JP2004328960A - Uninterruptible power supply - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an uninterruptible power supply that can miniaturize a storage battery and that can efficiently supply electric power to electrical appliances at power failure. <P>SOLUTION: The storage battery 2 that can supply electric power to a plurality of the electrical appliances 1a-1i are provided to a demand control device 3. This demand control device 3 decides on the priority for electric power which should be supplied to a plurality of the electrical appliances 1a-1i according to their importance, and at power failure, restricts power supply in the order of the electrical appliances 1a-1i, whose priorities are lower according to the state of the remaining amount of charge of the storage battery 2. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an uninterruptible power supply device that supplies power to a plurality of electric devices at the time of a power failure.
[0002]
[Background technology]
As an example of an uninterruptible power supply device, a technique described in Patent Document 1 is known. The uninterruptible power supply system described in FIG. 4 of this document includes a commercial AC power supply as a power supply, a load device (electric device), and an uninterruptible power supply device arranged on a power supply path therebetween. It has.
The uninterruptible power supply includes a commercial power supply path from an input terminal to an output terminal via a bypass wiring and a two-input switch, and a storage power supply path from a battery to an output terminal via a DC / AC inverter and a two-input switch. The microcomputer monitors input voltage and the like and outputs a control signal to the two-input switch, thereby performing control to switch from the commercial power supply path to the storage power supply path in the event of a power failure. The AC / DC converter is provided to charge the battery with a commercial AC power supply.
[0003]
Then, in this uninterruptible power supply, the microcomputer normally outputs a control signal to the two-input switch so as to select a commercial power supply path, and supplies the power of the commercial AC power supply to the load device. When an abnormality occurs in a commercial AC power supply or the like, the microcomputer detects the abnormality based on an input voltage or the like, and outputs a control signal for switching to the storage power supply path to the two-input switch.
By installing the uninterruptible power supply in this manner, stable power can be supplied to the load devices.
[0004]
[Patent Document 1]
JP-A-2002-218671
[0005]
[Problems to be solved by the invention]
By the way, in the uninterruptible power supply device as described above, power is supplied from a battery (storage battery) to a load device (electric device) at the time of a power failure, but when there are a plurality of electric devices, the number of electric devices is large. It is necessary to increase the capacity of the storage battery. However, since the probability of occurrence of a power failure is extremely low, it is not preferable to provide a large-capacity storage battery in preparation for a power failure in terms of economy or the size of a place where the storage battery is installed.
On the other hand, some of the electric devices provided in houses and the like include those that need to always supply power and those that do not.
[0006]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an uninterruptible power supply device capable of reducing the size of a storage battery and efficiently supplying electric power to an electric device during a power failure. And
[0007]
[Means for Solving the Problems]
In order to solve the above problem, the invention according to claim 1 includes, for example, as shown in FIG. 1, a storage battery 2 that can supply power to a plurality of electric devices 1 a to 1 i.
A demand control device 3 provided between the storage battery 2 and the plurality of electric devices 1a to 1i;
The demand control device 3 determines priorities in accordance with the degree of importance to supply power to the plurality of electric devices 1a to 1i. It is characterized in that the power supply is limited in order from the lower-ranked electric devices 1a to 1i.
[0008]
Here, limiting power supply means intermittently supplying power, suppressing the amount of power supply, or cutting off power supply.
In addition, it is desirable that the priority be determined in accordance with the characteristics of the electric device in addition to the importance to be supplied.
Further, when the priorities are determined in accordance with the degree of importance of supplying power to the plurality of electric devices, for example, the plurality of electric devices are classified into four classes A to D and the priorities are determined. . The method of determining the priority order is not limited to this classification.
Class A is an electrical device that needs to be constantly supplied with power without a momentary interruption (a momentary interruption of power supply), such as an electronic lock or a sensor (gas leak detector, illegal intruder detection). ) And computers such as home servers.
Class B is an electrical device that can be momentarily interrupted but needs to be constantly supplied with electric power, and examples thereof include an electric shutter, a telephone, and a fax machine.
[0009]
Class C is an electric device that needs to supply power only when necessary, and includes, for example, a tuner, an antenna, a power source for washing a shower toilet, and the like. If there is no means for automatically detecting and controlling the demand for electric power in a class C electric device, the class is equivalent to class B.
Class D is an electrical device that does not hinder operation even if power is supplied intermittently, and includes, for example, a ventilation system.
[0010]
According to the first aspect of the present invention, the demand control device 3 determines priorities in accordance with the importance of power supply to the plurality of electric devices 1a to 1i in advance, and in the event of a power failure, the demand of the storage battery 2 is determined. Since the power supply is limited in order from the lower priority electrical devices 1a to 1i according to the remaining charge, power can be efficiently supplied to the electrical devices 1a to 1i at the time of a power failure, so that the power failure time can be reduced. Even if it gets longer, it can maintain the minimum operation of electrical equipment necessary for daily life.
In addition, since power is not constantly supplied to all the electric devices 1a to 1i during a power failure, the size of the storage battery 2 can be reduced.
[0011]
The invention according to claim 2 is the uninterruptible power supply device according to claim 1,
A photovoltaic power generator 4 is provided, and the photovoltaic power generator 4 and the storage battery 2 are connected via a charge / discharge controller 5;
The charge / discharge controller 5 is a chargeable state in which the photovoltaic power generation device 4 can charge the storage battery 2, and a solar power supply capable of supplying power from the photovoltaic power generation device 4 to the plurality of electric devices 1 a to 1 i. At least one of an optical power supply possible state and a storage battery power supply possible state in which power can be supplied from the storage battery 2 to the plurality of electric devices 1a to 1i can be selected.
[0012]
According to the second aspect of the present invention, when the photovoltaic power generation device 4 is operating during normal times (when there is no power outage), the charge / discharge controller 5 selects a solar power supply available state. Power can be supplied from the photovoltaic power generation device 4 to the plurality of power devices 1a to 1i. Therefore, the plurality of power devices 1a to 1i can be supplied without using commercial power and without reducing the remaining power of the storage battery 2. 1a to 1i can be set to the operating state.
Also, in normal times, when the photovoltaic power generator 4 is operating, the charge / discharge controller 5 selects both the chargeable state and the photovoltaic power supply available state, so that the storage battery 2 4, the power can be supplied from the photovoltaic power generation device 4 to the plurality of power devices 1a to 1i, and thus the storage battery 2 can be charged without using commercial power. The plurality of power devices 1a to 1i can be set to the operating state.
Further, in the normal case, when the power supply from the solar power generation device 4 is insufficient, the charge / discharge controller 5 selects the storage battery power supply available state, and the insufficient power is supplied from the storage battery 2 to the electric devices 1a to 1a. 1i. Therefore, even if the power supply from the photovoltaic power generator 4 is insufficient, the plurality of power devices 1a to 1i can be brought into the operating state.
Also, in normal times, when the photovoltaic power generation device 4 is not operating, the charge / discharge controller 5 supplies power from the storage battery 2 to the plurality of power devices 1a to 1i by selecting a storage battery power supply available state. Therefore, the plurality of power devices 1a to 1i can be put into operation without using commercial power. Further, in this case, by supplying power from the storage battery 2 to the plurality of power devices 1a to 1i during a time period when the electricity rate is high, it is possible to reduce the running cost due to the peak shift. In this case, the storage battery 2 is set with a first region that uses power during a power outage and a second region that uses power during normal times, and supplies power from this second region.
[0013]
Further, when the photovoltaic power generation device 4 is operating during a power outage, the charge / discharge controller 5 selects the solar power supply available state, so that the photovoltaic power generation device 4 Thus, the plurality of power devices 1a to 1i can be operated without using commercial power and without reducing the remaining power of the storage battery 2.
Further, when the photovoltaic power generation device 4 is operating during a power outage, the charge / discharge controller 5 selects both the chargeable state and the photovoltaic power supply available state, so that the photovoltaic power generation device 4, the power can be supplied from the photovoltaic power generation device 4 to the plurality of power devices 1a to 1i, and thus the storage battery 2 can be charged without using commercial power. The plurality of power devices 1a to 1i can be set to the operating state.
[0014]
Furthermore, when the power supply from the photovoltaic power generation device 4 is insufficient, the charge / discharge controller 5 selects the storage battery power supply available state, thereby supplying the insufficient power from the storage battery 2 to the electric devices 1a to 1i. be able to. Therefore, even if the power supply from the photovoltaic power generator 4 is insufficient, the plurality of power devices 1a to 1i can be brought into the operating state.
In this case, the demand control device 3 determines priorities in accordance with the degree of importance to supply power to the plurality of electric devices 1a to 1i, and determines the priority in accordance with the remaining charge of the storage battery 2. The power supply is limited in order from the lowest electrical equipment 1a to 1i, so that the power can be efficiently supplied to the electrical equipment 1a to 1i at the time of a power outage. The operation of the electrical devices 1a to 1i can be maintained for a limited time.
[0015]
Further, at the time of the power failure, when the photovoltaic power generation device 4 is not operating, the charge / discharge controller 5 supplies power from the storage battery 2 to the plurality of power devices 1a to 1i by selecting a storage battery power supply available state. Therefore, the plurality of power devices 1a to 1i can be operated without using the commercial power (the commercial power is unavailable at the time of the power failure).
At this time, the demand control device 3 determines priorities in accordance with the degree of importance to supply power to the plurality of electric devices 1a to 1i, and according to the remaining charge amount of the storage battery 2, Since the power supply is limited in order from the lower-ranked electric devices 1a to 1i, electric power can be efficiently supplied to the electric devices 1a to 1i at the time of a power outage. The minimum operation of the electric devices 1a to 1i can be maintained.
[0016]
As described above, according to the second aspect of the present invention, by connecting the photovoltaic power generation device 4 and the storage battery 2 via the charge / discharge controller 5, the power generation of the photovoltaic power generation device 4 can be performed during a normal time, during a power failure, and the like. An optimal state of power supply can be obtained according to each of the power generation state and the power generation stop state.
[0017]
The invention according to claim 3 is the uninterruptible power supply device according to claim 2,
When the power supply amount from the photovoltaic power generation device 4 to the plurality of electric devices 1a to 1i is insufficient, the charge / discharge controller 5 supplies the electric devices 1a to 1i with insufficient power from the storage battery,
The demand control device 3 determines priorities in accordance with the degree of importance to supply power to the plurality of electric devices 1a to 1i. It is characterized in that the power supply is limited in order from the lowest electric equipment 1a to 1i.
[0018]
According to the third aspect of the present invention, when the plurality of electric devices 1a to 1i are operated by the power supply from the photovoltaic power generation device 4, even if the power supply amount is insufficient, these electric devices 1a Since the shortage of power is supplied from the storage battery 2 to １1i, the operation of the electric device can be maintained.
When the shortage of electric power is supplied from the storage battery 2 to the electric devices 1a to 1i, the demand control device 3 restricts the electric power supply in order from the electric device with the lowest priority. Power can be supplied efficiently, and thus, even if the power outage time is prolonged, it is possible to maintain the minimum necessary electric appliances for daily operation.
[0019]
The invention according to claim 4 is the uninterruptible power supply device according to claim 2 or 3,
The charge / discharge controller 5 is connected to a commercial power supply 9a,
The charge / discharge controller 5 supplies electric power from the commercial power supply 9a to the plurality of electric devices 1a to 1i according to the remaining charge of the storage battery 2 when the photovoltaic power generation device 4 is in the power generation stop state. It is characterized by supplying.
[0020]
According to the invention as set forth in claim 4, in normal times, the photovoltaic power generation device 4 is in a power generation stop state, and the remaining charge of the storage battery 2 is reduced, so that the electric devices 1a to 1i are operated. Even if the remaining charge becomes insufficient, the insufficient power can be supplied from the commercial power supply 9a to the plurality of electric devices 1a to 1i, so that the operation of the electric devices 1a to 1i can be maintained.
[0021]
According to a fifth aspect of the present invention, in the uninterruptible power supply device according to any one of the second to fourth aspects,
The charge / discharge controller 5 is connected to a private power outlet 10,
The charge / discharge controller 5 supplies power from the solar power generation device 4 to the private power outlet 10 when the storage battery 2 is fully charged at the time of a power failure.
[0022]
According to the invention as set forth in claim 5, power is supplied from the photovoltaic power generation device 4 to the private power outlet 10 at the time of a power outage, so that electric devices other than the electric devices 1a to 1i operated by the power supplied from the storage battery 2 are provided. Can be operated.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a block diagram of an uninterruptible power supply device according to the present invention.
As shown in FIG. 1, the uninterruptible power supply device includes a storage battery 2 capable of supplying power to a plurality of electric devices 1a to 1i, and a demand provided between the storage battery 2 and the plurality of electric devices 1a to 1i. And a control device 3.
[0024]
The uninterruptible power supply device includes a solar power generation device 4. The solar power generation device 4 is connected to a charge / discharge controller 5. The charge / discharge controller 5 is connected to the storage battery 2, a power supply unit 6 for an electric vehicle, and a fuel cell 7. Further, the charge / discharge controller 5 is connected to a private power outlet 10 of the distribution board 9 via the PV inverter 8. The PV inverter 8 converts DC power generated by the solar power generation device 4 into AC power and outputs the AC power. The private power outlet 10 is supplied with electric power generated by the photovoltaic power generation device 4, and is connected to another electric device other than the electric devices 1 a to 1 i. The electric device can be operated with the electric power generated by the solar power generation device 4.
A commercial power SAD is supplied to the distribution board 9, and a plurality of commercial power supplies 9 a for the commercial power are provided on the distribution board 9.
[0025]
The distribution board 9 is provided with an input section 9b to which electric power generated by the photovoltaic power generator 4 and electric power charged in the storage battery 2 are supplied. The input section 9b and the charge / discharge controller 5 Are connected via an inverter 11. The inverter 11 converts DC power generated by the solar power generation device 4 or DC power charged in the storage battery 2 into AC power and outputs the AC power. The input unit 9b is connected to an output unit 9c for outputting the power (AC power) supplied to the input unit 9, and a plurality of output units 9c are connected to the output unit 9c via the demand control device 3. Electric devices 1a to 1i are connected.
[0026]
A multifunctional energy display device 12 is connected to the charge / discharge controller 5, and an ADSL modem 13 is connected to the multifunctional energy display device 12 via a router 14. The router 14 has a function as a wireless LAN access point.
In addition, the multifunctional energy display device 12 is connected to the electric devices 1a to 1i. And the multifunctional energy display device 12 can display the states of the power devices 1a to 1i. Further, the multifunctional energy display device 12 is connected to an external Internet by an ADSL modem 13 so that information from the Internet can be displayed. Further, the multifunctional energy display device 12 is connected to a TV door phone 1a, which is one of the electric devices, and can display a visitor or the like taking a picture with the TV door phone 1a. Although not shown, the multifunctional energy display device 12 includes a main body, and a display device detachably mounted on the main body and capable of wirelessly transmitting and receiving information to and from the main body.
[0027]
The multi-function energy display device 12 has a function of an IP telephone (telephone using an IP network (Internet)), and a portable telephone IP phone 1b is wirelessly connected to the multi-function energy display device 12. I have.
The wireless LAN compatible device 1c is an electrical device that can be wirelessly connected to the access point of the router 14, and includes, for example, a notebook personal computer, a PDA, a printer server, and a video recorder equipped with a hard disk.
The antenna and the tuner 1f are mainly antennas and tuners for satellite broadcasting.
As the ventilation system 1i, for example, there is a central ventilation system, and electric power is supplied to a fan or the like constituting the ventilation system.
[0028]
The electric devices 1a to 1i as described above are supplied with power from the output unit 9c of the distribution board 9 via the demand control device 3, and the demand control device 3 supplies the electric devices 1a to 1i to the plurality of electric devices 1a to 1i. Priorities are determined in accordance with the degree of importance to which power is to be supplied, and in the event of a power outage, the power supply is limited in order from the lower priority electrical devices in accordance with the remaining charge of the storage battery 2.
[0029]
In the case of determining the priority order according to the degree of importance to supply power to the plurality of electric devices 1a to 1i, in the present embodiment, the plurality of electric devices 1a to 1i are classified into four classes A to D. Be prioritized.
Class A is an electrical device that needs to be always supplied with power without an instantaneous interruption (power supply is momentarily cut off). For example, an electronic lock 1g or a sensor (gas leak detector, illegal intruder) Security device such as a sensor, and a computer such as a home server.
Class B is an electrical device that can be momentarily interrupted but needs to be constantly supplied with electric power, such as an electric shutter 1h, an analog telephone 1d, a facsimile device 1e, a telephone handset portable IP telephone 1b, and a TV doorphone 1a. Is mentioned.
[0030]
Class C is an electrical device that needs to supply power only when necessary, and includes, for example, a tuner, an antenna 1f, a wireless LAN compatible device 1c, a power supply for washing a shower toilet, and the like.
Class D is an electric device that does not hinder operation even if power is intermittently supplied, and includes, for example, a ventilation system 1i.
It should be noted that power is supplied directly from the charge / discharge controller 5 to the multifunction energy display device 12, and power is also supplied to the router 14 and the ADSL modem 13 via the multifunction energy display device 12.
[0031]
Further, the charge / discharge controller 5 is configured to charge the power supply unit 6 to the storage battery 2 or the electric vehicle from the solar power generation device 4 and to charge the power supply unit 6 to the plurality of electric devices 1a to 1i. A solar power supply available state where power can be supplied, a storage battery power available state where power can be supplied from the storage battery 4 to the plurality of electric devices 1a to 1i, and a power supply from the commercial power supply 9a to the electric devices 1a to 1i. It is possible to select at least one of a commercial power supply available state in which power can be supplied and a solar power private power supply available state in which power can be supplied from the solar power generation device 4 to the private power outlet 10. I have.
[0032]
Further, the charge / discharge controller 5 supplies the shortage of power from the storage battery 2 to the electric devices 1a to 1i when the power supply from the solar power generation device 4 to the plurality of electric devices 1a to 1i is insufficient. It has become.
Further, the charge / discharge controller 5 supplies power from the commercial power supply 9a to the plurality of electric devices 1a to 1i according to the remaining charge of the storage battery 2 when the photovoltaic power generation device 4 is in the power generation stop state. It has become.
The charge / discharge controller 5 supplies power from the photovoltaic power generator 4 to the private power outlet 10 when the storage battery 2 is fully charged at the time of a power failure.
[0033]
Next, the operation of the uninterruptible power supply device configured as described above will be described.
(1) Normal time (when there is no power outage)
In normal times, there are two cases: whether the photovoltaic power generation device 4 has started power generation or stopped power generation.
a. When power generation has started
In this case, the charge / discharge controller 5 preferentially supplies electric power from the photovoltaic power generation device 4 to the electric devices 1a to 1i by selecting a solar power supply available state. Then, the surplus power is supplied to the storage battery 2 and charged until it is fully charged by the charge / discharge controller 5 selecting a chargeable state. If the battery is fully charged, power is supplied to a normal load (normal electric devices other than the electric devices 1a to 1i) via the PV inverter 8.
[0034]
When the power generation of the photovoltaic power generation device 4 is insufficient, the charge / discharge controller 5 selects the storage battery power supply available state, thereby supplying the insufficient power from the storage battery 2 to the electric devices 1a to 1i.
Therefore, when a plurality of electric devices 1a to 1i are operated by the power supply from the photovoltaic power generation device 4 in a normal time, even if the power supply amount is insufficient, the storage batteries 2 are stored in the electric devices 1a to 1i. , The operation of the electric devices 1a to 1i can be maintained.
[0035]
b. When power generation is stopped
In this case, electric power is supplied from the storage battery 2 to the electric devices 1a to 1i by the charge / discharge controller 5 selecting a storage battery power supply available state. In this case, power is supplied from the storage battery 2 until the remaining charge amount of the storage battery 2 reaches a predetermined level (an amount that guarantees uninterruptible power supply). By selecting the possible state, electric power is supplied from the commercial power supply 9a to the electric devices 1a to 1i.
Therefore, in normal times, the photovoltaic power generation device 4 is in a power generation stop state, and the remaining charge of the storage battery 2 is reduced, resulting in an insufficient remaining charge for operating the electric devices 1a to 1i. Also, the shortage power can be supplied from the commercial power supply 9a to the plurality of electric devices 1a to 1i, and the operation of the electric devices 1a to 1i can be maintained.
[0036]
(2) At power failure
Even during a power outage, there are two cases: whether the solar power generation device 4 has started power generation or stopped power generation.
a. When power generation has started
In this case, the charge / discharge controller 5 preferentially supplies electric power from the photovoltaic power generation device 4 to the electric devices 1a to 1i by selecting a solar power supply available state. Then, the surplus power is supplied to the storage battery 2 and charged until it is fully charged by the charge / discharge controller 5 selecting a chargeable state. If the battery is fully charged, the charge / discharge controller 5 selects a state in which the solar power can be supplied by private power generation, and supplies the power to the private power outlet 10 via the PV inverter 8.
Thus, at the time of a power failure, electric power is supplied from the photovoltaic power generation device 4 to the private power outlet 10, so that electric devices other than the electric devices 1a to 1i that operate using the electric power supplied from the storage battery 2 can be operated.
[0037]
When the power generation of the photovoltaic power generation device 4 is insufficient, the charge / discharge controller 5 selects the storage battery power supply available state, thereby supplying the insufficient power from the storage battery 2 to the electric devices 1a to 1i.
Therefore, when a plurality of electric devices 1a to 1i are operated by the power supply from the photovoltaic power generation device 4 at the time of the power failure, even if the power supply amount is insufficient, the storage batteries 2 are stored in the electric devices 1a to 1i. , The operation of the electric devices 1a to 1i can be maintained.
[0038]
When the shortage of power is supplied from the storage battery 2 to the electric devices 1a to 1i, the demand control device 3 performs demand control. In other words, the priorities are determined for the four classes A to D according to the importance to supply power to the plurality of electric devices 1a to 1i, as described above, and are determined according to the remaining charge of the storage battery 2. Therefore, the power supply is limited in order from the electric equipment having the lowest priority.
Therefore, electric power can be efficiently supplied to the electric devices 1a to 1i at the time of a power outage, and therefore, even if the power outage time is prolonged, it is possible to maintain operation of the minimum necessary electric appliances for daily life.
[0039]
b. When power generation is stopped
In this case, electric power is supplied from the storage battery 2 to the electric devices 1a to 1i by the charge / discharge controller 5 selecting a storage battery power supply available state.
In this case, the demand control device 3 performs demand control according to the remaining charge amount of the storage battery 2. In other words, the priorities are determined for the four classes A to D according to the importance to supply power to the plurality of electric devices 1a to 1i, as described above, and are determined according to the remaining charge of the storage battery 2. Therefore, the power supply is limited in order from the electric equipment having the lowest priority.
Therefore, the photovoltaic power generation device 4 is stopped, and the power can be efficiently supplied to the electric devices 1a to 1i at the time of the power outage. The operation of 1a to 1i can be maintained.
[0040]
As described above, in the present embodiment, by connecting the photovoltaic power generation device 4, the storage battery, the commercial power supply 9a, and the private power generation outlet 10 via the charge / discharge controller 5, the photovoltaic power generation can be performed during a normal time, a power outage, and the like. An optimum state of power supply can be obtained according to the operation and non-operation states of the device 4.
Further, at the time of a power outage, the demand control is performed by the demand control device 3 so that the electric power is not always supplied from the storage battery 2 to all the electric devices 1a to 1i, so that the storage battery 2 can be reduced in size. .
[0041]
Note that, in the present embodiment, the electrical devices that are demand-controlled by the demand control device 3 are of the types 1a to 1i, but the present invention is not limited to this. For example, a surveillance camera, a fire sensor, a pipe fan for a toilet or the like, a gas water heater, a septic tank pump, a solar water heater circulation pump, night lighting in an emergency, and the like may be demand-controlled.
[0042]
【The invention's effect】
As described above, according to the first aspect of the present invention, the demand control device restricts the power supply in order from the lowest priority electrical device in accordance with the remaining charge of the storage battery. In this case, electric power can be efficiently supplied to electric equipment. Therefore, even if the power outage time is prolonged, it is possible to maintain the operation of the minimum necessary electric appliances for daily life.
In addition, since power is not always supplied to all electric devices at the time of a power failure, the size of the storage battery can be reduced.
[0043]
According to the invention described in claim 2, by connecting the photovoltaic power generation device and the storage battery via the charge / discharge controller, the power generation status of the photovoltaic power generation device and the power generation stop status during a normal time, a power outage, and the like. , An optimal state of power supply can be obtained.
[0044]
According to the third aspect of the present invention, when a plurality of electric devices are operated by power supply from the photovoltaic power generator, even if the amount of power supply is insufficient, the shortage of the electric devices from the storage battery is reduced. Since the electric power is supplied, the operation of the electric device can be maintained.
In the case where the shortage of electric power is supplied from the storage battery to the electric equipment, the demand control device restricts the electric power supply in order from the electric equipment having the lower priority, so that the electric equipment can be efficiently supplied with electric power at the time of a power failure. .
[0045]
According to the invention as set forth in claim 4, the photovoltaic power generation device is in the power generation stop state, and the remaining charge of the storage battery is reduced, and the remaining charge becomes insufficient to operate the electric device. In addition, since the shortage of power can be supplied from a commercial power supply to a plurality of electric devices, the operation of the electric devices can be maintained.
[0046]
According to the invention as set forth in claim 5, power is supplied from the photovoltaic power generator to the private power outlet at the time of a power failure, so that electric devices other than the electric device operated by the power supplied from the storage battery can be operated. .
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of an uninterruptible power supply device according to the present invention.
[Explanation of symbols]
1a to 1i electrical equipment
2 Storage battery
3 Demand control device
4 Photovoltaic power generator
5 Charge / discharge controller
9a Commercial power supply
10 Private power outlet

Claims (5)

A storage battery capable of supplying power to a plurality of electrical devices;
Comprising a demand control device provided between the storage battery and the plurality of electric devices,
The demand control device determines priorities in accordance with the degree of importance to supply power to the plurality of electric devices, and, in the event of a power failure, according to the remaining charge amount of the storage battery, the low-priority electric devices. An uninterruptible power supply device characterized by limiting power supply in order from the first. The uninterruptible power supply device according to claim 1,
A photovoltaic power generator is provided, and the photovoltaic power generator and the storage battery are connected via a charge / discharge controller,
This charge / discharge controller is a chargeable state in which the storage battery can be charged from the solar power generation device, and a solar power supply possible state in which power can be supplied from the solar power generation device to the plurality of electric devices, An uninterruptible power supply device, wherein at least one of a storage battery power supply available state in which power can be supplied from the storage battery to the plurality of electric devices can be selected. The uninterruptible power supply device according to claim 2,
The charge / discharge controller, when the amount of power supply from the photovoltaic power generator to a plurality of electric devices is insufficient, supplies insufficient electric power from the storage battery to these electric devices,
The demand control device determines priorities in accordance with the degree of importance to supply power to a plurality of electric devices, and in the event of a power failure, according to the remaining charge amount of the storage battery 2, the electric devices with lower priorities are determined. An uninterruptible power supply device characterized by limiting power supply in order from the first. The uninterruptible power supply device according to claim 2 or 3,
The charge / discharge controller is connected to a commercial power supply,
The charge / discharge controller supplies power from the commercial power supply to the plurality of electric devices according to a remaining charge amount of the storage battery when the photovoltaic power generation device is in a power generation stop state. Uninterruptible power supply. The uninterruptible power supply device according to any one of claims 2 to 4,
The charge / discharge controller is connected to a private power outlet,
An uninterruptible power supply device, wherein the charge / discharge controller supplies power to the private power outlet from the solar power generation device when the storage battery is fully charged during a power failure.

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