JP3743391B2 - Water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a built-in type hot water supply apparatus that is used by being incorporated into a kitchen system in a general household.
[0002]
[Prior art]
A conventional water heater will be described using an electric water heater. In the conventional electric water heater, as shown in FIG. 6, a container 41 for containing water, a heating means 42 for heating water, a hot water pipe 43 for introducing hot water in the container 41 to the upper part of the main body, and hot water in the container 41. In accordance with the temperature detected by the temperature detecting means 45, the temperature detecting means 45 for detecting the hot water temperature in the container 41, the display means 46 for indicating the state of the hot water in the container 41, and the temperature detecting means 45. And a control device 47 for controlling the means 42. In addition, the control device 47 provided a cleaning sequence for removing scales adhered in the container 41 using a citric acid solution.
[0003]
In this cleaning sequence using citric acid, the user starts supplying water into the container 41 and charging the citric acid solution to start the operation.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional configuration, it is necessary to supply water to the container in advance before the cleaning sequence is started.
[0005]
This invention solves the said conventional subject, and drives a water supply valve and aims at supplying water in a heating container automatically.
[0006]
[Means for Solving the Problems]
In order to solve the above-described conventional problems, the present invention provides a water supply system that supplies water from a water pipe to a heating container, and automatically supplies and drains water to the heating container during a cleaning sequence operation of the heating container. The troublesome operation is reduced.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
The invention according to claim 1 is a heating container having a heating means for heating water, a water supply valve for controlling water supply to the heating container, a pump for discharging water in the heating container from a hot water pipe , Hot water storage amount detecting means for detecting the amount of hot water stored in the heating container, and control means for performing a cleaning sequence for cleaning the heating container, the cleaning sequence including manual discharge for discharging water in the heating container from the hot water pipe. detergent hot water step 1, for the manual Haiyu step 1 detergent solution adding step to inject the detergent liquid from after the end of the hot water pipe, the heating vessel with water after heating temperature control to the heating vessel is washed with a detergent solution and a manual Haiyu step 2 for discharging the hot water of the liquid washing and the detergent solution mixed from the hot water pipe is manually operated, the heating container according to the driving of the manual Haiyu step 2 after completion of the previous SL water supply valve automatic water supply to said pump A water heater comprising an automatic rinsing process performed from the heating container by the drive automatic drainage to the hot water pipe.
[0008]
According to this configuration, in a cleaning sequence in which a detergent such as citric acid is introduced for cleaning, water is automatically supplied into the heating container by driving the water supply valve and water is discharged from the heating container by driving the pump. Thereby, a user's troublesome water supply operation | work and discharge operation | work can be reduced.
[0009]
The invention according to claim 2 is particularly the configuration according to claim 1, wherein the manual hot water discharge step 1 is performed when the temperature detected by the temperature detecting means for detecting the water temperature in the heating container is higher than a predetermined temperature, or When the heating means is stopped after the cleaning sequence is started or the heating output is reduced and within a predetermined time after the cleaning sequence is started, automatic driving of the pump is prohibited and the pump is manually driven to By discharging water from the hot water pipe , in the cleaning sequence with citric acid, when the detection temperature of the temperature detection means is higher than the predetermined temperature, or after the cleaning sequence starts, the heating operation by the heating means is stopped or the heating output is turned off. In the case where the temperature is lowered within a predetermined time, that is, when the temperature in the heating container seems to be high, automatic discharge of hot water can be prevented. When rushing, the hot water in the heating container can be discharged manually to prevent the hot water from being inadvertently discharged automatically.
[0010]
The invention according to claim 3 is particularly the configuration according to claim 1 or 2, wherein the automatic rinsing step is configured to perform automatic water supply to the heating vessel after completion of the manual hot water discharge step 2 and automatic drainage from the heating vessel to the hot water pipe. By performing it more than once, the smell of the cleaning agent such as citric acid can be hardly left in the hot water from the heating container.
[0011]
Invention of claim 4, with a structure according to any one of claims 1 to 3, detergent solution adding step, the detergent solution when it is detected that the detection of the hot water storage amount detection means has increased by a predetermined amount By determining that the charging has been performed and performing the next operation, it is determined that the cleaning liquid such as the citric acid solution has been input, and the automatic operation of the subsequent cleaning sequence can be started.
[0012]
The invention according to claim 5 is configured as described in claim 4, and the detergent liquid charging step performs notification when the predetermined amount does not increase even when the detection of the hot water storage amount detecting means has elapsed for a predetermined time. Thus, it is possible to prompt the user to input a detergent solution such as a citric acid solution. It is also possible to prevent forgetting to add the detergent solution.
[0013]
The invention according to claim 6 has the configuration according to any one of claims 1 to 5, and canceling means capable of canceling the cleaning sequence and returning to the operation before shifting to the cleaning sequence. And a display means for indicating that the detergent liquid is being put in, and if the display means indicates that the detergent liquid is being put in, the cleaning sequence cannot be canceled. By using this, it is possible to stop the use of water that may have been charged with a detergent solution such as a citric acid solution.
[0014]
The invention described in claim 7 has the configuration described in claim 6, and the manual hot water discharging step 1 is shifted to the cleaning sequence, and when the water remaining in the heating container is discharged from the hot water pipe. In the case where the hot water storage amount detecting means detects a water amount of a predetermined amount or more, the cleaning sequence can be canceled and the operation before the transition to the cleaning sequence can be resumed. When the amount of water detected is less than the predetermined amount, the cleaning sequence cannot be cancelled, thereby stopping the use of water that may have been charged with a cleaning solution such as citric acid solution. be able to.
[0015]
【Example】
Embodiments of the present invention will be described below with reference to FIGS. In FIG. 1, 1 is a water pipe, 2 is a branch plug, 3 is a stop cock. Reference numeral 4 denotes a heating unit of a hot water supply apparatus housed in the kitchen unit 5, and there is a heating container 6 for putting water therein.
[0016]
The connection pipe 7 branched from the water pipe 1 by the branch plug 2 is attached to the entrance of the water purification cartridge 9 via the water supply valve 8. A switching valve 10 is connected to the outlet of the water purification cartridge 9. One of the switching valves 10 (when the switching valve is driven) is connected to the upper portion of the heating container 6. A main heater 11 that heats water, an auxiliary heater 12 that retains the heated water, and a thermistor 13 that detects the water temperature in the heating container 6 are attached to the bottom of the heating container 6.
[0017]
A pump 14 for discharging the hot water inside the kitchen unit 5 is attached to the lower portion of the hot water outlet in the heating container 6. Further, a water level electrode 15 for detecting the amount of stored hot water is attached in the heating container 6. The water level electrode 15 is attached so that 0.1, 0.3, 0.6, 0.9, and 1.2 liters can be detected according to the amount of hot water that can be taken out from the heating container 6.
[0018]
Note that the pipe from the pump 14 into the heating container 6 protrudes slightly from the bottom surface in the heating container 6, and 0.3 liters remain in the heating container 6 even if the pump 14 is continuously driven. . With this configuration, the supplied low-temperature water stays on the bottom surface in the heating container 6 and is not discharged to the outside even when the pump 14 is driven. Reference numeral 16 denotes a water supply buffer that stores the water supplied to the heating container 6 and slowly replenishes the heating container 6 with water. Even if water supply is performed by the water supply buffer 16, the hot water temperature in the heating container 6 is not lowered so much.
[0019]
17 is a faucet provided in the upper part of the kitchen unit 5, and a hot water pipe 18 for introducing hot water in the heating container 6 and a water pipe branched by the switching valve 10 (when the switching valve is stopped). 19 and a steam pipe 20 communicating with the upper portion of the heating container 6 are housed. These pipes 18 to 20 and the water tap 1a are located facing the kitchen sink 5a. Reference numeral 21 denotes a display operation unit, which is provided on the outer surface of the faucet 17. Control means 23 includes a microcomputer for controlling the water supply valve 8 and the switching valve 10, the main heater 11, the auxiliary heater 12, the pump 14, and the display operation unit 21 based on the inputs of the thermistor 13, the water level electrode 15, and the display operation unit 21. It is.
[0020]
FIG. 2 shows the display operation unit 21 of this embodiment, and FIG. 3 shows a partial electric circuit diagram including the display operation unit 21 and pump 14 of this embodiment.
[0021]
When the water purification button switch 21a is pressed, the water supply valve 8 is driven. When the water supply valve 8 is driven, the water from the water pipe 1 passes through the water purification cartridge 9 and the switching valve 10 is stopped. When the water purification button switch 21a is pushed again, the water supply valve 8 stops and the water from the water pipe 19 stops.
[0022]
When the lock release button switch 21b is pressed, the lock release LED 21e is turned on and the semiconductor switch 23b is driven so that the hot water can be discharged. If the hot water release button switch 21c is continuously pressed within 10 seconds after the lock release button switch 21b is pressed, the pump 14 is driven only while the hot water release button switch 21c is being pressed, and the water in the heating container 6 is discharged from the hot water pipe 18. To do.
[0023]
Moreover, the hot water button switch 21c is a micro switch, and has a specification that allows a current for driving the pump 14 to flow. When the hand is released from the hot water button switch 21c that is being pressed, the pump 14 stops and the hot water from the hot water vip 18 stops. After 10 seconds, the lock release LED 21c is turned off, and the hot water cannot be discharged. Further, the hot water amount 1 LED 21 f, the hot water amount 2 LED 21 g, and the hot water amount 3 LED 21 h change according to the detection of the water level electrode 15.
[0024]
The cleaning switch 21d is a push switch for keeping the state, and is a switch for moving a dedicated cleaning sequence using citric acid. A dedicated washing sequence with citric acid will be described in detail later. When the cleaning switch 21d is switched on, the pump 14 can be operated by driving only the semiconductor switch 23b.
[0025]
Further, since the water in the heating container is discharged when the pump 14 is driven, in the normal state, the hot water is discharged only when the hot water button switch 21c is pressed, and the semiconductor switch 23b is broken and short-circuited. Even if it becomes, it becomes the structure which does not discharge, unless the hot water button switch 21c is pushed. Therefore, in this configuration, since the pump 14 cannot be driven only by the microcomputer 23a, a push switch for keeping the cleaning switch 21d is provided. Only when the dedicated cleaning sequence using citric acid is operated, the pump 14 can be driven only by the microcomputer 23a. That is, automatic discharge becomes possible.
[0026]
The operation in the above embodiment will be described with reference to FIGS. When the power is turned on, the switching valve 10 and the water supply valve 8 are driven. After driving, the water passes through the water purification cartridge 9 from the water pipe 1 and then is supplied into the heating container 6 by the switching valve 10. When the detected amount of the water level electrode 15 reaches 0.3 liter, the water supply valve 8 and the switching valve 10 are stopped and the water supply into the heating container 6 is stopped. Thereafter, the main heater 11 and the auxiliary heater 12 are driven to heat the water in the heating container 6.
[0027]
In this state, the hot water temperature in the heating container 6 is low, and the hot water amount 1 LED 21f is blinking to indicate that the user is in a hot water prohibition state. Further, in this state, even if the lock release button switch 21b is pressed, the hot water is not ready. Thereafter, when the detected temperature of the thermistor 13 reaches 95 ° C. or higher, the switching valve 10 and the water supply valve 8 are driven again for 5 seconds to supply a small amount of water into the heating container 6. From here, the hot water amount 1 LED 21 f is switched to a lighting display. Further, when the lock release button switch 21b is pressed, the hot water can be discharged. Thereafter, the detection temperature of the thermistor 13 is slightly lowered by the water supply operation. After that, when the detection temperature of the thermistor 13 reaches 93 ° C. or more, the switching valve 10 and the water supply valve 8 are driven again for 5 seconds to enter the heating container 6. Supply a small amount of water. These operations are repeated until the detected amount of the water level electrode 15 reaches 1.2 liters or more. This operation is called a hot water heating operation. Thereafter, when the detection amount of the water level electrode 15 detects 1.2 liters or more, the main heater 11 and the auxiliary heater 12 are stopped.
[0028]
When the temperature detected by the thermistor 13 is less than 92 ° C., the auxiliary heater 12 is driven to keep the hot water in the heating container 6 at a high temperature. This operation is called a heat retaining operation.
[0029]
The operation of a dedicated cleaning sequence using citric acid will be described with reference to FIGS. Here, when the cleaning switch 21d is switched on, the process shifts to the manual hot water discharging step 1 shown in FIG. The hot water amount 1 LED 21 f, the hot water amount 2 LED 21 g, the hot water amount 3 LED 21 h, and the citric acid cleaning LED 21 i are switched to blinking display, and the user confirms that the process has shifted to a dedicated cleaning sequence using citric acid.
[0030]
Further, since the hot water amount 1 LED 21 f, the hot water amount 2 LED 21 g, and the hot water amount 3 LED 21 h are displayed blinking, the user presses the lock release button switch 21 b to make the hot water available, and then presses the hot water button switch 21 c to remain in the heating container 6. Discharge hot water manually.
[0031]
Further, although the cleaning switch 21d is turned on, even when the lock release button switch 21b is pressed, only the lock release LED 21e is lit and the semiconductor switch 23b is not driven. When the hot water button switch 21c is pressed, the semiconductor switch 23b is driven and the pump 14 is also driven. Since the hot water temperature in the heating container 6 is high, it is discharged by such a manual discharge operation.
[0032]
Furthermore, when the detected amount of the water level electrode 15 detects 0.1 liter, the process proceeds to the next citric acid solution charging step. Note that if the washing switch 21d is turned off before the detection amount of the water level electrode 15 detects 0.1 liter, the warming operation and the hot water heating operation are restored, but the detection amount of the water level electrode 15 is 0.1 liter. After detecting this, even if the washing switch 21d is switched off, the warming operation and the hot water supply boiling operation are not restored.
[0033]
In this state, the buzzer notification is continued and the user is notified to switch the cleaning switch 21d to the on state. This is because there is a possibility that the citric acid solution has been thrown in, and if it returns to the warming operation or hot water heating operation as it is, there is a risk of using the hot water containing the citric acid solution so that it cannot be restored. Yes.
[0034]
Next, the process proceeds to the citric acid solution charging step of FIG. The hot water volume 3 LED 21 h is turned off, and the hot water volume 1 LED 21 f, the hot water volume 2 LED 21 g, and the citric acid cleaning LED 21 i continue to blink. Therefore, the user inputs the citric acid solution from the tap outlet of the hot water pipe 18. When the detected amount of the water level electrode 15 detects 0.6 liter, the process proceeds to the next citric acid cleaning step.
[0035]
In addition, when 0.6 liter is not detected even if the detection amount of this water level electrode 15 passes for 5 minutes, it alert | reports to a user with a buzzer. Further, when 0.6 liter is not detected after 10 minutes, the process moves to the next citric acid cleaning step.
[0036]
Next, the process proceeds to the citric acid washing step of FIG. Then, the hot water amount 1 LED 21 f and the hot water amount 2 LED 21 g are switched to the lighting display, and the citric acid cleaning LED 21 i continues to blink. The switching valve 10 and the water supply valve 8 are driven to supply water into the heating container 6 until the detection amount of the water level electrode 15 detects 1.2 liters. Thereafter, the main heater 11 and the auxiliary heater 12 are driven to heat the water in the heating container 6. When the detected temperature of the thermistor 13 detects 95 ° C., the main heater 11 is stopped. After that, for 1 hour, the temperature of the auxiliary heater 12 is controlled, and then the manual hot water discharge process 2 is performed. The temperature adjustment operation of the auxiliary heater 12 is an operation of driving the auxiliary heater 12 when the temperature detected by the thermistor 13 is less than 95 ° C. and stopping the auxiliary heater 12 when detecting the temperature above 95 ° C. The temperature adjustment operation of the auxiliary heater 12 causes convection of the citric acid solution in the heating container 6 and removes calcium, metal ions, and the like attached to the heating container 6.
[0037]
Next, the process proceeds to the manual hot water discharging step 2 in FIG. Then, the remaining amount 2 LED 21 g is turned off, and the remaining amount 1 LED 21 f is switched to blinking display. The citric acid cleaning LED 21i continues to blink. The hot water mixed with citric acid remaining in the heating container 6 is manually discharged. Similarly, the cleaning switch 21d is switched on, but even if the lock release button switch 21b is pressed, only the lock release LED 21e is lit and the semiconductor switch 23b is not driven. When the hot water button switch 21c is pressed, the semiconductor switch 23b is driven and the pump 14 is also driven. Since the hot water temperature in the heating container 6 is high, it is discharged by such a manual discharge operation. Further, when the detected amount of the water level electrode 15 detects 0.1 liter, the process proceeds to the next automatic rinsing process.
[0038]
Next, the process proceeds to the automatic rinsing process of FIG. The remaining amount 1 LED 21 f is switched to a lighting display, and the citric acid cleaning LED 21 i continues to blink. The switching valve 10 and the water supply valve 8 are driven to supply water into the heating container 6 until the detection amount of the water level electrode 15 detects 1.2 liters. Thereafter, the lock release LED 21f is turned on, the semiconductor switch 23b is driven, and the pump 14 is driven automatically. When the detection amount of the water level electrode 15 detects 0.1 liter, the switching valve 10 and the water supply valve 8 are driven again to supply water into the heating container 6 until the detection amount of the water level electrode 15 detects 1.2 liter. I do. These water supply and discharge are repeated four times, and the citric acid solution remaining in the heating container 6 is diluted. This is because 0.3 liter of hot water remains in the heating vessel 6 even when the pump 14 is driven, and 1.2 liters of water and 1.2 liters of water are discharged. About 0.16% (= 0.3 / (1.2 + 0.3) × 0.3 / (1.2 + 0.3) × 0.3 / (1.2 + 0.3) × 0. 3 / (1.2 + 0.3) × 100), and no odor remains. Thereafter, the switching valve 10 and the water supply valve 8 are driven to supply water until the detected amount of the water level electrode 15 detects 0.6 liter, and then the main heater 11 and the auxiliary heater 12 are driven, Heat the water. When the detected temperature of the thermistor 13 becomes higher than 91 ° C., the process proceeds to the end step.
[0039]
Finally, the process proceeds to the end step shown in FIG. Buzzer notification and slow blinking display of only the citric acid cleaning LED 21i are switched to notify the end of the dedicated cleaning sequence with citric acid. The user ends the cleaning sequence by switching the cleaning switch 21d to the off side.
[0040]
As described above, the control unit 23 for executing the cleaning sequence for cleaning the heating container 6 is provided, and the cleaning sequence automatically drives the water supply valve 8 and the pump 14 based on the detection result of the water level electrode 15 (hot water storage amount detection unit). Then, the step of cleaning the inside of the heating container 6 includes the supply of water into the heating container 6 by the driving of the water supply valve 8 and the pump 14 in the cleaning sequence in which a detergent such as citric acid is supplied for cleaning. By automatically discharging the water in the heating container 6 by driving, troublesome water supply work and discharge work of the user can be reduced.
[0041]
In the present embodiment, the temperature of the hot water in the heating container 6 is previously determined at the time of shifting to the citric acid cleaning and after the end of the citric acid cleaning process. Therefore, it is possible to determine (estimate) that the hot water is high, so that there is little possibility of hot water being inadvertently discharged. Further, when the temperature detected by the thermistor 13 is equal to or higher than a predetermined temperature (for example, 60 ° C.), if the hot water is drained, that is, the automatic driving of the pump 14 is prohibited and the pump 14 is driven manually. If the process of discharging the water in the heating container 6 is included, automatic discharge of high-temperature hot water can be similarly prevented, and automatic discharge can be performed when the water reaches a low temperature. In a hurry, the hot water in the heating container 6 can be discharged manually to prevent the hot water from being inadvertently discharged automatically.
[0042]
When the heating by the main heater 11 (heating means) and the auxiliary heater 12 (heating means) is stopped or the heating output is reduced (for example, only the auxiliary heater 12 is operated) after the cleaning sequence starts, the temperature gradually increases. Therefore, the hot water in the heating container 6 may be discharged by manual operation within a predetermined time after the start of the cleaning sequence.
[0043]
Further, the cleaning sequence includes a step of supplying a citric acid solution (cleaning solution) after completion of the step of discharging water in the heating container 6 and a step of discharging the cleaning solution, and the heating container after completion of the step of discharging the detergent solution. By providing the rinsing process of performing automatic water supply and automatic drainage to the water 6 twice or more, it is possible to make it difficult for the smell of the cleaning agent such as citric acid to remain in the hot water from the heating container 6.
[0044]
In the step of supplying the cleaning liquid, when it is detected that the detection of the water level electrode 15 (hot water storage amount detecting means) has increased by a predetermined amount, it is determined that the cleaning liquid has been input, and the citric acid of the cleaning sequence with citric acid performing the next operation By detecting an increase in the amount of hot water stored in the heating container 6 when waiting for the addition of the liquid, it can be determined that the cleaning liquid such as citric acid liquid has been input, and the automatic operation of the subsequent cleaning sequence can be started.
[0045]
Further, in the washing sequence, when the amount of water detected by the water level electrode 15 (hot water storage amount detection means) does not increase even after a predetermined time in the step of supplying the cleaning liquid, a notification is given to the user. It is possible to promote the introduction of a detergent solution such as an acid solution. It is also possible to prevent forgetting to add the detergent solution.
[0046]
In addition, the cleaning switch 21d (cancelling means) that can cancel the cleaning sequence and return to the operation before the transition to the cleaning sequence, and the citric acid cleaning LED 21i (display means) for displaying that the cleaning liquid is being supplied ), And a message indicating that the cleaning liquid is supplied by the citric acid cleaning LED 21i is displayed, the cleaning sequence cannot be canceled, and the citric acid liquid is supplied. Can stop the use of water that may have been lost.
[0047]
In addition, when the water level detection means 15 (hot water storage amount detection means) detects a water amount of a predetermined amount or more when the remaining water in the heating container 6 is discharged after shifting to the cleaning sequence, Although the washing sequence can be canceled and the operation before returning to the washing sequence can be restored, the washing sequence is detected when the water level detection means 15 (hot water storage amount detection means) detects a water amount less than a predetermined amount. By making it impossible to cancel the water, it is possible to stop the use of water that may have been charged with the citric acid solution.
[0048]
In addition, although the rinsing operation after the manual draining process 2 is performed four times, this is the number of times required to dilute 0.3 liters of citric acid solution that cannot be discharged, so this number of times depends on the amount of water that cannot be discharged. Can be changed. Moreover, although the washing | cleaning liquid injection | throwing-in waiting time is set to 5 minutes and 10 minutes, it is not limited to these numerical values.
[0049]
【The invention's effect】
As described above, according to the present invention, it is possible to provide a hot water supply device that can perform a safe cleaning that is convenient for the user using a detergent solution such as citric acid.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a hot water supply apparatus according to an embodiment of the present invention. FIG. 2 is a plan view of a display operation unit of the hot water supply apparatus according to an embodiment of the present invention. [FIG. 4] (a) The figure which shows the display state of the display operation part at the time of the washing | cleaning sequence shift of the hot water supply apparatus in the Example of this invention (b) The citric-acid solution injection | throwing-in process of the hot water supply apparatus in the Example of this invention The figure which shows the display state of the display operation part at the time of transfer (c) The figure which shows the display state of the display operation part at the time of the citric acid washing process transition of the hot water supply apparatus in the Example of this invention The figure which shows the display state of the display operation part at the time of the manual drainage process transfer of the hot water supply apparatus in the Example of (b) The figure which shows the display state of the display operation part at the time of automatic rinse process transfer of the hot water supply apparatus in the Example of this invention. c) Hot water supply in the embodiment of the present invention Partial cross-sectional view showing a water circuit of Figure 6 conventional electric water heater showing the display state of the display operation unit at the end step transition location EXPLANATION OF REFERENCE NUMERALS
DESCRIPTION OF SYMBOLS 1 Water pipe 4 Heating unit 6 Heating container 8 Water supply valve 10 Switching valve 11 Main heater 12 Auxiliary heater 13 Thermistor 14 Pump 15 Water level electrode 21 Display operation part 23 Control means

Claims (7)

A heating container having a heating means for heating water, a water supply valve for controlling water supply to the heating container, a pump for discharging water in the heating container from a hot water pipe, and hot water storage for detecting the amount of hot water stored in the heating container A quantity detecting means and a control means for performing a washing sequence for washing the heating container, wherein the washing sequence discharges water in the heating container from the hot water pipe 1 and the manual hot water discharging process. 1. After the completion of the process, a detergent liquid charging process for supplying a detergent liquid from the hot water pipe , a detergent liquid cleaning process for adjusting the heating temperature after supplying water into the heating container and cleaning the inside of the heating container with the detergent liquid, and mixing of the detergent liquid and a manual Haiyu step 2 to be discharged from the hot water pipe water manually operated, the manual Haiyu after step 2 completion, before SL automatic water with the driving of the pump to the heating vessel by driving the water supply valve By the heating container Water heater comprising an automatic rinsing process for automatic drainage to et the hot water pipe. The manual hot water discharge step 1 is performed when the temperature detected by the temperature detecting means for detecting the water temperature in the heating container is higher than a predetermined temperature, or after the cleaning sequence starts, the heating means stops heating or reduces the heating output and the cleaning sequence If within the start after a predetermined period of time, the water heater of prohibited automatically driven manually by driving the pump become so as to discharge the water in the heating vessel from the hot water pipe according to claim 1, wherein the pump. Automatic rinsing step, water heater according the automatic water supply and the heating vessel to claim 1 or 2 automatic drainage to the hot water pipe to perform twice or more formed by a Manual Haiyu step 2 after completion of the heating vessel. The hot water supply according to any one of claims 1 to 3, wherein in the detergent liquid charging step , when the detection of the hot water storage amount detection means detects that the predetermined amount has increased, it is determined that the cleaning liquid has been charged and the next operation is performed. apparatus. The hot water supply apparatus according to claim 4, wherein the detergent liquid charging step performs notification when the amount of water detected by the hot water storage amount detection means does not increase by a predetermined amount even after a predetermined time has elapsed. Cancel the cleaning sequence, the has a canceling means which can return to the previous operation for shifting the cleaning sequence, and display means for displaying that in the detergent solution adding step, the detergent liquid by the display means The hot water supply apparatus according to any one of claims 1 to 5, wherein the cleaning sequence cannot be canceled when an indication that the charging process is in progress is made. When the manual hot water discharge step 1 moves to the cleaning sequence and the remaining water in the heating container is discharged from the hot water pipe , the hot water storage amount detection means detects a water amount of a predetermined amount or more. The cleaning sequence can be canceled to return to the operation before the transition to the cleaning sequence. However, when the hot water storage amount detecting means detects a water amount less than a predetermined amount, the cleaning sequence is The hot water supply device according to claim 6, wherein the hot water supply device cannot be canceled.

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