JP4090946B2 - Water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a hot water supply function for supplying hot water to devices such as kitchens, washrooms and showers, a hot water supply function for supplying hot water to the bathtub and filling the bathtub with hot water, and a reheating for reheating the hot water in the bathtub. The present invention relates to a hot water supply device having a function. In particular, since the water pressure in the hot water supply path is low, in order to prevent the occurrence of a situation where a sufficient amount of hot water is not supplied even if the faucet of the hot water utilization device is opened when the hot water supply operation and the bathtub hot water filling operation are performed simultaneously, The present invention relates to a hot water supply apparatus of a type in which tensioning operation is temporarily stopped to prioritize hot water supply operation.
[0002]
[Prior art]
There is known a hot water supply apparatus having a hot water supply function, a bathtub hot water filling function, and a chasing function. Such a hot water supply apparatus includes a combustion burner that burns fuel and heats water, and heats water supplied to the hot water supply apparatus with combustion heat to supply hot water outside the hot water supply apparatus.
The hot water supply device is connected to the hot water use device by a hot water supply route, and when the faucet of the hot water use device is opened, hot water is supplied from the hot water supply device to the hot water supply route. The hot water supply device is also connected to the bathtub by a bathtub hot water supply route, and when the hot water supply device is instructed to start the bathtub hot water supply operation, hot water is supplied from the hot water supply device to the bathtub hot water supply route. When the cumulative supply amount reaches a preset amount, hot water supply to the bathtub hot water filling route is terminated. The hot water bathing function is also a type of hot water supply function, but in order to make the situation different from that of supplying hot water to the kitchen, washroom or shower, the hot water supply is continued until the set amount is reached. It is assumed that the function and the hot water supply function are different. When the hot water in the bathtub cools, a chasing operation is performed. In the reheating operation, water in the cistern built in the hot water supply device is heated by a combustion burner and a heat exchanger for heating the bath water is circulated to reheat the hot bath water to a set temperature.
[0003]
The hot water supply apparatus having the above function can simultaneously operate the hot water supply function and the bathtub hot water filling function. However, if the hot water supply operation and the bathtub hot water operation are performed at the same time when the pressure of the water supply path for supplying water to the hot water supply device is low, a sufficient amount of hot water will not be supplied even if the faucet of the hot water utilization device is opened widely. The usability of the utilization device may deteriorate.
[0004]
In order to save energy, a hot water supply system has been developed in which hot water heated by solar heat or power generation heat is stored in a hot water storage tank, and the stored hot water is supplied to a hot water utilization device. In that system, assuming that the hot water stored in the hot water tank has been used up, the hot water in the hot water tank is passed through the hot water supply device and then supplied to the hot water utilization device. If the hot water temperature of the hot water tank is high, the hot water is passed without being heated by the hot water supply device, and if the hot water temperature of the hot water tank is low, the hot water is heated by the hot water supply device.
It is difficult to increase the pressure resistance of the large hot water tank, and if the tap water pressure is directly applied to the hot water tank, the hot water tank may not be able to withstand the tap water pressure. Therefore, a pressure reducing valve is attached to the tap water supply channel, and the depressurized tap water is supplied to the hot water storage tank. In such a case, the water pressure in the path for supplying water from the hot water storage tank to the hot water supply device has also been reduced. There is a high possibility that the usability of the hot water use device will deteriorate without hot water supply.
[0005]
Conventionally, in order to prevent the occurrence of a situation in which a sufficient amount of hot water cannot be obtained even if the faucet of the hot water utilization device is wide open because the hot water supply operation and the bathtub hot water operation are performed simultaneously even though the water pressure is low, When certain conditions are met, the bathtub filling operation is stopped. In Patent Document 1, a sensor for measuring the flow rates of the hot water supply passage and the bathtub hot water supply route is provided, hot water is supplied to both the hot water supply route and the bathtub hot water supply route, and only a flow rate within a predetermined flow rate range is supplied to the hot water supply route. A technique for stopping bathtub filling operation when there is no is disclosed. When the bathtub hot water filling operation is stopped, only the hot water supply operation is continued, and a sufficient amount of hot water supply can be obtained by the hot water utilization device.
If the flow rate of the hot water supply path is less than the predetermined flow rate range, it can be considered that the hot water utilization device is not being used (the flow meter has an error, so the flow rate is detected even though it does not actually flow) If a flow rate that is detected but not flowing is detected, it indicates that the hot water usage device is being used, and if no such flow rate is detected, the hot water usage device is Do not stop bathing in the bathtub.
In addition, when the flow rate of the hot water supply path is larger than the predetermined flow rate range, it can be considered that a sufficient amount of hot water is supplied to the hot water utilization device, and in this case, the bath hot water operation is not stopped.
[0006]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 10-026407
[0007]
In the technique disclosed in Patent Document 1, when the hot water supply operation and the bathtub hot water operation are performed simultaneously, the flow rate of the hot water supply path is measured by a flow sensor, and the measured hot water supply amount is insufficient or insufficient. Judgment is made. If it is determined that the amount of hot water supplied to the hot water supply route is insufficient, the hot water supply operation to the bathtub is stopped and the hot water supply operation to the hot water supply route is given priority. Hot water is supplied, and users are not frustrated.
While the hot water supply operation is prioritized, the bathtub is not filled with water, but when the use of the hot water use device such as the kitchen, the washroom, or the shower is finished, the bathtub hot water operation is resumed. Although the hot water filling completion timing is delayed due to the stop of the bath hot water filling operation, it is unavoidable that the hot water filling device delays the hot water filling completion timing in order to secure the necessary amount of hot water.
[0008]
[Problems to be solved by the invention]
If the amount of hot water sufficient to simultaneously execute the hot water supply operation and the bathtub hot water operation is not secured, it is unavoidable to stop the bathtub hot water operation that prioritizes the hot water operation. However, if the user only takes care of stopping the bathtub hot water operation, the completion timing of the hot water to the bathtub is delayed by the stop period of the bathtub hot water operation. If the temperature of the hot water in the bathtub that has been stored in the bathtub is lowered while the bath hot water operation is stopped, the hot water filling completion timing is delayed more than the stop period of the bath hot water operation.
[0009]
The present invention has been made in view of the above-described problems, and when the amount of hot water sufficient to execute the hot water supply operation and the bath hot water operation cannot be secured, the bath hot water operation is stopped and the hot water operation is given priority. At the same time, the present invention provides a technique for shortening the delay in the completion of the hot water filling by executing what can be executed even when the hot water bath operation is stopped.
[0010]
[Means and Actions for Solving the Problems]
  The hot water supply apparatus of the present invention, OfferingWater suppliedAddHeatedUse of hot wateras well asBathtubIt is of the type supplied to The hot water supply apparatus of the present invention isA hot water supply path whose upstream end is connected to a water supply source and whose downstream end is connected to a hot water use location, a combustion burner for heating water in the hot water supply route, and water supplied from the hot water supply route to the hot water use location A flow rate sensor for measuring the flow rate, a hot water filling passage that branches from the hot water supply passage downstream from the combustion burner and whose downstream end is connected to the bathtub, a hot water filling valve that opens and closes the bathtub hot water filling route, an upstream end, A bathtub water circulation path whose downstream end is connected to the bathtub, a pump that circulates the bathtub water in the bathtub water circulation path, and a heat exchanger that heats the water in the bathtub water circulation path through the bathtub water circulation path. And a controller. controllerIsMeasured with a flow sensorWhen the flow rate is not less than the first predetermined value and not more than the second predetermined value,Hot water valveCloseBy running heat exchangers and pumpsHeating the bath waterThe
  The first predetermined value is a flow rate slightly exceeding the flow rate that may be detected even though hot water is not flowing through the hot water supply path due to an error in the flow rate sensor, and a flow rate that is equal to or greater than the first predetermined value is detected. If it is, it turns out that the hot water utilization apparatus is utilized.
  The second predetermined value is the amount of hot water that the user does not feel inconvenient. If a flow rate equal to or greater than the second predetermined value is detected, it can be determined that there is no dissatisfaction with the user of the hot water utilization device.
[0011]
  When the flow rate of the hot water supply path is not less than the first predetermined value and not more than the second predetermined value, it is understood that a sufficient amount of hot water is not supplied although the hot water utilization device is used. In this case, the controller closes the bathtub hot water path and stops supplying hot water to the bathtub hot water path. The hot water that has been supplied to the bathtub hot water supply route is supplied to the hot water supply route, and the amount of hot water supplied to the hot water supply route can be increased.
  While the controller has stopped bathing,Bathtub water circuitUsing bathtub waterAddheatCarry out driving. In memorial driving,In order to heat the bathtub water by circulating the bathtub water circuit,Does not consume water. The amount of hot water supply in the hot water supply path is not reduced.
  In normal bathtub filling operation, hot water lower than the set temperature is supplied to the bathtub. After the lower amount of warm water is supplied to the bathtub by a set amount, a chasing operation is performed to heat the bathtub water to the set temperature. When the chasing operation is performed, the temperature of the bath water is made uniform, and the bath becomes comfortable.
  If the chasing operation is performed while the bath hot water operation is stopped, the temperature of the hot water in the bath when the hot water supply to the bathtub reaches the set amount is resumed. It is closer to the set temperature than the temperature when the chasing operation is not executed during the stop, and the time required for chasing can be shortened. Accordingly, it is possible to shorten the time for which the completion timing of filling the bathtub is delayed.
  In particular, when the bathtub hot water stored in the bathtub is cooled while the bath hot water operation is stopped, the effect is great. If the reheating operation is not performed while the bath water filling operation is stopped, the bath hot water is cooled, so the bath water filling operation is resumed and the bath hot water when the hot water supply amount reaches the set amount. The temperature is low. Contrary to this, when the reheating operation is performed while the bath water filling operation is stopped, the bath water filling operation is resumed and the hot water supply amount to the bathtub reaches the set amount because the bath hot water is not cooled. The temperature of the hot water in the bathtub is high. In the former case, it takes a long time to reach the set temperature, and in the latter case, it can be heated to the set temperature with a short follow-up operation.
[0012]
  Measured with a flow sensorThe flow rate is not less than the first predetermined value and not more than the second predetermined value;Hot water valveOnly when the tub is closed and the tub has sufficient water level to circulate through the tub water circuitBy operating the heat exchanger and pumpIt is preferable to heat bath water.
  If the bathtub does not have a water level sufficient to circulate through the bathtub water circulation path, the chasing operation is not performed, so that it is possible to prevent the bathtub water circulation path from rising abnormally.
[0013]
  Hot water supply routeMeasure the water pressure insidepressureIf you have a sensor,Measured with a flow sensorNot only is the flow rate not less than the first predetermined value and not more than the second predetermined value,Measured by pressure sensorOnly when the pressure is below the third predetermined valueHot water valveThe hot water supply operation can be prioritized by closing the.
[0014]
If the pressure of the hot water supply path is used for the determination in addition to the flow rate of the hot water supply path, the user of the hot water use device needs a small amount of hot water, so the faucet is intentionally opened slightly, so the amount of hot water supply It becomes possible to determine whether the flow rate is low or the flow rate is insufficient against the intention of the user of the hot water utilization device. If it is the former, the bathing operation to a bathtub can be completed in a short time, without stopping bathtub bathing operation. In the latter case, it is necessary to stop the bath hot water operation and obtain the necessary amount of hot water supply.
The third predetermined value is set to a pressure slightly higher than the pressure at which the desired amount is supplied when the faucet is greatly opened. If a pressure equal to or higher than the third predetermined value is obtained, the hot water utilization device It can be determined that the user does not feel inconvenience, and if only a pressure equal to or lower than the third predetermined value is obtained, it can be determined that the desired amount of hot water cannot be obtained even if the faucet is opened wide. .
According to the hot water supply device of the present invention, when the user of the hot water use device needs a small amount of hot water and intentionally opens the faucet only a little, the hot water supply amount is small, so the bath hot water operation is performed. The hot water filling operation to the bathtub can be completed in a short time without stopping. If the water pressure is low and the flow rate is insufficient against the intention of the user of the hot water use device, the bath water filling operation is stopped so that the necessary amount of hot water can be obtained, and at the same time By performing the chasing operation during the stop, the delay in the completion timing of the bath water filling operation can be shortened.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
The main features of the embodiments described below are listed below.
(Mode 1) The hot water supply apparatus includes a hot water supply burner that heats supplied water and an auxiliary burner that heats water in the cistern.
(Mode 2) The hot water supply device includes a flow rate sensor that measures the flow rate of water supplied to the hot water supply device and a pressure sensor that measures the water pressure supplied to the hot water supply device.
(Embodiment 3) The bathtub hot water path for hot water filling the bathtub branches off from the hot water supply path connecting the hot water supply device and the hot water utilization device. A flow rate sensor is disposed in the bathtub hot water path.
(Mode 4) The amount of water supplied to the hot water supply path is calculated from the difference between the amount of water supplied to the hot water supply apparatus and the amount of water supplied to the hot water bathing path.
(Mode 5) The controller of the hot water supply apparatus includes a plurality of valves that open and close a path through which hot water passes, and a microcomputer that controls opening and closing of the valves. A flow rate sensor that measures the flow rate of water supplied to the hot water supply device, a pressure sensor that measures the water pressure supplied to the hot water supply device, and a flow rate sensor that measures the flow rate of the hot water bathing path are connected to a microcomputer and measured. Enter the flow rate and pressure.
(Mode 6) A recirculation circuit for returning from the cis turn to the cis turn via the auxiliary burner and the heat exchanger for exchanging heat with the bath water is provided.
(Mode 7) A high-temperature heating path is provided from the cis-turn to the cis-turn via an auxiliary burner and a heater that requires high-temperature hot water.
(Embodiment 8) A low temperature heating path is provided from the cis turn, which bypasses the auxiliary burner and returns to the cis turn via a heater that requires low temperature hot water.
(Mode 9) A hot water storage tank is provided upstream of the hot water supply apparatus. The water in the hot water tank is heated by the heat generated by the fuel cell power generation system including the reformer while circulating through the heat recovery path and returning to the hot water tank. Heated hot water is stored in a hot water tank.
(Mode 10) The temperature of the hot water supplied to the bathtub filling route is adjusted to be slightly lower than the set temperature. After the amount of hot water supplied to the bathtub reaches a preset amount, reheating for heating the bathtub water to the set temperature is performed.
[0016]
【Example】
An embodiment in which the present invention is applied to a hot water supply apparatus provided downstream of a hot water storage tank for recovering heat of a fuel cell power generation system and storing heated hot water will be described in detail with reference to the accompanying drawings.
(First Embodiment) FIG. 1 schematically shows a hot water supply apparatus 2 according to the first embodiment. The hot water supply device 2 includes a hot water supply burner 4, an auxiliary burner 6, a cistern 8, and a controller. The controller includes a plurality of valves 32, 34, 36, 38, 40, 44 provided in a path through which hot water supplied from the hot water supply device 2 passes, and a microcomputer 62 that controls opening and closing of these valves. The hot water supplied from the hot water supply device 2 passes through and the flow rate is controlled.
The hot water supply device 2 heats the water supplied from the mixing unit 86 with the hot water supply burner 4 to make warm water. Hot water is supplied by a hot water supply path 10 to a hot water use device represented by a washroom, kitchen, shower, and the like. The hot water utilization apparatus has a faucet 20, and hot water is supplied when the faucet 20 is opened. A flow rate sensor 22 and a pressure sensor 26 are disposed upstream of the hot water supply burner 4, and the flow rate and water pressure supplied to the hot water supply device 2 are measured.
In order to supply hot water to the bathtub 16 and fill with hot water, the hot water supply path 10 branches from the hot water supply path 10. A hot water filling valve 32 and a flow rate sensor 24 that can be switched between a closed state and an open state are disposed in the bathtub hot water filling path 12. When the hot water filling valve 32 is opened, hot water is supplied to the bathtub hot water filling passage 12. When the hot water filling valve 32 is in a closed state, hot water is not supplied to the bathtub hot water filling passage 12.
The flow rate sensors 22 and 24 and the pressure sensor 26 are connected to the microcomputer 62, and the measured flow rate and water pressure are input to the microcomputer 62. The hot water filling valve 32 is also connected to the microcomputer 62, and switching between the open state and the closed state is performed according to a command from the microcomputer 62.
[0017]
The cistern 8 of the hot water supply apparatus 2 is provided with a recirculation circuit 14 that passes through the auxiliary burner 6, passes through a heat exchanger 18 that exchanges heat with bathtub water stored in the tub 16, and returns to the cistern 8. ing. In addition, a high-temperature heating circuit 46 and a low-temperature heating circuit 48 are provided. Further, a bypass circulation path 58 that returns to the cistern 8 without passing through any heat exchanger is also provided.
A valve 40 is provided in the recirculation circuit 14. The valve 40 is connected to a microcomputer 62, and the tracking circuit 14 can be opened and closed by a command from the microcomputer 62. Similarly, the valve 34 can open and close the high temperature heating circuit 46, the valve 36 can open and close the low temperature heating circuit 48, and the valve 38 can open and close the bypass circuit 58. The pump 30 is provided in the common part of the recirculation circuit 14, the high temperature heating circuit 46 and the low temperature heating circuit 48. The valves 34, 36, 38, and 40 are normally closed, and when any of the valves is opened, the pump 30 is operated and circulates in the circulation path in which the water of the cistern 8 is opened.
[0018]
A hot water tank 72 is provided upstream of the hot water supply device 2. The hot water storage tank 72 stores the solid polymer fuel cell 102 and hot water heated by heat from a reformer 104 provided to supply hydrogen gas to the fuel cell 102.
The hot water storage tank 72 is provided with a water supply path 82 for supplying tap water and a heat recovery water circulation path 76 for taking water from the bottom and entering the upper part. If hot water is introduced directly into the hot water storage tank 72, there is a risk of deformation or failure due to the pressure of the tap water. Therefore, a pressure reducing valve 84 is attached to the water supply path 82 to limit the water supply pressure. The water in the hot water tank 72 is circulated in the water circulation path 76 by the pump 78.
The fuel cell 102 generates heat during power generation. Cooling water passing through the fuel cell 102 circulates in the cooling circuit 112 by the pump 114. A first heat exchanger 108 is provided for exchanging heat between the cooling water in the cooling circuit 112 and the water circulating in the water circuit 76, and the water in the water circuit 76 is first in the first heat exchanger 108. To be warmed.
The reformer 104 keeps the reforming catalyst at a high temperature with the combustion heat of the burner 106 in order to obtain hydrogen gas as fuel for the fuel cell from the raw hydrogen carbonate gas. At this time, high-temperature combustion exhaust gas is generated. To do. A second heat exchanger 110 for exchanging heat between the flue gas of the reformer 104 and the water circulating in the heat recovery water circulation path 76 is provided, and the water in the water circulation path 76 is used as the second heat exchanger. The hot water is further heated at 110 and stored in the hot water tank 72.
The water in the hot water storage tank 72 has a relatively low temperature at the bottom and a high temperature at the top. Between the cistern 8 and the hot water storage tank 72 of the hot water supply device 2, there is provided a circulation path 74 that takes water from the cistern 8, passes through the upper part of the hot water storage tank 72, and returns to the upper part of the cistern 8. The water in the cistern 8 that circulates in the circulation path 74 is warmed when passing through the hot water storage tank 72 to become hot water. Further, the hot water storage tank 72 is provided with a discharge port for discharging high-temperature water at the top, and the discharged hot water is supplied to the hot water supply device 2 via the mixing unit 86. The pressure of water supplied from the hot water tank 72 to the hot water supply device 2 is lower than that of tap water, as is the pressure of water supplied to the hot water tank 72.
[0019]
The mixing unit 86 mixes hot water supplied from the hot water tank 72 and low-temperature tap water to adjust the temperature appropriately. For example, if hot water having a temperature higher than the set temperature for filling the bathtub is stored in the hot water tank 72, the hot water is adjusted to the set temperature by mixing with an appropriate amount of tap water. In this case, the hot water adjusted by the mixing unit 86 is supplied to the bathtub 16 through the hot water supply device 2 without using the burner 4 of the hot water supply device 2. Since it is not necessary to burn fuel with the burner 4 of the hot water supply device 2, energy saving is possible. If the temperature of the hot water stored in the hot water tank 72 does not reach the set temperature, the hot water is heated to the set temperature by the burner 4 of the hot water supply device 2 and supplied.
[0020]
When the set temperature and the set amount of hot water are set in the microcomputer 62 and a hot water filling command is input to the microcomputer 62, the hot water filling operation to the bathtub 16 is started. Receiving the hot water filling instruction, the microcomputer 62 opens the hot water filling valve 32 to open the route from the hot water supply route 10 to the bathtub 16 through the hot water bathing route 12. Hot water is supplied to the bathtub hot water passage 12 at a temperature slightly lower than the set temperature. The microcomputer 62 obtains a cumulative value of the amount of hot water supplied to the bathtub filling passage 12 by integrating the value of the flow sensor 24, and monitors this value. When the accumulated hot water supply amount to the bathtub 16 reaches the set hot water amount, the hot water supply is finished.
[0021]
When the faucet 20 of the hot water utilization device is opened during the bath water filling operation, hot water is supplied to both the bathtub 16 and the faucet 20. Hot water supply device 2 is supplied with water from hot water storage tank 72, and the water supply pressure is kept lower than the pressure of tap water. For this reason, even if the faucet 20 is opened widely, the amount of hot water supply does not increase, and the usability of the hot water utilization device may deteriorate. The microcomputer 62 monitors the flow rate and the water pressure of the hot water supply path 10 during the bath hot water operation, and if the hot water supply device is insufficient due to insufficient hot water supply to the hot water supply path 10, Close and give priority to hot water supply to hot water usage equipment.
FIG. 2 shows a processing procedure for controlling the amount of hot water to be executed by the microcomputer 62. Hereinafter, it will be described in more detail based on the flowchart of FIG.
[0022]
In this embodiment, a first predetermined value related to the flow rate, a second predetermined value related to the flow rate, and a third predetermined value related to the water pressure are used. These predetermined values are stored in the microcomputer 62.
The first predetermined value stores a lower limit value of the flow rate of the hot water supply passage 10 when the tap 20 is opened, and the value is 6 liters per minute. If the flow rate of the hot water supply path 10 is 6 liters or more per minute, it can be seen that the faucet 20 of the hot water utilization device is opened. If the flow rate of the hot water supply path 10 is 6 liters or less per minute, it may be due to an error of the flow rate sensor, and the faucet 20 of the hot water utilization device may not be opened. The second predetermined value stores the flow rate of the hot water supply path 10 when the hot water utilization device is used in a normal state, and is 12 liters per minute. If hot water is supplied at 12 liters or more per minute, the user of the hot water utilization device does not feel inconvenience.
The third predetermined value stores a water pressure reference value at which a sufficient amount of hot water is supplied by opening the faucet 20 widely in the hot water supply path 10 and is 0.25 megapascals.
[0023]
When the microcomputer 62 receives the start instruction for the bath hot water operation, the hot water is supplied to the bath hot water path 12 by opening the hot water valve 32 in step S2. When hot water begins to be supplied to the bathtub hot water path 12, the microcomputer 62 inputs and integrates the flow rate measured by the flow rate sensor 24. In step S4, the microcomputer 62 confirms whether or not the integrated value of the flow rate of the flow rate sensor 24 has reached a preset water amount. If the set amount of water is not reached, step S4 is no and the hot water filling operation is continued, and the microcomputer 62 is not sufficiently supplied with hot water to the faucet 20 of the hot water utilization device by the hot water filling operation to the bathtub 16. Judgment of whether or not it is started.
The microcomputer 62 obtains the flow rate of the hot water supply path 10 downstream of the branch point of the bathtub hot water path 12 from the difference between the flow sensor 22 and the flow sensor 24. This flow rate corresponds to the flow rate of hot water supplied to the faucet 20. In the flowchart of FIG. 2, this flow rate is referred to as the flow rate of the hot water supply path 10. In step S6, the microcomputer 62 compares the amount of hot water supplied to the tap 20 with a first predetermined value (in this case, 6 liters per minute). When the amount of hot water supplied to the faucet 20 is less than 6 liters per minute, it is considered that the faucet 20 is slightly forgotten to close or within the error range of the flow rate sensors 22 and 24 and the hot water supply utilization device is not actually used. It is done. When the amount of hot water supplied to the faucet 20 is less than 6 liters per minute, step S6 becomes no and control by the microcomputer 62 returns to step S2. When the amount of hot water supplied to the faucet 20 is 6 liters per minute or more, it is considered that the faucet 20 is opened and hot water is being used. At this time, the answer to step S6 is YES, and the processing of the microcomputer 62 proceeds to step S8.
In step S8, the microcomputer 62 compares the amount of hot water supplied to the faucet 20 with a second predetermined value (in this case, 12 liters per minute). When the amount of hot water supplied to the faucet 20 is greater than 12 liters per minute, a necessary and sufficient amount of hot water is supplied to the faucet 20, and there is no need to limit the flow rate of the bathtub hot water filling passage 12. When the amount of hot water supplied to the faucet 20 exceeds 12 liters per minute, step S8 becomes no and control by the microcomputer 62 returns to step S2. When the amount of hot water supplied to the faucet 20 is 12 liters per minute or less, hot water is used at the faucet 20 and the flow rate is considered to be less than the normal usage amount. At this time, the answer to step S8 is YES, and the microcomputer 62 performs the process of step S10 in order to determine whether or not an unusable situation has occurred because the amount of hot water supplied to the faucet 20 is insufficient.
In step S10, the microcomputer 62 compares the water pressure measured by the pressure sensor 26 in the hot water supply path 10 with a third predetermined value (in this case, 0.25 megapascal). If the pressure in the hot water supply passage 10 is 0.25 megapascals or more, the amount of hot water supply can be increased accordingly if the faucet 20 is opened widely. If the flow rate is small despite the water pressure in the hot water supply path 10 being 0.25 megapascals or more, the user of the hot water utilization device squeezes the faucet 20 and intentionally uses a small amount of hot water. There are few, and it is thought that the user does not feel inconvenience to the hot water use device. Therefore, it is considered unnecessary to limit the flow rate of the bathtub hot water path 12. When the water pressure in the hot water supply path 10 is 0.25 megapascals or more, step S10 becomes no, the processing by the microcomputer 62 returns to step S2, and hot water supply to the bathtub hot water supply path 12 is continued as it is.
When the water pressure in the hot water supply path 10 is 0.25 megapascals or less, the water pressure is low, so even if the faucet 20 is opened widely, the amount of hot water supply does not increase, and it can be said that an unusable situation has occurred in the hot water utilization device. . At this time, the answer to step S10 is YES, and the microcomputer 62 performs control to give priority to the hot water supply to the faucet 20 by stopping the bath water filling operation.
[0024]
If all the determinations from step S6 to step S10 are yes, and it becomes clear that the amount of hot water supplied to the faucet 20 of the hot water utilization device is insufficient and the usability is deteriorated, the microcomputer 62 determines that the hot water filling valve 32 is in step S12. The hot water supply which went to the bathtub hot water path 12 is stopped and hot water is supplied with priority over the faucet 20. Since the amount of hot water supply of the faucet 20 increases, the inconvenience is eliminated.
While the hot water filling operation to the bathtub 16 is stopped, the microcomputer 62 starts the process after step S14, tracks the hot water already stored in the bathtub 16, and brings the bathtub water to the set temperature. warm. The chasing operation is performed only when the bathtub water has reached a water level that can circulate through the bathtub water circulation path 60 provided between the bathtub 16 and the heat exchanger 18 (determination in step S14). If the water level in the bathtub 16 is low and water cannot be circulated through the bathtub water circulation path 60 even if the pump 28 provided in the bathtub water circulation path 60 is operated, step S14 becomes no and no reheating is performed. The process of 62 returns to step S6.
When the water level of the bathtub 16 is an amount that can circulate through the bathtub water circulation path 60, the answer to step S14 is YES, and the microcomputer 62 starts the bath water pursuit operation (step S16).
Remembrance is performed as described below. When the chasing operation is started, the microcomputer 62 opens the control valve 40 and simultaneously operates the pump 28. When the control valve 40 is opened, the pump 30 is operated, cistern water is circulated in the recirculation circuit 14 and heated by the auxiliary burner 6 to become hot water. On the bathtub 16 side, the water stored in the bathtub circulates in the bathtub water circulation path 60. The water that circulates through the bathtub water circulation path 60 after leaving the bathtub 16 and the hot water that has been heated by the auxiliary burner 6 after leaving the cistern 8 exchange heat with the heat exchanger 18. The hot water in the bathtub 16 becomes a high temperature due to heat exchange and is chased.
A bath thermistor 42 is disposed in the bathtub water circulation path 60, and the measured temperature is input to the microcomputer 62. When the temperature of the hot water in the bathtub water circulation path 60 measured by the bath thermistor 42 has not reached the set temperature, step S18 is NO, and the chasing is continued. When the hot water in the bathtub water circulation path 60 reaches the set temperature, the answer to step S18 becomes yes, and the chasing ends in step S20.
When the chasing is completed, the control valve 40 is closed and the pump 28 and the pump 30 are stopped. The processing of the microcomputer 62 returns to the determination operation in step S6.
[0025]
The microcomputer 62 periodically performs the determination from step S6 to step S10, and performs the filling operation to the bathtub 16 only when the amount of hot water supplied to the faucet 20 of the hot water utilization device is insufficient and the usability is poor. When the water is stopped and the hot water can be sufficiently supplied to the faucet 20, the hot water filling operation for the bathtub 16 is continued. When the integrated value of the flow rate measured by the flow rate sensor 24 reaches the set water amount, the answer to step S4 is YES, the process proceeds to step S22, the hot water filling valve 32 is closed, and the last reheating is performed (step S24). .
The chasing performed in step S24 is performed by the same method as the chasing performed in step S16. Since the temperature of the hot water supplied to the bathtub 16 is slightly lower than the set temperature, the temperature of the bathtub water when the set amount of hot water is supplied to the bathtub 16 is slightly lower than the set temperature. By circulating the bathtub water from this state and performing a chasing operation, the bathtub water becomes a uniform temperature and becomes a bath that can be comfortably bathed.
When the hot water in the bathtub 16 is heated to a predetermined temperature by the chasing operation, step S26 becomes YES and the chasing is completed (step S28), and the bath water filling operation is completed.
[0026]
FIG. 3 shows a graph in which the horizontal axis represents the elapsed time since the hot water supply device 2 started the bathtub hot water filling operation, and the vertical axis represents the amount of hot water supplied to the bathtub 16 (integrated value) and the temperature of the bathtub water. In the hot water filling operation to the bathtub 16, hot water having a temperature slightly lower than the set temperature stored in the microcomputer 62 is supplied. When hot water supply to the faucet 20 is given priority and the hot water filling operation is stopped, if several places of the bathtub 16 reach the bathtub circulation path 60, the chasing operation is started. The bathtub water circulates in the bathtub water circulation path 60 and is heated to the set temperature by exchanging heat with the hot water supplied from the cistern 8 by the heat exchanger 18.
When the amount of hot water supplied to the faucet 20 is no longer insufficient, the bathtub hot water filling operation is resumed. Since hot water having a temperature slightly lower than the set temperature is again supplied to the bathtub 16, the temperature of the hot water in the bathtub 16 is slightly lowered. After the set amount of hot water is supplied to the bathtub 16, the chasing operation is performed again to heat the bathtub water to the set temperature. The bathtub water is heated from the hot water supply temperature by a reheating operation performed while the hot water operation is stopped. For this reason, the reheating time for heating the bath water to the set temperature at the end of the hot water operation is short. For this reason, it is possible to shorten the time until completion of the filling.
[0027]
The hot water of the cistern 8 is used not only for replenishing bathtub water but also for supplying heat to a high temperature load 54 such as a bathroom heater and a low temperature load 56 such as floor heating. A high-temperature heating path 46 is branched from the recirculation circuit 14, and when supplying heat to the high-temperature load 54, the control valve 34 is opened and the hot water of the cistern 8 heated by the auxiliary burner 6 is hot. Heat can be circulated through the heating path 46 and the heat exchanger 50 can supply heat to the high temperature load 54. When supplying heat to the low temperature load 56, the control valve 36 is opened, the hot water of the cistern 8 circulates in the low temperature heating path 48, and heat is supplied to the low temperature load 56 by the heat exchanger 52. When the temperature of the hot water in the cistern 8 becomes too low to supply heat to the low temperature load 56, the control valve 38 is opened, and a bypass circuit 58 that circulates between the cistern 8 and the auxiliary burner 6 communicates. The auxiliary burner 6 is ignited to warm the hot water in the cistern 8 circulating through the bypass circuit 58 to an appropriate temperature. When the low-temperature heating path 48 is used, the three-way valve 44 can be switched so that the circulation path 74 passing through the hot water tank 72 is circulated. In this case, the hot water circulating through the low-temperature heating path 48 is heated by the hot water in the hot water tank 72. If the circulation path 74 is used when the heating operation is stopped while the hot water temperature in the hot water tank 72 is low and the hot water temperature circulating in the low temperature heating path 48 is high, the energy of the hot water circulating in the low temperature heating path 48 is used as the hot water tank 72. Can be recovered.
[0028]
According to the hot water supply device 2 of the present embodiment, when the hot water filling operation to the bathtub 16 and the hot water supply operation to the faucet 20 of the hot water utilization device are simultaneously performed, the flow rate and water pressure of the hot water supply path 10 are measured, and the flow rate and water pressure are determined. By comparing with each predetermined value, it is determined whether or not the amount of hot water supply to the faucet 20 is sufficiently secured. Considering the water pressure in the hot water supply path 10 in addition to the flow rate, it is possible to make a determination reflecting the actual usage of the hot water utilization device, and the bathtub hot water path 12 is closed only when it is really necessary to give priority to the faucet 20. Hot water can be supplied. Since the frequency of stopping the hot water filling operation can be reduced as compared with the conventional case, the hot water filling device can be filled in the bathtub 16 in a shorter time even if the hot water utilization device is used as in the conventional case. .
Moreover, the hot water supply device 2 of the present invention performs a bath water reheating operation while the bath water filling operation is stopped. In normal bathtub hot water operation, hot water lower than the set temperature is supplied, and finally, hot water operation is completed. When the chasing operation is performed while the hot water filling operation is stopped, the bathtub water is heated above the hot water supply temperature, and the chasing time for heating the bathtub water to the set temperature can be shortened. For this reason, the time required for hot water filling can be shortened.
[0029]
(Second Embodiment) In the first embodiment, not only steps S6 and S8 become yes, but also begins to become yes until step S10, and the hot water filling valve 32 is closed. On the other hand, step S10 may be omitted as shown in the processing procedure diagram of FIG. In this case, as in Japanese Patent Application Laid-Open No. 10-026407, the user of the hot water use device needs a small amount of hot water, so the faucet is intentionally opened slightly so that the amount of hot water supply is small. Alternatively, it is not distinguished whether the water pressure is low and the flow rate is insufficient against the will of the user of the hot water utilization device. If a hot water supply operation and a bathtub hot water operation are performed simultaneously and a sufficient amount of hot water is not supplied to the hot water supply route, the hot water supply operation is given priority by temporarily stopping the hot water bath operation.
Even in this case, it is useful to perform the chasing operation while the bath water filling operation is stopped, and the completion timing of the bath water filling operation is advanced by executing the chasing operation while the bath water bathing operation is stopped. be able to.
[0030]
(Third embodiment) In this embodiment, the opening amount of the bathtub filling valve 32 shown in FIG. 1 can be adjusted in multiple stages, and the flow rate to the bathtub filling passage 12 can be adjusted in other stages. The microcomputer 62 specifies the opening amount of the bathtub filling valve 32 and adjusts the flow rate of the bathtub filling path 12.
[0031]
In the hot water utilization apparatus of the present embodiment, even when the water pressure in the hot water supply path 10 is less than 0.25 megapascal, the usability is not immediately deteriorated. However, if the water pressure is further reduced from 0.25 megapascal, the possibility of giving the user dissatisfaction increases. Therefore, when the water pressure in the hot water supply passage 10 is 0.25 megapascal or less, the hot water filling valve 32 provided in the bathtub hot water filling route 12 is throttled stepwise to limit the flow rate in the bathtub hot water filling route 12. Thus, the amount of hot water that can be supplied to the faucet 20 is increased to prevent the usability of the hot water utilization device from deteriorating.
[0032]
The processing procedure of the third embodiment is shown in FIG. In the following, only differences from FIG. 2 will be described. The same processing as in FIG. 2 is assigned the same step number, and redundant description is omitted.
In steps S6, S8, and S10, the microcomputer 62 determines whether or not there is a risk that only an insufficient amount of hot water is supplied even though the faucet 20 is largely opened.
If the amount of hot water supplied to the faucet 20 is less than 6 liters per minute and the faucet 20 is not used, step S6 is no and the microcomputer 62 makes the determination in step S36. Here, since the hot water filling has just started and the hot water filling valve 32 is fully open, step S36 is YES and the processing of the microcomputer 62 returns to step S4.
When the amount of hot water supplied to the faucet 20 is greater than 12 liters per minute, step S8 is no and the processing of the microcomputer 62 returns to step S4.
When the amount of hot water supplied to the faucet 20 is not less than 6 liters per minute and not more than 12 liters, both step S6 and step S3 are yes, and the microcomputer 62 has a shortage of hot water supplied to the faucet 20 and has a necessary flow rate. The process further proceeds to determine whether an unobtained situation has occurred. In step S10, the microcomputer 62 compares the water pressure measured by the pressure sensor 26 in the hot water supply path 10 with the third predetermined value. If the measured pressure of the hot water supply passage 10 is equal to or higher than the third predetermined value, a sufficient amount of hot water supply can be obtained by opening the faucet 20, so there is no need to limit the flow rate of the bathtub hot water passage 12. At this time, step S10 is no, control by the microcomputer 62 returns to step S4, and hot water supply to the bathtub hot water filling path 12 is continued with the hot water filling valve 32 opened. When the water pressure in the hot water supply passage 10 is 0.25 megapascals or less, if the water pressure drops below that, the amount of hot water supply will not increase even if the faucet 20 is opened widely, and there is a risk that the hot water utilization device will be unusable. . At this time, the answer to step S10 is YES, and the microcomputer 62 starts the processing of step S32 and subsequent steps in which the amount of hot water is limited and priority is given to hot water supply to the faucet 20.
[0033]
In step S32, the microcomputer 62 throttles the hot water filling valve 32 by one step. The amount of hot water supplied to the bathtub hot water path 12 is reduced by one step, and hot water corresponding to that amount is supplied to the faucet 20.
Next, in step S34, the microcomputer 62 determines whether or not the hot water filling valve 32 has completely closed the bathtub hot water filling path 12 by the previous throttling operation (step S32). If the hot water filling valve 32 is still open and hot water is supplied to the bathtub hot water filling path 12, the answer to step S34 is no, and the control of the microcomputer 62 returns to step S4 to supply hot water to the bathtub 16. Check the amount. If the amount of hot water supplied to the bathtub 16 has not reached the predetermined amount and the faucet 20 is not closed, the process proceeds to step S8, and it is determined again whether or not the amount of hot water supplied to the faucet 20 is sufficient. Here, if the amount of hot water supplied to the faucet 20 is insufficient even by the previously performed throttle operation of the hot water filling valve 32 in step S32, all the determinations in step S8 are again yes, so the processing in step S32 is performed. Repeatedly, the microcomputer 62 further throttles the hot water filling valve 32. If a sufficient amount of hot water is supplied to the faucet 20 by the previous throttling operation (if no in step S8), or if the pressure in the hot water supply path increases (if no in step S10), or If hot water supply to the faucet 20 is no longer necessary (if no in step S6), the determination in step S6 to step S10 is no, so the microcomputer 62 performs the determination in step S36. Since the hot water filling valve 32 is slightly throttled and not fully opened, step S62 is NO. In this case, the hot water filling valve 32 is opened by one step in step S38. The amount of hot water filling is increased within a range where there is no shortage of hot water supply to the hot water supply path 10, the hot water filling operation is continued, and the processing of the microcomputer 62 returns to step S4.
[0034]
When the throttle operation of the hot water filling valve 32 in step S32 is repeated, the bathtub hot water filling path 12 is all closed and the hot water filling to the bathtub 16 is stopped. If the hot water filling is stopped, the answer to step S34 is YES, and the microcomputer 62 confirms the level of the hot water already stored in the bathtub 16 in step S14, and if the water level that can circulate through the bathtub water circulation path 60 is stored. In step S16 to step S20, bath water replenishment is executed. When the chasing is completed, the processing of the microcomputer 62 returns to the determination operation in step S6.
When the water level of the bathtub 16 is low and the bathtub water cannot circulate through the bathtub water circulation path 60, step S14 is no and no reheating is performed, and the processing of the microcomputer 62 returns to the determination operation of step S6.
When the hot water filling valve 32 is fully closed, if the microcomputer 62 performs the determination processing from step S6 to step S10 and any determination is no, the determination of step S36 is further performed. Since the hot water filling valve 32 is fully closed, the result is NO. In step S38, the microcomputer 62 opens the hot water filling valve 32 by one stage, and the hot water filling operation to the bathtub 16 is resumed. Step S38 is repeated within a range where the hot water supply amount of the hot water supply path 10 is not insufficient, and the bathtub hot water flow rate is increased.
[0035]
When the integrated value of the flow rate measured by the flow rate sensor 24 reaches the amount of hot water supply corresponding to the designated water level to the bathtub 16, the answer to step S4 is YES, the hot water filling valve 32 is closed in step S22, and the steps from step 24 to step 24 are performed. 28 chasing operations are carried out. The bath water is homogenized at the set temperature, and the filling operation is completed.
[0036]
The hot water supply apparatus of the present embodiment does not close the hot water filling valve 32 provided in the bathtub hot water filling passage 12 when the water pressure in the hot water supply passage 10 becomes the third predetermined amount or less, but in a stepwise manner. Continue to fill with hot water. By limiting the flow rate of the bathtub hot water passage 12 in stages, the amount of hot water that can be supplied to the faucet 20 of the hot water supply passage 10 is increased in stages, and it is possible to prevent the usability of the hot water utilization device from deteriorating and the hot water operation continues. By doing so, the time required for hot water filling can be further shortened.
[0037]
(4th Example) The microcomputer 62 of the hot-water supply apparatus concerning a present Example has memorize | stored the 4th predetermined value in addition to the 1st predetermined value, the 2nd predetermined value, and the 3rd predetermined value. The fourth predetermined value is a lower limit value of the water pressure that can normally supply hot water to the faucet 20. If the water pressure in the hot water supply path 10 is lower than this value, the amount of hot water supply does not increase even if the faucet 20 is opened widely, and the usability is poor. Become. In the present embodiment, the fourth predetermined value is set to 0.2 megapascal. The microcomputer 62 uses the fourth predetermined value to determine whether or not the amount of hot water supplied to the faucet 20 is sufficient.
[0038]
FIG. 5 shows a flowchart of hot water control processing performed by the microcomputer 62 of the fourth embodiment. Only the parts different from the third embodiment will be described below.
When the pressure of the hot water supply path 10 measured by the pressure sensor 26 is equal to or lower than the third predetermined value of 0.25 megapascal (step S10), the pressure of the hot water supply path 10 is further set to the fourth predetermined value of 0. It is determined whether it is 20 megapascals or less (step S40). If the pressure in the hot water supply path 10 is equal to or lower than the fourth predetermined value (0.20 megapascal), step 40 becomes yes. At this time, since the faucet 20 is in an inconvenient state, the bathtub hot water valve 32 is closed in step 42. If the pressure in the hot water supply path 10 is higher than the fourth predetermined value (0.20 megapascal), step S40 becomes no. At this time, the faucet 20 may be unusable, but since it is not necessary to immediately stop filling, the microcomputer 62 throttles the filling valve 32 by one step in step S32. The amount of hot water supplied to the bathtub hot water path 12 is reduced so far and hot water corresponding to that amount is supplied to the faucet 20.
The microcomputer 62 makes the determination from step S4 to step S40 using the flow rate and water pressure data of the hot water supply path 10 input from the flow rate sensors 22, 24 and the pressure sensor 26 over the period when the hot water filling is performed. Repeat the process. When the flow rate of the hot water supply passage 10 is 6 liters / minute or more and 12 liters / minute or less and the pressure of the hot water supply passage is 0.25 megapascals or less, the microcomputer 62 adjusts the amount of throttling of the hot water filling valve 32 to bath water. Since the flow rate of the tension path 12 is reduced, the pressure of the hot water supply path 10 can always be maintained at 0.2 Mpa or more. As a result, the tap 20 can be constantly supplied with hot water.
[0039]
Specific examples of the present invention have been described in detail above, but these are merely examples and do not limit the scope of the claims. The technology described in the claims includes various modifications and changes of the specific examples illustrated above. For example, the flow rate sensor and the pressure sensor of the embodiment are arranged upstream of the hot water supply burner, but may be arranged downstream of the hot water supply burner, and more than the point where the bathtub hot water filling path branches from the hot water supply path. You may arrange | position in front of the faucet of a warm water utilization apparatus downstream. In the embodiment, the configuration in which the hot water supply apparatus includes two hot water supply burners and an auxiliary burner has been described. However, there is one combustion burner, and the same burner is used for heating the hot water and the water stored in the cistern. It is also possible to adopt a configuration performed in The adjustment of the opening / closing amount of the hot water filling valve not only performs throttling step by step, but also can perform an opening / closing operation linked to the flow rate of the hot water supply path under the control of the microcomputer 62.
The technical elements described in this specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing.
[0040]
【The invention's effect】
As described above, according to the hot water supply device of the present invention, while the hot water bathing operation of the bathtub is stopped, the hot water already stored in the bathtub is chased to a predetermined temperature, so The operation can be performed in a short time, and it is possible to reduce the delay of the completion of the hot water filling to the bathtub.
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing a configuration of a hot water supply apparatus according to Embodiment 1. FIG.
FIG. 2 is a diagram illustrating a control procedure by a controller according to the first embodiment.
FIG. 3 is a diagram showing the relationship between the amount of hot water supplied to the bathtub of Example 1, the hot water temperature, and the elapsed time.
FIG. 4 is a diagram illustrating a control procedure by a controller according to a third embodiment.
FIG. 5 is a diagram illustrating a control procedure by a controller according to a fourth embodiment.
FIG. 6 is a diagram illustrating a control procedure by a controller according to the second embodiment.
[Explanation of symbols]
2: Water heater
4: Hot water burner
6: Auxiliary burner
8: Sistern
10: Hot water supply route
12: Bathtub route
14: Remembrance circuit
16: Bathtub
18, 50, 52, 108, 110: heat exchanger
20: Faucet
22, 24: Flow sensor
26: Pressure sensor
32: Hot water filling valve
34, 36, 38, 40: Control valve
72: Hot water tank
84: Pressure reducing valve
102: Fuel cell
104: Reformer

Claims (4)

A hot water supply device for supplying hot water usage location and bathtubs subjected supply water by heating pressurization,
A hot water supply path in which the upstream end is connected to a water supply source and the downstream end is connected to a hot water use location;
A combustion burner that heats the water in the hot water supply path;
A flow sensor for measuring the flow rate of water supplied from the hot water supply path to the hot water use location;
A bathtub hot water path that branches off from the hot water supply path downstream from the combustion burner and whose downstream end is connected to the bathtub,
A hot water valve that opens and closes the bathtub hot water path,
A bathtub water circulation path whose upstream end and downstream end are connected to the bathtub;
A pump for circulating bathtub water in the bathtub water circuit,
A heat exchanger that heats the water in the bathtub water circulation path,
When the flow rate measured by the flow rate sensor is equal to or smaller than the second predetermined value or higher than the first predetermined value, and a controller for heating the bath water by running Rutotomoni, heat exchangers and pumps closed water filling valve A water heater characterized by that. Heat exchange is performed only when the flow rate measured by the flow rate sensor is greater than or equal to the first predetermined value and less than or equal to the second predetermined value, the hot water valve is closed, and there is sufficient water level in the bathtub to circulate in the bathtub water circuit. The hot water supply apparatus according to claim 1, wherein the bath water is heated by operating a vessel and a pump . A pressure sensor for measuring the pressure of water in the hot water supply path;
The controller closes the filling valve when the flow rate measured by the flow sensor is not less than the first predetermined value and not more than the second predetermined value and the pressure measured by the pressure sensor is not more than the third predetermined value. The hot water supply apparatus according to claim 1 or 2. Sistern ,
The upstream end is connected to the cis-turn, passes through the heat exchanger, and the downstream end is connected to the cis-turn;
An auxiliary burner that heats the water flowing in the recirculation circuit,
It further has a reheating pump for circulating the water in the systern into the recirculation circuit ,
The water heater in any one of Claims 1-3 which heats the water in the bathtub water circulation path which passes a heat exchanger by operating an auxiliary | assistant burner and the pursuit pump .

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