JP3855328B2 - Water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an instantaneous hot water supply apparatus capable of supplying hot water early at the start of hot water supply.
[0002]
[Prior art]
Conventionally, this type of hot water supply apparatus has been shown in FIG. 4 (for example, Japanese Patent Publication No. 4-9972).
[0003]
Oite in the drawing, 1 is the instantaneous water heater, hot water supply port 2 and the instantaneous water heater 1 are connected by the hot water supply pipe 3. A hot water supply valve 4 is provided in front of the hot water supply port 2, a drain pipe 5 is branched from the upstream side of the hot water supply valve 4 of the hot water supply pipe 3, and a drain valve 6 is provided in the drain pipe 5. .
[0004]
Further, a temperature detection unit 7 is provided at a branch portion of the drain pipe 5 from the hot water supply pipe 3, and the hot water supply control unit 9 compares the set temperature of the temperature setting device 8 with the temperature of the temperature detection unit 7. The valve 4 and the drain valve 6 are controlled.
[0005]
And when the temperature of the hot water detected by the temperature detector 7 at the time of the hot water supply request is within the allowable range of the set temperature of the temperature setter 8, the hot water valve 4 is opened and hot water in the hot water supply pipe 3 is supplied to the hot water supply port 2. When the temperature is outside the allowable range, the drain valve 6 is opened, the hot water in the hot water supply pipe 3 is discarded from the drain through the drain pipe 5, and hot water having a temperature within the allowable range is always supplied from the hot water supply 2.
[0006]
[Problems to be solved by the invention]
However, in the conventional hot water supply apparatus as described above, it is necessary to install the hot water supply valve 4, the drain pipe 5, the drain valve 6, the temperature detection unit 7, etc. by performing piping work or wiring work on site, which is difficult to install. In addition, there is a problem that members such as a hot water supply valve 4, a drain pipe 5, a drain valve 6, and a temperature detection unit 7 which are not necessary in a normal hot water supply apparatus are required.
[0007]
In addition, when the temperature of hot water is outside the allowable range at the time of requesting hot water, the drain valve 6 is opened and the hot water in the hot water supply pipe 3 is thrown away from the drain, so the time until hot water is supplied from the hot water outlet 2 is greatly increased. It had the problem that it could not be improved.
[0008]
This invention solves the above-mentioned subject, and provides the hot water supply apparatus which can supply hot water early at the time of the start of hot water supply by improvement of hot water supply apparatus itself.
[0009]
[Means for Solving the Problems]
The present invention solves the above-described problems, a heat exchanger connected to a water supply pipe and a hot water supply pipe, a heating means for heating the heat exchanger, and a heating adjustment means for adjusting the heating amount of the heating means. Intermediate temperature detecting means for detecting the temperature of hot water in the middle of the heat exchanger, outlet temperature detecting means for detecting the temperature of the outlet of the heat exchanger, and hot water for setting the temperature of hot water that has passed through the heat exchanger A temperature setting means; a flow detection means for detecting the flow of water to the heat exchanger; and when the flow of water is detected by the flow detection means, the heating adjustment means according to the temperature of the hot water temperature setting means. And when the flow of water is not detected by the flow detecting means, the heating means is operated for a predetermined time when the temperature detected by the intermediate temperature detecting means falls below a predetermined temperature. Timer means for heating The operation time of the heating means by the timer means is corrected according to the hot water supply conditions and the temperature of the water supply to the heat exchanger, so that the hot water can be supplied to the terminal quickly when reheating. It is what.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
The hot water supply apparatus of the present invention includes a water supply pipe, a heat exchanger connected to the hot water supply pipe, a heating means for heating the heat exchanger, a heating adjusting means for adjusting a heating amount of the heating means, and the heat exchanger. Intermediate temperature detecting means for detecting the temperature of hot water in the middle, outlet temperature detecting means for detecting the temperature of the outlet of the heat exchanger, hot water temperature setting means for setting the temperature of hot water that has passed through the heat exchanger, A flow detection means for detecting the flow of water to the heat exchanger; and when the flow of water is detected by the flow detection means, the heating adjustment means is controlled according to the temperature of the hot water temperature setting means, and the flow Timer means for heating the heat exchanger by operating the heating means for a predetermined time when the temperature detected by the midway temperature detection means falls below a predetermined temperature when the flow of water is not detected by the detection means; And by the timer means Operation duration of the heating means, which has so as to correct the feedwater temperature throughout the hot water supply condition, to the heat exchanger, in which are to allow faster supply of hot water to the terminal at the time of re-hot water supply.
[0011]
The hot water supply condition is at least one temperature of the previous hot water supply temperature and the temperature set by the remote controller, which enables hot water supply suitable for actual use .
[0012]
In addition, if the temperature detected by the intermediate temperature detecting means reaches an upper limit temperature set in advance as an unsafe temperature in order to forcibly stop heating in the event of failure of the timer means or abnormal combustion, a heat exchanger by the heating means The heating was forcibly stopped.
[0013]
Furthermore, in response to a control system failure or abnormal combustion, if the temperature change detected by the temperature detection means exceeds the pre-set gradient as an unsafe temperature gradient, heating of the heat exchanger by the heating means is forced. To stop.
[0014]
The midway temperature detecting means is preferably attached to the pipe of the heat exchanger near the heating means. In other words, by detecting the temperature of the pipe of the heat exchanger near the heating means that has the fastest temperature rise when heating when water is not flowing, the temperature rise is detected quickly, ensuring safety and accurate control. Can be realized.
[0015]
(Example)
Embodiments of the present invention will be described below with reference to the drawings.
[0016]
FIG. 1 is a view showing a hot water supply apparatus in one embodiment of the present invention.
[0017]
In FIG. 1, a water supply pipe 11 and a hot water supply pipe 12 are connected to the heat exchanger 10.
[0018]
The water supply pipe 11 is provided with a water amount detector 13 which is a flow detection means for detecting the inflow of water into the heat exchanger 10 and a water temperature detector 14 for detecting the water temperature. A heat exchanger temperature detector 15 for detecting a midway temperature is provided in a pipe in the middle of the heat exchanger 10.
[0019]
Further, a bypass pipe 16 that bypasses the heat exchanger 10 and connects the water supply pipe 11 and the hot water supply pipe 12 is provided, and the bypass pipe 16 has a mixing ratio of hot water from the heat exchanger 10 and water from the bypass pipe 16. A water proportional valve 17 is provided for adjusting the pressure. This water proportional valve 17 is a valve that balances the water pressure by adjusting the current to the solenoid, and adjusts the amount of water that passes through the opening of the bypass pipe 16. It is a normally open type that is retained. The hot water supply pipe 12 in the vicinity of the heat exchanger 10 is provided with a hot water temperature detector 18 as outlet temperature detection means, and a water amount control valve 19 and a mixed water temperature detector 20 are provided after the junction of the bypass pipe 16. Yes.
[0020]
The hot water supply pipe 12 is further connected to a hot water supply pipe 22 outside the hot water supply apparatus main body 21 and communicates with hot water and water mixing plugs 23 and 24 provided at the terminal. A remote controller 25 for the hot water supply device main body 21 is provided on the terminal side. The remote controller 25 is a wireless type, and when the hot water mixing plugs 23 and 24 are not used in addition to the hot water temperature up switch 27, the down switch 28, and the display unit 29 discharged from the power switch 26 or the hot water supply device main body 21. A heating switch 30 for selecting control under conditions different from the state in which water is flowing through the heat exchanger 10 is used as a selection means.
[0021]
The controller 31 on the main body side has a timer 32 which is a timer means, and is supplied with electric power from a commercial power source and receives signals from the remote controller 25 and various sensors received by the receiver 33, and various actuators. Signals and operation outputs are output. The controller 31 is provided with a hot water temperature setting device 34 which is a hot water temperature setting means constituted by a volume and a stop time control unit 35.
[0022]
The heat exchanger 10 is heated by a gas burner 36 which is a heating means, and a gas proportional valve 37 is provided as a part of the heating adjustment means for adjusting the amount of gas to the gas burner 36. Further, the gas is turned on and off by an original electromagnetic valve 38 that constitutes a part of the heating control means, and air is sent from the blower fan 39 before and after combustion and during combustion.
[0023]
In addition, the heat exchanger temperature detector 15 provided in the pipe in the middle of the heat exchanger 10 is located outside the heat exchanger 10 portion directly above the gas burner 36, where the temperature is likely to rise higher than that of other parts while the flow of water is stopped. It is attached to the pipe that I faced.
[0024]
Next, the operation of this embodiment will be described.
[0025]
The main part of the operation is shown in the flowchart of FIG.
[0026]
When the power switch 26 of the remote controller 25 is turned on <S1> and the heating switch 30 is turned on <S2>, the mode enters a mode in which the heat exchanger 10 can be heated when hot water supply is stopped. When the flow rate of water detected by the water amount detector 13 exceeds a predetermined value (for example, 2 l / min), it is determined that the hot water / water mixing tap of the terminal has been opened, and the normal hot water supply mode is entered <S3>. The mixed water temperature detected by the mixed water temperature detector 20 is compared with the set temperature in order to supply hot water having a temperature set by operating the switch 27, the down switch 28, and the like.
[0027]
Further, the hot water temperature detected by the hot water temperature detector 18 and the temperature of the hot water temperature setting device 34 are compared, the water temperature of the water temperature detector 14 and the value of the water amount detector 13 are taken in, and the water proportional valve 17 and the water amount control valve. 19. The gas proportional valve 37 is adjusted, and hot water of a desired temperature is supplied from the hot water supply pipe 22 <S4>.
[0028]
When the flow rate of water detected by the water amount detector 13 is less than a predetermined value (for example, 2 l / min), or when hot water supply is stopped, <S3>, a heating mode for the heat exchanger 10 when hot water supply is stopped can be performed. Become. If the temperature detected by the hot water temperature detector 18 falls below the lower limit value determined as the predetermined temperature <S5>, and if the temperature detected by the heat exchanger temperature detector 15 falls below the lower limit value determined as the predetermined temperature, <S6>, The control unit 35 at the time of stoppage determines that the entire hot water supply apparatus is cold, and advances the heating mode when the flow is stopped.
[0029]
The lower limit value compared with the hot water temperature detector 18 is set to a value obtained by subtracting 10 ° C. from the set value of the hot water temperature setter 34. If the temperature detected by the hot water temperature detector 18 is equal to or lower than the lower limit, the process proceeds to the next step of the heating mode when the flow is stopped <S5>. The lower limit value compared with the heat exchanger temperature detector 15 is also set to a value obtained by subtracting 10 ° C. from the temperature set by the hot water temperature setting device 34. When the temperature detected by the heat exchanger temperature detector 15 is equal to or lower than the lower limit value, the process proceeds to the next step of the heating mode <S6>.
[0030]
The setting of the lower limit value is an example, and other methods include a method not related to the setting of the hot water temperature setting device 34, a method using a fixed value, and the hot water temperature setting device 34 and the heat exchanger temperature detector 15. There are various methods such as different detection lower limit values.
[0031]
When the temperatures detected by the hot water temperature detector 18 and the heat exchanger temperature detector 15 are both lower than the lower limit value, first, the heating time set by the timer 32 is read <S7>. Next, the hot water supply conditions are read <S8>.
[0032]
This hot water supply condition is the mixed water temperature stored at the time of the previous hot water supply, or the set temperature of the remote controller 25, or the current set temperature if there has been a change thereafter. This is to determine the temperature of the mixed water, the set temperature, and the changed temperature when the hot water is supplied last time, and to correct the temperature at which heating is started. The temperature at which heating of the heat exchanger 10 is started is corrected so that the mixed water temperature or the past or present set temperature is high when it is high and low when it is low. In addition, it serves to supply hot water having a temperature close to the set temperature set by the remote controller 25 as much as possible through the hot water supply pipe 12 at the time of re-heating.
[0033]
Further, the water temperature detected by the memory temperature detector 14 stored at the time of the previous hot water supply and the current water temperature are read <S9>. This is to determine how many times the feed water temperature is, and to correct the heating time and heating start temperature. When the water temperature is high, the time is short and the temperature is low, and when the water temperature is low, the time is The time for heating the heat exchanger 10 is corrected so that the temperature is longer and higher (S10). In addition, it serves to supply hot water having a temperature close to the set temperature of the remote controller 25 as much as possible through the hot water supply pipe 12 during re-heating.
[0034]
Next, the blower fan 39 is rotated to discharge the remaining gas <S11>, the original solenoid valve 38 is opened <S12>, and at the same time, the timer 32 starts measuring time <S13>, and the gas proportional valve 37 is opened. Is opened to the state of the opening degree 1 at which it is easy to ignite, and ignition is performed <S14>. The state of the opening degree 1 is set smaller than the fully opened opening degree of the gas proportional valve 37 during normal hot water supply, and the heat exchanger 10 is excessively operated in a state where the flow of water is stopped. On the other hand, the opening is set so that the gas burner 36 is surely ignited so as not to be heated.
[0035]
Next, the ignition is confirmed, and the opening of the gas proportional valve 37 is reduced to the state of opening 2 (S15). This opening degree corresponds to the minimum opening degree in a state where normal hot water supply is being performed, and even if heating is performed at this minimum opening degree, the load is small, so the temperature of the heat exchanger 10 gradually increases. Go.
[0036]
In addition, when the minimum heating amount can be taken very low as a hot water supply apparatus, the method of keeping the temperature detected with the heat exchanger temperature detector 15 constant is also possible.
[0037]
When the temperature detected by the heat exchanger temperature detector 15 shows an abnormal change gradient during the heating of the heat exchanger 10, it is judged that the air is caught in the heat exchanger 10 or the heating is abnormal, and the heating is stopped <S16>. The subsequent control is as shown in FIG. 3 taking the temperature of the hot water temperature detector 18 as an example. It is assumed that the hot water temperature is set to 60 ° C. (= TO) by the hot water temperature setting device 34.
[0038]
Therefore, the lower limit, which is a predetermined value for determining the start of heating, is T1 = 60 ° C.−10 ° C. = 50 ° C. The upper limit value T2 = 60 ° C. + 10 ° C. = 70 ° C. The heating time is 5 seconds in the standard state (water temperature 15 ° C., mixed water temperature 40 ° C.), and is corrected according to the water temperature and the set temperature of the remote controller 25 as described above.
[0039]
When the timer 32 exceeds a predetermined time (5 seconds or a correction value of 5 seconds), it is considered that the time is up and the stop operation is started <S17>. If the timer 32 or the capacity control of the gas burner 36 fails and the temperature detected by the hot water temperature detector 18 exceeds the upper limit (70 ° C.), the temperature of the original solenoid valve 38 is immediately given priority. <S18>. Further, even when the temperature detected by the heat exchanger temperature detector 15 exceeds the upper limit (70 ° C.), the operation immediately enters a stop operation of closing the original solenoid valve 38 with temperature priority <S19>.
[0040]
In stopping the heating, the original solenoid valve 38 is closed <S20>, and the blower fan 39 is rotated for a predetermined time to completely exhaust the exhaust gas and then stopped (S21). Further, the water proportional valve 17 is fully opened after narrowing the bypass path for a predetermined time <S22>. This is because when the temperature in the heat exchanger 10 is still high, the hot water is prevented from turning to the bypass pipe 16 that should be filled with water, and the overshoot at the time of re-heating is reduced and cooled to some extent. If it comes, the bypass pipe 16 will also be warmed by natural circulation, and the rise at the time of re-heating will be accelerated.
[0041]
Since the normally open water proportional valve 17 is fully open, even if hot water is accumulated in the heat exchanger 10 due to a failure, the ratio of water increases at the time of reheating hot water. is there.
[0042]
After the hot water supply is stopped after heating for a predetermined time, as shown in FIG. 3, the temperature around the hot water temperature detector 18 slightly rises due to the subsequent boiling. Further, the temperature around the heat exchanger temperature detector 15 rises further, and the vertical relationship between the temperatures before and after stopping is reversed.
[0043]
Thereafter, after the heating is stopped, the combustion is stopped until the temperature detected by the hot water temperature detector 18 and the heat exchanger temperature detector 15 is equal to or lower than a lower limit value which is a predetermined temperature.
[0044]
Assuming a general hot water supply device for home use as described above, the conventional hot water supply device is a system having a pipe length of about 5 m, and hot water is supplied in about 15 seconds after the faucet of the terminal is twisted. This can be shortened to about 5 seconds.
[0045]
The conventional hot water supply device takes about 10 seconds to start up the hot water supply device due to the amount of retained water, and about 5 seconds to push out the retained water amount in the pipe. As a result, only the time required to push out the accumulated water in the piping is required.
[0046]
Further, in this embodiment, by adjusting the heating by the timer 32, it is possible to cope with the temperature rise delay of the heat exchanger 10 having a heat capacity and to prevent overheating as compared with the method of adjusting the heating by the temperature. be able to.
[0047]
In addition, by adjusting the heating time in relation to the feed water temperature detected by the water temperature detector 14, the heating time can be adjusted according to the feed water temperature that changes depending on the season, and the hot water temperature fluctuation at the start of hot water supply and the number of heatings can be adjusted. Can be optimized, and the rise of the hot water supply temperature can be accelerated.
[0048]
In addition, if the temperature detected by the hot water temperature detector 18 or the heat exchanger temperature detector 15 reaches the upper limit temperature set as the unsafe temperature, the heating of the heat exchanger by the heating means is forcibly stopped, so that The heating can be forcibly stopped at the time of the failure of the timer 32 or abnormal combustion to prevent an accident.
[0049]
Further, the control unit 35 at the time of stopping suppresses the maximum heating capacity when water is not flowing lower than the maximum heating capacity when water is flowing, so that the load is small and the temperature transmission to the temperature detecting means is also slow. The amount of heating when the water is not flowing can be kept low, abnormal heating of the local portion of the heat exchanger 10 and temperature overshoot can be prevented, and control can be facilitated and made safe.
[0050]
In addition, by using the gas burner 36 to make the combustion amount at the start of heating of the heating means when water is not flowing substantially the same as the combustion amount at the start of heating when the water is flowing, This makes it easy to achieve reliable ignition. In addition, since the heating switch 30 can select the heating by the gas burner 36 when water is not flowing, the user can select the heating of the heat exchanger when the water is not flowing, only when necessary. The combustion of the gas burner 36 can be immediately stopped by reducing energy consumption and turning off the heating switch 30 "in an emergency.
[0051]
In the above embodiment, the heating by the gas burner 36 is taken as an example of the heating means, but an oil burner or other means for electrically heating may be used.
[0052]
Further, although the gas proportional valve 37 and the original electromagnetic valve 38 are taken as examples of the heating adjusting means, other gas amount adjusting means or various heating adjusting means corresponding to each heating means may be used.
[0053]
Moreover, as the outlet temperature detection means for the outlet temperature of the heat exchanger, the hot water temperature detector 18 is taken as an example, but the mixed water temperature detector 20 may be used, or even if the hot water temperature is detected directly, You may detect the temperature outside piping or a heat exchanger.
[0054]
In addition, the temperature at which heating is started when hot water supply is stopped is detected according to the heat exchanger temperature detector 15 and the hot water temperature detector 18, that is, according to the intermediate temperature detecting means and the outlet temperature detecting means. You may carry out only according to a temperature detection means.
[0055]
Further, as the hot water temperature setting means, the hot water temperature setting device 34, which can adjust the hot water temperature with the volume provided in the controller 31, is taken as an example, but the preset temperature is written in the microcomputer of the controller 31 in advance, The temperature may be set at 25.
[0056]
In addition, the flow detection means is exemplified by the water amount detector 13 that directly detects the water flow, but it is an indirect one that interlocks with a hot water start / stop operation switch, or a combination of a direct one and an indirect one. It may be in the form of
[0057]
Although the timer 32 is taken as an example of the timer means, the timer function may be a microcomputer unit of the controller or may be provided as a separate circuit.
[0058]
In the above embodiment, the hot water supply apparatus having the bypass pipe 16 and adjusting the hot water supplied from the heat exchanger 10 and the water from the bypass pipe 16 with the water proportional valve 17 to obtain hot water set at the remote controller 25. However, a hot water supply apparatus that does not have a bypass pipe or a water proportional valve may be used. In this case, the set value of the hot water temperature setting means coincides with the set value of the hot water temperature set by the remote controller 25.
[0059]
The technical significance of the above embodiment will be summarized as follows.
[0060]
(1) When the flow of water to the heat exchanger is stopped when the hot water supply is stopped by the flow detection means, and the temperature detected by the intermediate temperature detection means falls below a predetermined temperature, the heat generated by the heating means Heating of the exchanger is started, and heating is stopped when the time set by the timer means has been reached, so that the heat exchanger is prevented from being cooled when hot water is stopped, and retained in the heat exchanger when hot water is resupplied. It saves time to heat water, so that hot water can be supplied quickly at the terminal during hot water supply only with the main body of the hot water supply device, and when heating reaches a preset time or temperature, overheating is stopped. Can be prevented. Moreover, local boiling and abnormal heating can be prevented by controlling according to the temperature in the middle of the heat exchanger where the temperature is likely to rise from the outlet side when the flow of water stops.
[0061]
(2) By stopping the heating when a preset time is reached after the start of heating by the timer means, it is possible to cope with the temperature rise delay of the heat exchanger having a heat capacity and to prevent abnormal heating.
[0062]
(3) When the temperature detected by the temperature detector reaches the upper limit temperature set as an unsafe temperature, the heating means is forcibly stopped by the heating means, so that the timer means should be in trouble or abnormal Heating can be forcibly stopped during combustion to prevent accidents.
[0063]
(4) If the temperature change detected by the temperature detector reaches the upper limit temperature set as the unsafe temperature gradient, the heating of the heat exchanger by the heating means is forcibly stopped, so that the timer means should be Heating can be forcibly stopped during abnormal combustion and accidents can be prevented.
[0064]
(5) By attaching a temperature detector on the way to the pipe of the heat exchanger in the vicinity of the heating means, it is possible to detect a temperature rise quickly when heating is performed when the water flow is stopped, preventing local boiling and abnormal heating. I can .
[0065]
(6) By determining the state based on the temperature detected by the intermediate temperature detection means and the temperature detected by the outlet temperature detection means, the heating time can be corrected accurately, and one temperature detection means fails. But the other can be complemented.
[0066]
【The invention's effect】
According to the hot water supply apparatus described above, it is possible to prevent the heat exchanger from being cooled when hot water is stopped, and to save time for heating the water held in the heat exchanger during hot water supply. Supply can be done quickly and usability can be greatly improved.
[Brief description of the drawings]
FIG. 1 is a view showing a hot water supply apparatus according to an embodiment of the present invention. FIG. 2 is a flowchart showing the operation of the main part of the hot water supply apparatus. FIG. 3 is a view showing the operation of the main part of the hot water supply apparatus. Diagram showing the equipment 【Explanation of symbols】
DESCRIPTION OF SYMBOLS 10 Heat exchanger 11 Water supply pipe 12 Hot water supply pipe 13 Water quantity detector (flow detection means)
14 Water temperature detector (Water supply temperature detection means)
15 Heat exchanger temperature detector (intermediate temperature detector)
18 Hot water temperature detector (outlet temperature detection means)
32 Timer (Timer means)
34 Hot water temperature setting device (hot water temperature setting means)
35 Control unit at stop 36 Gas burner (heating means)
37 Gas proportional valve (heating control means)
38 original solenoid valve (heating control means)

Claims (4)

A heat exchanger connected to the water supply pipe and the hot water supply pipe, a heating means for heating the heat exchanger, a heating adjusting means for adjusting a heating amount of the heating means, and a temperature of hot water in the middle of the heat exchanger. Intermediate temperature detecting means for detecting, outlet temperature detecting means for detecting the temperature of the outlet of the heat exchanger, hot water temperature setting means for setting the temperature of hot water that has passed through the heat exchanger, and water to the heat exchanger A flow detection means for detecting flow; and when the flow of water is detected by the flow detection means, the heating adjustment means is controlled according to the temperature of the hot water temperature setting means, and the flow of water is detected by the flow detection means. A timer means for heating the heat exchanger by operating the heating means for a predetermined time when the temperature detected by the midway temperature detection means falls below a predetermined temperature when not detected, and the timer means Operation of the heating means by Continued time, hot water supply apparatus adapted to correct a previous hot-water supply temperature, the water temperature condition leading to at least one temperature, and the heat exchanger of the set temperature by a remote controller. The hot water supply apparatus according to claim 1 , wherein the heating of the heat exchanger by the heating means is forcibly stopped when the temperature detected by the intermediate temperature detection means reaches an upper limit temperature set in advance as an unsafe temperature . The hot water supply apparatus according to claim 1 , wherein the heating of the heat exchanger by the heating means is forcibly stopped when the temperature change detected by the intermediate temperature detection means exceeds a preset gradient as an unsafe temperature gradient . The hot water supply apparatus according to claim 1 , wherein the intermediate temperature detecting means is attached to a pipe of a heat exchanger near the heating means .

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