JP4030920B2 - Power supply control system, power supply control device, power supply control method, and program during power failure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power supply control system, a power supply control device, a power supply control method, and a program during a power failure, and more particularly to a technique for supplying power during a long power failure using a power generator.
[0002]
[Prior art]
In a conventional computer system, the commercial power supply becomes abnormal for some reason. For example, in the event of a momentary voltage drop (instant interruption) or in the event of a short-time power failure, the power storage capacity will not be hindered. An uninterruptible power supply (UPS) that backs up the power supply provided was used.
[0003]
The time that UPS can supply power is determined according to the storage capacity of the UPS and the power consumption of the system, and is usually limited to a few minutes to several tens of minutes. Instead of a commercial power source, a power generator capable of supplying power was used.
[0004]
An example of a method for controlling such a UPS or power generation device is shown in the invention of Japanese Patent Laid-Open No. 9-135542. The invention of this publication has a configuration in which a commercial power supply or a generator is switched and supplied as an input of a UPS for supplying power to a computer, and a remote device is instructed to turn on the computer (become activated) for unmanned operation. Is executed by communicating with the UPS, and the switching instruction between the commercial power supply and the generator is controlled so that the UPS is activated and switched after the UPS detects an abnormality in the commercial power supply.
[0005]
[Patent Document 1]
JP-A-9-135542
[0006]
[Problems to be solved by the invention]
In the conventional power supply control technology, control is performed so as to switch from a commercial power source to a generator after detecting an abnormality in the power source during operation of the information processing apparatus (computer). In order to supply power during the switching processing time, a device such as a UPS is required.
[0007]
In addition, when the switching processing time is increased, a battery capacity corresponding to that time is required. For example, when the output of the power generation device is stabilized or when the power generation device fails to start and restarts, the time required for the switching process increases, and the battery capacity needs to be increased. For example, when the restart is performed in about 3 minutes, it takes 6 minutes or more for stabilization, so the battery capacity needs about 10 minutes. However, in the present invention, the capacity is about several seconds.
[0008]
The purpose of the present invention is to collect information including the danger of a long-time power outage, such as forecasts for thunderstorms, typhoons, earthquakes, etc. in advance, predict the danger, Another object of the present invention is to provide a power supply control system, a power supply control device, a power supply control method, and a program that cope with a power failure by switching from a commercial power source.
[0009]
[Means for Solving the Problems]
A first power supply control system according to the present invention includes a power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and power that is supplied to the information processing device as a commercial power source. And a power supply control system including a switching device for switching between the power generation device and the power generation device,
The power supply control device acquires forecast information as a basis for predicting the occurrence of a power failure through communication, and activates the power generator when predicting a high risk of power failure within a predetermined time based on the forecast information. When power generation is started and it is confirmed that the output of the power generator is stable, the switching device is instructed to switch from the commercial power source to the power generator.
[0010]
A second power supply control system according to the present invention includes a power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and power that is supplied to the information processing device. And a power supply control system including a switching device for switching between the power generation device and the power generation device,
The power supply control device acquires forecast information as a basis for predicting the occurrence of a power outage through communication, and activates the power generation device when predicting that there is a high risk of a power outage within a predetermined time based on the forecast information. To start power generation,
When confirming that the output of the power generator is stable, instruct the switching device to switch from the commercial power source to the power generator,
After that, when forecast information is acquired at regular intervals and it is predicted that the risk of power failure is small, the switching device is instructed to switch from the power generation device to the commercial power supply, and the power generation device is instructed to stop.
[0011]
A third power supply control system according to the present invention includes a power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and power that is supplied to the information processing device as a commercial power source. And a power supply control system including a switching device for switching between the power generation device and the power generation device,
The power supply control device acquires forecast information that is a basis for predicting the occurrence of a power failure through communication,
Based on the forecast information, it is predicted that there is a high risk of a power failure within a predetermined time, and if the information processing device is predicted to be in operation at a time when the risk is high, the power generator is started and power generation is started. When it is confirmed that the output of the device is stable, the switching device is instructed to switch from the commercial power source to the power generator,
After that, it obtains forecast information at regular intervals and predicts that the risk of power failure is small, or instructs the switching device to switch from the power generator to the commercial power supply when it detects that the information processing device has stopped. The stop is instructed.
[0012]
A fourth power supply control system according to the present invention includes a power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and power that is supplied to the information processing device. And a power supply control system including a switching device for switching between the power generation device and the power generation device,
The power supply control device has an operation information unit that holds operation state information including information on whether the information processing device is operating or is stopped, and preset operation schedule information,
Update the operating information section by repeatedly acquiring operating status information from the information processing device,
Get forecast information that is the basis of power outage prediction by communication,
Based on the forecast information, it is predicted that there is a large risk of power failure within a predetermined time, and if the information processing device is predicted to be operating at a high risk time with reference to the operation schedule information, the power generator is started. When starting power generation and confirming that the output of the power generator is stable, instruct the switching device to switch from the commercial power source to the power generator,
After that, when forecast information is acquired at regular intervals and the risk of power failure is predicted to be small, or when the stop of the information processing device is detected with reference to the operating state information, the switching device is switched from the power generator to the commercial power source. It is characterized by instructing to switch and instructing the generator to stop.
[0013]
A fifth power supply control system according to the present invention includes a power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and power supplied to the information processing device as a commercial power source. And a power supply control system including a switching device for switching between the power generation device and the power generation device,
The power generation device includes a power generation unit that generates power according to an instruction of a power supply control device, a power storage unit that stores power generated by the power generation unit, and an output unit that generates output from the power generation unit and the power storage unit.
The power supply control device acquires forecast information as a basis for predicting the occurrence of a power outage through communication, and activates the power generator when predicting that there is a high risk of power outage within a predetermined time based on the forecast information. Start power generation and start charging the battery,
If a power failure occurs after that, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends,
If a power outage does not occur even after a time when there is a high risk of a power outage, the power generation device is instructed to stop, and the power generation unit from the commercial power supply to the switching device for a time corresponding to the power charged in the power storage unit It is characterized by instruct | indicating to switch to.
[0014]
A sixth power supply control system according to the present invention includes a power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and power supplied to the information processing device as a commercial power source. And a power supply control system including a switching device for switching between the power generation device and the power generation device,
The power generation device includes a power generation unit that generates power according to an instruction of a power supply control device, a power storage unit that stores power generated by the power generation unit, and an output unit that generates output from the power generation unit and the power storage unit.
The power supply control device obtains forecast information as a basis for occurrence of power failure through communication, predicts that there is a large risk of power failure within a predetermined time based on the forecast information, and if the risk is large Predict and predict that the information processing device is in operation at a more dangerous time, start the power generation device and start power generation to start charging the power storage unit,
Then, if a power failure occurs, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the information processing device stops.
If a power outage does not occur even after a time when there is a high risk of power outage, the power is supplied from the commercial power source to the information processing device for the time corresponding to the power charged in the power storage unit to the switching device. It is characterized by instruct | indicating to switch to.
[0015]
A seventh power supply control system according to the present invention includes a power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and power supplied to the information processing device as a commercial power source. And a power supply control system including a switching device for switching between the power generation device and the power generation device,
The power generation device includes a power generation unit that generates power according to an instruction of a power supply control device, a power storage unit that stores power generated by the power generation unit, and an output unit that generates output from the power generation unit and the power storage unit.
The power supply control device has an operation information unit that holds operation state information including information on whether the information processing device is operating or is stopped, and preset operation schedule information,
Update the operating information section by repeatedly acquiring operating status information from the information processing device,
Obtains forecast information that is the basis for predicting the occurrence of a power outage through communication, predicts that there is a high risk of a power outage within a predetermined time based on the forecast information, and further refers to the operation schedule information to increase the risk When it is predicted that the information processing device is operating at the time, the power generation device is started to start power generation, and charging of the power storage unit is started.
After that, if a power failure occurs, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the stop of the information processing device is detected with reference to the operating state information. And
If a power outage does not occur even after a time when there is a high risk of power outage, the power generation device is instructed to stop, and the switching device is supplied to the information processing device for a time corresponding to the power charged in the power storage unit. Instructing to switch the power to be switched from a commercial power source to a power generator.
[0016]
An eighth power supply control system of the present invention is the power supply control system according to any one of the first to seventh powers of the present invention, wherein the switching device is an uninterruptible power supply device having a power storage function. .
[0017]
The first power supply control device of the present invention obtains forecast information as a basis for occurrence of power failure through communication, and predicts that there is a high risk of power failure within a predetermined time based on the forecast information. Start the power generator to start power generation,
When it is confirmed that the output of the power generation device is stable, the switching device is instructed to switch the power supplied to the information processing device targeted for power supply control from the commercial power supply to the power generation device.
[0018]
The second power supply control device of the present invention obtains forecast information as a basis for predicting the occurrence of a power outage through communication, and predicts that there is a large risk of a power outage within a predetermined time based on the forecast information. Start the power generator to start power generation,
When it is confirmed that the output of the power generator is stable, the switching device is instructed to switch the power supplied to the information processing device subject to power supply control from the commercial power source to the power generator,
After that, when forecast information is acquired at regular intervals and it is predicted that the risk of power failure will be small, the switching device is instructed to switch the power supplied to the information processing device from the power generator to the commercial power source.
[0019]
The third power supply control device of the present invention obtains forecast information as a basis for predicting the occurrence of a power outage through communication, and generates power when predicting that there is a high risk of power outage within a predetermined time based on the forecast information. Start the device to start power generation and start charging the power storage unit provided in the power generation device,
If a power failure occurs after that, the switching device is instructed to switch the power supplied to the information processing device subject to power supply control from the commercial power source to the power generation device until the power failure ends,
If a power outage does not occur even after a time when there is a high risk of power outage, the power generation device is instructed to stop, and the switching device is supplied to the information processing device for a time corresponding to the power charged in the power storage unit. Instructing to switch the power to be switched from a commercial power source to a power generator.
[0020]
The fourth power supply control device of the present invention obtains forecast information as a basis for the occurrence of power outage through communication, predicts that there is a high risk of power outage within a predetermined time based on the forecast information, and When it is predicted that the power supply control target information processing device is in operation at a high risk time, the power generation device is started to start power generation, and charging of the power storage unit provided in the power generation device is started.
Then, if a power failure occurs, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the information processing device stops.
If a power outage does not occur even after a time when there is a high risk of power outage, the power generation device is instructed to stop, and the switching device is supplied to the information processing device for a time corresponding to the power charged in the power storage unit. Instructing to switch the power to be switched from a commercial power source to a power generator.
[0021]
The fifth power supply control device according to the present invention includes an operation information unit that stores operation state information including information indicating whether an information processing device subject to power supply control is operating or is stopped, and preset operation schedule information. Have
Update the operating information section by repeatedly acquiring operating status information from the information processing device,
Get forecast information that is the basis of power outage prediction by communication,
Based on the forecast information, it is predicted that there is a high risk of power failure within a predetermined time, and if the information processing device is predicted to be operating at a high risk time with reference to the operation schedule information, the power generator is started. Start charging and start charging the power storage unit provided in the power generator,
After that, if a power failure occurs, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the stop of the information processing device is detected with reference to the operating state information. And
If a power outage does not occur even after a time when there is a high risk of power outage, the power generation device is instructed to stop, and the switching device is supplied to the information processing device for a time corresponding to the power charged in the power storage unit. Instructing to switch the power to be switched from a commercial power source to a power generator.
[0022]
The first power supply control method of the present invention obtains forecast information as a basis for predicting the occurrence of a power outage through communication, and predicts that there is a high risk of a power outage within a predetermined time based on the forecast information. Start the power generator to start power generation,
A method characterized by instructing the switching device to switch the power supplied to the information processing device subject to power supply control from the commercial power source to the power generation device when it is confirmed that the output of the power generation device is stable.
[0023]
The second power supply control method of the present invention obtains forecast information as a basis for predicting the occurrence of a power outage through communication, and predicts that there is a high risk of a power outage within a predetermined time based on the forecast information. Start the power generator to start power generation,
When it is confirmed that the output of the power generator is stable, the switching device is instructed to switch the power supplied to the information processing device subject to power supply control from the commercial power source to the power generator,
After that, when forecast information is acquired at regular intervals and it is predicted that the risk of power failure will be small, the switching device is instructed to switch the power supplied to the information processing device from the power generator to the commercial power source.
[0024]
The third power supply control method of the present invention obtains forecast information as a basis for predicting the occurrence of a power failure through communication, and generates power when predicting that there is a high risk of a power failure within a predetermined time based on the forecast information. Start the device to start power generation and start charging the power storage unit provided in the power generation device,
If a power failure occurs after that, the switching device is instructed to switch the power supplied to the information processing device subject to power supply control from the commercial power source to the power generation device until the power failure ends,
If a power outage does not occur even after a time when there is a high risk of power outage, the power is supplied from the commercial power source to the information processing device for the time corresponding to the power charged in the power storage unit to the switching device. It is characterized by instruct | indicating to switch to.
[0025]
The fourth power supply control method of the present invention obtains forecast information as a basis for predicting the occurrence of a power outage through communication, predicts that there is a high risk of a power outage within a predetermined time based on the forecast information, and When it is predicted that the power supply control target information processing device is in operation at a high risk time, the power generation device is started to start power generation, and charging of the power storage unit provided in the power generation device is started.
Then, if a power failure occurs, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the information processing device stops.
If a power outage does not occur even after a time when there is a high risk of power outage, the power is supplied from the commercial power source to the information processing device for the time corresponding to the power charged in the power storage unit to the switching device. It is characterized by instruct | indicating to switch to.
[0026]
According to the fifth power supply control method of the present invention, operating state information including information indicating whether the information processing apparatus subject to repeated power supply control is operating or stopped is acquired from the information processing apparatus and stored in the operating information section. Update the health information
Get forecast information that is the basis of power outage prediction by communication,
Based on the forecast information, the information processing apparatus predicts that there is a high risk of power failure within a predetermined time and further refers to the operation schedule information of the information processing apparatus stored in the operation information section, and the information processing apparatus When it is predicted that it is operating, the power generation device is started to start power generation, and charging of the power storage unit provided in the power generation device is started.
After that, if a power failure occurs, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the stop of the information processing device is detected with reference to the operating state information. And
If a power outage does not occur even after a time when there is a high risk of power outage, the power generation device is instructed to stop, and the switching device is supplied to the information processing device for a time corresponding to the power charged in the power storage unit. Instructing to switch the power to be switched from a commercial power source to a power generator.
[0027]
The first program of the present invention obtains forecast information as a basis for predicting the occurrence of a power outage through communication, and predicts that there is a high risk of a power outage within a predetermined time based on the forecast information. Start up and start power generation,
When the output of the power generation device is confirmed to be stable, the computer is caused to execute a procedure for instructing the switching device to switch the power supplied to the information processing device subject to power supply control from the commercial power supply to the power generation device. To do.
[0028]
The second program of the present invention obtains forecast information as a basis for occurrence of power failure by communication, and predicts that there is a large risk of power failure within a predetermined time based on the forecast information. Start up and start power generation,
A procedure for instructing the switching device to switch the power supplied from the commercial power source to the power generator when the output of the power generator is confirmed to be stable;
After that, when forecast information is acquired at regular intervals and the risk of power failure is predicted to be small, the computer is caused to execute a procedure for instructing the switching device to switch the power supplied to the information processing device from the power generation device to the commercial power source. It is characterized by that.
[0029]
The third program according to the present invention obtains forecast information as a basis for predicting the occurrence of a power outage through communication, and activates the power generator when it is predicted that there is a high risk of a power outage within a predetermined time based on the forecast information. To start power generation and start charging the power storage unit provided in the power generator,
A procedure for instructing the switching device to switch the power supply supplied to the information processing device subject to power supply control from the commercial power supply to the power generation device until the power failure ends when the power failure occurs;
If a power outage does not occur even after a time when there is a high risk of power outage, the power is supplied from the commercial power source to the information processing device for the time corresponding to the power charged in the power storage unit to the switching device. And causing the computer to execute a procedure for instructing to switch to.
[0030]
The fourth program of the present invention obtains forecast information as a basis for predicting the occurrence of a power outage by communication, predicts that there is a large risk of a power outage within a predetermined time based on the forecast information, and further When the information processing device subject to power supply control is predicted to be in operation at a large time, a procedure for starting the power generation device and starting power generation to start charging the power storage unit provided in the power generation device;
A procedure for instructing the switching device to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the information processing device stops when a power failure occurs;
If a power outage does not occur even after a time when there is a high risk of power outage, the power is supplied from the commercial power source to the information processing device for the time corresponding to the power charged in the power storage unit to the switching device. And causing the computer to execute a procedure for instructing to switch to.
[0031]
The fifth program of the present invention obtains operating state information including information indicating whether the information processing apparatus subject to repeated power supply control is operating or stopped from the information processing apparatus and stores the operating state information in the operating information section With the steps to update
Get forecast information that is the basis of power outage prediction by communication,
Based on the forecast information, the information processing apparatus predicts that there is a high risk of power failure within a predetermined time and further refers to the operation schedule information of the information processing apparatus stored in the operation information section, and the information processing apparatus When it is predicted that the power generation unit is in operation, the power generation device is started to start power generation, and charging of the power storage unit provided in the power generation device is started
After that, if a power failure occurs, the switching device is instructed to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the stop of the information processing device is detected with reference to the operating state information. And the steps to
If a power outage does not occur even after a time when there is a high risk of power outage, the power generation device is instructed to stop, and the switching device is supplied to the information processing device for a time corresponding to the power charged in the power storage unit. And a procedure for instructing the computer to switch the power to be switched from the commercial power source to the power generator.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing a system configuration according to the first embodiment of the present invention. The system in FIG. 1 includes a power supply control device 10, a power generation device 14, a switching device 15, a computer 21, an information providing system 22, and the Internet 29. In FIG. 1, the line with an arrow indicates power transmission, and the other lines indicate information transmission.
[0033]
In FIG. 1, only the power supply control device 10 and the information providing system 22 are connected to the Internet 29, but whether other devices are connected to the Internet 29 is arbitrary. The power supply control device 10 and the information providing system 22 may be directly connected to the Internet 29, but although not shown, they are connected to the Internet 29 via a LAN (local area network) or an internet service provider. Also good.
[0034]
The information provision system 22 is a system that provides forecast information such as weather conditions such as thunderstorms and typhoons, volcanic activities, earthquake predictions, ocean conditions, and future weather, warnings, and warnings in real time for 24 hours. For example, there are a Japan Meteorological Agency system that provides nationwide information and a supplier system that provides local weather forecasts for a fee. The information providing system 22 has a function of connecting to the Internet 29 and providing information via a web page or an e-mail.
[0035]
The computer 21 is an information processing device such as a server, workstation, or personal computer used in the company. Usually, a large number of devices are gathered to form a system and execute a task that cannot be stopped due to a power failure or the like. In addition, the operating state information is provided to the power supply control device 10.
[0036]
The switching device 15 is a device that switches between the power of the commercial power supply provided by the power supplier for a fee and the power generated by the power generation device 14 in accordance with an instruction from the power supply control device 10 and supplies them to the computer 21. The power generation device 14 is a device capable of generating power independently of a commercial power source, starts power generation according to an instruction from the power supply control device 10, stops power generation, and supplies the generated power to the switching device. The interface portion between the switching device 15 and the power supply control device 10 of the power generation device 14 is operated by a power source independent of the commercial power source, and operates in response to an instruction from the power supply control device 10 even when the commercial power source is in a power failure. It can be done.
[0037]
The power supply control device 10 includes a power control unit 11 and an operation information unit 12, and controls the power generation device 14, the switching device 15, and the computer 21 connected to the Internet 29 and acquiring forecast information from the information providing system 22. It is a device to do. The power supply control device 10 is connected to the computer 21, the power generation device 14, and the switching device 15 via a LAN or a dedicated interface, and acquires information, transmits instruction information, and the like. There is no limitation on the connection form and communication method.
[0038]
The power control unit 11 executes management of the operation information unit 12 and processes related to the power sources of the computer 21, the power generation device 14, and the switching device 15, and is realized by a normal program. The power control unit 11 executes power supply processing based on the forecast information from the information providing system 22, the operation schedule and operation information of the computer 21.
[0039]
The operation information unit 12 is a storage unit that stores current operation state information of the computer 21 and operation schedule information of the computer 21, and is managed by the power control unit 11. The driving schedule information is information set in advance by a system administrator and is updated when the driving schedule is changed. The operating state information includes information indicating whether the computer 21 is operating normally or stopped, and is updated with information acquired by the power control unit 11 communicating with the computer 21 at regular intervals.
[0040]
FIG. 2 is a diagram illustrating an example of operating state information stored in the operating information unit 12, and FIG. 3 is a diagram illustrating an example of driving schedule information stored in the operating information unit 12. As shown in FIG. 2, the operation state information includes the current operation state and operation contents of each computer 21 such as the server A and the server B, and the operation schedule information is as in the server A and the server B as shown in FIG. The time information of start-up (power on) and stop (power-off) for each computer 21 is included. In FIG. 2, the UPS number information is not included in the configuration in which the UPS is not incorporated.
[0041]
Next, the operation of the first embodiment of the present invention will be described with reference to the flowchart of FIG. It is assumed that the power control unit 11 updates the information in the operation information unit 12 by acquiring each operation state information of the computer 21 at regular intervals even during the following operation.
[0042]
The method of updating the operating state information in this case is not particularly limited. For example, if the unit of the schedule is 10 minutes, the interval may be 10 minutes or 5 minutes, and the normal operation of each computer 21 may be confirmed. In some cases, information may be obtained every few seconds, and it may be determined that the computer 21 has become abnormal when there is no response, or information from the computer 21 when an unforeseen event such as the occurrence of an abnormality occurs. The notified information may be received and updated. These processes are executed by interrupting the following operations.
[0043]
The power control unit 11 accesses the information providing system 22 at regular intervals to acquire forecast information (S61). However, the forecast information may be received by e-mail or the like when the forecast information is updated by a contract with the information providing system 22.
[0044]
The power control unit 11 analyzes the acquired forecast information and compares it with a predetermined condition to determine the possibility of a power failure (S62). If the power control unit 11 determines that the possibility of a power failure is small, the process returns to step S61 for a certain period of time. The forecast information is repeatedly acquired later. For example, if a strong thunderstorm is predicted from around 3:00 pm to around 4:00 pm at 2 pm, preparations are made to start control for power failure at 2:30 pm.
[0045]
If it is determined in step S62 that the possibility of a power failure is high, the power control unit 11 reads out the operation information and the operation schedule information from the operation information unit 12 at the start of power failure preparation (S63), and the possibility of a power failure is high. It is predicted whether at least one or more of the computers 21 are operating in the time zone (S64), and if it is predicted that they are not operating, the process returns to step S61 without preparing for a power failure. Here, in the example of the thunderstorm forecast, the power outage preparation start time indicates 2:30 pm.
[0046]
When the operation is predicted in step S64, the power control unit 11 activates the power generation device 14 (S65), acquires the state of the power generation device 14 after a predetermined time (S66), the power generation device 14 starts up normally, and the output power is increased. It is determined whether it is stable (S67). For example, if it takes 3 minutes for the output of the power generation device 14 to become stable, the power control unit 11 acquires the state from the power generation device 14 3 minutes after activation.
[0047]
In addition, when the execution of retry is set once, the power control unit 11 acquires the state of the power generation device 14 after 3 minutes, and when the result is abnormal, the power generation device 14 is temporarily stopped and restarted, and then again 3 After a minute, the state of the power generator 14 is determined. When there is a retry as described above, step S66 is a step for making a final determination.
[0048]
If an abnormality occurs in step S66, the power control unit 11 stops the power generation device 14, notifies the system administrator of the abnormality in the power generation device 14 (S68), and returns to step S61. A notification to the system administrator is displayed on the display means of the power supply control device 10 informing the occurrence of an abnormality, notifying a designated contact by e-mail via the Internet 29, or connecting to a telephone line (not shown) Then, there is a method of notifying the occurrence of an abnormality to a designated telephone or terminal, either of which may be used, or a combination thereof.
[0049]
If normal in step S66, the power control unit 11 instructs the switching device 15 to switch the power supplied to the computer 21 from the commercial power source to the power generation device 14 (S69). In response to the instruction, the switching device 15 switches from the commercial power source to the power generation device 14. Thereby, since the computer 21 is operated with the electric power from the power generation device 14, even if an instantaneous interruption or a power failure occurs in the commercial power supply, the computer 21 enters a state where the operation can be continued without any trouble.
[0050]
After this, the power control unit 11 accesses the information providing system 22 to acquire forecast information, analyzes the forecast information, and determines whether the risk of power failure is reduced and the risk of power failure is released ( When the risk is released, the switching device 15 is instructed to switch to the commercial power source (S72), and the power generation device 14 is instructed to stop (S73).
For example, if it is confirmed in the forecast at 4 pm that the thunderstorm has passed and the risk of lightning has passed and there is no new power failure factor, it is determined that the risk has decreased.
[0051]
If the risk of a power failure remains unresolved in step S70, the operation state is determined with reference to the operation information section 12 (S71). If all the computers 21 stop operating, the switching device 15 is supplied with commercial power. (S72), the power generation device 14 is instructed to stop (S73), and if at least one computer is in operation, the process returns to step 70 to repeat the process from obtaining forecast information.
[0052]
As described above, in the first embodiment of the present invention, the possibility of a power failure is determined based on the forecast information and the operation information. When the possibility of a power failure is small, a commercial power source with a low cost is used. When there is a high possibility of power outage, it is possible to stably supply power without a power backup device such as UPS by switching to the power generator 14 capable of supplying stable power.
[0053]
In addition, a UPS may be inserted between the switching device 15 and the computer 21 in the configuration of FIG. 1 to prepare for an unpredictable short-time power failure or instantaneous interruption. When a long-time power outage due to a natural disaster such as a typhoon, thunderstorm, earthquake, or heavy snow occurs, the power generation device 14 is activated in advance, so the UPS has time to switch to the power generated by the power generation device 14 as in the past. The battery capacity for satisfying is not required, and the battery capacity is sufficient to save a short-time power failure.
[0054]
Next, a second embodiment of the present invention will be described with reference to the drawings. FIG. 5 is a diagram showing a system configuration of the second embodiment. The second embodiment is characterized in that the power generation device 40 is provided with the power storage unit 42 as compared to the first embodiment. Another feature is that a UPS 50 with a power storage function is incorporated instead of the switching device 15. Components having the same functions as those of the first embodiment are denoted by the same reference numerals as those in FIG.
[0055]
Referring to FIG. 5, the system of the second embodiment includes a computer 21, an information providing system 22, and an Internet 29 having the same functions as those of the first embodiment, a power supply control device 30, a power generation device 40, and a UPS 50. It becomes the composition containing.
[0056]
The power generation device 40 includes a power generation unit 41 that generates power, a power storage unit 42 that stores the power generated by the power generation unit 41, and an output unit 43 that combines and outputs the power of the power generation unit 41 and the power storage unit 42. It is out. The power storage unit 42 includes a function of charging by changing the AC power of the power generation unit 41 to DC, and the output unit 43 changes the AC of the power generation unit 41 to DC and combines it with the DC of the power storage unit 42, and then returns to AC and outputs it. However, the output of the power storage unit 42 may be converted to alternating current and switched to the alternating current output of the power generation unit 41, and any structure that can output from the power storage unit 42 when power generation is stopped is sufficient.
[0057]
The UPS 50 includes a power storage unit 52 that stores power and a switching unit 51. The UPS 50 is connected to the computer 21 managed by the operation information unit 32 on a one-to-one basis and supplies power to the computer 21. However, a plurality of computers 21 with low power consumption may be collectively supplied with 1 to N power. For example, referring to FIG. 2, server B and server C are supplied from the same UPS.
[0058]
The switching unit 51 is configured to switch the output power between the power generation device 40 and the other in accordance with an instruction from the power supply control device 30, and switching between the commercial power source and the power storage unit 52 is performed by supplying the commercial power source. When the operation stops, the power storage unit 52 is switched. The power storage unit 52 can be charged when commercial power is supplied, and supplies power instead of the commercial power when the commercial power is stopped. In addition, between the switching unit 51 and the power storage unit 52 is direct current, and conversion between direct current and alternating current is performed inside the switching unit 51.
[0059]
The power supply control device 30 includes a power control unit 31 and an operation information unit 32. The content of the operation information unit 32 is the same as that of the operation information unit 12 in FIG. 1, and the operation information unit 32 is also managed by the power control unit 31. This is the same as the management of the operation information unit 12 by the power control unit 11. In addition to managing the operation information unit 32, the power control unit 31 accesses the information providing system 22 to obtain forecast information, accesses the computer 21 to obtain the operating state of the computer 21, and activates the power generation device 40 and the UPS 50. -Controls such as stop and power switching are executed.
[0060]
Next, the operation of the second exemplary embodiment of the present invention will be described with reference to the drawings. FIG. 6 is a flowchart showing the operation of the second embodiment. First, the power control unit 31 acquires forecast information from the information providing system 22 at regular intervals (S81), determines the risk of a power failure (S82), and checks the operating status of the power failure prediction time (S83). The operations in steps S81 to S83 are the same as those in steps S61 to S64.
[0061]
When the operation is predicted in the power failure prediction time zone, the power control unit 31 instructs the power generation device 40 to start up (S84). When receiving the activation instruction, the power generation device 40 activates the power generation unit 41, and the power generation unit 41 starts power generation. When the power generation unit 41 starts power generation, the output unit 43 starts output from the power generation unit 41 or the power storage unit 42. When the output of the power generation unit 41 becomes stable after a certain time, charging of the power storage unit 42 is started.
[0062]
The electric power control part 31 will acquire a state from the electric power generating apparatus 40, if the regulation time defined in the electric power generating apparatus 40 passes (S85), and will determine whether it is normal (S86). Here, the specified time is a time determined according to the characteristics of the power generation device 40, and is determined by, for example, a time during which the output is stabilized.
[0063]
When it determines with it being abnormal in step S86, the electric power control part 31 stops the electric power generating apparatus 40, and notifies generation | occurrence | production of abnormality (S92). The method for notifying the occurrence of abnormality is not particularly limited. For example, although not shown, a message is displayed on the display means of the power supply control device 30, an e-mail is sent to a predetermined destination via the Internet 29, or the public Connect to the line and report to a designated terminal.
[0064]
Moreover, you may control to restart when the starting of the electric power generating apparatus 40 fails, In that case, although not illustrated, the electric power generating apparatus 40 is stopped by step S86, and it returns to step S84. Since the number of restarts is usually limited to one or three times, if it is exceeded, an abnormality is determined. For example, when the number of restarts is limited to one, if it is abnormal again in the second step S86, it is determined as abnormal and the process proceeds to step S92. If it is normal in the second step S86, it is determined as normal. .
[0065]
When it determines with it normal in step S86, the electric power control part 31 waits for generation | occurrence | production of a power failure (S87). The detection of the occurrence of a power failure may be determined from, for example, a commercial power supply state by inquiring one of the UPSs 50.
[0066]
If a power failure is not detected, the power control unit 31 obtains forecast information and determines whether the risk of a power failure has been canceled (S88). If not canceled, the power control unit 31 returns to step 87 and continues to wait for the occurrence of a power failure.
[0067]
When it is canceled, the power control unit 31 instructs the power generation apparatus 40 to stop (S89), and refers to the operation information unit 32 to determine whether the computer 21 is operating (S90). The operating state of the computer 21 in this case is determined to be stopped when all the computers 21 are stopped, and otherwise determined to be operating. Referring to the operation schedule of FIG. 3, since the server A is from 8:00 on Monday to 18:00 on Friday and the server D is from 9:00 to 19:00 every day from Monday to Friday, the entire computer 21 is in operation. The state will be from 8:00 on Monday to 19:00 on Friday on the schedule. However, the actual operating state is determined with reference to the operating state information in FIG.
[0068]
If not, the power control unit 31 instructs the UPS 50 to switch from the commercial power source to the power generator 40 and returns the commercial power source to the UPS 50 after a specified time has elapsed. (S91).
[0069]
When receiving the stop instruction, the power generation device 40 stops the power generation unit 41 to stop the power generation, and the output unit 43 sets the power stored in the power storage unit 42 to a state where it can be output. When the UPS 50 receives an instruction to switch from the commercial power source to the power generation device 40, the UPS 50 stops supplying the commercial power source and only supplies from the power generation device 40. As a result, the power stored in the power storage unit 42 is supplied to the computer 41.
[0070]
When an instruction to switch to the commercial power source is received after the set time, the UPS 50 accepts the power supply from the commercial power source and supplies the power of the commercial power source to the computer 21. If the switching unit 51 is configured to output the AC power of the commercial power source, the power generation device 40, and the power storage unit 52 in a DC state, the AC power source is disconnected and connected in response to the switching instruction. Control is sufficient.
[0071]
The set time in this case is a time determined from the capacity / charge amount of the power storage unit 42 and the power consumption of the computer 21 in operation. If it is too large, switching to the commercial power source is delayed and the power storage unit 42 and the power storage unit Since the parts 52 are discharged together and the power supply to the computer 21 is stopped, it is necessary to set so as not to happen.
[0072]
If you start power generation with the power generator 40, but the risk of a power outage without a power outage has passed, S The power generated by the power generation device 40 in the power failure prediction is transferred to the power storage unit 42 by the operations of 88 to S92. Accumulation Since it is supplied with electricity and consumed by the computer 21 after the danger of a power failure, the generated power can be used effectively without wasting it.
[0073]
When a power failure is detected in step S87, the power control unit 31 instructs the UPS 50 to switch from the commercial power supply to the power generation device 40 (S93). When the UPS 50 receives a switching instruction from the commercial power source to the power generation device 40, the UPS 50 switches from the commercial power source to the power generation device 40 to output power. As a result, the power generated by the power generation device 40 can be supplied to the computer 21, so that the supply of power can be continued. If the switching unit 51 is configured to output the AC power of the commercial power source, the power generation device 40, and the power storage unit 52 in a DC state, the power is automatically supplied only to the power generation device 40 due to a power failure. The control unit 31 does not have to issue an instruction to switch to the UPS 50.
[0074]
In this way, the power supply of the computer 21 can be continued by supplying power from the power generation device 40 even during a power failure. In this state, it is determined whether the risk of power failure has been released (S94). If not released, it is further determined whether the operation is stopped (S95). If it is not canceled and is operating, step S94 is repeated. In addition,
If the risk of power failure is canceled in step S94, or if it is stopped in step S95, the UPS 50 is instructed to switch to the commercial power source (S96), and the power generation apparatus 40 is instructed to stop (S97). The UPS 50 switches to a commercial power supply when receiving a switching instruction, and the power generation device 40 stops power generation when receiving a stop instruction.
[0075]
As described above, in the second embodiment, power generation is started based on the forecast to stabilize the operation of the generator, and when a power failure occurs, the commercial power supply is immediately switched to the power generation apparatus 40. Therefore, the UPS 50 is necessary. The capacity of the battery to be used is very small.
[0076]
In the above description, the power generation device 40 continues power generation until the risk of power failure ends, but power generation is stopped when the power storage unit 42 is 100% charged, power generation is resumed when a power failure occurs, and output is A control method is also conceivable in which the power of the power storage unit 42 is covered until stabilization. Further, the power generation device 40 may be configured not to mount the power storage unit 42. In this configuration, as in the first embodiment, when the output of the power generation device 40 is stabilized and the UPS 50 is controlled to switch from the commercial power source to the power generation device 40, the generated power can be effectively used without wasting, Even with a small battery capacity, it can handle unforeseen momentary interruptions and extremely short interruptions.
[0077]
【The invention's effect】
As described above, according to the present invention, it is possible to cope with a power failure even if there is no backup power supply device having a power storage function such as UPS by predicting the occurrence of a power failure and starting power generation. In addition, it is possible to cope with long-time power outages from unexpected power interruptions simply by incorporating a small capacity battery UPS.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a first exemplary embodiment of the present invention.
2 is an example of operation information of a computer 21 stored in an operation information section 12 and an operation information section 32. FIG.
3 is an example of operation schedule information of the computer 21 stored in the operation information section 12 and the operation information section 32. FIG.
FIG. 4 is a flowchart of the operation of the first exemplary embodiment of the present invention.
FIG. 5 is a block diagram showing a configuration of a second exemplary embodiment of the present invention.
FIG. 6 is a flowchart of the operation of the second exemplary embodiment of the present invention.
[Explanation of symbols]
10 Power supply control device
11 Power control unit
12 Operation Information Department
14 Power generator
15 switching device
21 computer
22 Information provision system
29 Internet
30 Power supply control device
31 Power control unit
32 Operation Information Department
40 Power generator
41 Power generation unit
42 Power storage unit
43 Output section
50 UPS
51 switching section
52 Power storage unit

Claims (6)

A power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and a switching device that switches between power supply to the information processing device as a commercial power source or a power generation device A power supply control system including:
The power generation device includes a power generation unit that generates power according to an instruction of a power supply control device, a power storage unit that stores power generated by the power generation unit, and an output unit that generates output from the power generation unit and the power storage unit.
The power supply control device includes an operation information unit that stores operation state information including information indicating whether the information processing device is in operation or is stopped, and preset operation schedule information. The information is acquired and the operation information section is updated, the forecast information that is the basis of the occurrence of power outage is obtained through communication, and it is predicted that there is a high risk of power outage within a predetermined time based on the forecast information. Furthermore, referring to the operation schedule information, if the information processing device is predicted to be operating at a high risk time, it starts the power generation device to start power generation and starts charging the power storage unit, and then switches if a power failure occurs Instructing the device to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the stop of the information processing device is detected with reference to the operating state information , If the large time risk of blackout blackout even after does not occur, and instructed to stop the power generation unit, information from only the power storage unit time corresponding to the power charged in the power storage unit with respect to the switching device In order to supply electric power to a processing apparatus, the electric power supply control system which instruct | indicates to switch the connection of the electric power to supply from a commercial power source to an electric power generating apparatus. 2. The power supply control system according to claim 1 , wherein the switching device is an uninterruptible power supply device having a power storage function. It has an operation information section that holds operation state information including information on whether an information processing device subject to power supply control is in operation or is stopped, and preset operation schedule information. Obtain and update the operation information section, acquire forecast information that is the basis of power outage prediction through communication, predict that there is a high risk of power outage within a predetermined time based on the forecast information, and further drive schedule When it is predicted that the information processing device is in operation at a time when the danger is high by referring to the information, the power generation device is started and power generation is started to start charging the power storage unit provided in the power generation device, and then a power failure occurs Switches the power supplied to the information processing device from the commercial power supply to the power generation device until the power failure for the switching device is completed or the stop of the information processing device is detected with reference to the operating state information Bovine instruction, if the large time risk of blackout blackout even after does not occur, and instructed to stop the power generation device, the power storage amount of time corresponding to the power charged in the power storage unit with respect to the switching device In order to supply power to the information processing apparatus from the unit, the power supply control apparatus is configured to instruct to switch the connection of the power to be supplied from the commercial power supply to the power generation apparatus. A power supply control device that controls power supplied to an information processing device subject to power supply control, a power generation device that generates power, and a switching device that switches between power supply to the information processing device as a commercial power source or a power generation device A power supply control method including:
The power generation device includes a power generation unit that generates power according to an instruction of a power supply control device, a power storage unit that stores power generated by the power generation unit, and an output unit that generates output from the power generation unit and the power storage unit.
The power supply control device includes an operation information unit that stores operation state information including information indicating whether the information processing device is in operation or is stopped, and preset operation schedule information. The information is acquired and the operation information section is updated, the forecast information that is the basis of the occurrence of power outage is obtained through communication, and it is predicted that there is a high risk of power outage within a predetermined time based on the forecast information. Furthermore, referring to the operation schedule information, if the information processing device is predicted to be operating at a high risk time, it starts the power generation device to start power generation and starts charging the power storage unit, and then switches if a power failure occurs Instructing the device to switch the power supplied to the information processing device from the commercial power source to the power generation device until the power failure ends or the stop of the information processing device is detected with reference to the operating state information , If the large time risk of blackout blackout even after does not occur, and instructed to stop the power generation unit, information from only the power storage unit time corresponding to the power charged in the power storage unit with respect to the switching device In order to supply electric power to a processing apparatus, the electric power supply control method characterized by instruct | indicating switching the connection of the electric power to supply from a commercial power source to an electric power generating apparatus.   6. The power supply control method according to claim 5, wherein the switching device is an uninterruptible power supply device having a power storage function. A procedure for updating operating status information stored in the operating information section by acquiring operating status information including information on whether the information processing device subject to repeated power supply control is operating or stopped, and a power outage by communication Forecast information that is the basis of the occurrence of the accident, predict that the risk of power failure within a predetermined time based on the forecast information is large, and further store the operation schedule information of the information processing device stored in the operation information section If the information processing device is predicted to be in operation at a time when the risk is high, refer to the procedure to start the power generation device and start power generation to start charging the power storage unit provided in the power generation device, and then a power failure occurs Switches the power supplied to the information processing device from the commercial power source to the power generation device until the power failure for the switching device ends or the stoppage of the information processing device is detected with reference to the operating state information. A step of instructing, when the large time risk of blackout blackout even after does not occur, and instructed to stop the power generation unit, by a time corresponding to the power charged in the power storage unit with respect to the switching device A program for causing a computer to execute a procedure for instructing to switch a connection of power to be supplied from a commercial power source to a power generation device in order to supply power from the power storage unit to the information processing device.

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