JP6917212B2 - Combustion system - Google Patents

Description

The techniques disclosed herein relate to combustion systems, in particular combustion systems that receive power from a commercial power source.

In a combustion system that receives power from a commercial power source, for example, in the event of a temporary power failure, it may be better to automatically restore the combustion device after recovery from the power failure to improve usability. .. On the other hand, if the cause of the power failure is a specific dangerous event such as an earthquake, the combustion device may not be automatically restored because there is a possibility that a danger may occur if the combustion device is automatically restored after the recovery from the power failure. Sometimes it's better.

In the combustion control device disclosed in Patent Document 1, a timer for measuring the elapsed time from the detection of a power failure and a sensor for detecting the presence or absence of a flame are provided so that the elapsed time from the detection of the power failure is within a certain time. For example, when no flame is detected, reignition is performed to continue the operating state before the power failure, and when the elapsed time from the detection of the power failure exceeds a certain time, the operation is stopped regardless of the presence or absence of the flame.

Japanese Unexamined Patent Publication No. 8-240313

In the combustion control device of Patent Document 1, the automatic recovery of the combustion device is determined based on the elapsed time from the detection of the power failure without determining the cause of the power failure, and the combustion device is automatically restored after the recovery from the power failure. It may not be possible to accurately determine whether or not to return. Therefore, the present specification provides a technique for determining whether or not the operation of the combustion device should be accurately continued when the combustion system recovers from a power failure.

The combustion system disclosed in the present specification is a combustion system that receives electric power from a commercial power source, and is a combustion device, a combustion control means that controls the operation of the combustion device, and a storage means that stores the operation history of the combustion device. Alternatively, the first communication means capable of communicating with the first server that manages the operation history, and the first that determines whether or not the power is restored from the power failure based on the operation history when the power supply from the commercial power source is started. The cause of the power failure is identified based on the judgment means, the second communication means that can communicate with the second server that manages the area information of the area where the combustion system is installed, and the area information when recovering from the power failure. It is provided with a second judgment means for judging whether or not it was a dangerous event. When the control device determines that the recovery from the power failure is caused by the first judgment means and the cause of the power failure is not a specific dangerous event in the second judgment means, and from the start of the power failure to the power failure. If the power failure duration until the recovery of the power failure does not exceed a predetermined time, the combustion device is configured to continue the operating state before the power failure.

According to the above combustion system, when the power supply from the commercial power source is started, it is determined based on the operation history whether or not it is a recovery from a power failure, and if it is a recovery from a power failure, Based on the local information, it is determined whether or not the cause of the power outage was a specific dangerous event, for example, a natural disaster such as an earthquake or lightning. If the cause of the power outage is a specific dangerous event, it is dangerous to operate the combustion device. Then, in the above-mentioned combustion system, when the recovery from the power failure is performed and the cause of the power failure is not a specific dangerous event, the combustion device is made to continue the operating state before the power failure. According to the above-mentioned combustion system, it is possible to accurately determine whether or not the operation of the combustion apparatus should be continued when the power is restored from the power failure.

The above-mentioned combustion system is further equipped with a user terminal, and when the first judgment means determines that the recovery from the power failure is performed and the second judgment means determines that the cause of the power failure is a specific dangerous event. The user terminal may be configured to ask the user whether or not to keep the combustion device in the operating state before the power failure.

Even if the cause of the power failure is a specific dangerous event, if the effect of the specific dangerous event is not so large and there is no danger even if the combustion device is automatically restored, the combustion device is turned on after the recovery from the power failure. It is better to restore automatically to improve usability. According to the above combustion system, when the recovery from the power failure and the cause of the power failure is a specific dangerous event, the user is asked whether or not the combustion device should continue the operating state before the power failure. , The combustion device can be automatically restored at the user's discretion, and the convenience of the user can be improved.

Even if the first judgment means determines that the power is recovering from a power failure and the second judgment means determines that the cause of the power failure is not a specific dangerous event, the period from the start of the power failure to the recovery from the power failure When the power failure duration exceeds a predetermined time, the user terminal is configured to confirm with the user whether or not the combustion device will continue the operating state before the power failure, and the combustion device is configured before the power failure. When the user instructs to continue the operating state of the above, the combustion device may be configured to continue the operating state before the power failure.

Even if the cause of the power outage is not a specific dangerous event, if the power outage lasts for a long time, there is a possibility that some unexpected event may be the cause of the power outage, and it is dangerous to automatically restore the combustion device. It can occur. According to the above combustion system, even if the recovery from the power failure and the cause of the power failure are not a specific dangerous event, the combustion device is in the operating state before the power failure when the power failure duration is long. By confirming with the user whether or not to continue the operation, it is possible to prevent the combustion device from being automatically restored at the user's discretion, and the safety can be further improved.

It is a figure which shows the schematic structure of the hot water supply heating system 1 of an Example. It is a figure which shows the schematic structure of the hot water supply heater 10 in the hot water supply heating system 1 of an Example. It is a flowchart explaining the operation when the supply of the commercial power source is started to the hot water supply heating system 1 of an Example. It is a figure which shows the example of the pop-up screen displayed on the smartphone 33 in the hot water supply heating system 1 of an Example.

(Example)
(Hot water supply and heating system 1)
The combustion system of the embodiment will be described with reference to the drawings. The combustion system of this embodiment is a hot water supply / heating system 1 that is installed in a general household and performs hot water supply and heating. FIG. 1 shows a schematic configuration of the hot water supply / heating system 1. The hot water supply heating system 1 is for remotely operating the hot water supply heater 10 and the hot water heater 10 for heating water to supply hot water to the kitchen or bathroom and heating the heating medium to heat the living room. It is equipped with a plurality of remote controls (kitchen remote control 21, bathroom remote control 22, sub remote control 23). These remote controllers 21, 22, 23 and the water heater 10 are connected by a communication line 24 and can communicate with each other. That is, the user can operate the remote controllers 21, 22, and 23 to send an operation command to the hot water heater 10. Further, the remote controllers 21, 22, and 23 can receive various information such as the operating state of the hot water heater 10 from the hot water heater 10 and display the information to the user. The hot water heater 10 and the remote controllers 21, 22, 23 operate by receiving electric power from a commercial power source.

Further, in the hot water supply / heating system 1 of the present embodiment, the kitchen remote controller 21 is connected to the router 26 and communicates with external servers (hot water heater operation history management server 31 and regional information management server 32) via the Internet. It is possible. The kitchen remote controller 21 can acquire information from these servers 31 and 32. Further, the information acquired by the kitchen remote controller 21 is transmitted to the hot water heater 10 via the communication line 24. Further, the kitchen remote controller 21 can communicate with the smartphone 33 via short-range wireless communication. The smartphone 33 can communicate with the above servers (hot water heater operation history management server 31 and area information management server 32) via the Internet, and the information acquired by the smartphone 33 from these servers 31 and 32 can be obtained from the kitchen remote control. It can also be transmitted to 21. If necessary, the user can operate the smartphone 33 to send a command to the water heater 10.

(Hot water heater 10)
The configuration of the hot water heater 10 will be described with reference to FIG. The hot water heater 10 mainly includes a heat pump 40, a hot water heating unit 50, a tank 41, a heating terminal (floor heating) 70, and a control unit 90. The control unit 90 controls the operation of the hot water supply heater 10 and functions as a combustion control unit which is a combustion control means.

The tank 41 is a closed container for storing hot water. A water supply pipe 42 for supplying clean water to the tank 41 and a hot water discharge pipe 43 for discharging hot water from the tank 41 are connected to the tank 41. The hot water outlet pipe 43 is connected to the hot water supply / heating unit 50, and sends hot water from the tank 41 to the hot water supply / heating unit 50. A plurality of temperature sensors (not shown) are arranged in the tank 41 along the height direction. A plurality of temperature sensors are connected to the control unit 90, and the control unit 90 can grasp the hot water temperature and the amount of hot water (that is, the amount of heat storage) in the tank 41 based on the detection results thereof.

A water supply pipe 42 is connected to the hot water outlet pipe 43 through a water supply bypass pipe 44. The water supply bypass pipe 44 mixes the clean water from the water supply pipe 42 with the hot water flowing through the hot water supply pipe 43. A hot water supply side mixing valve 45 is provided at a connection position between the water supply bypass pipe 44 and the hot water outlet pipe 43. The hot water supply side mixing valve 45 is connected to the control unit 90, and its operation is controlled by the control unit 90. By controlling the hot water supply side mixing valve 45, the control unit 90 can lower the temperature of hot water discharged from the tank 41 to the hot water supply set temperature specified by the user.

The heat pump 40 collects heat from the atmosphere and heats water and a heat medium for heating. The heat pump 40 is connected to the tank 41, and the hot water in the tank 41 is heated by the heat pump 40 and then returned to the tank 41 again. As a result, hot water is stored in the tank 41.

The hot water supply / heating unit 50 burns flammable gas (also simply referred to as gas) such as city gas to heat water or a heat medium for heating. As described above, hot water from the tank 41 is sent to the hot water supply / heating unit 50 through the hot water outlet pipe 43. When the hot water outlet temperature from the tank 41 is lower than the hot water supply set temperature specified by the user, the hot water supply / heating unit 50 ignites a burner (not shown) to heat the hot water. The heated hot water is supplied to the hot water supply location through the hot water supply pipe 46. Alternatively, it is supplied to the bathtub 51 through the bath pipe 47.

A hot water outlet pipe 43 is connected to the hot water supply pipe 46 through a hot water supply bypass pipe 49. The hot water supply bypass pipe 49 can directly send the hot water of the hot water supply pipe 43 to the hot water supply pipe 46. Further, the hot water supply bypass pipe 49 is provided with a bypass control valve 52. The bypass control valve 52 is connected to the control unit 90, and its operation is controlled by the control unit 90. If heating by the hot water supply / heating unit 50 is unnecessary, the control unit 90 can open the bypass control valve 52 to bypass the hot water supply / heating unit 50. As a result, unnecessary heat dissipation in the hot water supply / heating unit 50 can be avoided. Further, the control unit 90 adjusts the opening degree of the bypass control valve 52 to send a part of the hot water to the hot water supply / heating unit 50, and the other part bypasses the hot water supply / heating unit 50 to finely adjust the hot water supply temperature. It can also be adjusted.

The hot water supply / heating unit 50 can also circulate and heat (reheat) the hot water in the bathtub 51. The hot water supply / heating unit 50 is connected to the bathtub 51 via the bath pipe 47. The hot water in the bathtub 51 is sent to the hot water supply / heating unit 50, heated, and then returned to the bathtub 51. The circulation of hot water is performed by a bath pump (not shown) of the hot water supply / heating unit 50. In the hot water supply heater 10, the path for circulating the hot water in the bathtub 51 is provided independently of the path connected to the hot water supply pipe 46 described above in consideration of hygiene.

The hot water supply / heating unit 50 is connected to the heating terminal 70 (floor heating in this embodiment), and sends the heated heat medium for heating to the heating terminal 70. The heating medium is, for example, an antifreeze solution. The heating heat medium is heated by a burner (not shown) of the hot water supply and heating unit 50, and then sent to the heating terminal 70 through the heating feed pipe 60. The heating heat medium radiated by the heating terminal 70 is sent to the heat pump 40 through the first heating return pipe 62, and then returned to the hot water supply / heating unit 50 through the second heating return pipe 64. That is, the heat pump 40 performs the primary heating of the heating heat medium. The first heating return pipe 62 is connected to the second heating return pipe 64 through the heating bypass pipe 66. A heating side mixing valve 68 is provided at a connection position between the heating bypass pipe 66 and the second heating return pipe 64. The heating side mixing valve 68 is connected to the control unit 90, and its operation is controlled by the control unit 90. For example, when the operation of the heat pump 40 is stopped, the control unit 90 can directly send the heating heat medium from the heating terminal 70 back to the hot water supply / heating unit 50 by controlling the heating side mixing valve 68. can.

As described above, the control unit 90 obtains information from the sensors arranged in each unit and grasps the operating state of the hot water heater 10. Further, the control unit 90 can communicate with the remote controllers 21, 22, 23 via the communication line 24. The control unit 90 controls various valves (hot water supply side mixing valve 45, bypass control valve 52, heating side mixing valve 68), heat pump 40, burner of hot water supply / heating unit 50, etc. according to commands from remote control 21, 22, 23. Then, the operation of the hot water heater 10 is controlled so that hot water supply and heating are performed under the conditions according to the commands from the remote controls 21, 22 and 23. Further, the control unit 90 transmits various information such as the operating state of the hot water heater 10 grasped as described above to the remote controllers 21 and 22, 23, and the remote controllers 21 and 22 and 23 are necessary information for the user. Is displayed.

Further, as will be described later, the control unit 90 accesses the kitchen remote controller 21 to an external server (hot water heater operation history management server 31, regional information management server 32) to obtain information, if necessary. To order. Then, based on the information obtained from these servers 31 and 32 via the kitchen remote controller 21, it is determined how to control the operating state of the hot water heater 10. Then, based on the determination result, the operating state of the hot water heater 10 is controlled. As will be described in detail later, the control unit 90 determines whether or not the power is restored from a power failure based on the operation history of the hot water heater 10 when the power supply from the commercial power source is started. In addition to functioning as a second determination unit, it determines whether or not the cause of the power failure was an earthquake based on the area information of the area where the hot water supply / heating system 1 is installed in the case of recovery from the power failure.

Further, the control unit 90 includes a timer 91 that is operated by a backup power supply (not shown). The timer 91 can measure the current time regardless of whether or not power is supplied from the commercial power source.

(Remote control 21, 22, 23)
The kitchen remote controller 21 is installed in the kitchen, the bathroom remote controller 22 is installed in the bathroom, and the sub remote controller 23 is installed in the room heated by the heating terminal 70. The remote controllers 21, 22, and 23 include an operation unit (not shown) that allows the user to input various instructions, a display unit (not shown) that can display commands and various information input by the operation unit, and the like. A remote control unit (not shown) for controlling these is provided. By operating the remote control 21, 22, 23, the user can turn on / off the power of the hot water heater 10, specify the hot water supply set temperature, start the hot water supply to the bathtub 51 (so-called hot water filling), and heat the hot water in the bathtub 51 (so-called hot water filling). Various operations such as the start of so-called reheating) and the start and end of heating at the heating terminal 70 can be performed. When the user operates the operation unit and inputs a command, a control signal corresponding to the operation unit is transmitted to the control unit 90 of the water heater 10. The control unit 90 controls the operation of the hot water heater 10 based on the received signal.

Further, as described above, the kitchen remote controller 21 can communicate with the hot water heater operation history management server 31 and the regional information management server 32 installed externally via the router 26 or the smartphone 33, and these servers 31. , 32 can be transmitted to the control unit 90 of the hot water heater 10 via the communication line 24.

(Hot water heater operation history management server 31)
The hot water heater operation history management server 31 is a server managed by the manufacturer of the hot water heater 10, and stores and stores the operation history of the hot water heater 10 together with the time. The hot water heater operation history management server 31 periodically communicates with the hot water heater system 1 via the kitchen remote controller 21. The water heater operation history management server 31 records operation information (operation start time, end time, failure occurrence, etc.) sent from the hot water heater 10 in a database (not shown). This database can be accessed from the maintenance and repair department of the manufacturer of the hot water heater 10, and is used to identify the cause of the failure when the hot water heater 10 fails. Further, the user can also access and acquire the operation history of the hot water heater 10 from a terminal such as a smartphone 33 or a personal computer (not shown) when necessary. In this embodiment, when the kitchen remote controller 21 starts supplying electric power from the commercial power source, the operation history is received from the hot water heater operation history management server 31 in response to a command from the control unit 90 of the hot water heater 10. To get.

(Regional information management server 32)
The regional information management server 32 is a server that stores information on power outages for each region managed by the electric power company. The regional information management server 32 receives information on power outages from each region and stores information on power outages in each region. When a power outage occurs, the user communicates with this server using a terminal such as a smartphone 33 or a personal computer (not shown), and the time when the power outage occurs, the cause of the power outage, and the recovery in the area where the hot water heater 10 is installed. Information on power outages, such as the presence or absence of power outages, can be obtained. In this embodiment, the kitchen remote controller 21 receives a command from the control unit 90 of the hot water heater 10 and communicates with the regional information management server 32 to acquire information on a power failure in the area where the hot water heater 10 is installed. do. The regional information management server 32 may be a server that stores information on natural disasters such as weather, earthquakes, and typhoons for each region managed by the Japan Meteorological Agency.

(Smartphone 33)
As described above, the smartphone 33 can communicate with external servers (hot water heater operation history management server 31, regional information management server 32) via the Internet. As will be described later, the smartphone 33 can display a pop-up screen asking the user whether or not to continue the operating state before the power failure in the water heater 10 when necessary.

(Control flow of hot water supply and heating system 1 when the supply of commercial power is started)
Hereinafter, the operation control flow of the hot water supply / heating system 1 when the supply of commercial power is started will be described with reference to FIG. In FIG. 3, a power failure occurs (step S11) from the state in which the hot water supply heater 10 is automatically operating (filling with hot water), reheating, or heating the floor of the bathtub 51, or is in the operation standby state (step S10). ), After that, the case where the supply of electric power from the commercial power source is started (step S12) will be described as an example.

In step S13, the control unit 90 of the hot water heater 10 performs a confirmation operation (also referred to as an initial operation) normally performed by the hot water heater 10 when the supply of electric power from the commercial power source is started.

Subsequently, in step S14, the control unit 90 of the hot water heater 10 issues a command to the kitchen remote controller 21 to access the hot water heater operation history management server 31 and acquire the operation history of the hot water heater 10. .. The kitchen remote controller 21 communicates with the water heater operation history management server 31 based on this command, and receives the operation history of the water heater 10 from the water heater operation history management server 31. The operation history received by the kitchen remote controller 21 is transmitted to the control unit 90 of the hot water heater 10.

In step S15, the control unit 90 of the hot water heater 10 determines whether or not the current state is recovery from a power failure from the operation history of the hot water heater 10 acquired from the hot water heater operation history management server 31. .. For example, if the last operation in the operation history of the hot water heater 10 is not the power off operation of the hot water heater 10, it can be determined that the current state is the recovery from the power failure, and the hot water heater 10 When the last operation in the operation history is the power-off operation of the hot water heater 10, it can be determined that the current state is not the recovery from the power failure but the power-on operation by the user. If the control unit 90 determines that the recovery from the power failure has not occurred (No in step S15), the process proceeds to step S16, and the water heater 10 is in the operation standby state. If it is determined in step S15 that the vehicle is recovering from the power failure (Yes in step S15), the process proceeds to step S17.

In step S17, the control unit 90 issues a command to the kitchen remote controller 21 to access the area information management server 32 and acquire information on a power outage in the area where the hot water heater 10 is installed. According to this, the kitchen remote controller 21 communicates with the regional information management server 32 and receives information regarding a power failure in the region where the hot water heater 10 is installed from the regional information management server 32. The kitchen remote controller 21 transmits the received area information to the control unit 90 of the hot water heater 10.

In step S18, the control unit 90 of the hot water heater 10 determines whether or not the cause of the power failure is an earthquake, which is a specific dangerous event, based on the information regarding the power failure acquired from the regional information management server 32. When the control unit 90 determines that the cause of the power failure is an earthquake (Yes in step S18), the process proceeds to step S20. In step S20, for example, a pop-up screen as shown in FIG. 4 is displayed on the display screen of the smartphone 33, and the user is asked whether or not to keep the water heater 10 in the operating state before the power failure. The same content as this pop-up screen may be displayed on the display unit of the kitchen remote controller 21. When the user instructs the hot water heater 10 to continue the operating state stored in the server before the power failure via the smartphone 33 (Yes in step S20), the process proceeds to step S21, and the control unit 90 supplies hot water. The heater 10 is allowed to continue the operating state before the power failure. If the user does not instruct the water heater 10 to continue the operating state before the power failure (No in step S20), the process proceeds to step S22, and the control unit 90 stops the water heater 10 for safety.

If the cause of the power failure is not an earthquake in step S18 (No in step S18), the process proceeds to step S19. In step S19, it is determined whether or not the time from the start of the power failure to the recovery of the power failure (power failure duration) is equal to or longer than a predetermined time (for example, 10 minutes). The control unit 90 can specify the power failure duration from the current time measured by the timer 91 and the time of the last operation in the operation history acquired from the water heater operation history management server 31. Alternatively, the control unit 90 can specify the power failure duration from the current time measured by the timer 91 and the power failure occurrence time acquired from the regional information management server 32. If the power failure duration is less than 10 minutes (No in step S19), the process proceeds to step S21, and the control unit 90 causes the water heater 10 to continue the operating state before the power failure. If the power failure duration is 10 minutes or more (Yes in step S19), the process proceeds to step S20. In step S20, the pop-up screen of the smartphone 33 confirms with the user whether or not the hot water heater 10 will continue the operating state before the power failure. The same content as this pop-up screen may be displayed on the display unit of the kitchen remote controller 21. When the user instructs the water heater 10 to continue the operating state before the power failure (Yes in step S20), the process proceeds to step S21, and the control unit 90 continues the operating state before the power failure to the water heater 10. Let me. If the user does not instruct the water heater 10 to continue the operating state before the power failure (No in step S20), the process proceeds to step S22, and the control unit 90 stops the water heater 10 for safety.

According to the above-mentioned hot water supply / heating system 1, when the supply of electric power from the commercial power source is started, it is determined based on the operation history whether or not the system is recovering from the power failure (step S15), and the power is released from the power failure. In the case of return (step S17), it is determined whether or not the cause of the power failure was an earthquake based on the regional information (step S18). Then, in the above-mentioned hot water supply / heating system 1, when the recovery from the power failure is made and the cause of the power failure is not an earthquake, the hot water heater 10 is made to continue the operating state before the power failure. According to the above-mentioned hot water supply / heating system 1, it is possible to accurately determine whether or not the operation of the hot water supply / heater 10 should be continued when the power is restored from the power failure.

(Correspondence)
The hot water supply heating system 1 and the hot water supply heater 10 in the above embodiment are examples of the "combustion system" and the "combustion device" of the claims, respectively. The control unit 90 is an example of a "combustion control means", a "first determination means", and a "second determination means". The kitchen remote controller 21 is an example of "first communication means" and "second communication means". The remote controls 21, 22, 23 and the smartphone 33 are examples of the "user terminal" of the claims, respectively. Further, the hot water heater operation history management server 31 and the regional information management server 32 are examples of the "first server" and the "second server" of the claims, respectively.

(Modification example)
In the above embodiment, the operation history of the hot water heater 10 is stored in the external hot water heater operation history management server 31. However, the operation history of the hot water heater 10 may be stored in the non-volatile memory 92 (see FIG. 2) provided in the control unit 90 or the like in the hot water heater 10. In this case, the hot water heater 10 does not communicate with the hot water heater operation history management server 31, and the operation history of the hot water heater 10 can be acquired from the memory 92.

(Modification example)
In the above embodiment, the power failure duration is measured by the timer 91. However, since the hot water heater operation history management server 31 periodically communicates with the hot water heater system 1, the time of the last operation history of the hot water heater system 1 and the recovery from the power failure in the hot water heater operation history management server 31. The duration of the power failure may be specified by the time.

In the above embodiment, the combustion control means, the first determination means, and the second determination means are all provided in the control unit 90, but the combustion control means, the first determination means, and the second determination means are provided in different places. You may be. For example, the first determination means may be provided in a mobile terminal such as a remote controller 21, 22, 23, a smartphone 33, a water heater operation history management server 31, or the like. Further, the first communication unit and the second communication unit may be provided in the control unit 90, and the hot water heater 10 may directly communicate with the hot water heater operation history management server 31 and the regional information management server 32.

In the above embodiment, the combustion device is the hot water heater 10, but the combustion device may be a gas stove, a gas heater, a gas clothes dryer, or the like.

Although specific examples of the present invention have been described in detail above, these are merely examples and do not limit the scope of claims. The techniques described in the claims include various modifications and modifications of the specific examples illustrated above. The technical elements described herein or in the drawings exhibit their technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the techniques illustrated in the present specification or drawings can achieve a plurality of purposes at the same time, and achieving one of the purposes itself has technical usefulness.

1: Hot water supply / heating system 10: Hot water supply / heater 21: Kitchen remote control 22: Bathroom remote control 23: Sub remote control 24: Communication line 26: Router 31: Hot water supply / heater operation history management server 32: Regional information management server 33: Smartphone 40: Heat pump 41: Tank 42: Water supply pipe 43: Hot water supply pipe 44: Water supply bypass pipe 45: Hot water supply side mixing valve 46: Hot water supply pipe 47: Bath pipe 49: Hot water supply bypass pipe 50: Hot water supply heating unit 51: Bathtub 52: Bypass control valve 60: Heating feed pipe 62: First heating return pipe 64: Second heating return pipe 66: Heating bypass pipe 68: Heating side mixing valve 70: Heating terminal 90: Control unit 91: Timer 92: Memory

Claims (3)

A combustion system that receives power from a commercial power source.
Combustion device and
Combustion control means that controls the operation of the combustion device,
A storage means for storing the operation history of the combustion device, or a first communication means capable of communicating with a first server for managing the operation history.
When the power supply from the commercial power source is started, the first determination means for determining whether or not the power is restored from the power failure based on the operation history, and
A second communication means capable of communicating with a second server that manages regional information in the area where the combustion system is installed,
In the case of recovery from a power failure, a second judgment means for determining whether or not the cause of the power failure was a specific dangerous event based on the above-mentioned area information is provided.
When the first determination means determines that the power is recovering from a power failure, and the second judgment means determines that the cause of the power failure is not a specific dangerous event, and the recovery from the power failure is performed from the start of the power failure. A combustion system characterized in that the combustion apparatus is configured to continue the operating state before the power failure when the power failure duration until the power failure does not exceed a predetermined time. It also has a user terminal,
When the first determination means determines that the power is restored from a power failure, and the second determination means determines that the cause of the power failure is a specific dangerous event.
The combustion system according to claim 1, wherein the user terminal is configured to confirm with the user whether or not the combustion device continues the operating state before a power failure. From the start of the power failure to the recovery from the power failure even if the first judgment means determines that the power is recovering from the power failure and the second judgment means determines that the cause of the power failure is not a specific dangerous event. If the power failure duration exceeds a predetermined time, by the user terminal, it is configured to confirm whether to continue the operation state before the power failure to the combustion device to the user, to the combustion device The combustion system according to claim 2 , wherein when the user instructs to continue the operating state before the power failure, the combustion device is configured to continue the operating state before the power failure.

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