JP2003235182A - Power supply remote control system and the same method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power supply remote control system which controls the quantity of electricity consumed by a plurality of electric products from afar, according to the power transmission situation. <P>SOLUTION: In a system which has a remote device 10, a power transmission system 20, and at least one electric product 30, an electric product analysis result transmission requesting mechanism of the remote device 10 requests transmission of data from the electric product 30 and the analysis results. An electric product analysis result receiving mechanism receives the data from the electric product 30 and the analysis result. A transmission system situation analysis result transmission requesting means requests the transmission of transmission system monitoring result and its analysis result. A transmission system situation analysis result receiving mechanism receives transmission system situation monitoring data and its analysis result. A quantity-of- consumed-electricity control command transmitting mechanism transmits a control command on the quantity of consumed electricity. An input-output mechanism allows the user to perform input and output. A transmission system situation monitoring mechanism monitors the situation of the transmission system 20. By this constitution, the user can perform the operation of power on or power off, etc., of the electric apparatus from a remote place, according to the situation of the transmission system and the situation of the electric apparatus. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply remote management system and system thereof, for example, to a power supply remote management system for powering on / off any electric equipment from a remote place, and the equipment and power transmission. The present invention relates to a power supply remote management system and the same system that can monitor the status of a power system and control power supply according to the status.

[0002]

2. Description of the Related Art Conventionally, a power supply remote management system and the same system have been applied to remote control of household electric appliances, for example. In this application, conventionally, there are many means for individually controlling electric products, and a plurality of types from a mechanical timer or infrared remote control to a built-in dedicated semiconductor or software have been widely used. In addition, home appliances can be turned on / off from a terminal such as a home personal computer via a local network. The following is a prior art example relating to a system for monitoring and controlling electric products.

Prior invention example 1 similar in technical field to the present invention
As such, there is a "remote measurement system" in Japanese Patent Laid-Open No. 11-86172. The first invention example of the prior application discloses a technique relating to a remote control system of a measuring device of a user building located at a remote location from a center station building by using the presence or absence of an optical signal.

Japanese Patent Application Laid-Open No. 11-113192 of Prior Application Example 2
The "Power Supply System" of Japanese Patent Publication discloses a technique relating to a remote control system for turning on / off the power of an electronic device by setting the configuration information stored in the formware of the router.

Japanese Unexamined Patent Application Publication No. 11-149593 of Prior Invention Example 3
The "Wireless meter reading system" of Japanese Patent Laid-Open Publication discloses a technology relating to a wireless meter reading system for remotely metering a measuring instrument, which minimizes wasteful battery consumption in a slave unit.

[0006] Japanese Patent Application Laid-Open No. 11-215572 of Prior Application Example 4
The "wireless remote control device" of Japanese Patent Publication discloses a technique relating to a system which, when power is supplied to the remote control side, automatically displays the operating state of the facility equipment side and enables an input operation.

Japanese Patent Application Laid-Open No. 11-272371 of Prior Application Example 5
Japanese Patent Publication "Power Saving Device for Electronic Equipment with Remote Control Device" discloses a technique relating to a system for remotely operating a power saving mode.

Japanese Patent Application Laid-Open No. 11-284681 of Prior Invention Example 6
In "Information Equipment" of the publication, a technology relating to a system for supplying power from a remote place and monitoring for a certain period of time is disclosed.

Japanese Patent Application Laid-Open No. 11-305823 of Prior Invention Example 7
In the gazette, "Monitoring Terminal and Remote Monitoring and Control System", a technology relating to a remote monitoring and control system using a photo volta coupler is disclosed.

Japanese Patent Application Laid-Open No. 11-341175 of Prior Application Example 8
The "wireless observation system" of Japanese Patent Publication discloses a technique relating to a system that uses a mobile phone and a communication circuit to collect observation data of a remote place and wirelessly transmit the observation data from an observation station to a monitoring station.

[0011]

However, in the above-mentioned conventional techniques, it is not yet realized to more subtly respond to the needs of consumers with a device at hand from a distant remote place.

In view of the above-mentioned circumstances, the present invention provides a power supply remote management system and a system for finely controlling the power supply, and its needs, in particular, an increase in electricity bill and a power outage caused by insufficient power generation. It is an object of the present invention to provide a power supply remote management system for preventing.

More specifically, controlling the electricity consumption of a plurality of electric products from a remote location according to the power transmission condition, and particularly in the situation of insufficient power generation, active use such as energy saving depending on both the power transmission condition and the product condition. Is desirable, and the purpose is to achieve it. Recently, there are many cases where developed countries also need to support power outages. In addition to this, it is also an object to monitor and analyze the above situation and control the product from a remote place by using a mobile phone or a personal computer network which has been popularized in recent years.

[0014]

In order to achieve the above object, a power supply remote management system of the present invention is a power supply remote management system for controlling power supply to at least one electric product. And a remote device that remotely controls each electric product, a power transmission system that supplies electricity to each electric product, between the remote device and the power transmission system, and between the remote device and each electric product. It is characterized in that it is configured to have a communication means for connecting between each other.

The above-mentioned electric products group includes an electric consumption amount status monitoring mechanism for monitoring the status of the amount of electricity consumed corresponding to each electric product, a status monitoring data storage mechanism for storing the status monitoring data, and a status. And a situation memory analysis mechanism for analyzing memory, an analysis result transmission mechanism for transmitting analysis results, an electricity consumption control mechanism for controlling electricity consumption, a control instruction reception mechanism for receiving control instructions, and instructions. An instruction execution mechanism to execute, an instruction success monitoring mechanism to monitor the success or failure of the instruction, an instruction success monitoring data storage mechanism to store the monitoring data of the instruction success / failure, and an instruction to send the instruction monitoring data storage. A monitoring data storage / transmission mechanism and a transmission request reception mechanism that receives a transmission request may be provided.

Further, the power transmission system includes a power transmission system condition monitoring mechanism that monitors the condition of the power transmission system that transmits power to each electric product, a power transmission system condition monitoring data storage mechanism that stores data of the power transmission system condition monitoring mechanism, and a power transmission system. It is preferable to include a situation storage analysis mechanism that analyzes the situation of the system and the stored data, an analysis result transmission mechanism that transmits the analysis result, and a transmission request reception mechanism that receives a transmission request.

The remote device receives an electric product analysis result transmission request mechanism for requesting each electric product to transmit monitoring data and analysis results, and an electric product analysis result reception unit for receiving analysis results from each electric product in response to the request. Mechanism, a transmission system condition analysis result transmission request mechanism that requests the transmission system to send monitoring data and analysis results, a transmission system condition analysis result reception mechanism that receives analysis results from the transmission system in response to the request, and electricity consumption It is preferable to include an electric consumption control command transmitting mechanism for transmitting a quantity control command and an input / output mechanism for inputting / outputting a transmission / reception signal.

A power supply remote management system according to a fifth aspect of the present invention is a power supply remote management system for controlling power supply to at least one electric product, and includes an electric product group composed of various electric products. , A remote device for remotely controlling each electric product, a power transmission system for supplying electricity to each electric product, a remote device and a power transmission system, and a remote device and each electric product are connected by communication means. , The electric product group monitors the status of the amount of electricity consumed corresponding to each electric product, the power transmission system monitors the status of the power transmission system that transmits power to each electric product, and the remote device monitors each electric product. It is characterized by requesting transmission of monitoring data and analysis results.

[0019]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a power supply remote management method, a system and a device according to the present invention will be described in detail with reference to the accompanying drawings. 1 and 2, there is shown one embodiment of a power supply remote management system and method of the present invention.

(Example of System Configuration) As shown in FIG. 1, this system has a remote device 10, a power transmission system 20, and at least one electric product 30.

The remote device 10 includes an electric appliance analysis result transmission request mechanism, an electric appliance analysis result reception mechanism, a transmission system condition analysis result transmission request mechanism, a transmission system condition analysis result reception mechanism, and an electricity consumption control command transmission mechanism. And an input / output mechanism.

The above-mentioned power transmission system 20 has a power transmission system status monitoring mechanism, a power transmission system status monitoring data storage mechanism, a status storage analysis mechanism, an analysis result transmission mechanism, and a transmission request reception mechanism of this system.

The above electric appliance 30 includes an electricity consumption situation monitoring mechanism, a situation monitoring data storage mechanism, a situation memory analysis mechanism, an analysis result transmission mechanism, an electricity consumption control mechanism, a control command reception mechanism, and a command execution mechanism of this system. And an instruction success monitoring mechanism, an instruction success monitoring data storage mechanism, an instruction monitoring data storage transmission mechanism, and a transmission request reception mechanism.

(Functions of Each Part) The following mechanical parts are provided in this system. The electronic product analysis result transmission request mechanism,
Request transmission of data from the electric appliance 30 in the remote device 10 and the analysis result thereof. The electric appliance analysis result receiving mechanism receives the data from the electric appliance 30 and the analysis result thereof.

The transmission system condition analysis result transmission request mechanism requests transmission of the transmission system condition monitoring data and the analysis result. The transmission system condition analysis result receiving mechanism receives the transmission system condition monitoring data and the analysis result thereof.

The electricity consumption control command transmitting mechanism transmits the electricity consumption control command. The input / output mechanism allows the user to input / output. The power transmission system status monitoring mechanism monitors the status of the power transmission system 20. The transmission system condition monitoring data storage mechanism stores transmission system condition monitoring data. The situation memory analysis mechanism analyzes situation and memory.

The analysis result transmitting mechanism transmits the analysis result. The transmission request reception mechanism receives a transmission request. The electricity consumption status monitoring mechanism monitors the status of electricity consumption in each electric product 30.

The situation monitoring data storage mechanism stores situation monitoring data. The situation memory analysis mechanism analyzes situation and memory. The analysis result transmitting mechanism transmits the analysis result. The electricity consumption control mechanism controls electricity consumption.

The control command receiving mechanism receives a control command. The instruction execution mechanism executes the instruction. The instruction success monitoring mechanism monitors the success or failure of an instruction. The instruction success monitoring data storage mechanism stores monitoring data of instruction success / failure.

The command watch data store transmitter sends a command watch data store. The transmission request reception mechanism receives a transmission request.

(Operation Example) An operation example of this system will be described with reference to FIG. In this operation example, the remote device 10 is a mobile phone, and the communication means is a network provided in a mobile phone station. The operation of the system is basically the same even when the communication means is used with other remote devices.

At the start of step 1, first, in the mobile phone, this system is started by a user's input. Then, by telephone communication, the power transmission system 20 is requested to be notified of the state of the system (step 2a). The power transmission system side 20 monitors and analyzes the situation and notifies the mobile phone of the data and the analysis (steps 3a to 3).
d).

In addition, the electronic product 30 is requested to be notified of the status of the product by telephone communication (step 2A).
The electric product side monitors and analyzes the situation and notifies the data and the analysis to the mobile phone (step 3A-
3D).

Using the mobile phone, the user accepts these notifications (steps 2b and 2B), determines whether it is necessary to control the electric product 30, and if necessary, uses the mobile phone to control the product. Send the instruction to the product (step 4A).

The electric appliance receives the command (step 5A) and operates according to the command (step 5B).
The effect of the operation is confirmed (step 5C), and the confirmation is transmitted to the mobile phone (step 5D). The user accepts the confirmation (step 4B). Then, the operation of this system is finished (step 6).

(Effects of Embodiment) First, according to the situation of the power transmission system and the situation of the electric equipment, the electric equipment can be turned on and off from a remote place. Secondly, by using a mobile phone as the remote device, the system can be exchanged with a popular mobile phone. Third
In addition, by using the remote device as a terminal connected to the network, it is possible to exchange the present system with a widespread and convenient network terminal.

Fourth, by using the remote device as a dedicated remote controller, the system can be exchanged with a specific dedicated device. Fifthly, by configuring the electric appliance as a household electric appliance connected to the network, the electric household appliance can be operated from a remote place according to the status of the power transmission system and the status of the household electric appliance.

Sixth, by using the electric appliance as an office electric appliance connected to a network, a remote place can operate the network connected office electric appliance according to the status of the power transmission system and the network connected office electric appliance. It can be performed. Seventh, specific control can be performed by using a mechanism corresponding to an electric product as a dedicated device connected to a network. Eighth, it is possible to perform communication from a remote place by using various networks.

[0039]

As is apparent from the above description, the power supply remote management system of the present invention is a group of electric products composed of various electric products and a remote operation of each electric product to transmit power to each electric product. Electricity is supplied by a system, and a remote device and a power transmission system, and a remote device and each electric product are connected by communication means, respectively, and power supply to the electric product is controlled. Therefore, according to the situation of the power transmission system and the situation of the electric device, it is possible to perform operations such as turning on and off the electric device from a remote place.

[Brief description of drawings]

FIG. 1 is a block configuration diagram showing an embodiment of a power supply remote management system of the present invention.

FIG. 2 is a diagram for explaining an example of an operation procedure.

[Explanation of symbols]

10 Remote device 20 power transmission system 30 electrical products

Claims (5)

[Claims] 1. A power supply remote management system for controlling power supply to at least one electric product, the electric product group including various electric products, and a remote device for remotely operating each of the electric products. A power transmission system that supplies electricity to each of the electric products, and a communication unit that connects the remote device and the power transmission system, and connects the remote device and each of the electric products, respectively. Power supply remote control system characterized by 2. The electric product group includes an electric consumption status monitoring mechanism for monitoring a status of electric consumption corresponding to each electric product, a status monitoring data storage mechanism for storing the status monitoring data, and the status. And a situation memory analysis mechanism that analyzes memory, an analysis result transmission mechanism that transmits the analysis result, an electricity consumption control mechanism that controls the electricity consumption amount, and a control command reception mechanism that receives the control instruction. An instruction execution mechanism that executes the instruction, an instruction success monitoring mechanism that monitors success or failure of the instruction, an instruction success monitoring data storage mechanism that stores monitoring data of success / failure of the instruction, and the instruction 2. The power supply remote management system according to claim 1, further comprising: an instruction monitoring data storage transmission mechanism for transmitting monitoring data storage; and a transmission request reception mechanism for receiving the transmission request. Temu. 3. The power transmission system, a power transmission system condition monitoring mechanism for monitoring a condition of a power transmission system transmitting power to each of the electric products, and a power transmission system condition monitoring data storage mechanism for storing data of the power transmission system condition monitoring mechanism. A status storage analysis mechanism that analyzes the status of the power transmission system and the stored data, an analysis result transmission mechanism that transmits the analysis result, and a transmission request reception mechanism that receives the transmission request. 3. The power supply remote management system according to claim 1 or 2. 4. The remote device receives an electronic product analysis result transmission request mechanism for requesting each of the electric products to transmit the monitoring data and the analysis result, and receives an analysis result from each of the electric products in response to the request. An electrical product analysis result reception mechanism, a transmission system condition analysis result transmission request mechanism that requests the transmission system to transmit the monitoring data and the analysis result, and a transmission system that receives the analysis result from the transmission system in response to the request. 4. A situation analysis result receiving mechanism, an electricity consumption control command transmitting mechanism for transmitting the electricity consumption control command, and an input / output mechanism through which a user can perform input / output. The power supply remote management system according to any one of 1. 5. A power supply remote management system for controlling power supply to at least one electric product, the electric product group including various electric products, and a remote device for remotely operating each of the electric products. A power transmission system for supplying electricity to each of the electric products, a connection between the remote device and the power transmission system, and between the remote device and each of the electric products by communication means, the electric product group, Monitoring the status of the amount of electricity consumed corresponding to each electric product, the power transmission system monitors the status of a power transmission system that transmits power to the respective electric products, and the remote device performs the monitoring for the respective electric products. Remote control system for power supply characterized by requesting transmission of data and analysis results.