JP6146551B1 - Device control system control method, device control system, and adapter - Google Patents

Abstract

The adapter 10 connected to the HEMS network 5 compliant with the ECHONET Lite (registered trademark) standard acquires a remote control code by receiving a remote control signal from the remote control device 3 of the non-compliant electrical equipment 2 that does not comply with the above standard. The remote control code thus transmitted is transmitted to the HEMS terminal 7 via the HEMS network 5. The HEMS terminal 7 transmits the conversion information 752 indicating the correspondence between the property code and the remote control code to the adapter 10. The adapter 10 controls the non-compliant electric device 2 by transmitting a remote control signal including a remote control code corresponding to the property code included in the message for the non-compliant electric device 2. The adapter 10 receives the remote control signal information from the remote control signal acquisition unit 81 and the physical quantity measurement value from the physical quantity measurement value acquisition unit, respectively, and the non-compliant electric device 2 receives the remote control signal based on the received remote control signal information and the physical quantity measurement value. Confirm that you have received

Description

  The present invention relates to a device control system control method, a device control system, and an adapter.

  Patent Document 1 discloses a home appliance diagnostic system configured to analyze product information output as a predetermined acoustic signal from a home appliance, check the state of the home appliance, and facilitate after-sales service. Have been described. A home appliance diagnosis system includes at least one home appliance that outputs a modulated signal including product information as an acoustic signal, and a diagnostic server that receives the acoustic signal output from the home appliance and performs a fault diagnosis on the home appliance. The diagnostic server detects the product information from the acoustic signal, and diagnoses the home appliance based on the plurality of data items according to the correlation between the data items included in the product information.

  Patent Document 2 describes a lighting device control system that remotely controls a lighting device so as to be in a target lighting state even if the current lighting state is unknown. The lighting device control system is connected to the central control unit, the central control unit via the network, transmits a remote control signal to the lighting device, and controls the lighting state of the lighting device, and detects the illuminance of the lighting device. And an illuminance detection unit. The illumination control unit generates a remote control signal to guide the lighting device to the target lighting state based on the remote control signal generation information transmitted from the central control unit via the network and the illuminance information transmitted from the illuminance detection unit.

Special table 2012-523741 gazette JP 2007-141771 A Echonet Consortium, “ECHONET Lite Standard Ver.1.12 (Japanese and English)”, [online], 1997-2016, [May 10, 2016 search], Internet <URL: http: // echonet .jp / spec />

  There is an ECHONET Lite (registered trademark) standard as a standard relating to a communication network constituting a HEMS (Home Energy Management System) (Non-patent Document 1). In the above standards, for electrical equipment connected to a communication network compliant with the standard, (1) when the electrical equipment is a full ECHONET Lite equipment, (2) when it is an ECHONET Lite-ready equipment, and (3) ECHONET Lite It is defined for three cases of electrical devices that do not comply with the (registered trademark) standard.

  Here, when the electrical device is a full ECHONET Lite device (above (1)), it can be directly connected to a communication network compliant with the above standard. If the electrical device is an ECHONET Lite ready device ((2) above), it can be connected to the communication network by adding an ECHONET Lite middleware adapter.

  On the other hand, if the electrical device is not compatible with the ECHONET Lite (registered trademark) standard ((3) above), it is necessary to prepare an individual adapter for each electrical device. It is not always easy to connect to a compliant communication network.

  The present invention has been made in view of such a background, and an apparatus control system for reliably controlling an electric apparatus that does not comply with a predetermined communication standard from a communication network compliant with the communication standard. It is an object of the present invention to provide a control method, a device control system, and an adapter.

  In order to achieve the above object, one of the present inventions is to connect to a communication network compliant with a predetermined communication standard, receive a message sent via the communication network, and respond to the contents of the message An adapter that controls an incompatible electrical device that is an electrical device that is incompatible with the communication network, a remote control signal that communicates with the adapter and is transmitted to the incompatible electrical device, and receives the remote control signal Remote control signal information that is information including the remote control signal acquisition unit, communicating with the adapter, and when the non-compliant electrical device receives the remote control signal in the vicinity of the non-compliant electrical device A physical quantity measurement value acquisition unit that measures the physical quantity affected by the response action in time series and sends the measured physical quantity measurement value to the adapter. The information indicating the correspondence between the control code corresponding to the non-compliant electrical device in the communication standard and the remote control code of the non-compliant electrical device in the communication standard Storing the conversion information that is, when the electronic message for the non-compliant electric device is received via the communication network, corresponding to the control code included in the electronic message based on the conversion information Acquiring the remote control code, transmitting a remote control signal including the acquired remote control code, receiving the remote control signal information of the remote control signal from the remote control signal acquisition unit, and measuring the physical quantity from the physical quantity measurement value acquisition unit A step of receiving a measurement value, and based on the physical quantity measurement value, Determining whether there is a change in the physical quantity due to the response operation of the non-compliant electrical device within a predetermined period before or after the time when the unit receives the remote control signal; A step of obtaining a remote control code included in the remote control signal information when it is determined that there is a change in the physical quantity due to the response operation of the device, and the control code corresponding to the remote control code is obtained based on the conversion information Obtaining the information indicating the operation state of the non-compliant electric device after the control by the remote control signal from the remote control signal information, and storing the acquired information in association with the control code. Is.

  As described above, in the present invention, the adapter stores the conversion information, which is information indicating the correspondence between the control code corresponding to the non-compliant electric device in the communication standard and the remote control code, and the non-compliant electric device is connected via the communication network. When the target electronic message is received, a remote control code corresponding to the control code included in the electronic message is acquired based on the conversion information, and a remote control signal including the acquired remote control code is transmitted. It can be controlled from a communication network that complies with the communication standard. Further, the adapter receives remote control signal information from the remote control signal acquisition unit, receives physical quantity measurement values from the physical quantity measurement value acquisition unit, and confirms that the non-compliant electric device has received the remote control signal based on these. Therefore, after transmitting the remote control signal, the adapter can grasp whether or not the non-compliant electric device is correctly controlled.

  Another aspect of the present invention is a control method for the device control system, wherein the adapter receives a request for providing information indicating the operation state via the communication network, and requests the received request for provision. The step of transmitting the information indicating the operation state to the transmission source of the provision request is further executed.

  ADVANTAGE OF THE INVENTION According to this invention, the information which shows the operation state of an incompatible electric equipment can be provided to other apparatuses, such as a HEMS server and a HEMS terminal connected to a communication network. For this reason, for example, another device can grasp whether or not the control is correctly performed after controlling the non-compliant electric device via the adapter.

  Another aspect of the present invention is a control method of the device control system, wherein the physical quantity is a volume, and the adapter is a predetermined method before or after the time when the remote control signal acquisition unit receives the remote control signal. It is determined whether or not there is a sound output as the response operation by the non-compliant electric device within the period.

  According to the present invention, the adapter can reliably determine whether or not a non-compliant electrical device has received a remote control signal.

  The predetermined communication standard is, for example, the ECHONET Lite (registered trademark) standard, and the control code is, for example, a property code in the ECHONET Lite (registered trademark) standard.

  In addition, the subject which this application discloses, and its solution method are clarified by the column of the form for inventing, and drawing.

  ADVANTAGE OF THE INVENTION According to this invention, the electric equipment which does not respond | correspond to a predetermined communication standard can be reliably controlled from the communication network based on the said communication standard.

1 is a diagram illustrating a schematic configuration of a device control system 1. FIG. This is a hardware configuration of the non-compliant electric device 2. This is a hardware configuration of the remote control device 3. This is a hardware configuration of the corresponding electrical device 4. This is a hardware configuration of the HEMS server 6. It is a figure which shows the function of the HEMS server 6, and the data which the HEMS server 6 memorize | stores. It is an example of property information 651. This is a hardware configuration of the HEMS terminal 7. It is a figure which shows the function of the HEMS terminal 7, and the data which the HEMS terminal 7 memorize | stores. It is an example of conversion information 752. This is a hardware configuration of the adapter 10. It is a figure which shows the function of the adapter 10, and the data which the adapter 10 memorize | stores. It is an example of the conversion information 50. It is an example of remote control signal information 51. It is an example of the physical quantity measurement value 52. 3 is an example of property information 55; This is a hardware configuration of the remote control signal acquisition unit 81. It is a figure which shows the function of the remote control signal acquisition unit 81. FIG. This is a hardware configuration of the physical quantity measurement value acquisition unit 82. It is a figure which shows the function of the physical quantity measurement value acquisition unit 82. FIG. It is a flowchart explaining conversion information setting processing S1600. It is an example of a device object designation screen 1701. It is an example of a property designation screen 1702. It is an example of a conversion information confirmation screen 1703. It is a flowchart explaining apparatus control processing S1800. It is a flowchart explaining operation state acquisition processing S1900. 4 is an example of a device object designation screen 2001. 4 is an example of a property information confirmation screen 2002.

  FIG. 1 shows a schematic configuration of a device control system 1 described as an embodiment of the present invention. As shown in the figure, the device control system 1 includes a HEMS network 5 (HEMS: Home Energy Management System) which is a communication network compliant with the ECHONET Lite (registered trademark) standard, and a HEMS server 6 connected to the HEMS network 5. A HEMS terminal 7, a remote control signal acquisition unit 81, a physical quantity measurement value acquisition unit 82, an adapter 10, and an electric device that does not comply with the ECHONET Lite (registered trademark) standard (hereinafter referred to as an incompatible electric device 2). including. The device control system 1 may further include one or more electric devices (hereinafter referred to as “corresponding electric devices 4”) compatible with the ECHONET Lite (registered trademark) standard connected to the HEMS network 5. In the device control system 1, the adapter 10 can be regarded as one of the compatible electrical devices 4.

  The electric devices (non-compatible electric device 2, compatible electric device 4) are, for example, an air conditioner, an AV device (TV, video deck, audio device, various recorders, etc.), a fan, a humidifier, a lighting fixture, and the like.

  In the HEMS network 5, for example, a wired or wireless transmission medium (for example, a local area network, PLC (Power Line Communication), wireless LAN, Bluetooth (registered trademark), 920 MHz band wireless communication, etc.) is used as a lower layer. As the intermediate layer, for example, a communication standard such as UDP / IP is used.

  The non-compliant electrical device 2 is accompanied by a remote control device 3 for remotely controlling the non-compliant electrical device 2. The type of the remote control signal transmitted from the remote control device 3 is not limited (for example, Bluetooth (registered trademark) or 920 MHz band wireless communication may be used), but in this embodiment, an infrared signal (for example, IrDA (Infrared Data) is used. Association) standard). The remote control signal has a predetermined data format including a series of codes. Examples of the data format include an NEC (registered trademark) format, a home-made cooperative (registered trademark) format, and a SONY (registered trademark) format.

  For example, the HEMS server 6 stores and provides information on power usage in a consumer provided with the HEMS network 5, monitors and controls the status of the corresponding electrical equipment 4, monitors and controls the status of power generation / power sales, and saves power information. Various services such as providing For example, the HEMS server 6 may have a smart meter function. The HEMS server 6 stores information (for example, property information) related to ECHONET Lite (registered trademark), and provides the information to the HEMS terminal 7 or the like via the HEMS network 5 as needed.

  The HEMS terminal 7 transmits a message conforming to ECHONET Lite (registered trademark) to the corresponding electrical device 4 via the HEMS network 5 (hereinafter, “message” refers to an ECHONET Lite frame). Thus, the corresponding electric device 4 can be controlled. Further, the HEMS terminal 7 can control the non-compliant electric device 2 by transmitting a message to the adapter 10 via the HEMS network 5.

  The remote control signal acquisition unit 81 receives a remote control signal transmitted from the adapter 10 or the remote control device 3 toward the non-compliant electric device 2, and receives remote control signal information, which is information that sets the content of the received remote control signal, in the adapter 10. Send. The remote control signal acquisition unit 81 is provided at a position where it is easy to receive a remote control signal transmitted toward the non-compliant electric device 2.

  The physical quantity measurement value acquisition unit 82 measures the physical quantity affected by the response operation when the non-compliant electric device 2 receives the remote control signal in the vicinity of the non-compliant electric device 2 in time series, and is a measured value. The physical quantity measurement value is transmitted to the adapter 10. The physical quantity is, for example, sound (such as a beep) or light (light output from a display device 23 described later included in the non-compatible electric device 2) output from the non-compatible electric device 2 when a remote control signal is received. . Further, for example, the physical quantity is power consumption (or power consumption) of the non-compliant electrical device 2. Note that the periphery of the non-compliant electrical device 2 refers to a range in which the physical quantity is affected by a response operation when the non-compliant electrical device 2 receives a remote control signal.

  The adapter 10 is a remote controller equivalent to the remote control code of the remote control signal transmitted from the remote control device 3 attached to the non-compliant electric device 2 in accordance with the contents of the ECHONET Lite (registered trademark) message sent from the HEMS terminal 7. Send a remote control signal containing the code. The adapter 10 stores later-described conversion information 50 that associates a property code, which is a control code in ECHONET Lite (registered trademark), with a remote control code, and converts the property code into a remote control code using the conversion information 50. Or vice versa.

  The adapter 10 receives the above-described remote control signal information from the remote control signal acquisition unit 81 as needed. The adapter 10 receives the above-described physical quantity measurement value from the physical quantity measurement value acquisition unit 82 as needed. Based on the received remote control signal information and physical quantity measurement value, the adapter 10 grasps whether or not the remote control device 3 or the adapter 10 has correctly performed the control by the mocon signal performed on the non-compliant electric device 2. Further, the adapter 10 updates property information 55 described later based on the received remote control signal information and physical quantity measurement value. Further, the adapter 10 provides (transmits) the contents of property information 55 described later to the HEMS server 6 and the HEMS terminal 7 via the HEMS network 5.

  FIG. 2 shows a hardware configuration of the non-compliant electric device 2. As shown in the figure, the non-compliant electric device 2 includes a microcomputer 21, an input device 22, a display device 23, a control mechanism 24, and a remote control communication device 25. The microcomputer 21 includes a processor and a storage element. The input device 22 is a user interface for the user to set and operate the non-compliant electric device 2, and is, for example, a button, a switch, a touch panel, or the like. The display device 23 is a user interface that displays information such as the operating state of the non-compliant electric device 2 and is, for example, an LCD (Liquid Crystal Display) or an LED. The control mechanism 24 is configured by an electronic element, a mechanical part, or the like that realizes the function of the non-compliant electric device 2, and is controlled by the microcomputer 21, for example. The remote control communication device 25 receives a remote control signal sent from the remote control device 3 or the adapter 10 and transmits the contents of the remote control signal to the microcomputer 21. The remote control communication device 25 transmits a remote control signal including information sent from the microcomputer 21.

  FIG. 3 shows a hardware configuration of the remote control device 3. As shown in the figure, the remote control device 3 includes a microcomputer 31, an input device 32, a display device 33, and a remote control communication device 34. The microcomputer 31 includes a processor and a storage element. The input device 32 is a user interface for the user to set and operate the non-compliant electric device 2, and is, for example, a button or a switch. The display device 23 is a user interface that displays an operation state or the like of the non-compliant electric device 2, and is, for example, an LCD. The remote control communication device 34 transmits a remote control signal including information sent from the microcomputer 31. In addition, the remote control communication device 34 receives a remote control signal sent from the non-compliant electric device 2 and transmits the contents of the remote control signal to the microcomputer 31.

  FIG. 4 shows a hardware configuration of the corresponding electric device 4. As shown in the figure, the corresponding electrical device 4 includes a microcomputer 41, an input device 42, a display device 43, a control mechanism 44, and a HEMS communication device 45. The microcomputer 41 includes a processor and a storage element. The input device 42 is a user interface for the user to set and operate the corresponding electric device 4, and is, for example, a button, a switch, a touch panel, or the like. The display device 43 is a user interface that displays information such as the operating state of the corresponding electrical device 4, and is, for example, an LCD or an LED. The control mechanism 44 is configured by an electronic element, a mechanical part, or the like that realizes the function of the corresponding electrical device 4 and is controlled by the microcomputer 41, for example. The HEMS communication device 45 communicates with other devices via the HEMS network 5.

  FIG. 5 shows a hardware configuration of the HEMS server 6. As shown in the figure, the HEMS server 6 includes a processor 61, a storage device 62, an input device 63, a display device 64, and a HEMS communication device 65. The processor 61 is configured using, for example, a CPU (Central Processing Unit) or an MPU (Micro Processing Unit). The storage device 62 is a RAM (Random Access Memory), a ROM (Read Only Memory), an NVRAM (Non Volatile RAM), a hard disk drive, an SSD (Solid State Drive) or the like, and stores programs and data. The input device 63 is a user interface (touch panel, keypad, keyboard, mouse, etc.) for inputting information. The display device 64 is a user interface that provides information to the user, such as an LCD or LED. The HEMS communication device 65 communicates with other devices via the HEMS network 5.

  FIG. 6 shows functions of the HEMS server 6 and data stored in the HEMS server 6. As shown in the figure, the HEMS server 6 includes functions of various function units 611, a property information acquisition unit 612, a property information storage unit 613, and a property information provision unit 614. These functions are realized by the processor 61 reading and executing a program stored in the storage device 62 or by hardware such as an ASIC (Application Specific Integrated Circuit) provided in the HEMS server 6. As shown in the figure, the HEMS server 6 stores property information 651. The HEMS server 6 manages the property information 651 in a database realized by, for example, a DBMS (DataBase Management System).

  The various functional units 611 are various functions provided in the HEMS server 6, for example, accumulation and provision of information on power usage in the consumer, status monitoring and control of the corresponding electrical device 4, and status monitoring and control of the power generation / power sales status, Provide functions such as providing power saving information.

  The property information acquisition unit 612 acquires property information from the adapter 10 via the HEMS network 5.

  The property information storage unit 613 stores the property information acquired by the property information acquisition unit 612 as property information 651.

  The property information providing unit 614 performs property information in response to a request from the user via the input device 63 or a request sent from another device connected to the HEMS network 5 such as the HEMS terminal 7 or voluntarily. A part or all of 651 is provided as needed (output to the display device 64, information transmission via the HEMS network 5, etc.). Further, the property information providing unit 614 provides the property information 55 to other devices in a general format such as a CSV (Comma-Separated Values) format.

  Property information 651 includes information on property codes, which are codes used to instruct the setting and control of the above-mentioned device object, and are specified for each device object (ECHONET device object) in the ECHONET Lite (registered trademark) standard. 4 and the information (property value mentioned later) which shows the operation state of the corresponding | compatible electric equipment 4 and the non-compatible electric equipment 2 provided from the adapter 10. As specified in the ECHONET Lite (registered trademark) standard, a property code is set as, for example, an ECHONET Lite property (EPC) in a message transmitted / received via a HEMS network 5 between devices connected to the HEMS network 5 Is done.

  FIG. 7 shows an example of the property information 651. As shown in the figure, the property information 651 is composed of one or more records including items of a property name 6511, a property code 6512, and a property value 6513. One record corresponds to one property in the ECHONET Lite (registered trademark) standard. In the property name 6511, a property name in the ECHONET Lite (registered trademark) standard is set. In the property code 6512, a property code in the ECHONET Lite (registered trademark) standard is set. In the property value 6513, a property value of the corresponding electric device 4 or the non-compatible electric device 2 provided from the corresponding electric device 4 or the adapter 10 is set. In the property value 6513, a value (operation mode, temperature set value, etc.) corresponding to the property code 6512 is set.

  FIG. 8 shows a hardware configuration of the HEMS terminal 7. As shown in the figure, the HEMS terminal 7 includes a processor 71, a storage device 72, an input device 73, a display device 74, and a HEMS communication device 75. The processor 71 is configured using, for example, a CPU or MPU. The storage device 72 is a RAM, ROM, NVRAM, hard disk drive, SSD or the like, and stores programs and data. The input device 73 is a user interface (touch panel, keypad, keyboard, mouse, etc.) for inputting information. The display device 74 is a user interface that provides information to the user, such as an LCD. The HEMS communication device 75 provides a communication function via the HEMS network 5.

  FIG. 9 shows functions of the HEMS terminal 7 and data stored in the HEMS terminal 7. As shown in the figure, the HEMS terminal 7 includes various function units 711, property information acquisition units 712, property information storage units 713 (control code storage units), remote control code reception units 714, conversion information storage units 715, and conversion information transmissions. Unit 716, non-compliant electric device control unit 717, and property information providing unit 718. These functions are realized by the processor 71 reading out and executing a program stored in the storage device 72 or by hardware such as ASIC provided in the HEMS terminal 7. When the HEMS terminal 7 is, for example, a smartphone, these functions can be realized by introducing (installing) a dedicated application to the HEMS terminal 7, for example. As shown in the figure, the HEMS terminal 7 stores property information 751 and conversion information 752.

  Among the above functions, the various functional units 711 provide various functions provided in the HEMS terminal 7, for example, functions such as setting, status monitoring, and control of the corresponding electrical device 4.

  The property information acquisition unit 712 acquires property information of the compatible electric device 4 and the non-compatible electric device 2 from the HEMS server 6 and the adapter 10 via the HEMS network 5.

  The property information storage unit 713 stores the property information acquired by the property information acquisition unit 712 as property information 751.

  The remote control code receiving unit 714 receives a remote control code from the adapter 10 via the HEMS network 5.

  The conversion information storage unit 715 stores conversion information 752 that is information indicating the correspondence between the property code included in the property information 751 and the remote control code. The conversion information transmission unit 716 transmits the conversion information 752 to the adapter 10 as needed.

  The non-compliant electric device control unit 717 generates a message for controlling the non-compliant electric device 2 according to the operation input received from the user, and transmits the generated message to the adapter 10.

  FIG. 10 shows an example of the conversion information 752. As shown in the drawing, the conversion information 752 is composed of one or more records in which the property name 7521, the property code 7522, and the remote control code 7523 are associated with each other. Among these, the property name 7521 is set to the property name of the property information of the device object corresponding to the non-compatible electric device 2 in ECHONET Lite (registered trademark). In the property code 7522, the property code of the property information of the device object corresponding to the incompatible electric device 2 is set. In the remote control code 7523, a remote control code corresponding to the property code 7522 is set.

  The property information providing unit 718 receives the property information 751 in response to a request from the user made via the input device 73 or a request from another device connected to the HEMS network 5 such as the HEMS server 6 or voluntarily. Are provided at any time (output to the display device 74, transmission of information via the HEMS network 5, etc.). The property information providing unit 718 also provides the property information 55 to other devices in a general format such as CSV format. The contents of the property information 751 are the same as the property information 651 described above.

  FIG. 11 shows the hardware configuration of the adapter 10. As shown in the figure, the adapter 10 includes a microcomputer 11, a HEMS communication device 12, a remote control communication device 13, and a unit communication device 14. The microcomputer 11 includes a processor, a storage element (memory, etc.), and a time measuring device (RTC (Real Time Clock), etc.). The HEMS communication device 12 performs communication via the HEMS network 5. The remote control communication device 13 transmits and receives a remote control signal to / from the non-compliant electric device 2 and the remote control device 3. The unit communication device 14 communicates (wireless communication or wired communication) with the remote control signal acquisition unit 81 and the physical quantity measurement value acquisition unit 82.

  FIG. 12 shows the function of the adapter 10 and the data stored in the adapter 10. As shown in the figure, the adapter 10 includes functions of a conversion information setting unit 111, a remote control signal transmission unit 112, a remote control signal information reception unit 114, a physical quantity measurement value reception unit 115, and a property value management unit 116. The conversion information setting unit 111 includes functions of a remote control signal reception unit 1111, a remote control signal analysis unit 1112, a remote control code transmission unit 1113, a conversion information reception unit 1114, and a conversion information storage unit 1115. The remote control signal transmission unit 112 includes functions of a telegram reception unit 1121, a code conversion unit 1122, and a remote control signal transmission unit 1123. The functions provided in the adapter 10 are realized by the microcomputer 11 executing a program or by hardware such as an ASIC provided in the adapter 10. As shown in the figure, the adapter 10 stores conversion information 50, remote control signal information 51, physical quantity measurement values 52, and property information 55.

  The conversion information setting unit 111 generates and stores conversion information 50 based on the conversion information 752 sent from the HEMS terminal 7.

  The remote control signal receiving unit 1111 receives a remote control signal sent from the remote control device 3. The remote control signal analysis unit 1112 analyzes the remote control signal received by the remote control signal reception unit 1111 and acquires the remote control code included in the remote control signal. The remote control code transmission unit 1113 transmits the remote control code acquired by the remote control signal analysis unit 1112 to the HEMS terminal 7 via the HEMS network 5.

  The conversion information receiving unit 1114 receives the conversion information 752 sent from the HEMS terminal 7. The conversion information storage unit 1115 generates and stores the conversion information 50 based on the conversion information 752 received by the conversion information reception unit 1114.

  An example of the conversion information 50 is shown in FIG. 13A. As shown in the figure, the conversion information 50 is composed of one or more records in which the property name 501, property code 502, and remote control code 503 are associated with each other. Among these, the property name 501 is set to the property name of the property information of the device object corresponding to the non-compliant electric device 2 in ECHONET Lite (registered trademark). In the property code 502, the property code of the property information of the device object corresponding to the non-compliant electric device 2 is set. In the remote control code 503, a remote control code corresponding to the property code 502 is set. Note that the conversion information 50 includes a property value associated with the property code, and control information constituting the remote control code (or associated with the remote control code) (for example, a value that designates turning on or off the power of the non-compliant electric device 2) Information indicating a correspondence with a temperature setting value when the corresponding electric device 2 is an air conditioner, an illuminance setting value when the non-compatible electric device 2 is illumination, or the like) may be included.

  Returning to FIG. 12, the remote control signal transmission unit 112 acquires the remote control code corresponding to the property code included in the message sent from the HEMS terminal 7 from the conversion information 50, and transmits the remote control signal including the acquired remote control code. Send.

  The message receiving unit 1121 receives a message sent from the HEMS terminal 7 via the HEMS network 5. The code conversion unit 1122 acquires a remote control code corresponding to the property code included in the message received by the message reception unit 1121 from the conversion information 50. Note that the code conversion unit 1122 also converts the property value associated with the property code when the conversion to the remote control code control information described above is necessary. The remote control signal transmission unit 1123 transmits a remote control signal including the remote control code (including the control information if necessary) acquired by the code conversion unit 1122.

  The remote control signal information receiving unit 114 receives remote control signal information sent from the remote control signal acquisition unit 81 via the unit communication device 14 and associates the received remote control signal information with the reception time as remote control signal information 51. Memorize in time series.

  FIG. 13B shows an example of the remote control signal information 51. As shown in the figure, the remote control signal information 51 is composed of a record group having items of a remote control code 511 and a reception time 512. The remote control code 511 includes a remote control code included in the remote control signal information sent from the remote control signal acquisition unit 81 (if the above-described control information is attached to the remote control signal received by the remote control signal acquisition unit 81) Control information is included). In the reception time 512, a time when the remote control signal information receiving unit 114 receives the remote control signal information sent from the remote control signal acquisition unit 81 (or a time when the remote control signal acquisition unit 81 receives the remote control signal) is set. .

  Returning to FIG. 12, the physical quantity measurement value receiving unit 115 receives the physical quantity measurement value sent from the physical quantity measurement value acquisition unit 82 via the unit communication device 14, and associates the received physical quantity measurement value with the reception time. The physical quantity measurement value 52 is stored in time series. The physical quantity measurement value can be represented, for example, as a graph in which time is set on the horizontal axis and the magnitude of the physical quantity is set on the vertical axis.

  An example of the physical quantity measurement value 52 is shown in FIG. 13C. As shown in the figure, the physical quantity measurement value 52 is composed of a record group having items of a physical quantity measurement value 521 and a measurement period 522. In the physical quantity measurement value 521, a time-series physical quantity measured in the vicinity of the non-compliant electric device 2 in the measurement period 522 is set.

  Returning to FIG. 12, when the property value management unit 116 receives the provision request for the property information 55 sent from the HEMS server 6 or the HEMS terminal 7, the property value management unit 116 provides the requested property information 55 to the transmission source of the provision request ( Send.

  FIG. 13D shows an example of property information 55. As shown in the figure, the property information 55 is composed of one or more records in which property name 551, property code 552, and property value 553 are associated with each other. Of these, the property name 551 is set to the property name of the property information of the device object corresponding to the non-compliant electric device 2 in ECHONET Lite (registered trademark). In the property code 552, the property code of the property information of the device object corresponding to the non-compliant electric device 2 is set. In the property value 553, a property value corresponding to the property code 552 is set.

  FIG. 14A shows a hardware configuration of the remote control signal acquisition unit 81. As shown in the figure, the remote control signal acquisition unit 81 includes a microcomputer 811, a storage device 812, a remote control signal receiver 813, and a communication device 814. The microcomputer 811 includes a processor, a storage element (memory or the like), and a time measuring device (RTC or the like). The timing device of the microcomputer 811 is synchronized with the timing device of the microcomputer 11 of the adapter 10 and the timing device of the microcomputer 821 of the physical quantity measurement value acquisition unit 82.

  The remote control signal receiver 813 receives a remote control signal transmitted from the remote control device 3 or the adapter 10 and transmits information included in the remote control signal to the microcomputer 21. For example, when the remote control signal uses infrared rays as a carrier wave, the remote control signal receiver 813 is an infrared signal receiver. The communication device 814 communicates with the adapter 10 (wired communication or wireless communication).

  The communication device 814 communicates with the adapter 10 in accordance with a communication standard such as USB, RS-485, RS-232C, ZigBee (registered trademark), wireless LAN, 920 MHz band wireless communication, 2.4 GHz band wireless communication, or the like.

  FIG. 14B shows the function of the remote control signal acquisition unit 81. As shown in the figure, the remote control signal acquisition unit 81 includes a remote control signal acquisition unit 851 and a remote control signal information transmission unit 852. These functions are realized by the microcomputer 811 reading and executing a program stored in the storage device or by hardware such as ASIC provided in the remote control signal acquisition unit 81.

  The remote control signal acquisition unit 851 receives a remote control signal transmitted from the remote control device 3 or the adapter 10 via the remote control signal receiver 813.

  The remote control signal information transmission unit 852 generates remote control signal information in which the content of the remote control signal received by the remote control signal acquisition unit 851 is set, and transmits the generated remote control signal information to the adapter 10 via the communication device 814.

  FIG. 15A shows a hardware configuration of the physical quantity measurement value acquisition unit 82. As shown in the figure, the physical quantity measurement value acquisition unit 82 includes a microcomputer 821, a storage device 822, a sensor device 823, and a communication device 824. The microcomputer 821 includes a processor, a storage element (memory or the like), and a time measuring device (RTC or the like).

  The sensor device 823 is a device that measures a physical quantity around the non-compliant electrical device 2, and is, for example, a sound sensor (such as a microphone) or an optical sensor (such as a visible light sensor or a spectrum analyzer). The sensor device 823 is a wattmeter (or watt hour meter) that measures the power consumption of the non-compliant electric device 2. The sensor device 823 is provided at a position where the above-described physical quantity can be easily measured. For example, when the sensor device 823 is a sound sensor, the sensor device 823 is provided at a position where it is easy to pick up a sound (such as a beep) generated by the non-compliant electric device 2. Further, when the sensor device 823 is an optical sensor, the sensor device 823 has an indicator such as an LED (Light Emitting Diode) provided in the non-compliant electrical device 2 in its light receiving unit (on / off state of the non-compliant electrical device 2 or The display device (displaying the operation mode) is positioned so that the light output from it is sufficiently incident. When the sensor device 823 is a wattmeter (or watt hour meter), the sensor device 823 is, for example, interposed in the middle of the wiring for supplying commercial power to the non-compliant electric device 2, or the wiring is connected to the sensor device 823. It is provided by inserting it into an insertion plug (wiring connector, outlet). In addition, as a wattmeter (or watt-hour meter), you may utilize non-contact type measuring instruments, such as a clamp meter, for example.

  The communication device 824 communicates with the adapter 10 (wired communication or wireless communication). The communication device 824 communicates with the adapter 10 according to communication standards such as USB, RS-485, RS-232C, ZigBee (registered trademark), wireless LAN, 920 MHz band wireless communication, 2.4 GHz band wireless communication, and the like.

  FIG. 15B shows the function of the physical quantity measurement value acquisition unit 82. As shown in the figure, the physical quantity measurement value acquisition unit 82 includes a physical quantity measurement value acquisition unit 861 and a physical quantity measurement value transmission unit 862. These functions are realized by the microcomputer 811 reading and executing a program stored in the storage device, or by hardware such as an ASIC provided in the physical quantity measurement value acquisition unit 82.

  The physical quantity measurement value acquisition unit 861 acquires (stores) the physical quantity measured by the sensor device 823 in time series.

The physical quantity measurement value transmission unit 862 transmits the physical quantity acquired by the physical quantity measurement value acquisition unit 861 to the adapter 10 via the communication device 824.
= Processing explanation =

[Conversion information setting process]
FIG. 16 is a flowchart for explaining processing related to the setting of conversion information 50 (hereinafter referred to as conversion information setting processing S1600) performed in the device control system 1. Hereinafter, the conversion information setting process S1600 will be described with reference to FIG.

  First, the HEMS terminal 7 starts communication with the adapter 10 via the HEMS network 5 (S1611, S1651). For example, the HEMS terminal 7 may transmit a broadcast to the HEMS network 5 and wait for a response of the adapter 10 (search for the adapter 10), and may start communication with the adapter 10 that has responded to the broadcast. .

  Subsequently, for example, the HEMS terminal 7 receives, from the user, designation of an ECHONET (registered trademark) device object (hereinafter, referred to as a device object) of the non-compatible electric device 2 to be set via the input device 73. (S1612).

  FIG. 17A shows an example of a screen (hereinafter, referred to as a device object designation screen 1701) displayed by the HEMS terminal 7 upon the reception. When the HEMS terminal 7 receives the designation of the device object (for example, the name or identifier of the device object), the HEMS terminal 7 requests the HEMS server 6 for property information of the received device object via the HEMS network 5 (S1613).

  Upon receiving the request (S1671), the HEMS server 6 transmits the property information of the device object specified in the request to the HEMS terminal 7 via the HEMS network 5 (S1672).

  Upon receiving the property information from the HEMS server 6 (S1614), the HEMS terminal 7 displays a setting screen for the conversion information 50 describing the property name and property code included in the received property information (S1615). The designation of the property to be set is accepted from the user (S1616).

  FIG. 17B shows an example of the setting screen (hereinafter referred to as property designation screen 1702). On the property designation screen 1702, the user can designate a property to be set from now on by selecting one of the check boxes 1751.

  Upon receiving the property designation, the HEMS terminal 7 transmits a remote control signal reception instruction to the adapter 10 via the HEMS network 5 (S1617).

  When the adapter 10 receives the reception instruction (S1652), it waits for reception of a remote control signal sent from the remote control device 3. The user directs the remote control signal transmission unit of the remote control device 3 toward the adapter 10 and performs an operation corresponding to the property designated in S1415 on the remote control device 3. As a result, a remote control signal including a remote control code corresponding to the above operation is transmitted toward the adapter 10.

  Upon receiving the remote control signal (S1653), the adapter 10 analyzes the received remote control signal to acquire a remote control code included in the remote control signal (S1654), and transmits the acquired remote control code to the HEMS terminal 7 ( S1655).

  Upon receiving the remote control code (S1618), the HEMS terminal 7 stores information associating the received remote control code with the property designated in S1615 as conversion information 752 (S1619).

  FIG. 17C shows an example of a screen (hereinafter referred to as a conversion information confirmation screen 1703) displayed by the HEMS terminal 7 at this time.

  Subsequently, the HEMS terminal 7 determines whether or not a predetermined end operation (for example, an operation for selecting the confirm button 1761 in FIG. 17C) has been performed on the input device 73 (S1620). If it is determined that a predetermined end operation has been performed (S1620: YES), the HEMS terminal 7 transmits the stored conversion information 752 to the adapter 10 via the HEMS network 5 (S1621). It should be noted that the processing may be shifted to S1621 when the setting is completed for all the properties of the property information received in S1614. If the HEMS terminal 7 determines that the predetermined end operation has not been performed (S1620: NO), the process returns to S1616, and the same process as described above is repeated for the unset properties.

  When the adapter 10 receives the conversion information 752 from the HEMS terminal 7 (S1656), the adapter 10 stores the received conversion information 752 as the conversion information 50 (S1657).

  In addition, you may make it implement | achieve all or one part of the function of the HEMS terminal 7 in the conversion information setting process S1600 shown above in the HEMS server 6 or the adapter 10. FIG.

[Device control processing]
FIG. 18 is a flowchart for explaining processing (hereinafter referred to as device control processing S1800) performed in the device control system 1 when the user operates the HEMS terminal 7 to control the non-compliant electric device 2. Hereinafter, the device control process S1800 will be described with reference to FIG.

  First, the HEMS terminal 7 displays a screen for controlling the non-compliant electric device 2 (for example, a screen provided with a button equivalent to that of the remote control device 3) (S1811), and inputs a control instruction for the non-compliant electric device 2 from the user. Is received (S1812).

  Subsequently, the HEMS terminal 7 transmits a message in which the property code corresponding to the received control instruction is set to the adapter 10 via the HEMS network 5 (S1813).

  Upon receiving the message (S1851), the adapter 10 compares the property code set in the message with the conversion information 50, acquires the remote control code corresponding to the property code (S1852), and acquires the acquired remote control code. The remote control signal including it is transmitted (S1853). The remote control signal includes control information corresponding to the property value included in the message together with the property code (for example, an instruction to turn on or off the power of the non-compliant electric device 2, the non-compliant electric device 2 is an air conditioner). Temperature setting value in a certain case, illuminance setting value in the case where the non-compliant electric device 2 is illumination, and the like).

  When the non-compliant electric device 2 receives the remote control signal (S1871), it executes processing (setting, control, etc.) according to the received remote control signal (S1872).

  In addition, you may make it implement | achieve all or one part of the function of the HEMS terminal 7 in apparatus control processing S1800 shown above in the HEMS server 6 or the adapter 10. FIG.

[Operation status acquisition processing]
Based on the remote control signal information 51 acquired from the remote control signal acquisition unit 81 and the physical quantity measurement value 52 acquired from the physical quantity measurement value acquisition unit 82, the adapter 10 specifies the operation state of the non-compliant electric device 2 and specifies the specified operation state Is stored as property information 55. Further, the adapter 10 provides the property information (property value) managed for the non-compliant electric device 2 to the HEMS server 6 and the HEMS terminal 7. Thereby, the HEMS server 6 and the HEMS terminal 7 can confirm whether the said control was performed correctly, after controlling the non-compatible electric equipment 2 via the adapter 10. FIG.

  In FIG. 19, the adapter 10 acquires the remote control signal information 51 and the physical quantity measurement value 52, specifies the operating state of the non-compliant electrical device 2 based on these, stores the specified operating state as property information 55, and stores property information 5 is a flowchart for explaining a series of processing (hereinafter referred to as operation state acquisition processing S1900) until 55 is provided to the HEMS server 6 and the HEMS terminal 7. Hereinafter, the operation state acquisition process S1900 will be described with reference to FIG. In the following, the case where the HEMS terminal 7 controls the non-compliant electric device 2 via the adapter 10 according to the device control process S1800 described above, that is, the case where the adapter 10 transmits a remote control signal to the non-compliant electric device 2. This will be described as an example. In addition, the physical quantity measurement value acquisition unit 82 determines the sound volume (level) around the non-compliant electric device 2 in order to detect a sound (such as a beep) generated by the non-compliant electric device 2 when a remote control signal is received. It is assumed that information is acquired as a time-series physical quantity, and information including the physical quantity is transmitted to the adapter 10 as a physical quantity measurement value. Note that the remote controller signal is not transmitted from the adapter 10, but the user operates the remote controller 3 (for example, the remote controller attached to the non-compliant electrical device 2) to control the non-compliant electrical device 2, that is, non- Even when a remote control signal is transmitted from the remote control device 3 to the compatible electric device 2, the adapter 10 can grasp the operating state of the non-compatible electric device 2.

  As shown in the figure, the adapter 10 transmits a remote control signal to the non-compliant electric device 2 in accordance with the device control processing S1800 shown in FIG. 18 (S1853).

  When receiving the remote control signal transmitted from the adapter 10, the remote control signal acquisition unit 81 transmits the remote control signal information in which the content of the received remote control signal is set to the adapter 10 (S1931). When the adapter 10 receives the remote control signal information, the adapter 10 associates this with the reception time and stores it as the remote control signal information 51 (S1911).

  The physical quantity measurement value acquisition unit 82 transmits the physical quantity measurement value to the adapter 10 as needed (S1932). Upon receiving the physical quantity measurement value, the adapter 10 associates the measurement period with the physical quantity measurement value and stores it as the physical quantity measurement value 52 (S1912). The physical quantity measurement value acquisition unit 82 may continuously transmit the physical quantity measurement value to the adapter 10, and the adapter 10 may continuously receive the physical quantity measurement value.

  Subsequently, based on the physical quantity measurement value 52, the adapter 10 changes the physical quantity due to the response operation of the non-compliant electric device 2 (the non-compliant electric device 2 is in the predetermined period before or after the reception time of the remote control signal. It is determined whether or not there is a reception response sound of the remote control signal to be output (S1913). When the reception response sound of the remote control signal exists within the predetermined period (S1913: YES), the process proceeds to S1914. If there is no remote control signal reception sound within the predetermined period (S1913: NO), the process proceeds to S1917.

  The predetermined period is a period in which a change in physical quantity caused by the response operation of the non-compliant electric device 2 is expected to be detected before or after the reception time of the remote control signal. The predetermined period is adjusted to an appropriate value according to, for example, the characteristics of the non-compliant electric device 2. For example, the adapter 10 determines whether or not there is a sound having a volume (a volume exceeding a preset threshold) that can be confirmed as a received sound in the sound measured during the predetermined period. Do by examining. Further, the adapter 10 performs, for example, by checking whether or not the difference between the minimum level and the maximum level of the volume measured within the predetermined period exceeds a preset threshold value. According to this, it is possible to ensure the determination accuracy even when the ambient noise level is high. Further, the adapter 10 performs, for example, by checking whether or not there is a sound having a specific frequency in a sound (such as a beep sound) generated as a reception sound by the non-compliant electric device 2 during the predetermined period. The adapter 10 may make the above determination comprehensively by combining a part or all of the above determination conditions.

  In S1914, the adapter 10 acquires the remote control code from the remote control signal information 51 stored in S1911. The remote control code includes control information corresponding to the property content (for example, an instruction to turn on or off the power of the non-compliant electric device 2, a temperature setting value when the non-compliant electric device 2 is an air conditioner, non-compliant electric device Illuminance setting value when 2 is illumination).

  Subsequently, the adapter 10 refers to the conversion information 50 and acquires a property code corresponding to the remote control code acquired in S2014 (S1915). Then, the adapter 10 updates the property information 55 corresponding to the acquired property code. More specifically, the adapter 10 updates the property value 553 of the property information 55 corresponding to the acquired property code to the property value corresponding to the control information included in the remote control code acquired in S1914.

  The adapter 10 maintains the contents of the property information 55 in the latest state as described above. Further, the adapter 10 provides the contents of the property information 55 to the HEMS server 6 and the HEMS terminal 7 in response to a request from the HEMS server 6 and the HEMS terminal 7 or voluntarily. That is, when the adapter 10 receives a request for providing the property information 55 (property value 553) from the HEMS server 6 or the HEMS terminal 7 (S1941, S1917), the adapter 10 returns the requested property information 55 (property value 553) to the request source ( S1918, S1942). Thereby, the HEMS server 6 and the HEMS terminal 7 can grasp | ascertain the newest operation state of the non-compatible electric equipment 2. FIG. In addition, the HEMS server 6 and the HEMS terminal 7 provide the user with information on the latest operating state of the non-compliant electrical device 2.

  FIG. 20A shows a screen output by the HEMS server 6 or the HEMS terminal 7 when the user checks the operating state of the non-compliant electrical device 2 using the HEMS server 6 or the HEMS terminal 7 (hereinafter, a device object designation screen 2001). This is an example. For example, the HEMS server 6 or the HEMS terminal 7 designates the non-compliant electric device 2 whose operation state is to be confirmed via the device object designation screen 2001.

  FIG. 20B is a screen (property information confirmation screen 2002) displayed after designating the non-compliant electrical device 2 on the device object designation screen 2001. The user can confirm the operating state of the non-compliant electric device 2 by referring to the property value 20001 displayed on the property information confirmation screen 2002.

  In addition, instead of displaying the information indicating the operation state of the non-compliant electric device 2 on the screen and allowing the user to confirm the information, for example, the HEMS server 6 or the HEMS terminal 7 determines a predetermined value according to the acquired property value. Control may be performed. As the above control, for example, a remote controller that turns on the non-compliant electric device 2 when the operation state of the non-compliant electric device 2 remains off despite the transmission of a remote control signal that turns on the non-compliant electric device 2 There is a signal retransmission. In addition, as the above control, for example, when the non-compliant electric device 2 is an air conditioner, there is re-transmission of a remote control signal for setting the operation mode to cooling when the room temperature does not decrease despite the operation mode being set to cooling. .

  As described above, the device control system 1 according to the present embodiment includes the remote control signal transmitted from the remote control device 3 that controls the non-compliant electric device 2 and the non-compliant electric device 2 in the ECHONET Lite (registered trademark) standard. Conversion information 50 which is information indicating the correspondence with the property code of the corresponding device object is generated, and the conversion information 50 is stored in the adapter 10. When the property code is transmitted from the HEMS terminal 7 to the adapter 10 via the HEMS network 5, the adapter 10 converts the property code into a remote control code based on the conversion information 50, and includes the converted remote control code in the remote control signal. To send. As described above, according to the device control system 1 of the present embodiment, it is possible to realize a mechanism for controlling the non-compliant electrical device 2 from the HEMS network 5 conforming to the above-mentioned standard. For this reason, for example, it is possible to easily control the existing non-compliant electric device 2 in a house or the like from the HEMS network 5.

  Further, according to the device control system 1, it is possible to realize a mechanism for transmitting the information included in the remote control signal transmitted from the non-compliant electric device 2 to the HEMS terminal 7 using the conversion information 50.

  Further, the adapter 10 receives the remote control signal information from the remote control signal acquisition unit 81, receives the physical quantity measurement value from the physical quantity measurement value acquisition unit 82, and confirms that the noncompliant electric device 2 has received the remote control signal based on these. Since the property information 55 is updated, the operating state of the non-compliant electric device 2 can be grasped. Further, the adapter 10 performs the same operation even when a remote control signal is transmitted from the remote control device 3 to the non-compliant electric device 2 and grasps the state of the non-compliant electric device 2, so that the latest state of the non-compliant electric device 2 is obtained. Can be grasped. Further, since the adapter 10 provides the property information 55 to the HEMS server 6 and the HEMS terminal 7, the HEMS server 6 and the HEMS terminal 7 can grasp the latest state of the non-compliant electric device 2. For this reason, for example, after performing control of the non-compliant electric device 2 via the adapter 10, the user can check whether the control is correctly performed via the HEMS server 6 and the HEMS terminal 7. . Further, for example, the HEMS server 6 or the HEMS terminal 7 grasps the operation state of the non-compliant electric device 2 after controlling the non-compliant electric device 2, and controls the non-compliant electric device 2 to perform control such as retransmission of a remote control signal. Can be done against.

  The above description is intended to facilitate understanding of the present invention and is not intended to limit the present invention. It goes without saying that the present invention can be changed and improved without departing from the gist thereof, and that the present invention includes equivalents thereof.

  For example, although the case where the remote control signal transmitted from the remote control device 3 is an infrared signal has been described above as an example, the remote control signal may be another type of radio signal such as a 2.4 GHz band radio signal or a 920 MHz band radio signal. It may be.

  The HEMS server 6, the HEMS terminal 7, and the adapter 10 do not necessarily have to be independent hardware. For example, part or all of the functions of the HEMS terminal 7 and the adapter 10 may be provided in the HEMS server 6. Further, for example, part or all of the functions of the HEMS terminal 7 may be provided in the adapter 10.

  The property information does not necessarily have to be provided from the HEMS server 6, and may be stored in advance in the HEMS terminal 7 or the adapter 10, for example.

  The conversion information 50 only needs to be accessible from the adapter 10, and the conversion information 50 may exist in a place other than the adapter 10.

  The HEMS network 5 may conform to a standard other than the ECHONET Lite (registered trademark) standard.

  In the above description, the physical quantity measurement value acquisition unit 82 is configured to directly transmit the measured physical quantity measurement value to the adapter 10. However, the non-compliant electric device 2 receives the remote control signal around the non-compliant electric device 2. The measured value of the physical quantity affected by the response operation at the time of being collected may be collected by the HEMS server 6 and the collected measured value may be notified from the HEMS server 6 to the adapter 10 via the HEMS network 5. For example, a wattmeter (or watt-hour meter) is connected to a distribution board of an indoor wiring that supplies power to the non-compliant electric device 2, and non-compliant electricity measured by the wattmeter (or watt-hour meter). A configuration is conceivable in which the power consumption (or power consumption) of the device 2 is collected by the HEMS server 6 and the collected measurement values are notified from the HEMS server 6 to the adapter 10 via the HEMS network 5.

1 device control system, 2 non-compliant electrical device, 3 remote control device, 4 compatible electrical device, 5 HEMS network, 6 HEMS server, 612 property information acquisition unit, 613 property information storage unit, 614 property information provision unit, 651 property information, 6512 property code, 7 HEMS terminal, 712 property information acquisition unit, 713 property information storage unit, 714 remote control code reception unit, 715 conversion information storage unit, 716 conversion information transmission unit, 717 non-compliant electric device control unit, 751 property information, 752 Conversion information, 7522 Property code, 7523 Remote control code, 81 Remote control signal acquisition unit, 82 Physical quantity measurement value acquisition unit, 10 Adapter, 12 HEMS communication device, 13 Remote control communication device, 111 Conversion information setting unit, 11 11 Remote control signal reception unit, 1112 Remote control signal analysis unit, 1113 Remote control code transmission unit, 1114 Conversion information reception unit, 1115 Conversion information storage unit, 112 Remote control signal transmission unit, 1121 Message reception unit, 1122 Code conversion unit, 1123 Remote control signal transmission Unit, 114 remote control signal information receiving unit, 115 physical quantity measurement value receiving unit, 116 property value management unit, 50 conversion information, 51 remote control signal information, 52 physical quantity measurement value, 55 property information, S1600 conversion information setting process, S1800 device control process , S1900 Operating state acquisition process

Claims (12)

Connected to a communication network that complies with a predetermined communication standard, receives a message sent via the communication network, and corresponds to a non-compliant electric device that is an electric device not compatible with the communication network according to the contents of the message An adapter to control the device,
A remote control signal acquisition unit that communicates with the adapter, receives a remote control signal transmitted to the non-compliant electrical device, and transmits remote control signal information that is information including the received remote control signal to the adapter;
A physical quantity that is a value measured by measuring in time series a physical quantity that is communicated with the adapter and that is affected by a response operation when the non-compliant electrical equipment receives the remote control signal in the vicinity of the non-compliant electrical equipment. A physical quantity measurement value acquisition unit that sends measurement values to the adapter;
A control method for a device control system comprising:
The adapter is
Storing conversion information which is information indicating a correspondence between a control code corresponding to the non-compliant electric device in the communication standard and a remote control code of the non-compliant electric device;
When the electronic message for the non-compliant electric device is received via the communication network, the remote control code corresponding to the control code included in the electronic message is acquired based on the conversion information and acquired. Transmitting a remote control signal including the remote control code,
Receiving the remote control signal information of the remote control signal from the remote control signal acquisition unit;
Receiving the physical quantity measurement value from the physical quantity measurement value acquisition unit;
Whether there is a change in the physical quantity due to the response operation of the non-compliant electrical device within a predetermined period before or after the time when the remote control signal acquisition unit receives the remote control signal based on the physical quantity measurement value Determining whether or not,
Obtaining a remote control code included in the remote control signal information when it is determined that there is a change in the physical quantity due to the response operation of the non-compliant electrical device;
Obtaining the control code corresponding to the remote control code based on the conversion information;
Acquiring from the remote control signal information information indicating an operating state of the non-compliant electrical device after control by the remote control signal, and storing the acquired information in association with the control code;
Run the
Device control system control method. A control method for the device control system according to claim 1,
The adapter is
Receiving a request for providing information indicating the operation state via the communication network;
Transmitting information indicating the operation state requested by the received provision request to a transmission source of the provision request;
Run further,
Device control system control method. A control method for the device control system according to claim 1 or 2,
The physical quantity is volume,
The adapter determines whether or not there is a sound output as the response operation by the non-compliant electrical device within a predetermined period before or after the time when the remote control signal acquisition unit receives the remote control signal.
Device control system control method. A control method for the device control system according to claim 1 or 2,
The communication standard is the ECHONET Lite (registered trademark) standard, and the control code is a property code in the ECHONET Lite (registered trademark) standard.
Device control system control method. Connected to a communication network that complies with a predetermined communication standard, receives a message sent via the communication network, and corresponds to a non-compliant electric device that is an electric device not compatible with the communication network according to the contents of the message An adapter to control the device,
A remote control signal acquisition unit that communicates with the adapter, receives a remote control signal transmitted to the non-compliant electrical device, and transmits remote control signal information that is information including the received remote control signal to the adapter;
A physical quantity that is a value measured by measuring in time series a physical quantity that is communicated with the adapter and that is affected by a response operation when the non-compliant electrical equipment receives the remote control signal in the vicinity of the non-compliant electrical equipment. A physical quantity measurement value acquisition unit that sends measurement values to the adapter;
Including
The adapter is
A conversion information storage unit that stores conversion information that is information indicating correspondence between a control code corresponding to the non-compliant electric device in the communication standard and a remote control code of the non-compliant electric device;
When the electronic message for the non-compliant electric device is received via the communication network, the remote control code corresponding to the control code included in the electronic message is acquired based on the conversion information and acquired. A remote control signal transmitter for transmitting a remote control signal including the remote control code;
A remote control signal information receiving unit for receiving the remote control signal information of the remote control signal from the remote control signal acquisition unit;
A physical quantity measurement value receiving unit for receiving the physical quantity measurement value from the physical quantity measurement value acquisition unit;
Whether there is a change in the physical quantity due to the response operation of the non-compliant electrical device within a predetermined period before or after the time when the remote control signal acquisition unit receives the remote control signal based on the physical quantity measurement value And determining that there is a change in the physical quantity due to the response operation of the non-compliant electrical device, obtain a remote control code included in the remote control signal information, and based on the conversion information, Obtaining the control code corresponding to the remote control code, obtaining information indicating the operating state of the non-compliant electrical device after control by the remote control signal from the remote control signal information, and associating the obtained information with the control code A property value management unit to store;
A device control system comprising: The device control system according to claim 5,
The adapter is
An operation state information providing unit that receives a provision request for information indicating the operation state via the communication network, and transmits information indicating the operation state requested by the received provision request to a transmission source of the provision request;
Further comprising
Equipment control system. The device control system according to claim 5 or 6,
The physical quantity is volume,
The property value management unit determines whether or not there is a sound output as the response operation by the non-compliant electrical device within a predetermined period before or after the time when the remote control signal acquisition unit receives the remote control signal. judge,
Equipment control system. The device control system according to claim 5 or 6,
The communication standard is the ECHONET Lite (registered trademark) standard, and the control code is a property code in the ECHONET Lite (registered trademark) standard.
Equipment control system. The adapter in the device control system according to claim 5,
A conversion information storage unit that stores conversion information that is information indicating correspondence between a control code corresponding to the non-compliant electric device in the communication standard and a remote control code of the non-compliant electric device;
When the electronic message for the non-compliant electric device is received via the communication network, the remote control code corresponding to the control code included in the electronic message is acquired based on the conversion information and acquired. A remote control signal transmitter for transmitting a remote control signal including the remote control code;
A remote control signal information receiving unit for receiving the remote control signal information of the remote control signal from the remote control signal acquisition unit;
A physical quantity measurement value receiving unit for receiving the physical quantity measurement value from the physical quantity measurement value acquisition unit;
Whether there is a change in the physical quantity due to the response operation of the non-compliant electrical device within a predetermined period before or after the time when the remote control signal acquisition unit receives the remote control signal based on the physical quantity measurement value And determining that there is a change in the physical quantity due to the response operation of the non-compliant electrical device, obtain a remote control code included in the remote control signal information, and based on the conversion information, Obtaining the control code corresponding to the remote control code, obtaining information indicating the operating state of the non-compliant electrical device after control by the remote control signal from the remote control signal information, and associating the obtained information with the control code A property value management unit to store;
With adapter. The adapter according to claim 9, wherein
An operation state information providing unit that receives a provision request for information indicating the operation state via the communication network, and transmits information indicating the operation state requested by the received provision request to a transmission source of the provision request;
An adapter further comprising: The adapter according to claim 9 or 10,
The physical quantity is volume,
The property value management unit determines whether or not there is a sound output as the response operation by the non-compliant electrical device within a predetermined period before or after the time when the remote control signal acquisition unit receives the remote control signal. judge,
adapter. The adapter according to claim 9 or 10,
The communication standard is an ECHONET Lite (registered trademark) standard, and the control code is a property code in the ECHONET Lite (registered trademark) adapter.

Images