JP2015154156A - Information terminal apparatus and energy management system using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information terminal apparatus capable of changing an information terminal apparatus to predetermined specifications without requiring a user to update software, and an energy management system using the same.SOLUTION: An information terminal apparatus 4 includes: a first communication section 4a that receives a web content for displaying power consumption amount of a load unit 5 from an energy management apparatus 3; and a control section 4c that reproduces the web content on the basis of the specifications stored in a storage 4b. The first communication section 4a receives a piece of information delivered from a server 11 from the energy management apparatus 3 which is connected via a network 10ab. The control section 4c has a function to change the content of the specifications previously stored in the storage 4b on the basis of configuration data included in the information.

Description

  The present invention relates to an information terminal device for grasping the amount of energy generated and consumed in a house and an energy management system using the information terminal device.

  In recent years, in view of the deterioration of power supply and the like, energy saving is demanded not only in the industry but also in general households. And in order to promote the energy saving in a house, the energy management system which visualizes consumed energy with an information terminal device and manages energy is considered effective. The energy management system encourages the user to take actions to save energy, such as turning off lights that are unnecessarily lit, by visualizing the usage status of power in the house for the user of the house. I can expect.

  As this type of energy management system, an energy management system that distributes web content of measured electricity usage and a net terminal that displays the distributed web content are known (for example, Patent Documents). 1).

  In Patent Document 1, it is possible to manage the amount of electricity used and facilitate energy saving.

JP 2008-92680 A

  By the way, in an energy management system, it is preferable that the web content displayed with the network terminal which is an information terminal device can be suitably changed into a predetermined specification.

  The present invention has been made in view of the above reasons, and an object of the present invention is to provide an information terminal device that allows a user to change the information terminal device to a predetermined specification without updating the software. The purpose is to provide a used energy management system.

  The information terminal device of the present invention includes a first communication unit that receives web content that displays the power usage amount of the load device from the energy management device, and a control unit that reproduces the web content based on the specifications stored in the storage unit. The first communication unit receives the information distributed from the server from the energy management device connected via the network, and the control unit has the specifications stored in the storage unit in advance. It has a function of changing contents based on configuration data included in the information.

  The energy management system of the present invention includes the information terminal device described above, an energy management device that communicates with the information terminal device, and a server connected to the energy management device via a network. The apparatus creates predetermined web content based on the power usage of the load device measured by the measuring apparatus, and the server manages the individual identification information associated with the energy management apparatus, and is based on the predetermined condition. The information is distributed to the energy management device associated with the individual identification information selected in the above.

  In this energy management system, when the energy management device receives a request signal for requesting the information from the information terminal device, the energy management device processes the information distributed from the server into the web content suitable for the information terminal device. Then, it is preferable to transmit to the information terminal device.

  In this energy management system, the information terminal device includes a display unit that displays the web content and a control unit that controls the display unit, and the energy management device displays the content of the information in the display unit. It is preferable to set the priority to be displayed preferentially in the control unit.

  The information terminal device according to the present invention has a function of changing the content of the specification stored in advance in the storage unit based on the configuration data included in the information from the server, so that the user updates the software. It is possible to change the information terminal device to a predetermined specification without any trouble.

  The energy management system of the present invention can change the information terminal device to a predetermined specification by distributing information to the energy management device associated with the individual identification information selected based on a predetermined condition. become.

FIG. 1 is a schematic configuration diagram illustrating an energy management system according to the first embodiment. FIG. 2 is an explanatory diagram for explaining the operation of the energy management system of the first embodiment. FIG. 3 is an explanatory diagram illustrating an operation in a main part of the energy management system according to the first embodiment. FIG. 4 is an explanatory diagram for explaining the operation of the energy management system of the fourth embodiment. FIG. 5 is an explanatory diagram for explaining the operation of the main part of the energy management system of the fifth embodiment.

(Embodiment 1)
Below, the energy management system 10 of this embodiment is demonstrated using FIG. 1 thru | or FIG. In each figure, the same constituent elements are assigned the same reference numerals and redundant description is omitted.

  The energy management system 10 of this embodiment has the energy management apparatus 3, the information terminal device 4, and the server 11 as shown in FIG. 1 and FIG.

  The information terminal device 4 controls the reproduction of the web content based on the specifications stored in the storage unit 4b and the first communication unit 4a that receives the web content that displays the power usage amount of the load device 5 from the energy management device 3. Part 4c.

  The first communication unit 4a receives information distributed from the server 11 from the energy management device 3 connected via the network 10ab. The control unit 4c has a function of changing the content of the specifications stored in advance in the storage unit 4b based on the configuration data included in the information.

  The information terminal device 4 has a function of changing the content of the specifications stored in the storage unit 4b in advance based on the configuration data included in the information from the server 11, so that the user can update the software. The information terminal device 4 can be changed to a predetermined specification without performing it.

  The energy management device 3 creates predetermined web content based on the power consumption of the load device 5 measured by the measurement device 2. The server 11 manages individual identification information associated with the energy management device 3. It is preferable that the server 11 distributes information to the energy management device 3 associated with the individual identification information selected based on a predetermined condition.

  Thus, the energy management system 10 according to the present embodiment distributes the information to the energy management device 3 associated with the individual identification information selected based on a predetermined condition, so that the information terminal device 4 is predetermined. It becomes possible to change to the specification.

  Below, the energy management system 10 of this embodiment is demonstrated in detail. The case where the energy management system 10 of this embodiment is used for a detached house will be described as an example. The energy management system 10 is not limited to a case where the energy management system 10 is used for a detached house. For example, each dwelling unit, office, store, room, etc. of an apartment house can be applied.

  As shown in FIG. 1, the energy management system 10 of the present embodiment connects home equipment installed in a detached house and a server 11 outside the home via a network 10ab such as the Internet or a mobile communication network. Yes. The energy management system 10 is configured to connect the mobile terminal 6 to the energy management device 3 and the server 11 via the network 10ab. Examples of the in-house facilities include a distribution board 1, a measuring device 2, an energy management device 3, an information terminal device 4, and a load device 5.

  In the energy management system 10 of the present embodiment, data communication is performed between the energy management device 3 and the server 11 via the network 10ab. Thereby, the energy management system 10 can perform maintenance of in-house facilities using the server 11, for example. Further, the energy management system 10 performs data communication between the energy management device 3 and the mobile terminal 6 via the network 10ab. Thereby, the energy management system 10 can also control and monitor the load device 5 in the house from the outside using the mobile terminal 6, for example.

  In the energy management system 10, the load device 5 is connected to each branch circuit of the distribution board 1. The energy management system 10 is configured so that AC power supplied from a power supply unit 13 such as a commercial AC power supply can be supplied to the load device 5 in the house via the distribution board 1. The distribution board 1 may be electrically connected not only to a commercial AC power supply but also to a power converter that converts DC power from a solar cell or a household fuel cell system as a DC power generation facility into predetermined AC power. Good (not shown).

  The distribution board 1 includes a main breaker 1a that receives AC power supplied from the power supply unit 13 on the primary side, and a plurality (three in this case) of branch breakers 1b branched from the secondary side of the main breaker 1a. ing. In the distribution board 1, the branch circuit branched by the branch breaker 1 b is electrically connected to the load device 5. Connected to the distribution board 1 is a measuring device 2 that measures the amount of power used by the load device 5.

  The measuring device 2 is capable of transmitting measured power consumption data to the energy management device 3. The measuring device 2 mainly includes a main power measuring unit 2a, a plurality (here, three) of branch current measuring units 2b, a control function unit 2c, a measured value storage unit 2d, and a transmitting unit 2e. .

  The main power measuring unit 2a periodically measures the amount of power supplied via the main circuit breaker 1a and outputs it to the control function unit 2c. The main power measuring unit 2a includes a main current measuring unit 2a1 that periodically measures the current flowing through the main circuit breaker 1a, and a power calculating unit 2a2 that calculates the power consumption based on the measured value of the current flowing through the main circuit breaker 1a I have. The main power measuring unit 2a calculates the measured value measured by the main current measuring unit 2a1 by the power calculating unit 2a2, and outputs the data of the power consumption supplied via the main breaker 1a to the control function unit 2c.

  The branch current measuring unit 2b is provided corresponding to each branch breaker 1b. The branch current measuring unit 2b periodically measures the value of the current flowing through the corresponding branch breaker 1b. Although not shown, the branch current measuring unit 2b includes a current sensor that detects a current. The branch current measuring unit 2b modulates the current detected by the current sensor and outputs the modulated current to the control function unit 2c.

  The control function part 2c acquires the data which measured the electric power in the main breaker 1a, and the electric current for every branch breaker 1b. The measuring device 2 can acquire data obtained by measuring current from the branch current measuring unit 2b provided in the distribution board 1, and can calculate power consumption that is instantaneous power and power usage as an integrated power amount. The control function unit 2c outputs the power consumption and power consumption for each branch breaker 1b to the energy management device 3 based on the current data measured by the branch current measurement unit 2b. The control function part 2c can be comprised with a microcomputer, for example. The control function unit 2c stores the measured data in the measured value storage unit 2d.

  The measured value storage unit 2d can be configured using a nonvolatile semiconductor memory such as a flash memory or an EEPROM (Electrically Erasable and Programmable Read Only Memory).

  The transmission unit 2 e is capable of data communication between the measurement device 2 and the energy management device 3. The transmission unit 2e may be connected not only to the measuring device 2 and the information terminal device 4 by wireless connection but also to a wired connection. The transmission unit 2e can perform serial communication conforming to a general-purpose serial communication protocol such as RS-232C or RS-485, for example.

  Note that the measuring device 2 can also measure, for example, the amount of power generated by a solar cell or household fuel cell system (not shown). Moreover, the measuring device 2 can measure not only the amount of power generated by the solar battery but also the amount of power sold to sell power to the power company through grid connection. Furthermore, the measuring device 2 may be configured not only to measure electric power but also to obtain a measured value of gas usage measured by a residential gas meter or water usage measured by a water meter via an appropriate interface. Good.

  The energy management device 3 includes a second communication unit 3a, a data storage unit 3b, and a management control unit 3c. The management control unit 3c includes a content generation unit 3d.

  The second communication unit 3a receives data measured by the measuring device 2. Further, the second communication unit 3a can communicate with the information terminal device 4. Furthermore, the 2nd communication part 3a can also transmit the measured data measured with the measuring apparatus 2 from the 2nd communication part 3a to the specific portable terminal 6 or the server 11 via the network 10ab.

  The data storage part 3b can memorize | store the electric power usage acquired via the 2nd communication part 3a sequentially in a time series. The data storage unit 3b can be configured by a nonvolatile semiconductor memory such as a flash memory or an EEPROM, for example.

  The management control unit 3c generates web content representing the power consumption by the content generation unit 3d.

  The content generation unit 3d generates web content based on the power usage data stored in the data storage unit 3b. The management control unit 3c stores the web content generated by the content generation unit 3d in the data storage unit 3b. The content generation unit 3d, for example, as the content of the web content, a performance report indicating the actual usage value of the power usage, advice for power saving created based on the actual usage value of the power usage, and from the power company Power information and the like can be generated. The power information can include information indicating a correspondence relationship between a ratio of FIT (Feed-in Tariff) power included in power supplied from the power company and time. In addition, FIT electric power is the electric power generated with the power generation equipment using the renewable energy used as the object of a fixed price purchase system. The management control unit 3c has a web server function of delivering desired web content to the information terminal device 4 via the second communication unit 3a.

  When the energy management device 3 receives a control signal from the information terminal device 4, the energy management device 3 may have a control function of individually controlling the operation of the load device 5 via the measurement device 2. The energy management device 3 can be connected to the mobile terminal 6 such as a mobile phone and the server 11 via the network 10ab. Since the energy management apparatus 3 is connected to the network 10ab, the energy management apparatus 3 has an Internet connection function corresponding to the type of line such as a telephone line, a CATV line, or an optical fiber line.

  In the energy management system 10 of the present embodiment, the power usage data measured by the measuring device 2 can be displayed on the display unit 4d of the information terminal device 4 via the energy management device 3.

  The information terminal device 4 includes a first communication unit 4a that communicates with the energy management device 3 and a storage unit 4b that stores web content. The information terminal device 4 includes a control unit 4c that controls the first communication unit 4a and a display unit 4d that displays web content. The information terminal device 4 is configured to be able to display web content that displays the power usage amount of the load device 5 on the display unit 4d. The information terminal device 4 preferably includes a connector portion 4e so that communication with the outside can be performed by wire. The information terminal device 4 preferably includes a communication control unit 4h that controls a communication signal received via the connector unit 4e. The information terminal device 4 preferably includes an operation input unit 4f for switching web contents displayed on the display unit 4d by an operation and a voice input / output unit 4g (see FIG. 2). The voice input / output unit 4g may include a microphone unit 4g1 and a speaker unit 4g2. The information terminal device 4 can switch the web content displayed on the display unit 4d by operating the operation input unit 4f, and can switch and display the instantaneous power and the integrated power.

  The information terminal device 4 stores the information included in the packet of the message distributed from the server 11 connected to the energy management device 3 via the network 10ab in the storage unit 4b. When the information included in the distributed message is an image configuration file, the information terminal device 4 converts the image configuration file that is the content of the existing specification stored in the storage unit 4b into the configuration data included in the information. Overwriting or changing based on this is stored in the storage unit 4b.

  The image configuration file can include, for example, an HTML (Hyper Text Markup Language) representing a document structure in web content and a CSS (Cascading Style Sheets) file that indicates how to modify HTML elements. Further, the image configuration file can include a JavaScript (registered trademark) file for adding motion to the web content. Furthermore, the image configuration file can be configured to include an image file used for the background of the web content and a management file for managing the image file and the like in order to extract target data from a plurality of data. .

  The information terminal device 4 can, for example, overwrite an existing web content screen without updating software by overwriting an HTML, CSS, or JavaScript (registered trademark) file or an image file and changing a management file. Can be changed.

  The first communication unit 4a can exchange communication signals such as operation information based on the reception of predetermined web content and the content displayed on the display unit 4d with the second communication unit 3a of the energy management device 3. It is a thing. The first communication unit 4a can transmit an operation signal to the energy management device 3 if an operation based on the content displayed on the display unit 4d is performed on the operation input unit 4f. The first communication unit 4a can be configured by a specific low power wireless device, for example. The first communication unit 4a can use the specific low-power radio for communication with the second communication unit 3a.

  The first communication unit 4a can transmit a communication signal using a communication protocol such as ECHONET (registered trademark) as the specific low power radio. ECHONET (registered trademark) is a standard for a home network using an indoor electric wire or radio, and can be connected from the outside via a gateway connected to a communication line. The first communication unit 4a can be configured using, for example, a low-power wireless communication LSI.

  The 1st communication part 4a is good also as a structure which communicates with not only the structure which communicates directly with the energy management apparatus 3, but the energy management apparatus 3 and the information terminal device 4 via the relay device which is not shown in figure. Moreover, the 1st communication part 4a is not restricted only to what performs specific low-power radio | wireless. The information terminal device 4 includes, for example, a connector portion 4e for communication conforming to the RJ (Registered jack) 45 standard standardized by the Federal Communications Commission in the United States, and the first communication unit 4a performs communication by wire. It is good. In the connector part 4e in accordance with the RJ45 standard, a LAN (Local Area Network) cable or an ISDN (Integrated Services Digital Network) cable can be connected.

  The storage unit 4b may store a program that defines the operation of the control unit 4c, in addition to the specification content for reproducing the web content such as an image configuration file. Moreover, the memory | storage part 4b may memorize | store the log of the communication signal with the energy management apparatus 3. FIG. The storage unit 4b may be configured using an electrically rewritable semiconductor memory, or may use an external recording medium such as a memory card. The memory | storage part 4b can be comprised by non-volatile memories, such as EEPROM, as a semiconductor memory, for example.

  The control unit 4c can control the first communication unit 4a and the display unit 4d. The control unit 4c can display the web content on the display unit 4d. The control unit 4c can integrate the information on the power consumption from the energy management device 3 and the image configuration file stored in the storage unit 4b and reproduce and display the web content with a predetermined specification. The control unit 4c may be configured to store the power usage amount included in the web content in the storage unit 4b based on the web content received by the first communication unit 4a. It is preferable that the control part 4c is provided with the time measuring function part so that time can be monitored at any time. The control unit 4c can be configured by a microcomputer or the like. The control unit 4c may be configured not only with a microcomputer but also with a logic circuit.

  The display unit 4d can display web content. The display unit 4d can be configured by a display device such as a liquid crystal display device or an organic EL display device, for example. The display unit 4d can be configured by a liquid crystal display device having a touch sensor function. That is, the display unit 4d can have a display function for displaying web content and the like, and an operation input function of the operation input unit 4f for selecting display contents on the display unit 4d and performing various settings. . The display unit 4d can remotely operate the energy management device 3 by operating the operation input unit 4f.

  The display unit 4d can be configured to include, for example, a rectangular plate-shaped light guide member (not shown), a reflective layer on the back side of the light guide member, and a liquid crystal device on the front side of the light guide member. The display unit 4d has a drive circuit that drives the liquid crystal device to display an image. The light guide member can be configured to function as a backlight by providing a light emitting diode on one end side of the light guide member. The liquid crystal device uses a matrix display type in which a large number of pixels are arranged in a matrix form vertically and horizontally, and displays characters, figures, and the like by combining the pixels. Thereby, the liquid crystal device can display the power usage amount and necessary information transmitted from the energy management device 3. The operation input unit 4f can be disposed on the front surface of the liquid crystal device. The operation input unit 4f is a resistance pressure-sensitive touch that outputs a contact point when a finger or the like touches the sheet-like member by arranging a large number of contact portions made of transparent electrodes on the transparent sheet-like member. It can consist of switches. Note that the operation input unit 4f is not only configured by a liquid crystal display device having a touch sensor function, but may be configured by a push button.

  The information terminal device 4 includes a first communication unit 4a, a display unit 4d, a control unit 4c, and an operation input unit 4f in a synthetic resin box 40a formed in a thin rectangular parallelepiped shape shown in FIG. Is preferably housed. In addition, the information terminal device 4 can be arrange | positioned in the suitable position in the house which is easy to enter into a user's field of view, for example, is set | placed on a desk or a wall of a living room. The information terminal device 4 includes a display unit 4d formed of a liquid crystal display device having a touch sensor function on the front surface of the box 40a. In the information terminal device 4, the touch switch of the liquid crystal display device functions as the operation input unit 4f. Further, a start switch 40b for starting driving of the information terminal device 4 is provided on the front surface of the box 40a on the side of the display unit 4d. An end switch 40c for forcibly ending the display on the display unit 4d is provided on the front surface of the box 40a. The information terminal device 4 can change the setting items, change the display within the display unit 4d, and the like with the touch sensor of the liquid crystal display device.

  The information terminal device 4 includes an antenna 4ba on the side surface of the box 40a. The antenna 4ba is electrically connected to the first communication unit 4a. The antenna 4ba of the information terminal device 4 is rotatable so that it can be erected upward from the side surface side of the box body 40a or brought into contact with the side surface side by rotating along the side surface of the box body 40a. It is configured. The information terminal device 4 is configured to incorporate a battery (not shown). The information terminal device 4 may be configured not only to be driven by the power of a built-in battery but also to be driven by power supplied from the outside.

  The information terminal device 4 may be communicable with the load device 5 including the third communication unit. The information terminal device 4 can be configured to control the operation of the load device 5 according to the operation signal when the operation input unit 4f is pushed.

  The information terminal device 4 can also be configured to serve as an interphone base unit or a power amount display device that measures and displays the power consumption in the home. Further, the information terminal device 4 may be configured to be able to make a call with an interphone handset (not shown) using the voice input / output unit 4g. The audio input / output unit 4g preferably includes an A / D converter that converts an audio signal collected by the microphone unit 4g1 from an analog audio signal to a digital audio signal. The audio input / output unit 4g preferably includes a D / A converter that converts a digital audio signal into an analog audio signal and outputs the analog audio signal to the speaker unit 4g2. Thereby, the information terminal device 4 can be used as a master unit of an intercom. The information terminal device 4 has not only a function of calling with an interphone handset installed at the outside entrance of the house, but also a function of locking / unlocking an electric lock installed at the entrance door, a monitoring / notifying function of a security / disaster prevention sensor, etc. It is preferable to have. The information terminal device 4 may be configured so that a telephone call can be made while displaying an image captured by the television camera on the display unit 4d when the slave device is equipped with a television camera. Furthermore, the information terminal device 4 may be electrically connected to an open / close detection sensor that detects opening / closing of a window, a human body detection sensor that detects an impact sensor that detects an impact of a window glass, or the like in order to increase security. . The information terminal device 4 may be electrically connected to a fire alarm that detects a fire and sounds an alarm sound.

  The information terminal device 4 may be configured as a dedicated device that communicates with the energy management device 3, the load device 5, and the portable terminal 6, for example, a television receiver 41 or a personal computer having a web browser function. 42 can also be configured.

  Examples of the load device 5 include various home appliances and equipment used in a house. Examples of the load device 5 include an air conditioner 51 such as an air conditioner, a lighting fixture 52, and an electromagnetic cooker 53. The load device 5 can be configured to include a third communication unit (not shown). The third communication unit only needs to be able to communicate with the second communication unit 3a of the energy management device 3 and the like. The third communication unit can use, for example, a wireless device that is a specific low-power wireless station.

  The portable terminal 6 can receive a message transmitted from the energy management device 3 via an e-mail or the like via the network 10ab. For example, a mobile phone such as a smartphone can be used as the mobile terminal 6. The mobile terminal 6 is not necessarily limited to a mobile phone. Therefore, the portable terminal 6 may use a notebook personal computer, a PDA (Personal Digital Assistance), or the like that can be connected to the network 10ab and has a web browser function.

  The portable terminal 6 communicates with the server 11 at a predetermined time interval. The mobile terminal 6 can be configured to have an e-mail function for receiving an e-mail transmitted to the mobile terminal 6 through communication with the server 11. When the e-mail from the energy management apparatus 3 arrives at the server 11, the portable terminal 6 notifies the terminal display unit 6b that the e-mail has arrived. Thereafter, the user of the mobile terminal 6 can display the contents of the e-mail on the terminal display unit 6 b by operating the mobile terminal 6. That is, the energy management system 10 can notify the mobile terminal 6 of the power usage amount by e-mail.

  The server 11 can be configured by a general-purpose computer device having a network function. The server 11 has a function of relaying a message addressed to the energy management device 3 transmitted from the mobile terminal 6 via the network 10ab and a message transmitted from the energy management device 3 to the mobile terminal 6 not belonging to the home network. Can do. The server 11 can be configured to include an information database (not shown). The information database can store power information from the power company. The power information is updated by the power company at a frequency of once every 24 hours per day. When the power information stored in the information database is updated, the server 11 can distribute the updated power information to the energy management apparatus 3 via the network 10ab. The server 11 includes information that changes the content of the specification of the information terminal device 4 in the message, and can distribute the message to the energy management device 3.

  Below, operation | movement of the energy management system 10 of this embodiment is demonstrated based on FIG. 2 thru | or FIG. In FIG. 2, communication between the server 11 and the energy management device 3 is illustrated by a solid arrow, and communication between the energy management device 3 and the information terminal device 4 is illustrated by a broken arrow.

  The energy management system 10 registers the information on the location where the energy management device 3 is installed, the information about the housing construction company that purchased the energy management device 3, and the identification information of the energy management device 3 in association with the server 11. ing. The server 11 acquires, for example, the identification information of the energy management device 3 installed in Kadoma City, Osaka Prefecture by Company Z, which is a housing construction company, via the network 10ab and registers it as the first energy management device 31. Moreover, the server 11 acquires the identification information of the energy management apparatus 3 which Y company which is a housing construction company installed in Tsu City, Mie Prefecture, for example via the network 10ab, and registers as the 2nd energy management apparatus 32. Similarly, the server 11 acquires, for example, the identification information of the energy management device 3 installed in Yokohama City, Kanagawa Prefecture by Company X, which is a housing construction company, via the network 10ab and registers it as the third energy management device 33. . That is, the energy management system 10 can be managed by the server 11 by associating the location information, information such as a house building company, and the identification information of the energy management device 3 with the energy management device 3 as individual identification information. It is composed.

  In the energy management system 10, the server 11 can deliver a message only to the energy management devices 3 grouped under a predetermined condition among the plurality of energy management devices 3 registered and managed in advance. The energy management system 10 can deliver a message only from the server 11 to the first energy management device 31, for example, based on the individual identification information. Moreover, the energy management system 10 can deliver a message simultaneously from the server 11 to the plurality of energy management devices 3 registered in Kadoma City, Osaka Prefecture, for example, based on the individual identification information. Furthermore, the energy management system 10 can deliver a message all at once from the server 11 to all of the plurality of energy management devices 3 installed by the company Z, for example, based on the individual identification information.

  As shown in FIG. 3, the energy management system 10 can deliver a message to a plurality of energy management apparatuses 3 managed by the server 11 by polling. In the energy management system 10, when the server 11 receives a request signal for requesting delivery of a message from the energy management device 3, the server 11 transmits a response signal to the energy management device 3. When the server 11 distributes a message to a plurality of energy management devices 3, the server 11 automatically makes inquiries with the plurality of energy management devices 3 in order by polling, and transmits a message when a predetermined condition is satisfied. Receive. The energy management system 10 can avoid contention with the plurality of energy management devices 3, determine transmission / reception preparation status, and synchronize transmission / reception processing. That is, the energy management system 10 of the present embodiment distributes the information only to the specific energy management device 3 selected based on the predetermined condition from the individual identification information associated with the energy management device 3 managed by the server 11. be able to. Thereby, the energy management system 10 of this embodiment can narrow down the energy management apparatus 3 on a predetermined condition, and can distribute the information suitable for the information terminal device 4 from the narrowed down energy management apparatus 3.

  In addition, in the energy management system 10 of this embodiment, you may include the instruction | indication which designates the information terminal device 4 which displays a message in the message delivered to the energy management apparatus 3 from the server 11. When the energy management system 10 includes a command for designating the information terminal device 4 in the message, only the specific information terminal device 4 among the plurality of information terminal devices 4 designated from the server 11 via the energy management device 3 is used. Messages can also be delivered to

(Embodiment 2)
The energy management system 10 of the present embodiment has the same configuration as that of the first embodiment shown in FIG. 1, and has a function of changing audio data instead of image configuration data as the content of the specifications of the information terminal device 4. Are mainly different. Note that components similar to those in the first embodiment will be described using the same reference numerals.

  In the energy management system 10 of this embodiment, the 1st communication part 4a of the information terminal device 4 receives the said information delivered from the server 11 connected with the energy management apparatus 3 via the network 10ab. The control unit 4c of the information terminal device 4 has a function of changing the content of the voice data having the specifications stored in advance in the storage unit 4b based on the configuration data included in the information. The information terminal device 4 rewrites and overwrites the voice data file carried in the packet of the message delivered from the server 11 via the energy management device 3, changes the management file, and stores it in the storage unit 4 b. . The audio configuration file may be configured to include, for example, an audio file that reads the content of the distributed message, and a management file that manages the audio file in order to extract target data from a plurality of data. it can.

  For example, the information terminal device 4 overwrites an audio file that reads out the content of the distributed message and changes a management file that manages the audio file, thereby updating the existing web content without updating the software. The voice can be changed.

  For example, the energy management system 10 of the present embodiment can change the audio data of the information terminal device 4 without the user updating the software even after the information terminal device 4 is installed. It becomes possible. In addition, the energy management system 10 can simultaneously distribute voice data that reads out the content of the message when the message from the server 11 is distributed.

  Note that the energy management system 10 of the present embodiment is not limited to the audio data as the specification content, and may have a function of changing simultaneously with the image configuration data of the first embodiment.

(Embodiment 3)
The energy management system 10 of the present embodiment has the same configuration as that of the first embodiment shown in FIG. 1, and has a function of changing the volume level instead of the image configuration data as the content of the specification of the information terminal device 4. Are mainly different. Note that components similar to those in the first embodiment will be described using the same reference numerals.

  In the energy management system 10 of this embodiment, the 1st communication part 4a of the information terminal device 4 receives the said information delivered from the server 11 connected with the energy management apparatus 3 via the network 10ab. The control unit 4c has a function of changing the volume level as the content of the specifications stored in advance in the storage unit 4b based on the configuration data included in the information.

  The information terminal device 4 changes the volume level output from the information terminal device 4 by including the configuration data specifying the volume level in the packet of the message distributed from the server 11.

  Thereby, in the energy management system 10 of this embodiment, for example, even when the user has previously set the volume level to a low level, the volume level is changed at the time of message delivery from the server 11 in an emergency such as a disaster. Is possible.

  In addition, the energy management system 10 of this embodiment is good also as a structure which has a function which changes a volume level with the image structure data of Embodiment 1, and the audio | voice data of Embodiment 2 as the content of the specification of the information terminal device 4. FIG.

(Embodiment 4)
The energy management system 10 according to the present embodiment has the same configuration as that of the first embodiment shown in FIG. 1, and the energy management device 3 processes the information distributed from the server 11 into web content suitable for the information terminal device 4. The point of transmission is mainly different. In addition, about the component similar to Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted suitably.

  The energy management system 10 of this embodiment has the information terminal device 4, the energy management apparatus 3, and the server 11 as shown in FIG. When the energy management device 3 receives a request signal for requesting the information from the information terminal device 4, the energy management device 3 processes the information distributed from the server 11 into a web content suitable for the information terminal device 4. Send.

  In the energy management system 10 of this embodiment, as the information terminal device 4, in addition to the information terminal device 44 as a dedicated terminal for displaying the power usage amount of the load device 5, a message is sent to the television receiver 41, the personal computer 42, and the like. May be displayed. The energy management device 3 can also use the portable terminal 6 as the information terminal device 44 that displays the power usage amount of the load device 5. The television receiver 41, the personal computer 42, the information terminal device 43 as a dedicated terminal, and the mobile terminal 6 as the information terminal device 44 all include the first communication unit 4a, the storage unit 4b, and the control unit 4c. Good. The mobile terminal 6 includes a terminal communication unit 6a that performs wireless communication with a base station that forms a mobile communication network, and a terminal display unit 6b such as a liquid crystal panel.

  The energy management device 3 has a user agent function that identifies the accessed information terminal device 4 when the information terminal device 4 accesses the energy management device 3. The energy management device 3 uses a user agent function of web content that generates an instruction flag to the information terminal device 4, and the specific information terminal device 4 among a plurality (here, four) of information terminal devices 4. Can be selected.

  For example, when the energy management device 3 receives a request signal requesting the information from the television receiver 41 among the plurality of types of information terminal devices 4, the energy management device 3 adapts the information distributed from the server 11 to the television receiver 41. Process into web content. The energy management device 3 can transmit the processed web content, and the television receiver 41 can display the web content suitable for the television receiver 41.

  As a result, the energy management system 10 of the present embodiment can use not only the information terminal device 43 serving as a dedicated terminal, but also the television receiver 41, the personal computer 42, and the portable terminal 6 as the information terminal device 4. Become. In addition, the energy management system 10 of this embodiment may employ | adopt the structure of Embodiment 1 thru | or Embodiment 3 suitably.

(Embodiment 5)
The energy management system 10 of the present embodiment has the same configuration as that of the first embodiment shown in FIGS. 1 and 2, and is mainly different in that the priority of messages from the server 11 can be arbitrarily set. In addition, about the component similar to Embodiment 1, the same code | symbol is attached | subjected and demonstrated.

  In the energy management system 10 of this embodiment, as shown in FIG. 2, the information terminal device 4 includes a display unit 4d that displays web content and a control unit 4c that controls the display unit 4d. The energy management device 3 sets a priority for causing the display unit 4d to preferentially display the content of the information in the control unit 4c.

  In the energy management system 10 of the present embodiment, the energy management device 3 can arbitrarily set the priority of messages displayed on the information terminal device 4. The energy management device 3 is configured so that the information terminal device 4 can select the priority order of the existing function for displaying web content and the distributed message. For example, as shown in FIG. 5, the information terminal device 4 includes a normal screen for displaying existing web content, a light notification screen having a higher priority than the normal screen, an important notification screen having a higher priority, and further priority. It has an existing function that displays a high-level alarm screen. The energy management device 3 can display a message with a higher priority on the information terminal device 4 as compared with the normal screen, the notification screen, and the alarm screen. In addition, in FIG. 5, the message (refer to the white circle in FIG. 5) transmitted from the energy management device 3 can be displayed according to the priority.

  Thereby, in the energy management system 10, it becomes possible to display a message with a high priority for each energy management device 3 on the information terminal device 4 based on the information distributed from the server 11.

  For example, the energy management system 10 of the present embodiment can distribute alarm screen data indicating the occurrence of a disaster as information having the highest priority to each information terminal device 4 in a predetermined area. In addition, the energy management system 10 can distribute, for example, notification screen data having a lower priority than the alarm screen to each information terminal device 4 installed by a predetermined residential construction company registered in advance. Therefore, the energy management system 10 of the present embodiment can change the image displayed by the information terminal device 4 based on the existing function according to the priority of the message distributed from the server 11. . In addition, the energy management system 10 of this embodiment may employ | adopt the structure of Embodiment 1 thru | or Embodiment 4 suitably.

DESCRIPTION OF SYMBOLS 2 Measuring apparatus 3 Energy management apparatus 4 Information terminal device 4a 1st communication part 4b Memory | storage part 4c Control part 4d Display part 5 Load apparatus 10 Energy management system 10ab Network 11 Server

Claims (4)

A first communication unit that receives from the energy management device web content that displays the power usage amount of the load device, and a control unit that reproduces the web content based on the specifications stored in the storage unit,
The first communication unit receives information distributed from a server from the energy management device connected via a network,
The information terminal device, wherein the control unit has a function of changing the content of the specification stored in advance in the storage unit based on configuration data included in the information. The information terminal device according to claim 1, an energy management device that communicates with the information terminal device, and a server connected to the energy management device via a network,
The energy management device creates predetermined web content based on the power consumption of the load device measured by the measurement device,
The server manages individual identification information associated with the energy management device, and distributes the information to the energy management device associated with the individual identification information selected based on a predetermined condition. An energy management system characterized by   When the energy management device receives a request signal for requesting the information from the information terminal device, the information management device processes the information distributed from the server into the web content suitable for the information terminal device. The energy management system according to claim 2, wherein the energy management system is transmitted. The information terminal device includes a display unit that displays the web content, and a control unit that controls the display unit,
4. The energy management system according to claim 2, wherein the energy management apparatus sets a priority in the control unit so that the content of the information is preferentially displayed on the display unit. 5.

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