JP3201595U - Power supply - Google Patents

Abstract

A power supply device capable of stably continuing power supply in the event of a power failure such as a disaster. A power supply device (1) used in a facility equipped with a device that operates by electric power, comprising: two secondary batteries (2, 3); and a charge / discharge control device connected to the two secondary batteries (2, 3). 4, and the charge / discharge control device 4 has a function of detecting the charge amounts of the two secondary batteries 2 and 3, and the detected charge amounts of the two secondary batteries 2 and 3. Based on the above, the two secondary batteries 2 and 2 are set so that the other secondary battery is fully charged in a state where one of the secondary batteries 2 and 3 has a predetermined capacity or less. , 3 has a function of controlling charging / discharging. [Selection] Figure 2

Description

  The present invention relates to a power supply device. More specifically, the present invention relates to a power supply device that maintains power supply in an emergency.

  Conventionally, there is a case where a power supply device including a secondary battery is used in order to reduce a backup power source or peak power during a power failure. For example, power is stored in the secondary battery when the nighttime power demand is low, and power is supplied from the secondary battery in addition to the commercial power source when the daytime power demand increases. In addition, during the period until a commercial power supply is restored at the time of a power failure, power stored in the secondary battery is supplied.

  For example, Patent Document 1 discloses a storage / power supply device provided with two secondary batteries, and normally supplies power from the secondary battery during peak power hours and power outages, and It is described that power is alternately supplied from two secondary batteries. There is also a statement that when the power supply state of one secondary battery is completed, the other secondary battery is fully charged. Further, there is a description that even if a power failure occurs at any timing, the charge amount of at least one of the secondary batteries is in a fully charged state, so that power can be supplied to the load during the power failure within a certain time.

JP 2013-99046 A

  However, Patent Document 1 only considers the use of a commercial power source for charging the secondary battery. For this reason, when a power failure occurs during a disaster, power can be supplied within a certain time, but power cannot be supplied in a relatively short time.

  In view of the above circumstances, the present invention provides a power supply device capable of stably continuing power supply for a certain period in the event of a power failure such as a disaster.

A power supply device of the first device is a power supply device used in equipment provided with equipment that operates by electric power, and includes two secondary batteries, a charge / discharge control device connected to the two secondary batteries, The charge / discharge control device has a function of detecting the charge amounts of the two secondary batteries, and based on the detected charge amounts of the two secondary batteries, Among the secondary batteries, there is a function to control the charging / discharging of the two secondary batteries so that the other secondary battery is fully charged when one of the secondary batteries is below a predetermined capacity. It is characterized by that.
The power device of the second device is the power device according to the first device, wherein the charge / discharge control device can be connected to a commercial power source and a natural energy power generator, and the power supplied from the natural energy power generator is preferentially selected from It has a function used for charging two secondary batteries.
When the power supply device of the third device is the first or second device, the charge / discharge control device is supplied with power from the natural energy power generation device to the charge / discharge control device during a power failure. Of the two secondary batteries, charge a secondary battery with a small amount of charge, and control to supply power from the fully charged secondary battery to the outside. When no power is supplied from the natural energy power generation device, a function is provided to preferentially supply power to the outside from the secondary battery with a small charge amount out of the two secondary batteries. It is characterized by that.
A power device according to a fourth aspect of the present invention is characterized in that, in the first, second, or third device, the charge / discharge control device is capable of connecting a plurality of natural energy power generation devices.
A power supply device of a fifth device is the first, second, third or fourth device, wherein the two secondary batteries have a capacity capable of operating an elevator in a fully charged state. And

According to the first device, of the two secondary batteries, in the state where one of the secondary batteries is below a predetermined capacity, the other secondary battery is fully charged. Control charge and discharge. Then, since the period during which one of the secondary batteries is fully charged can be lengthened, it can be stably supplied to the outside for a certain period when a power failure occurs.
According to the second device, it is possible to efficiently use the power generated by the natural energy power generation device while suppressing the use of the commercial power source. Accordingly, energy can be saved in normal times, and stable power supply to the outside can be performed for a certain period of time in the event of a disaster.
According to the third device, in the event of a disaster, it is possible to stably supply power to the outside while effectively using the power generated by the natural energy power generation equipment.
According to the fourth device, it is possible to efficiently use power generated by a plurality of natural energy power generation devices.
According to the fifth device, since the elevator can be operated at the time of disaster, it becomes easy to evacuate and rescue, transport necessary equipment, and the like.

It is a schematic block diagram of the power supply device 1 of this embodiment. It is a schematic explanatory drawing of the installation B which installed the power supply device 1 of this embodiment.

  The power supply device of the present invention is a power supply device equipped with a secondary battery that can be charged and discharged, and can maintain a stable power supply for a certain period even if a power failure occurs in the event of a disaster, etc. It has a special feature.

(About the use of the power supply device of the present invention)
The equipment in which the power supply device of the present invention is used is not particularly limited, but is suitable for equipment that uses equipment that must maintain power supply continuously. For example, equipment with equipment used for life support such as hospitals and nursing homes, equipment that is required to operate even in disasters such as disaster radio equipment and lighting equipment, elevators used in emergency And the like. Moreover, it can be used as a power supply device for supplying electric power so that a minimum living can be maintained even in the event of a power failure in a general apartment.

(About charging equipment)
In the power supply device of the present invention, a chargeable / dischargeable secondary battery is used, but the method of charging the secondary battery is not particularly limited. For example, it can be charged by a power supply source such as a general commercial power supply, a power generation device using natural energy such as a solar power generation device or a wind power generation device, or a regenerative power generation device such as an elevator of an apartment. That's fine. In the following, a power generation device using natural energy such as a solar power generation device or a wind power generation device and a regenerative power generation device such as an elevator of a condominium are collectively referred to as a natural energy power generation device.

  In addition, the power supply source for charging the secondary battery is not limited to the above-described single power supply source, and may be charged by switching from a plurality of power supply sources simultaneously or appropriately.

  In particular, it is desirable to charge mainly from a general commercial power source during normal times and to be charged by a natural energy power generation device in the event of a disaster. With such a configuration, even if the power supply from the commercial power supply is stopped in the event of a disaster, the natural energy power generation device can be charged, so that the power supply by the power generation device can be maintained for a longer period of time. .

(Configuration of the power supply device 1 of the present invention)
First, the installation situation of the power supply device 1 of this embodiment is demonstrated.
As shown in FIG. 2, the power supply apparatus 1 of this embodiment is installed side by side with the installation B which has the apparatus etc. which supply electric power. In addition, you may provide the power supply device 1 of this embodiment in the installation B. FIG. The power supply device 1 of this embodiment is connected to the commercial power supply CP, the natural energy power generation equipment NP, the switchboard of the facility B, and the like by wiring 5.
In addition, in FIG. 2, the case where it connects to the solar power generation device provided in the roof of the installation B as the natural energy power generation device NP is illustrated.
Further, the wiring 5 is provided with a device 6 that performs grid connection. As will be described later, the wiring 5 not only supplies power to the secondary batteries 2 and 3 but also supplies power from the secondary batteries 2 and 3. Therefore, the device 6 is provided in order to appropriately supply the power supplied from the commercial power source CP, the natural energy power generation device NP, and the secondary batteries 2 and 3 to the facility B.

Next, the configuration of the power supply device 1 of the present embodiment will be described.
In FIG. 1, the codes | symbols 2 and 3 have shown the secondary battery of the power supply device 1 of this embodiment. The secondary batteries 2 and 3 have substantially the same configuration and capacity. The secondary batteries 2 and 3 are chargeable / dischargeable batteries such as lithium iron phosphate batteries. The capacity | capacitance of each secondary battery 2 and 3 is not specifically limited, What is necessary is just to use the thing of a suitable capacity | capacitance according to the installation, place, etc. to be used. For example, when the power supply device 1 of the present embodiment is grounded to a medical institution such as a hospital, the secondary batteries 2 and 3 operate devices used for surgery, dialysis, etc., devices used for life support, and the like. Therefore, it is desirable to use one having a capacity that can supply the minimum necessary power. Moreover, when installing in the apartment for general residence, etc., it is desirable to use what has a capacity | capacitance which can operate a shared illumination and a communication power supply for a predetermined period. Preferably, it is desirable to use one having a capacity that can operate an elevator used in an emergency.

  The two secondary batteries 2 and 3 are connected to the charge / discharge control device 4. The charge / discharge control device 4 determines which of the two secondary batteries 2 and 3 is discharged from which the secondary battery is supplied to the outside and which secondary battery is charged. And has a function of controlling charging / discharging of the two secondary batteries 2 and 3. In addition, the mechanism in which the charging / discharging control apparatus 4 switches charging / discharging of the two secondary batteries 2 and 3 is not specifically limited, A well-known switching circuit etc. can be employ | adopted.

  Specifically, the charge / discharge control device 4 has a function of detecting the charge amount of the two secondary batteries 2 and 3, and in normal operation, either one of the two secondary batteries 2 or 3 is used. The charge / discharge is controlled so that the secondary battery is fully charged.

  And when both the two secondary batteries 2 and 3 are full charge, the charge / discharge control apparatus 4 has the function to discharge from the secondary battery different from the secondary battery fully charged last. . For example, it is assumed that the secondary battery 2 is fully charged and the secondary battery 3 is subsequently fully charged. In this case, the charge / discharge control device 4 controls the discharge so that the secondary battery 2 is discharged when the next discharge is necessary. In this way, the number of times of charging / discharging the two secondary batteries 2 and 3 can be made substantially the same, so that one of the secondary batteries can be prevented from rapidly deteriorating. Then, even if either of the two secondary batteries 2 and 3 is in a fully charged state, the time during which power can be supplied to the outside can be made substantially the same, so that stable power supply becomes possible.

  The charge / discharge control device 4 is connected to both a general commercial power supply CP (and a regenerative power generation device) and a natural energy power generation device NP. And it has the function to switch the charge to the two secondary batteries 2 and 3 and the discharge from the two secondary batteries 2 and 3 according to the electric power supply condition by commercial power supply CP.

(Normal)
Under normal conditions, that is, in a situation where electric power is supplied from the commercial power supply CP, the charge / discharge control device 4 has two secondary batteries so that the two secondary batteries 2 and 3 repeat charging and discharging at a certain cycle. A few charge and discharge are controlled. That is, charging / discharging of the two secondary batteries 2 and 3 is controlled so that the two secondary batteries 2 and 3 do not discharge for a certain period or longer. As described above, by discharging the secondary batteries 2 and 3 even in normal times, the secondary batteries 2 and 3 can be prevented from being deteriorated, and power is supplied from the secondary batteries 2 and 3 even during a disaster. Can be performed reliably.

  In addition, when the usage amount of the commercial power source CP increases in normal times, the charge / discharge control device 4 supplies power from one of the two secondary batteries 2 and 3 to the outside, Reduce the amount of commercial power supply CP used. In other words, when the power demand increases significantly, such as during the daytime in summer, the charge / discharge control device 4 performs power supply from the two secondary batteries 2 and 3 so that peak cutting can be performed. In addition to the time when the power demand is greatly increased, the secondary batteries 2 and 3 are discharged as described above, that is, by supplying power from the secondary batteries 2 and 3, the facility B is supplied to the commercial power source CP. Since the required power load can be reduced, it is possible to contribute to energy saving of the equipment B.

  When the charge amount of a secondary battery whose charge amount has decreased due to power supply falls below a certain amount, it is switched to supply power from the other secondary battery to the outside, and the secondary battery whose charge amount has decreased is charged. Is done. At this time, when the electric power generated by the natural energy power generation device NP is supplied to the charge / discharge control device 4, the secondary battery 2, using the power generated by the natural energy power generation device NP in preference to the commercial power source CP. 3 is charged.

(When a power failure occurs due to a disaster, etc.)
When power supply from the commercial power supply CP is stopped due to a power failure due to a disaster or the like, the power is switched so that power is supplied from the two secondary batteries 2 and 3.
At this time, when the electric power generated by the natural energy power generation device NP is not supplied to the charge / discharge control device 4, the power is supplied from the secondary battery 2 or 3 with a small charge capacity. Is done. Then, even if it becomes impossible to supply power from the secondary battery, power can be supplied from the fully charged secondary battery. In other words, since a fully charged secondary battery is always provided, power supply can be maintained for a certain period of time even if a power failure occurs.

  On the other hand, when the electric power generated by the natural energy power generation device NP is supplied to the charge / discharge control device 4, a secondary battery having a large charging capacity (secondary battery of full charge) out of the two secondary batteries 2 and 3. Power is supplied from the battery. Then, the secondary battery having a small charge capacity is charged with the power generated by the natural energy power generation device NP. If it does in this way, while the fully charged secondary battery is supplying electric power, it will be in the state where a secondary battery with few charge capacities is fully charged. Therefore, even if the capacity of the secondary battery that has been supplying power decreases, the power supply can be maintained by the other secondary battery. That is, since power can be supplied by two fully charged batteries, long-term power supply can be maintained.

  In addition, when the electric power generated by the natural energy power generation device NP is supplied to the charge / discharge control device 4, there is a method of directly supplying the power generated by the natural energy power generation device NP. However, once the electric power generated by the natural energy power generation device NP is stored in the secondary battery, the generated electric power can be easily used, and use of unnecessary electric power can be suppressed.

(About connection with power source)
In the above example, the case where both the commercial power source CP and the natural energy power generation device NP are connected to the charge / discharge control device 4 has been described.
However, the charge / discharge control device 4 is normally connected only to a general commercial power supply CP (and a regenerative power generation device), and even if a natural energy power generation device NP is connected in the event of a disaster, etc. Good. That is, it may be separated from the natural energy power generation device NP during normal times and can be connected to the natural energy power generation device NP only during a disaster.

  In particular, it is desirable that the charge / discharge control device 4 can be connected to a plurality of natural energy power generation devices NP. In this case, if a natural energy power generation device NP that is grounded to a plurality of neighboring homes or the like is connected to the charge / discharge control device 4 of the power supply device 1 of the present embodiment in the event of a disaster, the power supply device 1 of the present embodiment is used as a hub. It becomes possible to supply power to a plurality of facilities and devices. Then, compared with the case where the electric power generated with each natural energy power generation device NP is used individually, electric power can be used efficiently. Then, in the event of a disaster, it is possible to extend the period during which power can be supplied, rather than supplying power from individual natural energy power generation equipment NP.

  The power supply device of the present invention is suitable as a backup power supply in a medical institution, a nursing facility, a general residential apartment, or the like, or a power supply for realizing peak cut in normal times.

DESCRIPTION OF SYMBOLS 1 Power supply device 2 Secondary battery 3 Secondary battery 4 Charging / discharging control device 5 Wiring CP Commercial power supply NP Natural energy power generation equipment B Installation facility

Claims (5)

A power supply device used for equipment equipped with equipment that operates by electric power,
Two secondary batteries,
A charge / discharge control device connected to the two secondary batteries,
The charge / discharge control device comprises:
It has a function of detecting the charge amount of the two secondary batteries,
Based on the detected amount of charge of the two secondary batteries, when one of the two secondary batteries is below a predetermined capacity, the other secondary battery is fully charged. Thus, a power supply device having a function of controlling charging and discharging of the two secondary batteries. The charge / discharge control device comprises:
Commercial power and renewable energy generators can be connected,
The power supply apparatus according to claim 1, wherein the power supply apparatus has a function of preferentially using electric power supplied from the natural energy power generation device for charging the two secondary batteries. The charge / discharge control device comprises:
When power is supplied from the natural energy power generation device to the charge / discharge control device at the time of a power failure, a secondary battery with a small charge amount is charged among the two secondary batteries, and a full charge is performed. Control to supply power from the secondary battery to the outside,
When power is not supplied from the natural energy power generation device to the charge / discharge control device at the time of a power failure, power is preferentially given from a secondary battery with a small charge amount out of the two secondary batteries. The power supply apparatus according to claim 1, wherein the power supply apparatus has a function of controlling to be supplied to the outside. The charge / discharge control device comprises:
4. The power supply apparatus according to claim 1, wherein a plurality of natural energy power generation devices can be connected. The two secondary batteries are:
5. The power supply apparatus according to claim 1, wherein the power supply apparatus has a capacity capable of operating the elevator in a fully charged state.

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