JP4215519B2 - Electrical equipment management support system, Center equipment for electrical equipment management support - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electrical equipment management support system for managing electrical equipment and an electrical equipment management support center server.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a home appliance control network system that controls on / off of home appliances installed in a home via a network has been provided (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
JP 2001-86572 A (paragraph numbers [0067]-[0070] and FIG. 4)
[0004]
[Problems to be solved by the invention]
In the above-described home appliance network system, the maintenance time of home appliances to be used cannot be managed. In addition, it is necessary for the home appliance itself to have a communication function for communicating with the controller via the network, which causes a problem of high cost, and instead of an existing home appliance that does not have a communication function, a communication function There is also a problem that it is necessary to introduce home appliances with a large burden on the user.
[0005]
The present invention has been made in view of the above-mentioned problems, and its object is to specify the electrical device used on the client side and the usage state of the electrical device, to change or function the electrical device side. It is an object of the present invention to provide an electrical equipment management support system and a center server used therefor that can provide data equipment for management without addition and the convenience of maintenance services for clients to electrical equipment manufacturers.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, in the invention of the electrical equipment management support system according to claim 1, each is associated with one electrical equipment and interposed between the electrical equipment and the power source, and each is associated. One or more loads having means for obtaining a feature amount from the behavior of the amount of electricity supplied to the electrical device while the electrical device is energized, and first communication means for sending the obtained feature amount data to the LAN A feature detection device;
A second communication means for receiving the feature amount data which is transmitted from each of the plurality of load characteristic amount detecting device through the LAN, with the feature amount data and the second communication means that is registered in the feature quantity database A specifying means for identifying the electrical device corresponding to the received feature value data by collating with the received feature value data, a management means for managing the state of the electrical device based on the specified feature value data of the electrical device, and the Internet A home server comprising a third communication means for sending and receiving data through
On the client side
The state of the electrical equipment managed by the data providing means for transmitting and providing the feature quantity data and the individual attribute data of the electrical equipment registered in the feature quantity database in the feature quantity database to each client's home server, and the management means of the client's home server A center server having a means for collecting information is installed on the service center side.
[0007]
In the invention of the electrical equipment management support system according to claim 2, in the invention of claim 1, the center server receives the feature data and the individual attribute data of the electrical equipment to be provided to the home server on the terminal on the electrical equipment manufacturer side. And a data transmission / reception means for providing maintenance information based on the state information of the client-side electrical device to the manufacturer's terminal corresponding to the electrical device via the Internet.
[0008]
In the invention of the center server for electrical equipment management support according to claim 3, each is associated with one electrical equipment and interposed between the electrical equipment and the power source, and each of the associated electrical equipment is energized. It means for determining a characteristic quantity from the behavior of the electric amount supplied to the electric equipment, and the obtained of several that the feature amount data having a first communication means for transmitting to the LAN load characteristic amount detecting device ,
A second communication means for receiving the feature amount data which is transmitted from each of the plurality of load characteristic amount detecting device through the LAN, with the feature amount data and the second communication means that is registered in the feature quantity database A specifying means for identifying the electrical device corresponding to the received feature value data by collating with the received feature value data, a management means for managing the state of the electrical device based on the specified feature value data of the electrical device, and the Internet To the client side that has installed a home server provided with a third communication means for sending and receiving data through
Data providing means for transmitting the feature quantity data and individual attribute data of the electrical equipment registered in the feature quantity database to each client's home server via the Internet, and status information of the electrical equipment managed by the client home server management means Maintenance management means for determining the maintenance timing of the electrical equipment from the status information, and the feature data and individual attribute data of the electrical equipment provided to the home server on the client side via the Internet from the terminal of the electrical equipment manufacturer side And a data sending / receiving means for providing maintenance information on the electrical equipment based on the judgment of the maintenance management means to a corresponding manufacturer's terminal through the Internet.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described according to an embodiment.
[0010]
FIG. 1 is a system configuration diagram of the present embodiment. In a client-side house or building C that has signed a service provision company A with a service provider A, a home server 1 and indoors from the home server 1 A connection unit 4 for connecting a LAN terminal provided with a modular jack 5 such as 10BASE-T and 100BASE-T connected to the LAN communication line 2 wired in advance as an embedded wiring device, and wired in advance indoors. And a power outlet 3 directly connected to the power line 3 through a current detecting element 91 (see FIG. 2), which will be described later, and a LAN communication circuit 94 (see FIG. 2). A load feature quantity detection device 9 that is unitized in the same form as the embedded wiring apparatus, A load connection terminal portion that is connected to a power connection end that is directly connected to the wire 3 via a current detection element 91 described later, and that directly connects a mechanical electrical device (for example, a lighting fixture) 20 that is permanently installed. And a load feature quantity detection device 9 ′ having a signal line connection end directly connected to the communication line 2 at the signal input / output end of the communication circuit 94, and the home server 1 is connected to the Internet 30. .
[0011]
On the other hand, the service provider A is provided with a center server 40 which is the core of this system, and can exchange data with the home server 1 on each client side via the Internet 30. Data can also be exchanged with the Internet terminal 50 such as a computer of each manufacturer B that manufactures electrical equipment via the Internet 30.
[0012]
Here, an electric device 20 such as a television, an air conditioner, and a vacuum cleaner is connected to the outlet portion 6 of the load feature quantity detection device 9 provided on the client side by a power plug 22 of a power cord 21 as necessary. The modular jack 8 is connected to the modular jack 5 of the connection unit 4 by connecting a modular plug (not shown) on the other end of the LAN cable 23 having one end connected to the modular jack 5 by a modular plug (not shown). 2, the load feature quantity detection device 9 is connected as a LAN terminal.
[0013]
Although Ethernet (R) is used as the LAN, other methods may of course be used, and a wireless signal medium or the like may also be used. In FIG. 1, only one communication line 2 is shown, but in reality, it is wired from the hub 10 (see FIG. 3) on the home server 1 side to each connection unit 4 and load feature quantity detection device 9 ′. ing.
[0014]
Next, the configuration of the load feature quantity detection device 9 will be described with reference to FIG.
[0015]
The load feature amount detection device 9 includes a power connection terminal portion 90 that directly connects the power line 3 and a receptacle portion 6 that removably connects the power plug 22 of the electrical device 20, and is connected to the electrical device 20 to be connected. Can supply commercial AC power from the power line 3 through a low-impedance resistive element or a current detecting element 91 made of CT or the like. And from the behavior of the electric amount supplied to the electric device 20 via the power line 3, i.e. the divided voltage waveform from the voltage divider circuit 92 for dividing the AC power supply voltage, for example, a resistor, and the current waveform detected by the current detection element 91 And a communication circuit 94 for sending the feature data calculated by the feature calculation unit 93 to the LAN. The communication circuit 94 includes a communication circuit 94 for sending the feature data calculated by the feature calculation unit 93 to the LAN. A modular jack 8 is provided as 94 signal input / output terminals.
[0016]
The feature amount calculation unit 93 is composed of a microcomputer, and is A / D-converted and captured by an A / D converter (not shown) incorporating inputs from the current detection element 91 and the voltage voltage dividing circuit 92 to detect current. The feature amount is obtained by calculation using the detection output corresponding to the load current value by the element 91 and the output voltage from the voltage dividing circuit 92.
[0017]
Here, there are various types of feature quantities. These feature quantities are largely divided into three: feature quantities representing the magnitude of current, feature quantities representing the shape of the current waveform, and feature quantities representing the time difference between current and voltage. A characteristic amount necessary for specifying the type and operation state of the electric device may be used as the characteristic amount of each classification. Here, as a result of actually observing the consumption current flowing through the household electric appliance, the average value of the current as a feature value indicating the magnitude of the current, the peak average value as the feature value indicating the shape of the current (the average value of the current peak value) ), Peak time difference (time difference between current peak and voltage peak), energization time, peak delay rate (time from the start of energization to the peak of current in terms of energization time) It has been found that using the five feature values (divided values) from the current waveform makes it possible to specify the model of the electrical device and its operating state almost certainly, so in the present embodiment, the feature value calculation unit 93 determines the five feature values. The feature value data is calculated and sent to the home server 1 via the communication circuit 94 and the LAN.
[0018]
In the case of the load feature amount detection device 9 ', a communication circuit 94 and a load connection terminal portion (not shown) for directly connecting the wiring from the electric device 20 are provided instead of the outlet portion 6. This is different from the load feature quantity detection device 9 in that a modular plug provided on the communication line 2 side is directly connected to a modular jack provided as a signal input / output terminal.
[0019]
Further, the load feature quantity detection device 9 shown in FIG. 1 is configured in the form of an embedded wiring device, but may be configured in the form of a table tap or a power plug provided at the tip of the power cord. By connecting this power plug to a normal outlet device installed in a room or the like, the power line 3 is connected. The connection to the LAN is the same as that of the load feature quantity detection device 9 in the form of the embedded wiring device in that the modular jack 8 provided in the apparatus main body and the modular jack 5 of the connection unit 4 are connected by the LAN cable 23. It is.
[0020]
As shown in FIG. 3, the home server 1 of the present embodiment includes a communication circuit 11 using Ethernet (R) and a communication circuit 11 for exchanging data with the communication circuit 94 of the load feature amount detection device 9. From the hub 10 for connecting to a plurality of LAN terminals via the communication line 2, the communication circuit 12 for communicating with the Internet 30 on the WAN side, and the load feature quantity detection devices 9, 9 ' In order to identify the electrical equipment 20 connected to the outlet section 6 and the load connection terminal section of the load feature quantity detection device 9 based on the sent feature quantity data, the feature quantity data of the various electrical equipment 20 and A feature amount database 13 in which individual attribute data is registered, and an arithmetic processing unit 14 composed of a microcomputer that forms the core of the entire home server 1 are provided.
[0021]
The arithmetic processing unit 14 according to the present embodiment manages the state of the electrical device 20 based on the function of the specifying unit that identifies the electrical device 20 based on the feature amount data sent from the load feature amount detection device 9 and the feature amount data. It has a function as a management means.
[0022]
The feature amount data of each electric device and the individual attribute data of the electric device registered in the feature amount database 13 are provided from the center server 40 of the service provider A, and the data itself is from the manufacturer B side of the electric device. Provided.
[0023]
As shown in FIG. 4, the center server 40 includes a communication circuit 41 for transmitting and receiving data through the Internet 30, a storage device 42 for storing and storing data, an operation unit 43 such as a keyboard, a display device 44, The computer system is composed of a computing device 45, and as an electrical equipment management support center server, it sends and provides characteristic data of electrical equipment and individual attribute data of electrical equipment to the client-side home server 1 via the Internet 30 A data providing service function, a function of receiving status information of the electrical device managed by the home server 1 and determining the maintenance time of the electrical device on the client side, and maintenance to the manufacturer B of the electrical device based on the determination result And a function of providing information through the Internet 30.
[0024]
Next, the operation of the system of this embodiment will be described.
[0025]
First, when the home server 1 is initially started on the client side, it is connected to the center server 40 side according to a predetermined procedure, and the feature amount data and type of the electrical equipment 20 provided from the manufacturer B from the center server 40 side The individual attribute data is transmitted, and the home server 1 stores the transmitted individual attribute data such as the feature amount data and the type in the feature amount database 13 under the control of the arithmetic processing unit 14. After this storage, it enters a normal operation mode and waits.
[0026]
Thus, when the power switch of the electrical device 20 connected to the outlet section 6 of the load feature quantity detection device 9 is turned on and energization is started, the voltage level and current level corresponding to the behavior of the electrical device 20 are increased. The detection output is taken from the current detection element 91 into the feature amount calculation unit 93. In addition, a divided voltage corresponding to the fluctuation of the power supply voltage is taken from the voltage dividing circuit 92 into the feature amount calculation unit 93.
[0027]
Here, as shown in FIG. 5, the feature quantity calculation unit 93 takes in the outputs of the current detection element 91 and the voltage dividing circuit 92 from the A / D conversion unit (not shown) (step S1), and the current is calculated from the taken in value. An average value for several cycles of the value and the voltage value is calculated (step S2). Next, the feature quantity calculation unit 93 determines whether or not the feature quantity data has been transmitted to the home server 1 (step S3). If the feature quantity data has never been transmitted, the process after step S5 is performed. If the process has been performed and the feature data has been transmitted, the determination in step S4 is performed. In the determination process of step S4, the feature amount calculation unit 93 determines whether or not the average value obtained in step S2 has changed by a certain value or more from the average value transmitted to the home server 1 last time. If it has changed above, the process after step S5 is performed, and when the variation | change_quantity of an average value is less than a fixed value, it returns to step S1 and repeats the above-mentioned process.
[0028]
In step S5, the feature quantity computing unit 93 obtains a feature quantity other than the average value by computation. When the computation of the feature quantity is completed, the feature quantity data and the load feature quantity detection device 9 of the load feature quantity detection device 9 are sent to the home server 1 through the communication circuit 94. It is transmitted together with identification data (IP address, MAC address of the communication circuit 94, etc.) (step S6).
[0029]
The arithmetic processing unit 14 of the home server 1 collates the feature amount data received through the communication circuit 11 with the feature amount data registered in the feature amount database 13, and if there is a match, the feature amount data The model name of the electrical device 20 is specified from the corresponding individual attribute data (step S7).
[0030]
In this case, the arithmetic processing unit 14 compares the received feature amount data data with the feature amount data registered in the feature amount database 13, and has an electrical device having feature amount data substantially matching the received feature amount data data. 20 is selected as a candidate. Further, the arithmetic processing unit 14 compares each of the plurality of feature amount data, and as a result of selecting a candidate for the electric device 20, finally selects and determines the electric device 20 selected as the most candidate. When the arithmetic processing unit 14 specifies the connected electric device 20, the arithmetic processing unit 14 determines the connection position of the electric device 20 in association with the identification data of the load feature amount detecting device 9 that has transmitted the characteristic amount data of the electric device 20.
[0031]
In this way, the home server 1 can grasp the connection position of the electric device 20, and the load feature quantity detection device 9 can detect the electric device 20 whose connection position such as a refrigerator, an air conditioner, and a lighting fixture does not change. The energization state can be continuously monitored by receiving the feature amount data sent with the average value changing by a certain value or more.
[0032]
Here, even when the electrical device 20 is movable and the outlet unit 6 of the connected load feature quantity detection device 9 is frequently changed, the feature quantity data associated with the power on of the electrical equipment 20 is the load feature quantity. When the data is sent from the detection device 6 to the home server 1 side, the home server 1 can identify the electric device 20, so that the electric device 20 can be managed regardless of the connection position.
[0033]
Here, when the feature value data sent corresponding to the electric device 20 indicates the end of life or abnormality of the electric device 20, it is determined that the maintenance time has come, so the home server 1 sends it to the center server 40. The state information of the electric device 20 is transmitted under the control of the arithmetic processing unit 14.
[0034]
The arithmetic unit 45 of the center server 40 that has received the status information searches the manufacturer B of the electric device 20 from the database indicating the relationship between the electric device built in the storage device 42 and the manufacturer B, and manufactures the manufacturer. The maintenance information is notified to the B side by e-mail or the like. The manufacturer B that receives the maintenance information contacts the client for maintenance through a maintenance service company or the like, and undertakes maintenance service.
[0035]
By the way, the feature quantity data and the individual attribute data are transmitted from the manufacturer B to the center server 40 of the service providing company A through the Internet 30 when there is a new product or improvement of the electrical equipment, and the center server. In 40, these data are stored in the storage device 42 and transferred to the home server 1 of each client through the Internet 30. In the home server 1, under the control of the arithmetic processing unit 14, processing for updating registered data in the feature amount database 13 with data from the center server 40 is performed.
[0036]
In this way, the service provider A transfers the feature data and the individual attribute data of the electrical equipment 20 provided by the manufacturer B from the center server 40 to the home server 1 on each client side, and each feature database 13 Provides services for registering and updating data.
[0037]
In addition, the service provider A sends maintenance information based on the status information of the electrical device 20 from the client side to the manufacturer B from the center server 40 to facilitate maintenance service for the electrical device 20 on the client side.
[0038]
As shown in FIG. 6, the load feature quantity detection device 9 (or 9 ′) uses a switch portion 95 such as a contact point of a relay device in the energization path to the electric device 20, and on the home server 1 side. If there is an abnormality in the electrical device 20 connected to the load feature quantity detection device 9 (or 9 ′) from the feature quantity data sent from the load feature quantity detection device 9 (or 9 ′), the arithmetic processing unit 14 When it is determined that there is an abnormality, the arithmetic processing unit 14 creates off control data for turning off the switch unit 95, and transmits the off control data to the corresponding load feature quantity detection device 9 through the communication circuit 94 to force the switch unit 95. A function of turning off may be provided.
[0039]
【The invention's effect】
In the invention of the electrical equipment management support system according to claim 1, each is associated with one electrical equipment and interposed between the electrical equipment and the power source, and each of the electrical equipment management support systems is electrically connected during energization of the associated electrical equipment. means for determining a characteristic quantity from the behavior of the electric amount supplied to the device, and multiple load characteristic amount detecting device that having a first communication means for transmitting the obtained feature amount data on the LAN,
A second communication means for receiving the feature amount data which is transmitted from each of the plurality of load characteristic amount detecting device through the LAN, with the feature amount data and the second communication means that is registered in the feature quantity database A specifying means for identifying the electrical device corresponding to the received feature value data by collating with the received feature value data, a management means for managing the state of the electrical device based on the specified feature value data of the electrical device, and the Internet A home server comprising a third communication means for sending and receiving data through
On the client side
The state of the electrical equipment managed by the data providing means for transmitting and providing the feature quantity data and the individual attribute data of the electrical equipment registered in the feature quantity database in the feature quantity database to each client's home server, and the management means of the client's home server Since a center server having a means for collecting information is installed on the service center side, it does not require troublesome work such as teaching processing for registering feature data on the client side, and is used on the client side. or providing a special function to the electrical device, there have without the use of special electrical equipment, it is capable to manage certain and their state of existing electrical equipment.
[0040]
In the invention of the electrical equipment management support system according to claim 2, in the invention of claim 1, the center server receives the feature data and the individual attribute data of the electrical equipment to be provided to the home server on the terminal on the electrical equipment manufacturer side. Data transmission means for receiving maintenance information based on the status information of the client-side electrical device from the client to the manufacturer's terminal corresponding to the electrical device via the Internet. It is possible to receive a maintenance service for the electrical equipment to be used.
[0041]
In the invention of the center server for electrical equipment management support according to claim 3, each is associated with one electrical equipment and interposed between the electrical equipment and the power source, and each of the associated electrical equipment is energized. It means for determining a characteristic quantity from the behavior of the electric amount supplied to the electric equipment, and the obtained of several that the feature amount data having a first communication means for transmitting to the LAN load characteristic amount detecting device ,
A second communication means for receiving the feature amount data which is transmitted from each of the plurality of load characteristic amount detecting device through the LAN, with the feature amount data and the second communication means that is registered in the feature quantity database A specifying means for identifying the electrical device corresponding to the received feature value data by collating with the received feature value data, a management means for managing the state of the electrical device based on the specified feature value data of the electrical device, and the Internet To the client side that has installed a home server provided with a third communication means for sending and receiving data through
Data providing means for transmitting the feature quantity data and individual attribute data of the electrical equipment registered in the feature quantity database to each client's home server via the Internet, and status information of the electrical equipment managed by the client home server management means Maintenance management means for determining the maintenance timing of the electrical equipment from the status information, and the feature data and individual attribute data of the electrical equipment provided to the home server on the client side via the Internet from the terminal of the electrical equipment manufacturer side And data exchange means for providing maintenance information of the electrical equipment based on the judgment of the maintenance management means to the corresponding manufacturer's terminal through the Internet, so that feature amount data of each electrical equipment used on the client side And providing individual attribute data. Data to be automatically registered / updated without performing the work troublesome like teaching process, yet the manufacturer side can service the convenience of maintenance services to the client-side electrical equipment.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of an embodiment of the present invention.
FIG. 2 is a configuration diagram of an example of a load feature quantity detection device used in the above.
FIG. 3 is a configuration diagram of a home server used in the above.
FIG. 4 is a configuration diagram of a center server used in the above.
FIG. 5 is a flowchart for explaining the normal operation of the load feature quantity detection device used in the above.
FIG. 6 is a configuration diagram of another example of a load feature quantity detection device used in the above.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Home server 2 Communication line 3 Power lines 9, 9 'Load characteristic amount detection apparatus 20 Electric equipment 30 Internet 40 Center server 50 Internet terminal A Service provider B Manufacturer

Claims (3)

Each is associated with one electric device and interposed between the electric device and the power source, and each of the characteristic amounts is obtained from the behavior of the electric amount supplied to the electric device during energization of the associated electric device. means for determining, and multiple load characteristic amount detecting device that having a first communication means for transmitting the obtained feature amount data on the LAN,
A second communication means for receiving the feature amount data which is transmitted from each of the plurality of load characteristic amount detecting device through the LAN, with the feature amount data and the second communication means that is registered in the feature quantity database A specifying means for identifying the electrical device corresponding to the received feature value data by collating with the received feature value data, a management means for managing the state of the electrical device based on the specified feature value data of the electrical device, and the Internet A home server comprising a third communication means for sending and receiving data through
On the client side
The state of the electrical equipment managed by the data providing means for transmitting and providing the feature quantity data and the individual attribute data of the electrical equipment registered in the feature quantity database to the client's home server via the Internet, and the client's home server management means An electrical equipment management support system, characterized in that a center server having information collecting means is installed on the service center side. The center server receives the feature data and individual attribute data of the electrical equipment to be provided to the home server from the terminal of the electrical equipment manufacturer through the Internet, and maintenance information based on the status information of the electrical equipment on the client side. 2. The electric equipment management support system according to claim 1, further comprising data exchange means for providing the information to a manufacturer terminal corresponding to the electric equipment via the Internet. Each is associated with one electric device and interposed between the electric device and the power source, and each of the characteristic amounts is obtained from the behavior of the electric amount supplied to the electric device during energization of the associated electric device. means for determining, and multiple load characteristic amount detecting device that having a first communication means for transmitting the obtained feature amount data on the LAN,
A second communication means for receiving the feature amount data which is transmitted from each of the plurality of load characteristic amount detecting device through the LAN, with the feature amount data and the second communication means that is registered in the feature quantity database A specifying means for identifying the electrical device corresponding to the received feature value data by collating with the received feature value data, a management means for managing the state of the electrical device based on the specified feature value data of the electrical device, and the Internet A home server comprising a third communication means for sending and receiving data through
For the client side that installed
Data providing means for transmitting the feature quantity data and individual attribute data of the electrical equipment registered in the feature quantity database to each client's home server via the Internet, and status information of the electrical equipment managed by the client home server management means Maintenance management means for determining the maintenance timing of the electrical equipment from the status information, and the feature data and individual attribute data of the electrical equipment provided to the home server on the client side via the Internet from the terminal of the electrical equipment manufacturer side A center server for electric equipment management support, comprising: data receiving means for receiving, via the Internet, maintenance information of the electric equipment based on the judgment of the maintenance management means to a corresponding manufacturer's terminal.

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