JP2023097846A - Uninterruptible power supply system - Google Patents

Abstract

To provide an uninterruptible power supply system capable of supplying sufficient power to a load having high importance (priority) even when an AC power supply fails.SOLUTION: An uninterruptible power supply system 100 comprises: a plurality of regular-use uninterruptible power supply devices 10 each including a converter 11, an inverter 12, a bypass circuit 14 and a switch 15; a standby uninterruptible power supply device 20 for supplying standby power to each of the plurality of regular-use uninterruptible power supply devices 10; and a control device (control unit). When an AC power supply fails, the control device 30 performs power supply control that determines a regular-use uninterruptible power supply device 10 to which standby power is supplied from the standby uninterruptible power supply device 20 among the plurality of regular-use uninterruptible power supply devices 10 connected to the failed AC power supply 101 on the basis of priority set in advance for each of at least the plurality of regular-use uninterruptible power supply devices 10.SELECTED DRAWING: Figure 5

Description

The present invention relates to an uninterruptible power supply system, and more particularly to an uninterruptible power supply system having a plurality of regular uninterruptible power supplies.

Conventionally, an uninterruptible power supply system including a plurality of regular uninterruptible power supply devices is known (see Patent Document 1, for example).

The uninterruptible power supply system described in Patent Document 1 includes a plurality of regular UPSs (regular uninterruptible power supplies), each of which is connected to a load, and a standby power supply that supplies standby power to the regular UPSs in the event of a power failure of the regular UPSs. UPS. In the uninterruptible power supply system described in Patent Document 1, when a commercial power supply (AC power supply) connected to a plurality of regular UPSs fails, standby power is supplied from the backup UPS to all of the plurality of regular UPSs. .

JP 2006-271074 A

In the uninterruptible power supply system described in Patent Document 1, as described above, when the commercial power supply (AC power supply) connected to the plurality of regular UPSs fails, all of the plurality of regular UPSs are connected to the backup UPS. Reserve power is supplied from As a result, the power output from the standby UPS to one regular UPS is small, and there are cases where sufficient spare power cannot be supplied to the regular UPS connected to a load with a high degree of importance (priority). In this case, there is a problem that it may be difficult to supply sufficient power to a load having a high degree of importance (priority).

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and one object of the present invention is to supply sufficient power to loads of high importance (priority) even when the AC power supply fails. is to provide an uninterruptible power supply system capable of supplying

To achieve the above object, an uninterruptible power supply system according to one aspect of the present invention includes a plurality of regular uninterruptible power supplies supplied with power from an AC power supply and supplying power to a first load connected to each of them. a device, a standby uninterruptible power supply that supplies standby power to each of a plurality of normal uninterruptible power supplies, and a control unit, and each of the plurality of normal uninterruptible power supplies receives power from an AC power supply A power conversion circuit that converts and outputs the converted power to the first load, a bypass circuit that supplies power from the AC power supply or the standby uninterruptible power supply to the first load without passing through the power conversion circuit, and an AC power supply and a switching circuit commanded to be opened and closed by the control unit for switching between a state in which the bypass circuit is connected and a state in which the standby uninterruptible power supply and the bypass circuit are connected, In this case, the standby uninterruptible power supply among the plurality of normal uninterruptible power supply units connected to the AC power supply in the power failure state based on the priority preset for each of at least the plurality of normal uninterruptible power supply units perform power supply control that determines the normal uninterruptible power supply to which reserve power is supplied from

In the uninterruptible power supply system according to one aspect of the present invention, as described above, when the AC power supply fails, the control unit, based on the priority set in advance for each of at least the plurality of normal uninterruptible power supplies, power supply control for determining a normal uninterruptible power supply to which standby power is supplied from the standby uninterruptible power supply, among a plurality of normal uninterruptible power supply systems connected to the AC power supply in a power failure state. Thereby, it is possible to preferentially supply reserve electric power from the backup uninterruptible power supply to the normal uninterruptible power supply determined by the priority. As a result, it is possible to easily supply backup power from the standby uninterruptible power supply preferentially to the normal uninterruptible power supply connected to a load of high importance (priority). As a result, even when the AC power supply fails, sufficient power can be supplied to loads with high importance (priority).

In the uninterruptible power supply system according to the above aspect, preferably, the control unit supplies power based on the priority and the state of each of the plurality of normal uninterruptible power supply devices connected to the AC power supply in the power failure state. control. According to this configuration, it is possible to perform appropriate power supply control according to the state of the normal uninterruptible power supply, as compared with the case where power supply control is performed based only on the priority order.

In this case, preferably, the control unit determines the priority, the capacity of the first load corresponding to the normal uninterruptible power supply connected to the AC power supply in the power failure state, and the output capacity of the standby uninterruptible power supply. Based on this, power supply control is performed. With this configuration, power supply control can be performed in consideration of the capacity of the first load and the available output capacity of the standby uninterruptible power supply as compared to the case where power supply control is performed based only on the priority order. Therefore, more appropriate power supply control can be performed.

In the uninterruptible power supply system that performs power supply control based on the priority, the capacity of the first load, and the output capacity of the backup uninterruptible power supply, preferably, the control unit controls the priority and the AC power supply in a power failure state. Based on the capacity of the first load corresponding to the connected normal uninterruptible power supply and the capacity of the second load connected to the standby uninterruptible power supply in addition to the output capacity of the standby uninterruptible power supply to control the power supply. With this configuration, the capacity of the second load is also considered, compared to the case where the power supply control is performed based only on the priority, the capacity of the first load, and the output capacity of the standby uninterruptible power supply. Since power supply control can be performed, more appropriate power supply control can be performed.

In this case, preferably, in the power supply control, the control unit controls that the total value of the capacities of the first loads corresponding to the normal uninterruptible power supply to which power is supplied from the backup uninterruptible power supply is A normal uninterruptible power supply to which power is supplied from the standby uninterruptible power supply is determined based on the order of priority so that the difference between the available output capacity and the capacity of the second load is less than or equal to the difference. With this configuration, while preventing the capacity output (consumed) by the backup uninterruptible power supply from exceeding the possible output capacity of the backup uninterruptible power supply, electric power is generated from the backup uninterruptible power supply based on priority. can determine the permanent uninterruptible power supply to which the power is supplied.

In the uninterruptible power supply system that performs power supply control based on the priority, the capacity of the first load, and the output capacity of the backup uninterruptible power supply, preferably the output capacity of the backup uninterruptible power supply is a plurality of It is equal to or greater than the output capacity of each normal uninterruptible power supply. With this configuration, the output capacity of the standby uninterruptible power supply is relatively large, so that the standby power from the standby uninterruptible power supply is simultaneously supplied to more high-priority regular uninterruptible power supply systems. can supply.

In the uninterruptible power supply system according to the above aspect, preferably, when the AC power supply fails, the control unit already has a standby uninterruptible power supply among the plurality of regular uninterruptible power supplies connected to the failed AC power supply. The power supply control is performed based on the priority of a plurality of regular uninterruptible power supplies other than the regular uninterruptible power supply that is supplying the power from the first load to the first load. With this configuration, the supply of standby power to the normal uninterruptible power supply, which is already supplying standby power from the standby uninterruptible power supply to the first load due to a failure or the like, is continued without stopping. can do.

In the uninterruptible power supply system according to the above aspect, preferably, in power supply control, the control unit preferably includes a normal uninterruptible power supply in which the standby uninterruptible power supply and the bypass circuit are connected by a switching circuit based on at least priority. A device and a normal uninterruptible power supply to which an AC power supply and a bypass circuit are connected by a switching circuit are determined. With this configuration, by switching the switching circuit, it is possible to easily switch whether or not the standby power from the standby uninterruptible power supply is supplied to the load via the bypass circuit.

In the uninterruptible power supply system according to the above aspect, preferably, in power supply control, the control unit selects a plurality of regular uninterruptible power supply units in descending order of priority, and a regular power supply unit to which standby power is supplied from the standby uninterruptible power supply unit. Determine as an uninterruptible power supply. According to this configuration, it is possible to easily supply standby power from the standby uninterruptible power supply to a plurality of regular uninterruptible power supplies with high priority.

According to the present invention, as described above, sufficient power can be supplied to a load having a high degree of importance (priority) even when the AC power supply fails.

It is a figure showing the state at the time of normal operation of the configuration of the uninterruptible power supply system according to one embodiment. It is the figure which showed each priority etc. of a regular uninterruptible power supply and a standby uninterruptible power supply by one Embodiment. FIG. 4 illustrates power supply states in multiple states of an uninterruptible power supply system according to one embodiment. It is the figure which showed the state at the time of failure (maintenance) of the normal uninterruptible power supply 10c of the uninterruptible power supply system by one Embodiment. It is a figure showing the state at the time of power failure of the uninterruptible power supply system according to one embodiment. It is the figure which showed the state at the time of the power failure of an uninterruptible power supply system by one Embodiment, and failure (maintenance) of the normal uninterruptible power supply 10c. FIG. 4 is a diagram showing a state of the uninterruptible power supply system according to one embodiment at the time of power failure and failure (maintenance) of the regular uninterruptible power supply 10d;

Embodiments embodying the present invention will be described below with reference to the drawings.

(Configuration of uninterruptible power supply system)
The configuration of an uninterruptible power supply system 100 according to the present embodiment will be described with reference to FIGS. 1 and 2. FIG.

As shown in FIG. 1 , an uninterruptible power supply system 100 includes a plurality of (four in this embodiment) normal uninterruptible power supplies 10 , a standby uninterruptible power supply 20 , and a controller 30 . Note that the control device 30 is an example of a "control unit" in the scope of claims.

The plurality of normal uninterruptible power supplies 10 include a normal uninterruptible power supply 10a, a normal uninterruptible power supply 10b, a normal uninterruptible power supply 10c, and a normal uninterruptible power supply 10d. The regular uninterruptible power supplies 10a to 10d have a common configuration. Therefore, in the following description, items described as "regular uninterruptible power supply 10" are matters common to each of the regular uninterruptible power supplies 10a to 10d.

The standby uninterruptible power supply 20 supplies standby power to each of the plurality of regular uninterruptible power supplies 10 . Specifically, the standby uninterruptible power supply 20 supplies standby power to the regular uninterruptible power supply 10 in the event of a failure (maintenance) of the regular uninterruptible power supply 10 or a power failure of the AC power supply 101, as will be described later. provided to supply

Control device 30 is configured to control the operation of each of normal uninterruptible power supply 10 and standby uninterruptible power supply 20 . Control device 30 is provided separately from normal uninterruptible power supply 10 and standby uninterruptible power supply 20 . The control device 30 is configured by, for example, a PLC (Programmable Logic Controller).

Each of the normal uninterruptible power supply 10 and the standby uninterruptible power supply 20 is supplied with power from a commercial AC power supply 101 that is a power supply of a common power system. During normal operation of the uninterruptible power supply system 100 shown in FIG. 1, each of the plurality of normal uninterruptible power supplies 10 and the standby uninterruptible power supplies 20 receives power from the AC power supply 101 and supplies power to the load connected to each load, which will be described later. (102-106).

Normal uninterruptible power supply 10a, normal uninterruptible power supply 10b, normal uninterruptible power supply 10c, and normal uninterruptible power supply 10d supply power to load 102, load 103, load 104, and load 105, respectively. are doing. The standby uninterruptible power supply 20 also supplies power to the load 106 . Each of the loads 102 to 105 is an example of the "first load" in the claims. Also, the load 106 is an example of a "second load" in the claims.

Regular uninterruptible power supply 10 includes converter 11 , inverter 12 , battery 13 , bypass circuit 14 , switch 15 and switch 16 . Note that the converter 11 and the inverter 12 are examples of the "power conversion circuit" in the scope of claims. Also, the switch 15 is an example of a "switch circuit" in the claims.

Converter 11 converts AC power input from AC power supply 101 into DC power. A portion of the DC power converted by converter 11 is sent to inverter 12 . Also, the remaining part of the DC power converted by the converter 11 is charged in the battery 13 .

Inverter 12 converts the DC power sent from converter 11 into AC power. The AC power from the inverter 12 is then output to loads (102 to 105).

Also, the battery 13 supplies power to the loads (102 to 105) when power from the AC power supply 101 is not supplied to the loads (102 to 105). Specifically, the battery 13 supplies power to the loads (102 to 105) when the AC power supply 101 fails. Battery 13 is connected between converter 11 and inverter 12 .

Bypass circuit 14 is provided to supply power from AC power supply 101 or standby uninterruptible power supply 20 to loads (102-105) without going through converter 11 and inverter 12. FIG. That is, bypass circuit 14 is provided to bypass converter 11 and inverter 12 .

Switch 15 is configured to switch between a state in which AC power supply 101 and bypass circuit 14 are connected and a state in which standby uninterruptible power supply 20 and bypass circuit 14 are connected. Switch 15 is, for example, a DTMC (Double Throw Magnetic Contactor). Note that no switch is provided between AC power supply 101 and converter 11 .

A switch 16 is provided in the bypass circuit 14 . When the switch 16 is closed, the power input to the bypass circuit 14 is supplied to the loads (102-105). On the other hand, when the switch 16 is opened, the power input to the bypass circuit 14 is not supplied to the loads (102-105). In this case, the power input to the bypass circuit 14 is not supplied to the loads (102-105). Note that in FIG. 1 (and FIGS. 4 to 7), current flow is indicated by dashed arrows.

Backup uninterruptible power supply 20 includes a converter 21 , an inverter 22 and a battery 23 . The converter 21, the inverter 22, and the battery 23 are the same as the converter 11, the inverter 12, and the battery 13 of the normal uninterruptible power supply 10, respectively, so detailed description thereof will be omitted.

The standby uninterruptible power supply 20 supplies standby power to each of the plurality of regular uninterruptible power supplies 10 via wiring 24 connected to the switch 15 of each of the plurality of regular uninterruptible power supplies 10 . Note that during normal operation of the uninterruptible power supply system 100 shown in FIG. 1, the switches 16 of each of the plurality of normal uninterruptible power supplies 10 are open, so the reserve power from the standby uninterruptible power supply 20 is applied to the load ( 102-105).

As shown in FIG. 2, each of the regular uninterruptible power supply units 10a to 10d has a preset priority order for supplying standby power from the standby uninterruptible power supply unit 20 in the event of a power failure, as will be described later. . Specifically, the order of priority of the regular uninterruptible power supply 10a, the regular uninterruptible power supply 10b, the regular uninterruptible power supply 10c, and the regular uninterruptible power supply 10d are respectively 1st, 2nd, 3rd, and is set to number 4.

Further, the output capacity (capable output capacity) of each of the plurality of regular uninterruptible power supply systems 10 (10a to 10d) is 500 kVA.

Here, in the present embodiment, the available output capacity of the backup uninterruptible power supply 20 is equal to or greater than the available output capacity of each of the plurality of normal uninterruptible power supplies 10 . Specifically, the available output capacity of the backup uninterruptible power supply 20 is 1000 kVA, which is twice the available output capacity of each of the plurality of normal uninterruptible power supply systems 10 .

In addition, the load 102 connected to the normal uninterruptible power supply 10a, the load 103 connected to the normal uninterruptible power supply 10b, the load 104 connected to the normal uninterruptible power supply 10c, and the normal uninterruptible power supply 10d The load capacities of the connected loads 105 are 300 kVA, 400 kVA, 300 kVA, and 200 kVA, respectively.

Also, the load capacity of the load 106 connected to the backup uninterruptible power supply 20 is smaller than the load capacity of the loads (102 to 105) connected to each of the plurality of normal uninterruptible power supplies 10. FIG. Specifically, the load capacity of the load 106 is 100 kVA, which is less than half the load capacity of each of the loads (102-105).

(Operation of uninterruptible power supply system)
The operation of the uninterruptible power supply system 100 will be described below with reference to FIGS. 1 to 7. FIG.

(during normal operation)
As shown in FIG. 1, during normal operation of the uninterruptible power supply system 100, the AC power from the AC power supply 101 is converted into DC power by the converter 11 of the normal uninterruptible power supply 10, and the DC power from the converter 11 is converted to AC power by the inverter 12 . The AC power converted by the inverter 12 is supplied to the loads (102-105). At this time, the switching device 15 of each of the plurality of regular uninterruptible power supply devices 10 connects the standby uninterruptible power supply device 20 and the bypass circuit 14 of the regular uninterruptible power supply device 10 (the column of "Normal operation" in FIG. 3). reference). In FIG. 3, the non-hatched "standby system" is a standby system in which the standby uninterruptible power supply 20 and the bypass circuit 14 are connected by the switch 15 and the switch 16 is open. It means a state in which the reserve power of the uninterruptible power supply 20 is not supplied to the loads (102 to 105).

(during failure/maintenance)
Next, the operation of the uninterruptible power supply system 100 when the normal uninterruptible power supply 10c fails (maintenance) will be described with reference to FIGS. In this case, as shown in FIG. 4, by closing the switch 16 of the normal uninterruptible power supply 10c, the power from the standby uninterruptible power supply 20 passes through the bypass circuit 14 of the normal uninterruptible power supply 10c. supplied to the load 104. The operation of other normal uninterruptible power supplies 10 (10a, 10b, and 10d) is the same as during normal operation (see FIG. 1). The normal uninterruptible power supply 10 c transmits a signal (see broken line) indicating that power is being supplied from the standby uninterruptible power supply 20 to the control device 30 . Thereby, the control device 30 detects that the normal uninterruptible power supply 10 c is receiving power from the standby uninterruptible power supply 20 .

(during power outage)
Here, in the present embodiment, when the AC power supply 101 has a power failure, the control device 30 determines whether the AC power supply in the power failure state based on the priority order preset in each of at least the plurality of normal uninterruptible power supply systems 10. Power supply control is performed to determine the normal uninterruptible power supply 10 to which backup power is supplied from the backup uninterruptible power supply 20 among the plurality of normal uninterruptible power supplies 10 connected to 101 . Specifically, in the power supply control, the control device 30 controls at least based on the order of priority, the normal uninterruptible power supply 10 to which the standby uninterruptible power supply 20 and the bypass circuit 14 are connected by the switch 15, The switch 15 determines the normal uninterruptible power supply 10 to which the AC power supply 101 and the bypass circuit 14 are connected.

Specifically, as shown in FIG. 5 , the regular uninterruptible power supply 10 transmits a power failure operation signal (see broken line) to the control device 30 when the AC power supply 101 has failed. Control device 30 receives a power outage operation signal, and receives a switching signal (chain line reference). Upon receiving the switching signal, the normal uninterruptible power supply 10 enters a state in which the AC power supply 101 and the bypass circuit 14 are connected by the switch 15 . Note that the normal uninterruptible power supply 10 starts control to supply the DC power of the battery 13 to the loads (102 to 105) via the inverter 12 based on the power failure of the AC power supply 101. FIG.

When switch 15 connects AC power supply 101 and bypass circuit 14, backup uninterruptible power supply 20 and AC power supply 101 are disconnected. Therefore, adjustment or the like to prevent the constant voltage control of the backup uninterruptible power supply 20 (inverter 22) and the constant voltage control of the AC power supply 101 from interfering with each other becomes unnecessary. As a result, control of the uninterruptible power supply system 100 can be simplified.

In addition, in the present embodiment, the control device 30 has the priority, the capacity of the load (102 to 105) corresponding to the normal uninterruptible power supply 10 connected to the AC power supply 101 in the power failure state, and the backup uninterruptible power supply The power supply control is performed based on the output capacity of the device 20 and the capacity of the load 106 connected to the backup uninterruptible power supply 20 . Information on the capacities of the loads (102 to 106) and the available output capacities of the backup uninterruptible power supply 20 is stored in the controller 30 in advance. Information on the output (possible) capacity of the regular uninterruptible power supply 10 is also stored in the control device 30 in advance. Further, the fact that the regular uninterruptible power supply 10 is connected to loads (102 to 105) with a predetermined load capacity is an example of "the state of each of a plurality of regular uninterruptible power supplies" in the scope of claims. .

Specifically, in the power supply control, the control device 30 controls that the total capacity of the loads (102 to 105) corresponding to the normal uninterruptible power supply 10 to which power is supplied from the standby uninterruptible power supply 20 is The normal uninterruptible power supply 10 to which power is supplied from the standby uninterruptible power supply 20 is determined based on the priority so that the difference between the output capacity of the standby uninterruptible power supply 20 and the capacity of the load 106 is equal to or less than the difference. do.

Specifically, as shown in FIG. 5 and FIG. 3 (see the column of "power failure"), the control device 30 includes a normal uninterruptible power supply 10a with the first priority and a normal uninterruptible power supply with the second priority. The power supply device 10b is determined as the regular uninterruptible power supply device 10 to which backup power is supplied from the backup uninterruptible power supply device 20. FIG. As a result, the total value (700 kVA) of the capacity (300 kVA) of the load 102 corresponding to the normal uninterruptible power supply 10a and the capacity (400 kVA) of the load 103 corresponding to the normal uninterruptible power supply 10b is the standby uninterruptible power supply 20 is less than the difference (900 kVA) between the capacity (1000 kVA) of the load 106 and the capacity (100 kVA) of the load 106 . 3 means a state in which AC power supply 101 and bypass circuit 14 are connected by switch 15. In FIG. In addition, the hatched “backup system” in FIG. It means the state in which the load (102 to 105) is supplied to the load (102 to 105) through the

Here, if the normal uninterruptible power supply 10c with the third priority is also determined as the normal uninterruptible power supply 10 to which standby power is supplied from the standby uninterruptible power supply 20, the capacity of the load (102 to 104) (300+400+300=1000 kVA) becomes larger than the difference (900 kVA). Therefore, the control device 30 does not select the normal uninterruptible power supply 10 (10c, 10d) with the third or lower priority as the normal uninterruptible power supply 10 to which standby power is supplied from the standby uninterruptible power supply 20. In addition to the regular uninterruptible power supply 10a and the regular uninterruptible power supply 10b, the regular uninterruptible power supply 10d with the fourth priority is supplied with standby power from the standby uninterruptible power supply 20. , the total capacity (900 kVA) of the loads (102, 103, 105) is equal to the difference (900 kVA). Therefore, the control device 30 has the third priority as the regular uninterruptible power supply 10 to which standby power is supplied from the standby uninterruptible power supply 20, in addition to the regular uninterruptible power supply 10a and the regular uninterruptible power supply 10b. The normal uninterruptible power supply 10d with the fourth priority may be selected without selecting the normal uninterruptible power supply 10c.

Further, as shown in FIG. 5, the normal uninterruptible power supply 10 continues to supply power from the battery 13 to the loads (102 to 105) even after the supply of standby power from the backup uninterruptible power supply 20 is started. to continue. After the battery 13 runs out of charge, the regular uninterruptible power supply 10 to which backup power is supplied from the backup uninterruptible power supply 20 receives only the backup power from the backup uninterruptible power supply 20 as a load (102 to 105).

Further, as shown in FIGS. 6 and 7, in the present embodiment, when the AC power supply 101 fails, the control device 30 controls the , power supply control based on the priority of a plurality of normal uninterruptible power supply units 10 other than the normal uninterruptible power supply units 10 already supplying power from the standby uninterruptible power supply unit 20 to the loads (102 to 105). configured to do so. In other words, when the AC power supply 101 has a power failure, the control device 30 already supplies the power from the backup uninterruptible power supply 20 to the load ( 102 to 105) are excluded from power supply control.

For example, as shown in FIG. 6 and FIG. 3 (refer to the column of "power failure + 10c failure (maintenance)"), the normal uninterruptible power supply 10c has already been disconnected from the standby uninterruptible power supply 20 due to failure (maintenance) or the like. Assume that power is being supplied to the load 104 . In this case, the control device 30 selects the normal uninterruptible power supply 10a, the normal uninterruptible power supply 10b, and the normal uninterruptible power supply 10d to supply backup power from the backup uninterruptible power supply 20. Determine the power supply 10 .

Specifically, the control device 30 determines that the total value of the capacities of the loads (102, 103, 105) corresponding to the normal uninterruptible power supply 10 to which the standby power is supplied from the standby uninterruptible power supply 20 is The value obtained by subtracting the load capacity (100 kVA) of the load 106 and the load capacity (300 kVA) of the normal uninterruptible power supply 10c from the output capacity (1000 kVA) of the power supply device 20 (1000 - 100 - 300 = 600 kVA) or less, Based on the order of priority, the normal uninterruptible power supply 10 to which power is supplied from the standby uninterruptible power supply 20 is determined. In this case, the control device 30 determines only the normal uninterruptible power supply 10 a having the first priority as the normal uninterruptible power supply 10 to which power is supplied from the backup uninterruptible power supply 20 . In addition to the normal uninterruptible power supply 10a, even if the normal uninterruptible power supply 10d with the fourth priority order is determined as the normal uninterruptible power supply 10 to which power is supplied from the standby uninterruptible power supply 20, the load The total capacity value (300+200=500 kVA) of (102, 105) is smaller than the subtracted value (600 kVA). Therefore, the control device 30 uses the normal uninterruptible power supply 10b with the second priority as the normal uninterruptible power supply 10 to which power is supplied from the backup uninterruptible power supply 20, in addition to the normal uninterruptible power supply 10a. The normal uninterruptible power supply 10d having the fourth priority may be selected without selection.

7 and 3 (refer to the column of "power failure + 10d failure (maintenance)"), the normal uninterruptible power supply 10d has already been disconnected from the standby uninterruptible power supply 20 due to a failure (maintenance) or the like. Assume that reserve power is being supplied to the load 105 . In this case, the control device 30 selects the normal uninterruptible power supply 10a, the normal uninterruptible power supply 10b, and the normal uninterruptible power supply 10c to supply backup power from the backup uninterruptible power supply 20. Determine the power supply 10 .

Specifically, the control device 30 determines that the total value of the capacities of the loads (102, 103, 104) corresponding to the normal uninterruptible power supply 10 to which standby power is supplied from the standby uninterruptible power supply 20 is The value obtained by subtracting the load capacity (100 kVA) of the load 106 and the load capacity (200 kVA) of the normal uninterruptible power supply 10d from the output capacity (1000 kVA) of the power supply 20 (1000-100-200=700 kVA) or less, Based on the order of priority, the normal uninterruptible power supply 10 to which power is supplied from the standby uninterruptible power supply 20 is determined. In this case, the control device 30 selects the normal uninterruptible power supply 10a with the first priority and the normal uninterruptible power supply 10b with the second priority as the normal uninterruptible power supply to which power is supplied from the standby uninterruptible power supply 20. It is determined as the power supply device 10 .

In the example shown in FIG. 5 (see the column “At power failure” in FIG. 3) and the example shown in FIG. 7 (see the column “At power failure + 10d failure (maintenance)” in FIG. In the supply control, it is an example in which a plurality of normal uninterruptible power supply systems 10 are determined in descending order of priority as the normal uninterruptible power supply systems 10 to which standby power is supplied from the standby uninterruptible power supply system 20 .

Further, when the AC power supply 101 is restored after the power supply control, the uninterruptible power supply system 100 performs normal operation shown in FIG.

(Effect of this embodiment)
The following effects can be obtained in this embodiment.

In the present embodiment, as described above, when the AC power supply 101 is out of power, at least based on the priority preset in each of the plurality of normal uninterruptible power supply devices 10, the AC power supply 101 in the power failure state is connected. of the plurality of normal uninterruptible power supply systems 10, to which backup power is supplied from the backup uninterruptible power supply system 20, and which is provided with a control device 30 that performs power supply control. A blackout power supply system 100 is configured. Thereby, the backup power from the backup uninterruptible power supply 20 can be preferentially supplied to the regular uninterruptible power supply 10 determined by the order of priority. As a result, it is easy to preferentially supply reserve power from the standby uninterruptible power supply 20 to the normal uninterruptible power supply 10 connected to the loads (102 to 105) with high importance (priority). be able to. As a result, even if the AC power supply 101 fails, sufficient power can be supplied to the loads (102 to 105) having high importance (priority).

Further, in the present embodiment, as described above, the control device 30 determines the power based on the priority and the state of each of the plurality of normal uninterruptible power supply devices 10 connected to the AC power supply 101 in the power failure state. The uninterruptible power supply system 100 is configured to provide supply control. This makes it possible to perform appropriate power supply control according to the state of the normal uninterruptible power supply 10, as compared with the case of performing power supply control based only on the priority.

Further, in the present embodiment, as described above, the control device 30 has the priority and the capacity of the load (102 to 105) corresponding to the normal uninterruptible power supply 10 connected to the AC power supply 101 in the power failure state. , and the available output capacity of the backup uninterruptible power supply 20, the uninterruptible power supply system 100 is configured to control power supply. As a result, power supply control can be performed in consideration of the capacities of the loads (102 to 105) and the output capacity of the standby uninterruptible power supply 20, compared to the case where the power supply control is performed based only on the priority. Therefore, more appropriate power supply control can be performed.

Further, in the present embodiment, as described above, the control device 30 has the priority, the capacity of the load (102 to 105) corresponding to the normal uninterruptible power supply 10 connected to the AC power supply 101 in the power failure state, and , the uninterruptible power supply system 100 is configured to perform power supply control based on the capacity of the load 106 connected to the backup uninterruptible power supply 20 in addition to the output capacity of the backup uninterruptible power supply 20. . As a result, compared to the case where power supply control is performed based only on the priority, the capacity of the loads (102 to 105), and the possible output capacity of the standby uninterruptible power supply 20, the capacity of the load 106 is also taken into consideration when power is supplied. Since supply control can be performed, more appropriate power supply control can be performed.

Further, in the present embodiment, as described above, the control device 30 controls the load (102 to 105) corresponding to the normal uninterruptible power supply 10 to which power is supplied from the standby uninterruptible power supply 20 in the power supply control. Power is supplied from the standby uninterruptible power supply 20 based on priority so that the total value of capacity is equal to or less than the difference between the output capacity of the standby uninterruptible power supply 20 and the capacity of the load 106. The uninterruptible power supply system 100 is configured to determine the uninterruptible power supply 10 . As a result, while preventing the capacity output (consumed) by the backup uninterruptible power supply 20 from exceeding the output capacity of the backup uninterruptible power supply 20, power is supplied from the backup uninterruptible power supply 20 based on the order of priority. The normal uninterruptible power supply 10 to be supplied can be determined.

Further, in the present embodiment, as described above, the uninterruptible power supply system 100 is configured so that the available output capacity of the backup uninterruptible power supply 20 is greater than or equal to the available output capacity of each of the plurality of normal uninterruptible power supplies 10. Configure. As a result, the available output capacity of the backup uninterruptible power supply 20 is relatively large, so the reserve power from the backup uninterruptible power supply 20 is simultaneously supplied to more high-priority regular uninterruptible power supply systems 10. can do.

Further, in the present embodiment, as described above, when the AC power supply 101 has a power failure, the control device 30 has already Uninterruptible power supply control is performed based on the priority of a plurality of normal uninterruptible power supply devices 10 other than the normal uninterruptible power supply device 10 that supplies power from the power supply device 20 to the load (102 to 105). A blackout power supply system 100 is configured. As a result, due to a failure or the like, the supply of standby power to the normal uninterruptible power supply 10 that has already been supplied to the loads (102 to 105) from the standby uninterruptible power supply 20 is not stopped. can continue.

In addition, in the present embodiment, as described above, the control device 30 controls the power supply, at least based on the order of priority, by the switch 15 to connect the backup uninterruptible power supply 20 and the bypass circuit 14. The uninterruptible power supply system 100 is configured to determine the uninterruptible power supply 10 and the normal uninterruptible power supply 10 to which the AC power supply 101 and the bypass circuit 14 are connected by the switch 15 . Thus, by switching the switch 15, it is possible to easily switch whether or not the standby power from the standby uninterruptible power supply 20 is supplied to the loads (102 to 105) through the bypass circuit 14. FIG.

Further, in the present embodiment, as described above, the control device 30 supplies standby power from the backup uninterruptible power supply 20 to the plurality of normal uninterruptible power supplies 10 in descending order of priority in the power supply control. The uninterruptible power supply system 100 is configured so as to be determined as the regular uninterruptible power supply 10 . This makes it possible to easily supply the backup power from the backup uninterruptible power supply 20 to a plurality of regular uninterruptible power supply systems 10 with high priority.

(Modification)
It should be noted that the embodiments disclosed this time should be considered as examples and not restrictive in all respects. The scope of the present invention is indicated by the scope of claims rather than the description of the above-described embodiments, and includes all modifications (modifications) within the scope and meaning equivalent to the scope of claims.

For example, in the above-described embodiment, the control device 30 (control unit) controls the priorities preset in the plurality of normal uninterruptible power supply units 10, the output capacity of the standby uninterruptible power supply units 20, the load (102 to 105) An example of performing power supply control based on the load capacity of the load 106 (first load) and the load capacity of the load 106 (second load) has been shown, but the present invention is not limited to this. For example, the control device 30 may perform power supply control based only on the priority. In addition, the control device 30 supplies power based on the priority and at least one of the output capacity of the backup uninterruptible power supply 20, the load capacity of the loads (102 to 105), and the load capacity of the load 106. may be controlled. In addition, the control device 30 controls predetermined information (for example, the battery 13 power supply control may be performed based on the remaining amount of the battery.

Further, in the above-described embodiment, an example in which the backup uninterruptible power supply 20 supplies power to the load 106 (second load) was shown, but the present invention is not limited to this. The standby uninterruptible power supply 20 may not supply power to loads other than the loads (102 to 105) corresponding to the normal uninterruptible power supply 10. FIG.

Further, in the above-described embodiment, an example in which the output capacity of the backup uninterruptible power supply 20 is equal to or greater than the output capacity of each of the plurality of normal uninterruptible power supply systems 10 is shown, but the present invention is not limited to this. . The available output capacity of the backup uninterruptible power supply 20 may be smaller than the available output capacity of each of the plurality of normal uninterruptible power supplies 10 .

Further, in the above embodiment, the load capacity of the load 106 (second load) corresponding to the backup uninterruptible power supply 20 is the load (102 to 105) (first Although an example in which the load is smaller than the load capacity of the load) has been shown, the present invention is not limited to this. The load capacity of the load 106 may be greater than or equal to the load capacity of the loads (102-105).

Further, in the above embodiment, the normal uninterruptible power supply 10 selected by the power supply control supplies the standby power supplied from the standby uninterruptible power supply 20 to the loads (102 to 105) through the bypass circuit 14. Although an example has been given, the invention is not so limited. The standby power of the standby uninterruptible power supply 20 may be supplied to the loads (102-105) without going through the bypass circuit 14 (eg, directly from the standby uninterruptible power supply 20).

Further, in the above embodiment, among the plurality of regular uninterruptible power supply devices 10 connected to the AC power supply 101 that has failed, the power from the standby uninterruptible power supply device 20 has already been supplied to the load (102 to 105) (first load). Although an example of performing power supply control based on the priority of a plurality of regular uninterruptible power supply devices 10 other than the regular uninterruptible power supply device 10 being supplied has been shown, the present invention is not limited to this. Power conversion control may also be performed in consideration of the priority of the regular uninterruptible power supply 10 already supplying power from the standby uninterruptible power supply 20 to the loads (102 to 105). In other words, the normal uninterruptible power supply 10 that already supplies power from the standby uninterruptible power supply 20 to the loads (102 to 105) may also be subject to power supply control.

Further, in the above embodiment, an example in which the control device 30 (control unit) is provided separately from the plurality of normal uninterruptible power supply units 10 and the standby uninterruptible power supply units 20 has been shown, but the present invention Not limited. For example, the controller may be provided in the backup uninterruptible power supply 20 .

Further, in the above-described embodiment, an example is shown in which the normal uninterruptible power supply 10 (backup uninterruptible power supply 20) includes the battery 13 (battery 23), but the present invention is not limited to this. The normal uninterruptible power supply 10 (backup uninterruptible power supply 20) may include a DC power supply other than a battery. Further, the normal uninterruptible power supply 10 (backup uninterruptible power supply 20) may not include a battery (DC power supply).

Further, in the above-described embodiment, each of the plurality of normal uninterruptible power supplies 10 is supplied with power from the AC power supply 101 of the common system, but the present invention is not limited to this. Each of the plurality of regular uninterruptible power supply devices 10 does not have to be supplied with power from an AC power supply 101 in a common system. For example, some of the four normal uninterruptible power supply devices 10 are supplied with power from the first system of AC power supply, and the remaining part is supplied with power from the second system of AC power supply different from the first system. may be Also, the backup uninterruptible power supply 20 may be supplied with power from an AC power supply of a system different from the AC power supply 101 connected to the plurality of normal uninterruptible power supply systems 10 .

10, 10a, 10b, 10c, 10d normal uninterruptible power supply 11 converter (power conversion circuit)
12 Inverter (power conversion circuit)
14 bypass circuit 15 switch (switching circuit)
20 standby uninterruptible power supply 30 control device (control unit)
100 uninterruptible power supply system 101 AC power supply 102, 103, 104, 105 load (first load)
106 load (second load)

Claims (9)

a plurality of normal uninterruptible power supply units that are supplied with power from an AC power supply and that supply power to a first load connected to each;
a standby uninterruptible power supply that supplies standby power to each of the plurality of regular uninterruptible power supplies;
a control unit;
Each of the plurality of regular uninterruptible power supply devices includes a power conversion circuit that converts power input from the AC power supply and outputs the converted power to the first load, and the AC power supply without passing through the power conversion circuit. A bypass circuit that supplies power from a power source or the backup uninterruptible power supply to the first load, a state in which the AC power supply and the bypass circuit are connected, and the backup uninterruptible power supply and the bypass circuit are connected. a switching circuit that is commanded to open or close by the control unit for switching between states,
When the AC power supply fails, the control unit controls at least the plurality of normal uninterruptible power supply units connected to the AC power supply in the power failure state based on the priority preset in each of the plurality of normal uninterruptible power supply units. An uninterruptible power supply system that performs power supply control to determine the regular uninterruptible power supply to which standby power is supplied from the backup uninterruptible power supply, among the regular uninterruptible power supplies. 2. The control unit according to claim 1, wherein the control unit performs the power supply control based on the priority and the state of each of the plurality of regular uninterruptible power supply devices connected to the AC power supply in a power failure state. uninterruptible power system. The control unit determines the priority, the capacity of the first load corresponding to the normal uninterruptible power supply connected to the AC power supply in a power failure state, and the output capacity of the backup uninterruptible power supply. 3. The uninterruptible power supply system according to claim 2, wherein said power supply control is performed based on. The control unit determines the priority, the capacity of the first load corresponding to the normal uninterruptible power supply connected to the AC power supply in a power failure state, and the output capacity of the backup uninterruptible power supply. 4. The uninterruptible power supply system according to claim 3, further comprising performing said power supply control based on the capacity of a second load connected to said backup uninterruptible power supply. In the power supply control, the control unit controls that the total value of the capacities of the first loads corresponding to the normal uninterruptible power supply to which power is supplied from the backup uninterruptible power supply is equal to that of the backup uninterruptible power supply. determining the normal uninterruptible power supply to which electric power is supplied from the backup uninterruptible power supply based on the order of priority so that the difference between the available output capacity and the capacity of the second load or less is determined; Item 5. The uninterruptible power supply system according to Item 4. The uninterruptible power supply system according to any one of claims 3 to 5, wherein said output capacity of said backup uninterruptible power supply is greater than or equal to the output capacity of each of said plurality of regular uninterruptible power supplies. When the AC power supply fails, the control unit transfers power already supplied from the backup uninterruptible power supply apparatus among the plurality of normal uninterruptible power supply apparatuses connected to the failed AC power supply to the first load. Any one of claims 1 to 6, wherein the power supply control is configured to be performed based on the priority of the plurality of normal uninterruptible power supply devices other than the normal uninterruptible power supply device being supplied. Uninterruptible power supply system described in paragraph. In the power supply control, at least based on the priority, the control unit controls the normal uninterruptible power supply to which the standby uninterruptible power supply and the bypass circuit are connected by the switching circuit, and The uninterruptible power supply system according to any one of claims 1 to 7, wherein said normal uninterruptible power supply to which said AC power supply and said bypass circuit are connected is determined. In the power supply control, the control unit determines the plurality of normal uninterruptible power supply devices in descending order of priority as the normal uninterruptible power supply devices to which standby power is supplied from the backup uninterruptible power supply device. The uninterruptible power supply system according to any one of claims 1-8.

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