JP3176095U - Electric power information service equipment - Google Patents

Abstract

A power information service device that enables high-speed communication of power data such as the amount of power generated by a solar power generation panel, the amount of power used, and the remaining amount of a storage battery that stores the generated power in an environment where wireless LAN connection is possible. I will provide a.
A power data management device for managing power data such as current power generation amount, power usage amount, and remaining battery capacity by solar power generation, and power data managed by the power data management device to the Internet. A wireless LAN compatible router 5 to be connected, and a configuration capable of confirming the power data managed by the power data management device 1 from the wireless LAN compatible computer 7 or multi-function mobile terminal 8 connected to the Internet; To do.
[Selection] Figure 1

Description

  The present invention collects power data such as the amount of power generated by a solar power generation panel, the amount of power used, and the remaining amount of storage battery (remaining battery amount) for storing the generated power. The present invention relates to a power information service device that can be confirmed by a multifunctional mobile terminal such as a personal computer or a smartphone connected to the Internet through a wireless LAN.

  Nowadays, solar power generation systems that are safe and naturally friendly are widely used to meet the power demands of ordinary households and companies (see, for example, Patent Document 1). In this solar power generation system, the amount of power used by electrical appliances and power facilities can be confirmed by monitoring a power meter provided in a home or building.

  On the other hand, this solar power generation system has a storage battery, and when the amount of power generated by sunlight is larger than the power consumption of the load, the surplus power is charged in the storage battery. Conversely, when the power generation amount is smaller than the power consumption amount of the load, the power discharged from the storage battery is AC converted and supplied to the load device in order to compensate for the insufficient power.

  In addition, when the amount of power generated by the photovoltaic power generation panel is less than the amount of power consumed by the load, and the remaining amount of storage battery to make up for this insufficient power is insufficient, power is supplied from the commercial power source to the load, The storage battery is charged with the electric power converted into direct current through the inverter. Therefore, in order to optimize the operation and power management of various photovoltaic power generation systems including such power supply and conversion control, the power generation amount of the solar power generation panel, the amount of power used and the generated power are stored. It is necessary to monitor power data such as the remaining battery capacity.

JP 2011-35136 A

  However, in such a conventional solar power generation system, power data such as the amount of power generated by the solar panel, the amount of power used, and the remaining amount of storage battery can be easily obtained at the place where these power generation amount and power value measuring instruments are installed. Although it can be monitored centrally, it is generally difficult to monitor at a remote location away from the installation location of the measuring instrument. Further, although a method has been proposed in which the measurement value of the power generation amount and the power value measured by the measuring instrument can be monitored at a remote location via the Internet, there is a disadvantage that the communication speed of the monitoring data is slow.

  In addition, based on power data such as the amount of power generated by the photovoltaic power generation panel received through the Internet, the amount of power used, and the remaining amount of storage battery, specific measures for energy saving and power saving are instructed to the home or premises at high speed from a remote location There was an inconvenience that it was not possible.

  The present invention has been made in view of the above-described circumstances, and the purpose thereof is an amount of power generated by a photovoltaic power generation panel, an amount of power used, and a remaining amount of storage battery storing generated power in an environment where wireless LAN connection is possible. It is an object of the present invention to provide a power information service device that enables high-speed power data communication between a power data management device and a personal computer, a multifunctional portable terminal, or the like via the Internet.

  In order to achieve the above-mentioned object, the power information service device according to the present invention manages the power data such as the current power generation amount, the power consumption amount, and the remaining amount of storage battery by solar power generation used in the home or premises. A data management device and a wireless LAN compatible router for connecting the power data managed by the power data management device to the Internet, and the wireless LAN compatible computer connected to the Internet or a smartphone or tablet computer. The power data managed by the power data management device can be confirmed from a functional portable terminal (smartphone).

  With this configuration, data on photovoltaic power generation, usage power, and storage battery remaining power obtained from solar power generation power meters, power consumption power meters, storage battery fuel gauges, etc. connected to a home or campus home LAN The data is transmitted to a personal computer or multi-function mobile terminal connected to the Internet through a router compatible with a wireless LAN. In addition, these personal computers and multi-function mobile terminals can be connected to the power data management apparatus via a wireless LAN through the Internet.

  For this reason, it is possible to monitor the photovoltaic power generated by the power meter or voltmeter, the power used, and the remaining amount of storage battery by accessing from these personal computers and multifunctional portable terminals. In response to the power consumed from the terminal at a specific time and time zone, it is instructed to switch the power supply from the commercial power source or the photovoltaic power generation panel to the load, or to switch the charge / discharge of the storage battery according to the remaining battery level. In a situation where a wireless LAN environment based on FI is prepared, power management for power demand can be monitored and executed at high speed.

  The power information service device according to the present invention is a power information management device that collects power data such as a current power generation amount, a power consumption amount, and a storage battery remaining amount by solar power generation used in a home or premises. Data collection means, data processing means for processing the power data collected by the power data collection means by a predetermined data processing program and storing the data in a power information database, and personal information of a user who wants to receive the power data notification service And a service application means having a service processing program for executing the power data providing service through access accompanied by confirmation of a user ID and password.

  With this configuration, the data processing device digitally processes the power data such as the current power generation amount, the used power amount, and the remaining battery level collected by the solar power generation collected by the power data collecting unit, and stores the data in the power information database. According to the service application program for transmitting / receiving the power information, the user is registered with the customer and has a specific ID and password to receive the power to the personal computer or multifunction mobile terminal connected to the Internet via a wireless LAN compatible router. Information services can be provided at high speed. In other words, the power data management means is the current power generation amount of the photovoltaic power generation panel, which is the power data in the home for the multifunctional portable terminal such as the personal computer, the smart phone, the tablet type computer, etc. Notify the power data.

  In this case, the power data management device also provides the current power generation amount and load of the photovoltaic power generation panel to a multifunctional portable terminal such as a wireless LAN-compatible personal computer, smartphone or tablet computer installed in the home. Notify power data such as the amount of power used and the remaining battery capacity.

  According to the present invention, in an environment where wireless LAN connection is possible, power data such as the amount of power generated by the photovoltaic power generation panel, the amount of power used, and the remaining amount of storage battery storing the generated power can be obtained from a remote personal computer, multifunctional portable terminal, etc. Can be notified at high speed.

  The present invention has been briefly described above. The best mode for carrying out the invention described below will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram illustrating a power information service apparatus according to an embodiment of the present invention. It is a block diagram which shows the specific example of the electric power data management apparatus in FIG.

  Hereinafter, a power information service apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

  The power information service device according to the present embodiment illustrated in FIG. 1 includes a power data management device 1 that manages power data such as the current power generation amount, power usage amount, and storage battery remaining amount by a solar power generation panel, for example. This power data management device 1 measures a remaining power of a wattmeter that measures photovoltaic power generated by the photovoltaic power generation panel, a wattmeter that measures the amount of power used by the load, and a storage battery that charges the photovoltaic power. The power data is collected through the LAN cables 3a, 3b, 3c,... 3n forming the home LAN from the remaining fuel gauge and the like, processed, and stored in the power information database 13 described later.

  In addition, these power data are transmitted through a wireless LAN 4 that can be connected to the Internet and a router 5 that supports wireless LAN. The wireless LAN compatible (WI-FI compatible) personal computer 7 connected to the Internet 6 and a multifunctional device such as a smartphone or a tablet computer. It is transmitted to the portable terminal 8. That is, when a wireless LAN environment by WI-FI is prepared, the power information service apparatus uses the current solar power generation panel that is the power data of the home 2 for these personal computers 7 and multifunctional mobile terminals 8. Enables high-speed notification of power data such as the amount of power generation, the amount of power used by the load, and the remaining battery capacity

  In this case, the current power generation amount of the photovoltaic power generation panel is also applied to the wireless LAN compatible terminal such as the multifunctional portable terminal 10 such as the wireless LAN compatible personal computer 9, the smartphone, and the tablet computer installed in the home 2. Power data such as the amount of power used by the load and the remaining amount of storage battery is notified.

  FIG. 2 shows a specific example of the power data management apparatus 1 shown in FIG. The power data management apparatus 1 includes a power data collecting unit 11, a data processing unit 12, a power information database 13, a service application unit 14, a customer (notification destination) database 15, and a web server (homepage). 16. Among these, the power data collecting unit 11 includes a CPU, a program memory, and the like, and various types of power (such as the current power generation amount of the photovoltaic power generation panel, the power consumption amount of the load, and the remaining amount of storage battery) stored in the program memory. Each power amount is read from each wattmeter or the like at a predetermined time interval (collection time interval) in accordance with the power amount collection program, and set to the power type in the collected data table.

  The data processing unit 12 includes a CPU, a program memory, and the like, and is collected by the collected power data of the user (customer) registered as a user, that is, the power data collection unit 11 in accordance with a data processing program stored in the program memory. Then, the power data such as the generated power of the solar power generation panel, the power used by the load, and the remaining amount of the storage battery are processed, and the power data is stored in the power information database 13.

  The service application means 14 includes a CPU, a program memory, etc., operates in accordance with a service application program for transmitting power information, and registers personal information of a user who wants to receive the power information service in the customer (user) database 15. A user service program for providing a power information providing service by opening a homepage of the power data management apparatus 1 by the web server 16 and accessing the user ID and password through the homepage. Prepared.

  In the power information service device having such a configuration, when the user accesses the home page of the web server 16 corresponding to the user information registered in the customer database 15 from the personal computer 7 or the multi-function mobile terminal 8, the registration of the power information service is accepted. The registration acceptance image is provided to the user's personal computer 7 and the multi-function mobile terminal 8. Then, personal data input by the user is acquired according to the registration acceptance screen.

  The personal data is registered with a user ID added thereto, and each power data corresponding to the registered user ID (data generated by the photovoltaic power generation panel, power used by the load, remaining battery power, etc.) is stored in the personal data. The data is collected by the data collection means 11 and stored in the collection table in association with the reception time and the classification code of the power data. Further, the power data collected in this way is sent to the data processing means 12.

  The data processing means 12 stores the collected data in the power information database 13 associated with the user information that is the collection destination. The service application means 14 creates a power data display screen according to the user service process, and accesses the homepage on the Internet 6 via the web server 16 and the wireless LAN compatible router 5, and the personal computer 7 and the multi-function mobile terminal 8. Send to and enable display. As a result, the user can easily and quickly confirm each power data on the screen of the personal computer 7 or the multifunctional portable terminal 8.

  As described above, in the present embodiment, the power data management device 1 that manages power data such as the current power generation amount, the power consumption amount, and the remaining amount of storage battery that is used in the home 2 or on the premises, and the power data management A wireless LAN compatible router 5 for connecting the power data managed by the device 1 to the Internet 6, and the power data management device 1 from the wireless LAN compatible computer 7 or the multifunctional portable terminal 8 connected to the Internet. The managed power data can be confirmed.

  With this configuration, it can be obtained from a photovoltaic power meter, a power meter, a storage battery fuel meter, or the like connected to the home 1 or the home LAN on the premises by access from the personal computer 7 or the multifunctional portable terminal 8. Photovoltaic power, power usage, and storage battery capacity data are transmitted to the personal computer 7 and the multi-function mobile terminal 8 connected to the Internet 6 through the wireless LAN compatible router 5. For this reason, it is possible to monitor the photovoltaic power generated by the power meter and the like, the power used, and the remaining amount of the storage battery with the personal computer 7 or the multi-function mobile terminal 8, and specify from the personal computer 7 or the multi-function mobile terminal 8 according to the monitoring result. Enables switching of power supply from commercial power supply or photovoltaic power generation panel to load corresponding to power consumed in time and time, and switching of charge / discharge of storage battery according to remaining battery capacity (storage battery capacity) Power management for demand can be remotely monitored and executed at high speed.

  The present invention has the effect of enabling high-speed communication of the power generation amount of the photovoltaic power generation panel, the amount of power used, and the remaining power of the storage battery storing the generated power in an environment where wireless LAN connection is possible, Collect power data such as the amount of power generated by the photovoltaic power generation panel, the amount of power used, and the remaining amount of the storage battery that stores the generated power, and check this collected data on a personal computer or multifunction mobile terminal connected to the Internet via a wireless LAN. It is useful for a power information service device that can be used.

DESCRIPTION OF SYMBOLS 1 Electric power data management apparatus 3a-3n LAN cable 4 LAN cable (wireless LAN correspondence)
5 router (wireless LAN compatible)
6 Internet 7, 9 PC 8, 10 Multi-function mobile terminal (smartphone, tablet computer)
DESCRIPTION OF SYMBOLS 11 Electric power data collection means 12 Data processing means 13 Electric power information database 14 Service application means 15 Customer (user) database 16 Web server

Claims (2)

A power data management device that manages power data such as the current power generation amount, the amount of power used and the remaining amount of storage battery by solar power generation used in the house or on the premises;
A wireless LAN-compatible router that connects power data managed by the power data management device to the Internet, and
A power information service device using solar power generation, wherein the power data managed by the power data management device can be confirmed from a wireless LAN compatible computer connected to the Internet or a multi-function portable terminal. The power data management device is
A power data collection means for collecting power data such as the current power generation amount, the amount of power used and the remaining amount of storage battery by solar power generation used in the house or on the premises;
Data processing means for processing the power data collected by the power data collecting means by a predetermined data processing program and storing it in the power information database;
A registration processing program for registering personal information of a user who intends to receive the power data notification service in a database, and a service processing program for implementing the power data providing service by access accompanied by confirmation of a user ID and password A service application means having
The power information service apparatus according to claim 1, further comprising:

Images