WO2016046861A1 - Appareil de commande, appareil serveur, système de commande, procédé de commande et programme de commande - Google Patents

Appareil de commande, appareil serveur, système de commande, procédé de commande et programme de commande Download PDF

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Publication number
WO2016046861A1
WO2016046861A1 PCT/JP2014/004856 JP2014004856W WO2016046861A1 WO 2016046861 A1 WO2016046861 A1 WO 2016046861A1 JP 2014004856 W JP2014004856 W JP 2014004856W WO 2016046861 A1 WO2016046861 A1 WO 2016046861A1
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Prior art keywords
signal
control
communication
home appliance
electronic device
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PCT/JP2014/004856
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English (en)
Japanese (ja)
Inventor
武 曾根田
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富士通株式会社
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Priority to PCT/JP2014/004856 priority Critical patent/WO2016046861A1/fr
Publication of WO2016046861A1 publication Critical patent/WO2016046861A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q9/00Arrangements in telecontrol or telemetry systems for selectively calling a substation from a main station, in which substation desired apparatus is selected for applying a control signal thereto or for obtaining measured values therefrom

Definitions

  • the present technology relates to a control device, a server device, a control system, a control method, and a control program.
  • HEMS Home Energy Management System
  • a system for acquiring the state of home appliances and operating instructions via a network has been proposed.
  • the user can control the operation of the home appliance from outside the house.
  • the user can immediately notice and take action when there is an abnormality in the home appliance, so do not automatically stop the operation of the home appliance such as an air conditioner and maintain the state Can do.
  • the user in the case of remote operation to home appliances using HEMS, if communication is interrupted, the user cannot acquire the status information of the home appliances in the house with the mobile terminal. In this case, since the user is not in the house, he / she cannot recognize the abnormality of the home appliance and cannot cope with it. Further, since communication is interrupted, it is impossible to perform operations such as operation stop of home appliances from the user or the HEMS service platform on the network. For this reason, it is required to automatically control the home appliances in a certain time after the communication interruption.
  • the certain time is a time during which the home appliance can guarantee safety even when the home appliance is continuously operated at the time of communication interruption regardless of whether or not the vehicle is actually operating normally.
  • a technique for monitoring the disruption of communication between electronic devices As a method for monitoring the disruption of communication between electronic devices, a technique is disclosed in which a keep-alive signal generated by a keep-alive transmission / reception unit is transmitted to a terminal device between terminal devices in a network system to monitor whether the terminal device is active or not. (Patent Document 1).
  • Patent Document 2 As a method for realizing energy management of an electronic device, a technique for turning off nighttime illumination after a predetermined time has been disclosed in a vehicle-mounted device when it is determined that communication is interrupted (Patent Document 2).
  • JP 2012-248927 A Japanese Patent Laid-Open No. 2007-126036
  • the inventor of the present invention thought that it was necessary to ensure the above safety in HEMS.
  • a HEMS that installs a HEMS controller in a house and realizes remote home appliance operation is a mobile terminal for which a user gives an operation instruction, and a server that receives an operation instruction from the mobile terminal via a network and provides a HEMS service And a HEMS controller that is in a house and receives an operation instruction from a server via a network, and a home appliance that is connected to the HEMS controller and operates based on the operation instruction from the HEMS controller.
  • the HEMS controller in the house and the server outside the house can communicate via the gateway by using a common communication method.
  • the HEMS controller and the server can determine the communication interruption by mutually monitoring the communication state.
  • the HEMS controller determines that communication has been interrupted, it can send an instruction to control the home appliances connected in the house to a safe state.
  • a cloud-type HEMS in which a HEMS controller is provided outside a house.
  • the cloud-type HEMS transmits an operation instruction to a home electric appliance in a house from a HEMS controller provided on the service base side such as a server via a network.
  • a HEMS controller provided on the service base side such as a server via a network.
  • this cloud-type HEMS even if there is no HEMS controller in the house, it is necessary to determine the interruption of communication by the home appliances in the house.
  • This invention aims at providing the control apparatus, electronic device, control system, control method, and control program which can ensure the safety
  • a receiving unit that receives a first signal at a timing different from a control instruction for an operation-controlled electronic device via a network, and a timing at which the first signal is received And a control unit that controls a power source of the electronic device when it is determined that the first signal has not been received for a predetermined period.
  • a cloud-type HEMS can provide a control device, a server device, a control system, a control method, and a control program that can ensure the safety of home appliances.
  • FIG. 1 is a diagram illustrating an example of a configuration of a device remote control system according to the first embodiment.
  • FIG. 2 is a block diagram illustrating an example of a hardware configuration of the HEMS controller 200.
  • FIG. 3 is a block diagram illustrating an example of a functional configuration of the HEMS controller 200.
  • FIG. 4 is a block diagram illustrating an example of a hardware configuration of the home appliance 100.
  • FIG. 5 is a block diagram illustrating an example of a functional configuration of the home appliance.
  • FIG. 6 is a block diagram illustrating an example of a hardware configuration of the mobile terminal 4.
  • FIG. 7 is an explanatory diagram showing an example of the record layout of the device status DB 208.
  • FIG. 1 is a diagram illustrating an example of a configuration of a device remote control system according to the first embodiment.
  • FIG. 2 is a block diagram illustrating an example of a hardware configuration of the HEMS controller 200.
  • FIG. 3 is a block diagram illustrating an example of a functional
  • FIG. 8 is an explanatory diagram showing a message format related to communication between the HEMS controller 200 and the home appliance 100.
  • FIG. 9 is an explanatory diagram illustrating an example of a communication sequence when the home appliance 100 is controlled by remote control.
  • FIG. 10 is a diagram illustrating an example of a communication sequence when it is determined that communication is interrupted by the home appliance.
  • FIG. 11 is a flowchart of processing performed by the HEMS controller 200 when the home appliance 100 determines a communication interruption.
  • FIG. 12 is a flowchart of home appliance processing when it is determined that communication is interrupted by the home appliance.
  • FIG. 13 is a diagram illustrating an example of a Keep Alive signal.
  • FIG. 14 is a diagram illustrating an example of a Keep Alive signal.
  • the cloud-type HEMS provides a HEMS service by receiving operation instructions from a mobile terminal through which a user performs an operation instruction and a mobile terminal via a network. And a HEMS controller that transmits an operation instruction from the server to the home appliance via a network, and a home appliance that is in the house and operates based on the operation instruction.
  • ECHONET Lite (registered trademark) is used as a communication method used when remotely controlling home appliances in HEMS.
  • ECHONET Lite is certified as a standard protocol of HEMS.
  • a new problem in the case of cloud-type HEMS arises in the cloud-type HEMS because home appliances and a HEMS controller are separated into a house and a house via a network.
  • HEMS controller determines the communication state between the HEMS controller and the server using a unique communication method with the server.
  • ECHONET Lite it was possible to give operation instructions to home appliances using ECHONET Lite.
  • home appliances in a house must be able to determine a communication interruption and control it to a safe state.
  • ECHONET Lite used for communication between home appliances and the HEMS controller does not define a communication procedure for monitoring the communication status by accessing the server from the home appliances. Cannot access and monitor the server where the controller is stored. Therefore, in order to access the server from home appliances and monitor the communication disruption, a monitoring communication method that can access and instruct the server separately from the ECHONET Lite, that is, the original proprietary method used between the HEMS controller and the server. It is necessary to use this communication method.
  • the HEMS controller and the server are often provided by the same manufacturer that provides the HEMS service. There is no need to disclose. However, since it is conceivable that the HEMS controller and the home appliance are different, it is necessary to disclose the communication method used for monitoring the communication state to the outside.
  • This communication method may be a security hole if the original communication method that can access and instruct the server (using the original communication method of the server provider) is disclosed to the outside. Opening the method to the outside is not preferable in terms of server security.
  • a cloud-type HEMS provides a control device, a server device, a control system, a control method, and a control program that can ensure the safety of home appliances on the HEMS without reducing the security of the HEMS.
  • control object apparatus controlled remotely is demonstrated as household appliances, it is not restricted to it.
  • a telemeter including a smart meter, a gas water heater, a gas floor heating device, and the like that have a communication function, can receive an operation control command from the outside, and can notify a change in its state to the outside are included.
  • the HEMS controller is an example of a control device, and can be configured by a PC (Personal Computer) in addition to the dedicated device.
  • a house will be described as an example of a facility, the present invention is not limited thereto, and a building that is not used as a house such as a tenant building or an office building may be used.
  • the building is not an indispensable condition. If a user in the vicinity of the control target device performs an operation in a facility where the control target device capable of remote control is installed, it may be necessary to suppress remote control.
  • the device remote control system disclosed in the present application is applicable.
  • the control device (home appliance) in the first embodiment keeps a network alive signal periodically transmitted from the HEMS controller at a timing different from the control instruction for the home appliance to be operated via the network.
  • FIG. 1 is a diagram illustrating an example of a configuration of a device remote control system according to the first embodiment.
  • the device remote control system includes a home appliance 100 that is a device to be controlled, a broadband router 2, a cloud service platform 3, a mobile terminal 4, and a network N.
  • the home appliance 100 and the broadband router 2 are installed in a house.
  • the broadband router 2 and the cloud service platform 3, and the mobile terminal 4 and the cloud service platform 3 are connected by a network N (communication path).
  • the cloud service platform 3 communicates with the home appliance 100 via the broadband router 2 via the network N, controls the operation of the home appliance 100, and collects the status of the home appliance 100.
  • the home appliance 100 has a communication function and accepts operation control from other devices via the broadband router 2.
  • the home appliance 100 notifies the external device of its current state and state change via the broadband router 2.
  • the broadband router 2 mediates communication between the home appliance 100 and the cloud service platform 3 outside the house.
  • the mobile terminal 4 has a communication function, and is, for example, a mobile phone, a smartphone, or a tablet terminal.
  • the cloud service platform 3 provides a cloud service, and includes, for example, a server computer.
  • the cloud service platform 3 includes a HEMS service unit 5, a cloud cooperation unit 6, and a HEMS controller 200.
  • the cloud cooperation unit 6 provides a service for the HEMS controller 200 and other devices to operate in conjunction with each other. For example, the cloud cooperation unit 6 authenticates the mobile terminal and mediates communication between the mobile terminal and the HEMS controller 200
  • FIG. 2 is a block diagram illustrating an example of a hardware configuration of the HEMS controller 200.
  • the HEMS controller 200 includes a CPU (Central Processing Unit) 201, a RAM (Random Access Memory) 202, a ROM (Read Only Memory) 203, a mass storage unit 204, a communication unit 205, and a reading unit 206. Each component is connected by a bus.
  • the CPU 201 controls each part of the hardware according to the control program 207 stored in the ROM 203.
  • the RAM 202 is, for example, SRAM (Static RAM), DRAM (Dynamic RAM), or flash memory.
  • the RAM 202 temporarily stores various data generated when the CPU 201 executes the program.
  • the large-capacity storage unit 204 is configured by, for example, a hard disk or an SSD (Solid State Drive).
  • the large-capacity storage unit 204 stores a device state DB (DataBase) 208.
  • the control program 207 may be stored in a database.
  • the communication unit 205 has a function of communicating with the home appliance 100 via the broadband router 2.
  • the communication unit 205 has a function of communicating with the mobile terminal 4 via the broadband router 2 and the cloud service platform 3.
  • the reading unit 206 reads a portable storage medium including a CD (Compact Disk) -ROM and a DVD (Digital Versatile Disc) -ROM.
  • the CPU 201 may read the control program 207 from the portable storage medium via the reading unit and store it in the large-capacity storage unit 204. Further, the CPU 201 may download the control program 207 from another computer via the network N and store it in the large capacity storage unit 204. Furthermore, the CPU 201 may read the control program 207 from the semiconductor memory.
  • FIG. 3 is a block diagram illustrating an example of a functional configuration of the HEMS controller 200.
  • the HEMS controller 200 includes a UI (User Interface) 211, a home appliance control application 212, a communication control unit 213, a cloud cooperation control unit 214, a communication I / F 215, and a database 216. These functional units of the HEMS controller 200 are realized by the CPU 201 illustrated in FIG. 2 operating according to the control program 207.
  • UI User Interface
  • the UI 211 includes an input unit used for inputting an instruction necessary for operating the HEMS controller 200 and a display unit for displaying a message to the user.
  • the home appliance control application 212 is an application program for controlling the home appliance 100 that can communicate with the HEMS controller 200.
  • the communication control unit 213 operates in cooperation with the communication I / F 215, and communicates with the external device of the HEMS controller 200, the blow band router 2, and the home appliance 100 via the network N.
  • the cloud cooperation control unit 214 operates in cooperation with the communication I / F 215 and communicates with the cloud cooperation unit 6. In addition, communication with the mobile terminal 4 is performed via the cloud cooperation unit 6.
  • the communication I / F 215 provides a communication function with an external device.
  • the database 216 manages various data.
  • the home appliance control application 212 transmits a Keep Alive signal. The process for transmitting the Keep Alive signal will be described later.
  • FIG. 4 is a block diagram illustrating an example of a hardware configuration of the home appliance 100.
  • the home appliance 100 includes a CPU 101, a RAM 102, a ROM 103, and a communication unit 104. Each component is connected by a bus.
  • the CPU 101 controls each part of the hardware according to the control program 105 stored in the ROM 103.
  • the RAM 102 is, for example, SRAM, DRAM, or flash memory.
  • the RAM 102 temporarily stores various data generated when the CPU executes the program.
  • the communication unit 104 has a function of communicating with the cloud service platform 3 via the broadband router 2.
  • the home appliance 100 includes a home appliance main body 106 that is hardware for realizing a home appliance function.
  • the home appliance 100 includes a CPU 101, a RAM 102, a ROM 103, a communication unit 104, and a home appliance main body 106.
  • the CPU 101 is provided separately from the home appliance main body 106 and connected to the home appliance main body 106.
  • An adapter including the RAM 102, the ROM 103, and the communication unit 104 may be provided.
  • FIG. 5 is a block diagram illustrating an example of a functional configuration of the home appliance 100.
  • Household appliance 100 includes a control unit 111 and a communication I / F 112.
  • the control unit 111 controls the home appliance 100.
  • the communication I / F 112 communicates with the HEMS controller 200 via the broadband router 2 and the network N.
  • FIG. 6 is a block diagram illustrating an example of a hardware configuration of the mobile terminal 4.
  • the portable terminal 4 includes a CPU 401, a RAM 402, a storage unit 403, an input unit 404, a display unit 405, and a communication unit 406.
  • the CPU 401 controls each part of the hardware according to the device control program 407 stored in the storage unit 403.
  • the RAM 402 is, for example, SRAM, DRAM, or flash memory.
  • the RAM 402 temporarily stores various data generated when the CPU 401 executes the program.
  • the storage unit 403 is, for example, a flash memory.
  • the input unit 404 receives an operation input for remotely controlling the device.
  • the display unit 405 displays the state of the device in the house.
  • the communication unit 406 has a function of communicating with the cloud service platform 3 via the network N and the broadband router 2.
  • FIG. 7 is an explanatory diagram showing an example of the record layout of the device status DB 208.
  • the device status DB 208 includes an address column, an operation status column, an installation location column, an abnormality occurrence status column, and a device name column.
  • the address column stores an address that can uniquely identify the device.
  • the device address is a network address of ECHONET Lite described later.
  • the operation state column stores the state of the device. ON indicates that the device is powered on and operating. OFF indicates that the device is turned off and is not operating.
  • the abnormality occurrence state column stores whether or not an abnormality has occurred in the device. If an abnormality has occurred, the presence of abnormality is stored. If no abnormality has occurred, “no abnormality” is stored.
  • FIG. 8 is an explanatory diagram showing a message format related to communication between the HEMS controller 200 and the home appliance 100.
  • A shows the format of the entire message.
  • B shows the format of the data body included in the message.
  • the EHD1 and EHD2 of the message are message headers.
  • EHD1 sets a value indicating that the message is an ECHONET Lite message.
  • EHD2 sets a value indicating a message format.
  • the format of the message is an arbitrary message format or a specified message format.
  • TID is a transaction ID.
  • the TID is a parameter for associating the request transmitted by the request transmission side with the received response when receiving the response.
  • the data body includes an area labeled SEOJ, DEOJ, ESV, OPC, EPC, PDC, EDT.
  • SEOJ the address of the transmission source device is set.
  • DEOJ the address of the transmission destination device is set in DEOJ.
  • ESV a value indicating which service of ECHONET Lite is supported is set.
  • OPC sets the number of parameters handled by one message.
  • EPC sets detailed parameters.
  • the PDC sets the parameter value for the EDT used in the message.
  • the property value write request is 0x61
  • the property value write response is 0x71
  • the property notification is 0x73.
  • FIG. 9 is an explanatory diagram showing an example of a communication sequence when the home appliance 100 is controlled by remote control.
  • the mobile terminal 4 is authenticated by the cloud cooperation unit 6 of the cloud service platform 3 (not shown). For example, authentication is performed using an ID and a password. If the mobile terminal 4 is a mobile phone, authentication may be performed using a terminal identification number (solid identification information).
  • the portable terminal 4 will transmit a remote household appliance control command, if the cloud cooperation part 6 receives authentication.
  • the cloud cooperation unit 6 transmits the received remote home appliance control command to the HEMS controller 200.
  • the HEMS controller 200 transmits a remote home appliance control command to the home appliance 100.
  • This home appliance control instruction uses a property value write request message.
  • Home appliance 100 controls itself according to the request, and transmits a remote home appliance control command response to HEMS controller 200.
  • the HEMS controller 200 transmits a remote home appliance control command response to the cloud cooperation unit 6.
  • the cloud cooperation unit 6 transmits a remote home appliance control command response to the portable terminal 4, and the series of communication sequences is completed.
  • FIG. 10 is a diagram illustrating an example of a communication sequence when it is determined that communication is interrupted by the home appliance.
  • the control unit 111 of the household appliance 100 stops the function of the household appliance main body 106 or Turn off the power.
  • the home appliance control application 212 of the HEMS controller 200 periodically transmits a Keep Alive signal to the home appliance 100 via the network N.
  • the transmission interval of the Keep Alive signal is set in the home appliance 100 based on a time during which the home appliance 100 can guarantee safety even when communication is interrupted. For example, in the case of an air conditioner, the time that the home appliance 100 can guarantee safety even when communication is interrupted is within 24 hours, so it is within 24 hours that the transmission interval of the Keep Alive signal is 10 minutes, 20 minutes, etc. Can be transmitted multiple times, and the interval at which communication interruption can be judged significantly.
  • the HEMS controller 200 periodically transmits a Keep Alive signal, and the home appliance 100 receives the Keep Alive signal.
  • the control unit 111 of the home appliance 100 determines that the communication has been interrupted, The function of the home appliance main body 106 is stopped or the power supply of the home appliance 100 is stopped. This is a case where the predetermined number of times for determining the communication interruption is four consecutive times. As a result, it is possible to determine the communication interruption in the home appliance 100 in the house, and in the cloud type HEMS, the safety of the home appliance can be secured without impairing the security safety.
  • FIG. 11 is a flowchart of processing performed by the HEMS controller 200 when the home appliance 100 determines that communication is interrupted.
  • the home appliance control application 212 of the HEMS controller 200 sets the timer time T of the keep alive signal transmission interval to 0 at the timing when the operation instruction and the control instruction are transmitted to the home appliance 100 (S201).
  • the home appliance control application 212 starts counting the timer time T of the Keep Alive signal transmission interval (S202), and determines whether or not the timer time T is equal to or longer than the Keep Alive signal transmission interval (S203).
  • step S203 if the timer time T is smaller than the transmission interval of the Keep Alive signal, the counting is continued (S203: No). In step S203, when the timer time T is equal to or longer than the transmission interval of the Keep Alive signal (S203: Yes), the Keep Alive signal is transmitted to the home appliance 100 via the network N (S204).
  • the count of the timer time T may be reset.
  • the timer time T is set to 0 again and the count is started.
  • the timer counts up the timer value.
  • the timer may count down.
  • a threshold is set for the timer value and the timer is started.
  • the elapse of the guard time may be determined based on whether or not the timer value has become 0 or less.
  • FIG. 12 is a flowchart of processing performed by the home appliance when it is determined that communication has been interrupted by the home appliance.
  • control unit 111 of the household electrical appliance 100 receives the Keep Alive signal transmitted from the HEMS controller 200 (S101), the control unit 111 starts determining whether or not the communication is interrupted depending on whether or not the Keep Alive signal can be received.
  • the control unit 111 determines whether or not the Keep Alive signal has been received continuously N times (S102).
  • the N times is set based on the transmission interval of the Keep Alive signal and the time that the home appliance 100 can guarantee safety even when communication is interrupted in the home appliance 100. For example, in the case of an air conditioner, the time that the home appliance 100 can guarantee safety even when communication is interrupted is within 24 hours, so it is within 24 hours that the transmission interval of the Keep Alive signal is 10 minutes, 20 minutes, etc. Can be transmitted multiple times, and the interval at which communication interruption can be judged significantly.
  • the control unit 111 determines whether the operation instruction to the home appliance 100 performed immediately before is from the HEMS controller 200 ( S103).
  • An operation instruction from other than the HEMS controller 200 includes an operation instruction using an infrared remote controller.
  • the home appliance main body 106 is controlled (S104). For example, in an air conditioner, safety is ensured by turning off the power of the main body.
  • FIG. 13 is a diagram illustrating an example of a Keep Alive signal.
  • a message format for GET (Read) the property value of the control target supported by the ECHONET Lite compatible device is used.
  • a value set different from the format value used for the normal remote home appliance control shown in FIG. 8 is used as the Keep Alive signal.
  • DEOJ sets the address of the destination device and indicates the class of the home appliance 100 to be controlled.
  • ESV a value indicating which service of ECHONET Lite is supported is set.
  • OPC sets the number of parameters (number of processing properties) handled by one message.
  • EPC sets detailed parameters.
  • the PDC sets the parameter value (number of bytes) used in the message.
  • the DEOJ value is set to 0xXXXX
  • the ESV value is set to 0x62 corresponding to the property value read request
  • the OPC value is set to 0x01.
  • the value of EPC is set to 0x80 indicating the operation state.
  • the value of EPC may be another value indicating an installation location or the like.
  • the value of PDC is set to 0x01 indicating that the number of bytes is 1. EDT is not required for GET (Read).
  • FIG. 14 is a diagram illustrating an example of a Keep Alive signal.
  • FIG. 14 shows an example of a Keep Alive signal generated for determining communication interruption based on a format defined in ECHONET Lite, which is a standard for the Keep Alive signal.
  • ESV, OPC, PDC, and EDT values are set in the same manner as in FIG.
  • a signal different from the signal used for the control instruction of the target home appliance within the standard range It can be used as an Alive signal.

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Abstract

[Problème] L'invention a pour objet de garantir la sûreté d'appareils domestiques dans un HEMS en nuage. [Solution] Un appareil de commande selon l'invention est caractérisé en ce qu'il comporte: un moyen de réception qui reçoit un premier signal via un network à un instant différente de celui d'une instruction de commande adressée à un dispositif électronique appelé à être exploité et commandé; et un moyen de commande qui, lorsqu'il est déterminé qu'aucun premier signal n'a été reçu pendant une durée prédéterminée depuis l'instant où le premier signal a été reçu, commande l'alimentation électrique du dispositif électronique.
PCT/JP2014/004856 2014-09-22 2014-09-22 Appareil de commande, appareil serveur, système de commande, procédé de commande et programme de commande WO2016046861A1 (fr)

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Cited By (1)

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WO2018186199A1 (fr) * 2017-04-07 2018-10-11 株式会社ノーリツ Système d'appariement permettant la gestion à distance d'un site d'utilisation d'eau chaude et adaptateur de communication utilisé dans ledit système

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JPH04170895A (ja) * 1990-11-05 1992-06-18 Hitachi Ltd 家庭電化機器の遠隔制御装置
JP2002372288A (ja) * 2001-06-19 2002-12-26 Sanyo Electric Co Ltd 通信配線接続機器の通信制御方法、空気調和装置の通信制御方法、及び空気調和装置
JP2014160893A (ja) * 2013-02-19 2014-09-04 Hitachi Ltd 機器監視システム、監視装置及び電気機器

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH04170895A (ja) * 1990-11-05 1992-06-18 Hitachi Ltd 家庭電化機器の遠隔制御装置
JP2002372288A (ja) * 2001-06-19 2002-12-26 Sanyo Electric Co Ltd 通信配線接続機器の通信制御方法、空気調和装置の通信制御方法、及び空気調和装置
JP2014160893A (ja) * 2013-02-19 2014-09-04 Hitachi Ltd 機器監視システム、監視装置及び電気機器

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018186199A1 (fr) * 2017-04-07 2018-10-11 株式会社ノーリツ Système d'appariement permettant la gestion à distance d'un site d'utilisation d'eau chaude et adaptateur de communication utilisé dans ledit système
JP2018182456A (ja) * 2017-04-07 2018-11-15 株式会社ノーリツ 温水利用設備の遠隔管理用ペアリングシステム、並びに、このシステムに用いられる通信アダプタ
US11146957B2 (en) 2017-04-07 2021-10-12 Noritz Corporation Pairing system for remotely managing hot-water utilization facility and communication adapter used in system

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