JP2018143033A - Power supply system, control device, control method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To supply power even at a normal time without trouble in power supply during a power failure regarding a power source that supplies power from a storage battery in the case of a power failure.SOLUTION: A power supply system comprises: a power source device; a storage battery which supplies power to a load in the case of a power failure in the power supply device; a power supply capability discrimination unit which discriminates whether suppliable power from the power source device is insufficient for required power of the load; a power storage amount discrimination unit which discriminates whether a power storage amount of the storage battery is more than a discrimination reference value for determining whether the required power can be supplied to the load in the case of the power failure in the power supply device; and a charge/discharge control unit by which, in a state where the power supply device supplies power to the load, in a case where the power supply capability discrimination unit discriminates that the suppliable power is insufficient for the required power and the power storage amount discrimination unit discriminates that the power storage amount is more than the discrimination reference value, the storage battery is discharged.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a power supply system, a control device, a control method, and a program.

Several techniques have been proposed for power supply systems equipped with livestock batteries.
For example, Patent Document 1 describes a power management system for a customer facility that includes a natural energy power generation device and a storage battery. In this power management system, the power consumption estimation unit estimates the power consumption of the next measurement cycle in the customer facility from the past power consumption data. The generated power estimation unit estimates the generated power of the next measurement cycle in the customer facility from the past generated power data. The surplus power estimation unit obtains estimated surplus power that is a difference between the estimated generated power and the power consumption. The power management unit controls each of charging and discharging of the storage battery based on the estimated surplus power.

  Patent Document 2 describes a power control system for effectively using generated power without switching the operation mode of a power generator such as a fuel cell. In this power control system, the power storage device, the current detection unit, and the power generation device are connected in this order from the system side, and the current detection unit detects the amount of current between the power generation device and the power storage device. The control unit controls charging of the power generated by the power generation device to the power storage device based on the amount of power calculated from the amount of current acquired from the current detection unit.

International Publication No. 2016/043243 JP 2006-163371 A

One of the power supply systems provided with a storage battery is an uninterruptible power supply. The uninterruptible power supply supplies power necessary for the operation of the load from a storage battery at the time of a power failure.
Thus, regarding the power supply system that supplies power from the storage battery at the time of a power failure, if power can be supplied from the storage battery to the load not only at the time of a power failure but also at a normal time, the flexibility of power supply increases. At that time, it is required that the power required at the time of a power failure is not insufficient. For example, when the server device is connected to the uninterruptible power supply, it is necessary to continue power supply from the storage battery until the server device completes shutdown and stops at the time of power failure.
On the other hand, neither of Patent Documents 1 and 2 describes control of power supply from a power supply system that supplies power from a storage battery during a power failure.

  An object of the present invention is to provide a power supply system, a control device, a control method, and a program that can solve the above-described problems.

  According to the first aspect of the present invention, the power supply system includes a power supply device, a storage battery that supplies power to the load at the time of a power failure of the power supply device, and power that can be supplied from the power supply device is required power of the load. Whether or not the power storage capacity of the storage battery is greater than a criterion value for determining whether or not the necessary power can be supplied to the load at the time of a power failure of the power supply device The power storage capacity determination unit that determines whether or not the power supply capacity determination unit is short of the required power with respect to the required power in a state where the power supply device supplies power to the load. And when the said electrical storage amount determination part determines with the said electrical storage amount being larger than the said determination reference value, the charging / discharging control part which discharges the said storage battery is provided.

  According to the second aspect of the present invention, the control device determines whether or not the power that can be supplied from the power supply device is insufficient with respect to the required power of the load, and the power failure of the power supply device. A storage amount determination unit that determines whether or not a storage amount of a storage battery that supplies power to the load sometimes is greater than a determination reference value whether or not the necessary power can be supplied to the load at the time of a power failure of the power supply device; In a state where the power supply device supplies power to the load, the power supply capacity determination unit determines that the suppliable power is insufficient with respect to the necessary power, and the storage amount determination unit A charge / discharge control unit that causes the storage battery to discharge when it is determined that the amount of stored electricity is greater than the determination reference value.

  According to the third aspect of the present invention, the control method determines whether or not the power that can be supplied from the power supply device is insufficient with respect to the required power of the load, and the power is supplied to the load during a power failure of the power supply device. It is determined whether or not the amount of power stored in the storage battery that supplies the battery is greater than a reference value for determining whether or not the required power can be supplied to the load in the event of a power failure of the power supply device, and the power supply device supplies power to the load When it is determined that the suppliable power is insufficient with respect to the required power and the amount of stored electricity is greater than the determination reference value, the storage battery is discharged. , Including that.

  According to the fourth aspect of the present invention, the program causes a computer to determine whether or not the power that can be supplied from the power supply device is insufficient with respect to the required power of the load, and the load at the time of a power failure of the power supply device Determining whether or not the amount of power stored in the storage battery that supplies power to the load is greater than a reference value for determining whether or not the required power can be supplied to the load in the event of a power failure of the power supply. When it is determined that the suppliable power is insufficient with respect to the required power and the amount of stored electricity is greater than the determination reference value, the storage battery is discharged. This is a program for controlling the storage battery to be performed.

  According to this invention, regarding the power source that supplies power from the storage battery at the time of a power failure, the power can be supplied even during normal time without causing any trouble in the power supply at the time of the power failure.

It is a schematic block diagram which shows the function structural example of the electric power supply system which concerns on embodiment of this invention. It is a schematic block diagram which shows the function structural example of a control apparatus. It is a graph which shows the example of the relationship between the power consumption of load, and the dischargeable time of a storage battery when a storage battery is fully charged. It is a flowchart which shows the example of the procedure of the process which a control apparatus performs. It is a schematic block diagram which shows the function structural example of an electric power supply system when it replaces with a control apparatus and a storage battery memorize | stores backup time. It is a schematic block diagram which shows the function structural example of a control apparatus when a storage battery memorize | stores backup time instead of a control apparatus. It is a figure which shows the example of the minimum structure of the electric power supply system which concerns on this invention. It is a figure which shows the example of the minimum structure of the control apparatus which concerns on this invention.

Hereinafter, although embodiment of this invention is described, the following embodiment does not limit the invention concerning a claim. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.
FIG. 1 is a schematic block diagram illustrating a functional configuration example of a power supply system according to an embodiment of the present invention. As shown in FIG. 1, the power supply system 100 includes a power supply device 110, a storage battery 120, and a control device 200.

The power supply system 100 is a system that supplies power to the server apparatus 900 and functions as an uninterruptible power supply (UPS).
The target and the number to which the power supply system 100 supplies power are not limited to the specific target and the number. Hereinafter, an object to which the power supply system 100 supplies power is also referred to as a load.
On the other hand, the power supply system 100 can deal with a device that requires a shutdown time when stopped, such as the server device 900 shown in FIG. When power supply from the power supply device 110 cannot be performed, the power supply system 100 outputs a shutdown signal to the server device 900. The power supply system 100 uses the storage battery 120 to maintain power supply during the time required for the server apparatus 900 that has received the shutdown signal to complete the shutdown.
In addition, when the power supplied from the power supply device 110 is insufficient, the power supply system 100 compensates for the insufficient power using the storage battery 120.

The power supply apparatus 110 receives power from an external power supply system 100 such as a commercial power supply, and supplies power to the server apparatus 900. The number of power supply devices 110 included in the power supply system 100 is not limited to three as shown in FIG. 1 and may be one or more.
FIG. 1 shows an example in which the power supply device 110 converts alternating current (AC) power from an external power source into direct current (DC) power of the operating voltage of the server device 900. However, the power conversion performed by the power supply apparatus 110 is not limited to a specific one. For example, when the server apparatus 900 can operate with commercial power, the power supply apparatus 110 may perform only power failure detection without performing power conversion.

The power failure here is that the power supply device 110 does not output power. Typically, no power supply from external power corresponds to an example of a power failure. Even when a part of the plurality of power supply devices 110 does not output power, such as when the power supply device 110 breaks down, and the supply of the necessary power of the server device 900 cannot be maintained, the power supply system 100 is detected as a power failure. It may be. The power failure is also referred to as a power failure of the power supply device 110.
The method by which the power supply system 100 detects a power failure is not limited to a specific method. For example, the power supply device 110 may detect a power failure. Alternatively, the power supply system 100 may include a power failure detection sensor.
Hereinafter, a state where no power failure occurs is referred to as normal time.

The storage battery 120 functions as a backup power source for the power supply device 110.
The storage battery 120 supplies power to the server apparatus 900 in place of the power supply apparatus 110 during a power failure. In this case, the storage battery 120 maintains power supply during the backup time. The backup time here is a time required for the storage battery 120 to supply power to the server device 900 when the power supply device 110 is powered down. The backup time is set to a time longer than the time required for the server apparatus 900 to shut down.
In addition, when the power supplied from the power supply device 110 to the server device 900 is insufficient, the storage battery 120 supplies the shortage of power to the server device 900 within a range in which the necessary power during a power failure can be secured.

When the power supplied from the power supply apparatus 110 to the server apparatus 900 has a margin, the storage battery 120 charges the storage battery 120 itself.
The method of switching charging / discharging of the storage battery 120 is not limited to the specific sound method. For example, the storage battery 120 may include an inverter that performs charge / discharge switching. Or you may make it the storage battery 120 charge / discharge by a float charge system, and may suppress the discharge from the storage battery 120 with a switch etc. in the state which cannot ensure the required electric power at the time of a power failure.

The control device 200 controls each part of the power supply system 100. In particular, when the control device 200 detects that the power supplied from the power supply device 110 is insufficient with respect to the required power of the server device 900, the control device 200 causes the storage battery 120 to discharge based on the state of the storage battery 120. Decide whether or not.
Moreover, the control apparatus 200 transmits a shutdown signal to the server apparatus 900, when a power failure is detected. The shutdown signal here is a signal that instructs the server apparatus 900 to perform shutdown.
The control device 200 is configured using a computer, for example.

The server device 900 operates by receiving power supply from the power supply system 100. In addition, when the server apparatus 900 receives a shutdown signal from the control apparatus 200, the server apparatus 900 performs its own shutdown process.
The power line W111 is a power line that connects the power supply device 110 and the storage battery 120 to the server device 900. The power supply device 110 and the storage battery 120 supply power to the server device 900 via the power line W111.

The first control bus W121 is a communication path between the power supply device 110 and the storage battery 120 and the control device 200. The first control bus W121 may be a wired communication path or a wireless communication path. When the power supply device 110 detects a power failure, the control device 200 acquires a signal indicating the presence or absence of the power failure from the power supply device 110 via the first control bus W121. In addition, control device 200 outputs a control signal instructing charging / discharging of storage battery 120 to storage battery 120.
The second control bus W131 is a communication path between the control apparatus 200 and the server apparatus 900. The second control bus W131 may be a wired communication path or a wireless communication path. When detecting a power failure, the control device 200 transmits a shutdown signal to the server device 900 via the second control bus W131.

  FIG. 2 is a schematic block diagram illustrating a functional configuration example of the control device 200. In the example of FIG. 2, the control device 200 includes a communication unit 210, an operation input unit 220, a display unit 230, a storage unit 280, and a control unit 290. The storage unit 280 includes a backup time storage unit 281. The control unit 290 includes a power supply capacity determination unit 291, a reference value calculation unit 292, a storage amount determination unit 293, a charge / discharge control unit 294, and a reduction instruction unit 295.

The communication unit 210 communicates with other devices.
The operation input unit 220 includes an input device such as a push button and receives a user operation. For example, the operation input unit 220 receives a user operation for inputting a backup time.
However, the method by which the control device 200 acquires the backup time information of the server device 900 is not limited to the method that the user inputs. For example, the control device 200 may store the backup time in advance. Alternatively, the server device 900 may store in advance the time required for its own shutdown as the backup time, and transmit information indicating the backup time to the control device 200.

The display unit 230 includes a display device such as a liquid crystal panel, and displays various types of information.
The memory | storage part 280 is comprised using the memory | storage device with which the control apparatus 200 is provided, and memorize | stores various information.
The backup time storage unit 281 stores the backup time.
The control unit 290 controls each unit of the control device 200 and executes various processes. The control unit 290 is configured by, for example, a CPU (Central Processing Unit) provided in the control device 200 reads out and executes a program from the storage unit 280.

  The power supply capacity determination unit 291 determines whether or not the power that can be supplied from the power supply apparatus 110 is insufficient with respect to the necessary power of the server apparatus 900. For example, the communication unit 210 receives required power information indicating the required power of the server apparatus 900 from the server apparatus 900. Then, the power supply capacity determination unit 291 compares the measured power value output from the power supply device 110 with the required power of the server device 900. When the measured value of the power output from the power supply apparatus 110 is smaller than the required power of the server apparatus 900, the power supply capacity determination unit 291 has insufficient power that can be supplied from the power supply apparatus 110 with respect to the required power of the server apparatus 900. It is determined that

  The reference value calculation unit 292 calculates a determination reference value based on the power consumption (required power) of the server device 900 and the backup time. The determination reference value here is a determination reference value for determining whether or not the necessary power can be supplied to the server apparatus 900 when the power supply apparatus 110 is powered off. The determination reference value is used to determine whether or not to cause the storage battery 120 to discharge when the power that can be supplied from the power supply device 110 is insufficient with respect to the required power of the server device 900.

FIG. 3 is a graph showing an example of the relationship between the power consumption of the load and the dischargeable time of the storage battery 120 when the storage battery 120 is fully charged. The horizontal axis of the graph shown in FIG. 3 indicates the power consumption of the load. The vertical axis indicates the dischargeable time of the storage battery 120.
For example, the backup time storage unit 281 stores information indicating an example of the relationship between the power consumption of the load and the dischargeable time of the storage battery 120 in addition to the backup time information. The reference value calculation unit 292 calculates a determination reference value using these pieces of information.

  Further, for example, the required power when the server apparatus 900 is shut down is 1200 watts (W), and the reference value calculation unit 292 refers to the information shown in FIG. 3 to determine the time during which the storage battery 120 can output 1200 watts of power. Assume that 360 seconds are read. When the backup time storage unit 281 stores the backup time as 180 seconds, the reference value calculation unit 292 calculates the SOC necessary for dealing with a power failure as 180/360 = 50%.

  The storage amount determination unit 293 determines whether or not the storage amount of the storage battery 120 is greater than the determination reference value calculated by the reference value calculation unit 292. The index value used for determination by the power storage amount determination unit 293 is not limited to a specific index value. For example, the reference value calculation unit 292 calculates a determination reference value of SOC (State Of Charge), and the charged amount determination unit 293 makes a determination by comparing the SOC of the storage battery 120 and the determination reference value. May be.

  The charge / discharge control unit 294 controls charge / discharge of the storage battery 120. In particular, the charge / discharge control unit 294 is configured so that the power supply capability determination unit 291 determines that the power that can be supplied from the power supply device 110 is less than the power required by the server device 900 while the power supply device 110 supplies power to the server device 900. When it determines with it being insufficient and the electrical storage amount determination part 293 determines with the electrical storage amount of the storage battery 120 being larger than a determination reference value, it makes the storage battery 120 discharge. That is, the charging / discharging control unit 294 normally causes the storage battery 120 to discharge when the power supplied from the power supply device 110 is insufficient and the storage amount of the storage battery 120 is larger than the required amount at the time of a power failure. Insufficient power is supplied to the server apparatus 900.

  On the other hand, the charge / discharge control unit 294 is configured such that the power supply capacity determination unit 291 determines that the power that can be supplied from the power supply device 110 is equal to the power required by the server device 900 while the power supply device 110 supplies power to the server device 900 When it determines with it being insufficient and the electrical storage amount determination part 293 determines with the electrical storage amount of the storage battery 120 being below a determination reference value, the discharge from the storage battery 120 is suppressed. That is, the charging / discharging control unit 294 normally causes the storage battery 120 to discharge when the power supplied from the power supply device 110 is insufficient and the storage amount of the storage battery 120 is less than or equal to the required amount during a power failure. Absent.

  The reduction instruction unit 295 transmits an instruction regarding power usage of the server device 900 to the server device 900 via the communication unit 210. When the server device 900 wants to use the power of the power supply system 100, the server device 900 transmits a power usage request including a notification of necessary power to the control device 200. The server device 900 uses the power of the power supply system 100 only when the reduction instruction unit 295 permits it. Further, when the reduction instruction unit 295 instructs the server device 900 to reduce power usage, the server device 900 reduces the usage of the instructed power.

  In particular, the reduction instruction unit 295 determines that the storage amount determination unit 293 determines that the storage amount of the storage battery 120 is equal to or less than the determination reference value in a state where both the power supply device 110 and the storage battery 120 supply power to the load. In this case, the server apparatus 900 is instructed to reduce power consumption. That is, when the storage battery 120 is discharging a shortage of power supplied from the power supply device 110 in a normal state, the charge / discharge control unit 294 is configured to perform the server device when the storage amount of the storage battery 120 becomes less than the required amount at the time of a power failure. Instruct 900 to reduce power consumption. In this case, since the charge / discharge control unit 294 stops the discharge of the storage battery 120, the server device 900 is made to respond to the stop of the discharge.

Next, the operation of the power supply system 100 will be described with reference to FIG.
FIG. 4 is a flowchart illustrating an example of a procedure of processing performed by the control device 200. The control device 200 repeats the process of FIG. 4 while the power supply system 100 supplies power to the server device 900, for example.
(Step S101)
The communication unit 210 acquires required power information from the server device 900. The required power information here is information indicating the power requested by the server apparatus 900 to the power supply system 100.
After step S101, the process proceeds to step S102.

(Step S102)
The power supply capability determination unit 291 determines whether or not the power requested by the server device 900 can be supplied from the power supply device 110. If it is determined that supply is possible (step S102: YES), the process proceeds to step S111. If it is determined that supply is not possible (step S102: NO), the process proceeds to step S121.

(Step S111)
The reduction instruction unit 295 transmits a notification permitting use of the requested power to the server device 900 via the communication unit 210. Server device 900 operates in response to the supply of power from power supply system 100 in accordance with this notification.
After step S111, the process of FIG. 4 ends.

(Step S121)
A reference value calculation unit 292 calculates a determination reference value. For example, as described with reference to FIG. 3, the reference value calculation unit 292 uses the information indicating an example of the relationship between the power consumption of the load and the dischargeable time of the storage battery 120 as the required power when the server apparatus 900 is shut down. Is applied to obtain the time during which the storage battery 120 can output this required power. Then, the server apparatus 900 calculates a determination reference value using the SOC based on the ratio between the obtained time and the backup time.
After step S121, the process proceeds to step S122.

(Step S122)
The storage amount determination unit 293 determines whether or not the storage amount of the storage battery 120 is greater than a determination reference value. If it is determined that the amount of stored electricity is greater than the determination reference value (step S122: YES), the process proceeds to step S131. If it is determined that the amount of stored electricity is equal to or less than the determination reference value (step S122: NO), the process proceeds to step S151.

(Step S131)
The charge / discharge control unit 294 causes the storage battery 120 to start discharging the insufficient amount of power from the power supply device 110.
After step S131, the process proceeds to step S132.
(Step S132)
The reduction instruction unit 295 transmits a notification permitting use of the requested power to the server device 900 via the communication unit 210. Server device 900 operates in response to the supply of power from power supply system 100 in accordance with this notification.
After step S132, the process proceeds to step S133.

(Step S133)
The storage amount determination unit 293 determines whether or not the storage amount of the storage battery 120 is greater than a determination reference value. If it is determined that the amount of stored electricity is greater than the determination reference value (step S133: YES), the process returns to step S133. That is, the control device 200 maintains the charge / discharge of the storage battery 120 and the power consumption of the server device 900 until the amount of power stored in the storage battery 120 becomes equal to or less than the determination reference value.
On the other hand, when it determines with the electrical storage amount being below a criterion value (step S133: NO), it progresses to step S141.

(Step S141)
The reduction instruction unit 295 instructs the server device 900 to reduce the power discharged from the storage battery 120.
After step S141, the process proceeds to step S142.
(Step S142)
The charge / discharge control unit 294 stops the discharge of the storage battery 120.
After step S142, the process of FIG. 4 ends.

(Step S151)
The reduction instruction unit 295 notifies the server apparatus 900 of a power increase rejection. When the power increase is rejected, the reduction instruction unit 295 indicates the power that can be supplied by the power supply apparatus 110 and instructs to operate with power consumption equal to or lower than this power. Server device 900 operates by consuming power within the range of power that power supply device 110 can supply in accordance with this instruction.
After step S151, the process of FIG.

  As described above, the power supply capacity determination unit 291 determines whether or not the power that can be supplied from the power supply apparatus 110 is insufficient with respect to the required power of the server apparatus 900. The power storage amount determination unit 293 determines whether or not the power storage amount of the storage battery 120 is greater than a determination reference value for determining whether or not the necessary power can be supplied to the server device 900 at the time of a power failure of the power supply device 110. The charge / discharge control unit 294 is in a state where the power supply device 110 supplies power to the server device 900, and the power supply capacity determination unit 291 has insufficient power that can be supplied from the power supply device 110 with respect to the necessary power of the server device 900. When it is determined that the storage amount is greater than the determination reference value, the storage amount determination unit 293 causes the storage battery 120 to discharge.

Here, the power consumption of the load may temporarily increase, such as an increase in the CPU processing speed of the server apparatus 900. In this case, when the power that can be supplied by the power supply device 110 is insufficient with respect to the increased power consumption, an increase in power consumption cannot be permitted unless some measures are taken.
As a countermeasure, it is conceivable to use the power supply device 110 having a high power supply capability or to add the power supply device 110. However, it is efficient in that the hardware cost is high and surplus power is likely to be generated. Not right.

On the other hand, in the power supply system 100, an increase in power consumption can be permitted without the need to take measures against the power supply device 110 by supplementing the shortage of power by the storage battery 120. Moreover, it is not necessary to prepare the storage battery 120 separately by using the storage battery with which the electric power supply system 100 is equipped for backup power supplies at the time of a power failure as the storage battery 120. Therefore, in the power supply system 100, an increase in power consumption can be permitted to the load without the need for special hardware measures.
Further, in the power supply system 100, when the storage amount of the storage battery 120 is larger than the required power at the time of power failure, the charge / discharge control unit 294 causes the storage battery 120 to discharge, so that the required power at the time of power failure can be secured. it can.
Thus, in the power supply system 100, power can be supplied even during normal time without affecting power supply during a power failure.

In addition, the charge / discharge control unit 294 is configured so that the power supply capacity determination unit 291 supplies power that can be supplied from the power supply device 110 to the required power of the server device 900 while the power supply device 110 supplies power to the server device 900. If the storage amount determination unit 293 determines that the storage amount of the storage battery 120 is equal to or less than the determination reference value, the discharge from the storage battery 120 is suppressed.
Thereby, the power supply system 100 can ensure the amount of power stored in the storage battery 120 for continuing to supply the necessary power of the server apparatus 900 during the backup time during a power failure.

Further, the reduction instruction unit 295 indicates that the power storage amount determination unit 293 determines that the power storage amount of the storage battery 120 is equal to or less than the determination reference value in a state where both the power supply device 110 and the storage battery 120 supply power to the server device 900. If determined, the server apparatus 900 is instructed to reduce power consumption.
The server apparatus 900 reduces the power consumption of the server apparatus 900 itself in accordance with this instruction, so that even after the charge / discharge control unit 294 stops discharging the storage battery 120 in order to secure the necessary power during a power failure, The operation can be continued.

The backup time storage unit 281 stores the backup time. The reference value calculation unit 292 calculates a determination reference value based on the power consumption of the server device 900 and the backup time.
In this way, the reference value calculation unit 292 reflects the characteristics of the server device 900 to calculate the determination reference value, so that the determination reference value for supplying the necessary power of the server device 900 in the event of a power failure can be obtained with higher accuracy. Can be calculated. Since the determination reference value does not include a large surplus, there is a high possibility that power can be supplied from the storage battery 120 to the server device 900 at normal times.

The storage battery 120 may store the backup time instead of the control device 200. This point will be described with reference to FIGS.
FIG. 5 is a schematic block diagram illustrating a functional configuration example of the power supply system when the storage battery 120 stores the backup time instead of the control device 200. As shown in FIG. 5, the power supply system 101 includes a power supply device 110, a storage battery 121, and a control device 200. The storage battery 121 includes a backup time storage unit 122.

5 having the same functions corresponding to those in FIG. 1 are denoted by the same reference numerals (110, 900, W111, W121, W131), and description thereof is omitted.
The example of FIG. 5 is different from the case of FIG. 1 in that the control device 201 does not include the backup time storage unit and the storage battery 121 includes the backup time storage unit 122 instead. The other points are the same as in FIG.

  FIG. 6 is a schematic block diagram illustrating a functional configuration example of the control device when the storage battery 120 stores the backup time instead of the control device 200. In the example of FIG. 6, the control device 201 includes a communication unit 210, an operation input unit 220, a display unit 230, a storage unit 282, and a control unit 290. The storage unit 280 includes a backup time storage unit 281. The control unit 290 includes a power supply capacity determination unit 291, a reference value calculation unit 292, a storage amount determination unit 293, a charge / discharge control unit 294, and a reduction instruction unit 295.

6 having the same functions (210, 220, 230, 290, 291, 292, 293, 294, 295) as those corresponding to the respective portions in FIG. Omitted. The example of FIG. 6 differs from the case of FIG. 2 in that the storage unit 282 does not include a backup time storage unit. The other points are the same as in the case of FIG.
The operation of the control device 201 in the configuration shown in FIGS. 5 and 6 is the same as that described with reference to FIG.

  As described above, the backup time storage unit 122 is built in the storage battery 121, thereby storing the backup time for each storage battery 121. In this respect, data corresponding to the type of the storage battery 121 can be easily stored in the backup time storage unit 122. When the control device 200 reads the backup time from the storage battery 121, it becomes easy to perform control according to the type and characteristics of the storage battery 120.

Next, the minimum configuration of the present invention will be described with reference to FIG.
FIG. 7 is a diagram showing an example of the minimum configuration of the power supply system according to the present invention. The power supply system 10 illustrated in FIG. 7 includes a power supply device 11, a storage battery 12, a power supply capacity determination unit 13, a storage amount determination unit 14, and a charge / discharge control unit 15.
With this configuration, the power supply capacity determination unit 13 determines whether or not the power that can be supplied from the power supply device 11 is insufficient with respect to the required power of the load. The storage amount determination unit determines whether or not the storage amount of the storage battery 12 is larger than a determination reference value as to whether or not necessary power can be supplied to the load at the time of a power failure of the power supply device 11. In a state where the power supply device 11 supplies power to the load, the power supply capacity determination unit 13 determines that the suppliable power is insufficient with respect to the necessary power, and the storage amount determination unit 14 determines the storage amount. Is determined to be greater than the determination reference value, the storage battery 12 is discharged.

  In the power supply system 101, an increase in power consumption of the load can be permitted without having to take measures against the power supply device 11 by supplementing the shortage of power of the storage battery 12. Moreover, it is not necessary to prepare the storage battery 12 separately by using the storage battery with which the power supply system 10 is provided for the backup power supply at the time of a power failure as the storage battery 12. Therefore, the power supply system 101 can allow the load to increase power consumption without the need for special hardware measures.

Moreover, in the power supply system 10, when the storage amount of the storage battery 12 is larger than the required power at the time of the power failure, the charge / discharge control unit 15 causes the storage battery 12 to discharge, so that the required power at the time of the power failure can be secured. it can.
As described above, the power supply system 10 can supply power even during normal time without causing any trouble in power supply during a power failure.

FIG. 8 is a diagram showing an example of the minimum configuration of the control device according to the present invention. The control device 20 illustrated in FIG. 8 includes a power supply capacity determination unit 21, a storage amount determination unit 22, and a charge / discharge control unit 23.
With this configuration, the power supply capacity determination unit 21 determines whether or not the power that can be supplied from the power supply device is insufficient with respect to the required power of the load. The storage amount determination unit 22 determines whether or not the storage amount of the storage battery that supplies power to the load at the time of a power failure of the power supply device is greater than a determination reference value as to whether the necessary power can be supplied to the load at the time of a power failure of the power supply device. judge. The charge / discharge control unit 23 determines that the power supply capability determination unit 21 has insufficient power that can be supplied from the power supply device with respect to the required power in a state where the power supply device supplies power to the load, and When the storage amount determination unit 22 determines that the storage amount of the storage battery is greater than the determination reference value, the storage battery is caused to discharge.

  According to the control device 20, it is possible to allow an increase in the power consumption of the load without having to take measures against the power supply device by supplementing the storage battery with insufficient power. Moreover, it is not necessary to prepare a storage battery separately by using the storage battery with which a power supply system is equipped for backup power supplies at the time of a power failure as a storage battery. Therefore, according to the control device 20, it is possible to allow the load to increase the power consumption without having to take special hardware measures.

Moreover, according to the control apparatus 20, since the charge / discharge control part 23 makes a storage battery discharge when the electrical storage amount of a storage battery is more than the required power at the time of a power failure, the required power at the time of a power failure can be ensured. .
Thus, according to the control apparatus 20, the electric power supply system can supply electric power also at the normal time, without interfering with the electric power supply at the time of a power failure.

A program for realizing all or part of the functions of the control devices 20, 200 and 201 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed. The processing may be performed by doing so. Here, the “computer system” includes an OS and hardware such as peripheral devices.
The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes designs and the like that do not depart from the gist of the present invention.

10, 100, 101 Power supply system 11, 110 Power supply device 12, 120, 121 Storage battery 13, 21, 291 Power supply capacity determination unit 14, 22, 293 Storage amount determination unit 15, 23, 294 Charge / discharge control unit 20, 200 Control Device 122, 281 Backup time storage unit 210 Communication unit 220 Operation input unit 230 Display unit 280, 282 Storage unit 290 Control unit 292 Reference value calculation unit 295 Reduction instruction unit

Claims (8)

A power supply;
A storage battery for supplying power to a load during a power failure of the power supply;
A power capability determination unit that determines whether or not the power that can be supplied from the power supply device is insufficient with respect to the required power of the load;
A storage amount determination unit that determines whether or not a storage amount of the storage battery is greater than a determination reference value of whether or not necessary power can be supplied to the load at the time of a power failure of the power supply device;
In a state where the power supply device supplies power to the load, the power supply capacity determination unit determines that the suppliable power is insufficient with respect to the necessary power, and the storage amount determination unit A charge / discharge control unit that causes the storage battery to discharge when it is determined that the amount of stored electricity is greater than the determination reference value;
A power supply system comprising: The charge / discharge control unit determines that the power supply capacity determination unit is short of the required power with respect to the required power in a state where the power supply device supplies power to the load; and When the power storage amount determination unit determines that the power storage amount is equal to or less than the determination reference value, the discharge from the storage battery is suppressed.
The power supply system according to claim 1. In a state where both the power supply device and the storage battery are supplying power to the load, when the storage amount determination unit determines that the storage amount is equal to or less than the determination reference value, power consumption is reduced to the load. A reduction instructing unit for instructing
The power supply system according to claim 1 or 2. A backup time storage unit for storing a backup time that is a time required for the storage battery to supply power to the load at the time of a power failure of the power supply device;
The power supply system according to any one of claims 1 to 3, further comprising: a reference value calculation unit that calculates the determination reference value based on power consumption of the load and the backup time. The backup time storage unit is built in the storage battery,
The power supply system according to claim 4. A power capability determination unit that determines whether or not the power that can be supplied from the power supply device is insufficient with respect to the required power of the load;
Power storage for determining whether the amount of power stored in a storage battery that supplies power to the load at the time of a power failure of the power supply device is greater than a reference value for determining whether the required power can be supplied to the load at the time of power failure of the power supply device A quantity determination unit;
In a state where the power supply device supplies power to the load, the power supply capacity determination unit determines that the suppliable power is insufficient with respect to the necessary power, and the storage amount determination unit A charge / discharge control unit that causes the storage battery to discharge when it is determined that the amount of stored electricity is greater than the determination reference value;
A control device comprising: Determine whether the power that can be supplied from the power supply is insufficient for the required power of the load,
Determining whether or not the storage amount of the storage battery that supplies power to the load at the time of a power failure of the power supply device is greater than a determination reference value whether or not the required power can be supplied to the load at the time of the power failure of the power supply device;
In a state where the power supply device supplies power to the load, it is determined that the suppliable power is insufficient with respect to the necessary power, and it is determined that the storage amount is larger than the determination reference value. If the storage battery is discharged,
A control method comprising: On the computer,
Determine whether the power that can be supplied from the power supply is insufficient for the required power of the load,
Whether or not the amount of storage of a storage battery that supplies power to the load at the time of a power failure of the power supply device is greater than a determination reference value whether or not the necessary power can be supplied to the load at the time of power failure of the power supply device,
In a state where the power supply device supplies power to the load, it is determined that the suppliable power is insufficient with respect to the necessary power, and it is determined that the storage amount is larger than the determination reference value. If so, the storage battery is controlled to cause the storage battery to discharge,
Program for.

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