JP3841552B2 - Hot water supply device for bath - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention comprises a water heater having a heat exchanger that heats water from a water supply channel by combustion of a burner and supplies the water into a bathtub;
  Temperature setting means for setting a target temperature of hot water in the bathtub;
  Temperature detecting means for detecting the temperature of hot water in the bathtub;
  Command the appropriate temperature keeping operation to keep the temperature of the hot water in the bathtub at the target temperatureThermal switchWhen,
  A hot water supply control means for controlling the water heater,
  In the state where the appropriate temperature keeping operation is commanded, the hot water supply control means sets the temperature of the hot water in the bathtub based on the temperature detected by the temperature detection means and the target temperature set by the temperature setting means. The present invention relates to a hot water supply apparatus for a bath configured to execute additional hot water supply for supplying hot water from the water heater into the bathtub so as to achieve a target temperature.
[0002]
[Prior art]
In the hot water supply apparatus for baths as described above, in the state where the optimum temperature keeping operation is commanded by the optimum temperature command means, the temperature detected by the temperature detection means and the temperature setting means are set regardless of the presence or absence of hot water in the bathtub. Based on the set target temperature, the hot water supply is performed so that the temperature of the hot water in the bathtub becomes the target temperature.
[0003]
[Problems to be solved by the invention]
Therefore, in the conventional apparatus, for example, even when the bathtub plug is pulled out and there is no hot water of a predetermined level in the bathtub, the additional hot water supply is executed, and the hot water for additional heating is wasted. There was a fear.
[0004]
Therefore, the present invention has been made paying attention to such a point, and its purpose is to maintain the temperature of the hot water in the bathtub at the target temperature as much as possible while preventing the supply of useless hot water into the bathtub. It is in the point which provides the hot-water supply apparatus for baths which becomes possible.
[0005]
[Means for Solving the Problems]
In order to achieve this object, according to the first aspect of the present invention, there is provided hot water detection means for detecting whether or not hot water of a predetermined water level is present in the bathtub, and the hot water supply control means is operated at an appropriate temperature keeping operation. When the absence of hot water is detected by the hot water detection means in a state where execution of the hot water is instructed, the reheating hot water supply is not executed.
In other words, when there is no tap water in the bathtub and there is no hot water in the bathtub, the hot water supply is not performed to prevent unnecessary hot water from being supplied into the bathtub. When hot water of a predetermined water level is present, it is possible to carry out additional hot water supply and maintain the temperature of the hot water in the bathtub at the target temperature as much as possible.
[0006]
  Claim 1According to the invention described in the above, in the state where the hot water supply control means is instructed to execute the appropriate temperature keep operation, the absence of hot water is detected by the hot water detection means, and the execution of the reheating hot water supply is stopped. Sometimes, when the presence of hot water is detected by the hot water detection means, execution of reheating hot water supply is started.
  Therefore, even if the presence of hot water is mistakenly detected by the hot water detection means, when the presence of hot water is subsequently detected, the hot water supply starts to be performed, so there is hot water at a predetermined water level in the bathtub. In this case, it is possible to reliably carry out additional hot water supply and maintain the temperature of the hot water in the bathtub at the target temperature as much as possible.
[0007]
  Claim 1According to the invention described in, SettingIt is configured to detect whether hot water is present in the bathtub at regular time intervals, and when the hot water supply control means is instructed to perform an appropriate temperature keep operation, the hot water detection means continuously exceeds the set number of times. When the absence of hot water is detected, the follow-up hot water supply is stopped after that.
  Therefore, as described above, when hot water at a predetermined water level does not exist in the bathtub while preventing erroneous detection by the hot water detection means, the wasteful detection operation by the hot water detection means is avoided, and the hot water supply is performed. Can be stopped accurately.
[0008]
  Claim2According to the invention described inSet in the bathtubOn the thermistor placedEnergize selfIt is configured to detect whether hot water of a predetermined water level exists in the bathtub based on a change in the resistance value of the thermistor at that time by generating heat.
  ButThurmisIt is possible to reliably detect the temperature of the hot water in the bathtub and whether or not hot water of a predetermined water level is present in the bathtub by utilizing the fact that the resistance value of the heater changes with temperature.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
As shown in FIG. 1, this hot water supply apparatus for baths includes a fin tube type heat exchanger 3 for supplying water to the hot water supply path 2 while heating the water supplied from the water supply path 1, and the heat exchanger 3. A water heater A having a gas burner 4 and the like for heating is provided. The water supply channel 1 is provided with a water flow rate sensor 5 for detecting the water flow rate and a water inlet temperature thermistor 6 for detecting the water temperature. Is provided with a hot water temperature thermistor 7 for detecting the hot water temperature.
[0010]
The hot water supply passage 2 is connected to a hot water filling passage 9 for supplying hot water heated by the heat exchanger 3 to the bathtub 8 and filling the hot water, and the other end of the hot water supply passage 9 communicates with the bathtub 8. A bus adapter 10 is attached to the front face of the opening. And the bath temperature thermistor 23 which detects the temperature of the hot water in the bathtub 8 and detects whether the hot water of a predetermined water level exists in the bathtub 8 is provided inside the bus adapter 10. . That is, this bathtub temperature thermistor 23 is configured to serve as both temperature detection means and hot water detection means.
[0011]
In addition, the hot water supply path 2 is connected to a general hot water supply path 12 provided with a general hot water tap 11 such as a currant or a shower in a state where a part of the hot water supply path 9 is shared. A check valve 13, an electromagnetic water proportional valve 14, and a mixing thermistor 15 are provided from the upstream side at a shared portion of the hot water supply passage 9, and an interrupt sensor 16 is provided in the general hot water supply passage 12. The hot water filling passage 9 is provided with an electromagnetic hot water filling valve 17 and a vacuum breaker 18.
[0012]
A bypass path 19 connected to the water supply path 1 is connected to a location between the check valve 13 and the water proportional valve 14 in the common part of the general hot water supply path 12 and the hot water supply path 9. An electromagnetic mixing valve 20 is provided at a location.
Further, a reheating channel 21 is connected to the hot water supply channel 2, and the other end of the reheating channel 21 is downstream of the hot water filling valve 17 and upstream of the vacuum breaker 18. It is connected.
That is, a reheating channel 21 for supplying high-temperature hot water for reheating water supply is connected to the bathtub 8 in a state where a part of the hot water filling channel 9 is shared, and the reheating channel 21 has an electromagnetic type. A refill valve 22 is provided.
[0013]
The gas burner 4 is connected to a fuel gas supply path 24 for supplying fuel gas. The fuel gas supply path 24 is connected to an electromagnetic intermittent valve 25 for intermittently supplying the fuel gas, and an electromagnetic type with a governor. A proportional valve 26 and an electromagnetic safety valve 27 are also provided, and an igniter 28 for igniting the gas burner 4, a flame rod 29 for confirming ignition, and primary and secondary air for combustion to the gas burner 4. A fan 30 is also provided for supplying cooling air as well as supplying air.
[0014]
And such a hot water supply apparatus for baths is comprised so that the operation | movement may be controlled by the control part H as a hot water supply control means, and this control part H is comprised including the microcomputer M and its peripheral circuit, A main remote controller R1 that gives a control command to the control unit H and a bath remote controller R2 are connected wirelessly or by wire.
The main remote controller R1 is provided with an operation switch 31 for instructing start and stop of hot water supply, a hot water switch 32 for instructing hot water filling operation to the bathtub 8, a temperature setting switch 33 for setting a general hot water supply temperature, and the like. .
As shown in FIG. 2, the bath remote controller R2 includes an operation switch 34, a hot water switch 35, a hot water switch 36 for instructing hot water operation, a warm switch 37 for instructing warm operation, and a hot operation. There are provided a hot switch 38 for instructing, a heat retaining switch 39 as an appropriate temperature instruction means for instructing an appropriate temperature keeping operation, a temperature setting switch 40 as a temperature setting means for setting a hot water set temperature, and the like.
[0015]
The control unit H performs general hot water supply operation for supplying hot water to the hot water tap 11 and gas-liquid discrimination control for determining whether hot water is present in the bathtub 8 in accordance with a control command from the main remote controller R1 or the bath remote controller R2. Only when hot water of a predetermined water level is present in the bathtub 8, each operation other than the hot water operation is executed based on a control command from the main remote controller R <b> 1 or the bath remote controller R <b> 2.
In the state where the appropriate temperature keep operation is commanded, the gas-liquid discrimination control is executed every gas-liquid discrimination set time (for example, 1 minute), and only when hot water at a predetermined level exists in the bathtub 8. The hot water supply is executed, and when the absence of hot water is detected continuously for a set number of times (for example, three times) or more, the subsequent hot water supply is stopped.
[0016]
In this way, in the state where the appropriate temperature keeping operation is commanded, only when hot water of a predetermined water level exists in the bathtub 8, the hot water supply is performed to supply hot water into the bathtub 8. It is possible to maintain the temperature of the hot water in the bathtub 8 at the target temperature as much as possible while preventing the supply of useless hot water.
[0017]
Explaining the gas-liquid discrimination control, the bathtub temperature thermistor 23 is a variable resistance element whose electric resistance value changes with temperature, and determines whether or not hot water of a predetermined water level exists in the bathtub 8. Determine. That is, while supplying electric power for heating to the bath temperature thermistor 23 to self-heat, based on the variable resistance value due to the temperature change of the bath temperature thermistor 23, the ambient temperature is detected, After the solid temperature of the bathtub temperature thermistor 23 is raised to the set temperature and the power supply is stopped after maintaining the set temperature for the set time, the change of the individual temperature of the bathtub temperature thermistor 23 with the passage of time The state is measured, and based on the measurement result, it is configured to determine whether the bathtub temperature thermistor 23 is in liquid or gas, that is, whether hot water is present in the bathtub 8 or not. Yes.
[0018]
Specifically, as shown in FIG. 3, a power supply unit that intermittently supplies self-heating power from a heating DC power supply 200 (about 30 V) to the bathtub temperature thermistor 23 via the switching transistor 201. 202 and the resistance value of the bath temperature thermistor 23 (which varies depending on the temperature) in a state where the DC power supply for measurement 203 (about 5 V) lower than the voltage in the heating power is applied in a state where the self-heating power is not supplied. ) Is provided as an external circuit of the microcomputer M. The temperature detection circuit 204 for detecting the output voltage corresponding to the
[0019]
And in the microcomputer M, the region where the bathtub temperature thermistor 23 exists based on the output voltage, that is, the temperature detection unit 100 that detects the temperature inside the bathtub 8, based on the detection information of this temperature detection unit 100, The individual temperature of the bath temperature thermistor 23 is raised to the set temperature, and the constant temperature heating control is executed to maintain the set temperature for the set time, and the power supply by the constant temperature heating control is stopped when the set time elapses. Therefore, after the power supply by the power supply unit 202 that controls the power supply state by the power supply unit 202 and the constant temperature heating control is stopped, the temperature change that measures the change state of the individual temperature of the bathtub temperature thermistor 23 over time. Based on the measurement result of the measurement unit 102 and the temperature change measurement unit 102, the bathtub temperature thermistor 23 is in the liquid or in the gas. Each of the gas-liquid determination unit 103 for determining is provided with.
[0020]
The power supply unit 202 is configured to supply power from the heating DC power source 200 to the bathtub temperature thermistor 23 via a switching transistor 201 that is intermittently turned on / off based on a pulse signal from the control unit H. The heating power is changed and adjusted by changing and adjusting the duty ratio of the pulse signal. The switching circuit 205 is a circuit including a transistor with a protective resistor that is intermittently interrupted by a pulse signal from the microcomputer M.
[0021]
The temperature detection circuit 204 is provided with a load resistor 206 for supplying a current for detecting the resistance value of the bathtub temperature thermistor 23 from the measurement DC power source 203 at the time of temperature detection. The load resistor 206 and the bathtub temperature thermistor are provided. A protective resistor 207 and a protective diode 208 for protecting a high voltage from the heating DC power supply 200 from being applied to the input terminal N2 of the microcomputer M to which the measurement voltage at the connection point N1 is connected. , 209 are provided.
[0022]
That is, when the switching transistor 201 is ON, the electric power of the heating DC power supply 200 is supplied to the bathtub temperature thermistor 23, and at the same time, a high voltage is applied to the connection point N <b> 1. Two current paths are formed via the load resistor 206 and the protection resistor 207 and one of the protection diodes 208.
Since the forward resistance value of the protective diode 208 is sufficiently lower than that of the protective resistor 207 and a Schottky barrier diode having a low contact potential is used, the input terminal N2 for the microcomputer M has a potential close to about 5V. It is maintained and functions as a protection circuit. A noise removing capacitor 210 is also provided.
[0023]
When the switching transistor 201 is OFF, the output voltage divided by the load resistor 206 and the bath temperature thermistor 23 is output to the connection point N1. The diode 208 is in a reverse bias state, and only a minute current corresponding to the input leakage current at the input terminal N2 of the microcomputer M flows through the protection diode 208, so that the voltage levels at the connection point N1 and the input terminal N2 are substantially equal.
[0024]
The temperature detection unit 100 performs analog / digital (A / D) conversion of the voltage value of the input terminal N2 when temperature is detected (when the switching transistor 201 is OFF), and based on the converted voltage value. The bath temperature thermistor 23 is configured to calculate the individual temperature.
[0025]
The power control unit 101 is configured to output a control pulse signal having a fixed period for intermittently turning on / off the switching circuit 205, and to adjust the power supply amount from the power supply unit 202 to the bathtub temperature thermistor 23, Based on the detection information of the temperature detection unit 100, the solid temperature of the bath temperature thermistor 23 is raised to the heating target temperature (set temperature) and maintained at the set temperature for the set time (about 3 seconds). The power supply state by the power supply unit 202 is controlled so as to stop the power supply by the constant temperature heating control when the heating control is executed and the set time elapses.
Specifically, the constant temperature heating control is configured to be executed by feedback control of the duty ratio of the control pulse signal based on detection information of the temperature detection unit 100.
[0026]
The temperature change measurement unit 102 detects a change state of the individual temperature of the bath temperature thermistor 23 over time, specifically, the detection of the temperature detection unit 100 after the power supply by the constant temperature heating control is stopped. The detection value of the temperature detection unit 100 (individual temperature of the bathtub temperature thermistor 23) at the time when the set elapsed time (about 4 seconds) has elapsed from the time when the value becomes lower than the set temperature is configured to be measured.
[0027]
Further, the gas-liquid determination unit 103 is liquid if the detection information (the detection value of the temperature detection unit 100) detected by the temperature change measurement unit 102 is equal to or less than the gas-liquid determination threshold (there is hot water in the bathtub 8). If it exceeds the threshold value, it is determined that the gas is a gas (a state where no hot water is present in the bathtub 8).
[0028]
Next, the control operation of the control unit H will be described based on the flowcharts of FIGS.
First, in a state where the operation switch 31 of the main remote controller R1 or the operation switch 34 of the bath remote controller R2 is ON, the water flow amount sensor 5 detects the water flow to the heat exchanger 3 as the hot water tap 11 is opened. Then, when the general hot water supply operation is commanded, the general hot water supply mode is set (steps 1 and 2).
[0029]
In other words, the fan 30 is driven to rotate, the safety valve 27 is opened, the intermittent valve 25 is opened, the electromagnetic proportional valve 26 is set to the slow ignition position, and the ignition is performed by the igniter 28. 29 confirms ignition.
At that time, based on the detected water amount by the water flow sensor 5 and the detected water temperature by the incoming water temperature thermistor 6, the required gas amount is calculated from the set temperature by the temperature setting switch 33 of the main remote controller R1, and the opening of the electromagnetic proportional valve 26 is calculated. And the opening degree of the mixing valve 20 and the rotational speed of the fan 30 are also adjusted.
In this way, a part of the water from the water supply channel 1 is heated by the heat exchanger 3 and mixed with the water from the bypass channel 19 and discharged from the hot water tap 11, and further, the mixing thermistor 15. The detected temperature by the mixing thermistor 15 is set even if the gas burner 4 is burned to the maximum by finely adjusting the opening of the electromagnetic proportional valve 26 and the opening of the mixing valve 20 so that the temperature detected by If the temperature is insufficient, the water proportional valve 14 is throttled to control the set temperature.
[0030]
Further, when the operation switch 31 of the main remote control R1 or the operation switch 34 of the bath remote control R2 is turned on, the hot water switch 32 of the main remote control R1 or the hot water switch 35 of the bath remote control R2 is turned on. Then, the hot water filling mode is set and the hot water filling operation is executed (steps 3 and 4).
That is, the hot water filling valve 17 is opened, and the set temperature by the temperature setting switch 40 of the bath remote controller R1 is based on the detected water amount by the water flow rate sensor 5 and the detected water temperature by the incoming water temperature thermistor 6 as in the above-described general hot water supply mode. The required gas amount is calculated from the above, the opening degree of the electromagnetic proportional valve 26 is adjusted, and the opening degree of the electromagnetic proportional valve 26 is finely adjusted so that the temperature detected by the mixing thermistor 15 becomes the set temperature. Then, hot water of a set temperature is supplied into the bathtub 8 until the accumulated water amount of the water flow rate sensor 5 reaches the hot water setting hot water amount.
When the hot water tap 11 is opened during the hot water filling mode, the hot water filling valve 17 is closed based on the detection of the interrupt sensor 16, the above-mentioned general hot water supply is executed, and after the general hot water supply is finished, The tension is resumed.
[0031]
When the operation switch 31 of the main remote control R1 or the operation switch 34 of the bath remote control R2 is turned on, when the hot water switch 36 of the bath remote control R2 is turned on, the hot water mode is changed to the hot water mode. The operation is executed (steps 5 and 6).
That is, the above-described gas-liquid discrimination control is performed, and the hot water filling valve 17 is opened only when hot water of a predetermined water level exists in the bathtub 8, and the detected water amount by the water flow rate sensor 5 is the same as in the above-described general hot water supply mode. Based on the detected water temperature by the incoming water temperature thermistor 6, the necessary gas amount is calculated from the set temperature by the temperature setting switch 33 of the main remote controller R 1, the opening degree of the electromagnetic proportional valve 26 is adjusted, and the detection is performed by the mixing thermistor 15. The degree of opening of the electromagnetic proportional valve 26 is finely adjusted so that the temperature becomes the set temperature, the hot water at the set temperature is added to the bathtub 8, the accumulated water amount of the water flow rate sensor 5 is added, and the set hot water amount for hot water (for example, , 20 liters).
If the hot water tap 11 is opened during the hot water mode, the hot water filling valve 17 is closed based on the detection of the interrupt sensor 16, and the above-described general hot water supply is executed. Tashiyu operation resumes.
[0032]
Further, when the hot switch 38 of the bath remote controller R2 is turned on while the operation switch 31 of the main remote controller R1 or the operation switch 34 of the bath remote controller R2 is ON, the hot mode is entered and the hot operation is executed (step) 7, 8).
That is, the gas-liquid discrimination control described above is performed, and only when hot water of a predetermined water level exists in the bathtub 8, the reheating valve 22 is opened, and the temperature detected by the hot water supply temperature thermistor 7 is about 90 ° C. Based on the amount of water detected by the water flow sensor 5 and the water temperature detected by the incoming water temperature thermistor 6, the required gas amount is calculated, the opening of the electromagnetic proportional valve 26 is adjusted to adjust the rotational speed of the fan 30, and the hot water temperature thermistor The opening degree of the electromagnetic proportional valve 26 is finely adjusted based on the detected temperature by 7. Then, hot water of 90 ° C. is supplied into the bathtub 8 and when the detected temperature of the bathtub temperature thermistor 23 reaches the hot water filling set temperature by the temperature setting switch 40 of the bath remote controller R2, the hot water into the bathtub 8 is stopped.
When the hot water tap 11 is opened during the hot water mode, the hot water filling valve 17 is closed based on the detection of the interrupt sensor 16 and the above-mentioned general hot water supply is executed. Is resumed.
[0033]
Further, when the operation switch 31 of the main remote controller R1 or the operation switch 34 of the bath remote controller R2 is turned on, when the luke switch 37 of the bath remote controller R2 is turned on, the mode becomes the slimy mode and the slim operation is executed (step) 9, 10).
That is, the above-described gas-liquid discrimination control is performed, and only when hot water of a predetermined water level exists in the bathtub 8, the reheating valve 22 is opened, and the water from the water supply channel 1 is not heated by the heat exchanger 3. Water is supplied into the bathtub 8. And when the integrated water volume of the water flow rate sensor 5 reaches 10 liters, the supply of water into the bathtub 8 is stopped.
If the hot water tap 11 is opened during the warm mode, the hot water filling valve 17 is closed based on the detection of the interrupt sensor 16, the above-mentioned general hot water is executed, and the warm operation is performed after the general hot water is finished. Is resumed.
[0034]
When the operation switch 31 of the main remote controller R1 is turned on and the heat retention switch 39 of the bath remote control R2 is turned on, the heat retention mode is set and the appropriate temperature keep operation is executed (steps 11 and 12).
If it demonstrates based on the flowchart of FIG. 5, first, the absence of the hot water in the bathtub 8 will be continuously set number of times within the set time for heat retention (for example, 4 hours) after the heat retention switch 39 is turned ON. The gas-liquid discrimination control in which a set time for gas-liquid discrimination (for example, 1 minute) has elapsed since the previous execution of the gas-liquid discrimination control in a state where the temperature can be kept has not been detected (for example, three times). If it is a feasible timing, the self-heating control of the bathtub temperature thermistor 23 is executed (steps 21 to 23).
[0035]
That is, the temperature detection unit 100 sets the detected temperature at that time as the initial temperature To, and sets the temperature obtained by adding 40 ° C. to the initial temperature To as the heating target temperature Ts. Then, a holding time ts (set time) at the heating target temperature Ts is set, and a detection timer for measuring the set elapsed time is reset.
[0036]
Next, the power supply unit 202 supplies the set amount of heating power to the bathtub temperature thermistor 23 until the detection value Tx by the temperature detection unit 100 rises to the heating target temperature Ts. When the temperature detection value Tx exceeds the heating target temperature Ts, electric power is supplied so that the detection value Tx of the temperature detection unit 100 is maintained at the heating target temperature Ts until the holding time ts elapses from that point. The constant temperature heating control for adjusting the amount of power supplied to the unit 202 is executed, and when the holding time ts has elapsed and the temperature detection value Tx exceeds the heating target temperature Ts, heating to the bath temperature thermistor 23 is stopped. To do.
[0037]
In this way, when the self-heating control of the bathtub temperature thermistor 23 is completed, the solid temperature of the bathtub temperature thermistor 23 starts to decrease due to heat radiation, and the detection value Tx of the temperature detection unit 100 is detected from the time when it is lower than the heating target temperature Ts. If the detection value Tx of the temperature detection unit 100 is 3 ° C. higher than the initial temperature To when the detection elapsed time tm has elapsed after the detection timer has counted up and the set elapsed time tm has elapsed, “ It is determined that there is hot water, and if the detected value Tx of the temperature detector 100 is equal to or higher than the threshold temperature Tsh that is 3 ° C. higher than the initial temperature To, it is determined that there is no hot water (steps 24 and 25). Further, when the time for the detection value Tx of the temperature detection unit 100 to reach the threshold temperature Tsh is shorter than the set elapsed time tm, it is determined that “hot water is present”.
[0038]
That is, as shown in FIG. 6, if hot water of a predetermined water level is present in the bathtub 8, the heat dissipation amount of the bathtub temperature thermistor 23 becomes large and falls to a temperature lower than the threshold temperature Tsh. If there is no hot water of a predetermined water level in the bathtub 8 and only air, the amount of heat release is small, and the temperature becomes higher than the threshold temperature Tsh.
[0039]
If it is determined that there is no hot water, the detection of the absence of hot water is counted (step 26), and it is determined that there is hot water, and the temperature detected by the bathtub temperature thermistor 23 is equal to or less than the set temperature for starting reheating. If it is, the chasing control is executed (steps 27 and 28).
That is, the reheating valve 22 is opened, and the necessary gas amount is determined based on the detected water amount by the water flow rate sensor 5 and the detected water temperature by the incoming water temperature thermistor 6 so that the detected temperature by the hot water supply temperature thermistor 7 is about 90 ° C. It calculates and adjusts the opening degree of the electromagnetic proportional valve 26 to adjust the rotational speed of the fan 30, and finely adjusts the opening degree of the electromagnetic proportional valve 26 based on the temperature detected by the hot water supply temperature thermistor 7. And hot water of 90 degreeC is supplied in the bathtub 8, and when the detection temperature of the bathtub temperature thermistor 23 becomes hot water filling preset temperature with the temperature setting switch 40 of bath remote control R2, the hot water supply in the bathtub 8 will be stopped.
In addition, when the luke switch 37 or the hot switch 38 is turned on during the heat retention mode, the above-described luke operation or hot operation is preferentially executed.
[0042]
    [Another embodiment]
  the aboveIn the embodiment, the bathtub temperature thermistor 23 serves as both the temperature detection means and the hot water detection means, but may be provided separately.
  Further, when detecting whether or not hot water of a predetermined water level exists in the bathtub 8, the setting is made while the bathtub temperature thermistor 23 is raised to the set temperature and the set time elapses as in the above embodiment. After the power supply is stopped after maintaining the temperature, the detection is made based on the change state with the passage of time, but based on the rate of temperature rise when the bath temperature thermistor 23 is heated to the set temperature. It may be detected as long as it can detect whether hot water of a predetermined water level exists in the bathtub 8.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a hot water supply device for a bath.
[Fig. 2] Configuration of bath remote controller
FIG. 3 is a circuit diagram of a control unit.
FIG. 4 is a flowchart showing a control operation of a control unit.
FIG. 5 is a flowchart showing a control operation of the control unit.
[Fig. 6] Measurement data indicating temperature measurement state
[Explanation of symbols]
1 water supply channel
3 heat exchanger
4 Burner
8 Bathtub
23 Temperature detection means
23 Hot water detection means
39 Optimum temperature command means
40 Temperature setting means
A water heater
H Hot water supply control means

Claims (2)

A water heater having a heat exchanger that heats water from the water supply channel by burning the burner and supplies the water into the bathtub;
Temperature setting means for setting a target temperature of hot water in the bathtub;
Temperature detecting means for detecting the temperature of hot water in the bathtub;
A heat retention switch for instructing an appropriate temperature keeping operation for keeping the temperature of the hot water in the bathtub at the target temperature;
A hot water supply control means for controlling the water heater,
In the state where the appropriate temperature keeping operation is commanded, the hot water supply control means sets the temperature of the hot water in the bathtub based on the temperature detected by the temperature detection means and the target temperature set by the temperature setting means. A hot water supply apparatus for a bath configured to perform a reheating hot water supply for supplying hot water into the bathtub from the water heater so as to achieve a target temperature,
Hot water detection means for detecting whether hot water of a predetermined water level is present in the bathtub is provided,
The hot water control means is
It is configured to execute gas-liquid discrimination control for detecting whether hot water is present in the bathtub by the hot water detection means at every set time,
In the state where execution of the appropriate temperature keep operation is instructed, when the absence of hot water is detected by the gas-liquid discrimination control, the replenishment hot water supply is not executed, and the hot / cold water supply is performed by the gas-liquid discrimination control. When the presence of hot water is detected by the gas-liquid discrimination control when the absence of water is detected and the execution of the additional hot water supply is stopped, the execution of the additional hot water supply is started. As well as
In the state where execution of the appropriate temperature keep operation is instructed, when the absence of hot water is detected continuously by the gas-liquid discrimination control for a set number of times or more, the execution of the additional hot water supply is stopped thereafter. And the hot-water supply apparatus for baths comprised so that execution of the said gas-liquid discrimination | determination control may be stopped . The thermistor as the hot water detection means is provided in a state installed in the bathtub,
As the gas-liquid discrimination control, the hot water supply control means energizes the thermistor to self-heat, and based on the change in the resistance value of the thermistor, whether hot water of a predetermined water level exists in the bathtub. The hot water supply apparatus for a bath according to claim 1, which is configured to detect whether or not .

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