WO2013018600A1 - Power supply system - Google Patents

Abstract

Provided is a power supply system which can supply more power to a load in the case of power failure. A power supply system (1) is provided with a power generating unit (10) that can generate power using natural energy, and an electric storage apparatus (40), which is connected to a commercial power supply (100) and the power generating unit (10), and can be charged with power supplied from the commercial power supply (100) and the power generating unit (10), and the power supply system supplies power supplied from the power generating unit (10), the electric storage apparatus (40) and the commercial power supply (100) to a specified load (50). In the cases where the commercial power supply (100) can be used, the electric storage apparatus (40) is capable of being charged with power supplied from the commercial power supply (100) and the power generating unit (10), and when the commercial power supply (100) fails, the electric storage apparatus is capable of being charged with power supplied from the power generating unit (10), while discharging the charged power to the specified load (50).

Description

Power supply system

The present invention relates to a technology of a power supply system that includes a power storage device and can supply power to a specific load from the power storage device when a commercial power supply fails.

Conventionally, a technology of a power supply system that includes a power storage device and can supply power to a specific load from the power storage device when a commercial power supply fails is known. For example, as described in JP 2010-284060 A.

In the power supply system described in Japanese Patent Application Laid-Open No. 2010-284060, when the commercial power supply fails and power supply from the commercial power supply to the load is cut off, the power charged in the power storage device is used instead of the commercial power supply. The load can be supplied. In addition, when the power failure of the commercial power source is resolved (recovered), the power storage device can be charged again by supplying power from the commercial power source not only to the load but also to the power storage device.

However, in the technology described in Japanese Patent Application Laid-Open No. 2010-284060, the power that can be supplied to the load at the time of a power failure is only the power charged in the power storage device, and when the power stored in the power storage device disappears, the power is supplied to the load. It was disadvantageous in that the power supply was cut off.

The present invention has been made in view of the above situation, and a problem to be solved is to provide a power supply system capable of supplying more power to a load during a power failure.

The problems to be solved by the present invention are as described above. Next, means for solving the problems will be described.

In the power supply system of the present invention, a power generation unit capable of generating power using natural energy, a commercial power source and a power storage device connected to the power generation unit and capable of charging power from the commercial power source and the power generation unit, A power supply system that supplies power from the power generation unit, the power storage device, and the commercial power source to a specific load, and the power storage device, when the commercial power source is available, It is possible to charge the power from the power generation unit, and when the commercial power supply fails, it is possible to charge the power from the power generation unit while discharging the charged power to the specific load It is a thing.

In the power supply system of the present invention, the power storage device does not charge and discharge power simultaneously when the commercial power source is available, and simultaneously charges and discharges power when the commercial power source fails. It is preferable that this is possible.

As the effects of the present invention, the following effects are obtained.

According to the power supply system of the present invention, when the commercial power supply fails (emergency), the power storage device supplies the power to a specific load as appropriate while charging the power from the power generation unit. For this reason, compared with the case where an electrical storage apparatus is not charged at the time of electric power supply, more electric power (more than the maximum capacity | capacitance of an electrical storage apparatus) can be supplied to a specific load.

According to the power supply system of the present invention, the power storage device is normally prevented from deteriorating, and when the commercial power supply fails, the power storage device is charged and discharged at the same time to supply more power to a specific load. Can be supplied to.

The block diagram which showed the electric power supply system which concerns on one Embodiment of this invention. Similarly, the block diagram which showed the case where a commercial power supply is normal. Similarly, the block diagram which showed the case where a commercial power supply failed.

Next, the configuration of the power supply system 1 according to the embodiment of the present invention will be described with reference to FIG.

The power supply system 1 is provided in a house or the like and supplies power from the commercial power source 100 and power generated by natural energy to a specific load. The power supply system 1 mainly includes a power generation unit 10, a power conditioner 20, a distribution board 30, a power storage device 40, a load 50 (specific load), other loads 80, a home server 60, a portable terminal 70, and the like. .

The power generation unit 10 is a device that generates power using sunlight, and includes a solar cell panel or the like. The power generation unit 10 is installed on a roof of a house, for example.

The power conditioner 20 has a function of converting the DC power generated by the power generation unit 10 into AC power and matching the voltage, frequency, and phase of the commercial power supply 100. The power conditioner 20 is connected to the power generation unit 10.
The power conditioner 20 is provided with an operation changeover switch 20a for switching ON and OFF of the “self-sustaining operation mode” at the time of power failure (when power from the commercial power supply 100 cannot be supplied).
Further, the power conditioner 20 is provided with an emergency outlet 21 for taking out electric power from the power generation unit 10 at the time of a power failure (emergency).

The distribution board 30 is a collection of earth leakage breakers, wiring breakers, control units, and the like. The distribution board 30 is connected to the power conditioner 20 and the commercial power supply 100.
The distribution board 30 is provided with a charging / discharging outlet 31 through which a power storage device 40 described later performs charging, discharging, and exchange of information (data).

The power storage device 40 charges power and discharges the charged power. The power storage device 40 according to the present embodiment includes a lithium ion battery that can charge and discharge power, an inverter that converts DC power from the lithium ion battery into AC power, and the like.
The power storage device 40 is connected to the emergency outlet 21 via a charging cord 41 in the event of a power failure (emergency).
The power storage device 40 is connected to the charging / discharging outlet 31 via a charging cord 42 and a discharging cord 43 in a normal state.
The power storage device 40 is connected to the charging / discharging outlet 31 via the LAN cable 44.

The load 50 is an electrical appliance or the like that consumes electric power in a house, and is a “specific load” that needs to supply electric power even during a power failure (emergency).
In the present embodiment, a living outlet 51 provided in the living room, a refrigerator 52, and a living lighting 53 provided in the living room are used as the load 50 (specific load). In addition, a television 51a is connected to the living outlet 51.
The load 50 is connected to the distribution board 30 and the power storage device 40 indirectly (in the present embodiment, via the charging / discharging outlet 31 and a leakage breaker not shown).

The other loads 80 are electrical appliances that consume electric power in a house, and unlike the above-described load 50 (specific load), it is not necessary to supply power during a power outage (emergency) (emergency A load that is sometimes less necessary to supply power). Examples of the other loads 80 include an outlet and a lighting provided outside the living room.
The other loads 80 are connected to the distribution board 30.

The home server 60 is a control unit that manages information in the power supply system 1.
Home server 60 is connected to distribution board 30. The home server 60 can exchange information with the power conditioner 20, the power storage device 40, and the like, and can control the operation of the power conditioner 20, the power storage device 40, and the like.

The portable terminal 70 is for a resident of the house to check the state of the power supply system 1 or to perform an operation for changing the operation state of the power supply system 1. As the portable terminal 70, a touch panel combining a display device and an input device can be used.
The portable terminal 70 can exchange information with the home server 60 wirelessly.

Next, with reference to FIG. 2, a power supply mode in the case where power from the commercial power supply 100 is supplied without any problem in the power supply system 1 configured as described above will be described.

Normally, that is, when the power from the commercial power supply 100 can be supplied without any problem, the operation changeover switch 20a of the power conditioner 20 is turned off by the resident. In this case, the self-sustained operation mode of the power conditioner 20 is turned off, and power cannot be taken out from the emergency outlet 21 of the power conditioner 20.

In this state, the DC power generated in the power generation unit 10 is converted into AC power in the power conditioner 20 and supplied to the distribution board 30. Further, AC power from the commercial power source 100 is also supplied to the distribution board 30.

The electric power supplied from the power generation unit 10 and the commercial power source 100 to the distribution board 30 is charged to the power storage device 40 via the cord 42 in an appropriate time zone. The charging time period can be arbitrarily set using the portable terminal 70. For example, if it is set to charge at midnight, midnight power with a low charge can be charged to the power storage device 40. Moreover, if it sets so that the electric power from the electric power generation part 10 may be charged in the time zone when sunlight of daytime is fully irradiated, the electric power generated using the natural energy (sunlight) in the said electric power generation part 10 The power storage device 40 can be charged.
In this case (normal time), when the power storage device 40 is charged with power from the power generation unit 10 and the commercial power supply 100, power is simultaneously supplied (discharged) from the power storage device 40 to the load 50 and other loads 80. ) Is never done. Thus, by preventing charging and discharging from being performed at the same time, deterioration of the power storage device 40 (more specifically, the storage battery (lithium ion battery) in the power storage device 40) can be prevented.

Further, the power supplied from the power generation unit 10 and the commercial power source 100 to the distribution board 30 is supplied to the specific load 50 and other loads 80. That is, the resident can watch the television 51a, cool food in the refrigerator 52, or turn on the living lighting 53 with the power from the power generation unit 10 and the commercial power source 100.

Furthermore, the power charged in the power storage device 40 can be supplied to the load 50 and other loads 80 via the cord 43, the distribution board 30 and the like. In this case, electric power (power purchase) supplied from the commercial power supply 100 can be reduced. The time zone for supplying power from the power storage device 40 to the load 50 can be arbitrarily set using the portable terminal 70. For example, by setting power charged at midnight to the load 50 in the daytime, the power charge can be saved.
Note that when power is supplied (discharged) from the power storage device 40 to the load 50 and the other loads 80, the power from the power generation unit 10 and the commercial power supply 100 is not charged to the power storage device 40 at the same time. Thus, by preventing charging and discharging from being performed at the same time, deterioration of the power storage device 40 (more specifically, the storage battery (lithium ion battery) in the power storage device 40) can be prevented.

In addition, when the power consumed by the load 50 and the other loads 80 can be sufficiently supplied only by the power from the power generation unit 10, it is possible not to use the power from the commercial power supply 100. As a result, it is possible to save power charges.

As described above, control for appropriately supplying power from the power generation unit 10, the commercial power source 100, and the power storage device 40 to the load 50 and other loads 80 is performed based on the control program stored in the home server 60.
In addition, the power supply state as described above is displayed on the display device of the portable terminal 70, and the resident can check the power supply state with the portable terminal 70.

Next, with reference to FIG. 3, a power supply mode at the time of a power failure (when power from the commercial power supply 100 cannot be supplied) will be described.

In the event of a power failure (emergency), the power system from the commercial power supply 100 to the distribution board 30 and the power system from the power conditioner 20 to the distribution board 30 (distribution of power) so as not to hinder the power restoration work of the power company. Electric power is not sent to the power system via the panel 30.

During the power failure (emergency), the resident switches the operation switch 20a of the power conditioner 20 to ON. As a result, the self-sustained operation mode of the power conditioner 20 is turned on, and power can be taken out from the emergency outlet 21 of the power conditioner 20.
However, the operation changeover switch 20a can be configured to transmit information detected as a power failure in the distribution board 30 to the power conditioner 20 and to be automatically switched on.

In this state, the electric power generated in the power generation unit 10 is charged into the power storage device 40 via the power conditioner 20, the emergency outlet 21, and the cord 41.

When the switch of the load 50 is turned on, the electric power charged in the power storage device 40 (electric power charged in advance in normal time and electric power supplied from the power generation unit 10 in emergency) is supplied via the cord 43 and the like. A load 50 is supplied. Since the amount of power that can be used during a power failure is limited, only the minimum necessary load (load 50) is supplied, and no power is supplied to the other loads 80.

As described above, at the time of a power failure, the power from the power generation unit 10 can be charged to the power storage device 40, and at the same time, the power of the power storage device 40 can be supplied to the load 50. In this way, not only the power of the power storage device 40 is discharged, but also charging is performed in parallel, thereby efficiently loading the power previously charged in the power storage device 40 and the power newly generated in the power generation unit 10 into the load 50. Can be supplied to. Moreover, there is a concern about deterioration of the power storage device 40 (more specifically, a storage battery (lithium ion battery) in the power storage device 40) by simultaneously charging and discharging the power storage device 40 as described above. And discharging are performed only at the time of a power failure (emergency). Therefore, power can be efficiently supplied to the load 50 in an emergency while minimizing deterioration of the power storage device 40.

As described above, the power supply system 1 according to the present embodiment is connected to the power generation unit 10 capable of generating power using natural energy, the commercial power source 100 and the power generation unit 10, and the power from the commercial power source 100 and the power generation unit 10. A power supply system 1 that supplies electric power from the power generation unit 10, the power storage device 40, and the commercial power source 100 to a specific load 50, and the power storage device 40 includes a commercial power source When 100 is available, it is possible to charge the electric power from the commercial power source 100 and the power generation unit 10, and when the commercial power source 100 fails, while discharging the charged power to a specific load 50, The power from the power generation unit 10 can be charged.

With this configuration, when the commercial power supply 100 is out of power (in an emergency), the power storage device 40 supplies the power to the specific load 50 as appropriate while charging the power from the power generation unit 10. For this reason, as compared with the case where the power storage device 40 is not charged at the time of power supply (when supplying only precharged power), a larger amount of power (more than the maximum capacity of the power storage device 40) is specified. Can be supplied to the load.

The power storage device 40 does not charge and discharge power simultaneously when the commercial power source 100 is available, and can charge and discharge power simultaneously when the commercial power source 100 fails. .

By configuring in this way, while preventing deterioration of the power storage device 40 in normal times, when the commercial power supply 100 fails, the power storage device 40 is charged and discharged at the same time, and more power is specified. The load 50 can be supplied.

Further, by connecting the emergency outlet 21 of the power conditioner 20 and the distribution board 30 via the power storage device 40 as in the present embodiment, the load is directly applied to the emergency outlet 21 of the power conditioner 20 in an emergency. Therefore, it is possible to easily supply power to the specific load 50. Furthermore, electric power can be supplied to the living lighting 53 that cannot be directly connected to the emergency outlet 21.

In addition, in this embodiment, although the power generation part 10 which generate | occur | produces electricity using sunlight was illustrated as one Embodiment of the power generation part which can generate electric power using natural energy, this invention is not limited to this. For example, it may generate electricity using wind power.

Moreover, in this embodiment, although the electrical storage apparatus 40 which comprises a lithium ion battery was illustrated as one Embodiment of an electrical storage apparatus, this invention is not restricted to this, For example, comprises a lead storage battery etc. There may be.

Moreover, in this embodiment, although the living outlet 51 (TV 51a), the refrigerator 52, and the living lighting 53 were illustrated as one embodiment of specific load, this invention is not limited to this, Other load It is also possible to set a specific load (for example, lighting in a hallway).

The present invention is applicable to a power supply system that includes a power storage device and can supply power to a specific load from the power storage device when a commercial power supply fails.

DESCRIPTION OF SYMBOLS 1 Electric power supply system 20 Power conditioner 10 Electric power generation part 40 Power storage device 50 Load (specific load)
100 Commercial power supply

Claims (2)

1. A power generation unit capable of generating power using natural energy;
   A power storage device connected to a commercial power source and the power generation unit, and capable of charging power from the commercial power source and the power generation unit;
   Comprising
   A power supply system that supplies power from the power generation unit, the power storage device, and the commercial power source to a specific load,
   The power storage device
   When the commercial power source is available, it is possible to charge the power from the commercial power source and the power generation unit,
   When the commercial power supply fails, it is possible to charge the power from the power generation unit while discharging the charged power to the specific load.
   Power supply system.
2. The power storage device
   If the commercial power source is available, do not charge and discharge power at the same time,
   When the commercial power supply fails, it is possible to charge and discharge power at the same time.
   The power supply system according to claim 1.

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