JP2023108370A - Heat exchanger - Google Patents

Abstract

To disclose a technology capable of reducing power consumption more compared with a conventional technology without lowering the usability of a user.SOLUTION: A heat exchanger comprises a heat source machine, a control device and a remote controller. The remote controller comprises a communication unit, a display unit, a control unit and a timer unit, and is constituted so as to be capable of executing an active mode and a sleep mode. The control device can transmit an active mode execution signal and a sleep mode execution signal to the remote controller. When the remote controller receives the sleep mode execution signal from the control device, the remote controller executes the sleep mode, and when the remote controller receives an activation signal from the timer unit, the remote controller executes the active mode. When the remote controller receives the active mode execution signal at the active mode which is executed after the execution of the sleep mode, the remote controller continues the active mode, and when not receiving the active mode execution signal, the remote controller starts the sleep mode after indicating a chronological start to the timer unit.SELECTED DRAWING: Figure 4

Description

This specification relates to thermal equipment.

Patent Document 1 discloses a thermal appliance (for example, a water heater) that includes a heat source device, a control device that controls the operation of the heat source device, and a remote controller that can communicate with the control device. The remote control comprises a display unit for displaying information about the thermal appliance to the user. The control device transmits a power saving display signal to the remote controller in order to reduce the power consumption of the remote controller. Upon receiving the power saving display signal, the remote controller reduces the power consumption of the display unit by, for example, limiting the items displayed on the display unit to a high temperature warning lamp or the like.

JP 2013-36653 A

In addition to the display unit, the remote control includes a communication unit that communicates with a peripheral device such as a control device, a control unit that controls operations of the display unit and the communication unit, and the like. By stopping the operation of these units other than the display unit, the remote controller can reduce power consumption to a greater extent. However, if the communication unit is deactivated, for example, the remote control will not be able to communicate with a peripheral device such as a control device. In this case, even if some information is transmitted from the peripheral device to the remote controller, the remote controller cannot receive the information. As a result, user convenience is reduced. This specification discloses a technology capable of reducing power consumption to a greater extent than the conventional technology without degrading user convenience.

A thermal appliance disclosed in the present specification includes a heat source device, a control device that controls the operation of the heat source device, and a remote controller that can communicate with the control device. The remote controller includes a communication unit that communicates with the control device, a display unit that displays information about the thermal equipment to a user, a control unit that controls operations of the communication unit and the display unit, and the control unit. A timer unit is provided for transmitting a start signal to the control unit when a predetermined time elapses when the unit instructs to start timing. The remote controller has an active mode in which at least the communication unit, the display unit, and the control unit continue to operate, and the communication unit, the display unit, and the control unit stop operating, and the timer unit and a sleep mode in which the operation is continued. The control device transmits to the remote controller an active mode execution signal requesting the remote controller to execute the active mode and a sleep mode execution signal requesting the remote controller to execute the sleep mode. It is possible. When the remote control receives the sleep mode execution signal from the control device while executing the active mode, the control unit instructs the timer unit to start the time measurement, and then shifts to the sleep mode. The remote control transitions to the active mode when the control unit receives the activation signal from the timer unit while executing the sleep mode. When the remote controller receives the active mode execution signal from the control device when shifting from the sleep mode to the active mode, the remote controller continues the active mode and does not receive the active mode execution signal from the control device. In this case, after the control unit instructs the timer unit to start the time measurement, the sleep mode may be entered.

According to the above configuration, in the sleep mode, at least the communication unit, the display unit, and the control unit stop operating. As a result, power consumption can be greatly reduced compared to the conventional technology that reduces the power consumption of only the display unit. Further, when the remote control receives a sleep mode execution signal from the control device while executing the active mode, the control unit instructs the timer unit to start timing, and then shifts to the sleep mode. In sleep mode, the timer unit continues to operate, and the timer unit sends a wake-up signal to the control unit when a predetermined period of time has elapsed. The control unit that receives the activation signal transitions to active mode. The remote control continues the active mode if it receives an active mode execution signal from the control device when it shifts from the sleep mode to the active mode, and if it does not receive an active mode execution signal from the control device, it starts over time by the control unit. to the timer unit, the sleep mode is entered. As a result, even if the operation of the communication unit, the display unit, and the control unit is stopped, the remote controller shifts to the active mode when the predetermined time elapses, and determines whether to continue the active mode as it is based on the communication with the control device. It is possible to determine whether In this way, the thermal equipment disclosed in this specification can reduce power consumption to a greater extent than in the prior art without reducing user convenience.

In the thermal equipment described above, the controller may be capable of being supplied with power from both a commercial power source and a storage battery. In that case, the control device may transmit the sleep mode execution signal to the remote controller when the commercial power supply fails.

When a commercial power supply fails and a storage battery is used as an alternative power supply, a greater reduction in power consumption is required than when the commercial power supply is supplied. According to the above configuration, the control device transmits the sleep mode execution signal to the remote control when the commercial power supply fails. This makes it possible to reduce the power consumption of the remote control during a power outage.

The thermal appliance described above may further comprise a second remote controller installed at a different location from the remote controller and connected to the controller. In that case, the control device may transmit a mode signal indicating whether the remote controller is in the active mode or the sleep mode to the second remote controller. Further, the second remote control may comprise a second display unit for displaying to a user whether the remote control is in the active mode or the sleep mode based on the received mode signal.

According to the above configuration, the thermal equipment can make the user recognize whether the remote controller is in the active mode or the sleep mode via the second remote controller.

In the heat device described above, the heat source device may be a water heater that heats and supplies water. In that case, the remote controller may be a bathroom remote controller installed in the bathroom, and the second remote controller may be a kitchen remote controller installed in the kitchen. Furthermore, the control device may control the operation of the water heater that supplies hot water to the bathroom.

According to the above configuration, the thermal appliance can make the user working in the kitchen recognize whether the bathroom remote control is in the active mode or the sleep mode.

In the above-described thermal appliance, the control device executes the sleep mode for the remote controller even when the commercial power source is out of power when the amount of hot water supplied by the water heater exceeds a predetermined flow rate. No need to send a signal.

If the amount of hot water supplied by the water heater exceeds a predetermined flow rate, it is assumed that the user is using the bathroom. If the sleep mode is executed by the bathroom remote controller even though the user is using the bathroom, convenience for the user is reduced. According to the above configuration, when it is presumed that the user is using the bathroom, by not transmitting the sleep mode execution signal to the remote controller, even if the commercial power supply fails, the bathroom It is possible to improve the convenience of the user who uses the.

In the heating appliance described above, the kitchen remote controller may be capable of acquiring hot water filling instructions for supplying hot water to the bathtub in the bathroom. In this case, the control device does not transmit the sleep mode execution signal to the remote controller when the kitchen remote controller acquires the instruction to fill the hot water even if the commercial power source is out of power. may

If the kitchen remote controller obtains the hot water filling instruction, it is inferred that the user will use the bathroom. According to the above configuration, when it is presumed that the user is using the bathroom, by not transmitting the sleep mode execution signal to the remote controller, even if the commercial power supply fails, the bathroom It is possible to improve the convenience of the user who uses the.

The thermal equipment described above may further include a bathroom heater connected to the controller. In that case, the control device may be capable of determining whether the bathroom heater is heating the bathroom, and if the bathroom heater is heating the bathroom, The sleep mode execution signal may not be transmitted to the remote controller even when the commercial power supply has failed.

If the bathroom heater is heating the bathroom, it is assumed that the user is using the bathroom. According to the above configuration, when it is presumed that the user is using the bathroom, by not transmitting the sleep mode execution signal to the remote controller, even if the commercial power supply fails, the bathroom It is possible to improve the convenience of the user who uses the.

1 shows a schematic diagram of a house in which the thermal equipment of the first embodiment is arranged; FIG. 1 shows a block diagram of the thermal equipment of the first embodiment; FIG. FIG. 4 shows a flowchart of processing executed by the control device of the first embodiment on the bathroom remote controller. FIG. 4 shows a flowchart of processing executed by the bathroom remote controller of the first embodiment. FIG. 10 shows a flowchart of processing executed by the control device of the second embodiment for the kitchen remote controller.

(First embodiment)
A thermal appliance 100 of the first embodiment shown in FIG. 1 is installed in a house 2 and has hot water supply and heating functions. The thermal appliance 100 includes a bathroom remote controller 20, a kitchen remote controller 30, a bathroom heater 12, and a water heater 40. - 特許庁Although not shown, the devices of the thermal equipment 100 (that is, the bathroom remote controller 20, the kitchen remote controller 30, the bathroom heater 12, the water heater 40, and the control device 50) are connected to each other by wires and can communicate with each other. be. In a modification, each device of the thermal equipment 100 may be configured to communicate wirelessly with each other, for example, may be configured to communicate via Bluetooth (registered trademark), Wi-Fi (registered trademark), or Wi-Fi (registered trademark). trademark).

The water heater 40 is arranged outside the house 2 . The water heater 40 includes a burner unit 44 , a heat pump unit 48 , a tank unit 46 and a control device 50 . The tank unit 46 stores water supplied from a water pipe (not shown) of the house 2 . The heat pump unit 48 circulates and heats the water in the tank unit 46 by absorbing heat from the outside air. The burner unit 44 supplementarily heats the water delivered from the tank unit 46 by combusting the fuel gas supplied from the gas pipe (not shown) of the house 2 . Burner unit 44 and heat pump unit 48 function as heat source equipment for heating water in water heater 40 .

The water heater 40 heats the water supplied from the tank unit 46 with the burner unit 44 as necessary, thereby supplying hot water adjusted to a desired temperature to the bathtub 14 and the shower 16 of the bathroom 10 and the kitchen 6. and the mixing tap 5 of the house 2 through the hot water supply pipe (not shown). Although not shown, the water heater 40 includes a first sensor that detects the flow rate of hot water supplied to the bathtub 14, a second sensor that detects the flow rate of hot water supplied to the shower 16, and a mixing tap 5. and a third sensor that detects the flow rate of hot water supplied to.

Water heater 40 is connected to outdoor outlet 8 of house 2 via cord 42 . Commercial power is supplied to the outdoor outlet 8 from a power system (not shown). Water heater 40 is also connected to storage battery 60 . The storage battery 60 is arranged outside the house 2 . Storage battery 60 is a secondary battery that can be charged and discharged. The storage battery 60 is connected to the power system by wiring (not shown), can be charged with commercial power, and can be discharged to the water heater 40 . The storage battery 60 may be connected to a photovoltaic power generation device (not shown) and may be charged with electric power generated by the photovoltaic power generation device. Water heater 40 can operate on commercial power supplied from outdoor outlet 8 or on power supplied from storage battery 60 .

Control device 50 controls the operation of water heater 40 . The control device 50 includes a CPU, ROM, RAM, and the like. Various operating programs are stored in the ROM. The RAM temporarily stores various signals input to the bathroom remote controller 20 and the kitchen remote controller 30, and various data generated in the course of the CPU executing processing. The control device 50 controls the operation of the water heater 40 by having the CPU execute processing based on the information stored in the ROM and RAM. The control device 50 receives the flow rate of hot water detected by each sensor from the above-described first sensor, second sensor, and third sensor. Control device 50 operates using power supplied to water heater 40 . That is, the control device 50 may operate using power supplied from the outdoor outlet 8 or may operate using power supplied from the storage battery 60 .

Bathroom remote controller 20 is arranged in bathroom 10 of house 2 . The bathroom remote controller 20 is operated by a user to set the temperature of hot water supplied from the water heater 40 to the bathtub 14 in the bathroom 10, the temperature of hot water supplied to the shower 16 in the bathroom 10, and the like. A bathroom remote controller 20 is arranged above the bathtub 14 . Bathroom remote controller 20 is arranged on the wall surface of bathroom 10 . A bathroom display 20d of the bathroom remote controller 20 displays the temperature of hot water supplied to the bathtub 14 and the temperature of hot water supplied from the shower 16 set by the user.

A kitchen remote controller 30 is arranged in the kitchen 6 of the house 2 . A system kitchen 4 is arranged in the kitchen 6 . A kitchen remote control 30 is arranged above the system kitchen 4 . The kitchen remote controller 30 is a remote controller for setting the temperature of hot water supplied to the mixer tap 5 of the system kitchen 4 . The mixing tap 5 mixes hot water supplied from the water heater 40 and water supplied from a water pipe (not shown) to supply hot water. The kitchen remote controller 30 further includes a hot water filling button 30b. When the user operates hot water filling button 30 b , kitchen remote control 30 instructs water heater 40 to perform hot water filling operation to supply hot water to bathtub 14 of bathroom 10 .

The bathroom heater 12 is a device that heats the bathroom 10 by radiating heat from a heat medium. The bathroom heater 12 is embedded in the ceiling of the bathroom 10. - 特許庁The bathroom heater 12 is operated by operating a bath heating remote controller (not shown) installed near the entrance of the bathroom 10 . While the bathroom heater 12 is heating the bathroom, the bathroom heater 12 transmits an operation signal to the controller 50 indicating that the bathroom heater 12 is in operation. The control device 50 determines that the bathroom heater 12 is heating the bathroom when an operation signal is received from the bathroom heater 12, and determines that the bathroom heater 12 is heating the bathroom when the operation signal is not received. Determine that it is not running.

As shown in FIG. 2 , the control device 50 includes a hot water supply control unit 52 , a power failure detection unit 54 and a communication unit 56 . The hot water supply control unit 52 controls each unit 44, It controls the operation of 46,48. The power failure detection unit 54 detects that the commercial power supply has failed when the power supply from the outdoor outlet 8 is stopped and the control device 50 is operated by the power from the storage battery 60 . Further, after the power failure detection unit 54 detects the power failure of the commercial power supply, when the power failure of the commercial power supply is canceled and the control device 50 is operated by the power from the commercial power supply, the power failure of the commercial power supply is canceled. detect that The communication unit 56 is an interface for communicating with the bathroom heater 12 , the bathroom remote controller 20 and the kitchen remote controller 30 . Control device 50 transmits an active mode execution signal requesting execution of the active mode and a sleep mode execution signal requesting execution of sleep mode to bathroom remote controller 20 via communication unit 56 . Each mode executed by bathroom remote controller 20 will be described later.

The bathroom remote controller 20 includes an operation unit 21, a control unit 22, a communication unit 24, a display unit 26, and a timer unit 28. The operation unit 21 includes a hot water supply button, a hot water supply temperature setting button, and the like, and receives operations from the user. The communication unit 24 is an interface for communicating with the controller 50 of the water heater 40 and the kitchen remote controller 30 . The display unit 26 includes lighting (not shown) for lighting the bathroom display 20d, for example. The display unit 26 displays information regarding the water heater 40, such as the temperature of hot water supplied to the bathtub 14, to the user via the bathroom display 20d. The control unit 22 is a computer including a CPU, ROM, RAM, and the like. Control unit 22 controls the operation of communication unit 24 , display unit 26 and timer unit 28 . The control unit 22 controls information to be displayed on the display unit 26 based on information from the control device 50 acquired via the communication unit 24, for example. The control unit 22 transmits a signal requesting heating of the hot water in the tank unit 46 to the control device 50 of the water heater 40 based on the user's operation received by the operation unit 21, for example.

The timer unit 28 measures a preset predetermined time in response to a timing start instruction from the control unit 22 . The timer unit 28 can operate independently while the operation of the control unit 22 is stopped. The timer unit 28 transmits an activation signal for activating the control unit 22 to the control unit 22 after a predetermined period of time has elapsed. Thereby, the timer unit 28 can restart the control unit 22 after the predetermined time has elapsed. Here, the predetermined time is the time during which the sleep mode described later is continued, and is, for example, 3 seconds. The predetermined time may be changeable by the user operating the operation unit 21 .

Bathroom remote controller 20 is configured to be able to execute an active mode and a sleep mode. Here, the active mode is an operation mode in which bathroom remote control 20 operates normally. In the active mode, power is supplied to each unit 21 , 22 , 24 , 26 , 28 of bathroom remote control 20 . On the other hand, the sleep mode is an operation mode for reducing power consumption of bathroom remote control 20 . Specifically, in the sleep mode, the operations of the operation unit 21, the control unit 22, the communication unit 24, and the display unit 26 of the bathroom remote controller 20 are stopped. supply is stopped. Thereby, power consumption of the bathroom remote control 20 can be reduced compared to the active mode.

When the control unit 22 receives the active mode execution signal from the control device 50 of the water heater 40, the control unit 22 sets the bathroom remote controller 20 to the active mode, and transmits a mode transition signal indicating that the bathroom remote controller 20 has received the active mode execution signal. , to the control device 50 . Thereby, bathroom remote controller 20 can make controller 50 recognize that it has received the active mode signal. Similarly, when the control unit 22 receives a sleep mode execution signal from the control device 50 , it transmits an instruction to start timing to the timer unit 28 . A mode transition signal indicating that the bathroom remote controller 20 has received the sleep mode execution signal is transmitted to the control device 50 of the above. Thereby, bathroom remote controller 20 can cause control device 50 to recognize that it has received the sleep mode signal.

The kitchen remote controller 30 includes an operation unit 31 , a control unit 32 , a communication unit 34 and a display unit 36 . Units 31, 32, 34, and 36 provided in kitchen remote controller 30 are the same as units 21, 22, 24, and 26 provided in bathroom remote controller 20, and therefore description thereof is omitted.

The processing executed by control device 50 on bathroom remote controller 20 will be described with reference to FIG. 3 . Control device 50 executes the process of FIG. 3 when water heater 40 is powered on. Note that the control device 50 transmits an active mode execution signal to the kitchen remote controller 30 to cause the kitchen remote controller 30 to perform the active mode before executing the process of FIG.

In S<b>2 , control device 50 transmits an active mode execution signal to bathroom remote controller 20 . Next, in S<b>3 , control device 50 determines whether or not a mode transition signal has been received from bathroom remote controller 20 . If the mode transition signal is not received from the bathroom remote controller 20 (S3: NO), the controller 50 executes the process of S2 again and transmits an active mode execution signal to the bathroom remote controller 20. FIG. That is, control device 50 continues to transmit the active mode execution signal to bathroom remote controller 20 until it receives the mode transition signal from bathroom remote controller 20 .

If a mode transition signal has been received from bathroom remote controller 20 (S3: YES), control device 50 transmits a mode signal indicating that bathroom remote controller 20 is in the active mode to kitchen remote controller 30 in S4. Thereby, the control unit 32 of the kitchen remote controller 30 causes the display unit 36 to display on the kitchen display 30d of the kitchen remote controller 30 that the bathroom remote controller 20 is in the active mode. This allows the user in the kitchen 6 to recognize that the bathroom remote controller 20 is in the active mode.

Next, in S6, the control device 50 determines whether or not the power failure detection unit 54 has detected a power failure of the commercial power supply. If the control device 50 detects a commercial power failure (S6: YES), the process proceeds to S8.

In S8, the control device 50 determines whether or not the kitchen remote controller 30 has acquired the hot water filling operation instruction. If the control device 50 does not currently receive a signal from the kitchen remote control 30 indicating that the hot water filling button 30b (see FIG. 1) has been operated by the user (S8: NO), the hot water filling operation instruction is given. It is determined that it has not been performed, and the process proceeds to S10.

In S10, the control device 50 determines whether or not the flow rate V1 of the shower 16 exceeds the first threshold flow rate. The controller 50 receives the flow rate V1 of hot water supplied to the shower 16 from the second sensor described above, and compares the obtained flow rate V1 with the first threshold flow rate. Here, the first threshold flow rate is the flow rate assumed to be used by the user in the shower 16, and is, for example, 10 L/min. The first threshold flow rate is user changeable. When the flow rate V1 does not exceed the first threshold flow rate (S10: NO), the control device 50 determines that the user is not using the shower 16, and proceeds to the process of S12.

In S<b>12 , the control device 50 determines whether or not the user is heating the bathroom 10 . The control device 50 determines that the bathroom heating is being performed when receiving the operation signal at the present time. If the control device 50 has not received an operation signal from the bathroom heater 12 at this time (S12: NO), the process proceeds to S14.

In S<b>14 , control device 50 transmits a sleep mode execution signal to bathroom remote controller 20 . Thereby, the bathroom remote controller 20 executes the sleep mode. Specific processing executed by the control unit 22 of the bathroom remote controller 20 in the sleep mode of the bathroom remote controller 20 will be described later with reference to FIG.

When the controller 50 does not detect a commercial power failure (S6: NO), the controller 50 executes the process of S6 again, and the power failure detection unit 54 monitors the occurrence of a commercial power failure. Similarly, if the kitchen remote controller 30 has acquired the hot water filling operation instruction (S8: YES) or if the flow rate V1 exceeds the first threshold flow rate (S10: YES), the control device 50 controls the bathroom heating is being executed (S12: YES), the process of S6 is executed again to monitor the occurrence of commercial power failure. That is, the control device 50 repeats the processes of S8 to S12 until the user does not use the bathroom 10, in other words, until the sleep mode should be executed.

When the commercial power supply fails, only the storage battery 60 supplies necessary power to the house 2 as an alternative power supply. For this reason, it is required to suppress the power consumption of the storage battery 60 especially when the commercial power supply is cut off. The control device 50 can reduce the power consumption of the storage battery 60 when the commercial power supply fails by causing the bathroom remote controller 20 to execute the sleep mode when the commercial power supply fails.

Also, it is presumed that the user will use the bathroom 10 when the kitchen remote controller 30 acquires the hot water filling operation instruction even during a commercial power failure. When the user uses the bathroom 10, if the sleep mode of the bathroom remote control 20 is executed, the user's convenience is reduced. The control device 50 does not transmit the sleep mode execution signal to the bathroom remote controller 20 when the kitchen remote controller 30 acquires the hot water filling operation instruction even when the commercial power supply is cut off. Therefore, the sleep mode of the bathroom remote control 20 is not executed when the bathroom 10 is used. Thereby, it is possible to prevent the user's convenience from deteriorating.

Similarly, it is assumed that the user is using the bathroom 10 when the flow rate V1 exceeds the first threshold flow rate or when bathroom heating is being performed. Control device 50 does not transmit the sleep mode execution signal to bathroom remote controller 20 when it is assumed that such a user will use bathroom 10 even during a commercial power failure. It is possible to prevent deterioration of the properties.

After transmitting the sleep mode execution signal to bathroom remote controller 20 in S14, control device 50 determines whether or not a mode transition signal has been received from bathroom remote controller 20 in S15. When the mode transition signal is not received from the bathroom remote controller 20 (S15: NO), the controller 50 executes the process of S14 again and transmits a sleep mode execution signal to the bathroom remote controller 20. FIG. That is, control device 50 continues to transmit the sleep mode execution signal to bathroom remote controller 20 until it receives a mode transition signal from bathroom remote controller 20 .

If a mode transition signal has been received from bathroom remote controller 20 (S15: YES), control device 50 transmits to kitchen remote controller 30 a mode signal indicating that bathroom remote controller 20 is in sleep mode in S16. Thereby, the control unit 32 of the kitchen remote controller 30 displays on the kitchen display 30d that the bathroom remote controller 20 is in the sleep mode. This allows the user in the kitchen 6 to recognize that the bathroom remote controller 20 is in the sleep mode.

After that, in S18, the control device 50 determines whether or not the power failure detection unit 54 has detected the cancellation of the power failure of the commercial power supply. When power failure cancellation is not detected (S18: NO), the control device 50 determines that the commercial power failure continues, and proceeds to the process of S20.

In S20, the control device 50 determines whether or not the kitchen remote controller 30 has acquired the hot water filling operation instruction. If the hot water filling button 30b has not been operated (S20: NO), the control device 50 determines that the kitchen remote control 30 has not acquired the hot water filling operation instruction, and proceeds to the process of S22.

In S22, the controller 50 determines whether or not the flow rate V1 of the shower 16 exceeds the first threshold flow rate. When the flow rate V1 received from the second sensor does not exceed the first threshold flow rate (S22: NO), the control device 50 determines that the user is not using the shower 16, and proceeds to the process of S24. .

In S24, the control device 50 determines whether the bathroom heating of the bathroom 10 is being performed. When the operation signal is not received from the bathroom heater 12 (S24: NO), the control device 50 determines that the user is not using the bathroom 10, executes the process of S18 again, and cancels the commercial power failure. to monitor. In other words, the control device 50 repeats the processing of S18 to S24 until the sleep mode should be stopped.

If the commercial power failure is detected (S18: YES), the controller 50 executes the process of S2 again. In S<b>2 , control device 50 transmits an active mode execution signal to bathroom remote controller 20 . Thereby, the active mode of the bathroom remote controller 20 is executed. Similarly, when the kitchen remote controller 30 acquires the hot water filling operation instruction (S20: YES) or when the flow rate V1 exceeds the first threshold flow rate (S22: YES), the control device 50 executes bathroom heating. If so (S24: YES), the process of S2 is also executed, and an active mode execution signal is transmitted to the bathroom remote control 20. FIG.

By transmitting an active mode execution signal to the bathroom remote controller 20 when the commercial power failure is canceled, the control device 50 can prevent the sleep mode from being continued after the commercial power failure is canceled. can. Thereby, user convenience can be improved.

Further, as described above, in the state where it is assumed that the user is using the bathroom 10 (S20, S22, S24: YES), by transmitting the active mode execution signal to the bathroom remote controller 20, The control device 50 can prevent the sleep mode from being continued while the user is assumed to be using the bathroom 10 . Thereby, user convenience can be improved.

Processing executed by the control unit 22 of the bathroom remote control 20 will be described with reference to FIG. When the bathroom remote control 20 is powered on, the control unit 22 executes the active mode in S30. In this case, the control unit 22 receives the active mode execution signal transmitted from the control device 50 in the process of S2 in FIG. When executing the process of S30 for the first time after the bathroom remote control 20 is powered on, the control unit 22 receives the active mode execution signal during execution of the active mode. In this case, the control unit 22 continues the active mode and transmits a mode transition signal indicating that the bathroom remote controller 20 is already in the active mode to the control device 50 (see S3 in FIG. 3). Thereby, the control device 50 receives the mode transition signal from the bathroom remote controller 20 (S3: YES in FIG. 3), and executes the processing from S4 onwards.

Next, at S<b>32 , the control unit 22 determines whether or not a sleep mode execution signal has been received from the control device 50 . When the sleep mode execution signal is not received (S32: NO), the control unit 22 returns to the process of S32 again and determines whether or not the sleep mode execution signal is received from the control device 50. That is, the control unit 22 continues the active mode until it receives the sleep mode execution signal from the control device 50, and repeats the process of S32.

When the sleep mode execution signal is received (S32: YES), the control unit 22 transmits a mode transition signal to the control device 50 in S33. Next, in S34, the control unit 22 instructs the timer unit 28 to start timing. After that, in S36, the control unit 22 shifts to sleep mode, and stops the operation of the operation unit 21, the control unit 22, the communication unit 24, and the display unit 26. FIG. As a result, reception of the operation of the bathroom remote controller 20 is stopped, the display on the bathroom display 20d is stopped, and communication between the bathroom remote controller 20, the control device 50, and the kitchen remote controller 30 is stopped.

If the control unit 22 does not receive the activation signal from the timer unit 28 (S38: NO), it continues the sleep mode. That is, the control unit 22 continues the sleep mode until the predetermined time measured by the timer unit 28 elapses.

When the predetermined time has passed and the activation signal is received from the timer unit 28 (S38: YES), the control unit 22 shifts to the active mode in S40. As a result, the operations of the operation unit 21, the control unit 22, the communication unit 24, and the display unit 26 are resumed. Next, at S<b>42 , control unit 22 determines whether or not an active mode execution signal has been received from control device 50 . When the active mode execution signal is received (S42: YES), the control unit 22 determines that the execution of the sleep mode should be stopped, for example, the power failure of the commercial power supply is canceled, and the active mode is started as it is. continue. At this time, the control unit 22 transmits a mode transition signal to the control device 50 in S46. Thereby, the control unit 22 can make the control device 50 recognize that the bathroom remote controller 20 has shifted to the active mode. After that, the control device 50 returns to the process of S30 again and continues the active mode.

When the control unit 22 does not receive the active mode execution signal from the control device 50 (S42: NO), in S44, it is determined whether or not a predetermined execution signal reception period has passed since the transition to the active mode in S40. do. Here, the execution signal reception period is a period for the control unit 22 to receive the active mode execution signal from the control device 50 when the sleep mode is shifted to the active mode. If the execution signal reception period has not elapsed (S44: NO), the control unit 22 executes the process of S42 again and determines whether or not an active mode execution signal has been received from the control device 50. That is, the control unit 22 repeats the process of S42 until the execution signal reception period elapses. When the execution signal reception period has passed (S44: YES), the control unit 22 determines that the active mode execution signal has not been transmitted from the control device 50, returns to S36, and shifts to the sleep mode again. In this way, the control unit 22 shifts to the active mode every predetermined period of time during execution of the sleep mode and executes the active mode over the execution signal reception period. continue until received.

The bathroom remote controller 20 executes a sleep mode in which the operations of the operation unit 21, the control unit 22, the communication unit 24, and the display unit 26 are stopped, thereby stopping the operation of only the display unit 26. Larger power consumption can be suppressed. Furthermore, the bathroom remote controller 20 shifts from the sleep mode to the active mode by the timer unit 28, and executes the active mode over the execution signal reception period. As a result, the bathroom remote controller 20 receives the active mode execution signal from the control device 50 when the active mode should be executed as described in S6 to S12 of FIG. 3 during execution of the sleep mode. mode can be changed. Thereby, user convenience can be improved.

(Correspondence Relationship) In this embodiment, the bathroom remote controller 20 is an example of a "remote controller." The kitchen remote controller 30 is an example of the "second remote controller".

(Second embodiment)
With reference to FIG. 5, processing executed on kitchen remote controller 30 by controller 50 of thermal appliance 100 of the second embodiment to reduce power consumption of kitchen remote controller 30 will be described. The thermal appliance 100 of this embodiment has the same configuration as the thermal appliance 100 of the first embodiment described above, except that the kitchen remote controller 30 includes a timer unit 38 (see FIG. 2). Also, the timer unit 38 of the kitchen remote controller 30 has the same configuration as the timer unit 28 of the bathroom remote controller 20 described above. In this embodiment, the kitchen remote controller 30 is an example of a "remote controller."

The control device 50 of the second embodiment executes the process of FIG. 5 when the water heater 40 is powered on. In S<b>50 , control device 50 transmits an active mode execution signal to kitchen remote controller 30 . Next, in S<b>51 , the control device 50 determines whether or not a mode transition signal has been received from the kitchen remote controller 30 . If the mode transition signal is not received from the kitchen remote controller 30 (S51: NO), the control device 50 executes the process of S50 again and transmits an active mode execution signal to the kitchen remote controller 30. FIG. That is, control device 50 continues to transmit the active mode execution signal to kitchen remote controller 30 until it receives the mode transition signal from kitchen remote controller 30 .

If a mode transition signal has been received from the kitchen remote controller 30 (S51: YES), in S52, the control device 50 determines whether or not the power failure detection unit 54 has detected a power failure of the commercial power supply. S52: YES), the process proceeds to S54.

In S54, control device 50 determines whether water heater 40 is heating hot water. Specifically, control device 50 determines whether one of burner unit 44 and heat pump unit 48 of water heater 40 is operating. If neither the burner unit 44 nor the heat pump unit 48 is operating (S54: NO), the control device 50 determines that the water heater 40 is not heating hot water, and proceeds to the process of S56.

In S56, the controller 50 determines whether or not the flow rate V2 exceeds the second threshold flow rate. The control device 50 receives the flow rate V2 of hot water supplied to the mixing faucet 5 from the third sensor described above, and compares the acquired flow rate V2 with the second threshold flow rate. Here, the second threshold flow rate is the flow rate of hot water presumed to be used by the user at the mixing faucet 5, and is, for example, 5 L/min. The second threshold flow rate is user changeable. When the flow rate V2 is smaller than the second threshold flow rate (S56: NO), the control device 50 determines that the user is not using the mixing tap 5, and proceeds to the process of S58.

In S58, the control device 50 determines whether or not the user has instructed the operation unit 31 of the kitchen remote control 30 to change the set temperature of the hot water from the reception of the active mode execution signal in S50 to the present time. judge. If the controller 50 does not operate the operation unit 31 to change the set temperature (S58: NO) after receiving the active mode execution signal in S50 until the present time, the kitchen remote controller 30 sets the hot water. It is determined that the temperature change instruction has not been received, and the process proceeds to S60.

In S<b>60 , control device 50 transmits a sleep mode execution signal to kitchen remote controller 30 . Thereby, the kitchen remote controller 30 shifts to the sleep mode. In the sleep mode, the operations of the operation unit 31, the control unit 32, the communication unit 34, and the display unit 36 of the kitchen remote controller 30 are stopped, so that power supply to each unit 31, 32, 34, and 36 is stopped. . Thereby, the power consumption of the kitchen remote controller 30 can be reduced. Regarding the sleep mode of the kitchen remote controller 30, although the control unit 32 of the kitchen remote controller 30 executes the processing, the executed processing is the same as the sleep mode of the bathroom remote controller 20 described with reference to FIG. Therefore, the description is omitted.

In S<b>61 , after transmitting the sleep mode execution signal to kitchen remote controller 30 , control device 50 determines whether or not a mode transition signal has been received from kitchen remote controller 30 . If the mode transition signal is not received from kitchen remote controller 30 (S61: NO), control device 50 executes the process of S60 again and transmits a sleep mode execution signal to kitchen remote controller 30. FIG. That is, control device 50 continues to transmit the sleep mode execution signal to kitchen remote controller 30 until it receives the mode transition signal from kitchen remote controller 30 .

If the power failure detection unit 54 does not detect a power failure of the commercial power supply (S52: NO), the controller 50 executes the process of S52 again and monitors the occurrence of power failure of the commercial power supply.

Similarly, if the water heater 40 is heating hot water (S54: YES), if the flow rate V2 exceeds the second threshold flow rate (S56: YES), the control device 50 On the other hand, if a command to change the set temperature is given (S58: YES), the process of S52 is executed again, and the power failure detection unit 54 monitors the occurrence of power failure of the commercial power supply. That is, the control device 50 repeats the processing of S54 to S58 until the user does not use the kitchen 6, in other words, until the sleep mode should be executed.

The control device 50 of the second embodiment can reduce the power consumption of the storage battery 60 during a commercial power failure by setting the kitchen remote controller 30 to the sleep mode during a commercial power failure.

Further, even when the commercial power supply is cut off, if the water heater 40 is being heated, or if the flow rate exceeding the second threshold flow rate is supplied to the mixing valve 5, the user turns on the kitchen remote controller 30. assumed to be in use. When the user uses the kitchen remote controller 30, if the sleep mode of the kitchen remote controller 30 is executed, the user's convenience is reduced. The control device 50 controls the kitchen remote control when the water heater 40 is being heated, or when the flow rate exceeding the second threshold flow rate is supplied to the mixing faucet 5 even during a power failure of the commercial power supply. 30 is not sent a sleep mode execution signal. Therefore, the sleep mode of the kitchen remote controller 30 is not executed in a state in which it is assumed that the user is using the kitchen remote controller 30 . Thereby, it is possible to prevent the user's convenience from deteriorating.

Similarly, when an instruction to change the set temperature is issued to the kitchen remote controller 30 (S58: YES), it is assumed that the user is using the kitchen remote controller 30 as well. Control device 50 does not transmit a sleep mode execution signal to kitchen remote controller 30 when it is assumed that such a user is using kitchen remote controller 30 even during a commercial power failure. , it is possible to prevent the user's convenience from deteriorating.

When the mode shift signal is received from the kitchen remote controller 30 (S61: YES), in S62, the control device 50 determines whether or not the power failure detection unit 54 has detected the cancellation of the commercial power failure. If no cancellation of the power failure is detected (S62: NO), the control device 50 determines that the power failure of the commercial power supply continues, and proceeds to the process of S64.

In S64, control device 50 determines whether water heater 40 is heating hot water. If neither the burner unit 44 nor the heat pump unit 48 is operating (S64: NO), the controller 50 determines that the water heater 40 is not heating hot water, and proceeds to the process of S66.

In S66, the control device 50 determines whether or not the flow rate V2 in the hot water distribution pipe connected to the mixing tap 5 exceeds the second threshold flow rate. If the flow rate V2 does not exceed the second threshold flow rate (S66: NO), the control device 50 determines that the user is not using the kitchen 6, executes the process of S62 again, to monitor the cancellation of commercial power outages. In other words, the control device 50 repeats the processing of S62 to S66 until the sleep mode should be stopped.

When it is detected that the power outage of the commercial power supply has been canceled (S62: YES), the control device 50 executes the process of S50 again, and transmits an active mode execution signal to the kitchen remote controller 30. FIG. Thereby, the active mode of the kitchen remote controller 30 is executed. Similarly, when the water heater 40 is heating hot water (S64: YES) or when the flow rate V2 exceeds the second threshold flow rate (S66: YES), the control device 50 repeats the process of S50. Execute and send an active mode execution signal to the kitchen remote controller 30 .

By transmitting an active mode execution signal to the kitchen remote controller 30 when the commercial power failure is canceled, the control device 50 can prevent the sleep mode from being continued after the commercial power failure is canceled. can. Thereby, user convenience can be improved.

Further, as described above, by transmitting the active mode execution signal to the kitchen remote controller 30 in a state where it is assumed that the user's kitchen 6 is being used (S62, S64, S66: YES), The control device 50 can prevent the sleep mode from being continued while the user is assumed to be using the kitchen 6 . Thereby, user convenience can be improved.

Although specific examples of the present invention have been described in detail above, these are merely examples and do not limit the scope of the claims. The technology described in the claims includes various modifications and changes of the specific examples illustrated above. Modifications of the above embodiment are listed below.

(Modification 1) The heat source device is not limited to the water heater 40, and may be, for example, a dishwasher, a clothes dryer, a floor heater, or the like.

(Modification 2) The bathroom remote controller 20 of the first embodiment also stops the operation of the operation unit 21 during execution of the sleep mode. In this modification, the bathroom remote controller 20 may continue the operation of the operation unit 21 even during execution of the sleep mode.

(Modification 3) In the embodiment described above, the control device 50 is provided in the water heater 40, but is not limited to this. may be installed.

(Modification 4) The control device 50 of the first embodiment described above transmits a sleep mode execution signal to the bathroom remote controller 20 when the commercial power supply fails. In this modified example, instead of this, a sleep mode execution signal may be transmitted to the bathroom remote controller 20 when an energy saving mode setting instruction is obtained from the user. In that case, control device 50 does not need to transmit the active mode execution signal to bathroom remote controller 20 even if it detects the cancellation of the power failure of the commercial power source during the execution of the sleep mode (see S18 in FIG. 3). Further, in a further modification, the user can select between a first setting for executing the sleep mode when the commercial power supply fails and a second setting for always executing the active mode even if the commercial power supply fails. may be

(Modification 5) The thermal appliance 100 may not include the kitchen remote control 30, for example. That is, in this modified example, the "second remote control" can be omitted. In a further modification, the heating remote control installed in the living room of the house 2 may indicate whether the bathroom remote control 20 is in active mode or sleep mode. In this case, the heating remote controller is an example of the "second remote controller".

(Modification 6) The water heater 40 does not have to include the heat pump unit 48 and the tank unit 46 . In this modification, the water heater 40 may directly heat water in the water supply pipe connected to the house 2 with the burner unit 44 .

(Modification 7) The control device 50 may transmit the sleep mode execution signal to the bathroom remote controller 20 even when the flow rate V1 exceeds the first threshold flow rate.

(Modification 8) The control device 50 may transmit the sleep mode execution signal to the bathroom remote controller 20 even when the hot water filling button 30b of the kitchen remote controller 30 is operated.

(Modification 9) The hot water filling instruction acquired by the kitchen remote control 30 is not limited to the user's operation of the hot water filling button 30b. For example, in the case of the kitchen remote controller 30 in which the hot water filling operation start time can be set, the hot water filling instruction may be acquired when the start time arrives.

(Modification 10) Control device 50 may transmit a sleep mode execution signal to bathroom remote controller 20 even when an operation signal is received from bathroom heater 12 . In a further variant, the thermal appliance 100 may not comprise a bathroom heater 12.

In addition, the technical elements described in this specification or in the drawings exhibit 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 exemplified in this specification or drawings achieve multiple purposes at the same time, and achieving one of them has technical utility in itself.

2: House 4: System kitchen 5: Mixing tap 6: Kitchen 8: Outdoor outlet 10: Bathroom 12: Bathroom heater 14: Bathtub 16: Shower 20: Bathroom remote controller 20d: Bathroom display 21, 31: Operation unit 22, 32: Control units 24, 34 : Communication units 26, 36 : Display units 28, 38 : Timer unit 30 : Kitchen remote control 30b : Hot water filling button 30d : Kitchen display 40 : Water heater 42 : Code 44 : Burner unit 46 : Tank unit 48 : Heat pump unit 50: control device 52: hot water supply control unit 54: power failure detection unit 56: communication unit 60: storage battery 100: heat equipment V1, V2: flow rate

Claims (7)

a heat source machine;
a control device that controls the operation of the heat source machine;
A thermal appliance comprising a remote control communicable with the control device,
The remote controller
a communication unit that communicates with the control device;
a display unit for displaying information about the thermal equipment to a user;
a control unit that controls the operation of the communication unit and the display unit;
A timer unit that transmits a start signal to the control unit when a predetermined time has elapsed when the control unit instructs to start timing,
an active mode in which at least the communication unit, the display unit and the control unit continue to operate;
a sleep mode in which the operation of the communication unit, the display unit, and the control unit is stopped and the operation of the timer unit is continued;
is configured to be able to execute
The control device is
an active mode execution signal requesting the remote controller to execute the active mode;
a sleep mode execution signal requesting the remote controller to execute the sleep mode;
can be transmitted to the remote control,
The remote controller
When the sleep mode execution signal is received from the control device while the active mode is being executed, after the control unit instructs the timer unit to start the time measurement, the sleep mode is entered;
transitioning to the active mode when the control unit receives the activation signal from the timer unit during execution of the sleep mode;
when transitioning from the sleep mode to the active mode,
continuing the active mode when receiving the active mode execution signal from the control device;
The thermal equipment, wherein when the active mode execution signal is not received from the control device, the control unit instructs the timer unit to start the time measurement, and then shifts to the sleep mode. The control device can be supplied with power from both a commercial power supply and a storage battery,
2. The thermal equipment according to claim 1, wherein said control device transmits said sleep mode execution signal to said remote controller when said commercial power supply fails. further comprising a second remote controller installed at a location separate from the remote controller and connected to the control device;
The control device transmits a mode signal indicating whether the remote controller is in the active mode or the sleep mode to the second remote controller,
3. The second remote controller according to claim 2, wherein the second remote controller comprises a second display unit for displaying to a user whether the remote controller is in the active mode or the sleep mode based on the received mode signal. thermal equipment. The heat source device is a water heater that heats and supplies water,
The remote controller is a bathroom remote controller installed in a bathroom,
The second remote controller is a kitchen remote controller installed in the kitchen,
4. The thermal equipment according to claim 3, wherein said control device controls operation of said water heater that supplies hot water to said bathroom. wherein the control device does not transmit the sleep mode execution signal to the remote controller when the amount of hot water supplied by the water heater exceeds a predetermined flow rate, even if the commercial power source is out of power. Item 5. The thermal equipment according to item 4. The kitchen remote controller can acquire hot water filling instructions for supplying hot water to the bathtub in the bathroom,
5. The control device does not transmit the sleep mode execution signal to the remote controller when the kitchen remote controller acquires the instruction to fill the hot water even if the commercial power source is out of power. Or the thermal equipment according to 5. Further comprising a bathroom heater connected to the control device,
The control device is
It is possible to determine whether the bathroom heater is performing heating of the bathroom,
7. When the bathroom heater is heating the bathroom, the sleep mode execution signal is not transmitted to the remote controller even if the commercial power source is out of power. A thermal appliance according to any one of Claims 1 to 3.

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