JP6624004B2 - Water heater - Google Patents

Description

  The present disclosure relates to a hot water supply device that fills a bathtub with hot water.

  2. Description of the Related Art Conventionally, in this type of hot water supply apparatus, various methods have been adopted for filling a bathtub with an automatic filling operation. For example, pouring the water little by little while watching the water level in the bathtub, and using the position where the circulation port of the bathtub is submerged as the reference water level, the water is filled to the set water level, and from the circulation port to shorten the filling time, In some cases, even when the water level is low, pouring of an amount that will reach near the previously set water level is performed.

  In contrast to these methods, it takes too much time to complete the filling with small amounts of filling, and if the plug is pulled out at once, the amount of hot water for the set water level is wasted. There is. In order to solve these problems, for example, in Patent Document 1, when the remaining hot water amount in the hot water storage tank is small, pouring of the hot water little by little and checking for plug removal are performed. On the other hand, when the remaining hot water amount in the hot water storage tank is not small, Discloses a method of pouring water at a stretch and making the filling time as short as possible.

JP 2015-187523 A

  However, in the conventional method described in Patent Literature 1, there is still room for improvement because it is possible to switch between checking whether the plug has been removed while performing the pouring little by little or performing pouring at a stroke based on the amount of remaining hot water in the hot water storage tank. . For example, consider a situation in which it is difficult for the user to directly check the state of the bathtub, such as a situation where a user performs a hot water filling operation using a smartphone or the like from the outside. In such a situation, the user operates while feeling uneasy that he cannot confirm the state of the drain plug. Even in such a situation, according to the method of Patent Document 1, if the amount of remaining hot water in the hot water storage tank is not small, even if it is an external operation and it is not necessary to complete the pouring quickly, it is confirmed that the plug is removed. Since the hot water is poured at once without performing the process, the hot water may be lost by the set water level when the drain plug is open.

  An object of the present disclosure is to provide a hot water supply apparatus that can appropriately reduce the amount of hot water lost due to a hot water filling operation when a bathtub is unplugged.

  The present disclosure relates to a hot water supply device (10) for filling a bathtub (BT) with hot water, a hot water supply unit (11) for supplying hot water to the bathtub, and a first operation using a dedicated line (N1) in a house. The bathtub is supplied to the hot water supply unit when a hot water filling command to execute hot water filling in the bathtub is received from the second operation unit (52) using the public communication line (N2). And a control unit (50) for performing hot water filling to the bathtub when the hot water supply unit receives the hot water filling command from the first operation unit. After the supply of the hot water, the hot water supply unit performs a set water filling amount to the bath tub when the hot water supply command is received from the second operation unit by performing a plug removal determination as to whether the bath tub is disconnected or not. The plug removal judgment is performed at an earlier timing than when the hot water is supplied, and the plug is inserted into the bathtub. It stops the water filling the water heater unit when it is detected that has injuries occur, a water heater.

  With this configuration, when the hot water filling command is received from the second operation unit, that is, when the hot water filling operation is performed in a situation where it is difficult to directly check the state of the bathtub such as when the user is outside, the plug is plugged in the middle of the hot water filling. By performing the dropout determination, it is possible to advance the timing for stopping the hot water filling when the bathtub has been unplugged. As a result, the amount of hot water lost due to the filling operation when the bathtub is unplugged can be suitably reduced.

  According to the present disclosure, it is possible to provide a hot water supply apparatus capable of suitably reducing the amount of hot water lost due to a hot water filling operation when a bathtub is unplugged.

FIG. 1 is a diagram schematically illustrating an overall configuration of a hot water supply apparatus according to an embodiment. FIG. 2 is a block diagram showing a configuration centering on the control unit in FIG. FIG. 3 is a flowchart illustrating a process of automatic hot water filling control by the hot water supply device according to the embodiment.

  Hereinafter, the present embodiment will be described with reference to the accompanying drawings. To facilitate understanding of the description, the same components are denoted by the same reference numerals as much as possible in each drawing, and redundant description will be omitted.

  The configuration of the hot water supply apparatus 10 according to the embodiment will be described with reference to FIGS. 1 and 2. The hot water supply device 10 is a device for filling a bathtub BT installed in a bathroom (not shown) of a building. Hot water supply device 10 is configured as a so-called “hot water storage type” hot water supply device. Hot water supply device 10 includes a hot water supply unit 11 and a control unit 50.

  Hot water supply unit 11 is a main part of hot water supply device 10 that supplies hot water to bathtub BT. Hot water supply unit 11 includes a hot water storage tank 20 and a heat pump unit 40.

  Hot water storage tank 20 is a large container for storing high-temperature hot water generated by heat pump unit 40 described below. Hot water supply device 10 can supply hot water stored in hot water storage tank 20 to bathtub BT to perform hot water filling. The hot water supply device 10 can also supply the hot water stored in the hot water storage tank 20 to the mixing faucet in the bathroom. However, in FIG. 1, illustration of the mixing faucet and piping connected thereto is omitted. I have. The temperature of the hot water stored in the hot water storage tank 20 (particularly, the hot water stored in the upper part of the hot water storage tank 20) is about 90 ° C., which is higher than the temperature of the hot water supplied to the bathtub BT or the like. ing.

  Hot water storage tank 20 is formed in a substantially cylindrical shape. One end of a pipe 302 is connected to a lower portion of the hot water storage tank 20. The pipe 302 is a pipe for supplying the water supplied from the water supply WS into the hot water storage tank 20. In the present embodiment, the water supply WS and the heat pump unit 40 are connected by a pipe 301, and the other end of the pipe 302 is connected to a joint J4 provided in the middle thereof. The water pressure from the water supply WS is always applied to the inside of the hot water storage tank 20. For this reason, when the hot water stored in the hot water storage tank 20 is discharged to the outside from the upper pipe 305 and the like, water is supplied from the pipe 302 to the hot water storage tank 20 so as to compensate for this.

  Two pipes 305 and 306 for discharging hot water to the outside are connected to the hot water storage tank 20. One end of the pipe 305 is connected to the upper portion of the hot water storage tank 20, and the other end is connected to the mixing valve 62. One end of the pipe 306 is connected to the center of the hot water storage tank 20 in the vertical direction, and the other end is connected to the mixing valve 62.

  One end of a pipe 307 is connected to the mixing valve 62 in addition to the pipes 305 and 306. The mixing valve 62 mixes high-temperature hot water discharged from the hot-water storage tank 20 via the pipe 305 and medium-temperature hot water discharged from the hot-water storage tank 20 via the pipe 306, and directs the mixture to the pipe 307. And a valve configured to discharge. The mixing valve 62 can adjust the ratio of the flow rate of the hot water flowing from the pipe 305 to the pipe 307 to the flow rate of the hot water flowing from the pipe 306 to the pipe 307 by changing the opening degree. The operation of the mixing valve 62 is controlled by a control unit 50 described later.

  The pipe 307 is a pipe for guiding hot water discharged from the mixing valve 62 toward the mixing valve 63. One end of the pipe 307 is connected to the mixing valve 62, and the other end is connected to the mixing valve 63. The mixing valve 63 is a valve for mixing the hot water discharged from the mixing valve 62 with the water from the water supply WS and supplying the mixed hot water to the bathtub BT.

  One end of a pipe 308 is connected to the mixing valve 63. The other end of the pipe 308 is connected to a joint J3 provided in the middle of a pipe 301 extending from the water supply WS. The mixing valve 63 can adjust the ratio between the flow rate of hot water flowing from the pipe 307 to the pipe 309 and the flow rate of water flowing from the pipe 308 to the pipe 309 by changing the opening degree. By the adjustment, the temperature of the hot water supplied to the bathtub BT is determined. The operation of the mixing valve 63 is controlled by a control unit 50 described later. The control unit 50 adjusts the opening of the mixing valve 62 and the opening of the mixing valve 63 such that the temperature of the hot water supplied to the bathtub BT becomes a preset temperature.

  One end of the pipe 309 is connected to the mixing valve 63, and the other end is connected to the joint J1. The joint J1 is a joint provided in the middle of the pipe 101 extending from the bathtub BT. The hot water mixed with water in the mixing valve 63 is supplied to the bathtub BT through the pipe 309, the joint J1, and the pipe 101.

  An electromagnetic valve 64 is provided in the middle of the pipe 309. The electromagnetic valve 64 is an electromagnetic valve whose opening and closing are switched based on an external signal. The solenoid valve 64 switches between a state in which hot water is supplied to the bathtub BT and a state in which hot water is stopped. The operation of the solenoid valve 64 is controlled by the control unit 50.

  Therefore, hot water supply apparatus 10 can supply a predetermined amount of hot water from hot water supply section 11 to bathtub BT by appropriately controlling the operations of mixing valves 62 and 63 and solenoid valve 64 by control section 50.

  Heat pump unit 40 is a device for heating hot water stored in hot water storage tank 20. Heat pump unit 40 heats the hot water supplied from hot water storage tank 20 to increase the temperature thereof, and returns the hot water to hot water storage tank 20. The heat pump unit 40 has a built-in pump (not shown) for circulating hot water between the heat pump unit 40 and the hot water storage tank 20, and a refrigeration cycle (not shown) for heating hot water. As such a heat pump unit 40, a known unit can be adopted, and specific illustration and description thereof are omitted. The operation of the heat pump unit 40 is controlled by the control unit 50.

  As described above, the end of the pipe 301 extending from the water supply WS is connected to the heat pump unit 40. Further, one end of a pipe 304 extending toward the heat exchanger 30 described later is also connected to the heat pump unit 40. The other end of the pipe 304 is provided with a joint J2. One end of a pipe 202 is connected to the joint J2. The other end of the pipe 202 is connected to the three-way valve 61.

  The three-way valve 61 and the upper part of the hot water storage tank 20 are connected by a pipe 201. A joint J5 is provided in the middle of a pipe 301 extending from the water supply WS, and the joint J5 and the three-way valve 61 are connected by a pipe 303. The three-way valve 61 is a valve that can switch between a state in which the pipes 303 and 202 are in communication and a state in which the pipes 201 and 202 are in communication. The operation of the three-way valve 61 is controlled by the control unit 50.

  When the hot water is heated by the heat pump unit 40, first, the state of the three-way valve 61 is switched so that the pipe 303 and the pipe 202 are in communication. When the heat pump unit 40 operates in this state, the hot water discharged from the heat pump unit 40 passes through the pipe 304, the joint J2, the pipe 202, the three-way valve 61, the pipe 303, the joint J5, and the pipe 301 in order, and passes through the hot water storage tank 20. It returns to the heat pump unit 40 without doing. By circulating hot water in such a path, low-temperature hot water discharged from the heat pump unit 40 in the initial operation is prevented from flowing into the hot water storage tank 20.

  When the temperature of the hot water discharged from the heat pump unit 40 becomes sufficiently high, the state of the three-way valve 61 is switched so that the pipe 201 and the pipe 202 are in communication. Thereby, the hot water discharged from the heat pump unit 40 is supplied from the upper portion to the hot water storage tank 20 through the pipe 304, the joint J2, the pipe 202, the three-way valve 61, and the pipe 201 in this order. The low-temperature hot water (water) discharged from the lower side of the hot water storage tank 20 is supplied to the heat pump unit 40 through the pipe 302, the joint J4, and the pipe 301 in this order.

  Therefore, the hot water supply apparatus 10 can maintain the temperature of the hot water inside the hot water storage tank 20 at an appropriate temperature by appropriately controlling the operations of the heat pump unit 40 and the three-way valve 61 by the control unit 50.

  The hot water supply device 10 raises the temperature of the hot water stored in the bathtub BT by causing heat exchange between the high-temperature hot water stored in the hot water storage tank 20 and the low-temperature hot water stored in the bathtub BT. Control (hereinafter, also referred to as “reheating control”) is also possible. A configuration for realizing the reheating control will be described with reference to FIG.

  Hot water supply device 10 includes a heat exchanger 30, a first circulation channel 100 (a reheating circulation channel), and a second circulation channel 200.

  The heat exchanger 30 is a heat exchanger for causing heat exchange between hot water stored in the hot water storage tank 20 and hot water stored in the bathtub BT. The heat exchanger 30 is provided at a position in the middle of the first circulation channel 100 and at a position in the middle of the second circulation channel 200.

  The first circulation channel 100 is a channel through which hot water circulates between the bathtub BT and the heat exchanger 30. The first circulation channel 100 is configured by a pipe 101 and a pipe 102. The upstream end of the pipe 101 is connected to the bathtub BT, and the downstream end is connected to the heat exchanger 30. The pipe 101 is a pipe for guiding the hot water drawn from the bathtub BT to the heat exchanger 30. The upstream end of the pipe 102 is connected to the heat exchanger 30, and the downstream end is connected to the bathtub BT. The pipe 102 is a pipe for guiding the hot water after the heat exchange discharged from the heat exchanger 30 to the bathtub BT.

  A first pump 81 is provided in the pipe 101, specifically at a position closer to the bathtub BT than the joint J1. The first pump 81 is a pump for sending hot water toward the heat exchanger 30 so that hot water circulates in the first circulation flow path 100. The operation of the first pump 81 is controlled by the control unit 50. The control unit 50 can adjust the flow rate of the hot water circulating in the first circulation channel 100 by changing the rotation speed of the first pump 81.

  A flow switch (SW) 91 is provided in the pipe 101 at a position between the bathtub BT and the first pump 81. The flow SW 91 is a sensor that detects whether hot water is circulating in the first circulation channel 100. For example, when the first pump 81 is operating and hot water is circulating in the first circulation flow path 100, the flow SW is turned on; otherwise, the flow SW is turned off. Information on the ON / OFF state of the flow SW 91 is transmitted to the control unit 50.

  An upstream temperature sensor 71 is provided in the pipe 101 at a position near the heat exchanger 30. The upstream temperature sensor 71 is a sensor for measuring the temperature of the hot water circulating in the first circulation channel 100 at the position. The upstream temperature sensor 71 can be said to be a sensor for measuring the temperature of hot water at a position upstream of the heat exchanger 30. The temperature of the hot water measured by the upstream temperature sensor 71 when the hot water is circulating in the first circulation channel 100 is substantially equal to the temperature of the hot water stored in the bathtub BT. The temperature of the hot water measured by the upstream temperature sensor 71 is transmitted to the control unit 50. In the present embodiment, a thermistor is used as the upstream temperature sensor 71.

  A downstream temperature sensor 72 is provided in the pipe 102 at a position near the heat exchanger 30. The downstream temperature sensor 72 is a sensor for measuring the temperature of hot water circulating in the first circulation channel 100 at the position. The downstream temperature sensor 72 can be said to be a sensor for measuring the temperature of hot water at a position downstream of the heat exchanger 30. The temperature of the hot water measured by the downstream temperature sensor 72 when the hot water is circulating in the first circulation channel 100 is the temperature of the hot water immediately after the heat exchange in the heat exchanger 30 is performed. The temperature is substantially equal to the temperature of hot water supplied to bathtub BT during execution of reheating control. The temperature of the hot water measured by the downstream temperature sensor 72 is transmitted to the control unit 50. In the present embodiment, a thermistor is used as the downstream temperature sensor 72.

  The second circulation channel 200 is a channel through which hot water circulates between the hot water storage tank 20 and the heat exchanger 30. The second circulation channel 200 includes a pipe 203 and a pipe 204 in addition to the pipes 201 and 202 already described. The pipe 203 is a pipe provided to connect between the joint J2 and the heat exchanger 30. The pipe 204 is a pipe provided to connect between the heat exchanger 30 and the hot water storage tank 20. The downstream end of the pipe 204 is connected to the center of the hot water storage tank 20 in the up-down direction.

  A second pump 82 is provided in the middle of the pipe 204. The second pump 82 is a pump for sending hot water toward the hot water storage tank 20 so that the hot water circulates in the second circulation channel 200. The operation of the second pump 82 is controlled by the control unit 50. The control unit 50 can adjust the flow rate of the hot water circulating in the second circulation channel 200 by changing the rotation speed of the second pump 82.

  When hot water is circulated in the second circulation channel 200, the pipe 201 and the pipe 202 are brought into communication with each other by operating the three-way valve 61 in advance. When the second pump 82 is driven in this state, the hot water sent from the second pump 82 is supplied to the pipe 204, the hot water storage tank 20, the pipe 201, the three-way valve 61, the pipe 202, the joint J2, the pipe 203, and the heat exchanger. After passing through the order 30, the process returns to the second pump 82.

  When the reheating control is performed, the control unit 50 drives both the first pump 81 and the second pump 82. Thus, the hot water is circulated in each of the first circulation channel 100 and the second circulation channel 200. At this time, in the heat exchanger 30, heat exchange is performed between the hot water supplied from the hot water storage tank 20 and the hot water supplied from the bathtub BT. The hot water circulating in the first circulation flow path 100 raises its temperature when passing through the heat exchanger 30 and then returns to the bathtub BT through the pipe 102. Thereby, the temperature of the hot water stored in the bathtub BT can be raised without raising the water level of the bathtub BT.

  The control unit 50 is a unit for integrally controlling the entire hot water supply device 10. The control unit 50 is configured as a computer system including a CPU, a ROM, a RAM, and the like. As described above, the control unit 50 controls operations of the heat pump unit 40, the three-way valve 61, the mixing valve 62, and the like included in the hot water supply unit 11. Thereby, the temperature and flow rate of hot water supplied from hot water supply unit 11 to bathtub BT are adjusted.

  In the present embodiment, the operation of the control unit 50 can be performed in response to a user operation command received via the first operation unit 51 and the second operation unit 52. Further, control unit 50 can display various types of information indicating the operation state of hot water supply unit 11 on first operation unit 51 and second operation unit 52, and notify the user of the information. The first operation unit 51 and the second operation unit 52 have different types of lines communicably connected to the control unit 50.

  As shown in FIG. 2, first operation unit 51 is communicably connected to control unit 50 via dedicated line N1 in a house where hot water supply device 10 is installed. The first operation unit 51 is typically a dedicated terminal such as a touch panel installed in a bathroom or living room of a house where the water heater 10 is installed. On the other hand, as shown in FIG. 2, the second operation unit 52 is communicably connected to the control unit 50 via a public communication line N2 such as a mobile phone network or the Internet. The second operation unit 52 is typically a mobile communication terminal such as a smartphone or a tablet, or an application installed in the mobile communication terminal.

  More specifically, as shown in FIG. 2, control unit 50 transmits and receives information to and from first operation unit 51 and second operation unit 52, and hot water storage control that controls the operation of hot water supply unit 11. A part 50B. The hot water storage control unit 50B controls the valve of the hot water supply unit 11 based on operation commands of the first operation unit 51 and the second operation unit 52 input from the transmission / reception unit 50A and various sensor information of the hot water supply unit 11 such as the flow SW 91. Outputs a control command to the pump. Further, hot water storage control section 50B notifies first operation section 51 and second operation section 52 of various information via transmission / reception section 50A.

  Hot water supply device 10 of the present embodiment has a configuration in which hot water supply unit 11 has a predetermined setting hot water in response to receiving a hot water filling command for performing hot water supply to bathtub BT from first operation unit 51 or second operation unit 52. It is possible to perform automatic hot water filling control in which hot water of the hot water amount is supplied to the bathtub BT and hot water is applied to the bathtub BT. In the automatic hot water filling control, the hot water supply device 10 determines whether or not the bathtub BT is unplugged, and if it is detected that the unplugging is occurring, the hot water supply unit 11 is configured to stop filling.

  In particular, in the present embodiment, the hot water supply apparatus 10 is configured to change the timing for performing the plug removal determination according to which of the first operation unit 51 and the second operation unit 52 has transmitted the filling command. Have been. More specifically, when the hot water filling command is received from the second operation unit 52, the plug removal determination is performed earlier than in the case of the first operation unit 51.

  The situation in which the user issues an operation command using the second operation unit 52 such as a smartphone may be, for example, a situation in which the user operates from the outside, or a situation in which the user is at home, such as a bathtub BT or a dedicated terminal. It is considered that it is difficult for the user to directly check the state of the bathtub BT, and it is not necessary to complete the pouring quickly, such as a situation where the operation is performed at a place away from the first operation unit 51. In such a situation, if it is not possible to detect that the plug has actually been removed, the user cannot visually detect and stop the filling, so that a large amount of hot water is lost due to the plug being removed. Indeed, this can incite a sense of uneasiness to the user that plug-in may have occurred. Therefore, when the hot water filling command is received from the second operation unit 52, it is not necessary to complete the pouring quickly, so that the plug removal is performed early so that the plug removal of the bathtub cannot be immediately recognized. Even in such a case, the amount of hot water lost at the time of plug removal can be reduced as much as possible, and the user's fear of plug removal can be suppressed.

  With reference to FIG. 3, the contents of the specific processing of the automatic hot water filling control will be described. A series of processes shown in FIG. 3 are executed by hot water storage control unit 50B of control unit 50 when a start command of automatic hot water filling control is received from either first operation unit 51 or second operation unit 52. You.

  In step S01, in order to operate the first pump 81, a small amount of hot water is poured into the pipe 101 of the first circulation flow path 100, and priming is performed. Upon completion of the process in the step S01, the process proceeds to a step S02.

  In step S02, the remaining hot water in bathtub BT is checked. When there is no remaining hot water in the bathtub BT (No in step S02), the process proceeds to step S03. When there is remaining hot water (Yes in step S02), the process proceeds to step S015.

  In step S03, it is determined whether or not the start command of the automatic hot water filling control is an external operation. Here, the “external operation” refers to a situation in which a hot water filling command is received from the second operation unit 52 using the public communication line N2. In the case of an external operation (ie, in the case of an operation command using the second operation unit 52), the process proceeds to step S04. Otherwise (ie, in the case of an operation command using the first operation unit 51), step S11 is performed. Proceed to.

  In step S04, since it is determined that the filling command has been received from the second operation unit 52 in step S03, the control for performing the plug removal determination early as described above is selected, and first, a reference smaller than the set filling amount is set. Pouring is performed up to the water level. The reference water level is set to such a level that the water level is higher than the position of the inlet of the pipe 101 of the first circulation channel 100 when the bathtub BT is not plugged. In other words, the reference water level is such that the hot water in the bathtub BT can be circulated in the first circulation flow path 100 when the plug has not dropped out, and the hot water in the bathtub BT can be circulated in the first circulation flow path 100 when the dropout has occurred. The amount of hot water that can be prevented from being introduced. When the process in step S04 is completed, the process proceeds to step S05.

  In step S05, the bath circulation pump (first pump 81) is turned on (operated), the hot water in the bathtub BT is circulated in the first circulation flow path 100, and then in step S06, it is determined whether or not the flow SW 91 is on. Is determined.

  If the result of the determination in step S06 is that the flow SW 91 is on (Yes in step S06), it is determined that hot water in the bathtub BT is circulating in the first circulation flow path 100 and that no plugging has occurred in the bathtub BT. It is determined, the bath circulation pump (first pump 81) is turned off (stopped) in step S07, and the remaining amount of hot water up to the set hot water amount (set hot water amount−reference water level amount) is poured in step S08. Is performed, and the current processing flow ends.

  On the other hand, if the result of the determination in step S06 is that the flow SW 91 is off (No in step S06), hot water in the bathtub BT has not been introduced into the first circulation flow path 100, and plugging out of the bathtub BT occurs. Is determined, the operation of the hot water supply unit 11 is stopped in step S09 due to the occurrence of the plug removal abnormality, and the occurrence of the plug removal is notified to the second operation unit 52 in step S10. At this time, the notification may be sent to the first operation unit 51 together. Alternatively, the notification may be sent only to the first operation unit 51 without notifying the second operation unit 52. When the processing in step S10 is completed, the current processing flow ends.

  In step S11, since it is determined that the filling command has been received from the first operation unit 51 in step S03, control for performing plug removal determination after completion of filling is selected, and first, pouring is performed up to the set filling level. Is Upon completion of the process in the step S11, the process proceeds to a step S12.

  In step S12, the bath circulation pump (first pump 81) is turned on (operated), the hot water in the bathtub BT is circulated in the first circulation flow path 100, and then, in step S13, it is determined whether or not the flow SW 91 is on. Is determined.

  If the result of the determination in step S13 is that the flow SW91 is on (Yes in step S13), it is determined that hot water in the bathtub BT is circulating in the first circulation flow path 100 and that no plugging has occurred in the bathtub BT. It is determined, the bath circulation pump (first pump 81) is turned off (stopped) in step S14, and the current processing flow ends.

  On the other hand, if the result of the determination in step S13 is that the flow SW 91 is off (No in step S13), hot water in the bathtub BT has not been introduced into the first circulation flow path 100, and the bathtub BT is unplugged. Is determined, the operation of the hot water supply unit 11 is stopped in step S09 due to the occurrence of the plug removal abnormality, and the first operation unit 51 is notified of the occurrence of the plug removal in step S10. At this time, the notification may also be sent to the second operation unit 52. Alternatively, the notification may be sent to only the second operation unit 52 without notifying the first operation unit 51. When the processing in step S10 is completed, the current processing flow ends.

  In step S15, since it is determined in step S02 that there is residual hot water in the bathtub BT, the process from step S12 is performed after the residual hot water amount is maintained.

  Next, effects of the hot water supply device 10 according to the present embodiment will be described.

  The hot water supply apparatus 10 of the present embodiment includes a hot water supply unit 11 for supplying hot water to the bathtub BT and a first operation unit 51 using a private line N1 in the house or a second operation unit 52 using a public communication line N2. And a control unit 50 for causing the hot water supply unit 11 to fill the bathtub BT when receiving a filling command for filling the bathtub BT. When receiving the hot water filling command from the first operation unit 51, the control unit 50 determines whether or not the bathtub BT is unplugged after the hot water supply unit 11 supplies the hot water of the set hot water amount to the bathtub BT. Perform plug removal determination. On the other hand, when the control unit 50 receives the hot water filling command from the second operation unit 52, the hot water supply unit 11 performs the plug removal determination at a timing earlier than the time when the hot water supply unit supplies the hot water of the set hot water amount to the bathtub BT. When it is detected that plugging has occurred, the hot water supply unit 11 stops filling.

  With this configuration, when the hot water filling command is received from the second operation unit 52, that is, when the user is outside, it is difficult to directly check the state of the bathtub BT and it is not necessary to complete the hot water filling quickly. When the filling operation is performed, by determining the plug removal during the filling, the timing of stopping the filling when the disconnection of the bathtub BT has occurred can be advanced. As a result, it is possible to preferably reduce the amount of hot water lost due to the filling operation when the bathtub is unplugged, while eliminating the user's uneasiness of the plug being unplugged.

  Further, in hot water supply apparatus 10 of the present embodiment, when control unit 50 detects that plug removal has occurred in bathtub BT and causes hot water supply unit 11 to stop filling, the control unit 50 causes the second operation unit 52 to perform the operation. To the effect.

  With this configuration, even when the hot water filling command is received from the second operation unit 52 and the hot water filling operation is performed in a situation where the user is difficult to directly check the state of the bathtub BT, the user is notified of the occurrence of the plug removal abnormality. Thus, the second operation unit 52 used for transmitting the command is notified, and the user can be quickly notified. Thus, the user can accurately grasp the state of the bathtub BT, and can eliminate the user's anxiety that the plug may have come off.

  Further, in hot water supply apparatus 10 of the present embodiment, when control unit 50 detects that plugging-out of bath tub BT has occurred and causes hot water supply unit 11 to stop filling, first control unit 51 issues a message. To the effect.

  With this configuration, even if the user cannot immediately confirm the notification from the second operation unit 52, the user can check the first operation unit 51 after returning home to grasp the occurrence of the abnormal plugging and unplugging of the bathtub BT. The user can be more reliably notified of the dropout abnormality.

  In the hot water supply apparatus 10 of the present embodiment, the hot water supply unit 11 is configured to supply hot water from an inlet in the bathtub BT, to be heated by the heat exchanger 30, and to return to the bathtub BT from the discharge outlet after being heated by the heat exchanger 30. When the hot water supply unit 11 supplies a hot water of a reference water level that is higher than the inlet to the bathtub BT, the control unit 50 controls the additional heating circulation flow channel 100. Detects the presence or absence of circulating hot water. The control unit 50 detects that the bathtub BT is plugged when there is no hot water circulating in the additional heating circulation channel 100.

  With this configuration, it is possible to determine whether or not the bathtub BT is unplugged by diverting components related to the reheating function of the existing hot water supply device 10, and to easily and accurately detect the occurrence of unplugging of the bathtub BT. Can be.

  The embodiment has been described with reference to the specific examples. However, the present disclosure is not limited to these specific examples. Those in which those skilled in the art appropriately change the design of these specific examples are also included in the scope of the present disclosure as long as they have the features of the present disclosure. The components included in the specific examples described above and the arrangement, conditions, shapes, and the like of the components are not limited to those illustrated, and can be appropriately changed. The elements included in each of the specific examples described above can be appropriately changed in combination as long as there is no technical contradiction.

  In the above embodiment, in order to determine whether hot water in the bathtub BT is circulating in the first circulation channel 100 for plug removal determination, the flow SW 91 provided in the pipe 101 of the first circulation channel 100 is determined. Although the on / off information is used, other information may be used. For example, a pressure sensor or a temperature sensor is provided in the first circulation flow path 100, and the water pressure or the hot water temperature when the hot water circulates in the first circulation flow path 100 is used as a threshold to determine the hot water inside the first circulation flow path 100. May be determined.

  Further, in the above-described embodiment, a dedicated terminal set in the house is illustrated as an example of the first operation unit 51 using the private line N1 in the house, and a second operation unit 52 using the public communication line N2 is illustrated as an example. Although a mobile communication terminal such as a smartphone or a tablet has been exemplified, other devices may be applied.

10: Hot water supply device 11: Hot water supply unit 50: Control unit 51: First operation unit 52: Second operation unit 100: First circulation channel (additional heating circulation channel)
BT: Bathtub

Claims (6)

A hot water supply device (10) for filling a bathtub (BT) with hot water,
A hot water supply unit (11) for supplying hot water to the bathtub;
From the first operation unit (51) using the private line (N1) in the house or the second operation unit (52) using the public communication line (N2), filling the bathtub with water A control unit (50) that, when receiving the command, causes the hot water supply unit to fill the bathtub with hot water;
With
The control unit includes:
When the hot water supply command is received from the first operation unit, after the hot water supply unit supplies the hot water of the set hot water amount to the bathtub, a plug removal determination of whether or not the bathtub has been removed is performed. Do
When the hot water supply command is received from the second operation unit, the hot water supply unit performs the plug removal determination at an earlier timing to supply the set hot water amount to the bath tub, and the bath tub is disconnected. If it is detected that the hot water supply unit stops the hot water,
Water heater. The control unit, when detecting that the bathtub is unplugged and causing the hot water supply unit to stop filling, notifies the second operation unit to that effect,
The hot water supply device according to claim 1. The control unit, when detecting that a plug has been removed from the bathtub and causing the hot water supply unit to stop filling, notifies the first operation unit to that effect,
The hot water supply device according to claim 1. The hot water supply unit,
Hot water is introduced from an introduction port in the bathtub, and has a reheating circulation flow path (100) that is heated and returned to the bathtub from a discharge port after being heated;
The controller detects the presence or absence of hot water circulating in the additional heating circulation channel when the hot water supply unit supplies hot water having a reference water level higher than the inlet to the bathtub, and detects the additional heating. When there is no hot water circulating in the circulation flow path, it is detected that plug removal has occurred in the bathtub,
The hot water supply device according to claim 1. The control unit is configured to detect the presence or absence of hot water circulating in the additional heating circulation channel based on at least one information of the flow rate, the pressure, and the temperature in the additional heating circulation channel.
The hot water supply device according to claim 4. The first operation unit is a dedicated terminal installed in the house,
The second operation unit is a mobile communication terminal;
The hot water supply device according to claim 1.

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