WO2013114658A1 - エネルギー消費機器を制御する制御システムの構築方法、及び、エネルギー消費機器を制御する制御システム - Google Patents

エネルギー消費機器を制御する制御システムの構築方法、及び、エネルギー消費機器を制御する制御システム Download PDF

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Publication number
WO2013114658A1
WO2013114658A1 PCT/JP2012/071729 JP2012071729W WO2013114658A1 WO 2013114658 A1 WO2013114658 A1 WO 2013114658A1 JP 2012071729 W JP2012071729 W JP 2012071729W WO 2013114658 A1 WO2013114658 A1 WO 2013114658A1
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WIPO (PCT)
Prior art keywords
data
energy consuming
set position
building
control
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PCT/JP2012/071729
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English (en)
French (fr)
Japanese (ja)
Inventor
竜太 西田
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大和ハウス工業株式会社
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Application filed by 大和ハウス工業株式会社 filed Critical 大和ハウス工業株式会社
Priority to CN201280068008.0A priority Critical patent/CN104160413B/zh
Priority to SG11201404431SA priority patent/SG11201404431SA/en
Publication of WO2013114658A1 publication Critical patent/WO2013114658A1/ja

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/08Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
    • G06Q10/087Inventory or stock management, e.g. order filling, procurement or balancing against orders
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/10Services
    • G06Q50/16Real estate

Definitions

  • the present invention relates to a method for constructing a control system for controlling energy consuming equipment used in a building, and to the control system, and more particularly, energy consumption for acquiring data for specifying a set position of the energy consuming equipment.
  • the present invention relates to a method for constructing a control system for controlling equipment and the control system.
  • Control systems that control the operating state of energy consuming equipment used in buildings, such as electrical equipment, are already known, and some such control systems communicate with energy consuming equipment and operate energy consuming equipment. Some have a control device that remotely controls the state (see, for example, Patent Document 1).
  • Patent Document 1 The system described in Patent Document 1 is an in-house electric equipment remote control system capable of remotely controlling various electric equipment in a house from outside the house by accessing the system from outside the house using a mobile communication terminal.
  • the work of installing electrical equipment in a house is to perform the work of installing a home information distribution panel device and building a home network during the construction of the house. It is said.
  • Patent Documents 2 to 4 As technologies relating to inspection and operation inspection of electrical equipment in a house, other than the contents disclosed in Patent Document 1 are known (for example, see Patent Documents 2 to 4).
  • the technique disclosed in Patent Document 2 is to increase the efficiency of equipment inspection work by associating a model with the contents of inspection work and creating a database.
  • the technology disclosed in Patent Document 3 transmits information indicating the operating state of an electric device over the Internet, and detects an abnormality of the electric device based on the information.
  • the technique disclosed in Patent Document 4 is to arrange an electric device on a network of a home control system (corresponding to the above-described in-house electric device remote control system) and obtain a malfunction state of the electric device through the network. .
  • the object is a construction method of a control system for controlling energy consuming equipment used in a building, wherein the energy consuming equipment is A device ID for identifying the energy consuming device arranged at the set position by a control device that communicates with the energy consuming device and controls the operating state of the energy consuming device.
  • a step of acquiring data a step of acquiring position ID data for specifying the set position where the energy consuming device specified by the device ID data is arranged, and the control device, The energy consuming device specified by the device ID data and the set position specified by the position ID data And the step of storing the device ID data and the position ID data as a construction step of the building, and the step of placing the energy consuming device at the set position describes the set position
  • the control device In the step of arranging the energy consuming device at the set position according to the floor plan of the building and acquiring the position ID data by the control device, the control device generates drawing data for drawing the floor plan. This is solved by obtaining the position ID data by analyzing and specifying the positional relationship of the set positions in the floor plan.
  • the subject is also a control system construction method for controlling an energy consuming device used in a building, according to the construction method of the control system for controlling the energy consuming device of the present invention.
  • the control device acquires the position ID data. Is solved by acquiring the position ID data through an input operation of information indicating the set position.
  • the position ID data is stored in the control device, and the user of the building does not need to acquire the position ID data. Furthermore, since the device ID data and the position ID data are stored in the control device in a state where the energy consuming device and the set position set as the arrangement position are associated with each other, the building user can select which model This makes it possible to accurately grasp where the energy consuming equipment is located in the building without any effort.
  • the control device analyzes the drawing data for drawing the floor plan, and specifies the positional relationship of the set positions in the floor plan, thereby determining the position ID.
  • the control device acquires position ID data through an input operation of information indicating a set position. In terms of obtaining the position ID data more easily, the former method is preferable because the position ID data can be automatically obtained by analyzing the drawing data by the control device.
  • the control device specifies the energy specified by the device ID data.
  • the normal device in which the operation state is normally switched in the inspection process, and the normal device position where the normal device is disposed among the set positions specified by the position ID data It is preferable if the device ID data and the position ID data are stored.
  • energy device normal device determined to be normal in the inspection process and its set position (normal device position) are associated with each other, and device ID data and position ID data are stored.
  • device ID data and position ID data are stored.
  • the above-described problem is a control system for controlling an energy consuming device used in a building according to the control system for controlling an energy consuming device of the present invention, which is disposed at a set position in the building.
  • the energy consuming device, and a control device that controls the operating state of the energy consuming device by communicating with the energy consuming device, and the energy consuming device is a floor plan of the building in which the set position is described.
  • the control device is specified by the device ID data acquisition unit that acquires device ID data for specifying the energy consuming device arranged at the set position, and the device ID data.
  • Position ID data acquisition for acquiring position ID data for specifying the set position where the energy consuming device is arranged
  • a storage unit that stores the device ID data and the position ID data
  • the position ID data acquisition unit analyzes drawing data for drawing the floor plan, and the set position in the floor plan
  • the position ID data is obtained by specifying the positional relationship of the storage unit, and the storage unit is specified by the energy consuming device specified by the device ID data and the position ID data in the building construction process.
  • the problem is solved by storing the device ID data and the position ID data in association with the set position.
  • the above-mentioned problem is also a control system for controlling energy consuming equipment used in a building according to the control system for controlling energy consuming equipment of the present invention, which is disposed at a set position in the building.
  • a device ID data acquisition unit for acquiring device ID data for acquiring, and position ID data acquisition for acquiring position ID data for specifying the set position where the energy consuming device specified by the device ID data is arranged
  • a storage unit for storing the device ID data and the position ID data, the position ID data acquisition unit
  • the position ID data is acquired through an input operation of information indicating a set position, and the storage unit is specified by the energy consuming device specified by the device ID data and the position ID data in the construction process of the building. This is solved by associating the set positions with each other and storing the device ID data and the position ID data.
  • Both of the above two control systems as a control system for controlling energy consuming equipment used in the building, grasped where the model of energy consuming equipment is located in the building. It is possible to provide the user without requiring time and effort. That is, in each of the above two control systems, the position ID data for specifying the set position of the energy consuming device is controlled in the building construction process (in other words, before the building is handed over to the building user). Since it is memorize
  • the device ID data and the position ID data are stored in the storage unit of the control device in a state where the energy consuming device and the position (set position) set as the arrangement position are associated with each other, the use of the building It is possible for a person to accurately grasp which type of energy consuming device is located in a building without any effort.
  • the position ID data acquisition unit of the control device analyzes the drawing data for drawing the floor plan, and the position of the set position in the floor plan.
  • the position ID data is acquired by specifying the relationship.
  • the position ID data acquisition unit acquires the position ID data through an input operation of information indicating the set position. .
  • the former control system that can automatically acquire the position ID data by analyzing the drawing data by the position ID data acquisition unit is desirable.
  • the control system includes a sensor that measures an energy consumption amount of the energy consuming device, and a display that displays information indicated by data from the control device.
  • the apparatus includes a data generation unit configured to generate display data for causing the display to display the energy consumption amount of the energy consuming device measured by the sensor in association with the setting position where the energy consuming device is disposed.
  • the data generation unit reads the device ID data and the position ID data from the storage unit, and is specified by the energy consuming device specified by the read device ID data and the read position ID data If the display data is generated based on the correspondence relationship with the set position, the present invention is more effective. It is something righteousness.
  • the position ID data is acquired, and the device ID data and the position ID data are obtained by associating the energy consuming device with the position set as the arrangement position. It is particularly meaningful to store the above in order to appropriately perform the above display.
  • the set position where the energy consuming device is arranged in the building construction process (in other words, before the building is handed over to the user of the building).
  • the position ID data for specifying is stored in the control device, and it is not necessary for the user of the building to acquire the position ID data.
  • the device ID data and the position ID data are stored in the control device in a state where the energy consuming device and the set position set as the arrangement position are associated with each other, the building user can select which model This makes it possible to accurately grasp where the energy consuming equipment is located in the building without any effort.
  • control system for controlling energy consuming equipment of the present invention as a control system for controlling energy consuming equipment used in a building, which type of energy consuming equipment is located in the building. It is possible to provide the information without the need for the user of the building.
  • FIG. 1 is a configuration diagram of a control system according to the present embodiment.
  • FIG. 2 is an example of an energy consumption confirmation screen drawn on the display according to the present embodiment.
  • FIG. 3 is a diagram illustrating the configuration of the home server.
  • FIG. 4 is a diagram illustrating a first example of a procedure for constructing a control system.
  • FIG. 5 is a diagram showing the flow of the inspection process in the first example. 6 and 7 are operation confirmation operation screens in the first example.
  • FIG. 8 is a diagram illustrating a second example of a procedure for constructing a control system.
  • FIG. 9 is an explanatory diagram of a drawing data analysis process in the second example.
  • FIG. 10 is a diagram illustrating the flow of the inspection process in the second example. 11 and 12 are operation confirmation operation screens in the second example.
  • the control system (hereinafter simply referred to as the present system) S controls electric equipment used in the house H. More specifically, this system S is a so-called home energy management system (HEMS), and in managing the power consumption in the house H as the energy consumption in the house H, The power consumption of a plurality of electric devices used is visualized (visualized), and the visualized information is notified to a user (hereinafter also referred to as a user) of the house H.
  • HEMS home energy management system
  • Electrical equipment corresponds to energy consuming equipment, and specifically includes home appliances such as air conditioners and lighting, and water heaters.
  • some of the electrical devices include a contact device for monitoring and controlling a front door lock, a security buzzer, a window sensor, etc. in the house H, a user's body temperature and urine during defecation / urination.
  • a multifunctional toilet equipped with functions for sensing sugar levels, blood pressure, weight, etc. and displaying the measurement results is included (see FIG. 1).
  • the home network is configured by, for example, a wired IP network using an Ethernet (registered trademark) cable or a wireless IP network using IEEE 802.1x or Bluetooth (registered trademark).
  • the user operates a predetermined terminal (specifically, a home PC 30 described later) in the house H when remotely controlling the electric device.
  • the control system (the system S) described below is a system in which the range in which the electrical equipment used in the house H can be remotely controlled is limited to the house H.
  • the present invention is not limited to this, and the present invention also relates to a control system capable of remotely controlling the electrical equipment in the house H from outside the house H by accessing the system from outside the house H using a mobile communication terminal. Applicable.
  • the system S having the functions described above includes a home server 10 (home gateway), an electrical device, sensors 21 to 27 installed in the house H, and control of the operating state of the electrical device. And a user terminal that functions as an interface for monitoring.
  • a home server 10 home gateway
  • sensors 21 to 27 installed in the house H
  • control of the operating state of the electrical device and control of the operating state of the electrical device.
  • a user terminal that functions as an interface for monitoring.
  • the home server 10 forms the center of the system S, and transmits data to and from communication target devices (for example, electric devices, sensors 21 to 27 and user terminals) existing in the house H through a home network. And pass control signals. That is, the home server 10 corresponds to the control device of the present invention, and can communicate with the electrical equipment used in the house H through the home network to control the operating state of the electrical equipment.
  • the operation state is a concept indicating items that can be controlled with respect to the operation of the electric device, such as on / off of the electric device, an operation mode such as cooling or heating, and an operation management value such as a set temperature.
  • the home server 10 also generates data (hereinafter referred to as display data) for displaying on the user terminal the power consumption consumed by each electrical device in the house H, and transmits the display data to the user terminal. It has a function to do.
  • display data for displaying the power consumption of each electric device (in other words, the power consumption per unit time) is generated and transmitted to the user terminal. Details of the structure of the home server 10 having the above functions will be described later.
  • FIG. 1 A plurality of electric appliances according to the present embodiment are installed in the house H.
  • the air conditioner 1, the air conditioner 2, the illumination 3, the illumination 4, the hot water heater 5, the contact device 6, and the multifunctional toilet 7 among the electric devices used in the house H are provided for the purpose of easy understanding. Is illustrated.
  • the example illustrated in FIG. 1 is merely an example of the electrical device used in the house H.
  • more electrical devices than the electrical device illustrated in FIG. 1 may be used in the house H.
  • Each of the electric devices is arranged at an arrangement position (hereinafter, set position) set in the house H, communicates with the home server 10 at the set position, and receives a control signal output from the home server 10.
  • the set position is determined in advance at the stage before starting the construction of the house H (specifically, at the stage of layout examination described later).
  • each of electric equipment will be arrange
  • each of the electrical devices is arranged at the set position set as the arrangement position before the house H is delivered to the user.
  • each of the electrical devices according to the present embodiment is automatically recognized on the home server 10 side when connected to the home server 10 so as to be communicable.
  • an appliance that adopts the ECHONET standard proposed by the ECHONET consortium Or it is the equipment which adopted the standard based on the standard.
  • Such an electrical device is automatically recognized on the home server 10 side when it is communicably connected to the home server 10 according to the ECHONET standard, and is further used in the house H. It is registered in the home server 10 as a device.
  • a technique for automatically recognizing and registering an electric device a known technique (for example, Plug and Play (registered trademark) technique) can be used.
  • devices other than home appliances for example, the water heater 5, the contact device 6, and the multifunctional toilet 7) are registered in advance in the home server 10 as devices supplied by a housing company.
  • the home server 10 is automatically recognized by being connected to the home server 10 so as to be communicable.
  • the sensors 21 to 27 are devices that measure the power consumption of the electric devices and transmit data indicating the measurement results (hereinafter referred to as measurement data) to the home server 10.
  • the home server 10 receives the measurement data from the sensors 21 to 27 through the home network, and creates the display data described above based on the received measurement data.
  • the present invention is not limited to this, and as long as the power consumption can be measured for each electrical device, a sensor other than the above, for example, for each branch circuit provided in a distribution board (not shown) It is good also as providing.
  • the user terminal is an information processing terminal used by the user in the house H, has a browsing function, and is communicably connected to the home server 10 via a home network. Further, the user terminal displays information indicated by the data from the home server 10 on the display. That is, the user terminal corresponds to the display of the present invention. For example, when the display data is received from the home server 10 through the home network, the power consumption of each electric device is displayed on the display based on the display data. It is possible.
  • the display of the power consumption of the electric device will be described in detail.
  • the display data is developed by the browsing function of the user terminal. 2 is drawn (an example of the energy consumption confirmation screen). As shown in FIG. 2, the screen displays the power consumption of the electric devices used in the house H for each device.
  • the power consumption of each electric device is displayed in association with the set position set as the arrangement position of the electric device.
  • the power consumption of the air conditioner 1 and the character information are displayed at the same time.
  • the display data transmitted from the home server 10 is used to display the power consumption of the electrical equipment measured by the sensors 21 to 27 on the user terminal in association with the set position where the electrical equipment is arranged. It can be said that it is data.
  • the user terminal has a mobile phone such as a smartphone, a PDA, or a browsing function. It may be configured by an information processing terminal such as a digital photo frame.
  • the home server 10 includes a CPU 10a, a ROM 10b, a RAM 10c, and a communication interface (indicated as a communication I / F in FIG. 1) 10d as main hardware components.
  • the program is stored. Then, when the program is executed by the CPU 10a, the functions of the home server 10 described above are exhibited.
  • the programs stored in the ROM 10b include a communication program, a device control program, a device recognition program, an operation check program, and a display data generation program.
  • the communication program is a program for communicating with a device that is communicably connected to the home server 10 via a home network and exchanging data with the device.
  • the home server 10 As shown in FIG. 1, the home server 10 according to the present embodiment is connected to the Internet 12 via a router 11, and is connected to an external server (not shown) existing outside the house H by the communication program. It is also possible to exchange data between them.
  • the equipment control program is a program for remotely controlling the electrical equipment in the house H through the home network, and specifically, the operation state according to the conditions designated by the user toward the electrical equipment designated as the control target by the user.
  • a control signal for switching between is output.
  • the device recognition program is a program for automatically recognizing an electrical device that is communicably connected to the home server 10.
  • the operation check program is a program for inspecting whether or not the operation state of the electric device is normally switched when the electric device is remotely controlled. More specifically, when the operation check program is executed, it is possible to accept a designation operation for designating an electric device to be inspected.
  • the operation confirmation program accepts the designation operation, the operation confirmation program activates the device control program described above, and causes the device control program to output a control signal toward the electric device designated as the inspection target. Thereafter, an inspector (for example, a contractor) confirms whether or not the operation state of the electrical device is normally switched in accordance with the control signal, and the operation confirmation program receives the confirmation result.
  • the operation confirmation (that is, the inspection process described later) is completed.
  • the above designation operation is performed through an inspection terminal (not shown).
  • an operation check program will be performed by this.
  • the operation confirmation program when performing the operation confirmation, lists the electric devices automatically recognized by the device recognition program and displays the data on the inspection terminal (in other words, the electric confirmation target candidates for the operation confirmation). Data for displaying a list of devices).
  • the display data generation program is a program for creating display data for displaying the power consumption of each electrical device in the house H on the display of the home PC 30 based on the measurement data received from the sensors 21 to 27.
  • the home server 10 includes a device ID data acquisition unit 101, a position ID data acquisition unit 102, and an operation confirmed data acquisition unit 103. , A device control unit 104, a storage unit 105, a measurement data acquisition unit 106, a data generation unit 107, and a data transmission unit 108 as constituent elements.
  • the device ID data acquisition unit 101 acquires device ID data for specifying an electric device used in the house H, and includes a CPU 10a, a ROM 10b, a RAM 10c, a communication interface 10d, and the above-described device recognition program. It is configured.
  • the device ID data acquisition unit 101 acquires device ID data for specifying the electric device by communicating with the electric device arranged at the set position (position set as the arrangement position) in the house H. .
  • the electric device when an electric device is communicably connected to the home server 10, the electric device is automatically recognized by the device recognition program.
  • a device recognition program is executed, and data for identifying the electric device connected to the home server 10 by the device recognition program (for example, the device name or model number). Etc.) is automatically generated.
  • the device ID data acquisition unit 101 acquires device ID data for the electrical device connected to the home server 10.
  • the position ID data acquisition unit 102 acquires position ID data for specifying a set position where the electrical device specified by the device ID data is arranged.
  • the operation confirmed data acquisition unit 103 is data indicating that the operation confirmation has been completed for an electric device whose operation has been confirmed (in other words, an electric device whose operation state is normally switched according to a control signal when remotely controlled). More specifically, data indicating the operation confirmation completion date is acquired.
  • Each of the two parts (that is, the position ID data acquisition unit 102 and the operation confirmed data acquisition unit 103) is configured by the CPU 10a, the ROM 10b, the RAM 10c, the communication interface 10d, and the above-described operation confirmation program.
  • the above-described inspection terminal is connected to the home server 10 and a predetermined operation is performed on the inspection terminal.
  • the operation confirmation program starts as an opportunity.
  • the operation check program is started, first, data for displaying a list of electric devices that are candidates for operation check is generated by the data generation unit 107 described later, and the data is expanded on the inspection terminal side.
  • the operation confirmation screen shown in FIG. 6 is drawn. As described above, the operation confirmation screen displays a list of electric devices that are candidates for operation confirmation (in other words, electric devices automatically recognized by the home server 10).
  • the operation confirmation screen in order to specify an electric device to be inspected, one of the operation confirmation execution buttons B1 displayed in the operation confirmation screen is displayed with one button B1.
  • the operation confirmation screen of the electric device corresponding to the button B1 (more specifically, the electric device whose device name is displayed on the left side of the pressed operation confirmation execution button B1) is displayed.
  • the screen shown in FIG. 7 (hereinafter, the device-specific operation confirmation screen) is drawn.
  • the electrical device is a normal device, its operating state is switched normally according to the control signal.
  • whether or not the operation state of the electric device has been switched normally according to the control signal is determined by checking the location where the electric device is arranged after the inspector presses the control signal output button B2 (ie, setting). Go to position) and do it yourself.
  • the inspector which is an example of the contractor of the house H, is displayed on the device-specific operation confirmation screen.
  • the place input field T1 an operation for inputting a set position set as an arrangement position of the electric device is performed.
  • the input operation to the arrangement location input field T1 corresponds to the input operation indicating the set position.
  • the setting position is input in a format that is directly input to the arrangement location input field T1 by a keyboard operation or the like.
  • the present invention is not limited to this, and the setting position candidates are input in a pull-down format. It is good also as inputting a setting position by displaying and selecting from among such candidates.
  • the inspector When the setting position has been entered, the inspector performs an operation of pressing the completion button B3 displayed on the device-specific operation confirmation screen. When such an operation is executed, data indicating the contents input in the placement location input field T1 and data indicating the date and time when the completion button B3 is pressed (that is, the current time) are generated on the inspection terminal side. These data are transmitted to the home server 10.
  • the position ID data acquisition unit 102 acquires data indicating the content input in the placement location input field T1 as location ID data through an input operation to the placement location input field T1 by the examiner. To do. Further, the operation confirmed data acquisition unit 103 acquires data indicating the date and time when the completion button B3 is pressed as the operation confirmed data through the pressing operation of the completion button B3 by the inspector.
  • the device control unit 104 remotely controls the operating state of the electric device used in the house H, and outputs a control signal to the controlled electric device through the home network.
  • the device control unit 104 includes a CPU 10a, a ROM 10b, a RAM 10c, a communication interface 10d, and the device control program described above.
  • the storage unit 105 is mainly configured by the ROM 10b and the RAM 10c.
  • the device ID data acquired by the device ID data acquisition unit 101, the position ID data acquired by the position ID data acquisition unit 102, and the operation confirmed data is for storing the operation confirmed data acquired by the acquiring unit 103.
  • the storage unit 105 associates the electrical device specified by the device ID data, the set position specified by the location ID data, and the operation confirmation completion date specified by the operation confirmed data with each other.
  • the device ID data, the position ID data, and the operation confirmed data are stored. That is, in this embodiment, for each electrical device in the house H (strictly, each electrical device that is automatically recognized by being connected to the home server 10), the device name, the set position set as the arrangement position, and the operation check The correspondence relationship between the completion dates is stored in the storage unit 105.
  • the data storage as described above is performed during the construction work of the house H. That is, the storage unit 105 of the home server 10 according to the present embodiment uses the electrical device specified by the device ID data, the set position specified by the location ID data, and the operation confirmed data in the construction process of the house H. Device identification data, position ID data, and operation confirmed data are stored in association with the identified operation confirmation completion dates.
  • the position ID data is stored in advance in the storage unit 105 of the home server 10 before the house H is delivered to the user of the house H, the user of the house H himself / herself is located. There is no need to acquire ID data.
  • the device ID data and the position ID data are stored in the storage unit 105 in a state where the electric device and the position (set position) set as the arrangement position are associated with each other, the user of the house H Thus, it is possible to accurately grasp which type of electrical device is located in the house H without any effort.
  • the inspector confirms whether or not the operating state of the electrical device has been switched normally according to the control signal.
  • the inspector confirms that the operating state has been switched normally for each electrical device, and then inputs the set position in the placement location input field T1 of the device-specific operation confirmation screen, and further presses the completion button B3. I do.
  • the storage unit 105 is specified by the normal device whose operation state has been switched normally in the operation check (in other words, the inspection process) among the electric devices specified by the device ID data, and the position ID data.
  • the apparatus ID data and the position ID data are stored in association with the normal apparatus position where the normal apparatus is arranged.
  • the storage unit 105 finishes storing the device ID data and the position ID data, it is confirmed that the electrical device in the house H is a normal device, and The arrangement position of each electric device is accurately grasped. Finally, the house H can be appropriately delivered to the user in the above state.
  • the measurement data acquisition unit 106 acquires measurement data from each of the sensors 21 to 27.
  • the power consumption measurement by the sensors 21 to 27 is always performed at predetermined intervals, and the measurement data is transmitted to the home server 10 every time it is newly acquired.
  • the measurement of the power consumption is not limited to a case where the power consumption is always performed, and may be performed only in a time zone in which the power consumption in the entire house H is a certain value or more.
  • the transmission of measurement data to the home server 10 is not limited to the case where it is transmitted every time data is acquired. For example, the measurement data is temporarily stored on each sensor 21 to 27 side, and the home server 10 It may be transmitted when data transmission is requested to the sensors 21-27.
  • the data generation unit 107 generates data distributed from the home server 10, and includes a CPU 10a, a ROM 10b, a RAM 10c, and various data generation programs.
  • the display data generation program described above is included in the program constituting the data generation unit 107, and the data generation unit 107 is based on the measurement data acquired by the measurement data acquisition unit 106. Display data for displaying the power consumption of each electrical device in H on the display of the home PC 30 is generated.
  • the above-described operation confirmation program is included in the program constituting the data generation unit 107, and when the operation confirmation program is activated, the data generation unit 107 is a list of electrical devices that are candidates for operation confirmation. Is generated (in other words, data for drawing the operation confirmation screen shown in FIG. 6).
  • the data transmission unit 108 transmits the data generated by the data generation unit 107 through the home network or the Internet 12, and includes a CPU 10a, a ROM 10b, a RAM 10c, a communication interface 10d, and the communication program described above.
  • the measurement data acquisition unit 106, the data generation unit 107, and the data transmission unit 108 are provided in the home server 10, so that the power consumption of each electric device in the house H is displayed on the display of the home PC 30. It can be displayed.
  • the data generation unit 107 when generating the display data, the data generation unit 107 reads the device ID data and the position ID data from the storage unit 105 and reads the energy consuming device specified by the read device ID data. Display data is generated based on the correspondence with the set position specified by the position ID data. That is, the display data generated by the data generation unit 107 is data for causing the user terminal to display the power consumption of the electrical equipment measured by the sensors 21 to 27 in association with the position where the electrical equipment is disposed.
  • the configuration unique to the system S that stores the device ID data and the position ID data by associating the device name of each electric device and the set position thereof with each other is more meaningful.
  • this is particularly meaningful in appropriately performing the above display.
  • step S002 electrical work such as electrical equipment installation work and wire connection is performed (S002).
  • step S002 an electric device corresponding to the set position determined in the previous step S001 is arranged, and a power transmission line to the electric device is laid.
  • step S002 the home server 10 and the sensors 21 to 27 are further installed at predetermined positions in the house H.
  • a device recognition step of automatically recognizing each electric device on the home server 10 side is performed by connecting each electric device arranged at the set position in the previous step S002 to the home server 10 so as to be communicable. (S003).
  • the home server 10 (specifically, the device ID data acquisition unit 101) acquires device ID data for each electrical device.
  • step S003 wiring work for constructing a home network is performed.
  • each electric device arranged at the set position in the house H is communicably connected to the home server 10.
  • the home server 10 automatically recognizes each electrical device, and as a result, the device ID data acquisition unit 101 acquires device ID data for each electrical device. Get to get.
  • step S004 an inspection process for confirming the operation of the electrical equipment in the house H is performed (S004).
  • this step S004 it is inspected whether or not the operating state of the electric device is normally switched according to the control signal output by the home server 10 toward the electric device arranged at each set position in the house H.
  • the operation check program is activated as a trigger.
  • data for displaying a list of electrical devices that are candidates for operation check is generated by the data generation unit 107, and the data is expanded on the inspection terminal side.
  • the operation confirmation screen shown is drawn. As described above, the operation confirmation screen displays a list of electrical devices that are automatically recognized by the home server 10 and are candidates for operation confirmation.
  • the inspection terminal in a state where the operation confirmation screen is drawn, one of the operation confirmation execution buttons B1 displayed in the operation confirmation screen in order for the inspector to specify an electric device to be inspected.
  • the button B1 is selectively pressed, the device-specific operation check screen shown in FIG. 7 is drawn as the operation check screen of the electric device corresponding to the button B1.
  • the inspection terminal requests the home server 10 to execute control, and the home server 10 that has received the request (in detail, The device control unit 104) outputs a control signal for switching the operation state displayed on the left side of the button B2 toward the electric device designated as the inspection target (S011 in FIG. 5). ).
  • the inspector After checking the control signal output button B2, the inspector goes to the place where the electrical device designated as the inspection target is arranged, and confirms whether or not the operating state of the electrical device has been switched normally.
  • the electrical device designated as the inspection target is a normal device
  • the control signal is received through the home network, and the operation state is normally switched according to the control signal (S012 in FIG. 5). Yes)
  • the inspector determines that the operation of the electrical device has been confirmed.
  • the installation of the device is performed again (S013 in FIG. 5). ) After that, another inspection will be performed.
  • the inspector performs an operation for inputting the set position of the electric device in the arrangement place input field T1 displayed on the operation confirmation screen for each electric device determined to have the operation confirmed (in FIG. 5). S014).
  • the inspector presses the completion button B3 displayed on the device-specific operation confirmation screen (S015 in FIG. 5).
  • data indicating the contents input in the placement location input field T1 and data indicating the date and time when the completion button B3 is pressed (that is, the current time) are generated on the inspection terminal side.
  • the position ID data acquisition unit 102 acquires the data indicating the contents input in the arrangement location input field T1 as the position ID data
  • the operation confirmed data acquisition unit 103 sets the operation confirmed data
  • the completion button B3 Data indicating the date and time when the button was pressed is obtained.
  • the home server 10 acquires the position ID data through the input operation to the arrangement position input field T1 by the examiner. To do.
  • the storage unit 105 After acquiring the position ID data and the operation confirmed data, in the home server 10, the storage unit 105 stores the device ID data, the position ID data, and the operation confirmed data (S016 in FIG. 5). At this time, the storage unit 105 stores the device ID data, the position ID data, and the operation confirmed data so that the device name, the arrangement position, and the operation confirmation completion date are associated with each other for the electric device whose operation has been confirmed. .
  • step S016 in which the storage unit 105 stores the device ID data and the position ID data is performed on the electrical device whose operation has been confirmed. That is, in this embodiment, in which the storage unit 105 of the home server 10 stores the device ID data and the position ID data, the storage unit 105 operates in the inspection process among the electrical devices specified by the device ID data.
  • the device ID data and the position ID data are stored by associating the normal device whose state has been switched normally and the normal device position where the normal device is located among the set positions specified by the position ID data. Become.
  • the screen drawn on the inspection terminal is switched from the device-specific operation check screen to the operation check screen again. Then, on the operation confirmation screen after switching, the display corresponding to the electrical device for which the operation confirmation has been completed (in other words, the electrical device for which the device ID data, the position ID data, and the operation confirmed data have been completed) has been completed.
  • the electrical device for which the device ID data, the position ID data, and the operation confirmed data have been completed has been completed.
  • the device name, the set position set as the arrangement position, and the operation check completion date are displayed (see FIG. 6).
  • a series of steps (specifically, the steps S001 to S004 described above) performed for constructing the system S are the construction steps of the house H.
  • the step of arranging the electric device at the set position in the house H the step of the home server 10 (specifically, the device ID data acquisition unit 101) acquiring the device ID data
  • the home server 10 (specifically, the details)
  • the location ID data acquisition unit 102) acquires the location ID data
  • the home server 10 (specifically, the storage unit 105) stores the device ID data and the location ID data as the construction process of the house H. Execute.
  • the acquisition of the device ID data, the position ID data, and the operation confirmed data, and the storage of these data are executed in advance before handing over the house H to the user of the house H. There is no need to request the user to acquire position ID data.
  • the device ID data and the position ID data are stored in the storage unit 105 in a state where the electric device and the set position set as the arrangement position are associated with each other, the user of the house H can select which model This makes it possible to accurately grasp where the electrical device is arranged in the house H without requiring labor.
  • inspection which test
  • the process is also executed as a construction process of the house H (in other words, executed in a stage before handing over the house H to the user of the house H).
  • the storage unit 105 is a normal device whose operating state is normally switched in the inspection process among the electrical devices specified by the device ID data, Among the set positions specified by the position ID data, the apparatus ID data and the position ID data are stored in association with the normal apparatus position where the normal apparatus is arranged.
  • the electricity in the house H is stored. It is confirmed that the device is a normal device and the arrangement position of each electric device is accurately grasped. Finally, the house H can be appropriately delivered to the user in the above state.
  • drawing data for drawing a floor plan of the house H in which the set position set as the arrangement position of the electrical equipment is created is created, the drawing data is analyzed, and the floor plan is analyzed.
  • the position ID data is acquired by specifying the positional relationship of the set positions in the figure.
  • the location ID data acquisition unit 102 of the home server 10 includes a CPU 10a, a ROM 10b, a RAM 10c, a communication interface 10d, and a drawing analysis program.
  • the drawing analysis program is a program that analyzes the above-described drawing data and specifies the positional relationship in the floor plan of the set position set as the arrangement position of the electrical device.
  • the drawing analysis processing by this drawing analysis program will be described with reference to FIG.
  • the floor plan illustrated in FIG. 9 is a somewhat simplified view of the first floor portion of the house H.
  • the floor plan shown in FIG. 9 only the set position of the air conditioner 1 among the electric devices used in the house H is described.
  • a case where the positional relationship is specified for the set positions will be described as a specific example.
  • the drawing data is for drawing a floor plan on the XY plane as shown in FIG.
  • the occupied space of each room in the house H (strictly speaking, the first floor portion of the house H) and the set position where the electrical device is arranged can be specified by coordinates.
  • the occupied space of the living room is specified as a range extending from the coordinates (X1, Y1) to the coordinates (X2, Y2), and the setting position of the air conditioner 1 is A range extending from the coordinates (X3, Y1) to the coordinates (X4, Y3) is specified.
  • the set position of the air conditioner 1 belongs to which room occupied space. Will be specified. That is, the positional relationship in the floor plan of the set position set as the arrangement position of the air conditioner 1 is specified. As a result of specifying the positional relationship in the floor plan in this way, the position ID data for specifying the set position of the air conditioner 1 is generated by the home server 10 and the position ID data is acquired.
  • the home server 10 (specifically, the position ID data acquisition unit 102) analyzes the drawing data and specifies the positional relationship in the floor plan of the set position where the electrical device is arranged.
  • position ID data for specifying the set position is acquired.
  • the drawing data analysis procedure described above is an example of a procedure for specifying the positional relationship of the installation positions of the electrical equipment in the floor plan. Naturally, the positional relationship is specified by a procedure other than the procedure described above. Also good.
  • the contractor performs each of the electrical equipment used in the house H. Determine the setting position.
  • the floor plan of the house H is created according to the layout examined in the previous step S021 (S022). In the floor plan, the setting positions of the electric devices used in the house H are described.
  • step S023 installation work for arranging the electrical equipment at the set position in the house H and electrical work such as wire connection are performed (S023), and the home server 10 and the sensors 21 to 27 are installed in the house H. Install. Thereafter, a device recognition step is performed in which each electrical device arranged at the set position in the previous step S023 is communicably connected to the home server 10 and each electrical device is automatically recognized on the home server 10 side (S024). . Through this step S024, the home server 10 (specifically, the device ID data acquisition unit 101) acquires device ID data for each electrical device.
  • the drawing data for drawing the floor plan described above is obtained, and the drawing data is analyzed according to the procedure described above, thereby specifying the positional relationship in the floor plan of the set position where the electrical device is arranged. (S025).
  • the home server 10 (specifically, the position ID data acquisition unit 102) acquires position ID data for the set position of each electrical device.
  • drawing data is stored in a server owned by a contractor, and when analyzing drawing data, the home server 10 downloads drawing data from the server through the Internet 12 and downloads the drawing data.
  • the drawing data may be obtained by a method other than the above, for example, by reading a floor plan using an image reading device such as a scanner at a construction site (that is, a construction site of the house H). Data may be acquired.
  • step S026 an inspection process for confirming the operation of the electrical equipment in the house H is performed (S026).
  • this step S026 it is to check whether or not the operating state of the electrical device is switched normally according to the control signal output by the home server 10 toward the electrical device disposed at each setting position.
  • the procedure is almost the same as in the first example.
  • an inspection terminal is connected to the home server 10 and an operation check program stored in the home server 10 is started from the inspection terminal.
  • the operation check program is activated, data for displaying a list of electrical devices that are candidates for operation check is generated by the data generation unit 107, and the data is expanded on the inspection terminal side, as shown in FIG.
  • the operation confirmation screen is drawn.
  • the operation confirmation screen displays a list of electrical devices that are automatically recognized by the home server 10 and are candidates for operation confirmation.
  • the device name and location are already displayed in the display column of each electrical device in the operation confirmation screen from the beginning of the inspection process S026 (see FIG. 11).
  • the device-specific operation confirmation screen shown in FIG. 12 is drawn as the operation confirmation screen of the electrical device.
  • the inspection terminal When the inspector presses the control signal output button B2 in the device-specific operation confirmation screen, the inspection terminal requests the home server 10 to execute control, and more specifically, the home server 10 (more specifically, The device control unit 104) outputs a control signal for switching the operation state displayed on the left side of the button B2 toward the electric device designated as the inspection target (S031 in FIG. 10). ). After pressing the control signal output button B2, the inspector goes to the place where the electrical device designated as the inspection target is arranged, and checks whether or not the operating state of the electrical device has been switched normally.
  • the electrical device designated as the inspection target is a normal device
  • the control signal is received through the home network, and the operation state is switched normally according to the control signal.
  • the inspector determines that the operation of the electrical device has been confirmed, and presses the completion button B3 displayed on the device-specific operation confirmation screen (S034 in FIG. 10).
  • data indicating the date and time that is, the current time
  • the completion button B3 is pressed is generated on the inspection terminal side, and the data is transmitted to the home server 10.
  • the operation confirmed data acquisition unit 103 acquires data indicating the date and time when the completion button B3 was pressed as the operation confirmed data.
  • the storage unit 105 of the home server 10 After acquiring the operation confirmed data, the storage unit 105 of the home server 10 associates the device name, the arrangement position, and the operation confirmation completion date of the electric device with respect to the electric device for which the operation confirmation has been completed.
  • the ID data and the operation confirmed data are stored (S035 in FIG. 10).
  • the screen drawn on the inspection terminal is switched from the device-specific operation check screen to the operation check screen. Then, on the operation confirmation screen after switching, the operation confirmation completion date is newly displayed in the display field corresponding to the electric device for which the operation confirmation has been completed.
  • a series of steps (specifically, steps S021 to S026 described above) performed for constructing the system S are performed as shown in FIG. It is performed as a construction process of H. That is, also in this example, the acquisition of the device ID data, the position ID data, and the operation confirmed data, and the storage of these data are executed in advance before delivering the house H to the user of the house H. As a result, it is not necessary to request the user of the house H to acquire the position ID data.
  • the device ID data and the position ID data are stored in the storage unit 105 in a state where the electric device and the set position set as the arrangement position are associated with each other, the user of the house H can select which model This makes it possible to accurately grasp where the electrical device is arranged in the house H without requiring labor.
  • an inspection process for inspecting whether or not the operating state of the electrical device is normally switched according to the control signal from the home server 10 is performed.
  • the present invention is not limited to this, and the inspection process may be omitted in the system construction process.
  • the electric device in the house H is communicably connected to the home server 10, and the home server 10 automatically acquires the device ID data by automatically recognizing the electric device.
  • the acquisition procedure of the device ID data is not limited to the above procedure, and other procedures, for example, the inspector inputs the device name and model number of the electrical device through the inspection terminal when checking the operation, By transmitting data indicating the input information from the testing terminal to the home server 10, the data may be acquired as device ID data.
  • the inspector inputs the set position through the inspection terminal,
  • the home server 10 analyzes the drawing data for drawing the floor plan in which the set position is described.
  • the acquisition procedure of the position ID data is not limited to the above procedure, and other procedures, for example, the home server 10 wirelessly communicates with the electric device, and the reception signal of the output signal from the electric device determines the above procedure.
  • the position ID data may be obtained by obtaining the set position.
  • control system a system for remotely controlling an electric device used in a building (in the above embodiment, a house H) has been described.
  • the present invention is not limited to this.
  • the present invention is also applicable to a system in which an energy consuming device that consumes energy other than electricity (for example, gas and water usage) is controlled.

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PCT/JP2012/071729 2012-02-02 2012-08-28 エネルギー消費機器を制御する制御システムの構築方法、及び、エネルギー消費機器を制御する制御システム WO2013114658A1 (ja)

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CN201280068008.0A CN104160413B (zh) 2012-02-02 2012-08-28 控制能量消耗机器的控制系统及其构筑方法
SG11201404431SA SG11201404431SA (en) 2012-02-02 2012-08-28 Method for constructing control system for controlling energy-consuming equipment and control system for controlling energy-consuming equipment

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CN110119128A (zh) * 2019-04-19 2019-08-13 北京戴纳实验科技有限公司 一种用于实验室用电设备的监控管理系统

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JP6704191B2 (ja) * 2016-03-10 2020-06-03 パナソニックIpマネジメント株式会社 照明システム、その設定方法、及び端末装置
JP6804481B2 (ja) * 2018-01-29 2020-12-23 三菱電機ビルテクノサービス株式会社 設備マップ生成装置及びプログラム

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JP2009238537A (ja) * 2008-03-26 2009-10-15 Panasonic Electric Works Co Ltd 管理システム
JP2010128640A (ja) * 2008-11-26 2010-06-10 Fuji Electric Fa Components & Systems Co Ltd エネルギー管理システム、消費エネルギー量算出方法及びプログラム

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SG11201404431SA (en) 2014-09-26
MY168030A (en) 2018-10-11

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