. Here, the second threshold value is a value higher than the first threshold value, and is a value that can sufficiently secure the remaining amount of the storage battery 34 even if the smart device 30 completes the predetermined management work of the air conditioning system 1 to the end. It is set in advance.

  When the setting is switched, a data retransmission request is transmitted from the management information processing unit 322 via the device antenna 33 (S10).

  In the outdoor unit 10, the data retransmission request transmitted from the smart device 30 is received from the outdoor unit antenna 12, and based on this, the power supply process being executed in the power supply processing unit 112 is stopped and interrupted in the data processing unit 111. The re-transmission processing of the transmission target data by the above processing is started (S11). Then, in the smart device 30, data reception from the outdoor unit 10 is started in the management information processing unit 322 via the device antenna 33 (S12).

  Thereafter, when transmission processing of data to be transmitted is completed in the data processing unit 111 of the outdoor unit 10 (“YES” in S13), a series of processing in the outdoor unit 10 ends. When the reception process is completed in the smart device 30 (“YES” in S14), a series of processes in the smart device 30 ends.

  According to the above-described embodiment, during the management work of the air conditioner using the smart device, when the charge amount of the smart device is reduced and the amount of electric power until the series of management work is insufficient, the temporary work is temporarily performed. The charging process is automatically executed as much as necessary for the management work. Therefore, the charging process and the communication process are efficiently performed while avoiding the interruption of the work due to power shortage, so that the management work can be performed smoothly. Can do.

  In the embodiment described above, as shown in FIG. 4, the holder 50 that holds the smart device 30 may be installed so that the device antenna 33 corresponds to the position of the outdoor unit antenna 12 of the outdoor unit 10. By installing the holder 50 in this way, the administrator can fix the smart device 30 to the holder 50 during the charging process, and the charging process can be surely executed while reducing the burden on the administrator. .

  Although the embodiment of the present invention has been described, this embodiment is presented as an example and is not intended to limit the scope of the invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1 ... Air conditioning system, 10 ... Outdoor unit, 11 ... Outdoor unit control part 12 ... Outdoor unit antenna, 20, 20-1, 20-2, 20-3 ... Indoor unit 30 ... Smart device, 31 ... Input / output part, 32 ... Device control unit 33 ... Device antenna, 34 ... Storage battery, 40 ... Commercial power supply, 50 ... Holder 111 ... Data processing unit, 112 ... Power supply processing unit, 321 ... Remaining capacity monitoring unit 322 ... Management information processing unit, 323 ... Charge control , 324... Switching control unit

Claims (5)

In an air conditioning system in which an air conditioning outdoor unit connected to a plurality of air conditioning indoor units and a smart device are wirelessly connected,
The air conditioning outdoor unit is
In response to a data request acquired from the smart device, a data processing unit that processes data related to air conditioning control;
A power supply processing unit that is connected to a commercial power supply and wirelessly supplies power to the smart device in response to a power supply request from the smart device;
The smart device is
A storage battery that supplies power to operate the smart device;
A remaining capacity monitoring unit for monitoring the remaining capacity of the storage battery;
A device antenna for performing wireless communication with the air conditioner outdoor unit;
During normal operation, the device is set in a state in which data communication with the air conditioner outdoor unit is possible via the device antenna, and the remaining capacity of the storage battery is equal to or less than a preset first threshold value in the remaining capacity monitoring unit. Is detected, the power supply request is transmitted to the air-conditioning outdoor unit via the device antenna, and the storage battery is charged with the power supplied wirelessly from the device antenna in response to the transmission of the power supply request. An air conditioning system comprising a switching control unit that switches settings. The air conditioning system according to claim 1, wherein a holder for fixing the smart device is installed in the air conditioning outdoor unit. In a smart device connected to a plurality of air conditioning indoor units and wirelessly connected to an air conditioning outdoor unit having a data processing unit that processes data related to air conditioning control and a power supply processing unit that wirelessly supplies power,
A storage battery that supplies power to operate the smart device;
A remaining capacity monitoring unit for monitoring the remaining capacity of the storage battery;
A device antenna for performing wireless communication with the air conditioner outdoor unit;
During normal operation, the device is set in a state in which data communication with the air conditioner outdoor unit is possible via the device antenna, and the remaining capacity of the storage battery is equal to or less than a preset first threshold value in the remaining capacity monitoring unit. Is detected, the data communication with the air conditioner outdoor unit is interrupted, a power supply request is transmitted to the air conditioner outdoor unit via the device antenna, and the device antenna is responded to the transmission of the power supply request. A smart device comprising: a switching control unit that switches settings so as to charge the storage battery with power supplied wirelessly from the device. The switching control unit switches the setting so that the storage battery is charged with power, and then the remaining capacity monitoring unit has a remaining capacity of the storage battery that is higher than the first threshold value and exceeds a preset second threshold value. When it is detected, the device antenna transmits a request for retransmission of data to be transmitted by the interrupted data communication process to the air conditioner outdoor unit via the device antenna, stops charging the storage battery, and The smart device according to claim 3, wherein switching is performed so that data communication is resumed via a network. A smart device that includes a device antenna for performing wireless communication, is connected to a plurality of air conditioning indoor units, and wirelessly communicates data related to air conditioning control via the device antenna,
When it is detected during the data communication with the air conditioner outdoor unit that the remaining capacity of the storage battery that supplies power for operating the smart device is equal to or lower than a preset first threshold value, data with the air conditioner outdoor unit is detected. The communication is interrupted, a power supply request is transmitted to the air-conditioning outdoor unit via the device antenna, and the storage battery is charged with the power supplied wirelessly from the device antenna in response to the transmission of the power supply request. And then, when it was detected that the remaining capacity of the storage battery exceeded a preset second threshold value that was higher than the first threshold value, the air conditioner outdoor unit was interrupted via the device antenna. Sends a retransmission request for data to be transmitted by data communication processing, stops charging the storage battery, and resumes data communication via the device antenna Data communication method characterized by switching to cormorants.

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