JP2015012730A - Power storage system, control device, control method, and power creation and storage system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively utilize capabilities of a power generation device and a storage battery during a power failure.SOLUTION: A power storage system 10 comprises a power storage device 30 and a control device 40. The power storage device 30 includes a charging/discharging execution part 34 and a power failure detection part 35. The power storage device 30 also includes: a switching part 32 for supplying power outputted by an independent operation function of a power generation device 20 to a load during a power failure; a storage battery 33 for storing power generated by the power generation device 20; and the charging/discharging execution part 34 for charging the storage battery 33 with a current corresponding to a charging current or charging power instructed from the control device 40. The control device 40 includes a charging control part 41 for regulating the charging power so as to be power obtained by subtracting the power supplied to the load by the switching part 32 and first power from a power value equal to or less than a value that can be outputted by the independent operation function of the power generation device 20 during a power failure, and instructs the regulated charging power or the charging current corresponding to the charging power to the power storage device 30.

Description

  The present invention relates to a power storage system, a control device, a control method, and a power generation system.

  For example, Patent Document 1 below discloses a DC power supply control device that combines a solar power generation device and a storage battery. In the DC power supply control device of this document, the power stored in the storage battery is supplied to the load during a power failure.

JP 2013-42627 A

  By the way, when there is a solar power generation device, there are cases where electric power can be generated and supplied to a load even during a power failure. However, if the power consumed by the load is small, the surplus that is not consumed by the load among the power generated by the solar power generation device is discarded. Moreover, since the electric power produced | generated by a solar power generation device changes with the positional relationship of the sun and a cloud, it is difficult to estimate the fluctuation | variation of the electric power produced | generated by a solar power generation device.

  For this reason, it is possible to charge the storage battery with surplus power that has not been consumed by the load, but there is no choice but to charge it with a sufficiently small charging current in anticipation of the fluctuation. In this case, only a part of the surplus power that is not consumed by the load is charged in the storage battery, and most of it is discarded. Thus, in the current power supply control system, the capabilities of the solar power generation device and the storage battery cannot be fully utilized.

  Therefore, the problem to be solved by the present invention is to provide a power storage system, a control device, a control method, and a power generation system that can fully utilize the capabilities of the power generation device and the storage battery during a power failure.

  The power storage system according to the present embodiment includes a power storage device that stores power generated by a power generation device based on natural energy, and a control device that controls charging of the power storage device. The power storage device includes a power line that supplies power output by the self-sustained operation function of the power generation device to a load, a storage battery that stores the power generated by the power generation device, and a charging current instructed from the control device. Or a charge / discharge execution unit that charges the storage battery with a current corresponding to the charging power, and the control device, from a power value that is less than or equal to a value that can be output by the self-sustaining operation function of the power generator during a power failure, The charging power is adjusted to be the power obtained by subtracting the power supplied to the load by the power line and the first power, and the adjusted charging power or a charging current corresponding to the charging power is supplied to the power storage device. A charging control unit for instructing is provided.

FIG. 1 is a system configuration diagram showing an example of a power generation system according to the first and second embodiments. FIG. 2 is a block diagram illustrating an example of a functional configuration of the power storage device according to the first embodiment. FIG. 3 is a block diagram illustrating an example of a functional configuration of the control device according to the first embodiment. FIG. 4 is a flowchart illustrating an example of the operation of the control device according to the first embodiment. FIG. 5 is a flowchart illustrating an example of the operation of the control device according to the first embodiment. FIG. 6 is a flowchart illustrating an example of the operation of the control device according to the second embodiment. FIG. 7 is a flowchart illustrating an example of the operation of the control device according to the second embodiment. FIG. 8 is a hardware configuration diagram illustrating an example of a computer that realizes the function of the control device.

  The power storage system 10 according to the embodiment described below includes a power storage device 30 that stores power generated by the power generation device 20 based on natural energy, and a control device 40 that controls charging of the power storage device 30. The power storage device 30 includes a switching unit 32, a storage battery 33, a charge / discharge execution unit 34, and a power failure detection unit 35. The switching unit 32 supplies the power output by the self-sustaining operation function of the power generator 20 to the load at the time of a power failure. The storage battery 33 stores the electric power generated by the power generation device 20. The charging / discharging execution unit 34 charges the storage battery 33 with a current corresponding to the charging current or charging power instructed from the control device 40. The control device 40 includes a charge control unit 41. The charge control unit 41 subtracts the power supplied to the load by the switching unit 32 and the first power from a power value that can be output by the self-sustaining operation function of the power generation device 20 during a power failure. The charging power is adjusted to become electric power, and the adjusted charging power or a charging current corresponding to the charging power is instructed to the power storage device 30.

  In the power storage system 10 according to the embodiment described below, the first power value is the fluctuation range of the power output by the self-sustaining operation function of the power generation device 20 and the load by the switching unit 32. It may be calculated based on the fluctuation range of the supplied power.

  Moreover, in the electrical storage system 10 which concerns on embodiment described below, the said charge control part 41 is that the sum total of the electric power supplied to the said load by the said switching part 32, and the said adjusted charging strength is the said electric power generating apparatus. When 20 exceeds the power output by the self-sustaining operation function, a charge stop instruction for stopping the charge of the storage battery 33 is transmitted to the power storage device 30 for a predetermined period. When the charging stop instruction is received from the control device 40, charging to the storage battery 33 may be stopped.

  The power storage system 10 according to the embodiment described below includes a power storage device 30 that stores power generated by the power generation device 20 based on natural energy, and a control device 40 that controls charging of the power storage device 30. . The power storage device 30 includes a switching unit 32, a storage battery 33, a charge / discharge execution unit 34, and a power failure detection unit 35. The switching unit 32 supplies the power output by the self-sustaining operation function of the power generator 20 to the load at the time of a power failure. The storage battery 33 stores the electric power generated by the power generation device 20. The charging / discharging execution unit 34 charges the storage battery 33 with the charging current instructed from the control device 40. The control device 40 includes a charge control unit 41. The charge control unit 41 subtracts the current supplied to the load by the switching unit 32 and the first current from a current value equal to or less than a value that can be output by the self-sustaining operation function of the power generation device 20 at the time of a power failure. The charging current is adjusted to be a current, and the adjusted charging current is instructed to the power storage device 30.

  The power storage system 10 according to the embodiment described below includes a power storage device 30 that stores power generated by the power generation device 20 based on natural energy, and a control device 40 that controls charging of the power storage device 30. . The power storage device 30 includes a switching unit 32, a storage battery 33, a charge / discharge execution unit 34, and a power failure detection unit 35. The switch 32 supplies the load with the power output by the self-sustaining operation function of the power generator 20 at the time of a power failure. The storage battery 33 stores the electric power generated by the power generation device 20. The charging / discharging execution unit 34 charges the storage battery 33 with a current corresponding to the charging current or charging power instructed from the control device 40. The control device 40 includes a charge control unit 41. The charge control unit 41 uses the second power as an initial value at the time of a power failure, and the sum of the charging power adjusted last time and the power supplied to the load by the switching unit 32 is the self-sustained power generation device 20. Power that adjusts the current charging power so that it becomes the power obtained by adding the third power to the previously adjusted charging power when the power output by the driving function is continuously below the first time An increase process is performed to instruct the power storage device 30 to adjust the charging power or a charging current corresponding to the charging power.

  Further, in the power storage system 10 according to the embodiment described below, the charge control unit 41 is configured such that the sum of the previously adjusted charge power and the power supplied to the load by the switching unit 32 is the first Within a time, when the power generation device 20 exceeds the power output by the self-sustaining operation function, the power is reduced by the fourth power larger than the third power from the previously adjusted charging power. The power generation device 20 is self-supporting as the sum of the charging power adjusted to the power reduced by the fourth power and the power supplied to the load by the switching unit 32 by adjusting the charging power. The power increase process may be resumed when the power output by the operation function continuously falls below the second time longer than the first time.

  Moreover, in the electrical storage system 10 which concerns on embodiment described below, the said charge control part 41 is the charge adjusted when the electric power generation apparatus 20 produced | generated the power failure in the time slot | zone which can produce | generate electric power with natural energy. You may make it instruct | indicate to the said electrical storage apparatus 30 the electric power or the charging current according to the said charge electric power.

  Moreover, the control apparatus 40 which concerns on embodiment described below is the control apparatus 40 which controls the charge to the electrical storage apparatus 30 of the electric power produced | generated by the electric power generating apparatus 20 based on natural energy, Comprising: Charge control part 41 is changed. It has. The charge control unit 41 subtracts the power supplied to the load by the switching unit 32 and the first power from a power value that can be output by the self-sustaining operation function of the power generation device 20 during a power failure. The charging power is adjusted to become electric power, and the adjusted charging power or a charging current corresponding to the charging power is instructed to the power storage device 30.

  Moreover, the control method which the control apparatus 40 which concerns on embodiment demonstrated below performs is a control method in the control apparatus 40 which controls the charge to the electrical storage apparatus 30 of the electric power produced | generated by the electric power generating apparatus 20 based on natural energy. In the event of a power failure, the charging power is such that the electric power supplied to the load and the first electric power are subtracted from the electric power value that can be output by the self-sustaining operation function of the power generator 20. And instructing the power storage device 30 to supply the adjusted charging power or the charging current corresponding to the charging power.

  In addition, the power storage system 1 according to the embodiment described below controls a power generation device 20 that generates power based on natural energy, a power storage device 30 that stores power generated by the power generation device 20, and charging of the power storage device 30. And a control device 40. The power storage device 30 includes a switching unit 32, a storage battery 33, a charge / discharge execution unit 34, and a power failure detection unit 35. The switching unit 32 supplies the power output by the self-sustaining operation function of the power generator 20 to the load at the time of a power failure. The storage battery 33 stores the electric power generated by the power generation device. The charging / discharging execution unit 34 charges the storage battery 33 with a current corresponding to the charging current or charging power instructed from the control device 40. The control device 40 includes a charge control unit 41. The charge control unit 41 subtracts the power supplied to the load by the switching unit 32 and the first power from a power value that can be output by the self-sustaining operation function of the power generation device 20 during a power failure. The charging power is adjusted so as to be the same power, and the adjusted charging power or a charging current corresponding to the charging power is instructed to the power storage device 30.

(First embodiment)
[Configuration of power storage system 10]
FIG. 1 is a system configuration diagram illustrating an example of a power creation system 1 according to the first and second embodiments. A power storage system 1 according to the present embodiment and a second embodiment to be described later is provided in a facility such as a house, and includes a power generation device 20 and a power storage system 10. The power storage system 10 includes a power storage device 30 and a control device 40. 1 to 3, a solid line and a solid arrow indicate the direction of power wiring and power supply, and a dotted line and a dotted line arrow indicate the direction of signal wiring and signal transmission.

  A predetermined facility such as a house is provided with a power generation apparatus 20 that generates power using natural energy such as sunlight. The power generation device 20 of the present embodiment includes a solar panel 21 and a power conditioner 22. In the present embodiment, the power generation device 20 that uses sunlight as natural energy will be described as an example. However, the present invention is not limited to this, and can also be applied to a power generation device that uses wind power, wave power, and other natural energy. It is.

  Further, the power conditioner 22 in the present embodiment has a self-sustaining operation function, and converts power generated by the solar panel 21 into, for example, AC 100 V power at the time of a power failure, and converts the converted power to the power storage device 30. Supply. The power storage device 30 supplies the power supplied from the power generation device 20 to the devices 15a and 15b, which are selected loads, via the distribution board 13.

  When power is supplied from the grid 11, the distribution board 12 supplies the supplied power to the devices 14a and 14b, which are general loads, through normal electrical wiring and connectors. Moreover, the distribution board 12 supplies the electric power supplied from the system | strain 11 via the electrical storage apparatus 30 and the distribution board 13 to the apparatus 15a and 15b which are selection loads.

  The distribution board 13 supplies the electric power received from the power storage device 30 to the devices 15a and 15b through emergency electrical wiring and outlets.

  When the control device 40 receives a signal indicating the occurrence of a power failure from the power storage device 30, the power output by the self-sustained operation function of the power conditioner 22 is supplied to the emergency electrical wiring or outlet via the distribution board 13. To the power storage device 30. When the power consumed by the selected load is lower than the power generation capacity generated by the solar panel 21 (that is, when the power storage device 30 has not detected a capacity over), the control device 40 Then, the power storage device 30 is instructed to charge the storage battery in the power storage device 30.

  At this time, the control device 40 charges the storage battery so as to charge the storage battery within the range of the remaining power obtained by subtracting the power supplied to the selected load from the power output by the autonomous operation function of the power conditioner 22. And instructing the power storage device 30 to charge the storage battery with the adjusted charging power. Note that the instruction from the control device 40 to the power storage device 30 may adjust the charging current instead of the charging power of the storage battery.

  Further, the control device 40 is configured such that the power consumed by the selected load exceeds the power generation capacity generated by the solar panel 21 due to worsening weather or an increase in power consumed by the selected load (i.e., When the capacity is over), control device 40 instructs power storage device 30 to stop charging the storage battery in power storage device 30 for a certain period of time.

  As described above, the control device 40 of the present embodiment preferentially supplies the power generated by the power generation device 20 to the selected load at the time of a power failure, and adjusts the remaining power to the power storage device 30 while adjusting the charging power. Since power is stored in the storage battery, power can be stored in the storage battery even in the event of a power failure, and among the power generated by the power generation device 20, the power discarded is reduced as much as possible, and the power generated by the power generation device 20 is efficient. Can be used well.

[Configuration of Power Storage Device 30]
FIG. 2 is a block diagram illustrating an example of a functional configuration of the power storage device 30 according to the first embodiment. The power storage device 30 includes a PV output detection unit 31, a switching unit 32, a storage battery 33, a charge / discharge execution unit 34, and a power failure detection unit 35.

  The PV output detection unit 31 determines whether or not the power supplied from the power conditioner 22 to the power storage device 30 exceeds the power generation capacity generated by the solar panel 21 (that is, the capacity is over). The monitor signal indicating the determination result is output. And the electrical storage apparatus 30 transmits the monitor signal output from the PV output detection part 31 to the control apparatus 40 via the communication apparatus which is not shown in figure. The communication device may transmit the monitor signal to the control device 40 only when the monitor signal is changed. Further, the monitor signal in the present embodiment is, for example, a signal indicating Low when the capacity is over and High when the capacity is not over. The determination of whether or not the capacity is over is realized, for example, by determining whether there is an output from the power conditioner 22 or by determining based on a predetermined threshold.

  The switching unit 32 is arranged in the middle of the power line connecting the distribution board 12 and the distribution board 13, and disconnects the cooperation between the distribution board 12 and the distribution board 13 during a power failure. Electric power is supplied to the selected load via the power line and the distribution board 13. In addition, the switching unit 32 supplies the power supplied to the selected load via the distribution board 13 in accordance with an instruction from the control device 40, the power supplied from the power conditioner 22 of the power generation device 20, or the storage battery 33. Switch to one of the discharged power. Specifically, when the switching unit 32 receives a discharge stop instruction from the control device 40, the power to be supplied to the selected load via the distribution board 13 is supplied from the power conditioner 22 of the power generation device 20. Switch to power. Further, when receiving a discharge start instruction from the control device 40, the switching unit 32 switches the power supplied to the selected load via the distribution board 13 to the power stored in the storage battery 33. The power failure detection unit 35 monitors the presence or absence of power supply from the distribution board 12 and outputs a power failure detection signal when detecting that the power supply has been interrupted. Then, the power storage device 30 transmits the power failure detection signal output from the power failure detection unit 35 to the control device 40.

  The power storage device 30 also measures load current or load power supplied to the power line connected to the distribution board 13 (total current value or total power value consumed by the selected load). A device 36 is installed to output the measured load current or load power. Then, the power storage device 30 transmits information indicating the load current or load power to the control device 40 via a communication device (not shown).

  The charging / discharging execution unit 34 is a charging current included in the charging instruction received from the control device 40 among the electric power supplied from the power generation apparatus 20 or a charging current converted from the charging power included in the charging instruction. The storage battery 33 is charged. The charge / discharge execution unit 34 stops charging the storage battery 33 when instructed to stop charging from the control device 40. Note that transmission / reception of signals to / from control device 40 may be performed via a communication device (not shown) provided in power storage device 30.

[Configuration of Control Device 40]
FIG. 3 is a block diagram illustrating an example of a functional configuration of the control device 40 according to the first embodiment. The control device 40 includes a charge control unit (charge / discharge control unit) 41 and an input reception unit 42.

  The input reception unit 42 sends the received information to the charge control unit 41 when receiving a discharge instruction for the storage battery 33, a charge instruction for the storage battery 33, or first power information described later from the user. Note that, when receiving the first power from the user, the input receiving unit 42 acquires information on the first power currently set in the charging control unit 41 from the charging control unit 41 and is provided in the control device 40. It may be displayed on a display device (not shown).

  When the power control unit 41 receives a power failure detection signal from the power storage device 30, the charge control unit 41 adjusts the charging power based on the remaining power obtained by subtracting the power supplied to the selected load from the power output from the power generation device 20. Then, a charging instruction including the adjusted charging power value is transmitted to the power storage device 30.

  The charge control unit 41 is, for example, power obtained by subtracting the power supplied to the selected load and the predetermined first power from the power value that can be output by the self-sustaining operation function of the power generation device 20. Adjust the charging power so that In the present embodiment, the value of power that can be output by the self-sustaining operation function of the power generation device 20 is, for example, the rated power (for example, 1500 W) of the power generation device 20. Information on the rated power and the first power of the power generation device 20 is set in the charge control unit 41 in advance.

  Here, the predetermined first power is preferably calculated based on, for example, the fluctuation range of the power output from the power generation device 20 and the fluctuation width of the power supplied to the selected load. For example, the daily fluctuation range of the power output from the power generation apparatus 20 is calculated by statistical processing (for example, averaging) from data for several weeks, months, and years. The daily fluctuation range of the power consumed by the selected load at the time of a power failure is also calculated by statistical processing (for example, averaging) from data collected by monitoring surveys or the like. The total of these calculated fluctuation ranges is preset in the charge control unit 41 as the first power.

  For example, when the daily fluctuation range of the power output from the power generation apparatus 20 is calculated as 300 W, and the daily fluctuation range of the power consumed by the selected load at the time of a power failure is calculated as 200 W, 300 + 200 = 500 W is obtained. It is preset in the charging control unit 41 as the first power.

  The first power described above is prepared in advance in the charge control unit 41 in different values for each time zone, day of the week, and season, and the charge control unit 41 corresponds to each time zone, day of the week, and season. You may make it adjust charging power using the information of 1st electric power. The charge control unit 41 stores information about the first power in the built-in memory or the like in advance, and also inquires an external server via the communication line to correspond to the current time zone, day of the week, and season. One piece of power information may be acquired to adjust charging power.

  In addition, when the charge control unit 41 receives a monitor signal indicating an over capacity from the power storage device 30, the charge control unit 41 transmits to the power storage device 30 a charge stop instruction to stop charging the storage battery 33 for a predetermined period. As described above, the charging control unit 41 preferentially supplies the power output from the power generation device 20 to the selected load by stopping charging the storage battery 33 when the power generation device 20 is over capacity. be able to.

  In addition, when the charging control unit 41 receives a charging instruction for the storage battery 33 from the input receiving unit 42, if the storage battery 33 is being discharged, the charging control unit 41 transmits a discharge stop instruction to stop discharging from the storage battery 33 to the power storage device 30. Then, the adjustment of the charging power is resumed. In addition, when receiving a discharge instruction from the input receiving unit 42, the charge control unit 41 transmits a discharge start instruction for starting discharge from the storage battery 33 to the power storage device 30. In addition, when the charge control unit 41 receives the first power from the input reception unit 42, the charge control unit 41 updates the held first power with the received value.

  The communication between the charge control unit 41 and the power storage device 30 may be performed using the signal control function by providing the charge control unit 41 with a signal communication function. A communication unit may be provided separately from 41 and the unit may be used.

[Operation of Control Device 40]
4 and 5 are flowcharts illustrating an example of the operation of the control device 40 according to the first embodiment. For example, when the power failure detection signal is received from the power storage device 30, the control device 40 according to the present embodiment starts the operation illustrated in this flowchart.

  First, the charge control unit 41 transmits a discharge start instruction for starting the discharge of the storage battery 33 to the power storage device 30 (S100). The switching unit 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power stored in the storage battery 33 in accordance with the received discharge start instruction. The charge / discharge execution unit 34 of the power storage device 30 starts discharging the electric power stored in the storage battery 33 in accordance with the received discharge start instruction.

  Next, the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S102). Here, the predetermined time zone is a time zone in which electric power can be generated by natural energy, and if it is solar power generation, it is the time zone in which the sun is out and sufficient solar radiation amount to generate electric power. A certain time zone (for example, from 8:00 to 16:00). In addition, since the time zone with sufficient solar radiation amount to generate electric power differs depending on factors such as season and latitude, the charging control unit 41 generates electric power in association with information such as season and latitude. It is also possible to previously store a time with a sufficient amount of solar radiation and specify the time zone based on the current date and time, the latitude of the installed location, and the like.

  When the current time is included in the predetermined time zone (S102: Yes), the charging control unit 41 refers to the monitor signal from the power storage device 30, and determines whether or not the monitor signal indicates an over capacity. (S104). When the current time is not included in the predetermined time zone (S102: No), or when the monitor signal indicates that the capacity is over (S104: Yes), the charging control unit 41 again performs the process shown in step S102. Execute.

  When the monitor signal does not indicate that the capacity is over (S104: No), the charge control unit 41 sends a discharge stop instruction to stop the discharge of the storage battery 33 to the power storage device 30 (S106). The switching 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power supplied from the power conditioner 22 of the power generation device 20 according to the received discharge stop instruction. The charge / discharge execution unit 34 of the power storage device 30 stops discharging from the storage battery 33 in accordance with the received discharge stop instruction.

  Next, the charging control unit 41 sets the first power (for example, 500) as the constant Buff, sets 0 as the initial value for the charging power CP, and sets the value of the rated power of the power generator 20 (for example, 1500) as the constant RP. ) Is set (S110). Then, the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S112). When the current time is not included in the predetermined time zone (S112: No), the charging control unit 41 executes the process shown in step S122 of FIG.

When the current time is included in the predetermined time zone (S112: Yes), the charging control unit 41 acquires the load power LW notified from the switching unit 32 of the power storage device 30 (S114). And the charge control part 41 adjusts charging power CP according to the following formula | equation (1), for example (S116).
CP = RP-Buff-LW (1)

  The charging control unit 41 does not calculate the charging power CP using the instantaneous value of the load power LW notified from the switching unit 32, but takes a moving average of the load power LW for every predetermined time. It is preferable to keep the fluctuation of the calculation result of the charging power CP low.

  Next, charging control unit 41 transmits a charging instruction including the adjusted value of charging power CP to power storage device 30 (S118). The charging / discharging execution part 34 of the electrical storage apparatus 30 performs the charge of the storage battery 33 with the charging current converted from the charging power contained in the received charging instruction. Then, the charge control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates a capacity over (S120). When the monitor signal does not indicate capacity over (S120: No), the charging control unit 41 executes the process shown in step S112 again.

  On the other hand, when the monitor signal indicates that the capacity is over (S120: Yes), the charge control unit 41 sends a charge stop instruction to stop charging the storage battery 33 to the power storage device 30 (S122 in FIG. 5). The charge / discharge execution unit 34 of the power storage device 30 stops charging the storage battery 33 in accordance with a charge stop instruction.

  Next, the charging control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates a capacity over (S124). Note that if the elapsed time from the determination of capacity over in step S120 is short, the monitor signal state may not change even in step S124. Therefore, when it is determined that the capacity is exceeded in step S122, the charging control unit 41 performs the determination in step S124 after waiting for several seconds, for example, until the power generation output of the power generation device 20 is stabilized.

  When the monitor signal does not indicate capacity over (S124: No), the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S126). If the current time is included in the predetermined time zone (S126: Yes), the charging control unit 41 determines whether a charging instruction has been received from the user via the input receiving unit 42 (S128).

  When the charging instruction has not been received from the user (S128: No), the charging control unit 41 has passed a predetermined time (for example, 1 hour) after the later one of Step S122 and Step S144 described later is executed. It is determined whether or not (S130). When the predetermined time has not elapsed (S130: No), the charging control unit 41 executes the process shown in step S124 again. Further, when a charging instruction is received from the user (S128: Yes), or when a predetermined time has elapsed (S130: Yes), the charging control unit 41 executes the process shown in step S110 of FIG.

  When the monitor signal indicates that the capacity is over (S124: Yes), or when the current time is not included in the predetermined time zone (S126: No), the charge control unit 41 causes the storage battery 33 to discharge. A discharge start instruction to be started is transmitted to the power storage device 30 (S134). The switching unit 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power stored in the storage battery 33 in accordance with the received discharge start instruction. The charge / discharge execution unit 34 of the power storage device 30 starts discharging from the storage battery 33 in accordance with the received discharge start instruction.

  Next, the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S136). When the current time is included in the predetermined time zone (S136: Yes), the charging control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates an over capacity. (S138). When the monitor signal does not indicate capacity over (S138: No), the charging control unit 41 determines whether or not a charging instruction has been received from the user via the input receiving unit 42 (S140).

  When the charging instruction is not received from the user (S140: No), the charging control unit 41 determines whether or not a predetermined time (for example, 1 hour) has elapsed since the execution of step S134 (S142). When the current time is not included in the predetermined time zone (S136: No), when the monitor signal indicates that the capacity is over (S138: Yes), or the predetermined time has elapsed since the execution of step S134. If not (S142: No), the charging control unit 41 executes the process shown in step S136 again.

  Moreover, when the charge instruction | indication is received from the user (S140: Yes) or when predetermined time passes after performing step S134 (S142: Yes), the charge control part 41 stops discharge of the storage battery 33. A discharge stop instruction is transmitted to power storage device 30 (S144). The switching 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power supplied from the power conditioner 22 of the power generation device 20 according to the received discharge stop instruction. The charge / discharge execution unit 34 of the power storage device 30 stops discharging from the storage battery 33 in accordance with the received discharge stop instruction. And the charge control part 41 performs the process shown to step S124 again.

  When the charging control unit 41 receives a discharge instruction from the user via the input receiving unit 42, the charging control unit 41 starts discharging the storage battery 33 regardless of which process in the flowchart is executed. A discharge start instruction is transmitted to power storage device 30. The switching unit 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power stored in the storage battery 33 in accordance with the received discharge start instruction. The charge / discharge execution unit 34 of the power storage device 30 starts discharging from the storage battery 33 in accordance with the received discharge start instruction.

  After that, when the charging control unit 41 receives a charging instruction from the user via the input receiving unit 42, the charging control unit 41 restarts the process shown in the above flowchart from the process of step S106.

  In the above, an example is shown in which the power obtained by subtracting the power supplied to the load and the first power from the power value less than the value that can be output by the power generation device 20 is used as the charging power. Alternatively, the charging power may be calculated. An example in that case will be described below.

  For example, the charge control unit 41 is obtained by subtracting the current supplied to the load by the power line and the first current from the current value that can be output by the self-sustaining operation function of the power generation device 20 during a power failure. It is also possible to adjust the charging current so that the power storage device 30 is instructed with the adjusted charging current. In this case, power used in S110, S114, S116, and S118 is replaced with current.

For example, in S110, the Buff value is set to 5 amps, the charging current CA is set to 0 amps, and the rated current value RA is set to 15 amps as initial values. In S116, the charging current CA is calculated using the following equation (2) instead of the aforementioned equation (1).
CA = RA-Buff-LA (2)

  The load current LA is a value measured by the load current measuring device 36. For example, assuming that the value of the load current LA is 5 amperes, the charging current CA obtained in S116 is 5 amperes. In S <b> 118, the charging control unit 41 instructs the power storage device 30 to charge with the obtained charging current CA.

  The first embodiment has been described above.

  As is clear from the above description, according to the power storage system 10 of the present embodiment, the capabilities of the power generation device and the storage battery can be fully utilized during a power failure.

(Second Embodiment)
Next, a second embodiment will be described. The present embodiment is different from the first embodiment in that the switching unit 32 of the power storage device 30 is not provided with a function of measuring the load power and adjusts the charging power without using the measured value of the load power. . Note that the configurations of the power storage system 10, the power storage device 30, and the control device 40 in the present embodiment are the following, except for the points described below, the power storage system 10 and the power storage device 30 in the first embodiment shown in FIGS. Since the configuration is the same as that of the control device 40, the description thereof is omitted.

  The charging control unit 41 in the present embodiment adjusts the charging power of the storage battery 33 at the time of a power failure by the following method, for example. In other words, the charging control unit 41 uses the second power determined in advance (for example, 0 W) as an initial value, and the total of the charging power adjusted last time and the power supplied to the selected load is determined by If the power output by the operation function is lower (that is, if the monitor signal does not indicate capacity over), if the period continues for the first time (for example, 60 seconds), the previously adjusted charging power Then, a power increase process for adjusting the current charging power is performed so that the third power (for example, 50 W) is added.

  At this time, the charging control unit 41 determines that the total of the previously adjusted charging power and the power supplied to the selected load is the power output by the power generator 20 by the self-sustaining operation function within the first time. If it exceeds (that is, the monitor signal indicates that the capacity is exceeded), the charging power is reduced to a power that is reduced by a fourth power (for example, 100 W) larger than the third current value from the previously adjusted charging power. adjust.

  In addition, the charging control unit 41 outputs the sum of the charging power adjusted to the power reduced by the fourth power and the power supplied to the selected load by the power generation device 20 by the self-sustaining operation function. When the power continues to fall below a second time (for example, 1 hour) longer than the first time, the power increase process is resumed.

[Operation of Control Device 40]
6 and 7 are flowcharts illustrating an example of the operation of the control device 40 according to the second embodiment. For example, when the power failure detection signal is received from the power storage device 30, the control device 40 according to the present embodiment starts the operation illustrated in this flowchart.

  First, the charge control unit 41 transmits a discharge start instruction for starting the discharge of the storage battery 33 to the power storage device 30 (S200). The switching unit 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power stored in the storage battery 33 in accordance with the received discharge start instruction. The charge / discharge execution unit 34 of the power storage device 30 starts discharging from the storage battery 33 in accordance with the received discharge start instruction.

  Next, the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S202). Here, the predetermined time zone is a time zone in which electric power can be generated by natural energy. In the case of solar power generation, the sun is out and the solar radiation amount is sufficient to generate electric power ( For example, it indicates from 8:00 to 16:00.

  When the current time is included in the predetermined time zone (S202: Yes), the charging control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates an over capacity. (S204). When the current time is not included in the predetermined time zone (S202: No), or when the monitor signal indicates that the capacity is over (S204: Yes), the charging control unit 41 again performs the process shown in step S202. Execute.

  When the monitor signal does not indicate the capacity over (S204: No), the charge control unit 41 transmits a discharge stop instruction to stop the discharge of the storage battery 33 to the power storage device 30 (S206). The switching unit 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power supplied from the power conditioner 22 of the power generation device 20 according to the received discharge stop instruction. The charge / discharge execution unit 34 of the power storage device 30 stops discharging from the storage battery 33 in accordance with the received discharge stop instruction.

  Next, the charging control unit 41 sets the second power (for example, 0) as the initial value for the charging power CP, and sets, for example, 500 for the upper limit value Lim (S210). Then, the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S212). When the current time is not included in the predetermined time zone (S212: No), the charging control unit 41 executes the process shown in step S230.

  When the current time is included in the predetermined time zone (S212: Yes), the charging control unit 41 transmits a charging instruction including the value of the charging power CP to the power storage device 30 (S214). The charging / discharging execution part 34 of the electrical storage apparatus 30 performs the charge of the storage battery 33 with the charging current converted from the charging power contained in the received charging instruction. Then, the charge control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates a capacity over (S216). When the monitor signal does not indicate capacity over (S216: No), the charging control unit 41 determines whether or not the charging of the storage battery 33 with the charging power CP has continued for a first time (for example, 60 seconds) ( S218).

  When the charging of the storage battery 33 with the charging power CP continues for the first time (S218: Yes), the charging control unit 41 becomes the power obtained by adding the third power (for example, 50 W) to the charging power CP adjusted last time. In this manner, the current charging power CP is adjusted (S220). If the adjusted charging power CP is larger than the upper limit Lim (S222: Yes), the charging control unit 41 replaces the charging power CP with the upper limit value Lim (S224), and executes the process shown in step S212 again.

  Further, when charging of the storage battery 33 with the charging power CP is not continued for the first time (S218: No), or when the adjusted charging power CP is less than the upper limit Lim (S222: No), the charging control unit 41 executes the process shown in step S212 again. In the present embodiment, the processing from step S210 to S224 is called, for example, power increase processing.

  When the monitor signal indicates that the capacity is over (S216: Yes), the charging control unit 41 is set to the power obtained by subtracting the fourth power (for example, 100 W) from the charging power CP adjusted last time in step S220. The current charging power CP is adjusted (S226). Then, the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S228).

  When the current time is not included in the predetermined time zone (S228: No), the charge control unit 41 sends a charge stop instruction to stop charging the storage battery 33 to the power storage device 30 (S230). The charge / discharge execution unit 34 of the power storage device 30 stops charging the storage battery 33 in accordance with a charge stop instruction. And the charging control part 41 performs the process shown to FIG.7 S244.

  On the other hand, when the current time is included in the predetermined time zone (S228: Yes), charging control unit 41 transmits a charging instruction including the value of charging power CP to power storage device 30 (S232). The charging / discharging execution part 34 of the electrical storage apparatus 30 performs the charge of the storage battery 33 with the charging current converted from the charging power contained in the received charging instruction. Then, the charge control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates a capacity over (S234). When the monitor signal does not indicate the capacity over (S234: No), the charging control unit 41 determines whether or not the charging of the storage battery 33 with the charging power CP has continued for a second time (for example, 1 hour) ( S236).

  When the charging of the storage battery 33 with the charging power CP continues for the second time (S236: Yes), the charging control unit 41 executes the process shown in step S220. On the other hand, when the charging of the storage battery 33 with the charging power CP has not continued for the second time (S236: No), the charging control unit 41 executes the process shown in step S228 again.

  When the monitor signal indicates that the capacity is over (S234: Yes), the charge control unit 41 sends a charge stop instruction to stop charging the storage battery 33 to the power storage device 30 (S238 in FIG. 7). The charge / discharge execution unit 34 of the power storage device 30 stops charging the storage battery 33 in accordance with a charge stop instruction.

  Next, the charging control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates a capacity over (S240). If the elapsed time since the capacity is determined to be over in step S234 is short, the monitor signal state may not change even in step S240. Therefore, when it is determined that the capacity is exceeded in step S234, the charging control unit 41 performs the determination in step S240 after waiting for several seconds, for example, until the power generation output of the power generation apparatus 20 is stabilized.

  When the monitor signal does not indicate capacity over (S240: No), the charging control unit 41 executes the process shown in step S210 of FIG. 6 again. On the other hand, when the monitor signal indicates that the capacity is over (S240: Yes), the charge control unit 41 transmits a discharge start instruction for starting the discharge of the storage battery 33 to the power storage device 30 (S244). The switching unit 32 of the power storage device 30 switches the power supplied to the selected load via the distribution board 13 to the power stored in the storage battery 33 in accordance with the received discharge start instruction. The charge / discharge execution unit 34 of the power storage device 30 starts discharging from the storage battery 33 in accordance with the received discharge start instruction.

  Next, the charging control unit 41 determines whether or not the current time is included in a predetermined time zone (S246). When the current time is included in the predetermined time zone (S246: Yes), the charging control unit 41 refers to the monitor signal from the power storage device 30 and determines whether or not the monitor signal indicates an over capacity. (S248). When the monitor signal does not indicate capacity over (S248: No), the charging control unit 41 determines whether or not a charging instruction has been received from the user via the input receiving unit 42 (S250).

  When the charging instruction has not been received from the user (S250: No), the charging control unit 41 determines whether or not a predetermined time (for example, 1 hour) has elapsed since the execution of step S244 (S252). When the current time is not included in the predetermined time zone (S246: No), when the monitor signal indicates the capacity over (S248: Yes), or the predetermined time has elapsed since the execution of step S244 If not (S252: No), the charging control unit 41 executes the process shown in step S246 again.

  Further, when a charging instruction is received from the user (S250: Yes), or when a predetermined time has elapsed after executing Step S244 (S252: Yes), the charging control unit 41 returns to Step S206 in FIG. 6 again. Perform the indicated process.

  The second embodiment of the present invention has been described above.

  The control device 40 in the first or second embodiment described above is realized by a computer 50 as shown in FIG. 8, for example. FIG. 8 is a hardware configuration diagram illustrating an example of a computer 50 that realizes the functions of the control device 40. The computer 50 includes a central processing unit (CPU) 51, a random access memory (RAM) 52, a read only memory (ROM) 53, a communication interface (I / F) 54, an input / output interface (I / F) 55, and a media interface. (I / F) 56 is provided.

  The CPU 51 operates based on a program stored in the ROM 53 and controls each unit. The ROM 53 stores a boot program executed by the CPU 51 when the computer 50 is started up, a program depending on the hardware of the computer 50, and the like. The communication interface 54 receives data from other devices via the communication line and sends the data to the CPU 51, and transmits the data generated by the CPU 51 to other devices via the communication line.

  The CPU 51 controls an output device such as a liquid crystal display device and an input device such as a touch panel and a keypad via the input / output interface 55. The CPU 51 acquires data from the input device via the input / output interface 55. Further, the CPU 51 outputs the generated data to the output device via the input / output interface 55.

  The media interface 56 reads a program or data stored in the recording medium 57 and provides it to the CPU 51 via the RAM 52. The CPU 51 loads the program from the recording medium 57 onto the RAM 52 via the media interface 56 and executes the loaded program. The recording medium 57 is, for example, a magnetic recording medium or a semiconductor memory.

  When the computer 50 functions as the control device 40, the CPU 51 of the computer 50 implements the functions of the charging control unit 41 and the input receiving unit 42 by executing a program loaded on the RAM 52. The CPU 51 of the computer 50 reads these programs from the recording medium 57 and executes them, but as another example, these programs may be acquired from other devices via a communication medium.

  Control that receives an instruction regarding charge / discharge from the control device 40 to the power storage device 30 in the power storage device 30 and outputs a control signal to the switching unit 32 and the charge / discharge execution unit 34 based on the received instruction. A part may be provided.

(Other embodiments)
In addition, this invention is not limited to above-described embodiment, Many deformation | transformation are possible within the range of the summary.

  For example, in the first and second embodiments described above, the charging control unit 41 in the control device 40 transmits a charging instruction including the adjusted value of charging power to the power storage device 30, and charging / discharging in the power storage device 30. The execution unit 34 converts the charging current from the charging power included in the charging instruction received from the control device 40 and executes the charging of the storage battery 33 with the converted charging current. However, the present invention is not limited to this. . For example, the charging control unit 41 converts the charging current from the adjusted charging power, includes the converted charging current value in the charging instruction and transmits the charging instruction to the power storage device 30, and the charging / discharging execution unit 34 in the power storage device 30 You may make it perform charge of the storage battery 33 with the charging current contained in the charge instruction | indication received from the control apparatus 40. FIG.

  In the first embodiment described above, the charging control unit 41 receives the discharge instruction of the storage battery 33, the charging instruction of the storage battery 33, and the first power information from the user via the input reception unit 42. The present invention is not limited to this. For example, the charging control unit 41 may acquire such information from a terminal operated by the user via a communication line such as the Internet.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be made to the above-described embodiment. In addition, it is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

1 power storage system 10 power storage system 20 power generation device 30 power storage device 31 monitor signal relay unit 32 switching unit 33 storage battery 34 charge / discharge execution unit 35 power failure detection unit 36 load current measuring device 40 control device 41 charge control unit (charge / discharge control unit)
42 Input reception unit 43 Charging current instruction unit

Claims (10)

A power storage device for storing electric power generated by the power generation device based on natural energy;
A control device for controlling charging of the power storage device;
A power storage system comprising:
The power storage device
A power line for supplying power output by the self-sustaining operation function of the power generator to a load during a power failure;
A storage battery for storing the power generated by the power generation device;
A charge / discharge execution unit that charges the storage battery with a current according to a charging current or charging power instructed from the control device;
Comprising
The controller is
In the event of a power failure, the charging power is obtained by subtracting the power supplied to the load by the power line and the first power from the power value that can be output by the self-sustaining operation function of the power generator. A charge control unit that instructs the power storage device to adjust the adjusted charging power or a charging current corresponding to the charging power;
A power storage system comprising: The first power is
The power storage system according to claim 1, wherein the power storage system is calculated based on a fluctuation range of power output by the self-sustaining operation function of the power generation device and a fluctuation width of power supplied to the load through the power line. The charge controller is
When the total of the power supplied to the load by the power line and the adjusted charging power exceeds the power output by the self-sustaining operation function of the power generation device, the storage battery for a predetermined period. A charge stop instruction to stop charging to the power storage device,
The charge / discharge execution unit
The power storage system according to claim 1 or 2, wherein charging of the storage battery is stopped when the charge stop instruction is received from the control device. A power storage device for storing electric power generated by the power generation device based on natural energy;
A control device for controlling charging of the power storage device;
A power storage system comprising:
The power storage device
A power line for supplying power output by the self-sustaining operation function of the power generator to a load during a power failure;
A storage battery for storing the power generated by the power generation device;
A charge / discharge execution unit that charges the storage battery with a charging current instructed by the control device;
Comprising
The controller is
In the event of a power failure, the charging current is obtained by subtracting the current supplied to the load by the power line and the first current from a current value less than or equal to the value that can be output by the self-sustaining operation function of the power generator. A charge control unit that instructs the power storage device to adjust the adjusted charging current;
A power storage system comprising: A power storage device for storing electric power generated by the power generation device based on natural energy;
A control device for controlling charging of the power storage device;
A power storage system comprising:
The power storage device
A power line for supplying power output by the self-sustaining operation function of the power generator to a load during a power failure;
A storage battery for storing the power generated by the power generation device;
A charge / discharge execution unit that charges the storage battery with a current according to a charging current or charging power instructed from the control device;
Comprising
The controller is
At the time of a power failure, with the second power as an initial value, the sum of the charging power adjusted last time and the power supplied to the load by the power line is the power output by the self-sustaining operation function of the power generator, When the power consumption is continuously lower than the first time, a power increase process for adjusting the current charging power is performed so that the third power is added to the previously adjusted charging power, and the adjusted charging power is adjusted. Or a charge control unit that instructs the power storage device to charge current according to the charge power;
A power storage system comprising: The charge controller is
When the sum of the previously adjusted charging power and the power supplied to the load by the power line exceeds the power output by the self-sustaining operation function within the first time, the previous time Adjusting the charging power to be a power reduced from the adjusted charging power by a fourth power larger than the third power;
The sum of the charging power adjusted to become the power reduced by the fourth power and the power supplied to the load by the power line is the power output by the power generator by the self-sustaining operation function. The power storage system according to claim 5, wherein the power increase process is resumed when the power consumption continues to fall below a second time longer than the first time. The charge controller is
7. The power storage device according to claim 1, wherein, when a power failure occurs during a time period in which the power generation device can generate power using natural energy, the power storage device is instructed to adjust the charging power or a charging current corresponding to the charging power. The electrical storage system as described in any one. A control device that controls charging of a power storage device with electric power generated by a power generation device based on natural energy,
At the time of a power failure, the charging power is adjusted so as to be the power obtained by subtracting the power supplied to the load and the first power from the power value that can be output by the self-sustaining operation function of the power generator, A charge control unit that instructs the power storage device to adjust the charging power or a charging current corresponding to the charging power;
A control device comprising: A control method in a control device for controlling charging of a power storage device with electric power generated by a power generation device based on natural energy,
In the event of a power failure, the charging is performed such that the electric power supplied to the load by the power storage device and the first electric power are subtracted from the electric power value that can be output by the self-sustaining operation function of the power generator. A control method including a step of adjusting power, adjusting the adjusted charging power or a charging current according to the charging power, and instructing the charging device according to the adjusted charging power or the charging current. A power storage device comprising: a power generation device that generates power based on natural energy; a power storage device that stores electric power generated by the power generation device; and a control device that controls charging of the power storage device,
The power storage device
A power line for supplying power output by the self-sustaining operation function of the power generator to a load during a power failure;
A storage battery for storing the power generated by the power generation device;
A charge / discharge execution unit that charges the storage battery with a current according to a charging current or charging power instructed from the control device;
Comprising
The controller is
In the event of a power failure, the charging power is obtained by subtracting the power supplied to the load by the power line and the first power from the power value that can be output by the self-sustaining operation function of the power generator. A charge control unit that instructs the power storage device to adjust the adjusted charging power or a charging current corresponding to the charging power;
A power storage system comprising:

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