JP4973111B2 - Hot water heater - Google Patents

Description

  The present invention relates to a hot water storage type water heater having a mist generating device.

  A conventional mist generating apparatus mixes water and hot water at an appropriate temperature, and jets hot water in a mist form (see, for example, Patent Document 1).

FIG. 5 shows a configuration of a conventional mist generating apparatus. In FIG. 5, water is supplied from the water supply source 101 to the hot water supply apparatus 102, and hot water is supplied from the hot water supply apparatus 102. Hot water discharged from the hot water supply apparatus 102 is mixed with water by the mixing valve 103. Hot water mixed at an appropriate temperature is ejected from the mist generator 104 in a mist form.
JP 2005-342087 A

  However, in the conventional configuration, the opening degree of the mixing valve is not controlled by the flow rate downstream of the mixing valve. For this reason, the flow rate of the hot water downstream from the mixing valve changes depending on the use situation, and the balance of the pressure of the hot water discharged from the hot water storage tank and the pressure of the water supplied from the water supply source is disrupted. The temperature of the hot water discharged from the mixing valve fluctuates up and down from the set temperature, resulting in a phenomenon that the temperature of the hot water supplied to the hot water supply terminal or mist generator overshoots or undershoots. End up.

  The present invention solves the above-mentioned conventional problems, and can control hot water overshoot and undershoot in the mixing valve by controlling the mixing valve by the flow rate of hot water downstream from the mixing valve. An object is to provide a water heater.

In order to solve the above-mentioned conventional problems, a hot water storage type hot water heater of the present invention includes a hot water storage tank for storing hot water, a mist generating device for ejecting hot water in a mist form, a hot water supply terminal for supplying hot water in the hot water storage tank, A hot water pipe for discharging hot water from the top of the hot water storage tank, a water supply pipe for supplying water from a water supply source, a hot water mixing valve for connecting the hot water pipe and the water supply pipe to mix hot water, and the hot water supply terminal And a hot water pipe connecting the hot and cold mixing valve, a flow rate detecting means for detecting the flow rate of hot water flowing through the hot water pipe, and a control means for controlling the hot and cold water mixing valve. While supplying hot water to the mist generating device, the mode for controlling the driving speed of the hot water mixing valve is changed based on the value detected by the flow rate detecting means, and the flow rate detected by the flow rate detecting means is a predetermined value. The state that is Continuing constant time, by determining that the control means is abnormal, so selecting the drive speed of the mixing valve based on the downstream of the flow from the mixing valve can be controlled in optimum driving speed according to the situation, It is possible to prevent the overshoot phenomenon and the undershoot phenomenon from continuing for a long time. In addition, even if you forget to stop hot water at the mist generator or hot water supply terminal, you will be notified of the abnormality, so you can prevent wasteful consumption of hot water in the hot water storage tank and reduce wasteful water and energy consumption. be able to.

Further, the hot water storage type water heater of the present invention includes a hot water storage tank for storing hot water, a mist generating device for ejecting hot water in a mist form, a hot water supply terminal for supplying hot water in the hot water storage tank, and a temperature higher than the top of the hot water storage tank. A hot water pipe for discharging water, a water supply pipe for supplying water from a water supply source, a hot water mixing valve for connecting the hot water pipe and the water supply pipe to mix hot water, and connecting the hot water supply terminal and the hot water mixing valve A hot water supply pipe, a flow rate detection means for detecting the flow rate of hot water flowing through the hot water supply pipe, and a control means for controlling the hot water / water mixing valve, and branching from the hot water supply pipe to supply hot water to the mist generator At the same time, based on the value detected by the flow rate detection means, the hot water / water mixing valve is changed to a predetermined opening, and the state where the flow rate detected by the flow rate detection means is equal to or less than a predetermined value continues for a predetermined time. Then, the control means By determined to be abnormal, so to select an optimum degree and easy drive to suit the situation, it is possible to prevent the overshoot phenomenon and undershoot phenomenon long continues. In addition, even if you forget to stop hot water at the mist generator or hot water supply terminal, you will be notified of the abnormality, so you can prevent wasteful consumption of hot water in the hot water storage tank and reduce wasteful water and energy consumption. be able to.

  The present invention can provide a hot water storage type water heater capable of suppressing overshoot and undershoot of hot water temperature in a mixing valve by controlling the mixing valve according to the flow rate of hot water downstream from the mixing valve.

A hot water storage water heater according to a first aspect of the present invention includes a hot water storage tank for storing hot water, a mist generating device for ejecting hot water in a mist form, a hot water supply terminal for supplying hot water in the hot water storage tank, and a temperature higher than the top of the hot water storage tank. A hot water pipe for discharging water, a water supply pipe for supplying water from a water supply source, a hot water mixing valve for connecting the hot water pipe and the water supply pipe to mix hot water, and connecting the hot water supply terminal and the hot water mixing valve A hot water supply pipe, a flow rate detection means for detecting the flow rate of hot water flowing through the hot water supply pipe, and a control means for controlling the hot water / water mixing valve, and branching from the hot water supply pipe to supply hot water to the mist generator At the same time, based on the value detected by the flow rate detection means, the mode for controlling the driving speed of the hot and cold water mixing valve is changed , and the state where the flow rate detected by the flow rate detection means is below a predetermined value continues for a predetermined time. Then, the control By determining that stage is abnormal, it is possible to select the mode with the driving speed of the mixing valve according to the operating conditions, is possible to prevent the overshoot phenomenon and undershoot phenomenon long continues it can. In addition, even if you forget to stop hot water at the mist generator or hot water supply terminal, you will be notified of the abnormality, so you can prevent wasteful consumption of hot water in the hot water storage tank and reduce wasteful water and energy consumption. be able to.

  The hot water storage type water heater of the second invention, in the first invention in particular, comprises hot water temperature detecting means downstream of the hot water mixing valve and hot water temperature setting means for setting the temperature of hot water discharged from the hot water supply terminal, The mode for controlling the hot / cold water mixing valve has a plurality of stages based on the value detected by the hot water temperature detecting means and the value set by the hot water temperature setting means, so that the driving speed can be controlled more finely. It is possible to suppress the overshoot phenomenon and the undershoot phenomenon from continuing.

According to a third aspect of the present invention, there is provided a hot water storage water heater, a hot water storage tank for storing hot water, a mist generating device for ejecting hot water in a mist form, a hot water supply terminal for supplying hot water in the hot water storage tank, and a temperature higher than the top of the hot water storage tank. A hot water pipe for discharging water, a water supply pipe for supplying water from a water supply source, a hot water mixing valve for connecting the hot water pipe and the water supply pipe to mix hot water, and connecting the hot water supply terminal and the hot water mixing valve A hot water supply pipe, a flow rate detection means for detecting the flow rate of hot water flowing through the hot water supply pipe, and a control means for controlling the hot water / water mixing valve, and branching from the hot water supply pipe to supply hot water to the mist generator At the same time, based on the value detected by the flow rate detection means, the hot water / water mixing valve is changed to a predetermined opening, and the state where the flow rate detected by the flow rate detection means is equal to or less than a predetermined value continues for a predetermined time. Then, the control means By determining that a normally selects the opening degree of the mixing valve according to the operating conditions, it is possible to control so as to its opening, the overshoot phenomenon and undershoot phenomenon long continues Can be suppressed.

In addition, even if you forget to stop hot water at the mist generator or hot water supply terminal, you will be notified of the abnormality, so you can prevent wasteful consumption of hot water in the hot water storage tank and reduce wasteful water and energy consumption. be able to.

In the hot water storage water heater of the fourth invention, in particular in the first or third invention, the control means determines that the control means is abnormal, and controls the hot water mixing valve to fully open to the water side, thereby Only water is supplied to the generator or the hot water supply terminal, and the outflow of high-temperature water from the hot water storage tank can be prevented at the time of abnormality.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a configuration diagram of a hot water storage type water heater in the present embodiment. A solid line arrow indicates the flowing direction of hot water, and a dotted line arrow indicates communication. In FIG. 1, hot water heated by a heat pump or an electric heater is stored in a hot water storage tank 1. In this embodiment, heating is performed by the heat pump 2 and hot water is stored in the hot water storage tank 1. However, the present invention is not limited to this embodiment, and hot water in the hot water storage tank 1 is heated by an electric heater or the like. Also good.

  In the present embodiment, the heat pump 2 is configured by sequentially connecting a water-refrigerant heat exchanger 21, a compressor 22, an evaporator 24, and an expansion valve 23 in an annular manner through a refrigerant pipe, and carbon dioxide is used as the refrigerant. Since the high pressure side exceeds the critical pressure, the water flowing through the water-refrigerant heat exchanger 21 is deprived of heat and does not condense even if the temperature drops. It is easy to form a temperature difference between them and high temperature hot water can be obtained, and the heat exchange efficiency can be increased. In addition, since carbon dioxide, which is relatively inexpensive and stable, is used as the refrigerant, the product cost can be reduced and the reliability can be improved. In addition, carbon dioxide has an ozone depletion coefficient of zero and a global warming coefficient of about 1/700 of the alternative refrigerant HFC-407C, which is very small.

  Further, in the heat pump 2, the refrigerant is compressed by the compressor 22, the refrigerant discharged from the compressor 22 radiates heat by the water refrigerant heat exchanger 21, is decompressed by the expansion valve 23, and then is heated from the air by the evaporator 24. And is sucked into the compressor 22 again in a gas state. Note that the compressor capacity control and the opening degree control of the expansion valve 23 are performed so that the temperature of the discharge refrigerant detected by a thermistor (not shown) provided on the discharge side of the compressor 22 is maintained at a preset temperature. Controlled. The hot water in the hot water storage tank 1 flows into the water / refrigerant heat exchanger 21 by the operation of the water pump 25, exchanges heat with the refrigerant, returns to the hot water storage tank 1 again, and in the stacked state, Hot water is stored at the top.

  On the other hand, a hot water supply pipe 70 is connected to the lower part of the hot water storage tank 1 to supply hot water to the hot water supply terminal, bathtub, and mist generating device, and the hot water is supplied from the hot water discharge pipe 3 disposed above the hot water storage tank 1. The hot water is discharged and mixed with water at an appropriate temperature by the electric mixing valve 4 (bath hot water temperature control means) and the electric mixing valve 5 (hot water supply terminal hot water temperature control means). In the first embodiment, hot water mixed by the electric mixing valve 4 is supplied to the bathtub 7, and hot water mixed by the electric mixing valve 5 is supplied to the hot water supply terminal (faucet) 8 and the mist generator 9. In the present embodiment, the electric mixing valve is used. However, the output temperature may be made constant by using a wax thermo mixing valve.

Moreover, the return port 51 returned as high temperature hot water from the water refrigerant heat exchanger 21 to the hot water storage tank 1 is:
The hot water in the hot water storage tank 1 can be boiled up while supplying hot water to a portion other than the mist generating device or the mist generating device. In addition to the parts other than the mist generator from one heat source, hot water can easily be generated by supplying hot water to the mist generator. With this configuration, hot water is supplied to the mist generator. However, there is no worry about running out of hot water. Hereinafter, the structure of the hot water circuit to each apparatus is demonstrated.

  Between the bathtub 7 and the electric mixing valve 4, a two-way electromagnetic valve 41 (bath circuit blocking means) for stopping hot water supplied from the hot water storage tank 1 and a flow rate of hot water supplied to the bathtub 7 are detected. And a thermistor 43 (bath hot water temperature detecting means) for detecting the temperature of hot water supplied to the bathtub 7, and electric mixing based on the detected value of the thermistor 43. The valve 4 is controlled.

  Between the hot water supply terminal (faucet) 8 and the mist generator 9 and the electric mixing valve 5, a flow rate detection device 44 (hot water supply terminal flow rate detection means) for detecting the flow rate of hot water supplied from the hot water storage tank 1, A thermistor 45 (hot water supply terminal hot water temperature detecting means) for detecting the temperature of hot water supplied to the hot water supply terminal (faucet) 8 is provided, and the electric mixing valve 5 is controlled based on the detected value of the thermistor 45. Hot water is supplied to the mist generating device 9 through a pipe 72 branched from a hot water supply pipe 71 that supplies hot water to a hot water supply terminal (faucet) 8.

  Moreover, in this Embodiment, the mist communication means 11 which communicates the control means 31 which controls the mist generating apparatus 9, and the remote control 10, the control means 30 which controls the bathtub 7, and the bathtub communication means 12 which communicates with the remote control 10 And a hot water supply terminal communication means 13 for communicating the control means 30 for controlling the hot water supply terminal (faucet) 8 and the remote controller 10. In the present embodiment, the microcomputer (not shown) disposed in the remote controller 10 has the communication means of the mist communication means 11, the bathtub communication means 12, and the hot water supply terminal communication means 13 as a module. ing.

  Hereinafter, the hot water supply to the bathtub 7, the hot water supply terminal (faucet) 8, and the mist generator 9 will be described.

  The user sets a desired amount of hot water filling and hot water temperature to the bathtub with the remote controller 10 installed in the bathroom, and sets each set value from the remote controller 10 to the control means 30 for controlling the hot water filling to the bathtub. By transmitting through the bathtub communication means 12, automatic hot water filling to the bathtub can be performed.

  When it is desired to discharge hot water from the hot water supply terminal (faucet) 8, a desired hot water supply temperature is set by the remote controller 10, and the hot water terminal communication means 13 is set from the remote controller 10 to the control means 30 that controls the hot water temperature of the hot water supply terminal (faucet) 8. The hot water can be discharged from the hot water supply terminal (faucet) 8 by transmitting through.

  The mist generating device 9 is a device that ejects hot water supplied from the hot water storage tank 1 into the bathroom in a mist form, and can realize a sauna bath in the bathroom. The remote controller 10 is configured not only to start / stop the mist generating device 9 but also to set detailed settings (for example, air volume and temperature) of the mist generating operation, and the mist generating device 9 is controlled from the remote controller 10. The mist generating device can be operated by transmitting the information to the control means 31 through the mist communication means 11. As described above, the setting of the sauna bath varies greatly depending on the age, sex, etc., and it is very convenient for each person to switch to the desired setting with the remote controller 10.

In the present embodiment, a microcomputer is used for the control means 30 and the control means 31, and it is divided into a control means 30 for controlling the bathtub and the hot water supply terminal and a control means 31 for controlling the mist generating device. For example, as shown in FIG. 2, there is no problem even if each hot water supply device is controlled by one microcomputer 32 as shown in FIG. Further, since the remote controller 10 is configured to display information and generate sound in response to commands from the control means 30 and the control means 31, it is a remote control that is easy for the user to understand.

  Next, flow control during use of the mist generator 9 and the hot water supply terminal (faucet) 8 will be described.

  First, when starting the mist, the user presses a mist button provided on the remote controller 10 to start the mist operation. When the mist button is pressed, the control means 31 commands the mist generator 9 to eject hot water in a mist form. When the mist generating device 9 starts operation, the electric mixing valve 5 (hot water supply terminal hot water temperature control means) is controlled based on the detection value of the thermistor 45 (hot water supply terminal hot water temperature detection means), and the electric mixing valve 5 (hot water supply water supply). The opening degree of the terminal hot water temperature control means) is adjusted.

  On the other hand, when hot water is discharged from the hot water supply terminal (faucet) 8 as the hot water supply terminal (faucet) 8 is used, the thermistor 45 (the electric mixing valve 5 (hot water supply terminal hot water temperature) is based on the detection value of the hot water supply terminal hot water temperature detection means. Control means) is controlled to adjust the opening of the electric mixing valve 5 (hot water supply terminal hot water temperature control means).

  Further, when the hot water is discharged from both the hot water supply terminal (faucet) 8 and the mist generating device 9, in the present embodiment, the thermistor 45 (hot water supply terminal hot water temperature detecting means) is detected in accordance with the set temperature of the mist generating device 9. The electric mixing valve 5 (hot water supply terminal hot water temperature control means) is controlled based on the value, and the opening degree of the electric mixing valve 5 (hot water supply terminal hot water temperature control means) is adjusted. The hot water supply terminal (faucet) 8 is supplied with hot water at the set temperature of the mist generating device 9, but the hot water supply terminal (faucet) 8 can be mixed with water from a water supply source with a mixing plug so that a desired temperature can be obtained. After the temperature is reached, hot water is discharged from the hot water supply terminal 8.

  When the flow rate of hot water supplied to the hot water supply terminal 8 and the mist generating device 9 changes in the hot water storage water heater configured as described above, the pressure of hot water mixed in the electric mixing valve 5 and water The pressure balance is lost, and there is a difference between the temperature detected by the thermistor 45 and the temperature set by the remote controller 10. A phenomenon that exceeds the set temperature is called an overshoot phenomenon, and a phenomenon that falls below the set temperature is called an undershoot phenomenon. In the first place, the pressure of hot water supplied to the electric mixing valve 5 and the pressure of water from the water supply source are not the same. This happens because the balance is lost.

  Next, control of the opening degree of the electric mixing valve 5 will be described. In the present embodiment, hot water is sent only to the mist generating device 9 when the total of the flow rates detected by the flow rate sensor that is the flow rate detection device 44 (hot water supply terminal flow rate detection means) is less than 1 L / min. The mist control is performed. On the other hand, when the total of the flow rate detection devices 44 (hot water supply terminal flow rate detection means) detects 1 L / min or more, it is determined that hot water is supplied to the hot water supply terminal (faucet) 8 and hot water supply control is performed.

  FIG. 3 is a diagram showing the drive speed of the mixing valve based on the flow rate detected by the flow rate detection device 44. The temperature deviation in FIG. 3 is an absolute value of the set temperature of the hot water supply terminal set by the remote controller 10 and the temperature actually detected by the thermistor 45 (hot water supply terminal hot water temperature detecting means). When the temperature detected by the thermistor 45 is 35 ° C. at 40 ° C., the temperature deviation is 5 ° C. Also, PPS shown in FIG. 3 represents Pulse / Second, and indicates the driving speed per second.

As shown in FIG. 3, when the flow rate detected by the flow rate detection device 44 is less than 1 L / min, the flow rate is low, so it is determined that hot water is supplied only to the mist generator 9, and the low flow rate mode is set. Is selected, and a current temperature deviation is calculated, so that one stage is selected from a plurality of stages, and the electric mixing valve 5 is controlled at a corresponding driving speed.

  Further, when the flow rate detected by the flow rate detection device 44 is 1 L / min or more and less than 4 L / min, it is determined that hot water is supplied to the hot water supply terminal 8 and the middle flow rate mode is set. By selecting and further calculating the current temperature deviation, one stage is selected from a plurality of stages, and the electric mixing valve 5 is controlled at the corresponding driving speed.

  Further, even when the flow rate detected by the flow rate detection device 44 is 4 L / min or more, it is determined that hot water is supplied to the hot water supply terminal 8, the high flow rate mode is selected, and the current temperature deviation is calculated. One stage is selected from a plurality of stages, and the electric mixing valve 5 is controlled at the corresponding driving speed.

  That is, as shown in FIG. 3, the higher the flow rate, the shorter the time that is supplied to the user from the hot water storage tank 1, so the mixing valve must be operated at a higher drive speed than when the flow rate is low, In addition, the larger the temperature deviation, the faster the difference between the set temperature and the value detected by the thermistor 45 must be reduced. Therefore, the mixing valve is operated at a higher driving speed than when the temperature deviation is small. There is a need. The driving speed shown in FIG. 2 is a predetermined experimental value, and can be changed according to the situation.

  Further, when the flow rate detected by the flow rate detection device 44 is 1 L / min or less and is detected continuously for 60 minutes, it is determined that there is an abnormality and, for example, “water leakage occurrence abnormality” or “ By displaying “I forgot to close the faucet” or the like, the user can be alerted, and the user can be notified effectively by simultaneously generating a notification sound such as a buzzer. Further, in such a case, by controlling the opening degree of the electric mixing valve 5 to be fully opened to the water side, hot water from the hot water storage tank 1 can be prevented from being discharged. Can be prevented.

  As described above, by controlling the mixing valve at the driving speed corresponding to the flow rate, the duration of the overshoot phenomenon or the undershoot phenomenon can be minimized, and more comfortable temperature control can be performed.

(Embodiment 2)
FIG. 1 is a configuration diagram of a hot water storage type water heater in the present embodiment. In addition, the same code | symbol is attached | subjected about the part same as Embodiment 1, and the description is abbreviate | omitted. Further, the configuration of the hot water storage type water heater is also the same as that of the first embodiment, and thus the description thereof is omitted. Since the present embodiment is different from the first embodiment in the method for controlling the electric mixing valve 5, the method for controlling the electric mixing valve 5 will be described below.

  FIG. 4 is a diagram showing the mixing valve drive ratio based on the flow rate detected by the flow rate detection device 44. In FIG. 4, the high flow rate, the middle flow rate, and the low flow rate are based on the flow rate detected by the flow rate detection device 44. When the total flow rate is less than 1 L / min, the high flow rate and the total flow rate are 1 L. When the total flow rate is 10 L / min or more, the flow rate is low. In addition, it is not limited to this, You may set a flow volume suitably according to the specification of a hot water storage type water heater.

  As shown in FIG. 4, when the flow rate detected by the flow rate detection device 44 is less than 1 L / min, the flow rate is low, so it is determined that hot water is supplied only to the mist generating device 9 and the low flow rate mode is set. And the opening degree of the electric mixing valve 5 is controlled so that the mixing ratio of hot water is 90%.

  Further, when the flow rate detected by the flow rate detection device 44 is 1 L / min or more and less than 10 L / min, it is determined that hot water is supplied to the hot water supply terminal 8 and the medium flow rate mode is set. The opening degree of the electric mixing valve 5 is controlled so that the mixing ratio of hot water is 67%.

  Further, even when the flow rate detected by the flow rate detection device 44 is 10 L / min or more, it is determined that hot water is supplied to the hot water supply terminal 8, the high flow rate mode is selected, and the opening degree of the electric mixing valve 5 is set to hot water. The mixing ratio is controlled to be 54%.

  As described above, after the opening degree of the electric mixing valve 5 is driven to a preset opening degree based on the flow rate, the opening degree of the electric mixing valve 5 is adjusted based on the detection value of the thermistor 45.

  That is, without driving to a preset opening, the thermistor 45 is driven to a preset opening as compared to adjusting the opening of the electric mixing valve 5 based on the detection value of the thermistor 45. When the opening degree of the electric mixing valve 5 is adjusted based on the detected value of 45, the amount of adjustment for adjusting the electric mixing valve 5 based on the detected value of the thermistor 45 is reduced. Thus, the opening degree of the electric mixing valve 5 can be adjusted.

  In this way, by driving the electric mixing valve 5 to a preset opening degree based on the flow rate, it is possible to quickly adjust the temperature after being driven, and thus, overshoot phenomenon and undershoot phenomenon are achieved. Can be suppressed. Note that the preset opening shown in FIG. 4 is an experimental value and can be changed according to the situation.

  Further, when the flow rate detected by the flow rate detection device 44 is 1 L / min or less and is detected continuously for 60 minutes, it is determined that there is an abnormality and, for example, “water leakage occurrence abnormality” or “ By displaying “I forgot to close the faucet” or the like, the user can be alerted, and the user can be notified effectively by simultaneously generating a notification sound such as a buzzer. Further, in such a case, by controlling the opening degree of the electric mixing valve 5 to be fully opened to the water side, hot water from the hot water storage tank 1 can be prevented from being discharged. Can be prevented.

  As described above, by controlling the mixing valve at an opening degree corresponding to the flow rate, the duration of the overshoot phenomenon or the undershoot phenomenon can be minimized, and more comfortable temperature control can be performed.

  As described above, the present invention is not limited to a heat pump type hot water storage water heater, and a hot water storage type that supplies hot water from a single hot water storage tank to a plurality of hot water supply devices in any system such as electricity, gas, oil, and fuel cell. Can be used for water heaters.

Configuration diagram of hot water storage type water heater in embodiment 1 Configuration diagram of hot water storage type water heater in embodiment 1 The figure which showed the drive speed of each mode in Embodiment 1 The figure which showed the drive ratio of each mode in Embodiment 2. The block diagram of the mist generator in conventional embodiment

DESCRIPTION OF SYMBOLS 1 Hot water storage tank 2 Heat pump 3 Hot water pipe 4 Electric mixing valve 5 Electric mixing valve 7 Bathtub 8 Hot water supply terminal (faucet)
DESCRIPTION OF SYMBOLS 9 Mist generator 10 Remote control 11 Mist communication means 12 Bath communication means 13 Hot water terminal communication means 21 Water refrigerant heat exchanger 22 Compressor 23 Expansion valve 24 Evaporator 25 Water pump 30 Microcomputer (control means)
31 Microcomputer (control means)
41 Solenoid valve (bath circuit cutoff means)
42 Flow rate detection device (bath flow rate detection means)
43 Thermistor (Bath water temperature detection means)
44 Flow rate detection device (hot water supply terminal flow rate detection means)
45 thermistor (hot water supply terminal hot water temperature detection means)
51 Return

Claims (4)

From a hot water storage tank for storing hot water, a mist generating device for jetting hot water in a mist form, a hot water supply terminal for supplying hot water from the hot water storage tank, a hot water discharge pipe for discharging hot water from the top of the hot water storage tank, and a water supply source A hot water supply valve for connecting water, a hot water mixing valve for connecting hot water with the tap water pipe and the hot water supply pipe, a hot water supply pipe for connecting the hot water supply terminal and the hot water mixing valve, and the hot water pipe are circulated. A flow rate detecting means for detecting the flow rate of hot water and a control means for controlling the hot water / water mixing valve, a value branching from the hot water supply pipe to supply hot water to the mist generating device, and a value detected by the flow rate detecting means The control means determines that the control means is abnormal when the mode for controlling the drive speed of the hot and cold water mixing valve is changed and a state where the flow rate detected by the flow rate detection means is below a predetermined value continues for a predetermined time. this is Hot water storage type water heater according to claim. A hot water temperature detecting means and a hot water temperature setting means for setting the temperature of hot water discharged from the hot water supply terminal are provided downstream of the hot water mixing valve, and the mode for controlling the hot water mixing valve is detected by the hot water temperature detecting means. The hot water storage type water heater according to claim 1, comprising a plurality of stages based on a value and a value set by the hot water temperature setting means. From a hot water storage tank for storing hot water, a mist generating device for jetting hot water in a mist form, a hot water supply terminal for supplying hot water from the hot water storage tank, a hot water discharge pipe for discharging hot water from the top of the hot water storage tank, and a water supply source A hot water supply valve for connecting water, a hot water mixing valve for connecting hot water with the tap water pipe and the hot water supply pipe, a hot water supply pipe for connecting the hot water supply terminal and the hot water mixing valve, and the hot water pipe are circulated. A flow rate detecting means for detecting the flow rate of hot water and a control means for controlling the hot water / water mixing valve, a value branching from the hot water supply pipe to supply hot water to the mist generating device, and a value detected by the flow rate detecting means If the state in which the flow rate detected by the flow rate detection means is below a predetermined value continues for a predetermined time, the control means determines that the control means is abnormal. especially that Hot water storage type water heater to be. The hot water storage type water heater according to claim 1 or 3 , wherein the control means determines that the control means is abnormal and controls the hot and cold water mixing valve to fully open to the water side.

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