JP2004080919A - Power control system and power control method for electrical apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power control system and a power method for electrical apparatuses 3 to 13 capable of properly controlling the on/off of power supplies of the electrical apparatuses 3 to 13 that are connected to each other via a network, in a service interruption. <P>SOLUTION: A power state determining part 33 receives service interruption information sent from a service-interruption occurrence detection part 31, and determines to turn off the power supply of each electrical apparatus 3 to 13 in the service interruption, based on in-service-interruption power-supply information read out of a storing part 37. The power state determining part 33 receives power recovery information sent from the service-interruption occurrence detecting part 31, and determines to turn on the power supply of each electrical apparatus 3 to 13 in the service interruption, based on in-power-recovery power-supply information read out of the storing part 37. Information, which shows the state of the power supply of each electrical apparatus 3 to 13 in the service interruption or in the power recovery determined at the power state determining part 33, is sent to a transmitter/receiver 35, and is transmitted to the corresponding apparatus among the apparatuses 3 to 13 as a control signal for on/off control of the power supply. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a power supply control system and a power supply control method for electric devices, particularly, electric devices connected via a network.
[0002]
[Prior art]
Conventionally, an uninterruptible power supply (hereinafter, referred to as UPS) for storing electric energy has been widely known. This UPS is a power supply device that steps down an input voltage (for example, 100 V commercial AC voltage) to charge a battery when energized, and boosts a charged voltage charged to the battery to the input voltage and outputs the input voltage when a power failure occurs. It is used by connecting to equipment that cannot stop power supply.
[0003]
[Problems to be solved by the invention]
However, in the UPS, a lead storage battery is generally used as a battery, and the time during which power can be continuously supplied after a power failure is limited to about several minutes. For this reason, when a plurality of electric devices (for example, computers, home appliances, and the like) are connected to the UPS, all of these electric devices are set to an operation state (power on or off state) before a power failure occurs. Then, there is a fear that the electric energy stored in the UPS is consumed instantaneously.
[0004]
The present invention has been made in view of the above points, and provides a power supply control system and a power supply control method for an electric device capable of appropriately controlling power-off of an electric device connected via a network at the time of a power failure. The purpose is to provide.
[0005]
[Means for Solving the Problems]
A power supply control system for an electric device according to the present invention is a power supply control system for an electric device that controls turning on or off of a power supply of an electric device connected via a network, and is necessary to supply electric power at the time of a power failure of the electric device. Storage means for storing power supply information at the time of power failure relating to the presence or absence of power, a power failure occurrence detecting means for detecting that a power failure has occurred, and power supply information at the time of power failure when the power failure occurrence detecting means detects the occurrence of a power failure. Reading, based on the power failure time power supply information, power supply state determination means for determining power off in the electric equipment at the time of power failure, and power off in the electric equipment based on the determination result in the power supply state determination means. Transmitting means for transmitting a control signal for control to the electric device via the network.
[0006]
On the other hand, a power supply control method for an electric device according to the present invention is a power supply control method for an electric device that controls turning on or off of a power supply in an electric device connected via a network, and includes a power supply method in the event of a power failure of the electric device. Power storage state storing means for storing power supply information at the time of power failure relating to the necessity of the power supply, and power failure occurrence detecting means for detecting that a power failure has occurred. Then, the power supply information at the time of power failure is read from the storage means, and based on the power supply information at the time of power failure, the power supply of the electric device is determined to be turned off at the time of the power failure. And transmitting a control signal for controlling the power-off of the electric device to the electric device via the network based on the control signal.
[0007]
According to each of the power control system for an electric device and the power control method for an electric device according to the present invention, the storage means stores power supply information at the time of power failure regarding whether or not power supply is necessary at the time of power failure of the electric device. . Further, the occurrence of a power failure is detected by the power failure occurrence detecting means. When the occurrence of a power failure is detected by the power failure determination means by the power supply state determination means, the power failure power supply information stored in the storage means is read, and the power failure is detected based on the power failure power supply information. It is determined that the power supply of the electric device is turned off at the time. Subsequently, a control signal for controlling power-off of the electric device is transmitted to the electric device via the network by the transmitting device based on the determination result by the power supply state determining device. The electric device controls the power-off state based on the control signal transmitted from the transmission unit. Thereby, at the time of a power failure, it is possible to appropriately control the power-off of the electric devices connected via the network.
[0008]
The storage means further stores power recovery power supply information on the necessity of power supply at the time of power recovery of the electric device. It is preferable to read the supply information and determine the power-on of the electric device at the time of power recovery based on the power recovery information at the time of power recovery. In such a configuration, the power supply state determining unit reads out the power supply information at the time of power recovery, which is stored in the storage unit, and determines whether to turn on the power of the electric device at the time of power recovery. Thereby, at the time of power restoration, it is possible to appropriately control the power-on of the electric device.
[0009]
The storage unit further stores a power-on state of the electric device before the power failure occurs, and the power state determination unit stores the power supply in the electric device before the power failure stored in the storage unit when the power is restored. It is preferable to read the ON state of the power supply and determine the power ON of the electric device at the time of power restoration. In the case of such a configuration, at the time of power restoration, the power-on state of the electric device before the occurrence of the power failure stored in the storage unit is read out by the power supply state determination unit, and the power supply state of the electric device at the time of power restoration is read out. ON is determined. Thereby, at the time of power restoration, it is possible to appropriately control the power-on of the electric device.
[0010]
In the storage unit, the power supply information at the time of power failure is stored in association with the IP address of the electric device, and the transmitting unit may transmit a control signal to the corresponding electric device based on the IP address. preferable. With this configuration, the control signal can be reliably and appropriately transmitted to each electric device.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
A power supply control system and a power supply control method for an electric device according to an embodiment of the present invention will be described with reference to the drawings. In the description, the same elements or elements having the same functions will be denoted by the same reference symbols, without redundant description.
[0012]
First, the configuration of a power supply control system for electric equipment according to the present embodiment will be described with reference to the block diagram shown in FIG. The power supply control system for the electric device includes a power supply control device 1 connectable to a network line N1. As the network line N1, a wired or wireless LAN line or the like can be used. A plurality of electric devices (including a personal computer 3, a television 5, an air conditioner 7, a refrigerator 9, a lighting device 11, a stereo 13 and the like in this embodiment) are connected to the network line N1.
[0013]
Each of the electric devices 3 to 13 is a so-called net home appliance that executes various processes based on information transmitted via the network line N1 and can be remotely operated by a user or the like. For example, by receiving a control signal for controlling the power on or off via the network line N1, the power on or off state of the corresponding electric devices 3 to 13 can be controlled.
[0014]
In addition, each of the electric devices 3 to 13 has operating status information indicating the current power ON or OFF state, the power state at the time of power failure (maintain the power state before the power failure, or turn off the power). Power supply information at the time of power failure, power supply information at the time of power recovery (maintain the power supply state before the power failure or turn off the power) at the time of power recovery, and the like via the network line N1. It is configured to
[0015]
Each of the electric devices 3 to 13 is connected to a commercial power supply 17 via a UPS 15, as shown in FIG. As a result, the electric power is supplied from the commercial power supply 17 to the electric devices 3 to 13 at normal times, and the AC power is supplied from the UPS 15 at the time of power failure.
[0016]
As shown in FIG. 2, the power supply control device 1 is connected to the network line N1 via a digital line termination unit (DSU) 21 or the like, and performs various arithmetic processes according to a preset control program. It has a CPU 22 to be executed, a ROM 23 for storing control programs and control data in advance, a RAM 24 for temporarily reading and writing various data necessary for executing various arithmetic processing, and the like. The control program includes a control program for controlling on / off of the power of the electric devices 3 to 13 connected to the network line N1. In addition, the power supply control device 1 includes a display unit 25 (for example, a display or the like) for indicating an operation state and the like of the power supply control device 1 and an operation unit 26 (for example, a mouse) for a user to operate the power supply control device 1. And keyboard). It should be noted that AC power is normally supplied from the commercial power supply 17 to the power supply control device 1, and AC power is supplied from the UPS 15 during a power failure.
[0017]
As shown in FIG. 1, the power supply control device 1 executes the control program in the CPU 22, and as a functional component, a power failure occurrence detection unit 31 (power failure occurrence detection unit) and a power state determination unit 33. (Power supply state determining means) and a transmitting / receiving unit 35 (transmitting means). In addition, the power supply control device 1 includes a storage unit 37 (storage unit) as a functional component by the ROM 23, the RAM 24, and the like.
[0018]
The power failure detection unit 31 detects that a power failure has occurred based on the AC power supplied from the commercial power supply 17. In the present embodiment, the power failure occurrence detection unit 31 detects that a power failure has been detected by the power failure detection circuit 15a of the UPS 15 based on a signal transmitted from the UPS 15 (power failure detection circuit 15a). The power failure detection unit 31 may detect the power failure by directly measuring the AC power supplied from the commercial power supply 17. Upon detecting the occurrence of a power failure, the power failure occurrence detection unit 31 sends out power failure information indicating that a power failure has occurred. Further, the power failure occurrence detection unit 31 detects a power recovery based on the power recovery detection in the UPS 15, and transmits power recovery information indicating that the power has been recovered.
[0019]
The transmission / reception unit 35 is connectable to the network line N1, and receives the operation status information, the power supply information at the time of power failure, and the power supply information at the time of power recovery transmitted via the network line N1. When receiving the operation status information, the power supply information at the time of power failure, and the power supply information at the time of power recovery, the transmission / reception unit 35 transmits the operation status information, the power supply information at the time of power failure, and the power supply information at the time of power recovery.
[0020]
The storage unit 37 receives and stores the operation status information, the power supply information at the time of power failure, and the power supply information at the time of power recovery transmitted from the transmission / reception unit 35. The storage unit 37 is configured to be able to store the operation status information, the power supply information at the time of power failure, and the power supply information at the time of power recovery, and includes a power state database. As shown in FIG. 3, the power supply state database is configured to be able to store an IP address, operation status information, power supply information at the time of power failure, and power supply information at the time of power recovery for each of the electric devices 3 to 13. .
[0021]
In the power state database, for example, “air conditioner” is stored in “connected electric devices 3 to 13”, “XXXX... X3” is stored in “IP address”, and “power on” is stored in “operating status information”. Have been. Then, "power off" is stored in "power failure power supply information", and "power on" is stored in "power recovery power supply information". As described above, in the power state database, the operation status information, the power supply information at the time of power failure, and the power supply information at the time of power recovery are stored in association with the IP addresses of the electric devices 3 to 13. In FIG. 3, “maintaining the operating state” indicates that the power is on or off before the power failure.
[0022]
The power state determination unit 33 receives the power failure information sent from the power failure occurrence detection unit 31, reads out the power failure power supply information from the storage unit 37, and based on the power failure power supply information, It is determined that the power of the devices 3 to 13 is turned off. In addition, the power supply state determining unit 33 receives the power restoration information sent from the power failure occurrence detecting unit 31, reads out the power restoration time supply information from the storage unit 37, and performs the power restoration based on the power restoration time information. The power-on state of each of the electric devices 3 to 13 is determined.
[0023]
Information indicating the power on or off state of each of the electric devices 3 to 13 at the time of power failure or power recovery determined by the power supply state determination unit 33 is sent to the transmission / reception unit 35 together with the corresponding IP address. The transmission / reception unit 35 transmits the control signal to the corresponding electric devices 3 to 13 as a control signal for controlling the power on or off of the electric devices 3 to 13. At this time, the transmission / reception unit 35 transmits a control signal to the corresponding electric devices 3 to 13 based on the IP address transmitted from the power supply state determination unit 33. Each of the electric devices 3 to 13 controls the power on or off state based on the transmitted control signal.
[0024]
Next, the operation of the power supply control device (power supply control method for electric equipment) will be described with reference to FIG. FIG. 4 is a flowchart for explaining the operation of the power supply control device.
[0025]
First, the power control device 1 determines whether or not the electric devices 3 to 13 are newly connected to the network line N1 based on the information received by the transmission / reception unit 35 (S101). When there are electric devices 3 to 13 newly connected to the network line N1, the power supply control device 1 transmits the power supply information at the time of power failure and the power supply information at the time of power recovery from the electric devices 3 to 13 connected as described above. It is acquired (S103). The acquired power supply information at power failure and power supply information at power recovery are stored and stored in the storage unit 37 in association with the IP addresses of the electric devices 3 to 13 (S105).
[0026]
Subsequently, the power supply control device 1 acquires operation status information from the electric devices 3 to 13 connected to the network line N1 as described above (S107). The acquired operation status information is stored and stored in the storage unit 37 in association with the IP addresses of the electric devices 3 to 13 as in the case of the power outage power supply information and the power recovery time power supply information (S109).
[0027]
Then, the power control device 1 determines whether or not the occurrence of a power failure has been detected by the power failure occurrence detection unit 31 (S111). If a power failure has occurred, the power status determination unit 33 stores the power failure in the storage unit 37. The operating status information, the power supply information at the time of power failure, and the power supply information at the time of power recovery are read out (S113). The power supply state determination unit 33 determines whether or not there is any of the electric devices 3 to 13 currently in operation, that is, in a power-on state, based on the read operation state information (S115). If the devices 3 to 13 do not exist, the process ends.
[0028]
On the other hand, when there are currently operating electrical devices 3 to 13, the power supply state determination unit 33 turns off the power at the time of a power failure for each of the operating electrical devices 3 to 13 based on the read power failure time power supply information. It is determined whether or not the state is set (S117). Note that, as described above, the AC power is supplied from the UPS 15 to the operating electric devices 3 to 13.
[0029]
For the electric devices 3 to 13 whose power is turned off, the power supply control device 1 causes the transmission / reception unit 35 to transmit a control signal for controlling the power off of the electric devices 3 to 13 via the network line N1. (S119). Accordingly, the electric devices 3 to 13 to which the control signal for controlling the power-off is transmitted turn off the power. Note that the power supply control device 1 does not transmit the control signal to the electric devices 3 to 13 that are kept on without turning off the power, and the electric devices 3 to 13 are turned on. Will be maintained. The electric devices 3 to 13 in which the power supply state before the power failure is off are maintained in the power off state.
[0030]
After that, the power supply control device 1 causes the power supply state determination unit 33 to operate the electric equipments 3 to 13 in the power-off state at the time of power failure based on the read power supply information at the time of power failure at the time of power recovery. It is necessary to determine whether there is any of the electric devices 3 to 13 whose power is on (S121). If there is no electric device 3 to 13 whose power is on, the process is terminated. .
[0031]
Then, the power supply control device 1 determines whether or not the power failure occurrence detection unit 31 has detected the restoration of power (S123). When power is restored, AC power is supplied from the commercial power supply 17 to the operating electric devices 3 to 13.
[0032]
When the power recovery is detected, the power supply control device 1 includes, in the power supply state determination unit 33, based on the read-out power supply information at the time of power recovery, among the electric devices 3 to 13 whose powers are turned off at the time of the power failure. It is necessary to operate at the time of power restoration, and it is determined whether there is any of the electric devices 3 to 13 whose power is on (S125). If there is no electric device 3 to 13 whose power is turned on at the time of power restoration, the process ends.
[0033]
On the other hand, if there is any of the electric devices 3 to 13 whose power is turned on when the power is restored, the power supply control device 1 causes the transmission / reception unit 35 to output a control signal for controlling the power of each of the electric devices 3 to 13 to be on. Is transmitted via the network line N1 (S127). Thereby, the electric devices 3 to 13 to which the control signal for controlling the power on is transmitted turn on the power. In addition, the power supply control device 1 does not transmit the control signal to the electric devices 3 to 13 that are kept on even when the power is restored, and the electric devices 3 to 13 are in the power-on state. Will be maintained. Also, the control signal is not transmitted to the electric devices 3 to 13 whose power supply is off at the time of the power failure and which is turned off at the time of power recovery, and the power supply is off. Will be maintained.
[0034]
For example, in the case of a personal computer, a refrigerator, and a lighting device, as shown in FIG. 3, “maintenance of operation state” is stored in “power supply information at power failure” and “power supply information at power recovery”. Also, even when the power is restored, the power on or off state before the power failure is maintained, and the power on state is maintained. Further, in the case of a television and a stereo, as shown in FIG. 3, since “power off” is stored in the “power supply information at power failure” and the “power supply information at power recovery,” Also, the power is turned off. Note that the power of the stereo is off even before the power failure, so that the off state is maintained. Further, in the air conditioner, as shown in FIG. 3, since "power off" is stored in "power supply information at power failure" and "power on" is stored at "power supply information at power recovery", Sometimes, the power is turned off, and when the power is restored, the power is turned on, and the operation returns to the operating state before the power failure.
[0035]
As described above, in the power supply control system (power supply control device 1) of the present embodiment, the power supply information at the time of power outage regarding the necessity of power supply at the time of power outage of the electric devices 3 to 13 is stored in the storage unit 37. . Further, the power failure occurrence detection unit 31 detects the occurrence of a power failure. Then, when the occurrence of a power failure is detected by the power failure determination unit 31 by the power supply state determination unit 33, the power failure time power supply information stored in the storage unit 37 is read out, and based on the power failure time power supply information. Thus, the power-off of the electric devices 3 to 13 at the time of the power failure is determined. Subsequently, the control signal for controlling the power-off of the electric devices 3 to 13 is transmitted to the electric devices 3 to 13 via the network based on the determination result in the power state determining unit 33 by the transmission / reception unit 35. . The electric devices 3 to 13 control the power-off state based on the control signal transmitted from the transmission / reception unit 35. Thereby, at the time of a power failure, it is possible to appropriately control turning off the power of the electric devices 3 to 13 connected via the network.
[0036]
Further, in the power supply control system (power supply control device 1) of the present embodiment, the storage unit 37 further stores power recovery time power supply information regarding whether or not the power supply of the electric devices 3 to 13 is necessary at the time of power recovery. When the power is restored, the power supply state determination unit 33 reads out the power supply information at the time of power recovery from the storage unit 37, and based on the power supply information at the time of power recovery, determines the power supply of the electric devices 3 to 13 at the time of power recovery. Has been decided on. Thereby, at the time of power restoration, it is possible to appropriately control the power-on of the electric devices 3 to 13.
[0037]
In the power supply control system (power supply control device 1) of the present embodiment, the power supply information at the time of power failure is stored in the storage unit 37 in association with the IP addresses of the electric devices 3 to 13, and the transmission / reception unit 35 Transmits a control signal to the corresponding electric devices 3 to 13 based on the IP address. Thereby, a control signal can be reliably and appropriately transmitted to each of the electric devices 3 to 13.
[0038]
The present invention is not limited to the embodiments described above. For example, in the present embodiment, the power supply control device 1 and the UPS 15 are configured separately, but the function of the power supply control device 1 described above may be provided to the UPS 15, and the power supply control device 1 and the UPS 15 may be integrated. As shown in FIG. 5, when a control device 41 for controlling the power supply state of each of the electric devices 3 to 13 is further connected via a network line N2 such as the Internet network, the control device 41 May be transmitted via the network line N2, and the control device 41 may transmit a control signal for controlling the power supply of the electric devices 3 to 13 to be turned off or on. .
[0039]
In the present embodiment, the power supply state determining unit 33 reads out the power supply information at the time of power recovery from the storage unit 37 at the time of power recovery, and based on the power supply information at the time of power recovery, the electric equipment 3 at the time of power recovery. 13 is determined, but the present invention is not limited to this. The power-on state of the electric devices 3 to 13 before the occurrence of the power failure stored in the storage unit 37 is read out, The power-on of the electric devices 3 to 13 may be determined. In this case, when the power is restored, the power-on state of the electric devices 3 to 13 before the occurrence of the power failure stored in the storage unit 37 is read out by the power state determination unit 33, and the electric devices 3 to 13, the power-on of the electric devices 3 to 13 can be appropriately controlled when the power is restored.
[0040]
In the present embodiment, the power supply information at the time of power failure and the power supply information at the time of power recovery are acquired from the electric devices 3 to 13 connected to the network line N1 and stored in the storage unit 37. The power supply information at the time of power outage and the power supply information at the time of power recovery may be input to the operation unit 26 of the power supply control device 1 by a user or the like, and stored in the storage unit 37.
[0041]
【The invention's effect】
As described above in detail, according to the present invention, at the time of a power failure, a power supply control system and a power supply for an electric device capable of appropriately controlling the power on or off of the electric device connected via a network A control method can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a power supply control system according to an embodiment.
FIG. 2 is a block diagram illustrating a configuration of a power supply control device.
FIG. 3 is a table illustrating an example of a configuration of a power state database included in a storage unit of the power control device.
FIG. 4 is a flowchart showing the operation of the power supply control device (power supply control method for electric equipment).
FIG. 5 is a block diagram for explaining a configuration of a modified example of the power supply control system according to the present embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Power supply control device, 3-13 ... Electric equipment, 15 ... UPS, 17 ... Commercial power supply, 31 ... Power failure occurrence detection part, 33 ... Power supply state determination part, 35 ... Transceiving part, 37 ... Storage part, N1, N2 ... Network line.

Claims (5)

A power supply control system of an electric device that controls on or off of a power supply of the electric device connected via a network,
A storage unit that stores power supply information at the time of power outage regarding the necessity of power supply at the time of power outage of the electric device,
Power failure occurrence detecting means for detecting that a power failure has occurred,
When the power failure occurrence detecting means detects the occurrence of the power failure, the power supply at the time of power failure is read out from the storage means, and the power supply determining the power supply of the electric device at the time of the power failure based on the power supply information at the time of the power failure is determined. State determining means;
Transmitting means for transmitting a control signal for controlling power-off of the electric device to the electric device via the network, based on a result of the determination by the power supply state determining device. Power control system for electrical equipment. The storage unit further stores power recovery time power supply information regarding the necessity of power supply at the time of power recovery of the electric device,
The power supply state determining means reads out the power supply information at the time of power recovery from the storage means at the time of power recovery, and determines power-on of the electric device at the time of power recovery based on the power supply information at the time of power recovery. The power supply control system for an electric device according to claim 1, wherein The storage unit further stores a power-on state of the electric device before a power failure occurs,
The power state determination unit reads the power-on state of the electric device before the power failure occurred stored in the storage unit when power is restored, and determines the power-on state of the electric device when power is restored. The power supply control system for an electric device according to claim 1, wherein: In the storage unit, the power outage power supply information is stored in association with an IP address of the electric device,
The power supply control system according to claim 1, wherein the transmission unit transmits the control signal to a corresponding electric device based on the IP address. A power control method for an electric device that controls on or off of a power supply in an electric device connected via a network,
A storage unit that stores power outage power supply information regarding the necessity of power supply at the time of a power outage of the electric device, and a power outage detection unit that detects that a power outage has occurred,
When a power failure determination unit detects the occurrence of a power failure, the power supply state determination unit reads the power failure time power supply information from the storage unit, and based on the power failure time power supply information, reads the electric device at the time of the power failure. Power off at
An electric device, wherein a transmitting unit transmits a control signal for controlling power-off of the electric device to the electric device via the network based on a determination result of the power state determining unit. Power control method.

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