JP3810191B2 - Bath equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bath apparatus that can recharge bathtub water.
[0002]
[Prior art]
FIG. 2 shows an example of a bath apparatus with a hot water supply function. As shown in the figure, this bath apparatus (equipment) with a hot water supply function includes a hot water supply heat exchanger 1 that is a hot water supply heat source and a reheating heat exchanger 2 that is a reheating heat source, and the hot water heat exchanger described above. A water supply passage 3 for guiding water from a water supply source to the hot water supply heat exchanger 1 is connected to the inlet side of the water supply 1, and hot water flowing out of the hot water supply heat exchanger 1 is connected to the outlet side of the hot water supply heat exchanger 1 in the kitchen. A hot water supply passage 4 for connecting to a hot water supply place such as a shower or the like is connected.
[0003]
One end side of the outgoing pipe 5 is connected to one end side of the reheating heat exchanger 2, and the other end side of the outgoing pipe 5 is connected to the bathtub 6 through a circulation fitting 27. Further, one end side of the passage 7 is connected to the other end side of the reheating heat exchanger 2, and the other end side of the passage 7 is connected to the discharge port of the circulation pump 8. One end side of the return pipe 10 is connected to the suction port of the circulation pump 8, and the other end side of the return pipe 10 is connected to the bathtub 6 through the circulation fitting 27. A recirculation circulation passage 11 for circulating hot water in the bathtub 6 by driving the circulation pump 8 is constituted by the outgoing pipe 5, the reheating heat exchanger 2, the passage 7, the circulation pump 8 and the return pipe 10.
[0004]
A pouring passage 12 is provided for connecting the passage 7 of the recirculation circulation passage 11 and the hot water supply passage 4 in communication, and the pouring control is formed in the pouring passage 12 by an electromagnetic valve for opening and closing the passage. A valve 13 and a water level sensor 14 for detecting the water level of the bathtub 6 by water pressure are interposed. A hot water filling passage is constituted by a passage from the hot water supply heat exchanger 1 to the bathtub 6 through the hot water supply passage 4, the pouring passage 12, and the recirculation circulation passage 11 in order.
[0005]
Further, a hot water supply burner 15 for combusting and heating the hot water supply heat exchanger 1 and a reheating burner 16 for combusting and heating the reheating heat exchanger 2 are provided, and each of the burners 15 and 16 has a fuel gas supply source. Gas supply passages 17 and 18 branched from a passage (not shown) communicated with each other are connected to each other. Proportional valves (not shown) that variably control the amount of fuel gas supplied to the burner with a valve opening are provided in the passage from the fuel gas supply source to each burner.
[0006]
2 indicates a water amount sensor for detecting the flow rate of water flowing through the water supply passage 3, 21 indicates an incoming water thermistor for detecting the incoming water temperature flowing into the hot water supply heat exchanger 1, and 22 indicates from the hot water supply heat exchanger 1. A hot water thermistor for detecting the temperature of the hot water flowing out is shown, 23 is a bath temperature sensor for detecting the temperature of the bathtub hot water circulating in the recirculation circulation passage 11 as a bath temperature, and 24 is the circulation hot water in the recirculation circulation passage 11. A water flow switch as a circulating water flow detecting means for detecting a water flow is shown. Reference numeral 28 denotes an outside air temperature sensor for detecting the air temperature at the arrangement position as the outside air temperature.
[0007]
The bath device with a hot water supply function is provided with a control device 25 for controlling the operation of appliances such as a hot water supply operation, a hot water filling operation, a chasing operation and an anti-freezing operation. A remote controller 26 is connected to the control device 25. Yes. The remote control 26 is provided with hot water supply temperature setting means for setting the hot water supply (hot water filling) temperature, bathtub water level setting means for setting the water level of the bathtub 6, bath temperature setting means for setting the bath temperature, and the like.
[0008]
The control device 25 takes in information on various sensor outputs such as the water amount sensor 20 and information on the remote control 26 such as a hot water supply set temperature, and based on the fetched information, a hot water supply operation, a hot water operation, a reheating operation, and freezing prevention are performed. The operation etc. are controlled as follows. For example, when a hot water tap (not shown) of the hot water supply passage 4 led to a hot water supply place such as a kitchen or a shower is opened and water flow through the water supply passage 3 is detected by the water amount sensor 20, 15 is started, and the heating amount of the hot water burner 15 is controlled by the valve opening degree of the proportional valve so that the hot water temperature to be supplied becomes the hot water supply set temperature set in the remote controller 26 (that is, The amount of fuel gas supplied to the hot water supply burner 15 is controlled), and the water of the hot water supply heat exchanger 1 is heated by the heat of the combustion flame of the hot water supply burner 15 to produce hot water. Hot water is supplied to a desired hot water supply location. When the hot-water tap is closed and the water amount sensor 20 detects that the water supply passage 3 has stopped flowing, combustion of the hot-water supply burner 15 is stopped to prepare for the next hot-water supply operation.
[0009]
Further, the hot water filling operation is controlled as follows. For example, when a hot water start button or the like provided on the remote control 26 is pressed and a hot water start command is issued from the remote control 26, the circulation pump 8 is first driven for a predetermined time (for example, 1 minute). (Step 101 in the flowchart shown in FIG. 3), it is determined whether or not the circulating water flow in the recirculation circulation passage 11 by driving the circulation pump 8 is detected by the water flow switch 24 (Step 102). When the circulating water flow cannot be detected by the water flow switch 24, it is determined that there is no hot water in the bathtub 6 or that the water level in the bathtub 6 is lower than the position where the circulation fitting 27 is disposed, and the hot water filling control valve 13 is opened. Hot water made in the same manner as described above by the hot water supply heat exchanger 1 is poured into the bathtub 6 through the hot water supply passage 4, the pouring passage 12 and the recirculation circulation passage 11 in order.
[0010]
The amount of pouring from the start of pouring is obtained by integrating the flow rate detected by the water amount sensor 20 after the start of pouring, and the amount of pouring from the start of pouring is determined in advance as x liters. When reaching (for example, 40 liters), the hot water filling control valve 13 is closed and the pouring of water into the bathtub 6 is temporarily stopped (step 103).
[0011]
Then, similarly to the above, the circulation pump 8 is driven (step 104), and the presence or absence of the circulating water flow in the recirculation circulation passage 11 by the drive of the circulation pump 8 is judged by the water flow switch 24 (step 105). When it is determined that the circulating water flow cannot be detected by the water flow switch 24, the hot water filling control valve 13 is opened and the hot water produced by the hot water supply heat exchanger 1 in the same manner as described above is set to a predetermined y liter (for example, 10 liters). ) Is poured into the bathtub 6 (step 106).
[0012]
Further, similarly to the above, the circulation pump 8 is driven (step 107), and the presence or absence of the circulating water flow in the recirculation circulation path 11 by the driving of the circulation pump 8 is judged by the water flow switch 24 (step 108), and the circulating water flow can be detected. If not, the hot water produced by the hot water supply heat exchanger 1 is poured into the bathtub 6 by a predetermined z liter (for example, 15 liters) (step 109).
[0013]
Then, the circulation pump 8 is driven again (step 110), and the presence or absence of the circulating water flow in the recirculation circulation passage 11 by the driving of the circulation pump 8 is judged by the water flow switch 24 (step 111). When the circulating water flow cannot be detected, the circulating water flow cannot be detected even though a sufficient amount of pouring water has been poured into the bathtub 6 to exceed the position where the circulation fitting 27 is disposed after the hot water filling operation is started. Is determined to be abnormal, and an error signal is output (step 116).
[0014]
When it is determined that the circulating water flow is detected by the water flow switch 24 as a result of the determination of the presence or absence of the circulating water flow in the recirculation circulation passage 11 by driving the circulation pump 8 (steps 102, 105, 108, 111), the water level of the bathtub 6 is It is determined that the water level is higher than the position where the circulation fitting 27 is disposed, and it is determined that the water level sensor 14 can detect the bathtub water level, and the water level sensor 14 detects the water level of the bathtub 6 (step 112). ).
[0015]
Then, the bathtub water level detected by the water level sensor 14 is compared with the bathtub setting water level preset in the remote control 26, and it is determined whether or not the detected water level has reached the bathtub setting water level (step 113). When it is determined that the detected water level of the water level sensor 14 is lower than the set water level, the hot water control valve 13 is opened and the bath water level detected by the water level sensor 14 is monitored while pouring into the bathtub 6 in the same manner as described above. (Step 114) When the detected bathtub water level has reached the bathtub set water level, the hot water filling operation is terminated (Step 115).
[0016]
When the reheating operation is performed, for example, the circulation pump 8 is driven to recirculate the bath water through the recirculation circulation path 11 and the bath temperature detected by the bath temperature sensor 23 is higher than the bath set temperature set in the remote control 26. When the temperature is low, it is confirmed that the circulating water flow in the recirculation circulation passage 11 is detected by the water flow switch 24, combustion of the reheating burner 16 is started, and the circulating hot water flowing through the reheating heat exchanger 2 is heated to follow. When the bath temperature detected by the bath temperature sensor 23 reaches the bath set temperature, combustion of the reheating burner 16 is stopped, the circulation pump 8 is stopped, and the reheating operation is ended.
[0017]
Also, in winter, anti-freezing operation is performed in order to prevent the accumulated water in the recirculation circulation passage 11 from freezing and damaging the pipeline of the recirculation circulation passage 11. For example, the temperature detected by the bath temperature sensor 23 while the circulation pump 8 is stopped (that is, the temperature of the accumulated water in the recirculation circulation passage 11) falls below a predetermined accumulated water lower limit temperature (for example, 4 ° C.). In addition, it is preliminarily given as an operating condition for the anti-freezing function for operating the anti-freezing operation that the temperature detected by the outside air temperature sensor 28 is lower than a predetermined outside air lower limit temperature (for example, 2 ° C.). When it is determined that the anti-freezing function operating condition is satisfied based on the temperature detected by the bath temperature sensor 23 and the outside air temperature detected by the outside air temperature sensor 28 while the circulation pump 8 is stopped, The circulation pump 8 is driven by the prevention operation to cause the water in the recirculation circulation passage 11 to flow to prevent the water in the recirculation circulation passage 11 from freezing.
[0018]
The temperature detected by the bath temperature sensor 23 is such that the hot water in the bathtub 6 is drawn into the recirculation circulation passage 11 by driving the circulation pump 8 and the hot water temperature in the recirculation circulation passage 11 is increased. When the temperature is higher than the lower limit temperature, or when the temperature detected by the outside air temperature sensor 28 is higher than the lower limit temperature of the outside air, it is determined that the freezing of the water in the recirculation circulation passage 11 has been avoided and the circulation pump. 8 is stopped to prepare for the driving of the circulation pump 8 by the next freeze prevention operation.
[0019]
[Problems to be solved by the invention]
  By the way, when the anti-freezing function operating condition is satisfiedEven when there is no water in the recirculation circulation passage 11 and there is no fear of freezing of the water in the recirculation circulation passage 11, the circulation pump 8 is driven by the anti-freezing operation, so that the wasteful circulation pump is used. There were 8 idlings.
[0021]
The present invention has been made to solve the above-described problem, and its object is to prevent freezing only when it is determined that there is water in the recirculation circulation passage and the operation condition for the freezing prevention function is satisfied. An object of the present invention is to provide a bath apparatus that is controlled so as to drive a circulation pump by operation and that can avoid useless operation of the circulation pump.
[0022]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention has the following configuration as means for solving the above problems. That is, the first invention is a reheating heat source device that reheats the bathtub water supplied through the recirculation circulation path by driving the recirculation pump to retreat the bath water, and reheating by driving the recirculation pump. A circulating water flow detecting means for detecting the circulating water flow in the circulation passage;A hot water supply heat source for heating the water supplied through the water supply passage to produce hot water, and a hot water filling passage for dropping the hot water heated by the hot water supply heat source into the bathtub through the recirculation circulation passage. A hot water filling function in which the circulating pump is driven and the circulating water flow detecting means determines whether or not there is a circulating water flow in the recirculation passage, and then the hot water produced by the hot water supply heat source is dropped into the bathtub through the hot water filling passage. And aboveFreezing prevention to prevent freezing of water in the recirculation circulation passage by driving the circulation pump when the predetermined freezing prevention function operating condition is satisfied while the circulation pump is stopped to flow the water in the recirculation circulation passage In a bath device equipped with a function, when it is detected that a predetermined condition with water in the recirculation circulation passage is satisfied,ofA water presence determination unit that sets a water presence flag indicating that there is hot water; a circulation pump that drives the circulation pump only when the water presence flag is set when the freeze prevention function operating condition is satisfied while the circulation pump is stopped Anti-freezing drive control unit; recirculation by driving of the circulation pump in spite of confirming that the water presence flag is set and starting the circulation pump by the circulation pump anti-freezing drive control unit A water absence determination unit that defeats the water presence flag when the circulating water flow in the circulation passage cannot be detected by the circulating water flow detection means;The water presence determination unit continuously supplies hot water heated by a hot water supply heat source or water not heated by a hot water supply heat source from the hot water supply source to a hot water filling passage in a predetermined recirculation circulation passage more than a hot water filling amount. When there is a water flow, it is detected that the water condition is satisfied, and a water flag is set to indicate that there is hot water in the recirculation circulation path.The above-described configuration serves as a means for solving the problems.
[0023]
  The second invention is the first invention.In addition, when the water filling flag is not set when the hot water filling start command is issued, the presence / absence of the circulating water flow in the recirculation circulation passage is determined using the circulation pump and the circulating water flow detection means. A hot water filling control unit for dropping hot water produced by the hot water supply heat source into the bathtub from the hot water passage.It is said.
[0026]
In the invention of the above configuration, the circulation pump anti-freezing drive control unit, when the anti-freezing function operating condition is satisfied while the circulation pump is stopped, only when there is a water presence flag set by the water presence determination unit, that is, Only after the water presence judgment unit judges that there is water in the recirculation circulation passage, the circulation pump by the freeze prevention operation is driven. If there is no water in the recirculation circulation passage and there is no risk of water freezing in the recirculation circulation passage due to the operation of the circulation pump freeze prevention drive control unit, the circulation pump is not driven by the freeze prevention operation and is wasted. The idling of the circulation pump is almost avoided.
[0027]
In addition, it is confirmed that the water presence flag is set and the circulation pump freeze prevention drive control unit starts driving the circulation pump. If it cannot be detected by the water flow detection means, it is considered that there is no water in the recirculation circulation passage, so the above-mentioned water presence flag is turned down by the water absence judgment section. However, the circulation pump in the freeze prevention operation is not driven, and it is reliably prevented that the idle operation of the circulation pump is repeatedly performed.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below with reference to the drawings.
[0029]
The bath apparatus of this embodiment has the system configuration of the bath apparatus with a hot water supply function shown in FIG. 2, and FIG. 1 shows a block diagram of the characteristic control configuration of this embodiment. Since the description of the system configuration of the bath apparatus shown in FIG.
[0030]
As shown in FIG. 1, the control device 25 shown in this embodiment includes a hot water filling control unit 30 that controls the hot water filling operation as described above, a pouring amount detection unit 31, a water presence determination unit 32, The reheating control unit 33 that controls the reheating operation as described above, the anti-freezing operation control unit 34, the water absence determination unit 35, the circulation pump anti-freezing drive control unit 36, and the data storage unit 37 are configured. Yes.
[0031]
Whenever the pouring amount detection unit 31 detects that the pouring amount detection start command is issued from the hot water filling control unit 30, the pouring amount detection unit 31 integrates the water flow rate detected by the water amount sensor 20 after the pouring amount detection start command is issued. Then, the pouring amount flowing out from the hot water supply heat exchanger 1 into the hot water filling passage after the pouring amount detection start command is issued is detected.
[0032]
The water presence determining unit 32 takes in each operation information of the hot water filling control unit 30 and the reheating control unit 33, detected pouring amount information of the pouring amount detection unit 31, and sensor output of the water flow switch 24 from time to time, Based on these captured information, when it is detected that the following water presence condition is satisfied, a water presence signal is output to output a water presence signal and indicate that there is hot water in the recirculation circulation passage 11. Stand at 37.
[0033]
In this embodiment, the following two conditions are given as the water-containing condition. The first condition is that the hot water produced by the hot water supply heat exchanger 1 passes through the hot water control valve 13 while the hot water control valve 13 is opened by the control operation of the hot water control unit 30, and the recirculation passage 11. The following recirculation passage predetermined hot water filling amount (for example, 5 liters) was continuously flowed out. The replenishing circulation passage hot water filling amount is a water amount obtained by adding a margin to the amount of water necessary to fill the entire area of the replenishment circulation passage 11, and is obtained and obtained in advance by experiments and calculations. Since the recirculation circulation passage 11 is filled with hot water by continuously flowing from the hot water supply heat exchanger 1 to the recirculation circulation passage 11 more than the replenishment circulation passage hot water filling amount, the recirculation circulation passage 11 is filled. It can be determined that there is hot water inside.
[0034]
The second condition is that the circulating water flow in the recirculation circulation path 11 is changed by the water flow switch 24 before a predetermined time (for example, 1 minute) elapses after the circulation pump 8 is driven by the reheating controller 33. That is, it was possible to detect continuously for a predetermined time (for example, 30 seconds). When the circulating water flow in the recirculation circulation passage 11 by the drive of the circulation pump 8 can be detected by the water flow switch 24, the water level of the bathtub 6 is above the circulation fitting 27, and the hot water in the bathtub 6 is reheated by the drive of the circulation pump 8. Since the recirculation circulation passage 11 is drawn into the circulation passage 11 and is filled with hot water, it can be determined that there is hot water in the recirculation circulation passage 11.
[0035]
  The water determination unit 32,UpNo. of conditions with water1'sArticleIsWhen the condition is satisfied, a water presence signal is output to set a water presence flag in the data storage unit 37.
[0036]
The anti-freezing operation control unit 34 captures each operation information of the hot water filling control unit 30 and the reheating control unit 33 and each sensor output of the bath temperature sensor 23 and the outside air temperature sensor 28, and freezes as described above. It is determined whether the prevention function operating condition is satisfied. That is, the temperature detected by the bath temperature sensor 23 is equal to or lower than a set lower limit temperature (for example, 4 ° C.), and the outside temperature detected by the outside temperature sensor 28 is set to a set outside air lower limit temperature (for example, 2 ° C) or less.
[0037]
When the anti-freezing operation control unit 34 determines that the cooling is severe and the anti-freezing function operating condition is satisfied in the winter, it determines whether the water storage flag is set in the data storage unit 37 and there is water. When it is determined that the flag is set, there is hot water in the recirculation circulation passage 11, and the temperature of both the staying water temperature in the recirculation circulation passage 11 and the outside air temperature detected by the outside air temperature sensor 28 is replenishment. It is judged that the accumulated water in the circulation passage 11 has dropped to a temperature at which it may freeze, and the water in the recirculation circulation passage 11 flows to prevent freezing of the accumulated water in the recirculation circulation passage 11. Therefore, a pump drive command for driving the circulation pump 8 is issued to the circulation pump freeze prevention drive control unit 36.
[0038]
When the circulation pump freeze prevention drive control unit 36 receives a pump drive command from the freeze prevention operation control unit 34, the circulation pump freeze prevention drive control unit 36 starts driving the circulation pump 8 and causes the water in the recirculation circulation path 11 to flow.
[0039]
  The water in the recirculation passage 11 flows by driving the circulation pump 8.RuThus, freezing of water in the recirculation circulation passage 11 is avoided.
[0040]
The freeze prevention operation control unit 34 determines that the temperature detected by the bath temperature sensor 23 has become higher than the staying water lower limit temperature, or the temperature detected by the outside air temperature sensor 28 is higher than the outside air lower limit temperature. When it is determined that the freezing of the water in the recirculation circulation passage 11 has been avoided, a command to stop the circulation pump 8 is issued to the circulation pump freeze prevention drive control unit 36, and the circulation pump freeze prevention drive control unit 36 is issued. Receives the stop command and stops the circulation pump 8.
[0041]
The absence of water determination unit 35 takes in the operation information of the circulation pump anti-freezing drive control unit 36 from time to time, and based on this operation information, the circulation pump anti-freezing drive control unit 36 starts driving the circulation pump 8. Even if a predetermined time (for example, 3 minutes) has passed since the detection, even if it is detected by a built-in timer (not shown), the circulating water flow in the recirculation circulation passage 11 can be detected by the water flow switch 24. When it is determined that there is no water, it is confirmed that the water presence flag is set and the circulation pump freeze prevention drive control unit 36 starts driving the circulation pump 8 by the freeze prevention operation. The reason why the circulating water flow in the circulation passage 11 could not be detected is that the circulation pump 8 starts to be driven after the water presence determination unit 32 sets the water presence flag. Until then, the hot water in the bathtub 6 has been used in a large amount or drained and the water level in the bathtub 6 has become lower than the position where the circulation fitting 27 is disposed, and the hot water in the circulation passage 11 has disappeared. If it is determined that there is no water in the recirculation circulation passage 11, a no-water signal is output and the water flag set in the data storage unit 37 is defeated.
[0042]
  The hot water filling control unit 30 performs hot water filling operation control substantially the same as the hot water filling operation described above. The feature of this embodiment is that when a hot water filling start command is received from the remote control 26, the data storage unit 37, it is determined whether or not there is a water flag. If it is determined that the water flag is not set, there is no hot water in the recirculation circulation passage 11.Ito3 and omitting the operation of steps 101 and 102 of the flowchart shown in FIG. 3 as described above, that is, the operation of determining the presence or absence of the circulating water flow in the recirculation circulation passage 11 using the circulation pump 8 and the water flow switch 24, The hot water filling operation is started from the pouring operation (step 103 in FIG. 3).
[0043]
Further, when the hot water filling control unit 30 determines that the water presence flag is set in the data storage unit 37, the operation for determining the presence or absence of the circulating water flow in the recirculation circulation passage 11 using the circulation pump 8 and the water flow switch 24, That is, the hot water filling operation is started from the operation of step 101 in the flowchart of FIG. A large amount of hot water in the bathtub 6 is used or the hot water in the bathtub 6 is drained from when the water presence determination unit 32 sets the water presence flag to when the hot water filling control unit 30 starts the hot water filling operation. As a result, the water level of the bathtub 6 may be lower than the circulating metal fitting 27 and hot water may flow out of the recirculation circulation passage 11 and the hot water in the recirculation circulation passage 11 may be lost. In this case, the water present flag is set. A situation in which there is no hot water in the recirculation circulation passage 11 occurs. Therefore, when the hot water filling operation is started by the hot water filling control unit 30 from the state where the water presence flag is set, in order to confirm the presence or absence of hot water in the recirculation circulation passage 11 (in the bathtub 6), as described above. This operation is performed from the operation of determining the presence or absence of the circulating water flow in the recirculation circulation passage 11 using the circulation pump 8 and the water flow switch 24.
[0044]
The chasing control unit 33 performs chasing operation control substantially similar to the chasing operation as described above. What is characteristic in this embodiment is that when the chasing command is issued from the remote control 26, the data It is determined whether or not there is a water flag in the storage unit 37. When the water flag is not set, a hot water filling start command is issued to the hot water filling control unit 30 to start the hot water filling operation. After filling the bath to the set water level, the circulating pump 8 is driven and the bath temperature detected by the bath temperature sensor 23 is lower than the bath set temperature set in the remote control 26. It has the structure which boiled up to the predetermined bath setting temperature. In this case, since there is no water flag, the hot water filling control unit 30 starts from the pouring operation as described above.
[0045]
Further, when the reheating control unit 33 detects that the water presence flag is set by determining whether or not the water presence flag is set after the reheating command is issued, the circulation control unit 33 circulates as described above. The pump 8 is driven to circulate the bathtub water through the circulation passage 11, and when the bath temperature detected by the bath temperature sensor 23 is lower than the bath set temperature set in the remote control 26, the reheating burner 16 is burned. Then, the water of the heat exchanger 2 is reheated and the bath temperature is increased to the bath set temperature.
[0046]
  According to this embodiment example, the circulation pump 8 starts driving the circulation pump 8 only when the water presence flag is set when the freeze prevention function operation condition is satisfied. Although there is no water in the recirculation circulation passage 11 and there is no risk of freezing of the accumulated water in the recirculation circulation passage 11, it is possible to omit unnecessary driving of the circulation pump 8 such that the circulation pump 8 is driven by the freeze prevention operation. . Also, AddIt can be substantially avoided that the circulation pump 8 is driven by the freezing prevention operation and the circulation pump 8 is idling when there is no water in the water circulation passage 11.
[0047]
  Conventionally, the circulation pump 8 is driven regardless of the presence or absence of accumulated water in the recirculation circulation passage 11 every time the freeze prevention function operating condition is satisfied. When the temperature is low enough to freeze the remaining water, the circulation pump 8 is driven intermittently at short intervals regardless of the presence or absence of the remaining water in the recirculation circulation passage 11. But at night, AddWhen the state where there is no stagnant water in the recirculation circulation passage 11 is continued, the circulation pump 8 is driven every time the freeze prevention function operating condition is satisfied even though there is no stagnant water in the recirculation circulation passage 11. The circulation pump 8 is idling, and many idlings are performed overnight. As described above, when the idle operation is repeated, there is a problem that the circulation pump 8 is liable to break down.
[0048]
On the other hand, in this embodiment, since the idling of the circulation pump 8 can be substantially avoided as described above, it is possible to avoid the problem that the idling operation is repeated and the circulation pump 8 is likely to break down. .
[0049]
  Further, when the hot water filling operation is started by the hot water filling control unit 30 in a state where the water present flag is not set, that is, after it is determined that there is no hot water in the recirculation circulation passage 11, the circulation pump 8 and the water flow switch are started. Since the operation of determining whether or not there is a circulating water flow in the recirculation circulation passage 11 using 24 is omitted and the pouring operation is started, it is possible to avoid the idling operation of the circulation pump 8 at the start of the hot water filling operation. The problem of the failure of the circulating pump 8 due to the idling operation of the circulating pump 8 can be further avoided. In addition, as shown above, there is a water flag.AbsentSometimes, the operation of determining the presence or absence of hot water in the recirculation circulation passage 11 using the circulation pump 8 and the water flow switch 24 is omitted, and the hot water filling operation is started from the pouring operation. Since the presence / absence determination operation is omitted, it is possible to shorten the time required to fill the hot water up to the bathtub set water level.
[0050]
Furthermore, it is possible to detect the circulating water flow in the recirculation circulation passage 11 by driving the circulation pump 8 even though the circulation pump 8 is driven by the freeze prevention operation after confirming that the water presence flag is set. When this is not possible, the hot water in the recirculation passage 11 disappears due to the drainage of the bath water or the like after the water flag is set and before the circulation pump 8 is driven by the freeze prevention operation. Since it is detected that there is no water in the recirculation circulation passage 11, the water presence flag is defeated by the water absence determination unit 35. It is possible to stop the operation of the circulation pump 8 by the anti-freezing operation until hot water is filled in the bathtub 6 due to operation or the like and the hot water is filled in the recirculation circulation passage 11. It is possible to prevent wasteful empty operation of the circulation pump 8 as described above is repeated.
[0051]
  In addition, this invention is not limited to the said embodiment, Various embodiment can be taken. For example,FlagAs water condition,For example, in addition to the hot water filling operation, the hot water control valve 13 is opened and hot water heated by the hot water supply heat exchanger 1 or water not heated by the hot water supply heat exchanger 1 is recirculated through the hot water control valve 13 and recirculated. If it has a function to perform the pouring (water pouring) operation to flow into,UpThe condition that the hot water filling control valve 13 is opened by the hot water filling (water pouring) operation and hot water or water exceeding the refilling circulation passage hot water filling amount flows into the hot water circulation passage 11 through the hot water filling control valve 13.FlagMay be given as water condition.
[0052]
Further, in the above-described embodiment, the water presence determination unit 32 causes the pouring amount detection unit 31 to determine the amount of pouring that has flowed into the recirculation passage 11 through the hot water control valve 13 while the hot water control valve 13 is open. When the detected pouring amount is equal to or greater than the replenishment circulation passage hot water filling amount, it is detected that the water presence condition is satisfied, that is, it is determined that there is hot water in the recirculation circulation passage 11 and a water presence signal is generated. Although the output and water flag was set, the time required for the refill circulation passage hot water filling amount to flow from the hot water heat exchanger 1 into the recirculation circulation passage 11 after the hot water filling control valve 13 is opened. It is obtained in advance by experiments, calculations, etc., and this obtained time is given as the circulation passage hot water filling time, and the water presence determination unit 32 fills the circulation passage hot water after the hot water control valve 13 is opened. And it ’s over time It is determined that the hot water is present in the Reheating circulation passage 11, the output water presence signal may be make water available flag.
[0053]
Furthermore, in the above embodiment, the temperature detected by the bath temperature sensor 23 is equal to or lower than the set lower limit water temperature, and the temperature detected by the outside air temperature sensor 28 is equal to or lower than the set lower limit temperature. Although the anti-freezing function operating condition has been described, the anti-freezing function operating condition may be a condition other than the above-described anti-freezing function operating condition. For example, the outside air temperature detected by the outside air temperature sensor 28 is equal to or lower than the set outside air lower limit temperature. Only a certain thing may be made into the freeze prevention function operation condition, and it is good also considering only that the temperature detected by the bath temperature sensor 23 is below the set lower limit temperature of staying water as the freeze prevention function operation condition.
[0054]
Furthermore, in the above embodiment, the bath apparatus with a hot water supply function shown in FIG. 2 has been described as an example. However, the present invention is also applied to a bath apparatus having a freeze prevention function other than the bath apparatus with a hot water supply function shown in FIG. can do. For example, the bath device with a hot water supply function shown in FIG. 2 is of a two-can two-water channel type in which separate burners 15 and 16 corresponding to the hot water supply heat exchanger 1 and the reheating heat exchanger 2 are provided. However, a hot water supply heat exchanger 1 and a reheating heat exchanger 2 are integrally formed, and a can and two water channel type in which a burner is provided for commonly heating and heating the integrated heat exchangers 1 and 2. The present invention can also be applied to those.
[0056]
Further, in the example of the bath apparatus shown in FIG. 2, a hot water supply source is formed by the hot water supply heat exchanger 1 and the hot water supply burner 15, and a reheating heat source device is formed by the reheating heat exchanger 2 and the reheating burner 16, respectively. However, the hot water supply heat source device and the reheating heat source device may each be constituted by an electric heater or the like.
[0057]
【The invention's effect】
According to this invention, when it is detected that a predetermined water presence condition in the recirculation circulation passage is satisfied, a water presence determination unit that sets a water presence flag indicating that hot water is present in the recirculation circulation passage; Since there is a circulation pump freeze prevention drive control unit that drives the circulation pump only when the water presence flag is set when the freeze prevention function operating condition is satisfied while the circulation pump is stopped, a water presence determination unit After that, it is determined that there is hot water in the recirculation circulation passage, and only when the anti-freezing function operating condition is satisfied, the circulation pump starts to be driven by freezing prevention operation. It is possible to eliminate unnecessary driving of the circulation pump, in which the circulation pump is driven without fear of freezing of the accumulated water in the recirculation circulation passage.
[0058]
Further, it is possible to substantially avoid the circulation pump being driven idly by the antifreezing operation when there is no stagnant water in the recirculation circulation passage. As described above, since the idling operation of the circulation pump due to the freeze prevention operation can be avoided, it is possible to almost prevent the problem that the circulation pump is likely to break down due to repeated idling of the circulation pump.
[0059]
Furthermore, the circulating water flow detecting means detects the circulating water flow in the recirculation circulation path by driving the circulation pump, despite confirming that the water present flag is set and starting the circulation pump by freezing prevention operation. Since there is a water absence determination unit that defeats the water presence flag when the water presence determination unit has failed, the water presence determination unit sets the water presence flag after the water presence determination unit has defeated the water presence determination unit. Thus, the circulation pump can be prevented from being driven by the freeze prevention operation, and the repeated idle operation of the circulation pump by the freeze prevention operation can be avoided.
[0060]
  When the water filling flag is not raised when the hot water filling start command is issued, the hot water supply heat source does not use the circulation pump and the circulating water flow detection means to determine whether there is a circulating water flow in the recirculation circulation passage. For those equipped with a hot water filling control unit that drops heated hot water into the bathtub from the hot water passage,UpSince the determination of the presence or absence of the circulating water flow in the recirculation circulation passage is omitted, it is possible to shorten the time required to fill the hot water up to a predetermined bath setting water level.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a characteristic control configuration in an embodiment according to the present invention.
FIG. 2 is a model diagram showing an example of a bath apparatus with a hot water supply function.
FIG. 3 is a flowchart showing an example of operation of hot water filling operation control.
[Explanation of symbols]
1 Hot water heat exchanger
2 Reheating heat exchanger
4 Hot water passage
6 Bathtub
8 Circulation pump
11 Recurring circulation passage
12 Pouring passage
15 Hot water burner
16 Reaping burner
24 Water switch
30 Hot water filling control unit
32 Water judgment section
33 Chasing control unit
34 Anti-freezing operation controller
35 Waterless judgment part
36 Circulation pump freeze prevention drive controller

Claims (2)

A reheating heat source that heats the bathtub water supplied through the recirculation circulation path by driving the recirculation pump and retreats the bath water, and detects the circulating water flow in the recirculation circulation path driven by the recirculation pump Circulating water flow detecting means, a hot water supply source for producing hot water by heating the water supplied through the water supply passage, and hot water filling for dropping the hot water heated by the hot water supply heat source into the bathtub through the recirculation circulation passage And the hot water produced by the hot water supply heat source through the hot water filling passage after the circulating pump is driven and the circulating water flow detecting means determines whether there is a circulating water flow in the recirculating flow passage. The hot water filling function to drop into the bathtub and when the circulation pump is stopped, the circulation pump is driven when the predetermined freezing prevention function operation condition is satisfied. In a bath apparatus equipped with an anti-freezing function that prevents water from freezing in the recirculation circulation path by flowing water, it is detected when it is detected that a predetermined condition with water in the recirculation circulation path is satisfied. A water presence determination unit for setting a water presence flag indicating that there is hot water in the circulating circulation path; and a circulation pump only when the water presence flag is set when the freeze prevention function operating condition is satisfied while the circulation pump is stopped A circulation pump anti-freezing drive control unit for driving the circulation pump; although the circulation pump is started by the circulation pump anti-freezing drive control unit after confirming that the water presence flag is set, the circulation pump when the circulating water flow in Reheating circulation passage by driving could not be detected by the circulating water flow detection means is a waterless determining unit defeat the aqueous state flag; the The water presence determining unit continuously supplies hot water heated by a hot water supply heat source or water not heated by a hot water supply heat source from a hot water supply source to a hot water supply passage in a predetermined recirculation circulation passage more than a hot water filling amount. A bath apparatus characterized in that a water presence flag is set to indicate that hot water is present in the recirculation circulation passage by detecting that the water presence condition has been satisfied when flowing out . When the hot water start command is issued and the water flag is not raised, the hot water supply heat source is used to determine whether there is a circulating water flow in the recirculation circulation path using the circulation pump and the circulating water flow detection means. bath apparatus according to claim 1, wherein is characterized that you have provided; was hot water filling control unit dropped from water filling passage bathtubs.

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