JP2018117455A - Power consumption amount monitoring device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technology which enables an arrangement of a power consumption amount monitoring device inexpensively monitoring a power consumption amount of an electric device provided in a user's house.SOLUTION: Electric devices 110 and 120, a connection device 310, and a mobile terminal device 210 can perform a low electric power data communication through a wireless communication line M1a in a house of a user U111. When it is determined that the low electric power data communication can be performed between the electric devices 110 and 120, and the mobile terminal device 210, the electric devices 110 and 120 transmit first transmission information including a power consumption amount index and electric device identification information to the mobile terminal device 210. When it is determined that the low electric power data communication can be performed between the mobile terminal device 210 and the connection device 310, the mobile terminal device 210 transmits second transmission information including the power consumption amount index of each electric device, the electric device identification information, and mobile terminal device identification information to a management device 510.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a power consumption monitoring device that monitors power consumption consumed by electrical equipment provided in a user's home.

In recent years, for example, a HEMS (Home Energy Management System) disclosed in Patent Document 1 has been proposed as a power consumption monitoring device that monitors the power consumption consumed by electrical devices installed in a home.
The HEMS disclosed in Patent Literature 1 includes an electrical device installed in a home, a measuring device that measures a power consumption index indicating the power consumption of the electrical device, a HEMS controller, a router, and a HEMS server. It is comprised by.
The HEMS controller and the router are configured to be capable of low power data communication through the first wireless communication line. The measuring device and the HEMS controller are configured to be capable of low power data communication through the second wireless communication line. As the first wireless communication line, for example, a wireless communication system wireless LAN (Local Area Network) (usually called “WiFi LAN”) is used, and as the second wireless communication line, for example, ZigBee A wireless PAN (Personal Area Network) of a (registered trademark) communication system or a Bluetooth (registered trademark) communication system is used. Further, the router and the HEMS server are configured to be capable of data communication through a communication line (for example, an Internet line) different from the first wireless communication line and the second wireless communication line.
Note that “low-power data communication” is a wireless communication method that does not require a license, and is within a predetermined frequency band (for example, 2.4 GHz band, 5 GHz band) and below a predetermined value (for example, 10 mW). This is a wireless communication system for short-range communication using radio waves having the following antenna power. In WiFi LAN, communication between devices is performed via an access point (referred to as a “WiFi router”), and in wireless PAN, communication between devices is performed directly without going through an access point.
In the HEMS disclosed in Patent Document 1, the power consumption index of the electric device measured by the measuring device is transmitted to the HEMS controller via the second wireless communication line (wireless PAN) and stored. The power consumption index of each electrical device stored in the HEMS controller is transmitted to the router via the first wireless communication line (wireless LAN), and further from the router via the communication line (Internet line). It is sent to the HEMS server and stored.

JP2015-230571A

In the power consumption monitoring device disclosed in Patent Document 1, a first wireless communication line (wireless LAN) used in a router to transmit a power consumption index of each electrical device from the measurement device to the router A HEMS controller capable of communication on a second wireless communication line (wireless PAN) of a communication method (ZigBee, Bluetooth) different from the above communication method is required. For this reason, the power consumption monitoring device disclosed in Patent Document 1 is expensive.
Here, the penetration rate of mobile terminal devices such as mobile phone terminal devices (usually called “smartphones”) and tablet terminal devices (usually called “tablets”) is increasing. Recent mobile terminal devices have high-performance processing means (CPU), a function of communicating with other devices via a WiFi communication system wireless LAN (WiFi LAN), and a wireless PAN such as a Bluetooth communication system. It has a function to communicate with other devices via
The present invention has been made in view of the above points, and provides an inexpensive power consumption monitoring device by configuring a power consumption monitoring device using a portable terminal device carried by a user. With the goal.

The power consumption monitoring device of the present invention collects and manages an electric device and a connection device provided in a user's home, a mobile terminal device, and an electric power consumption index indicating the electric power consumption consumed by the electric device. And a management device.
The description "provided in the user's home" is "provided on the site owned by the user or rented (including single-family houses built on the site) or on a partly owned building (apartment, condominium) "Means.
The electrical equipment provided in the user's home corresponds to, for example, equipment that consumes electricity, such as an air conditioner (air conditioner), a refrigerator, an electric water heater, a lighting fixture, and a washing machine. It is sufficient that at least one electric device is provided in the user's house.
As a portable terminal device, a user is portable and can carry small power data via a wireless communication line (for example, wireless LAN such as WiFi communication method, wireless PAN such as Bluetooth communication method) in the user's home. A terminal device, preferably a mobile terminal device (for example, a smartphone or a tablet) capable of low power data communication via at least a wireless LAN is used. The user only needs to have at least one portable terminal device. A mobile terminal device carried by the user's family or the like can also be included in the “mobile terminal device portable by the user”.
As the power consumption index, an integrated value of power consumption (V × I × cos θ) calculated from the amount of electricity (voltage V, current I, power factor cos θ represented by phase difference θ between voltage V and current I) Among the electric quantities (voltage V, current I, power factor cos θ) for calculating power consumption, an integral value of electric quantities for which approximate values cannot be used can also be used. For example, when approximate values can be used as the voltage V and the power factor cos θ, the integrated value of the current I can be used as the power consumption index. In this case, the power consumption is calculated by [voltage V (rough value) × power factor cos θ (rough value) × integral value of current I].
The electrical equipment includes electrical equipment side processing means, electrical equipment side storage means, electrical equipment side measurement means, and electrical equipment side wireless communication means. The electric device side measuring means measures the amount of electricity for calculating the power consumption amount index of the electric device. For example, when an integrated value of power consumption (= V × I × cos θ) is used as a power consumption index, the voltage V, current I, and power factor cos θ are measured, and the integrated value of current I is used as a power consumption index. If used, current I is measured. Of course, an electric appliance side measuring means for measuring power consumption can also be used. The electric device-side storage means stores a power consumption index, portable terminal device identification information indicating a portable terminal device that transmits the power consumption index, and electric device identification information indicating its own electric device. Preferably, the transmission time when the power consumption index is transmitted to the mobile terminal device is also stored. Note that, as the power consumption index stored in the electrical device-side storage unit, a cumulative product from an arbitrary time point is preferably used. In this case, the power consumption index during the period from the first time point to the second time point can be easily calculated by subtracting the cumulative value at the first time point from the cumulative value at the second time point. it can. Of course, it is also possible to store the electric power consumption index from the time of transmission to the portable terminal device until the next time of transmission to the portable terminal device in the electrical device side storage means.
The portable terminal device includes a portable terminal device side processing unit, a portable terminal device side storage unit, and a portable terminal device side wireless communication unit. The portable terminal device-side storage means includes: electric device identification information indicating an electric device; power consumption index of the electric device; management device identification information indicating a management device that transmits the power consumption index; Mobile terminal device identification information indicating the device is stored. Preferably, the reception time when the power consumption index is received from the electrical device and the transmission time when the power consumption index is transmitted to the management apparatus are also stored.
The management device includes management device side processing means, management device side storage means, and management device side communication means. The management device-side storage means stores portable terminal device identification information, electric device identification information, and an electric power consumption index of the electric device indicated by the electric device identification information in association with user identification information indicating the user. The Preferably, the reception time when the power consumption index is received from the mobile terminal device is also stored.
The connection device includes connection device side processing means, connection device side wireless communication means, and connection device side communication means. As the connection device, there is a connection device capable of low-power data communication with an electric device or a portable terminal device via a wireless communication line and capable of communication with a management device via a communication line. Used. Preferably, a WiFi router for WiFi LAN is used.
The electric device side wireless communication means, the portable terminal device side wireless communication means, and the connection device side wireless communication means are configured to enable low power data communication through a wireless communication line (for example, wireless LAN, wireless PAN) in the user's home. Further, the connection device side communication means and the management device side communication means are configured to be capable of data communication via a communication line (for example, an Internet line) different from the wireless communication line.
The electric equipment side processing means calculates a power consumption amount index based on the amount of electricity measured by the electric equipment side measuring means, and stores it in the electric equipment side storage means. In addition, when it is determined that low-power data communication is possible between the electric device side wireless communication unit and the mobile terminal device side wireless communication unit via the wireless communication line, the data is stored in the electric device side storage unit. The first transmission information including the electric power consumption index and the electric device identification information indicating the electric device of its own is transmitted to the portable terminal device indicated by the portable terminal device identification information stored in the electric device side storage means. Transmit from the wireless communication means. As a method for determining that low-power data communication between an electric device and a portable terminal is possible, for example, on the one hand, a connection confirmation signal is transmitted, and after a connection confirmation signal is transmitted, within a connection determination period A method of determining by receiving a connection response signal from the other can be used. On the other hand, it is possible to use a method of determining by receiving a connection confirmation signal. The low-power data communication between the electric equipment side wireless communication means and the portable terminal device side wireless communication means may be performed directly between the electric equipment side wireless communication means and the portable terminal device side wireless communication means, or connected. You may perform via a device side radio | wireless communication means. The timing for transmitting the first transmission information from the electric device to the mobile terminal device can be set as appropriate, but is preferably set every certain period, for example, every 5 minutes.
When the mobile terminal device side processing means receives the first transmission information, the power consumption index included in the received first transmission information is used to identify the electric device included in the received first transmission information. Corresponding to the information, it is stored in the portable terminal device side storage means. In addition, when it is determined that low power data communication is possible between the mobile terminal device side wireless communication unit and the connection device side wireless communication unit, each electric device stored in the mobile terminal device side storage unit The second transmission information including the power consumption index and the electrical device identification information of the mobile terminal device and the mobile terminal device identification information indicating its own mobile terminal device is indicated by the management device identification information stored in the mobile terminal device side storage means. Is transmitted from the mobile terminal device side wireless communication means to the management device. The timing for transmitting the second transmission information from the portable terminal device to the management device can be set as appropriate, but is preferably set every certain period, for example, every 30 minutes.
When the connection device side processing means receives the second transmission information addressed to the management device by the connection device side wireless communication means, the connection device side processing means transmits the received second transmission information to the management device from the connection device side communication means.
When the management device side processing means receives the second transmission information, the power consumption amount index of each electrical device included in the received second transmission information is included in the received second transmission information. The management device side storage unit stores the user identification information corresponding to the mobile terminal device identification information and the electric device identification information of each electric device included in the received second transmission information.
In the present invention, the power consumption monitoring device is configured using a portable terminal device that is carried by a user and capable of low-power data communication via a wireless communication line. For this reason, it is not necessary to use a HEMS controller unlike the conventional power consumption monitoring device. In addition, since the mobile terminal device carried by the user is used, the management device can determine the user's action (at home / absent) based on the reception state of the second transmission information from the mobile terminal device. Thereby, an inexpensive and highly versatile power consumption monitoring device can be provided.

In a different form of the present invention, the power consumption index of the electrical device is configured to be transmitted from the electrical device to the mobile terminal device via the connection device. Typically, a WiFi communication type wireless LAN router (WiFi router) is used as a connection device, and an electric device and a mobile terminal device are configured to be communicable via the wireless LAN router.
In the present embodiment, the electrical equipment side processing means is a low power data between the electrical equipment side wireless communication means and the connection device side wireless communication means, and between the connection equipment side wireless communication means and the portable terminal device side wireless communication means. If it is determined that communication is possible, the first transmission information is transmitted to the mobile terminal device. A method of determining that “low power data communication is possible between the electrical device side wireless communication means and the connection device side wireless communication means and between the connection device side wireless communication means and the portable terminal device side wireless communication means” As such, various methods can be used. For example, on one side, a method is used in which a connection confirmation signal is transmitted to the other, and a determination is made by receiving a connection response signal from the other within the connection determination period after transmitting the connection confirmation signal. it can. Alternatively, on the other hand, a method of determining by receiving a connection confirmation signal from one can be used. Since the electrical device or the connection device is arranged in the user's house at a position where low power data communication between the electrical device side wireless communication unit and the connection device side wireless communication unit is possible, the connection device side wireless communication unit It may be determined only whether or not low-power data communication is possible between the mobile terminal device-side wireless communication means. Further, in the user's home, a relay device for low power data communication may be provided in the connection device side wireless communication means.
When the connection device side processing means receives the first transmission information addressed to the mobile terminal device by the connection device side wireless communication means, the connection device side processing means transmits the received first transmission information to the mobile terminal device from the connection device side wireless communication means. To do. Further, when the connection device side wireless communication means receives the second transmission information addressed to the management apparatus, the received second transmission information is transmitted from the connection apparatus side communication means to the management apparatus.
When it is determined that the low power data communication is possible between the mobile terminal device and the connection device, the mobile terminal device side processing means sends the second transmission information to the management device and performs wireless communication on the mobile terminal device side. Send from means. As a method of determining whether or not low power data communication is possible between the mobile terminal device and the connection device, low power data communication is possible between the electrical device and the mobile terminal device via the connection device. A method for determining whether or not there is also usable.
In this embodiment, it is possible to increase the communicable distance between the electric device side wireless communication means and the portable terminal device side wireless communication means and the connection device side wireless communication means.

In a different form of the present invention, the power consumption index of the electrical device is configured to be transmitted directly from the electrical device to the portable terminal device.
In this embodiment, the portable terminal device side wireless communication means and the connection device side wireless communication means are configured to be capable of low power data communication via the first wireless communication line, and the electric device side wireless communication means and the portable terminal device side. The wireless communication means is configured to be capable of low power data communication via the second wireless communication line. Typically, a WiFi router is used as the connection device, and the connection device-side wireless communication unit and the mobile terminal device-side wireless communication unit are configured to be communicable via WiFiLAN. In addition, the wireless communication unit on the electric device side and the wireless communication unit on the mobile terminal device side are configured to be able to communicate directly via a wireless PAN such as a Bluetooth communication method. Note that the first wireless communication line and the second wireless communication line need only have different communication methods, and may use the same frequency.
When the electric device side processing means determines that low power data communication is possible between the electric device side wireless communication means and the portable terminal device side wireless communication means by the second wireless communication line, 1 transmission information is transmitted to the portable terminal device from the wireless communication means on the electric device side through the second wireless communication line.
The portable terminal device processing means stores the power consumption index included in the first transmission information received by the second wireless communication line in the portable terminal device storage means in association with the electrical device identification information. Also, when it is determined that low power data communication is possible between the mobile terminal device side wireless communication unit and the connection device side wireless communication unit via the first wireless communication line, the second transmission information is managed. The data is transmitted from the mobile terminal device side wireless communication means to the device through the first wireless communication line.
In this embodiment, the communication distance between the electric device side wireless communication means and the portable terminal device side wireless communication means is short, but the power consumption of the portable terminal device is small.

In the different form of this invention, it is comprised so that the operation mode of an electric equipment can be set to the home mode in case a user is at home, and the absent mode in case a user is absent.
The operation mode of the electric device in the “home mode” and the “absence mode” can be set as appropriate. For example, in the “absence mode”, the electric device can be configured to be turned off. Alternatively, in the “absence mode”, the set temperature of the air conditioner (air conditioner) can be increased by a predetermined value in summer and the like, and can be decreased by a predetermined value in winter and the like.
The electrical equipment side processing means is not capable of low power data communication between the electrical equipment side wireless communication means and the mobile terminal device side wireless communication means in a state where the electrical equipment is set to the home mode (disconnected state) ) Is set, the electric device is set to the absence mode. Also, when it is determined that low-power data communication is possible (connection state) between the electric device-side wireless communication means and the mobile terminal device-side wireless communication in a state where the electric device is set in the absence mode Sets the electrical device to the home mode.
In this embodiment, the operation mode of the electric device can be appropriately set according to the presence / absence state of the user carrying the mobile terminal device.

In the different form of this invention, it is comprised so that a some portable terminal device can be used in a user's house. In other words, the second transmission information including the power consumption amount index of each electric device can be transmitted to the management device via the plurality of portable terminal devices. In this embodiment, priority is not set for a plurality of portable terminal devices.
In this embodiment, a plurality of mobile terminal device identification information is stored in the electrical device side storage means of at least one electrical device. And the electric equipment side processing means of at least one electric equipment includes the first transmission information among the plurality of portable terminal apparatuses indicated by the plurality of portable terminal apparatus identification information stored in the electric equipment side storage means. Transmission is performed to all portable terminal devices that are determined to be capable of low-power data communication between the electric device-side wireless communication means and the portable terminal device-side wireless communication means.
In addition, the management device-side storage means stores a plurality of information stored in the electrical device-side storage means of at least one electrical device in association with user identification information corresponding to electrical device identification information indicating at least one electrical device. Mobile terminal device identification information is stored. That is, the management device-side storage means stores a plurality of mobile terminal device identification information indicating the plurality of mobile terminal devices in association with user identification information indicating a user who uses the plurality of mobile terminal devices.
In this embodiment, a plurality of portable terminal devices can be used in the user's home, and versatility can be further improved.

In the different form of this invention, it is comprised so that a some portable terminal device can be used in a user's house. In this embodiment, a priority order is set for each mobile terminal device, and processing based on the priority order is performed by the management device.
In this embodiment, a plurality of mobile terminal device identification information is stored in the electrical device side storage means of at least one electrical device. And the electric equipment side processing means of at least one electric equipment has a plurality of pieces of first transmission information indicated by a plurality of portable terminal device identification information stored in the electric equipment side storage means of at least one electric equipment. Of the portable terminal devices, transmission is performed to all portable terminal devices that are determined to be capable of low-power data communication between the electric device-side wireless communication means and the portable terminal device-side wireless communication means.
Further, the management device-side storage means is associated with user identification information corresponding to electric device identification information indicating at least one electric device, and a plurality of items stored in the electric device-side storage means of at least one electric device. The mobile terminal device identification information and the priority order of each mobile terminal device are stored. That is, in the management device side storage unit, a plurality of portable terminal device identification information indicating the plurality of portable terminal devices and the plurality of portable terminals in correspondence with user identification information indicating a user who uses the plurality of portable terminal devices. The priority of each device is stored. Then, the management device side processing means has a plurality of mobile terminal device identifications in which the mobile terminal device identification information included in the received second transmission information is stored in the electric device side storage means of at least one electric device. If it matches any of the information, a condition that there is no mobile terminal device having a higher priority than the mobile terminal device indicated by the mobile terminal device identification information included in the received second transmission information, or priority If the condition (absence) that the second transmission information has not been received from the mobile terminal device having a higher rank than the absence determination period is satisfied, consumption of each electrical device included in the received second transmission information The power amount index is stored in the management device storage unit.
In this embodiment, a plurality of portable terminal devices can be used in the user's home, and versatility can be further improved. In addition, by setting priorities to a plurality of portable terminal devices, it is possible to easily configure the electric device side processing means and the management device side processing means.

In the different form of this invention, it is comprised so that a some portable terminal device can be used in a user's house. In this embodiment, a priority order is set for a plurality of portable terminal devices, and processing based on the priority order is performed by an electrical device.
In the present embodiment, the plurality of portable terminal device identification information and the priority order of each of the plurality of electric devices are stored in the electric device-side storage unit of at least one electric device. And the electric equipment side processing means of at least one electric equipment has a plurality of first transmission information indicated by a plurality of mobile terminal device identification information stored in the electric equipment side storage means of the at least one electric equipment. Among portable terminal devices that are determined to be capable of low-power data communication between the electric device-side wireless communication means and the portable terminal device-side wireless communication means, the portable terminal device having the highest priority Send to the terminal device.
Further, the management device-side storage means is associated with user identification information corresponding to electric device identification information indicating at least one electric device, and a plurality of items stored in the electric device-side storage means of at least one electric device. Mobile terminal device identification information is stored. That is, the management device-side storage means stores a plurality of mobile terminal device identification information indicating the plurality of mobile terminal devices in association with user identification information indicating a user who uses the plurality of mobile terminal devices.
In this embodiment, a plurality of portable terminal devices can be used in the user's home, and versatility can be further improved. In addition, by setting priorities to a plurality of portable terminal devices, the electric equipment side processing means can be configured easily.

In a different form of the present invention, the management device side storage means stores contact information corresponding to at least one user identification information.
Then, the management device side processing means does not send the second transmission information from all the mobile terminal devices indicated by the mobile terminal device identification information corresponding to the user identification information whose contact information is stored in the management device side storage means. If it has not been received for the determination period or longer, it contacts the contact indicated by the contact information stored in correspondence with the user identification information.
In this embodiment, it is possible to quickly recognize that all of the mobile terminal devices that can be used in the user's home are not present in the user's home (for example, there is no one in the user's home).

In a different form of the present invention, the management device side storage means stores contact information corresponding to the mobile terminal device identification information.
When the management device side processing means has not received the second transmission information from the mobile terminal device indicated by the mobile terminal device identification information whose contact information is stored in the management device side storage means for the absence determination period or longer. Is contacted to the contact indicated by the contact information stored in correspondence with the mobile terminal device identification information.
In this embodiment, it is possible to quickly recognize that there is no portable terminal device that can be used in the user's home (for example, there is no person carrying the mobile terminal device).

  The present invention can provide an inexpensive power consumption monitoring device by configuring the power consumption monitoring device using a mobile terminal device normally carried by a user.

It is a block diagram of the power consumption monitoring apparatus of 1st Embodiment. It is a figure which shows an example of the electric equipment (1) database of the power consumption monitoring apparatus of 1st Embodiment. It is a figure which shows an example of the electric equipment (2) database of the power consumption monitoring apparatus of 1st Embodiment. It is a figure which shows an example of the portable terminal device database of the power consumption monitoring apparatus of 1st Embodiment. It is a figure which shows an example of the connection apparatus database of the power consumption monitoring apparatus of 1st Embodiment. It is a figure which shows an example of the user information database of the power consumption monitoring apparatus of 1st Embodiment. It is a figure explaining schematic operation | movement of the power consumption monitoring apparatus of 1st Embodiment. It is a flowchart which shows an example of operation | movement of the electric equipment of the power consumption monitoring apparatus of 1st Embodiment. It is a flowchart which shows an example of operation | movement of the portable terminal device of the power consumption monitoring apparatus of 1st Embodiment. It is a flowchart which shows an example of operation | movement of the management apparatus of the power consumption monitoring apparatus of 1st Embodiment. It is a figure explaining schematic operation | movement of the power consumption monitoring apparatus of 2nd Embodiment. It is a flowchart which shows an example of operation | movement of the electric equipment of the power consumption monitoring apparatus of 2nd Embodiment. It is a flowchart which shows an example of operation | movement of the portable terminal device of the power consumption monitoring apparatus of 2nd Embodiment. It is a block diagram of the power consumption monitoring apparatus of 3rd Embodiment. It is a figure which shows an example of the electric equipment (1) database of the power consumption monitoring apparatus of 3rd Embodiment. It is a figure which shows the other example of the electric equipment (2) database of the power consumption monitoring apparatus of 3rd Embodiment. It is a figure which shows an example of the portable terminal device database of the power consumption monitoring apparatus of 3rd Embodiment. It is a figure explaining schematic operation | movement of the power consumption monitoring apparatus of 3rd Embodiment. It is a figure explaining schematic operation | movement of the power consumption monitoring apparatus of 4th Embodiment. It is a block diagram of the power consumption monitoring apparatus of 5th Embodiment. It is a figure which shows an example of the electric equipment (1) database of the power consumption monitoring apparatus of 5th Embodiment. It is a figure which shows the other example of the electric equipment (2) database of the power consumption monitoring apparatus of 5th Embodiment. It is a figure which shows an example of the portable terminal device (1) database of the power consumption monitoring apparatus of 5th Embodiment. It is a figure which shows an example of the portable terminal device (2) database of the power consumption monitoring apparatus of 5th Embodiment. It is a figure which shows an example of the user information database of the power consumption monitoring apparatus of 5th Embodiment. It is a figure explaining schematic operation | movement of the power consumption monitoring apparatus of 5th Embodiment. It is a flowchart which shows an example of operation | movement of the management apparatus of the power consumption monitoring apparatus of 5th Embodiment. It is a figure explaining schematic operation | movement of the power consumption monitoring apparatus of 6th Embodiment. It is a flowchart which shows an example of operation | movement of the electric equipment of the power consumption monitoring apparatus of 6th Embodiment. It is a figure which shows an example of the "present / absent screen" displayed on the display means of a portable terminal device. It is a figure which shows the other example of the "present / absent screen" displayed on the display means of a portable terminal device.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing a schematic configuration of a first embodiment of a power consumption monitoring device of the present invention. The power consumption monitoring device of this embodiment includes an electrical device, a mobile terminal device, a connection device, and a management device. 1 includes an electric device (1) 110 (hereinafter referred to as “first electric device 110”), an electric device (2) 120 (hereinafter referred to as “second electric device 120”), a portable terminal device 210, 250, connection devices 310 and 350, and a management device 510 are shown. The mobile terminal device 210 is carried by the user [U111], and the first electric device 110, the second electric device 120, and the connection device 310 are the home of the user [U111] (hereinafter referred to as “user [U111] home”). ). The mobile terminal device 250 is carried by the user [U222], and the connection device 350 is provided in the user [U222] home.
The description "installed in the user's home (user's home)" means that the site is owned or rented by the user (including a single-family house built on the site) or a partly owned building (apartment, apartment) Means " The first electric device 110 and the second electric device 120 are devices that consume electricity, and include, for example, an air conditioner (air conditioner), a refrigerator, an electric water heater, an illumination lamp, and a washing machine. In FIG. 1, the power consumption monitoring device of the present embodiment is shown in a simplified manner.

In this embodiment, the portable terminal device 210 (250) can be carried by the user, and at least in the user [U111] home (user [U222] home), at least a wireless LAN (preferably a WiFi communication system wireless LAN ( A portable terminal device capable of low power data communication via “WiFi LAN”) is used. For example, a smartphone or a tablet is used. “Low-power data communication” is a wireless communication method that does not require a license, and is within a predetermined frequency band (for example, 2.4 GHz band, 5 GHz band) and below a predetermined value (for example, 10 mW or less). This is a wireless communication system for short-range communication using a radio wave having a certain antenna power.
In addition, as the connection device 310 (350), in the user [U111] home (user [U222] home), the first electric device 110, the second electric device 120, and the portable terminal device 210 have small power via a wireless LAN. A wireless LAN router capable of data communication is used. Preferably, a WiFi router that constructs a WiFi LAN using the connection device 310 as an access point (referred to as “SSID”) is used.

In FIG. 1, M1 indicates a WiFi LAN communication area constructed by the connection device 310 provided in the user [U111] home (using the connection device 310 as an access point), and M1a is determined by the connection device 310. 2 shows a wireless communication line used in a built-in WiFi LAN. M2 represents a WiFi communication area established by the connection device 350 provided in the user [U222] home (using the connection device 350 as an access point), and M2a is a WiFi LAN established by the connection device 350. The wireless communication line used in FIG. The wireless communication lines (M1a, M2a) used in WiFiLAN are usually defined (identified) by an access point (SSID).
S is a communication line for connecting the connection devices 310 and 350 and the management device 510, and an Internet line is preferably used.
Reference numeral 410 denotes a base station constituting a mobile communication system constructed by a communication carrier, N1 denotes a communication area of the base station 410, and N1a denotes a wireless communication line used in the communication area N1. Show. Normally, the communication area N1 of the base station 410 is larger than the communication area M1 of the connection device 310. Further, the communication area N1 of the base station 410 may include the communication area M1 of the connection device 310 and the communication area M2 of the connection device 350.
The mobile terminal device 210 carried by the user [U111] can communicate with the connection device 310 via the wireless communication line M1a in the communication area M1 of the connection device 310 provided in the user [U111] home. Outside the communication area M1 (for example, a position indicated by a broken line), it is not possible to communicate with the connection device 310 via the wireless communication line M1a. Further, the mobile terminal device 210 is connected to the base station 410 and the communication line (Internet line) within the communication area N1 of the base station 410 even outside the communication area M1 of the connection device 310 provided in the user [U111] home. ) It is possible to connect to the management device 510 via S.
In addition, by connecting the mobile terminal devices 210 and 220 to the management device 510, information managed by the management device 510, for example, the power consumption of the electric devices 110 and 120 installed in the user [U111] home, The total power consumption amount obtained by adding the power consumption amounts of the electric devices 110 and 120, the presence / absence state of the user [U111] in the house, and the like can be confirmed on the display means of the portable terminal devices 210 and 250. In addition, by connecting a personal computer to the management device 510, information managed by the management device 510 can be confirmed by a display means of the personal computer.

  The first electric device 110 includes an electric device side processing unit 111, an electric device side storage unit 112, an electric device side measuring unit 114,. It has electric equipment side wireless communication means 115. Each means may be configured integrally or may be configured separately.

The electric device (1) database is stored in the electric device storage unit 112. An example of the electric equipment (1) database is shown in FIG.
In the electric device (1) database shown in FIG. 2, the portable terminal device 210 that transmits the electric device identification information “A110” indicating the first electric device 110 and the power consumption index of the first electric device 110 is transmitted. Mobile terminal device identification information “X210” indicating wireless communication line identification information “R310” indicating wireless communication line M1a (WiFi LAN) for communicating with mobile terminal device 210, and encryption key for connecting to wireless communication line M1a “M000”, which indicates whether or not the first electric device 110 (electric device-side wireless communication means 115) and the portable terminal device 210 (mobile terminal device-side wireless communication means 215) are connected via the wireless communication line M1a. Connection / non-connection determination information (also referred to as “connection / non-connection information”), a power consumption index indicating the power consumption of the first electrical device 110, and the portable terminal device 210 Transmitted power consumption index and the transmission time, and other information are stored. As the wireless communication line identification information, a WiFi LAN access point (SSID) is typically used.
The connection / disconnection determination information is, for example, between the first electric device 110 (electric device-side wireless communication means 115) and the portable terminal device 210 (mobile terminal device-side wireless communication means 215) via the wireless communication line M1a. It shows whether or not low power data communication is possible. The electrical device (1) database connection / disconnection determination information is set by the electrical device side processing means 111 of the first electrical device 110.

The electric device side measuring means 114 measures the amount of electricity for calculating the power consumption amount index of the first electric device 110.
For example, as the power consumption index of the first electrical device 110, the voltage V applied to the first electrical device 110, the current I flowing through the first electrical device 110, and the phase difference θ between the voltage V and the current I When using the integrated value of the power consumption T (W) (= V × I × cos θ) calculated by the power factor cos θ represented, the electrical device side measuring means 114 is configured to use the voltage V, current I, power factor cos θ. Measure.
In addition, the voltage V applied to the first electric device 110 is substantially constant, and the average value of the power factor cos θ of the first electric device 110 is calculated in advance, so that the voltage V and the power factor cos θ are approximate values. Can be used. Therefore, the integral value of the current I can be used as the power consumption index of the first electrical device 110. In this case, the electrical equipment side measuring unit 114 measures the current I. Note that the approximate value of the power consumption of the first electric device 110 in this case is calculated by [integrated value of current I × voltage V (approximate value) × power factor cos θ (approximate value)].
The electric device side measuring means 114 may be attached to the first electric device 110 in advance, or may be attached to the first electric device later.

Note that, as the power consumption index stored in the electrical device database, it is preferable to use a cumulative value of the power consumption index from an arbitrary time point. In addition, when transmitting and receiving the power consumption index, it is preferable to store the cumulative value of the power consumption index and the transmission time or the cumulative value of the power consumption index and the reception time. In this case, the power consumption amount in the period from the arbitrary first time to the arbitrary second time is the cumulative power consumption index at the first time from the cumulative value of the power consumption index at the second time. It can be easily determined based on the value obtained by subtracting the value. In addition, by using the cumulative value of the power consumption index, the power consumption index is transferred from the electric device to the mobile terminal device or from the mobile terminal device to the management device during the absence period when the user carrying the mobile terminal device is not in the user's home. Even if it cannot be transmitted, the power consumption in the period including the absence period can be easily determined by the power consumption index transmitted and received before and after the absence period.
Of course, the power consumption index stored in the electrical equipment database is only required to be able to determine the power consumption index within a period from an arbitrary first time to an arbitrary second time. It is not limited to the cumulative value of the electric energy index.

The electric equipment side wireless communication means 115 includes an antenna, modulation / demodulation means and the like.
In the user [U111] house, the electric equipment side wireless communication means 115 is a portable terminal of the portable terminal apparatus 210 via WiFiLAN (wireless communication line M1a) with the connection device 310 (connection device side wireless communication means 315) as an access point. It is configured to be able to communicate with the apparatus side wireless communication means 215 and the like.

Similarly to the first electric device 110, the second electric device 120 includes an electric device side processing unit 121, an electric device side storage unit 122, an electric device side measuring unit 124,. It has an electric equipment side wireless communication means 125.
The electrical device side storage unit 122 stores an electrical device (2) database. An example of the electrical equipment (2) database is shown in FIG. In the electric equipment (2) database shown in FIG. 3, the same information as the electric equipment (1) database shown in FIG. 2 is stored. In addition, electrical device identification information “A120” indicating the second electrical device 120 is stored as the electrical device identification information in the electrical device (2) database.
The electric equipment side processing means 121, the electric equipment side measuring means 124, and the electric equipment side wireless communication means 125 are the electric equipment side processing means 111, the electric equipment side measuring means 114, and the electric equipment side wireless communication means of the first electric equipment 110. The configuration is the same as 125.

The mobile terminal device 210 includes a mobile terminal device side processing unit 211, a mobile terminal device side storage unit 212, a mobile terminal device side display unit 213, and a mobile terminal device side wireless communication unit 215.
The mobile terminal device storage unit 212 stores a mobile terminal device database. An example of the portable terminal device database is shown in FIG.
The mobile terminal device database shown in FIG. 4 includes mobile terminal device identification information “X210” indicating the mobile terminal device 210, the first electric device 110 and the second electric device provided in the user [U111] home. Electric device identification information “A110” and “A120” indicating the device 120, wireless communication line identification information “R310” indicating the wireless communication line M1a (WiFi LAN) for communicating with the first electric device 110 and the second electric device 120 ”, The encryption key“ m000 ”for connecting to the wireless communication line M1a, the mobile terminal device 210 (the mobile terminal device side wireless communication means 215), the first electric device 110 (the electric device side wireless communication means 115), and the first Connection / indicating whether or not the second electric device 120 (electric device-side wireless communication means 125) is connected via the wireless communication line M1a Management device identification information “D510” indicating the management device 510 that transmits the connection determination information, the power consumption index and the reception time, and the power consumption index received from the first electrical device 110 and the second electrical device 120, the management device The power consumption index and transmission time of the first electric device 110 and the second electric device 120 transmitted to 510 are stored. The connection / disconnection determination information of the mobile terminal device database is set by the mobile terminal device side processing means 211 of the mobile terminal device 210.
Note that the power consumption index is transmitted from the first electric device 110 and the second electric device 120 to the mobile terminal device 210 (timing), and the power consumption index is transmitted from the mobile terminal device 210 to the management device 510. The time (timing) is different. For example, the first electric device 110 and the second electric device 120 transmit a power consumption index to the mobile terminal device 210 every 5 minutes, and the mobile terminal device 210 manages the power consumption index every 30 minutes. To device 510. For this reason, the power consumption amount index (g) stored in the mobile terminal device database shown in FIG. 4 is received from the first electric device 110 or the second electric device at the time of transmission to the management device 510. It may be different from time to time.
The mobile terminal device side display unit 213 is configured by, for example, a touch panel having a display function and an input function. In the present embodiment, the mobile terminal device side display means 213 includes information received from the management device 510, for example, consumption of the first electric device 110 and the second electric device 120 provided in the user [U111] home. It is possible to display the power consumption, the total power consumption obtained by adding the power consumption of the first electric device 110 and the second electric device 120, the presence / absence state of the user [U111], the family, and the like.
The mobile terminal device-side wireless communication means 215 includes an antenna, modulation / demodulation means, and the like.
The mobile terminal device side wireless communication means 215 is connected to the connection device side wireless communication of the connection device 310 via WiFiLAN (M1a) using the connection device 310 (connection device side wireless communication means 315) as an access point in the user [U111] house. It is configured to be communicable with the means 315, the electric equipment side wireless communication means 115 of the first electric equipment 110, the electric equipment side wireless communication means 125 of the second electric equipment 120, and the like.

The connection device 310 includes a connection device side processing unit 311, a connection device side storage unit 312. A connection device side wireless communication unit 315 and a connection device side communication unit 316 are provided.
The connection device database 312 is stored in the connection device storage unit 312. An example of the connection device database is shown in FIG.
The connection device database shown in FIG. 5 includes wireless communication used in WiFi LAN using the connection device identification information “S310” indicating the connection device 310 and the connection device 310 (connection device side wireless communication means 315) as an access point. The wireless communication line identification information “R310” indicating the line M1a, the encryption key “m000” for connecting to the wireless communication line M1a, and other information are stored. For example, an address (global address) is used as the connection device identification information “S310”. The connection device database may store electrical device identification information indicating the electrical devices 110 and 120 that can communicate via the wireless communication line M1a, mobile terminal device identification information indicating the mobile terminal device 210, and the like. it can.
The connection device side wireless communication means 315 includes an antenna, modulation / demodulation means and the like.
The connection device side wireless communication means 315 is connected to the electric device side of the first electric device 110 via WiFiLAN (M1a) using the connection device 310 (connection device side wireless communication means 315) as an access point in the user [U111] house. The wireless communication unit 115, the electric device side wireless communication unit 125 of the second electric device 120, the band terminal device side wireless communication unit 215 of the portable terminal device 210, and the like can be communicated.
The connection device side communication means 316 is configured to be able to communicate with the management device side communication means 516 of the management device 510 via a communication line, preferably the Internet line S.

The management apparatus 510 includes a management apparatus side processing unit 511, a management apparatus side storage unit 512, and a management apparatus side communication unit 516.
The management device side storage unit 512 stores a user information database. An example of the user information database is shown in FIG.
In the user information database shown in FIG. 6, a connection device indicating a user name, an address, and a connection device provided at the user's house in association with user identification information “U111” and “U222” indicating the user. Identification information “S310”, “S350”, portable terminal device identification information “X210”, “X250” indicating the portable terminal devices 210, 250 carried by the user, and the portable terminal device (user carrying the portable terminal device) Presence / absence determination information (also referred to as “absence / absence information”) indicating whether or not the user is at home, out-of-office contact information indicating contact information to be contacted when the user is determined to be absent, Electric device identification information “A110”, “A120” indicating the installed electric device, power consumption index and reception time of each electric device, and other information It is 憶.
The management device side communication means 516 is configured to be able to communicate with the connection device side communication means 316 of the connection device 310 via a communication line (Internet line S).

  Electrical device database, portable terminal device database, connection device database, electrical device identification information stored in the user information database, portable terminal device identification information, connection device identification information, management device identification information include name, code, address Various information such as a private address, a global address, or a MAC address can be used.

Next, the operation of the power consumption monitoring device according to the first embodiment will be described.
In the power consumption monitoring apparatus according to the first embodiment, the electric device and the mobile terminal device are configured to perform low-power data communication via WiFiLAN with the connection device as an access point in the user's home.
In addition, as a method for determining whether or not low-power data communication is possible between an electric device and a portable terminal device, whether or not the electric device and the portable terminal device are connected via WiFiLAN (connected / non-connected). Connection) is used. In the present embodiment, the connection confirmation signal is transmitted from the electric device to the portable terminal device, and the connection response signal is transmitted from the portable terminal device to the electric device in response to the reception of the connection confirmation signal. Then, the electrical device side determines whether the electrical device and the mobile terminal device are connected or not based on whether or not a connection response signal is received, and the mobile terminal device side determines whether or not an electrical connection is received depending on whether the connection confirmation signal is received. The connection / disconnection between the device and the mobile terminal device is determined.
In the first embodiment, since the connection confirmation signal is transmitted from the electric device to the mobile terminal device, the power consumption of the mobile terminal device can be reduced.

A schematic operation of the power consumption monitoring apparatus according to the first embodiment will be described with reference to FIG.
Each electrical device transmits a connection confirmation signal addressed to the mobile terminal device via the wireless communication line M1a at an appropriate time (for example, every very short time). The connection confirmation signal addressed to the mobile terminal device is transmitted to the mobile terminal device via the connection device.
When the mobile terminal device receives the connection confirmation signal transmitted from each electrical device to the mobile terminal device, the mobile terminal device transmits a connection response signal to the electrical device that has transmitted the received connection confirmation signal through the wireless communication line M1a. The connection response signal addressed to the electrical device is transmitted to the electrical device via the connection device.
Each electrical device is connected to its own electrical device and mobile terminal device by transmitting a connection confirmation signal addressed to the mobile terminal device and receiving a connection response signal from the mobile terminal device within the connection determination period. Is determined (connection determination). In addition, since the connection response signal from the portable terminal device has not been received for the set period or longer (the connection response signal from the portable terminal device has been received for the set period or more), It is determined that the terminal device is not connected (non-connection determination). As the connection determination period, a period longer than that required for receiving the connection confirmation signal after transmitting the connection confirmation signal in the normal state (with a margin) is set.
The mobile terminal device determines (connection determination) that the mobile terminal device and all the electrical devices are connected by receiving at least one of the connection confirmation signals from each electrical device. In addition, for all electrical devices, a mobile terminal has not received a connection confirmation signal from the electrical device for more than a set period (more than the set period has elapsed since the last reception of a connection confirmation signal from an electrical device) It is determined (non-connection determination) that the device and all electrical devices are not connected.
When the electrical device is connected to the mobile terminal device at an appropriate time (for example, every 5 minutes) (connection determination is made), the first transmission information addressed to the mobile terminal device (Including the power consumption index of the electric device and the electric device identification information) is transmitted through the wireless communication line M1a. The first transmission information addressed to the mobile terminal device is transmitted to the mobile terminal device via the connection device.
The portable terminal device stores the power consumption amount index included in the first transmission information addressed to its own portable terminal device in association with the electrical device identification information. In addition, when the mobile terminal device and the connection device are connected (connection is determined) at an appropriate time (for example, every 30 minutes), the mobile terminal device receives the second address addressed to the management device. Transmission information (including power consumption index and electric device identification information of each electric device and portable terminal device identification information) is transmitted through the wireless communication line M1a. The second transmission information addressed to the management device is transmitted to the management device via the connection device and the communication line (Internet line S).
The management device uses the power consumption index of each electric device included in the second transmission information addressed to its own management device, the user identification information corresponding to the mobile terminal device identification information, and the electric device identification information of each electric device. It memorizes corresponding to.
The management device determines that the mobile terminal device is present in the user's home by receiving the second transmission information from the mobile terminal device (the user who carries the mobile terminal device is at home. judge. In addition, the second transmission information from the mobile terminal device has not been received for the absence determination period or more (the second transmission information from the mobile terminal device has been received for the absence determination period since the previous reception), It is determined that the portable terminal device does not exist in the user's home (determined that there is no user carrying the portable terminal device). As the absence determination period, a period longer than a period for receiving the second transmission information from the mobile terminal device in a state where the user is at home (with a margin) is set. For example, when the transmission interval of the second transmission information from the mobile terminal device is set to 30 minutes, the absence determination period is set to 50 minutes.

First, operations of the first electric device 110 and the second electric device 120 will be described. Since the operation of the first electric device 110 and the operation of the second electric device 120 are basically the same, the operation of the first electric device 110 will be described below.
An example of the operation of the first electric device 110 will be described with reference to the flowchart shown in FIG. The operation of the flowchart shown in FIG. 8 is mainly executed by the electric equipment side processing unit 111.
The operation of the flowchart shown in FIG. 8 is started at an appropriate timing.
In step A <b> 1, it is determined whether power is consumed by the first electric device 110. Whether or not electric power is consumed is determined, for example, based on whether or not the current I flowing through the first electric device 110 is measured by the electric device-side measuring unit 114. If it is determined that power is consumed, the process proceeds to step A2, and if it is determined that power is not consumed, the process proceeds to step A3.
In step A2, a power consumption index of the first electric device 110 is calculated from the amount of electricity measured by the electric device side measuring unit 114, and the calculated power consumption index is stored in the electric device side storage unit 112 (electric device (1)). Database), the process proceeds to step A3.

In step A3, it is determined whether it is time to send a connection confirmation signal. The connection confirmation signal transmission is transmitted at very short time intervals, for example. Note that if a connection confirmation signal is transmitted simultaneously from a plurality of electrical devices, an error may occur due to interference. For this reason, it is preferable to shift the transmission timing of the connection confirmation signal from each electric device. For example, a random delay period or advance period is set for each electrical device with respect to a common connection signal transmission time. If it is time to transmit the connection confirmation signal, the process proceeds to step A4. If it is not time to transmit the connection confirmation signal, the process proceeds to step A7.
In step A4, the connection confirmation signal is sent from the electric device side wireless communication means 115 to the wireless communication line M1a to the portable terminal device 210 indicated by the portable terminal device identification information “X210” stored in the electric device side storage means 112. Then, the process proceeds to step A5.
In step A5, it is determined whether or not a connection response signal has been received from the portable terminal device 210 that has transmitted the connection confirmation signal. In step A5, it is determined whether a connection response signal has been received within the connection determination period. If the connection confirmation signal is received within the connection determination period, the process proceeds to step A6, and if the connection confirmation signal is not received within the connection determination period, the process proceeds to step A8.
In Step A6, it is determined (connection determination) that the first electric device 110 and the mobile terminal device 210 are connected via the wireless communication line M1a. Then, after the connection / disconnection determination information corresponding to the mobile terminal device identification information “X210” in the electrical device side storage unit 112 is set to the connected state, the process proceeds to step A10.

In step A7, it is determined whether or not the mobile terminal device 210 indicated by the mobile terminal device identification information “X210” stored in the electrical device-side storage unit 112 has been determined to be connected. For example, it is determined whether or not the connection / disconnection determination information corresponding to the mobile terminal device identification information “X210” in the electrical device side storage unit 112 is set to the connected state. If the mobile terminal device 210 is determined to be connected, the process proceeds to step A10, and if the connection is not determined (not determined to be connected), the process returns to step A1.
In step A8, it is determined whether or not a connection response signal has been received from the mobile terminal device 210 for a set period or more (whether or not a set period has elapsed since the connection response signal from the mobile terminal device 210 was previously received). to decide. When the connection response signal from the mobile terminal device 210 is received within the set period, the process proceeds to step A10, and when not received for the set period or longer, the process proceeds to step A9. As the setting period, a period longer than the transmission interval of the connection confirmation signal is set. For example, the set period is set to a period 2 to 5 times the transmission interval of the connection confirmation signal.
In step A9, the connection / disconnection determination information corresponding to the mobile terminal device identification information “X210” indicating the mobile terminal device 210 in the electrical device-side storage unit 112 (electric device (1) database) is set to the disconnected state. Then, the process returns to step A1.
Note that step A8 may be omitted, and if it is determined in step A5 that a connection response signal has not been received within the connection determination period, the process may immediately proceed to step A9.

In step A10, it is determined whether or not it is time to transmit the power consumption index from the electric device to the portable terminal device (power consumption index transmission timing). The power consumption index transmission timing is preferably set for every predetermined period, for example, every minute or every five minutes. When it is the power consumption index transmission time, the process proceeds to step A11, and when it is not the power consumption index transmission time, the process returns to step A1.
In step A11, first transmission information including the power consumption index stored in the electric device-side storage unit 112 (electric device (1) database) and electric device identification information “A110” indicating the first electric device 110. Is transmitted to the portable terminal device 210 indicated by the portable terminal device identification information “X210” stored in the electric device side storage unit 112 from the electric device side wireless communication unit 115 through the wireless communication line M1a, and then step A1 is performed. Return to.
When the connection device 310 receives the first transmission information addressed to the mobile terminal device 210 by the connection device-side wireless communication means 315 via the wireless communication line M1a, the connection device 310 receives the received first transmission information. 210 is transmitted from the connection device side wireless communication means 315 to the wireless communication line M1a.

Next, an example of the operation of the mobile terminal device 210 will be described with reference to the flowchart shown in FIG. The operation of the flowchart shown in FIG. 9 is mainly executed by the mobile terminal device side processing unit 211.
The operation of the flowchart shown in FIG. 9 is started at an appropriate timing.
In step B1, the electric device indicated by the electric device identification information stored in the portable terminal device side storage means 212 (portable terminal device database) (in the portable terminal device database shown in FIG. 4, the electric device identification information “ It is determined whether or not a connection confirmation signal has been received from either the first electric device 110 indicated by A110 ”or the second electric device 120 indicated by electric device identification information“ A120 ”. If a connection confirmation signal is received from any electrical device, the process proceeds to step B2, and if a connection confirmation signal is not received from any electrical device, the process proceeds to step B4.
In step B2, after transmitting a connection response signal addressed to the electrical device that transmitted the connection confirmation signal received in step B1, the process proceeds to step B3.
In Step B3, it is determined (connection determination) that the mobile terminal device 210 and the electrical device that has transmitted the connection confirmation signal received in Step B1 are connected via the wireless communication line M1a. Then, after setting the connection / disconnection determination information corresponding to the electric device identification information indicating the electric device determined to be connected in the portable terminal device side storage unit 212 to the connected state, the process proceeds to step B6.
In step B4, it is determined whether or not there is an electrical device that has not received the connection confirmation signal for the set period or longer among the electrical devices indicated by the electrical device identification information stored in the portable terminal device storage unit 212. To do. As the setting period of step B4, a period longer than the transmission interval of the connection confirmation signal is set. For example, the set period of step A8 shown in FIG. 8 is used. If there is no electrical device that has not received the connection confirmation signal for the set period or longer (the set period has elapsed since the last connection confirmation signal was received), the process proceeds to step B6 and receives the connection confirmation signal for the set period or more. If there is an electrical device that is not connected, the process proceeds to step B5.
In Step B5, it is determined that the mobile terminal device 210 and the electrical device that has determined that the connection confirmation signal has not been received for the set period or longer in Step B4 are not connected via the wireless communication line M1a (non-connection determination) To do. Then, after setting the connection / disconnection determination information corresponding to the electric device identification information indicating the electric device determined to be disconnected in the portable terminal device side storage unit 212 to the disconnected state, the process proceeds to step B6.

In step B6, it is determined whether or not the first transmission information from any of the electric devices has been received. When the first transmission information from any of the electric devices is received, the process proceeds to Step B7, and when the first transmission information is not received, the process proceeds to Step B8.
In step B7, the power consumption index included in the received first transmission information is associated with the electrical device identification information included in the received first transmission information in the portable terminal device side storage unit 212. After storing, the process proceeds to step B8.

In step B8, it is determined whether or not it is time to transmit the power consumption index of each electrical device from the portable terminal device 210 to the management device 510 (power consumption index transmission timing). The power consumption transmission timing for transmitting the power consumption index of each electrical device to the management apparatus is preferably set at regular intervals (constant time), for example, every 30 minutes (for example, 0 minutes and 30 minutes per hour) or 1 Every hour (for example, every hour 0 minutes) is set. If the first transmission information is transmitted from a plurality of portable terminal devices to the management device at the same time, an error may occur due to interference. For this reason, it is preferable to shift the power consumption index transmission timing in each portable terminal device. For example, a random delay time or advance time is set for each portable terminal device with respect to a common power consumption index transmission time. When it is the power consumption index transmission time, the process proceeds to step B9, and when it is not the power consumption index transmission time, the process returns to step B1.
In step B9, it is determined whether or not the portable terminal device 210 and the connection device 310 are connected via the wireless communication line M1a. Here, if the mobile terminal device 210 and any of the electrical devices are connected via the wireless communication line M1a, the mobile terminal device 210 and the connection device 310 are connected via the wireless communication line M1a. it can. That is, whether or not any of the connection / disconnection determination information corresponding to each electrical device identification information in the mobile terminal device side storage unit 212 is set to the connected state (whether any electrical device is determined to be connected). Whether or not the portable terminal device 210 and the connection device 310 are connected via the wireless communication line M1a. If any of the electric devices is determined to be connected, the process proceeds to step B10. If all the electric devices are not determined to be connected (not determined to be connected), the process returns to step B1.
In step B10, the second transmission including the power consumption index and the electric device identification information of each electric device stored in the portable terminal device side storage unit 212, and the portable terminal device identification information indicating its own portable terminal device 210 is transmitted. After transmitting the information to the management device 510 indicated by the management device identification information “D510” stored in the mobile terminal device side storage means 212 from the mobile terminal device side wireless communication means 215 via the wireless communication line M1a, the step Return to B1.
When the connection device 310 receives the second transmission information addressed to the management device 510 by the connection device-side wireless communication means 315 via the wireless communication line M1a, the connection device 310 transmits the received second transmission information to the management device 510. Is transmitted from the connection device side communication means 316 via the communication line (Internet line S).

Next, an example of the operation of the management apparatus 510 will be described with reference to the flowchart shown in FIG. The operation of the flowchart shown in FIG. 10 is mainly executed by the management apparatus side processing unit 511.
The operation of the flowchart shown in FIG. 10 is started at an appropriate timing.
In step C1, the management device 510 includes the mobile terminal device determined to be at home (the mobile terminal device in which the presence / absence determination information in the user information database shown in FIG. 6 is set to the home state). It is determined whether there is a mobile terminal device that has not received the second transmission information for the absence determination period. The absence determination period in step C1 is set to be equal to or longer than the transmission interval of the second transmission information, for example. For example, the absence determination period is set to 2 to 5 times the transmission interval of the second transmission information. If there is a mobile terminal device that has not received the second transmission information for the absence determination period or longer, the process proceeds to step C2, and if not, the process proceeds to step C5.
In Step C2, the mobile terminal device determined not to have received the second transmission information for the absence determination period in Step C1 is determined to be absent. That is, the presence / absence determination information corresponding to the terminal device identification information indicating the mobile terminal device in the management device side storage unit 512 (user information database) is set to the absence state.
In step C3, the management device side storage means 512 is associated with the mobile terminal device identification information indicating the mobile terminal device determined to be absent in step C2 (when the user registers one mobile terminal device). Then, it is determined whether or not the absence contact is stored (registered) in correspondence with the user identification information corresponding to the mobile terminal device identification information. If the absentee contact information is stored (registered), the process proceeds to step C4. If the absentee contact information is not stored (registered), the process proceeds to step C5.
In step C4, the stored absence contact information is contacted, and then the process proceeds to step C5.
By storing (registering) out-of-office contact information in correspondence with the user identification information in the management device side storage unit 512 (user information database), it is possible to easily and quickly recognize that no one is in the user's home. it can.

In Step C5, it is determined whether or not the second transmission information from any of the mobile terminal devices has been received by the management device side communication means 516. If the second transmission information is received, the process proceeds to step C6. If the second transmission information is not received, the process returns to step C1.
In Step C6, it is determined whether or not the mobile terminal device that has transmitted the second transmission information received in Step C5 has been determined to be absent. That is, it is determined whether the presence / absence determination information corresponding to the mobile terminal device identification information indicating the mobile terminal device in the management device side storage unit 512 is set to the absence state. If the absence of the mobile terminal device that has transmitted the received second transmission information is determined to be absent, the process proceeds to step C7. If the absence is not determined (at-home determination), the process proceeds to step C8.
In step C7, the mobile terminal device that has transmitted the second transmission information received in step C5 is determined to be at home, and then the process proceeds to step C8. That is, the presence / absence determination information corresponding to the mobile terminal device identification information indicating the mobile terminal device in the management device side storage unit 512 is set to the home state.
In step C8, the user corresponding to the mobile terminal device identification information included in the received second transmission information is used as the power consumption index of each electrical device included in the second transmission information received in step C5. Corresponding to the identification information and the electric device identification information of each electric device, it is stored in the management device side storage means 512 (user information database).

In the first embodiment, in order to determine the connection / disconnection state between an electric device (for example, the first electric device 110 and the second electric device 120) and the portable terminal device 210, the electric device is a portable terminal. The mobile terminal device 210 transmits a connection confirmation signal to the device 210, and the mobile terminal device 210 is configured to transmit a connection response signal to the electrical device in response to reception of the connection confirmation signal from the electrical device. The method for determining the connection / disconnection state with the mobile terminal device is not limited to this.
The power consumption monitoring apparatus according to the second embodiment will be described below.
In the power consumption monitoring device of the second embodiment, a connection confirmation signal is transmitted from the portable terminal device to each electric device, and a connection response signal is transmitted from each electric device to the portable terminal device in response to reception of the connection confirmation signal. Send. Then, on the mobile terminal device side, the connection / non-connection state between each electrical device and the mobile terminal device is determined depending on whether or not a connection response signal from each electrical device is received. The connection / non-connection state between the own electric device and the portable terminal device is determined depending on whether or not it is received.

A schematic operation of the power consumption monitoring apparatus according to the second embodiment will be described with reference to FIG.
The portable terminal device transmits a connection confirmation signal addressed to each electric device via the wireless communication line M1a at an appropriate time. The connection confirmation signal addressed to each electrical device is transmitted to each electrical device via the connection device.
When each electrical device receives the connection confirmation signal transmitted from the mobile terminal device to its own electrical device, each electrical device transmits a connection response signal addressed to the mobile terminal device via the wireless communication line M1a. The connection response signal addressed to the mobile terminal device is transmitted to the mobile terminal device via the connection device.
The mobile terminal device is connected to all the electrical devices by transmitting a connection confirmation signal to the at least one electrical device and receiving a connection response signal within the connection determination period. Is determined (connection determination). In addition, for all electrical devices, the mobile device has received no connection response signal from the electrical device for a set period or more (a set period has elapsed since the last time the connection response signal from the electrical device was received). It is determined (non-connection determination) that the device and all electrical devices are not connected.
Each electrical device determines (connection determination) that its own electrical device and the mobile terminal device are connected by receiving a connection confirmation signal from the mobile terminal device. Moreover, it is determined that the self-electrical device and the mobile terminal device are not connected (non-connection determination) by not receiving a connection confirmation signal from the mobile terminal device for a set period or longer.
Processing for transmitting first transmission information (including a power consumption index and electric device identification information) from each electric device to the portable terminal device, and second transmission information (power consumption of each electric device) from the portable terminal device to the management device The process of transmitting the quantity indicator, the electric device identification information, and the mobile terminal device identification information), the process of storing the information included in the second transmission information in the management device side storage means (user information database), The processing is the same as that shown in FIG.

First, operations of the first electric device 110 and the second electric device 120 will be described. Since the operation of the first electric device 110 and the operation of the second electric device 120 are basically the same, the operation of the first electric device 110 will be described below.
An example of the operation of the first electric device 110 will be described with reference to the flowchart shown in FIG.
In step D <b> 1, it is determined whether power is consumed by the first electrical device 110. If power is consumed, the process proceeds to step D2, and if power is not consumed, the process proceeds to step D3.
In step D2, the power consumption amount index of the first electrical device 110 is calculated and stored in the electrical device storage unit 112, and then the process proceeds to step D3.
In Step D3, it is determined whether or not a connection confirmation signal from the mobile terminal device 210 has been received. If a connection confirmation signal is received from the portable terminal device 210, the process proceeds to step D4. If a connection confirmation signal is not received from the portable terminal device 210, the process proceeds to step D6.
In step D4, a connection response signal is transmitted to the mobile terminal device 210 that transmitted the received connection confirmation signal, and then the process proceeds to step D5.
In step D5, it is determined (connection determination) that the first electric device 110 and the mobile terminal device 210 are connected via the wireless communication line M1a. Then, after the connection / disconnection determination information corresponding to the mobile terminal device identification information “X210” indicating the mobile terminal device 210 in the electrical device side storage unit 112 is set to the connected state, the process proceeds to step D8.

In step D6, whether or not a connection confirmation signal from the mobile terminal device 210 has been received for a set period or more (whether or not a set period has elapsed since the connection confirmation signal from the mobile terminal device 210 was previously received). Judging. When the connection confirmation signal is received within the set period, the process proceeds to step D8, and when the connection confirmation signal is not received for the set period or longer, the process proceeds to step D7. As the setting period, a period longer than the transmission interval of the connection confirmation signal is set. For example, the set period is set to a period 2 to 5 times the transmission interval of the connection confirmation signal.
In step D7, the connection / disconnection determination information corresponding to the mobile terminal device identification information “X210” indicating the mobile terminal device 210 in the electrical device side storage unit 112 is set to the non-connection state, and then the process returns to step D1.
In step D8, it is determined whether it is time to transmit the first transmission information from the electric device 110 to the portable terminal device 210 (power consumption index transmission time). If it is time to transmit the power consumption index, the process proceeds to step D9. If it is not time to transmit the power consumption index, the process returns to step D1.
In Step D 9, the first transmission information including the power consumption index of the electric device 110 and the electric device identification information “A110” stored in the electric device-side storage unit 112 is transmitted to the portable terminal device 210. After transmitting from the communication means 115 via the wireless communication line M1a, the process returns to step D1.

Next, an example of the operation of the mobile terminal device 210 will be described with reference to the flowchart shown in FIG. The operation of the flowchart shown in FIG. 13 is mainly executed by the mobile terminal device side processing unit 211.
In step E1, it is determined whether it is time to transmit a connection confirmation signal. If it is the connection confirmation signal transmission time, the process proceeds to step E2, and if it is not the connection confirmation signal transmission time, the process proceeds to step E7.
In step E2, the connection confirmation signal is addressed to each electric device (for example, the first electric device 110 and the second electric device 120) indicated by each electric device identification information stored in the portable terminal device storage unit 212. Then, after transmitting from the mobile terminal device side wireless communication means 215 via the wireless communication line M1a, the process proceeds to step E3.
In step E3, it is determined whether or not a connection response signal has been received within the connection determination period from the electrical device that has transmitted the connection confirmation signal. If the connection response signal is received, the process proceeds to step E4. If the connection response signal is not received, the process proceeds to step E5. As the connection determination period, a period longer than that required for receiving the connection confirmation signal after transmitting the connection confirmation signal in the normal state (with a margin) is set.
In step E4, it is determined (connection determination) that the mobile terminal device 210 and the electrical device that has transmitted the connection response signal received in step E3 are connected via the wireless communication line M1a. Then, after setting the connection / disconnection determination information corresponding to the electric device identification information indicating the electric device determined to be connected in the portable terminal device side storage unit 212 to the connected state, the process proceeds to step E7.
In step E5, it is determined whether or not there is an electrical device that has not received a connection response signal for a set period or longer. If there is no electrical device that has not received the connection response signal for the set period or longer, the process proceeds to step E7. If there is an electrical device that has not received the connection response signal for the set period or longer, the process proceeds to step E6. As the setting period, a period longer than the transmission interval of the connection confirmation signal is set. For example, the set period of step D6 is used.
In step E6, the connection / non-connection determination information corresponding to the electric device identification information indicating the electric device that has been determined that the connection response signal has not been received in step E5 for the set period or longer is stored in the portable terminal device side storage unit 212. After the connection state is set, the process proceeds to step E7.

In step E7, it is determined whether or not the first transmission information from any electrical device has been received. If the first transmission information is received, the process proceeds to step E8. If the first transmission information is not received, the process proceeds to step E9.
In step E8, the power consumption index included in the received first transmission information is associated with the electric device identification information included in the received first transmission information in the portable terminal device side storage unit 212. After storing, the process proceeds to step E9.
In step E9, it is determined whether it is time to transmit the second transmission information from the portable terminal device 210 to the management device 510 (power consumption index transmission time). When it is the power consumption index transmission time, the process proceeds to Step E10, and when it is not the power consumption index transmission time, the process returns to Step E1.
In step E10, it is determined whether or not at least one of the electric terminals indicated by the electric terminal identification information stored in the portable terminal apparatus 210 and the portable terminal apparatus side storage unit 212 has been determined to be connected. For example, it is determined whether or not at least one of the connection / disconnection determination information corresponding to each electrical device identification information in the mobile terminal device side storage unit 212 is set to the connected state. When the mobile terminal device 210 and any of the electrical devices are connected, the process proceeds to step E11. When the mobile terminal device 210 and all the electrical devices are not connected (determined to be disconnected), the process proceeds to step E1. Return to.
In step E11, the second transmission information including the power consumption index and the electric device identification information of each electric device stored in the portable terminal device storage unit 212 and the portable terminal device identification information indicating the portable terminal device 210 is obtained. Then, after transmitting from the mobile terminal device side wireless communication means 215 to the management device 510 via the wireless communication line M1a, the process returns to step E1.

In the first and second embodiments, the electric device and the mobile terminal device are connected via a WiFi LAN (wireless communication line M1a) using the connection device as an access point. However, the electric device and the mobile terminal device are connected to each other using Bluetooth or the like. It is also possible to connect directly via a wireless PAN.
The power consumption monitoring apparatus according to the third embodiment will be described below. FIG. 14 is a block diagram of a power consumption monitoring apparatus according to the third embodiment.
As in the first embodiment, the power consumption monitoring apparatus according to the present embodiment includes an electrical device, a mobile terminal device, a connection device, and a management device. FIG. 14 shows a first electrical device 110, a second electrical device 120, portable terminal devices 210 and 250, connection devices 310 and 350, and a management device 510.
In the present embodiment, the electric device (first electric device 110, second electric device 120) and the mobile terminal device 210 are connected to a wireless communication line g1 (wireless PAN) such as a Bluetooth communication method in the user [U111] house. It is configured to enable low power data communication through the network.
In addition, the mobile terminal device 210 and the connection device 310 are configured to enable low-power data communication via a WiFi LAN (wireless communication line M1a) using the connection device 310 as an access point in the user [U111] house. As the connection device 310, a WiFi router that builds a WiFi LAN in the user [U111] home is used.

The power consumption monitoring apparatus according to the present embodiment performs low-power data communication between the electric devices (first electric device 110 and second electric device 120) and the mobile terminal device 210 via the wireless PAN. This is different from the power consumption monitoring devices of the first and second embodiments.
Note that the communication area in the wireless PAN is narrower than the communication area in the WiFi LAN, but consumes less power.

An example of the electric equipment (1) database stored in the electric equipment side storage unit 112 of the first electric equipment 110 is shown in FIG. The electric device (1) database shown in FIG. 15 includes electric device identification information “A110” indicating the first electric device 110, portable terminal device identification information “X210” indicating the portable terminal device 210, the first The link key “g111” for performing low-power data communication between the electric device 110 and the portable terminal device 210 via the wireless PAN (wireless communication line g1), and the first electric device 110 and the portable terminal device 210 are wireless. Connection / non-connection determination information indicating whether or not connected via a PAN (wireless communication line g1), power consumption index, power consumption index transmitted to the mobile terminal device 210, transmission time, and other information are stored. Is done.
An example of the electric device (2) database stored in the second electric device-side storage unit 122 of the second electric device 120 is shown in FIG. The electric device (2) database shown in FIG. 16 is different from the electric device (1) database shown in FIG. 15 in the electric device identification information and the link key.
An example of the mobile terminal device database stored in the mobile terminal device-side storage 212 of the mobile terminal device 210 is shown in FIG. The mobile terminal device database shown in FIG. 17 is transmitted between the mobile terminal device 210 and the electric device (the first electric device 110 and the second electric device 120) via the wireless PAN (wireless communication line g1). The difference from the portable terminal device database used in the power consumption monitoring device of the first embodiment shown in FIG. 4 is that a link key for enabling low power data communication is stored. doing.
The connection device database stored in the connection device side storage unit 312 of the connection device 310 is the same as the connection device database used in the power consumption monitoring device of the first embodiment.

In the power consumption monitoring device according to the third embodiment, the electric device and the mobile terminal device are configured to perform low-power data communication via a wireless PAN (wireless communication line g1) such as a Bluetooth communication method in the user's home. Has been.
Then, as a method of determining whether low power data communication is possible between the electric device and the portable terminal device (connected / not connected), a connection confirmation signal is transmitted from the electric device to the portable terminal device, In response to receiving the connection confirmation signal, a connection response signal is transmitted from the portable terminal device to the electric device. On the electric device side, the connection / non-connection between the own electric device and the portable terminal device is determined depending on whether or not a connection response signal is received from the portable terminal device, and the portable terminal device receives a connection confirmation signal. Whether to connect / disconnect the portable terminal device and the electric device is determined.
In addition, the mobile terminal device and the connection device are configured to perform low-power data communication via WiFiLAN with the connection device as an access point in the user's home.
Then, as a method of determining whether low power data communication is possible between the mobile terminal device and the connection device (connected / not connected), a connection confirmation signal is transmitted from the mobile terminal device to the connection device, In response to receiving the connection confirmation signal, the connection device transmits a connection response signal to the mobile terminal device. On the mobile terminal device side, the connection / non-connection between the mobile terminal device and the connection device is determined depending on whether or not a connection response signal is received, and on the connection device side, whether or not the connection confirmation signal is received, The connection / disconnection with the portable terminal device is determined.
In the third embodiment, since low-power data communication is performed between the electric device and the mobile terminal device via a wireless PAN such as a Bluetooth communication method, the power consumption of the mobile terminal device can be reduced. Furthermore, since the connection confirmation signal is transmitted from the electric device to the mobile terminal device, the power consumption of the battery of the mobile terminal device can be further reduced.
Further, since the wireless communication line between the electric device and the portable terminal device is different from the wireless communication line between the portable terminal device and the connection device, congestion of the wireless communication line can be suppressed.

A schematic operation of the power consumption monitoring apparatus according to the third embodiment will be described with reference to FIG.
Each electric device transmits a connection confirmation signal addressed to the mobile terminal device through the wireless communication line g1 at an appropriate time.
When the mobile terminal device receives a connection confirmation signal transmitted from one of the electrical devices to the mobile terminal device, the mobile terminal device transmits a connection response signal addressed to the electrical device that transmitted the received connection confirmation signal via the wireless communication line g1. Send.
Each electric device determines (connection determination) that its own electric device and the mobile terminal device are connected by receiving a connection response signal from the mobile terminal device within the connection determination period. Moreover, it is determined that the own electrical device and the mobile terminal device are not connected (non-connection determination) by not receiving a connection response signal from the mobile terminal device for a set period or longer.
The mobile terminal device determines that the mobile terminal device and all the electrical devices are connected (connection determination) by receiving a connection confirmation signal from one of the electrical devices. Moreover, it is determined that all the electric devices are not connected to all the electric devices by not receiving a connection confirmation signal from the electric devices for a set period or more (non-connection determination). .
When the electrical device is connected to the mobile terminal device at an appropriate time (when the connection is determined), the electrical device transmits the first transmission information addressed to the mobile terminal device to the wireless communication line g1. Send with.
Furthermore, the portable terminal device transmits a connection confirmation signal addressed to the connection device via the wireless communication line M1a at an appropriate time.
When the connection device receives the connection confirmation signal transmitted from the mobile terminal device to its own connection device, the connection device transmits a connection response signal addressed to the mobile terminal device that has transmitted the received connection confirmation signal through the wireless communication line M1a.
The mobile terminal device determines that the mobile terminal device is connected to the connection device (connection determination) by receiving a connection response signal from the connection device within the connection determination period. Further, it is determined that the mobile terminal device is not connected to the connection device (non-connection determination) by not receiving the connection response signal from the connection device for the set period or longer.
The portable terminal device transmits the second transmission information addressed to the management device via the wireless communication line M1a when the portable terminal device and the connection device are communicable (determined to be connected) at an appropriate time. To do.

  Electric device side processing means 111 of the first electric device 110, electric device side processing means 121 of the second electric device 120, portable terminal device side processing means 211 of the portable terminal device 210, connection device side processing means of the connection device 310 311, the operation of the management device side processing means 511 of the management device 510 is to transmit / receive a connection confirmation signal, a connection response signal, and first transmission information between the electric devices 110 and 120 and the mobile terminal device 210 via the wireless PAN. Except for the point to perform, it is the same as the first embodiment.

In the third embodiment, a connection confirmation signal is transmitted from the electrical devices 110 and 120 to the mobile terminal device 210 in order to determine the connection / disconnection state between the electrical devices 110 and 120 and the mobile terminal device 210. The connection response signal is transmitted from the portable terminal device 210 to the electric device in response to the reception of the connection confirmation signal. A method for determining the connection / disconnection state between the electric device and the portable terminal device It is not limited to.
The power consumption monitoring apparatus according to the fourth embodiment will be described below.
In the power consumption monitoring device of the fourth embodiment, a connection confirmation signal is transmitted from the portable terminal device to each electric device, and a connection response signal is transmitted from each electric device to the portable terminal device in response to reception of the connection confirmation signal. Send. Then, on the mobile terminal device side, the connection / non-connection state between each electrical device and the mobile terminal device is determined depending on whether or not a connection response signal from each electrical device is received. The connection / non-connection state between the own electric device and the portable terminal device is determined depending on whether or not it is received.

A schematic operation of the power consumption monitoring apparatus according to the fourth embodiment will be described with reference to FIG.
The portable terminal device transmits a connection confirmation signal addressed to each electric device through the wireless communication line g1 at an appropriate time.
When each electrical device receives the connection confirmation signal transmitted from the mobile terminal device to its own electrical device, each electrical device transmits a connection response signal addressed to the mobile terminal device that transmitted the received connection confirmation signal through the wireless communication line g1. .
The mobile terminal device determines that the mobile terminal device and all the electrical devices are connected (connection determination) by receiving a connection response signal from one of the electrical devices within the connection determination period. Moreover, it is determined that all the electric devices are not connected to all the electric devices by not receiving the connection response signal from the electric devices for a set period or more (non-connection determination). .
The method for determining the connection / disconnection state between the mobile terminal device and the connection device is the same as in the third embodiment.

In the third and fourth embodiments, as a method of determining the connection / disconnection state between the mobile terminal device and the connection device, a connection confirmation signal addressed to the mobile terminal device is transmitted from the connection device, and the connection confirmation is performed. A method of transmitting a connection response signal addressed to the connection device from the portable terminal device in response to reception of the signal can also be used.
In addition, since the communication area of the wireless PAN (wireless communication line g1) is narrower than the communication area of the WiFi LAN (wireless communication line M1a), there is no wireless communication between the electric devices 110 and 120 and the mobile terminal device 210 in the user's home. The determination result as to whether or not the connection is made via the PAN (wireless communication line g1) is that the portable terminal device 210 and the connection device 310 are connected via the WiFi LAN (wireless communication line M1a) in the user's home. This is almost the same as the determination result. Therefore, the connection / non-connection determination process between the mobile terminal device 210 and the connection device 310 is omitted, and the connection / non-connection determination result between the electric devices 110 and 120 and the mobile terminal device 210 is expressed as the mobile terminal device 210. It can also be used as a connection / disconnection determination result between the connection device 310 and the connection device 310.

In the first to fourth embodiments, the case where one mobile terminal device is arranged in the user's house has been described. In recent years, for example, a plurality of families often carry mobile terminal devices. Therefore, it is preferable to use a portable terminal device carried by a plurality of families so that the power consumption index of each electric appliance provided in the user's home can be transmitted to the management device.
The power consumption monitoring apparatus according to the fifth embodiment will be described below.
FIG. 20 shows a block diagram of a power consumption monitoring apparatus of the fifth embodiment. In FIG. 20, two mobile terminal devices are shown in the user [U111] house, but the number of mobile terminal devices may be three or more.
In this embodiment, in order to facilitate the processing of the electric device, the mobile terminal device, and the management device, priority is set for a plurality of mobile terminal devices. In addition, processing based on the priority order set for a plurality of portable terminal devices is mainly performed by the management device.

As in the first embodiment, the power consumption monitoring apparatus according to the present embodiment includes an electrical device, a mobile terminal device, a connection device, and a management device. In FIG. 20, the user [U111] is provided with the first electric device 110, the second electric device 120, and the connection device 310, and the user [U111] includes the first portable terminal device 210 and the second portable terminal. A case where two portable terminal devices of the device 220 are registered is shown.
In the present embodiment, the electric device (first electric device 110, second electric device 120), portable terminal device (first portable terminal device 210, second portable terminal device 220), and connection device 310 are the first one. As in the first embodiment, the user [U111] is configured to be capable of low-power data communication via WiFiLAN (wireless communication line M1a) using the connection device 310 as an access point in the user's [U111] house.
M1 (M2) is a WiFi LAN communication area built in the user [U222] ([U222]), N1 is a communication area of the communication carrier base station 410, and S is the Internet It is a line.

An example of the electric device (1) database stored in the electric device side storage unit 112 of the first electric device 110 is shown in FIG. 21, and the electric device stored in the electric device side storage unit 122 of the second electric device 120 is shown. An example of the device (2) database is shown in FIG. Since the electric device (1) database and the electric device (2) database have the same configuration, the electric device (1) database will be described below.
In the electric device (1) database shown in FIG. 21, the electric device identification information “A110” indicating the first electric device 110, the portable terminal device identification information indicating the portable terminal device (in FIG. The mobile terminal device identification information “X210” indicating the mobile terminal device 210, the mobile terminal device identification information “X220” indicating the second mobile terminal device 220), and the priority order of each mobile terminal device (in FIG. 21, the first mobile device) The first priority is set for the terminal device 210 and the second priority is set for the second mobile terminal device 220), and wireless communication indicating the wireless communication line M1a for communicating with each mobile terminal device The line identification information “R310”, the encryption key “m000” for connecting to the wireless communication line M1a, the first electric device 110 and each portable terminal device (first portable terminal device 210, second portable terminal device) ) Is connected / disconnected determination information indicating whether or not connected via the wireless communication line M1a, the power consumption index of the first electric device 110, each mobile terminal device (first mobile terminal device 210, first The power consumption index and transmission time transmitted to the second portable terminal device 220) and other information are stored.

An example of the mobile terminal device (1) database stored in the mobile terminal device-side storage unit 212 of the first mobile terminal device 210 is shown in FIG.
In the mobile terminal device (1) database shown in FIG. 23, the mobile terminal device identification information “X210” indicating the first mobile terminal device 210, the priority order of the first mobile terminal device 210 (in FIG. 22, First priority), electrical device identification information ("A110" and "A120" in FIG. 23), wireless communication line identification information indicating the wireless communication line M1a, and encryption key (in FIG. 22, "R310" and " m000 "), connection / disconnection determination information indicating a connection state with each electrical device, power consumption index and reception time received from each electrical device, management device identification information" D510 ", and each electrical transmitted to the management device 510 An apparatus power consumption index, transmission time, and other information are stored.
An example of the mobile terminal device (2) database stored in the mobile terminal device-side storage unit 222 of the second mobile terminal device 220 is shown in FIG. The mobile terminal device (2) database shown in FIG. 24 stores the same information as the mobile terminal device (1) database shown in FIG. Note that the mobile terminal device (2) database shown in FIG. 24 stores mobile terminal device identification information “X220” and the second priority.
The connection device database stored in the connection device storage unit 312 of the connection device 310 is the same as that in the first embodiment.

An example of a user information database stored in the management device side storage unit 512 of the management device 510 is shown in FIG.
In the user information database shown in FIG. 25, in correspondence with the user identification information indicating the user, the user's name, address, connection device identification information indicating the connection device provided at the user's home, and the user registered Mobile terminal device identification information indicating the mobile terminal device, characters of each mobile terminal device, priority of each mobile terminal device, presence / absence determination information for each mobile terminal device, absence contact information for each mobile terminal device, for each user The presence / absence determination information, the absence contact information for the user, the electrical device identification information, the power consumption index and reception time of each electrical device received from each portable terminal device, and other information are stored.
For example, in correspondence with the user identification information [U111], connection device identification information “S310” indicating the connection device 310 provided in the user's home, and mobile terminal device identification information “X210” indicating the first mobile terminal device 210. Mobile terminal device identification information “X220” indicating the second mobile terminal device 220, the character “father” set in the first mobile terminal device 210, and the character “mother” set in the second mobile terminal device 220 The first priority is set for the first mobile terminal device 210, the second priority is set for the second mobile terminal device 220, and the absence of the first mobile terminal device 210 is determined. An out-of-office contact to be contacted from time to time, an out-of-office contact to be contacted when the second mobile terminal device 220 is determined to be absent, and a mobile terminal device registered by the user are all determined to be absent For example, out-of-office contacts to contact when the whole family was absent) is stored.

A schematic operation of the power consumption monitoring apparatus according to the fifth embodiment will be described with reference to FIG. FIG. 26 shows the first mobile terminal device 210 (“mobile terminal (1)” in FIG. 26) set to the first priority by the user and the second mobile terminal set to the second priority. This is a case where two devices 220 ("portable terminal (2)" in FIG. 26) are registered.
Each electrical device transmits a connection confirmation signal addressed to each portable terminal device (a connection confirmation signal addressed to the first portable terminal device 210 and a connection confirmation signal addressed to the second portable terminal device 220) to the wireless communication line at an appropriate time. Transmit with M1a.
When each mobile terminal device (first mobile terminal device 210 and second mobile terminal device 220) receives a connection confirmation signal transmitted from one of the electric devices to the mobile terminal device, the wireless communication line M1a receives the connection confirmation signal. The connection response signal addressed to the electrical device that transmitted the received connection confirmation signal is transmitted by the wireless communication line M1a.
Each electric device determines connection / disconnection between its own electric device and each portable terminal device depending on whether or not a connection response signal is received from each portable terminal device. For example, by receiving a connection response signal from the first portable terminal device 210 (second portable terminal device 220) within the connection determination period, the self-electrical device and the first portable terminal device 210 (second It is determined (connection determination) that the portable terminal device 220) is connected via the wireless communication line M1a. In addition, since the connection response signal from the first mobile terminal device 210 (second mobile terminal device 220) has not been received for a set period or longer, the self-electrical device and the first mobile terminal device 210 (second mobile terminal device 210) It is determined (non-connection determination) that the portable terminal device 220) is not connected via the wireless communication line M1a.
Each mobile terminal device determines connection / disconnection between its own mobile terminal device and the electrical device depending on whether a connection confirmation signal is received from each electrical device. For example, the first mobile terminal device 210 (second mobile terminal device 220) receives the connection confirmation signal from any one of the electric devices, and thereby receives the first mobile terminal device 210 (second mobile terminal device). 220) and all electrical devices are determined to be connected (connection determination) via the wireless communication line M1a. In addition, the first mobile terminal device 210 (second mobile terminal device 220) and all the electric devices are not connected to all the electric devices by not receiving a connection confirmation signal from the electric devices for a set period or more. It is determined (non-connection determination) that the wireless communication line M1a is not connected.
Each electrical device transmits the first transmission information to all the mobile terminal devices connected to its own electrical device (determined to be connected) via the wireless communication line M1a at an appropriate time. For example, when the electronic device is connected to the first portable terminal device 210 (second portable terminal device 220) via the wireless communication line M1a, the first portable terminal device 210 (second portable terminal device) is connected. The first transmission information addressed to the terminal device 220) is transmitted.
Further, each mobile terminal device wirelessly communicates the second transmission information to the management device 510 when its mobile terminal device and the connection device are connected (connection is determined) at an appropriate time. Transmission is performed via the line M1a. For example, in the first mobile terminal device 210 (second mobile terminal device 220), the first mobile terminal device 210 (second mobile terminal device 220) and the connection device 310 are connected via the wireless communication line M1a. If so, the second transmission information addressed to the management apparatus 510 is transmitted.
The management device 510 determines whether each mobile terminal device exists in the user's home (present / absent) based on whether the second transmission information is received from each mobile terminal device. For example, by receiving the second transmission information from the first mobile terminal device 210 (second mobile terminal device 220), the first mobile terminal device 210 (second mobile terminal device 220) is at home. Is determined (at-home determination). Further, since the second transmission information from the first mobile terminal device 210 (second mobile terminal device 220) has not been received for the absence determination period or longer, the first mobile terminal device 210 (second mobile terminal) It is determined (absence determination) that the device 220) does not exist in the user's home (the user who carries the mobile terminal device is absent).
Then, when receiving the second transmission information from each mobile terminal device, the management device 510 receives the received second information based on the priority order of each mobile terminal device and the presence / absence determination result of other mobile terminal devices. It is determined whether or not the information included in the transmission information is stored in the management device side storage means 512 (user information database).

The operation of the first electric device 110 according to the fifth embodiment is to confirm the connection between the first electric device 110 and each mobile terminal device (the first mobile terminal device 210 and the second mobile terminal device 220). The first transmission information is transmitted and received to the mobile terminal device connected to the first electrical device 110 (connection determination is made), except for transmitting and receiving signals and connection response signals. This is the same as the first electric device 110 of the embodiment.
The operation of the second electric device 120 is the same as that of the first electric device 110.
The operation of the connection device 310 is the same as that of the connection device 310 of the first embodiment.

An example of the operation of the management apparatus 510 of the fifth embodiment will be described with reference to the flowchart shown in FIG. The operation of the flowchart shown in FIG. 27 is mainly executed by the management apparatus side processing unit 511.
In step F1, the second transmission information is not received for the absence determination period or longer in the portable terminal device determined to be at home (the absence determination period since the second transmission information from the portable terminal device was previously received). It is determined whether or not there is a mobile terminal device that has passed. As the absence determination period in step F1, for example, the absence determination period described in step C1 shown in FIG. 10 is used. When there is a mobile terminal device that has not received the second transmission information for the absence determination period or longer, the process proceeds to step F2, and when there is no mobile terminal device that has not received the second transmission information for the absence determination period or longer. Advances to step F5.
In step F2, it is determined that there is no portable terminal device in the user's home that has not received the second transmission information determined in step F1 for the absence determination period ("absence determination"). Then, the presence / absence determination information corresponding to the mobile terminal device identification information of the mobile terminal device in the management device side storage unit 512 (“(h) presence / absence determination information” in the user information database shown in FIG. 25). ) Is set to the absence state, and the process proceeds to Step F3.
In step F3, the management device side storage means 512 is made to correspond to the mobile terminal device identification information indicating the mobile terminal device determined to be absent in step F2, and the contact information at the time of absence (“" of the user information database shown in FIG. 25). It is determined whether (i) absentee contact address ") is registered (stored). If the absentee contact is registered, the process proceeds to step F4. If the absentee contact is not registered, the process proceeds to step F5.
In step F4, after contacting the registered absentee contact, the process proceeds to step F5.

In Step F5, it is determined whether or not the second transmission information from any of the mobile terminal devices has been received. If the second transmission information is received, the process proceeds to step F6, and if the second transmission information is not received, the process returns to step F1.
In step F6, it is determined whether or not the second transmission information received in step F5 has been transmitted from the mobile terminal device determined to be absent. For example, the presence / absence determination information (“(h) presence / absence determination information” shown in FIG. 25) corresponding to the mobile terminal device identification information indicating the mobile terminal device in the management device side storage unit 512 is absent. It is determined whether or not the status is set. If the mobile terminal device that has transmitted the received second transmission information is a mobile terminal device that has been determined to be absent, the process proceeds to step F7. If it is a terminal device), the process proceeds to step F8.
In step F7, the mobile terminal device that has transmitted the second transmission information received in step F5 is determined to be at home, and then the process proceeds to step F8. For example, the presence / absence determination information (“(h) presence / absence determination information” shown in FIG. 25) corresponding to the mobile terminal device identification information of the mobile terminal device in the management device side storage unit 512 is set to the home status. Set to.
In step F8, it is determined whether or not there is a mobile terminal device having a higher priority than the mobile terminal device that has transmitted the second transmission information received in step F5. For example, the management device side storage unit 512 is associated with the user identification information corresponding to the mobile terminal device identification information indicating the mobile terminal device, and the mobile terminal device identification indicating the mobile terminal device having a higher priority than the mobile terminal device It is determined whether or not information is stored. When there is no mobile terminal device with a high priority, the process proceeds to step F10, and when there is a mobile terminal device with a high priority, the process proceeds to step F9.
In step F9, it is determined whether or not the mobile terminal device having a high priority determined in step F8 has been determined to be at home. For example, presence / absence determination information (“(h) presence / absence determination information shown in FIG. 25” corresponding to the terminal device identification information indicating the mobile terminal device having the higher priority is stored in the management device-side storage unit 512. ) Is set at home. If the mobile terminal device with the higher priority is not determined to be at home (determined to be absent), the process proceeds to step F10, and if it is determined to be at home, the process returns to step F1.
In Step F10, the power consumption amount index of each electrical device included in the second transmission information received in Step F5 is stored in the management device side storage unit 512, and then the process returns to Step F1.

In the present embodiment, when the mobile terminal device no longer exists in the user's home (when it is determined that the user carrying the mobile terminal device is absent), the absence contact information registered in advance for the mobile terminal device Therefore, it is possible to easily and quickly recognize that the user carrying the mobile terminal device is no longer in the user's home.
In addition, in the management device side storage means 512 (user information database), an out-of-office contact (“(k) out-of-office contact” in the user information database shown in FIG. 25) is associated with the user identification information. It can also be registered (stored).
In this case, “the step of determining whether or not an out-of-office contact is stored in association with user identification information corresponding to the mobile terminal device identification information indicating the out-of-office mobile terminal device”, “out-of-office contact” Is registered, the step of determining whether or not all of the mobile terminal devices indicated by the mobile terminal device identification information stored in association with the user identification information have been determined to be absent ”,“ the user When all of the mobile terminal devices indicated by the mobile terminal device identification information stored in correspondence with the identification information have been determined to be absent, contact the absence contact information stored in association with the user identification information 27 is provided after step F4 of the flowchart shown in FIG. 27, or after step F2, and step F2 and To delete a step F3.
By having such a configuration, it is possible to easily and quickly recognize that all of the plurality of portable terminal devices registered by the user are no longer in the user's home (for example, the entire family is absent). it can.
In the fifth embodiment, as a method for determining connection / disconnection between each portable terminal device and each electric device, a connection confirmation signal is transmitted from each portable terminal device to each electric device to confirm connection. A method of transmitting a connection response signal from each electric device to each portable terminal device in response to reception of the signal can also be used.
The fifth embodiment can also be configured to perform low-power data communication via a wireless PAN (wireless communication line g1) between each portable terminal device and each electrical device.

In the present embodiment, the user can use a plurality of portable terminal devices. Thereby, for example, if someone in the family carrying the mobile terminal device is at home in the user's home, the power consumption of each electric device provided at the user's home can be monitored. In addition, since the priority order is set for a plurality of portable terminal devices, the processing of each device is simplified.
Further, it is possible to easily recognize the behavior (present / absent state) of each person carrying the mobile terminal device.

In the fifth embodiment, the priority order is set for a plurality of mobile terminal devices, and the management device mainly performs processing based on the priority order set for the mobile terminal device, but the priority order set for the mobile terminal device It is also possible to configure the electric device to perform processing based on the above.
The power consumption monitoring apparatus according to the sixth embodiment will be described below.
In the power consumption monitoring device of the sixth embodiment, each electrical device has the first transmission information with the highest priority among the mobile terminal devices connected to its own electrical device (determined to be connected). It is comprised so that it may transmit to portable terminal devices with high.
The power consumption monitoring device of the sixth embodiment includes the same components as the power consumption monitoring device of the fifth embodiment.

The schematic operation of the power consumption monitoring device of the sixth embodiment will be described with reference to FIG. Note that FIG. 28 shows a case where the user has registered two units, the first portable terminal device 210 set to the first priority order and the second portable terminal device 220 set to the second priority order. Is.
Each electrical device transmits a connection confirmation signal addressed to each portable terminal device (a connection confirmation signal addressed to the first portable terminal device 210 and a connection confirmation signal addressed to the second portable terminal device 220) to the wireless communication line at an appropriate time. Transmit with M1a.
When each mobile terminal device (first mobile terminal device 210. second mobile terminal device 220) receives a connection confirmation signal transmitted from one of the electrical devices to its own mobile terminal device, the received connection confirmation is received. A connection response signal addressed to the electrical device that transmitted the signal is transmitted through the wireless communication line M1a.
Each electric device determines connection / disconnection between its own electric device and each portable terminal device depending on whether or not a connection response signal is received from each portable terminal device. For example, by receiving a connection response signal from the first portable terminal device 210 (second portable terminal device 220) within the connection determination period, the self-electrical device and the first portable terminal device 210 (second It is determined (connection determination) that the portable terminal device 220) is connected via the wireless communication line M1a. In addition, since the connection response signal from the first mobile terminal device 210 (second mobile terminal device 220) has not been received for a set period or longer, the self-electrical device and the first mobile terminal device 210 (second mobile terminal device 210) It is determined (non-connection determination) that the portable terminal device 220) is not connected via the wireless communication line M1a.
Each mobile terminal device determines connection / disconnection between its own mobile terminal device and each electrical device depending on whether or not a connection confirmation signal is received from each electrical device. For example, the first mobile terminal device 210 (second mobile terminal device 220) receives the connection confirmation signal from any one of the electric devices, and thereby receives the first mobile terminal device 210 (second mobile terminal device). 220) and all electrical devices are determined to be connected (connection determination) via the wireless communication line M1a. In addition, the first mobile terminal device 210 (second mobile terminal device 220) and all the electric devices are not connected to all the electric devices by not receiving a connection confirmation signal from the electric devices for a set period or more. It is determined (non-connection determination) that the wireless communication line M1a is not connected.
Each electrical device, at an appropriate time, sends the first transmission information to the mobile terminal device having the highest priority among the mobile terminal devices connected to its own electrical device (determined for connection) Transmission is performed via the wireless communication line M1a. For example, when the electric device is connected to the first portable terminal device 210 and also connected to the second portable terminal device 220 having a lower priority than the first portable terminal device, 1 transmission information is transmitted to the 1st portable terminal device 210 with high priority.
When each mobile terminal device (first mobile terminal device 210, second mobile terminal device 220) receives the first transmission information from any of the electric devices, the consumption included in the first transmission information The power amount index is stored in association with the electric device identification information.
In addition, each mobile terminal device (first mobile terminal device 210, second mobile terminal device 220) is configured to display the power consumption index and the electrical device identification information of each electrical device and its own mobile terminal device at an appropriate time. Is transmitted to the management device 510 via the wireless communication line M1a.
When the management device receives the second transmission information from any of the mobile terminal devices, the management device stores information included in the received second transmission information in the management device-side storage unit 512 (user information database).

The operation of the first portable terminal device 210 of the sixth embodiment is the same as that of the first embodiment.
The operation of the second mobile terminal device 220 is the same as that of the first mobile terminal device 210.
The operation of the management device 510 is the same as that of the first embodiment, except that the second transmission information is received from each mobile terminal device (the first mobile terminal device 210 and the second mobile terminal device 220). It is.
The operation of the connection device 310 is the same as that of the first embodiment.

The operation of the first electric device 110 and the operation of the second electric device 120 will be described. Since the operation of the first electric device 110 and the operation of the second electric device 120 are the same, the operation of the first electric device 110 will be described below.
An example of the operation of the first electric device 110 will be described with reference to the flowchart shown in FIG. The operation of the flowchart shown in FIG. 29 is mainly executed by the electric equipment side processing unit 111.
In step G1, it is determined whether or not power is consumed by the first electrical device 110. When the power is consumed, the process proceeds to Step G2, and when the power is not consumed, the process proceeds to Step G3.
In step G2, the power consumption index of the first electrical device 110 is calculated and stored in the electrical device storage unit 112, and then the process proceeds to step G3.
In step G3, after determining the connection / disconnection between the first electric device 110 and all the mobile terminal devices (the first mobile terminal device 210 and the second mobile terminal device 220), the process proceeds to step G4. . The method described above can be used as a method for determining connection / disconnection between the first electric device 110 and each portable terminal device. Also, the time for executing the process for determining the connection / disconnection between the first electric device 110 and all the mobile terminal devices (the process of step G3) is not limited to the time shown in FIG. In addition, based on the connection / disconnection determination result between the first electrical device 110 and all the mobile terminal devices (the first mobile terminal device 210 and the second mobile terminal device 220), the electrical device-side storage unit The connection / disconnection determination information 112 corresponding to the mobile terminal device identification information (“X210”, “X220”) indicating each mobile terminal device is set to a connected state or a disconnected state.

In step G4, it is determined whether it is time to transmit the first transmission information to each mobile terminal device (power consumption index transmission time). When it is the power consumption index transmission time, the process proceeds to step G5, and when it is not the power consumption index transmission time, the process returns to step G1.
In step G5, the priority n is set to “1” indicating the first priority, and then the process proceeds to step G6.
In step G6, the mobile terminal having the n-th priority among the mobile terminal devices indicated by the mobile terminal device identification information stored in the electrical device-side storage unit 112 (electric device (1) database) of the electrical device 110 It is determined whether or not the connection / disconnection determination information corresponding to the device is set to the connected state (whether or not the first electric device 110 and the nth mobile terminal device with the priority order are connected). If the mobile terminal device with the nth priority is not determined to be connected, the process proceeds to step G7, and if it is determined to be connected, the process proceeds to step G9.
In step G7, it is determined whether or not the priority order n is greater than the number of portable terminal device identification information stored in the electric device-side storage unit 112 of the electric device 110 corresponding to the user identification information. When the priority n is less than or equal to the number of mobile terminal device identification information (including the case where they are equal), the process proceeds to step G8, and when it becomes larger, the process returns to step G1.
In step G8, “1” is added to priority order n (set to [n + 1]), and then the process returns to step G6.
In step G9, the first transmission information is prioritized among the portable terminal devices indicated by the portable terminal device identification information stored in the electric device-side storage unit 112 of the electric device 110 in association with the user identification information. Is transmitted to the mobile terminal device addressed to the nth, and the process returns to step G1.

In the present embodiment, the user can use a plurality of portable terminal devices. Thereby, for example, if someone in the family carrying the mobile terminal device is at home in the user's home, the power consumption of each electric device provided at the user's home can be monitored. In addition, since priority is set for a plurality of portable terminal devices used by the user, the processing of each device is simplified.
Further, it is possible to easily recognize the behavior (present / absent state) of each person carrying the mobile terminal device.

In the fifth embodiment and the sixth embodiment, a plurality of portable terminal device identification information is stored in correspondence with the user identification information, and a plurality of portable terminal devices indicated by the plurality of portable terminal device identification information are stored. Although the priority order is set, it may be configured not to set the priority order for a plurality of mobile different terminal devices.
The power consumption monitoring measure of the seventh embodiment will be described below.
The power consumption monitoring apparatus of the seventh embodiment includes the same components as those of the power consumption monitoring apparatus of the fifth embodiment shown in FIG.
In the seventh embodiment, the electric device (1) database and electric device (2) database shown in FIGS. 21 and 22, the portable terminal device (1) database and portable shown in FIGS. 23 and 24 In the terminal device (2) database, the user information database shown in FIG. 25, the priority order for each portable terminal device is not stored.
As with the sixth embodiment, the first electric device 110 and the second electric device 120 are connected to their own electric device (first connection information is determined) as in the sixth embodiment. Send to
The first portable terminal device 210 and the second portable terminal device 220 manage the second transmission information when the own portable terminal device and the connection device 310 are connected (connection is determined). Send to 510.
When the management device 510 receives the second transmission information from any of the mobile terminal devices (the first mobile terminal device 210 and the second mobile terminal device 220), the management device 510 is included in the received second transmission information. Is stored in the management device side storage unit 512.
Note that the cumulative value is used as the power consumption index included in the second transmission information, and the time when the second transmission information is received by the management device 510 or the time when the second transmission information is transmitted from the portable terminal device. By storing, it is possible to easily determine the amount of power consumption within a period from any first time to any second time.

The present invention can also be configured to provide each user with information about each user stored in the management device-side storage unit 522 (user information database) of the management device 510.
For example, using a terminal device provided with communication means and display means, such as a portable terminal device or a personal computer carried by each user, connection devices 310 and 350 provided at the user's home, a base station 410 of a communication carrier, the Internet It can be configured to connect to the management device 510 via the line S or the like, and receive desired information from the management device 510 and display it on the display means.
FIG. 30 shows an example of a “presence / absence screen” displayed on the display unit 213 of the mobile terminal device 210 carried by the user. The “present / absent screen” displayed on the display means of the terminal device includes, for example, presence / absence information (portable information) corresponding to the portable terminal device identification information stored in the user information database in association with the user identification information. Presence / absence information of the person carrying the portable terminal device indicated by the terminal device identification information) and the character or illustration of the person carrying the portable terminal device. If only one mobile terminal device identification information is stored in the user information database in association with the user identification information, only the presence / absence information may be displayed. In the “present / absent screen” shown in FIG. 30, the presence / absence information of the family is displayed. That is, “Father” is at home, “Mother” is at home, “Child 1” is absent, and “Child 2” is absent. Another example of the “present / absent screen” is shown in FIG. In the “presence / absence screen” shown in FIG. 31, the presence / absence information of grandparents who are living together is displayed. That is, it is displayed that “Grandfather” is at home and “Grandmother” is at home.
In addition, although the presence / absence information corresponding to the mobile terminal device identification information is displayed on the “presence / absence screen” shown in FIGS. 30 and 31, the presence / absence information corresponding to the user identification information is displayed. May be. That is, if all the presence / absence information corresponding to the mobile terminal device identification information stored in the user information database corresponding to the user identification information indicates absence, at least the absence is displayed, When one indicates home, the home is displayed. Of course, the presence / absence information corresponding to the mobile terminal device identification information and the presence / absence information corresponding to the user identification information can be displayed together.
As a method of displaying the “present / absent screen” on the display unit of the terminal device, for example, a presence / absence screen information request signal including user identification information is transmitted from the terminal device to the management device 510, and the terminal is transmitted from the management device 510 to the terminal. A method of transmitting presence / absence screen information including presence / absence information stored in the user information database in correspondence with the received user identification information to the apparatus is used.

In addition, a “power consumption screen” (also referred to as “electric usage screen”) including the power consumption of each user can be displayed on the display means of the terminal device. For example, in the “present / absent screen” shown in FIG. 30 or 31, the power consumption amount is indicated from the terminal device to the management device 510 by indicating (touching) the portion where “electricity usage” is displayed. A screen information (electric usage screen information) request signal is transmitted. Of course, it is also possible to use a method of transmitting a power consumption screen information (electricity usage screen information) request signal in a state where the menu screen is displayed on the display means of the terminal device.
In the “electricity usage screen”, for example, the power consumption amount of the electric device calculated based on the power consumption index corresponding to the electric device identification information stored in the user information database in association with the user identification information ( Electricity consumption) is displayed. In addition, it can also comprise so that an electric equipment can be designated.
In the “Electricity Usage Screen”, the total power consumption of the user (total electricity usage), which is the sum of the power consumption of the electrical equipment calculated based on the power consumption corresponding to the electrical equipment identification information, is displayed. It can also be displayed. As the total power consumption, it is possible to display the total power consumption in a predetermined time zone such as the current day, the previous day, the past week, or the past month. Of course, the time zone can be specified.

Here, there is a case where the power consumption index of all the electric devices provided in the user's home cannot be transmitted to the management apparatus 510. In this case, the total power consumption amount (total power consumption amount of each electric device calculated based on the power consumption index corresponding to the electric device identification information stored in the user information database in association with the user identification information ( “Rough total power consumption”) does not match the total power consumption (“actual total power consumption”) obtained by summing the power consumption actually consumed by each electrical device installed in the user's home.
When managing the rough estimate of the total power consumption for each user, the approximate total power consumption can be used, but the actual total power consumption may be required. For example, there is a case where it is desired to determine the ratio of the power consumption amount of a specific electric device to the actual total power consumption amount.
In recent years, each user's home measures the total power consumption (total electricity consumption), which is the total amount of power consumed by each electrical device installed in the user's home. A smart meter is provided for transmission to a management device or the like.
Therefore, the user information database may be configured to store the actual total power consumption measured by the smart meter installed in each user's house in association with the user identification information. In other words, the total power consumption of each user (total electricity usage) is an approximate total sum of the power consumption of each electrical device calculated based on the power consumption index stored in association with the electrical device identification information. The power consumption can be used, or the actual total power consumption measured with a smart meter can be used. Which is used is selected according to the usage form of the total power consumption of each user.

Further, according to the present invention, the communication line and the mobile terminal device of each user (the mobile device that is determined to be at home) are transmitted from the management device 510 based on the information of each user stored in the user information database in association with the user identification information. It can also be configured to transmit a control signal to an electric device provided in each user's home via the terminal device.
For example, in order to level the power consumption, the power company sets a high power consumption in a time zone where the power consumption is high (for example, a peak time zone), and a time zone where the power consumption is low (for example, at night) Or the lunch break time zone), the management device 510 (management device-side processing means) uses the mobile terminal device during a time zone when the electricity rate is high or when the electricity rate is low. To send a saving control signal to the electrical equipment. When receiving the saving control signal, the electric device (electric device side processing means) operates in the saving mode. For example, an air conditioner or a refrigerator uses, as a method of operating in the saving mode, a method of operating in the saving mode, a method of changing the set temperature to a predetermined value, or a method of changing the set temperature by the set value. As a method of setting the set temperature to a predetermined value or a method of changing the set temperature by the set value, for example, in summer, a method of setting the set temperature in summer or a method of increasing the set temperature by the set value is used. In winter, a method of setting the set temperature in winter or a method of lowering the set temperature by a set value is used.
Alternatively, the management device 510 may change the past power consumption of each user through the mobile terminal device at an appropriate time based on the time transition of past presence / absence information in the user's home, the weather of the day, etc. Send an energy-saving control signal to the electrical equipment. When the electrical device receives the energy saving control signal, it operates in the energy saving mode.

  In addition, the present invention provides a terminal device (for example, a mobile terminal device) of each user via a communication line from the management device 510 based on the information of each user stored in the user information database in association with the user identification information. , A personal computer) can be configured to transmit cost-saving advice or energy-saving advice.

  The present invention also relates to an electric company that generates or supplies electricity (electric power), a telecommunications company that provides communication services, an electric equipment manufacturer that manufactures electric equipment such as home appliances, an electric vehicle (EV), and a plug-in. User information (customer information) monitoring device or user information (monitoring and / or managing the power consumption of a user (customer) in an automobile manufacturing company or the like that manufactures a vehicle powered by electricity such as a hybrid vehicle (PHV) It can also be configured as a customer information) management device or a user information (customer information) management system.

The present invention is not limited to the configuration described in the embodiment, and various changes, additions, and deletions are possible.
The information stored in the electric device database of the electric device side storage means, the portable terminal device database of the portable terminal device side storage means, the connection device database of the connection device side storage means, and the user information database of the management device side storage means It can be appropriately selected according to the operation.
The portable terminal device (mobile terminal device side wireless communication means), the electric device (electric equipment side wireless communication device), and the connection device (connection device side wireless communication device) are configured to enable low power data communication in the user's home. What is necessary is just to select suitably the low power data communication system between an electric equipment and a portable terminal device, and the low power data communication method between a portable terminal device and a connection apparatus.
Each structure demonstrated by embodiment can also be used independently, and can also be used combining the some structure selected suitably.

110, 120 Electrical equipment 111, 121 Electrical equipment processing means 112, 122 Electrical equipment storage 114, 124 Electrical equipment measurement means 115, 125 Electrical equipment wireless communication means 210, 220, 250 Portable terminal devices 211, 221 Terminal device side processing means 212, 222 Portable terminal device side storage means 213, 223 Portable terminal device side display means 215, 225 Portable terminal device side wireless communication means 310, 350 Connection device 311 Connection device side processing means 312 Connection device side storage means 315 connection device side wireless communication means 316 connection device side communication means 410 base station 510 management device 511 management device side processing means 512 management device side storage means 516 management device side communication means M1, M2 communication area M1a, M2a of connection device Line (first wireless communication line)
g1 Wireless communication line (second wireless communication line)
N1 Base station communication area N1a Base station radio communication line

Claims (9)

A power consumption monitoring device for monitoring power consumption consumed by electrical equipment,
An electrical device provided in a user's home, a portable terminal device that can be carried by the user, a management device that collects and manages a power consumption index indicating the power consumption consumed by the electrical device, and a connection device Prepared,
The electrical equipment includes electrical equipment side processing means, electrical equipment side storage means, electrical equipment side measurement means, and electrical equipment side wireless communication means,
The electrical device side measuring means measures the amount of electricity for calculating the power consumption index of the electrical device,
The electric device side storage means stores a power consumption index of its own electric device, portable terminal device identification information indicating a portable terminal device, and electric device identification information indicating its own electric device,
The mobile terminal device has mobile terminal device side processing means, mobile terminal device side storage means, and mobile terminal device side wireless communication means,
In the portable terminal device-side storage means, electric device identification information indicating an electric device, a power consumption index of the electric device, management device identification information indicating a management device, and a portable terminal device indicating its own portable terminal device Identification information is stored,
The management device includes a management device side processing unit, a management device side storage unit, and a management device side communication unit,
The management device-side storage means stores portable terminal device identification information, electric device identification information, and an electric power consumption index of the electric device indicated by the electric device identification information in association with user identification information indicating a user. And
The connection device includes a connection device side processing unit, a connection device side wireless communication unit, and a connection device side communication unit,
The electrical device side wireless communication means, the mobile terminal device side wireless communication means and the connection device side wireless communication means are configured to enable low power data communication via a wireless communication line in a user's house,
The connection device side communication means and the management device side communication means are configured to enable data communication through a communication line different from the wireless communication line,
The electric equipment side processing means is
Storing the power consumption index calculated based on the amount of electricity measured by the electrical equipment side measuring means in the electrical equipment side storage means,
When it is determined that low power data communication is possible between the electric device side wireless communication means and the portable terminal device side wireless communication means, the amount of power consumption stored in the electric device side storage means The first transmission information including the index and the electric device identification information of the own electric device is transmitted to the portable terminal device indicated by the portable terminal device identification information stored in the electric device side storage means, and the electric device side wireless communication Configured to transmit from means,
The portable terminal device side processing means includes:
When the first transmission information addressed to its own mobile terminal device is received by the mobile terminal device-side wireless communication means, the power consumption index included in the received first transmission information is displayed as the received first Store in the portable terminal device side storage means corresponding to the electrical equipment identification information included in the transmission information,
When it is determined that low power data communication is possible between the mobile terminal device-side wireless communication means and the connection device-side wireless communication means, each of the electricity stored in the mobile terminal device-side storage means The second transmission information including the power consumption index of the device, the electric device identification information, and the portable terminal device identification information of its own portable terminal device is the management device identification information stored in the portable terminal device storage means. It is configured to transmit from the mobile terminal device side wireless communication means to the management device shown,
The connection device side processing means includes:
When the connection device side wireless communication means receives the second transmission information addressed to the management device, the received second transmission information is transmitted from the connection device side communication means to the management device,
The management device side processing means includes:
When the second transmission information addressed to its own management device is received by the management device-side communication means, the power consumption index of each electrical device included in the received second transmission information is received in the received second Stored in the management device-side storage means in association with the user identification information corresponding to the mobile terminal device identification information included in the transmission information and the electric device identification information included in the received second transmission information. It is comprised so that it may carry out. Power consumption monitoring apparatus characterized by the above-mentioned. The power consumption monitoring device according to claim 1,
The electric device side wireless communication means, the portable terminal device side wireless communication means, and the connection device side wireless communication means are located between the electric device side wireless communication means and the connection device side wireless communication means in the user's home and the Between the connection device side wireless communication means and the mobile terminal device side wireless communication means, it is configured to enable low power data communication via a wireless communication line,
The electrical equipment side processing means is configured to transmit the wireless communication between the electrical equipment side wireless communication means and the connection device side wireless communication means and between the connection device side wireless communication means and the portable terminal device side wireless communication means. The first transmission information addressed to the mobile terminal device is transmitted from the electric device side wireless communication means via the wireless communication line when it is determined that low power data communication is possible via the communication line. And
The connection device side processing means includes:
When the first transmission information addressed to the mobile terminal device is received by the connection device side wireless communication means via the wireless communication line, the received first transmission information is transmitted to the mobile terminal device and the connection device side wireless Transmitted from the communication means through the wireless communication line,
When the connection device side wireless communication means receives the second transmission information addressed to the management device via the wireless communication line, the received second transmission information is addressed to the management device from the connection device side communication means. Configured to transmit over the communication line;
The mobile terminal device side processing means determines that low power data communication via the wireless communication line is possible between the mobile terminal device side wireless communication means and the connection device side wireless communication means. In this case, the power consumption monitoring device is configured to transmit the second transmission information addressed to the management device from the wireless communication unit on the mobile terminal device side through the wireless communication line. The power consumption monitoring device according to claim 1,
The mobile terminal device side wireless communication means and the connection device side wireless communication means are configured to enable low power data communication through a first wireless communication line in a user's home,
The electrical device side wireless communication means and the mobile terminal device side wireless communication means are configured to enable low power data communication directly via a second wireless communication line in a user's house,
The electric equipment side processing means determines that low power data communication is possible between the electric equipment side wireless communication means and the portable terminal device side wireless communication means via the second wireless communication line. In this case, the first transmission information is addressed to the portable terminal device indicated by the portable terminal device identification information stored in the electric device-side storage device, from the electric device-side wireless communication device to the second wireless communication line. Configured to send by
The portable terminal device side processing means includes:
When the first transmission information addressed to its own mobile terminal device is received by the mobile terminal device-side wireless communication means via the second wireless communication line, the power consumption of the electrical device included in the first transmission information A quantity index is stored in the portable terminal device-side storage unit in correspondence with the electric device identification information included in the first transmission information,
When it is determined that low power data communication is possible between the portable terminal device side wireless communication unit and the connection device side wireless communication unit via the first wireless communication line, the second transmission Information is transmitted from the portable terminal device-side wireless communication means to the management device indicated by the management device identification information stored in the portable terminal device-side storage means via the first wireless communication line. A power consumption monitoring device characterized by comprising: The power consumption monitoring device according to any one of claims 1 to 3,
The electrical device can be set to a home mode that is an operation mode when the user is at home or an unattended mode that is an operation mode when the user is absent,
The electric device side processing means is capable of low power data communication between the electric device side wireless communication means and the portable terminal device side wireless communication means in a state where the electric device is set to a home mode. When the determination is made, the electric device is set to the absent mode, and the electric device side wireless communication means and the portable terminal device side wireless communication means are in a state where the electric device is set to the absent mode. A power consumption monitoring device configured to set the electric device in a home mode when it is determined that low power data communication is possible between the devices. It is a power consumption monitoring device according to any one of claims 1 to 4,
A plurality of portable terminal device identification information is stored in the electrical device-side storage means of at least one electrical device,
The electric device side processing means of the at least one electric device has a plurality of portable terminal devices indicated by the plurality of portable terminal device identification information stored in the electric device side storage means in the first transmission information. Among them, it is configured to transmit to all portable terminal devices that are determined to be capable of low power data communication between the electric device side wireless communication means and the portable terminal device side wireless communication means,
The management device-side storage means stores the plurality of portable terminal device identification information in association with user identification information corresponding to electric device identification information indicating the at least one electric device. Electricity monitoring device. It is a power consumption monitoring device according to any one of claims 1 to 4,
A plurality of portable terminal device identification information is stored in the electrical device-side storage means of at least one electrical device,
The electric device side processing means of the at least one electric device has a plurality of portable terminal devices indicated by the plurality of portable terminal device identification information stored in the electric device side storage means in the first transmission information. Among them, it is configured to transmit to all portable terminal devices that are determined to be capable of low power data communication between the electric device side wireless communication means and the portable terminal device side wireless communication means,
In the management device side storage means, the plurality of portable terminal device identification information and the plurality of portable terminal device identification information in correspondence with user identification information corresponding to electric device identification information indicating the at least one electric device. The priority order of a plurality of portable terminal devices indicated by is stored,
When the mobile terminal device identification information included in the received second transmission information matches any of the plurality of mobile terminal device identification information, the management device side processing means receives the received second transmission The condition that there is no mobile terminal device with a higher priority than the mobile terminal device indicated by the mobile terminal device identification information included in the information, or there is a mobile terminal device with a higher priority, but the priority is higher If the condition that the second transmission information is not received for the absence determination period or more from the mobile terminal device is satisfied, the power consumption index of the electric device included in the received second transmission information is Corresponds to the user identification information corresponding to the mobile terminal device identification information included in the received second transmission information and the electric equipment identification information included in the received second transmission information Allowed power consumption, characterized in that it is configured to store the management device side storage means monitoring device. It is a power consumption monitoring device according to any one of claims 1 to 4,
In the electrical device-side storage means of at least one electrical device, a plurality of mobile terminal device identification information and a priority order of the plurality of mobile terminal devices indicated by the plurality of mobile terminal device identification information are stored,
The electric device side processing means of the at least one electric device has a plurality of portable terminal devices indicated by the plurality of portable terminal device identification information stored in the electric device side storage means in the first transmission information. Among the mobile terminal devices that are determined to be capable of low-power data communication between the electrical device side wireless communication means and the mobile terminal device side, addressed to the mobile terminal device with the highest priority Configured to send,
The management device-side storage means stores the plurality of portable terminal device identification information in association with user identification information corresponding to electric device identification information indicating the at least one electric device. Power consumption monitoring device. The power consumption monitoring device according to any one of claims 1 to 7,
The management device-side storage means stores contact information corresponding to at least one of the user identification information,
The management device side processing means receives the second transmission information from all the mobile terminal devices indicated by the mobile terminal device identification information corresponding to the user identification information whose contact information is stored in the management device side storage means. When the absence determination period has not been received, the management device side storage means is configured to contact the contact indicated by the contact information stored in association with the user identification information. A power consumption monitoring device characterized by the above. The power consumption monitoring device according to any one of claims 1 to 8,
The management device-side storage means stores contact information corresponding to the mobile terminal device identification information,
The management device side processing means has not received the second transmission information from the portable terminal device indicated by the portable terminal device identification information whose contact information is stored in the management device side storage means for the absence determination period or longer. In this case, it is configured to contact a contact indicated by the contact information stored in the management device side storage unit in association with the mobile terminal device identification information. Quantity monitoring device.

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