JP3171974U - Power storage system - Google Patents

Abstract

When power supply from a commercial power system is interrupted due to a power failure or disaster, power is stably supplied to a load instead of the commercial power system. A power storage system A that supplies power to a load 7 in an emergency in which power supply from a commercial power system B is interrupted, and receives power input from a power input terminal 5 connected to the commercial power system B. Storage battery 1 to be charged, charging / discharging controller 2 for controlling power charging operation and power discharging operation of storage battery 1, and circuit switching for switching to power supply from storage battery 1 when power supply from commercial power system B is interrupted Unit 4 and a power output terminal 6 connected to the circuit switching unit 4. Further, the storage battery 1 is charged by receiving electric power from a solar power generation system C of an external power source different from the commercial power system B. [Selection] Figure 2

Description

  The present invention relates to a power storage system, and more particularly, to a power storage system for supplying power to a load when power supply from a commercial power system to the load is interrupted due to a power failure or disaster.

In recent years, from the viewpoint of global environmental countermeasures against global warming, the use of electric energy obtained from natural energy has been reviewed, and energy systems that effectively use solar energy, wind energy, etc. as representative of clean energy sources It is spreading rapidly.
In particular, the widespread use of solar power generation systems that use solar energy from the standpoint of the effectiveness of electrical wiring, installation costs, and power generation, and there is a surplus in the power generated by the solar power generation system. If it occurs, the surplus power is sold to an electric power company and the proceeds from the sale are earned, so that those who try to contribute to the reduction of the electricity bill are rapidly spreading.

However, the amount of electric energy generated by natural energy is unstable. That is, in a power generation system using natural energy, there may be a situation where a sufficient amount of power generation cannot be obtained depending on the natural environment. For example, in a wind power generation system using wind energy, there is a problem that a desired power generation amount cannot be obtained when wind power is weak, and sufficient power cannot be supplied to a load to be supplied with power.
Such a problem is particularly noticeable in a solar power generation system using solar energy, and during a sunny day when the sun is out, sufficient power generation beyond the power consumed by the load can be expected. However, almost no power generation can be expected when it is cloudy or at night.

  In order to cope with such problems, a photovoltaic power generation system linked to a commercial power system and a storage battery charged with power generated by the photovoltaic power generation system are provided to stabilize the power. (See, for example, Patent Document 1).

JP 2003-79054 A

However, since the conventional technology is a system developed for the purpose of avoiding insufficient charging of the storage battery at the peak of power demand, it is an emergency power source when the power supply from the commercial power system is interrupted due to a power failure or the like There is a possibility that it cannot be operated as
That is, a power failure in the commercial power system can occur suddenly, and when a power failure occurs while being discharged from the storage battery, there is a problem that sufficient power is not charged in the storage battery. Therefore, there is a possibility that power cannot be supplied to a load that requires a minimum power supply, such as a refrigerator or a television set, at the time of a power failure.
Also, in the conventional technology, even if a certain amount of power is charged to the storage battery, there is no other means to charge the storage battery once it is used, especially power supply from the commercial power system due to disasters etc. However, there is a risk that the power supply will be completely interrupted when it cannot be expected in the long term.

  Therefore, the present invention has been created with the object of solving such problems. In other words, when power supply from the commercial power system is interrupted, power can be stably supplied to the load instead of the commercial power system, and it can be used in combination with an external power source different from the commercial power system. In addition, the present invention is capable of stably supplying power in the event of a disaster where long-term power supply from a commercial power system cannot be expected, and that it can be easily connected to the power supply system of an existing house. Is the purpose.

In order to solve the above problems, the power storage system according to the present invention has at least the following configuration.
That is, a power storage system configured to supply power to the load when power supply from the commercial power system to the load is interrupted,
A power input terminal connected to at least the commercial power system; a storage battery that receives at least power received from the power input terminal; and a charge / discharge controller that controls a power charging operation and a power discharging operation of the storage battery. And a circuit switching unit that switches to power supply from the storage battery when power supply from the commercial power system is interrupted, and a power output terminal that is connected to the circuit switching unit. Features.
Here, it is preferable to employ a configuration in which the storage battery is charged with power from an external power source different from the commercial power system. As an external power source, a power generation system such as a solar power generation system or an air volume power generation system that can be applied to an apartment house such as a condominium or a detached house and can generate electric power using natural energy can be cited.

  According to such a configuration, the storage battery can always be kept in a fully charged state by the power charging operation of the charge / discharge controller that controls (manages) the charging state of the storage battery that is charged with power obtained from the commercial power system. When power supply from the commercial power system to the load is interrupted due to a power failure or the like, the power discharge operation of the charge / discharge controller (circuit switching signal to the circuit switching unit) automatically switches to discharging from the storage battery, Power can be supplied stably.

  Also, connect the power input terminal to the power input side of the distribution board of the existing house, and connect it to the power output side of the distribution board wired to the household outlet (mainly the plug socket) including the lighting for the load. By performing simple work such as connecting the power output terminal, it can be used as an emergency power source instead of the commercial power system when power supply from the commercial power system is interrupted due to a power failure or the like. A power storage system can be connected to the power supply system of an existing house.

  In addition, in a newly built or existing residential environment where a photovoltaic power generation system, which is an external power source, is installed, if a power supply from the commercial power system cannot be expected in the long term due to a disaster, the power input terminal By connecting directly to a power conditioner (power conditioner) and operating the power conditioner in the self-sustaining operation mode, the power is stably supplied to the load while the surplus power generated by the photovoltaic power generation system is charged to the storage battery. It becomes possible.

  According to the power storage system of the present invention, when the power supply from the commercial power system to the load is interrupted due to a power failure or disaster, the power can be stably supplied to the household load instead of the commercial power system. it can.

  Moreover, it can be easily connected to the power supply system in the distribution board of the existing house, and can be operated as an emergency power source in the event of a power failure or disaster in the existing house.

  In addition, when combined with an external power source that generates power using natural energy, such as a solar power generation system that is different from the commercial power system, an external power source can be used when power supply from the commercial power system cannot be expected in the long term due to a disaster. It can be operated for emergency use in which the electric power obtained from the storage battery is stably supplied to the load.

It is explanatory drawing which shows the structure of the electrical storage system which concerns on embodiment of this invention. It is explanatory drawing which shows the example made to apply the same electrical storage system to the solar power generation system linked to a commercial power system. It is explanatory drawing which shows the electric power charge operation | movement to the storage battery in the normal time of a commercial power system by the flow of electric power. It is explanatory drawing which shows the electric power discharge operation | movement from a storage battery when the electric power supply from a commercial power system interrupted temporarily by the power failure by the flow of electric power. It is explanatory drawing which shows the flow of electric power when the electric power supply from a commercial power system cannot be expected in the long term by a disaster.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
FIG. 1 is an explanatory diagram illustrating a configuration of a power storage system according to an embodiment of the present invention, and FIG. 2 is an explanatory diagram illustrating an example in which the power storage system is applied to a solar power generation system linked to a commercial power system. It is.
The power storage system A is installed in an apartment house such as a condominium or a detached house, and the electric power obtained from the commercial power system B and the solar power generation system C in the normal state of the commercial power system B, particularly the solar power generation system C. When the power generated by the solar cell C1 is charged and the power supply from the commercial power system B is temporarily interrupted due to a power failure or when the power supply from the commercial power system B cannot be expected for a long time due to a disaster, Instead of the commercial power system B, it is operated as an emergency power source for supplying power to the dedicated load 7.
That is, the power storage system A according to the present embodiment is separated from the normal time of the commercial power system B and is operated as an emergency power source only when the power supply from the commercial power system B is interrupted due to a power failure or disaster. It is what is done.

≪Configuration of power storage system≫
As shown in FIG. 1, the power storage system A includes a storage battery 1, a charge / discharge controller 2, a DC / AC inverter 3, a circuit switching unit 4, a power input terminal 5, and a power output terminal 6.
In addition, the power storage system A includes a dedicated load 7 connected to the power output terminal 6, and requires a minimum power supply from the dedicated load 7 in the event of a power failure or disaster, for example, a refrigerator, a television, It is comprised so that electric power may be supplied with respect to the illumination of this.

≪Storage battery configuration≫
The storage battery 1 is charged and discharged in response to a request from the charge / discharge controller 2. In addition, it is set to a charge amount (backup level) that can cover power for a predetermined period, such as a refrigerator, a television, and some lightings that require a minimum power supply in the event of a power failure or disaster.
The storage battery 1 includes, for example, a nickel / hydrogen storage battery, a nickel / cadmium storage battery, a lithium ion battery, a lead battery, or the like, and these batteries have their respective characteristics. In this embodiment, a lead battery is used.

≪Charge / discharge controller configuration≫
The charge / discharge controller 2 has a function of controlling the power charging operation of the storage battery 1 that is charged by receiving power supplied from the commercial power system B and power generated by the solar battery C1 of the solar power generation system C. Yes.
As a result, when the charge of the storage battery 1 is reduced (lowered) from the fully charged state due to discharge due to power supply to the dedicated load 7 or spontaneous discharge, the power storage is started and the storage battery 1 is always in the fully charged state. The battery is managed (monitored) so as to wait, and the storage battery (not shown) 1 is charged so that the storage battery 1 is fully charged in preparation for a power failure or disaster.

In addition, the charge / discharge controller 2 detects a power failure detection for detecting a power failure of the commercial power system B when the power supply from the commercial power system B is interrupted due to a power failure or a disaster and the power distribution panel B1 is completely turned off. The function and the function of controlling the power discharge operation of the storage battery 1 to switch to power supply from the storage battery 1 by transmitting a circuit switching signal to the circuit switching unit 4 almost simultaneously with the detection of the power failure of the commercial power system B are provided.
As a result, the normal switching state of the relay contact 4a to the relay contact 4b, which will be described later, of the circuit switching unit 4 is automatically switched to the connection to the relay contact 4c in the emergency, and the storage battery 1 is dedicated through the DC / AC inverter 3. The power supply to the load 7 is automatically started when the power supply from the commercial power system B stops.

≪Configuration of DC / AC inverter≫
The DC / AC inverter 3 is a power conversion device that converts DC power generated by the solar battery C1 of the photovoltaic power generation system C or discharged from the storage battery 1 into AC power (AC100V) for home use. That is, when the power supply from the commercial power system B is interrupted due to a power failure or disaster, and the DC / AC inverter 3 is switched to the power discharge from the storage battery 1 by the power discharge operation of the charge / discharge controller 2, the DC / AC inverter 3 The discharged DC power is converted to AC power and supplied to the power output terminal 6 through the circuit switching unit 4.

≪Configuration of circuit switching part≫
The circuit switching unit 4 connects the relay contact 4a and the relay contact 4b during normal times when the power supply from the commercial power system B to the dedicated load 7 and the normal load 8 is normally performed. In an emergency in which the power supply from the power system B to the dedicated load 7 and the normal load 8 is interrupted, the relay contact 4a and the relay contact 4c are switched.
Specifically, when the power supply from the commercial power system B is normal, the connection state between the relay contact 4a and the relay contact 4b is maintained, and the power supply from the commercial power system B is interrupted due to a power failure or a disaster, and charging / discharging. When a power failure in the commercial power system B is detected by the controller 2 and a switching command signal is transmitted to the circuit switching unit 4, the connection is automatically switched to the connection between the relay contact 4a and the relay contact 4c.
Thereby, when the power supply from the commercial power system B is interrupted due to a power failure or a disaster, the power supply is automatically switched from the storage battery 1 to the dedicated load 7.

≪Power input terminal configuration≫
The power input terminal 5 is connected to the charge / discharge controller 2 and the circuit switching unit 4, and the commercial power system B supplies the power obtained from the commercial power system B and the solar power generation system C in normal times to the charge / discharge controller 2 and the dedicated load. 7 In addition, the power input terminal 5 is connected to the distribution board B1 at the time of a power failure in which the power supply from the commercial power system B is normal or from the commercial power system B, and the power supply from the commercial power system B is long-term. In the event of a disaster that cannot be expected, it is directly connected to the power conditioner C2 of the photovoltaic power generation system C without going through the distribution board B1.

  In addition, although illustration is abbreviate | omitted, as the power input terminal 5, for example, either a power plug or a power outlet is used, and the power input terminal 5 is provided on the extension cable side wired over the distribution board B1 and the power conditioner C2. It is better to connect the power outlet or power plug by plugging in.

≪Configuration of power output terminal≫
The power output terminal 6 is connected to the relay contact 4 a of the circuit switching unit 4, and outputs power obtained from the commercial power system B, the solar battery C 1, and the storage battery 1 to the dedicated load 7.

  Although not shown in the figure, as the power output terminal 6, for example, either a power plug or a power outlet is used, and inserted into a power outlet or a power plug provided on the dedicated load 7 side. It is better to connect.

[Description of operation]
Next, an example of an operation when the power storage system A according to the present embodiment configured as described above is applied to the solar power generation system C will be briefly described.
First, the normal time (normal time) in which the power supply from the commercial power system B is normally performed (normal time) will be described.
FIG. 3 is an explanatory diagram showing a power charging operation (default operation) to the storage battery in a normal state of the commercial power system with a flow of power. An arrow a indicates the flow of power from the commercial power system B and the solar power generation system C.

FIG. 3 shows a normal state in which power is normally supplied from the commercial power system B to the dedicated load 7 and the normal load 8. In this state, the power from the commercial power system B and the solar power generation system C is shown. Is supplied from the normal load 8 and the power input terminal 5 to the dedicated load 7 of the power storage system A and flows to the storage battery 1 through the charge / discharge controller 2.
At this time, when the state of charge of the storage battery 1 is a fully charged state, the power charging operation of the charge / discharge controller 2 does not function and power does not flow to the storage battery 1. On the other hand, when the charging of the storage battery 1 is reduced (lowered) from the fully charged state due to natural discharge or the like, the charge / discharge controller 2 starts the power charging operation and charges the storage battery 1 with power.
In this way, the charging of the storage battery 1 is always managed (monitored) by the charge / discharge controller 2 in a fully charged state. That is, the storage battery 1 is always provided as an emergency power source when the power supply from the commercial power system B is interrupted due to a power failure or a disaster in a fully charged state. Thereby, electric power can be stably supplied with respect to the exclusive load 7 which requires a minimum electric power supply at the time of the power failure from which the electric power supply from the commercial power grid B stops temporarily.

  Further, when the storage battery 1 is fully charged and the amount of power generated by the solar cell C1 exceeds the power consumption (demand amount) of the dedicated load 7 and the normal load 8, the surplus power is distributed. The reverse power flows from B1 to the commercial power system B, and surplus power can be sold to the power company.

Next, a description will be given of a power failure when the power supply from the commercial power system B is temporarily interrupted.
FIG. 4 is an explanatory diagram showing the power discharge operation in the flow of power when the power supply from the commercial power system is temporarily interrupted due to a power failure. An arrow b indicates the flow of power discharged from the storage battery 1. Here, description will be made with reference to FIG. 3 as appropriate.

When the power supply from the commercial power system B is interrupted due to a power failure or the like, and the power of the distribution board B1 is completely dropped, the charge / discharge controller 2 detects the power failure of the commercial power system B and the circuit switching unit almost simultaneously with the power failure detection. 4 sends a circuit switching signal.
Then, the circuit connection of the circuit switching unit 4 is automatically switched from the connection state between the relay contact 4a and the relay contact 4b shown in FIG. 3 to the connection between the relay contact 4a and the relay contact 4c shown in FIG.
Thereby, the discharge from the storage battery 1 starts and is supplied to the dedicated load 7. That is, it is possible to stably supply power from the storage battery 1 to, for example, a refrigerator, a television, a part of lighting, or the like that requires a minimum power supply during a power failure.

Then, when the power supply from the commercial power system B is restored, the power supply of the distribution board B1 is started up, so that the charge / discharge controller 2 detects this, and at the same time as the restoration detection, a circuit switching signal is sent to the circuit switching unit 4. send.
Then, the circuit connection of the circuit switching unit 4 is automatically switched from the connection state between the relay contact 4a and the relay contact 4c shown in FIG. 4 to the connection between the relay contact 4a and the relay contact 4b shown in FIG. As a result, the power is returned from the commercial power system B to the dedicated load 7 and the normal load 8 to the normal power supply system shown in FIG.

Next, a description will be given of a disaster (emergency) when there is a possibility that power supply from the commercial power system B cannot be expected in the long term.
FIG. 5 is an explanatory diagram showing a flow of power when power supply from the commercial power system cannot be expected in the long term due to a disaster. Arrow c shows the flow of electric power from the photovoltaic power generation system C (PowerCon C2). Here, description will be made with reference to FIG. 3 as appropriate.

When the power supply from the commercial power system B is cut off due to an earthquake or other natural disaster and the power of the distribution board B1 is completely dropped, the circuit connection of the circuit switching unit 4 is shown in FIG. The connection state between the relay contact 4a and the relay contact 4b is automatically switched to the connection between the relay contact 4a and the relay contact 4c shown in FIG.
When an emergency situation in which power supply from the commercial power system B cannot be expected in the long term, the connection of the power input terminal 5 of the power storage system A is changed from the connection to the distribution board B1 shown in FIG. 3 to FIG. It connects with the power supply C2 of the photovoltaic power generation system C shown to be connected to an unillustrated self-operating outlet. Next, an operation mode changeover switch (not shown) provided in the power conditioner C2 is switched from the normal operation mode side to the self-sustaining operation mode side, and the power conditioner C2 is operated in the self-sustaining operation mode.
Then, the power generated by the solar battery C1 and converted from direct current to alternating current by the power conditioner C2 is directly supplied from the power input terminal 5 to the storage battery 1 through the charge / discharge controller 2 and once charged to the storage battery 1, and then the storage battery 1 And is supplied to the dedicated load 7. That is, at the time of a disaster in which power supply from the commercial power system B cannot be expected in the long term, a power supply path from the solar power generation system C to the storage battery 1 requires a minimum power supply. It is possible to stably supply power to the lighting of the part.

In addition, although illustration is abbreviate | omitted, in addition to the power input terminal 5 to which the distribution board B1 of the commercial power system B is connected, the power input terminal to which the power conditioner C2 of the photovoltaic power generation system C is connected independently is expanded. To do. Further, a circuit switching unit having the same configuration as the circuit switching unit 4 is added to the power storage system A, and one relay contact (corresponding to the relay contact 4a of the circuit switching unit 4) is provided among the relay contacts of the additional circuit switching unit. Connect to the charge / discharge controller 2 and connect the remaining two relay contacts (corresponding to the relay contacts 4b and 4c of the circuit switching unit 4) to the power input terminal 5 and the additional power input terminal, respectively, and charge / discharge the additional circuit switching unit. Connect to the controller 2.
As described above, by adding the power input terminal and the circuit switching unit to the power storage system A, the connection of the additional circuit switching unit is established by the circuit switching signal from the charge / discharge controller 2 in the event of a disaster. It automatically switches from the connection with the distribution board B1 side to the connection with the additional power input terminal side (powercon C2 side), and the power generated by the solar cell C1 is directly transferred from the powercon C2 to the storage battery 1 through the charge / discharge controller 2. It can change to the electric power supply path to supply. That is, it is possible to switch from power generation system C to power supply to storage battery 1 only by switching the operation mode of power conditioner C2 from the normal operation mode to the independent operation mode.

Although specific examples of embodiments of the present invention have been described in detail above, the above-described detailed embodiments are merely examples, and do not limit the scope of the utility model registration request. The technical matters described in the claims of the utility model registration include even those whose design has been changed without departing from the gist of the present invention.
In the detailed embodiment, the solar power generation system C using solar energy as an external power source different from the commercial power system B has been described as an example. However, any power generation system using natural energy may be used. For example, a wind power generation system that generates power using wind energy or a power generation system that uses other natural energy can be used (utilized) as an external power source different from the commercial power system B.

A power storage system 1 storage battery 2 charge / discharge controller 3 DC / AC inverter 4 circuit switching unit 5 power input terminal 6 power output terminal 7,8 load B commercial power system B1 distribution board C solar power generation system (external power source)
C1 Solar cell C2 Power conditioner

Claims (2)

A power storage system configured to supply power to the load when power supply from the commercial power system to the load is interrupted,
A power input terminal connected to at least the commercial power system;
A storage battery that is charged by receiving power input from the power input terminal;
A charge / discharge controller for controlling the power charging operation and the power discharging operation of the storage battery;
A circuit switching unit that switches to power supply from the storage battery when power supply from the commercial power system is interrupted;
And an electric power output terminal connected to the circuit switching unit.   The power storage system according to claim 1, wherein the storage battery is charged by receiving power from an external power source different from the commercial power system.

Images