JP7115029B2 - power system - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply system that performs a voltage compensation operation to compensate for voltage anomalies in a power system.

2. Description of the Related Art Conventionally, disaster prevention bases such as public halls and gymnasiums, which serve as evacuation sites for victims in the event of a disaster, are equipped with an emergency power supply device that uses a generator or the like as a power supply source (Patent Document 1). Even if the power supply from the power system is interrupted due to the effects of a disaster, etc., the power supply can continuously supply power to important loads such as air conditioning and lighting in the disaster prevention base. . In a power supply device using this generator, it is necessary to monitor the operating state of the generator and manage the fuel of the generator. Especially in the event of a disaster, it is difficult to predict when fuel can be procured due to disruptions in transportation infrastructure, etc., so it is necessary to operate as long as possible with limited fuel.

By the way, disaster victims who have evacuated to a disaster prevention base may suffer various health problems if their lives at the disaster prevention base are prolonged due to a large-scale disaster or the like. In particular, during hot and humid seasons such as summer, the room temperature and humidity in the disaster prevention base rise, and there is a risk of secondary disasters such as heatstroke. However, if the critical load such as air conditioning is freely set so that the disaster victims in the disaster prevention base are always most comfortable, the fuel of the emergency power supply will run out until the power system is restored, and the disaster will be worse. can cause serious health hazards to individuals.

JP 2017-011874 A

The present invention has been made in view of the above-mentioned problems, and when a power system voltage abnormality occurs due to a disaster, the occurrence of health damage to the disaster victims at the disaster prevention base is suppressed, and the power supply equipment provided at the disaster prevention base can be operated for a long time. The main object is to provide a power supply system that can

That is, the power supply system according to the present invention is arranged at a disaster prevention base having a load fed from a power system and a power supply device for supplying power to the load, and performs a voltage compensation operation to compensate for a voltage abnormality in the power system. , a critical load control unit that controls a critical load among the loads, and a disaster prevention base information acquisition unit that obtains disaster prevention base information, which is predetermined information about the disaster prevention base, wherein the voltage compensation operation is performed during a disaster. It has a disaster mode for compensating for a voltage abnormality in the power system, and in the disaster mode, the important load control unit controls the important load based on the disaster prevention base information.

With such a power supply system, predetermined information about the disaster prevention base is acquired, and important loads such as air conditioning equipment in the disaster prevention base are controlled based on this acquired information. It is possible to control important loads according to the situation of the disaster prevention base, such as increasing the set temperature of the air conditioning equipment when the risk of health damage to the disaster victims is low. As a result, it is possible to suppress the occurrence of health hazards to disaster victims at disaster prevention bases, while also suppressing fuel consumption from becoming excessively large due to critical loads. can work on time.

In addition, the "disaster prevention base" as used in this specification refers not only to public facilities such as community centers and gymnasiums where victims evacuate when a disaster occurs, but also to facilities such as hospitals and nursing care facilities where it is difficult to evacuate even if a disaster occurs. This includes facilities where disaster victims are present, and facilities where a disaster response headquarters is set up in the event of a disaster. In other words, it means a facility where victims gather after a disaster occurs.

In addition, the "important load" as used in this specification refers to a load within the disaster prevention base that may affect the health of the disaster victims in the disaster prevention base if current stops flowing at all. That's what I mean. For example, they are an air conditioner, a lighting device, and the like.

The power supply system further includes an emergency bulletin receiving unit that receives an emergency bulletin concerning the area where the disaster prevention base is located from an external network communicably connected, wherein the system voltage of the power system is less than or equal to a set value, Moreover, it is preferable that the voltage compensation operation is performed in a disaster mode when the emergency bulletin receiving section is receiving the emergency bulletin.
With such a configuration, the voltage compensation operation can be quickly performed in the disaster mode. As a result, the amount of fuel consumed by the important load can be suppressed, and the power supply can be operated for a longer period of time. Moreover, even when a disaster occurs, if the electric power system is normal, the power supply device is not started unnecessarily, so it is possible to prevent unnecessary consumption of fuel.

The term "emergency bulletin" as used in this specification means a bulletin notifying that a situation requiring evacuation has occurred. For example, earthquake early warnings, tsunami warnings, eruption warnings, and weather warnings distributed by the Japan Meteorological Agency, disaster information and evacuation information distributed by national and local governments, and information on armed attacks and large-scale terrorism.

As a specific aspect of the power supply system, the disaster prevention base information includes external environment information related to the position of the disaster prevention base, outdoor temperature, outdoor humidity, sunshine hours, wind speed, rainfall probability, etc. in the area where the disaster prevention base is located. , indoor temperature, indoor humidity, number of people that can be accommodated in the disaster prevention base, number of victims in the disaster prevention base, gender, internal environment information related to body temperature, etc. The disaster prevention base information may be acquired from at least one of a sensor provided at the disaster prevention base and an external network.

The power supply system further includes an operation pattern storage unit storing operation pattern data indicating an operation pattern of the important load corresponding to the information indicated by the disaster prevention base information, and the important load control unit stores the operation pattern. section, selecting an operation pattern corresponding to the disaster prevention base information acquired by the disaster prevention base information acquisition unit, and controlling the important load based on the selected operation pattern.
With such a system, by presetting the optimum operation pattern of the important load for various situations of the disaster prevention base, while suppressing the occurrence of health damage to the disaster victims at the disaster prevention base, The power supply can be operated for a longer period of time.

In order for the user of the power system to timely check the status of the power supply, the power supply system may further include a power supply analysis unit for analyzing the status of the power supply, wherein the power supply analysis unit analyzes the power supply The state analysis result of the device may be transmitted to a predetermined user terminal.

The power supply device is a generator, and further includes a remaining fuel amount detection unit that detects a remaining fuel amount of the power supply device, wherein the power supply device analysis unit detects the remaining fuel amount detected by the remaining fuel amount detection unit, Preferably, the remaining operating time of the power supply device is calculated based on the operating state of the important load, and the remaining operating time is transmitted to the user terminal as the state analysis result.
With such a system, the user of the power supply system can timely know the remaining operating time of the generator by checking the user terminal. no need to go to In addition, the generator can be refueled in a timely manner.

Preferably, in the power supply system, the important load control section controls the important load based on the analysis result of the power supply analysis section.
With such a configuration, the important load can be controlled according to the state of the power supply, so that the power supply can be operated for a longer period of time. For example, when the amount of remaining fuel in the power supply is low, the power supply can be operated for a long time by controlling the critical load with the minimum line that can suppress the occurrence of health damage to the disaster victims at the disaster prevention base. can do.

According to the present invention configured as described above, when the voltage of the power system is abnormal due to a disaster, it is possible to suppress the occurrence of damage to the health of the disaster victims at the disaster prevention base and to operate the power supply device provided at the disaster prevention base for a long time. A power system can be provided.

It is a mimetic diagram showing the composition of the power supply system of this embodiment. It is a functional block diagram showing the function of the control device of the same embodiment. 4 is a time chart for explaining basic voltage compensation operation of the power supply system of the same embodiment; It is a figure which shows an example of the operation pattern of the air conditioner of the same embodiment. FIG. 4 is a logic circuit diagram showing conditions for the power supply system of the same embodiment to perform a voltage compensation operation in a disaster mode; 4 is a flowchart for explaining voltage compensation operation in a disaster mode of the power supply system of the same embodiment;

An embodiment of a power supply system 100 according to the present invention will be described below with reference to the drawings.

As shown in FIG. 1, the power supply system 100 of the present embodiment is arranged at a disaster prevention base 300 such as a public hall having a load 301 fed from a power system 200 and a power supply device 302 feeding the load 301. It performs a voltage compensation operation for compensating for voltage anomalies in the power system 200 together with the existing power supply device 302 at the disaster prevention base 300 .

The voltage compensation operation of the present embodiment has a disaster mode for compensating for voltage anomalies in the power system 200 during a disaster, and a normal mode for compensating for voltage anomalies in the power system 200 during normal times other than disasters. The power supply system 100 is communicably connected to a public emergency alert system S1 that distributes emergency alerts such as an earthquake, via an external network X, so that the emergency alerts can be received. Then, when a voltage abnormality occurs in the power system 200, the voltage compensation operation is performed in the disaster mode or the normal mode depending on whether or not the emergency bulletin is received.
In the following, the power supply system 100 will be described using a generator as an example of the power supply device 302 .

<Basic configuration>
Specifically, the power supply system 100 includes, for example, a power storage device 2 such as a storage battery, a bidirectional power conversion device 3, for example, which converts the DC power of the power storage device 2 into AC power and supplies it to a load 301, the load 301, power generation and a control device 4 that controls the machine 302 and the power conversion device 3 to perform a voltage compensation operation.

The basic functions of the control device 4 and the basic voltage compensation operation of the power supply system 100 will be described below with reference to FIGS. 2 and 3. FIG. Note that the basic voltage compensation operation is the voltage compensation operation in the normal mode when a voltage abnormality occurs in the power system 200 and the emergency bulletin is not received.

<Basic voltage compensation operation>
When the system voltage on the power system 200 side becomes equal to or lower than the set value, the operation control unit 41 of the control device 4 operates the circuit breaker to disconnect from the power system 200 . Then, the power conversion device 3 is activated to convert the DC power of the power storage device 2 into AC power and supply the AC power to the load 301 .

Further, the operation control unit 41 starts the generator 302 and supplies AC power from the generator 302 to the load 301 instead of the power storage device 2 when the output voltage of the generator 302 is stabilized. Before this switching, the operation control unit 41 controls the power conversion device 3 to synchronize the AC power output from the power conversion device 3 with the AC power output from the generator 302 .

After switching from the power storage device 2 to the power generator 302 , the operation control unit 41 controls the power conversion device 3 to convert the AC power from the power generator 302 into DC power and charge the power storage device 2 .

When the system voltage of the power system 200 returns to normal, the operation control unit 41 controls the power conversion device 3 to convert the DC power of the power storage device 2 into AC power and supply it to the load 301 . At this time, the generator 302 is in no-load operation.

The operation control unit 41 then controls the power converter 3 to synchronize the AC power output from the power converter 3 with the AC power from the power system 200 .

After that, the operation control unit 41 stops the generator 302 and the power conversion device 3 . Accordingly, AC power is supplied to the load 301 from the power system 200 .

<Voltage compensation operation in disaster mode>
In addition to the basic configuration described above, the power supply system 100 of the present embodiment includes an emergency bulletin receiving unit 42 that receives an emergency bulletin from the emergency bulletin system S1 and a predetermined A disaster prevention base information acquisition unit 43 that acquires disaster prevention base information, which is information, an operation pattern storage unit 44 that stores operation pattern data indicating the operation pattern of the air conditioning equipment, and among the loads 301 of the disaster prevention base 300, the air conditioning equipment, etc. and a power supply analysis unit 46 for analyzing the state of the generator 302 . The function of each of these units is exhibited by the control device 4 .
The function of each part will be described below with reference to FIG.

The emergency bulletin receiving unit 42 constantly and automatically receives an emergency bulletin related to the area where the disaster prevention base 300 is located via the Internet or an artificial satellite. Then, when receiving the emergency bulletin, it transmits a disaster occurrence signal indicating that a disaster has occurred in the area where the disaster prevention base 300 is located to the disaster prevention base information acquisition unit 43, the important load control unit 45, and the power supply analysis unit 46. is configured as

The emergency bulletin receiving section 42 may receive all types of emergency bulletins delivered from the emergency bulletin system S1, or may receive only one or a plurality of types of emergency bulletins set by the user. You may do so. For example, it may be set to receive only emergency bulletins about earthquakes and tsunamis, and not to receive emergency bulletins about missile launches from other countries.

The emergency bulletin receiving unit 42 may also receive the emergency bulletin distributed from the emergency bulletin system S1 according to the level of importance of the emergency bulletin. The level of importance of this emergency bulletin may be arbitrarily set by the user. For example, if the emergency bulletin is related to an earthquake, only the emergency bulletin notifying that the maximum seismic intensity is 6 or more may be received.

The disaster prevention base information acquisition unit 43 acquires disaster prevention base information from the sensor 303 installed at the disaster prevention base 300 and the weather observation system S1 connected via the external network X, and the obtained disaster prevention base information Send to the control unit 45 . The disaster prevention base information acquisition unit 43 is configured to start exhibiting its function when a disaster occurrence signal is received from the emergency bulletin reception unit 42 .

The disaster prevention base information includes, for example, the position of the disaster prevention base 300, outdoor temperature, outdoor humidity, weather information such as sunshine hours, wind speed, and precipitation probability in the area where the disaster prevention base 300 is located, and external environment information related to the season and time zone. , indoor temperature and humidity of the disaster prevention base 300, the number of people that can be accommodated, the number of disaster victims in the disaster prevention base 300, gender, body temperature, and internal environment information. It may also include disaster information such as information indicating the current situation of the disaster in the area where the disaster prevention base 300 is located, and information indicating the extent, scale and level of the disaster.

In this embodiment, a temperature sensor that measures the outdoor temperature is installed on the ceiling or the outer wall of the disaster prevention base 300, and a human detection sensor that can detect the radiation temperature from people and grasp the position and number of people is installed in the disaster prevention base 300. is installed in the room. The disaster prevention point information acquisition unit 43 is configured to acquire information about the outdoor temperature of the disaster prevention point 300 from the temperature sensor, and to obtain information about the presence or absence and number of victims inside the disaster prevention point 300 from the motion sensor. It is configured to transmit the acquired information to the important load control unit 45 .

The operation pattern data stored in the operation pattern storage unit 44 includes data regarding a plurality of operation patterns of the air conditioner. This operation pattern data indicates the operation pattern of the air conditioning equipment corresponding to one type or a plurality of types of disaster prevention base information. The operation pattern of the air conditioner defines, for example, the target temperature, target humidity, wind speed, wind direction, number of operating units, operation start time, operation end time, etc. of the air conditioner.

The operation pattern of the air conditioning equipment indicated by each operation pattern data minimizes the power consumption while suppressing the occurrence of health damage to the disaster victims in the disaster prevention base 300 in the situation of the disaster prevention base 300 indicated by the disaster prevention base information. is set to That is, by controlling the air conditioner according to the operation pattern, the generator 302 can be operated for as long as possible.

The operation pattern data stored in the operation pattern storage unit 44 may be individually set for each disaster prevention base 300 where the power supply system 100 is installed.

The operation pattern data also includes fuel consumption amount data indicating the fuel consumption amount (L/h) of the generator 302 per unit time when the air conditioner is operated in each operation pattern.

FIG. 4 shows an example of information indicated by the operation pattern data. As shown in FIG. 4, the operation patterns A to C of the air conditioning equipment are set according to the outdoor temperature of the disaster prevention base 300 and the number of victims in the disaster prevention base 300 . A temperature coefficient for determining the target temperature and a fuel consumption amount of the generator 302 when the air conditioner is operated in each operation pattern are set in advance for each operation pattern.

The important load control unit 45 receives the disaster prevention base information from the disaster prevention base information acquisition unit 43 and controls the air conditioning equipment based on the disaster prevention base information. More specifically, the important load control unit 45 refers to the operation pattern storage unit 44, selects the operation pattern of the air conditioning equipment corresponding to the received disaster prevention base information, and operates the air conditioning equipment based on the selected operation pattern. control. The important load control unit 45 also transmits fuel consumption data related to the selected operation pattern to the power supply analysis unit 46 . The important load control unit 45 is configured to start performing its function when receiving a disaster occurrence signal from the early warning receiving unit 42 .

In this embodiment, the important load control unit 45 is configured to receive, from the disaster prevention base information acquisition unit 43, information regarding the presence and number of victims in the disaster prevention base 300 and information regarding the outdoor temperature of the disaster prevention base 300. ing. For example, in the received disaster prevention base information, if the outdoor temperature t of the disaster prevention base 300 is 27° C. and the number of victims in the disaster prevention base 300 is 80, the critical load control unit 45 operates The pattern storage unit 44 is referred to, and the operation pattern C is selected as the operation pattern of the air conditioner. Then, based on the operation pattern C, the air conditioner is controlled. More specifically, control is performed to set the target temperature of the air conditioner to 25° C. (=27° C.×0.93). Then, the fuel consumption data (90 L/h) in the operation pattern C is transmitted to the power supply analysis unit 46 .

The power supply analysis unit 46 analyzes the state of the generator 302 . More specifically, the remaining operating time of the generator 302 is calculated based on the amount of fuel remaining in the generator 302 and the amount of fuel consumed by the air conditioner. The power supply analysis unit 46 is configured to start performing its function when receiving a disaster occurrence signal from the emergency alert receiving unit 42 .

The power supply system 100 of this embodiment includes a remaining fuel amount detector 5 that detects the remaining fuel amount of the generator 302 . The remaining fuel amount detection unit 5 is specifically a camera that captures an image of the control panel provided with the fuel meter of the generator 302 . The power supply analysis unit 46 acquires image data transmitted from the camera, recognizes the fuel meter of the power generator 302 from the image data, and calculates the remaining amount of fuel. Then, it is configured to calculate the remaining operating time of the generator 302 from the remaining amount of fuel and the fuel consumption received from the important load control unit 45 .

The camera, which is the remaining fuel amount detection unit 5, may be an ordinary CCD camera, a CMOS camera, an infrared camera, an ultraviolet camera, or the like. Also, the camera may capture a moving image or may capture a still image. If a static image is captured, the control panel is periodically captured at predetermined time intervals. Here, the camera and the control device 4 are communicably connected by wire or wirelessly.

The power supply analysis unit 46 also transmits the calculated remaining operating time of the generator 302 as remaining operating time data to the user terminal 6 owned by the user of the power supply system 100 by wire or wirelessly. The user terminal 6 is, for example, a personal computer, tablet, smart phone, mobile phone, or the like. The power supply analysis unit 46 may transmit the remaining operating time data to the user terminal 6 continuously or intermittently at a predetermined frequency. Alternatively, the remaining operating time data may be transmitted only when the remaining operating time indicated by the remaining operating time data falls below a predetermined value.

As shown in the logic circuit diagram of FIG. 5, the power supply system 100 of the present embodiment configured as described above can be used when a voltage abnormality occurs in the power system 200 (that is, when the system voltage of the power system 200 is equal to or lower than the set value). case) and the emergency bulletin receiving unit 42 is receiving the emergency bulletin, the voltage compensation operation is executed in the disaster mode. In this disaster mode, the important load control unit 45 and the power supply analysis unit 46 control the air conditioning equipment based on the flowchart shown in FIG.

(S1: Victim detected?)
The disaster prevention base information acquisition unit 43 determines whether or not there is a disaster victim inside the disaster prevention base 300 based on the data transmitted from the human sensor installed in the room of the disaster prevention base 300 .

(S2: Get the number of victims and outdoor temperature)
When it is determined in S1 that there is a disaster victim inside the disaster prevention base 300, the disaster prevention base information acquisition unit 43 detects the disaster victim at the disaster prevention base 300 based on the data transmitted from the human sensor installed at the disaster prevention base 300. to detect the number of people. Furthermore, the outdoor temperature of the disaster prevention base 300 is obtained from a temperature sensor installed on the outer wall of the disaster prevention base 300 .

(S3: Determine operation pattern of air conditioner and start operation)
Based on the number of victims in the disaster prevention base 300 and the outdoor temperature of the disaster prevention base 300 acquired in S2, the important load control unit 45 refers to the operation pattern storage unit 44 to determine the operation pattern of the air conditioning equipment. to select. Then, based on the selected operation pattern, the target temperature of the air conditioner in the disaster prevention base 300 is determined, and operation is started.

(S4: Calculate remaining operating time of generator)
The power supply analysis unit 46 acquires image data transmitted from a camera that captures the control panel of the generator 302, recognizes the fuel meter of the generator 302 from the image data, and calculates the remaining amount of fuel. Data about the fuel consumption of the generator 302 is obtained from the important load control unit 45 . Then, the remaining operating time of the generator 302 is calculated from the calculated remaining amount of fuel and the acquired fuel consumption.

(S5: Transmit remaining operating time to user terminal 6)
The power supply analysis unit 46 transmits the calculated remaining operating time of the generator 302 to a predetermined user terminal 6 as a message, and the display of the user terminal 6 displays the remaining operating time.

(S6: Is the grid voltage normal?)
The operation control unit 41 determines whether or not the system voltage on the power system 200 side has returned to normal. If the system voltage on the power system 200 side is not normal, the above S1 to S5 are repeated. If the system voltage has returned to normal, the disaster mode is terminated.

<Effects of this embodiment>
According to the power supply system 100 of the present embodiment configured in this way, when the voltage compensation operation is performed in the disaster mode, the important load control unit 45 controls the number of victims at the disaster prevention base 300 and the outdoor area of the disaster prevention base 300. The temperature is acquired, the operation pattern of the air conditioning equipment 301a is selected based on the acquired information, and the air conditioning equipment 301a is controlled based on this operation pattern, so the occurrence of health damage to the disaster victims at the disaster prevention base 301 is suppressed. However, it is possible to prevent the amount of fuel consumed by the generator 302 due to the air conditioner 301a from becoming larger than necessary. That is, this operation pattern is set in advance so as to minimize the power consumption while suppressing the occurrence of health damage to the disaster victims in the disaster prevention base 300 in the situation of the disaster prevention base 300 indicated by the acquired disaster prevention base information. Therefore, the generator 302 can be operated for a long time.

Further, the power supply system 100 performs the voltage compensation operation in the disaster mode when the system voltage of the power system 200 is equal to or less than the set value and the early warning receiver 42 receives the early warning. Therefore, the voltage compensation operation can be quickly executed in the disaster mode. As a result, the amount of fuel consumed by the air conditioner 301a can be suppressed, and the power supply device 302 can be operated for a longer period of time.

In addition, since the power supply analysis unit 46 calculates the remaining operating time of the generator 302 and transmits this to the user terminal 6, the user repeatedly needs to check the remaining fuel amount of the generator 302. No need to go to the site. In addition, it is possible to replenish fuel to the generator 302 in a timely manner, thereby preventing running out of fuel.

It should be noted that the present invention is not limited to the above embodiments.

In the above-described embodiment, the power supply analysis unit 46 transmits data regarding the remaining operating time of the generator 302 to the user terminal 6, but the present invention is not limited to this. In other embodiments, data regarding the amount of fuel remaining in generator 302 may be transmitted to user terminal 6 .

The important load control unit 45 may be configured to acquire generator information regarding the state of the generator 302 analyzed by the power supply analysis unit 46 and control the air conditioner based on the generator information.
In this case, for example, the operation pattern data stored in the operation pattern storage unit 44 includes operation patterns of air conditioning equipment corresponding to one or more types of disaster prevention base information and one or more types of generator information. may be shown. The generator information is, for example, information regarding the remaining amount of fuel in the generator 302, the remaining operating time of the generator 302, the presence or absence of an abnormality in the generator 302, and the like.

In the above-described embodiment, a generator is used as an example of the power supply device 302, but the power supply device 302 is not limited to this. Any power generating device that operates on other fuels may also be used.

Although the sensors 303 installed at the disaster prevention base 300 in the above-described embodiment are human sensors and temperature sensors, they are not limited to these. Any device may be used as long as it can sense the above-described disaster prevention base information. For example, it may be a Doppler sensor, a humidity sensor, a door opening/closing sensor, a camera, an infrared camera, an ultraviolet camera, a thermocouple, or the like.

Although the important load 301a is the air conditioner in the above embodiment, it is not limited to this. For example, lighting equipment, window opening/closing devices, air blowing equipment, refrigerators, air purifiers, water filters, alarm equipment such as fire alarms, communication equipment, and the like may be used.

In addition, the present invention is not limited to the above-described embodiments, and it goes without saying that various modifications are possible without departing from the spirit of the present invention.

100... Power supply system 200... Power system 300... Disaster prevention base 301... Load 301a... Important load 302... Power supply device 42... Emergency early warning receiving unit 43... Disaster prevention base information Acquisition unit 45 ... Important load control unit X ... Network S1 ... Emergency bulletin system

Claims (8)

A power supply system that is placed at a disaster prevention base having a load fed from a power system and a power supply device that feeds power to the load, and performs a voltage compensation operation to compensate for a voltage abnormality in the power system,
an important load control unit that controls an important load among the loads;
a disaster prevention base information acquisition unit that acquires disaster prevention base information, which is predetermined information about the disaster prevention base;
The voltage compensation operation has a disaster mode that compensates for a voltage abnormality in the power system in the event of a disaster,
In the disaster mode, the important load control unit controls the important load based on the disaster prevention base information,
The disaster prevention base information is
External environment information related to the position of the disaster prevention base, outdoor temperature, outdoor humidity, hours of sunshine, wind speed, probability of precipitation, etc. in the area where the disaster prevention base is located;
A power supply system including internal environment information such as indoor temperature, indoor humidity, number of people that can be accommodated in the disaster prevention base, number of victims in the disaster prevention base, gender, body temperature, and the like . Further comprising an emergency bulletin receiving unit that receives an emergency bulletin regarding the area where the disaster prevention base is located from an external network communicably connected,
2. The power supply system according to claim 1, wherein the voltage compensating operation is performed in a disaster mode when the system voltage of the power system is equal to or less than a set value and the emergency bulletin receiver receives the emergency bulletin. 3. The power supply system according to claim 1, wherein said disaster prevention point information acquiring unit acquires said disaster prevention point information from at least one of a sensor provided at said disaster prevention point and an external network. further comprising an operation pattern storage unit storing operation pattern data indicating an operation pattern of the important load corresponding to the information indicated by the disaster prevention base information;
The important load control unit refers to the operation pattern storage unit, selects an operation pattern corresponding to the disaster prevention base information acquired by the disaster prevention base information acquisition unit, and controls the important load based on the selected operation pattern. The power supply system according to any one of claims 1 to 3. further comprising a power supply analysis unit that analyzes the state of the power supply,
5. The power supply system according to any one of claims 1 to 4, wherein said power supply analysis unit transmits a state analysis result of said power supply to a predetermined user terminal. the power supply device is a generator,
Further comprising a remaining fuel amount detection unit that detects the remaining fuel amount of the power supply device,
The power supply analysis unit calculates the remaining operating time of the power supply based on the remaining fuel amount detected by the remaining fuel amount detecting unit and the operating state of the important load, and calculates the remaining operating time. 6. The power supply system according to claim 5, wherein the state analysis result is transmitted to the user terminal. 7. The power supply system according to claim 5, wherein said important load control section controls said important load based on the analysis result of said power supply analysis section. A power supply system that is placed at a disaster prevention base having a load fed from a power system and a power supply device that feeds power to the load, and performs a voltage compensation operation to compensate for a voltage abnormality in the power system,
an important load control unit that controls an important load among the loads;
a disaster prevention base information acquisition unit that obtains disaster prevention base information, which is predetermined information about the disaster prevention base;
an operation pattern storage unit storing operation pattern data indicating an operation pattern of the important load corresponding to the information indicated by the disaster prevention base information;
The voltage compensation operation has a disaster mode that compensates for a voltage abnormality in the power system in the event of a disaster,
In the disaster mode, the important load control unit refers to the operation pattern storage unit, selects an operation pattern corresponding to the disaster prevention base information acquired by the disaster prevention base information acquisition unit, and based on the selected operation pattern and a power system for controlling said critical load.

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