JP2003042543A - Hot water supply system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hot water supply system in which hot water of a set hot water supply temperature can be supplied continuously, even when a switching is made from a state where the hot water of the set hot water supply temperature is generated by heating through a hot water supply apparatus to a state where hot water of set hot water supply temperature is generated by a hot water supply connection unit. SOLUTION: In a hot water supply system 1 for delivering hot water stored in a heat storage tank 14 of a water heater 10 utilizing solar heat to a hot water supply apparatus 30 through a hot water supply connection unit 20 which can mix potable water with the hot water, combustion of a burner in the hot water supply apparatus 30 is stopped at a moment when hot water of set hot water supply temperature Te or above begins to be delivered to the hot water supply connection unit 20, under a state where hot water of set hot water supply temperature Te is supplied by heating hot water delivered from the hot water supply connection unit 20 through the hot water supply apparatus 30. At a moment when the heat exchanging temperature Tc of the hot water supply apparatus 30 drops below the set hot water supply temperature Te+20 deg.C, switching is made to a state where the hot water of the set hot water supply temperature Te is generated by the hot water supply connection unit 20 and delivered to the hot water supply apparatus 30.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention stores hot water generated by an auxiliary heat source such as solar heat in a heat storage tank,
The present invention relates to a hot water supply system in which hot water is delivered to a water heater via a hot water supply connection unit that can be mixed with tap water.

[0002]

2. Description of the Related Art As a hot water supply system using an auxiliary heat source, for example, a hot water supply system in which a solar water heater and a water heater are combined to generate hot water using solar heat has been generally known.

In such a hot water supply system, a solar water heater and a water heater having a heat storage tank for storing hot water generated by utilizing solar heat are connected via a hot water supply connection unit, At the time of hot water supply, the hot water stored in the heat storage tank of the solar water heater is delivered to the water heater via the hot water connection unit, but the hot water connection unit simply delivers the hot water stored in the heat storage tank to the water heater. Instead, if necessary, hot water sent from the heat storage tank can be sent to the water heater in a state of being mixed with clean water.

Therefore, when hot water having a temperature higher than the hot water set temperature set for the water heater is stored in the heat storage tank, the hot water supply connection unit sends hot water and hot water sent from the heat storage tank to the hot water set temperature or higher. By appropriately mixing and, hot water having the hot water supply set temperature is generated and sent to the water heater. On the other hand, when hot water having a temperature equal to or higher than the hot water supply set temperature is not stored in the heat storage tank, the hot water supply connection unit forcibly mixes hot water below the hot water supply set temperature sent from the heat storage tank with the tap water, forcibly. The water is delivered to the water heater with the temperature lowered to a predetermined temperature, and the burner of the water heater is burned to generate hot water at the hot water set temperature.

In this hot water supply system, the hot water of the hot water supply set temperature is supplied by burning the burner of the hot water supply device, that is, the hot water supply connection unit supplies hot water of a predetermined temperature lower than the hot water supply set temperature to the hot water supply device. When hot water having a temperature equal to or higher than the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit while it is being sent out, at that time, the hot water supply connection unit outputs a combustion stop command to the hot water supply device and also outputs the hot water at the hot water supply set temperature. It is designed to deliver water to the water heater, and conversely, it is supplying hot water of the hot water set temperature without burning the burner of the water heater, that is, the hot water connection unit supplies hot water of the hot water set temperature to the water heater. When hot water that is lower than the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit while it is being sent out, the hot water supply connection unit outputs a combustion start command to the hot water supply device at that point. Rutotomoni adapted to deliver the water heater the hot water is lowered to a predetermined temperature.

[0006]

By the way, the water heater is
Even if combustion of the burner is stopped, the temperature of the heat exchanger does not immediately drop. Therefore, as described above, the hot water supply connection unit sends hot water of a predetermined temperature below the hot water supply set temperature to the water heater. In this state, when hot water above the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, the burner of the water heater is stopped from burning and immediately the hot water at the hot water set temperature is sent to the water heater. There is a problem that the hot water having a temperature is further heated by the heat exchanger of the water heater whose temperature is not lowered, and the hot water temperature is temporarily increased.

Therefore, an object of the present invention is to switch the operating state in which the hot water of the hot water supply set temperature is generated by burning the burner of the water heater to the operating state in which the hot water supply connection unit generates the hot water of the hot water supply set temperature. At the same time, it is to provide a hot water supply system capable of continuously supplying hot water having a hot water supply set temperature.

[0008]

In order to solve the above problems, the invention according to claim 1 provides a water heater as a main heat source, a heat storage tank for storing hot water generated by an auxiliary heat source, The hot water sent from the heat storage tank is provided with a hot water supply connection unit that mixes tap water as needed and sends it to the water heater, and hot water having a hot water set temperature or higher is sent from the heat storage tank to the hot water supply connection unit. In that case, when the hot water supply connection unit generates hot water having a hot water supply set temperature by mixing tap water, and when hot water below the hot water supply set temperature is delivered from the heat storage tank to the hot water supply connection unit,
In a hot water supply system configured to generate hot water having a hot water supply set temperature by heating hot water sent from the hot water supply connection unit, the hot water supplied from the hot water supply connection unit is heated by the water heater. When hot water having a hot water supply set temperature is generated from the heat storage tank to the hot water supply connection unit while the hot water having the hot water supply set temperature is being generated, the heating of the water heater is stopped and the hot water supply is performed. When the temperature of the heat exchanger in the water heater falls below a predetermined temperature, the hot water supply connection unit sends hot water having the hot water supply set temperature to the water heater.

As described above, in this hot water supply system, after stopping the heating of the hot water supply device, hot water of the hot water supply set temperature is not delivered to the hot water supply device until the temperature of the heat exchanger of the hot water supply device falls below a predetermined temperature. As a result, hot water that is extremely hotter than the hot water supply set temperature is not delivered from the water heater, and the hot water of the hot water supply set temperature is generated by burning the burner of the hot water supply device. It is possible to continuously supply the hot water having the substantially hot water supply set temperature even when the hot water is switched to the operation state in which the hot water having the hot water supply set temperature is generated.

Further, when hot water supply is started in a state where the temperature of the hot water staying in the pipe connecting the heat storage tank and the hot water supply connection unit is much lower than the temperature of the hot water stored in the heat storage tank, At the beginning of hot water supply, hot water with a low temperature staying in the pipe is sent to the hot water supply connection unit.
The mixing control valve of the hot water supply connection unit is in the fully open state, but the hot water with a low temperature staying in the pipe has been delivered, and the hot water with a high temperature stored in the heat storage tank is delivered. Then, the mixing control valve squeezes in the closing direction. However, because the opening / closing speed of the mixing control valve by the motor is slow, it is not possible to follow the rapid temperature change of the hot water delivered to the hot water supply connection unit, during which hot water with a high temperature is delivered to the hot water supply connection unit more than necessary. Therefore, there is a problem that the hot water supply temperature temporarily rises.

Therefore, in the invention according to claim 2, the hot water supply connection unit is opened and closed by a motor for arbitrarily mixing hot water and clean water sent from the heat storage tank and sending the hot water to the water heater. A mixing control valve is provided, and the mixing control valve sends only hot water from the heat storage tank in a fully open state, and sends only clean water in a fully closed state,
(EN) A hot water supply system in which the drive range of the mixing control valve in the opening direction is restricted by the motor so that the mixing control valve does not fully open when the mixing control valve is in a normal control state. Is.

In the hot water supply system configured as described above, even if the hot water having a low temperature staying in the pipe is sent to the hot water supply connection unit, the mixing control valve does not become fully open. When the valve closing operation is performed when hot water having a high temperature is delivered, the valve can be closed to a predetermined opening degree in a short time. Therefore, it is possible to follow the rapid temperature change of the hot water delivered to the hot water supply connecting unit to some extent, and the hot water having a high temperature is delivered to the hot water supply connecting unit more than necessary while the mixing control valve is closing. Since it is less likely to occur, it is possible to supply hot water at the hot water supply set temperature in a stable state from the start of hot water supply.

Particularly, in the hot water supply system according to the third aspect of the present invention, when hot water having a predetermined temperature or higher is delivered to the hot water supply connection unit, the drive range of the mixing control valve in the opening direction is limited by the motor. If you turn off the hot water, when a certain amount of time has passed from the start of hot water supply and hot water with a high temperature stored in the heat storage tank is supplied, only the hot water from the heat storage tank is supplied to the water heater. Therefore, the hot water stored in the heat storage tank can be utilized to the maximum extent.

Further, when hot water having a temperature higher than a predetermined temperature is stored in the heat storage tank, hot water having a temperature higher than the predetermined temperature will be sent to the hot water supply connection unit after a certain amount of time has elapsed after starting hot water supply. As in the hot water supply system according to the fourth aspect of the present invention, the restriction of the drive range in the opening direction of the mixing control valve by the motor may be released when a predetermined time has elapsed after the start of hot water supply. As in the hot water supply system of the invention according to item 5, when the hot water having a temperature equal to or higher than a predetermined temperature starts to be supplied to the hot water supply connection unit or when a predetermined time has elapsed after the start of hot water supply, whichever is earlier, The restriction of the drive range in the opening direction of the mixing control valve may be released.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments will be described below with reference to the drawings. FIG. 1 shows a schematic configuration of a hot water supply system 1 using solar heat as an auxiliary heat source. As shown in FIG. 1, this hot water supply system 1 is a system in which a solar water heater 10 and a water heater 30 are connected via a hot water supply connection unit 20, and the hot water generated by the solar water heater 10 is used for hot water supply. Water heater 3 via connection unit 20
It is designed to be sent to 0.

The solar water heater 10 comprises a solar heat exchanger 11 and a closed heat storage tank 14, and the heat storage tank 14 has a water supply pipe 15 for supplying clean water to the lower end thereof. In addition to being connected, a hot water supply pipe 16 for sending the stored hot water to the hot water supply connection unit 20 is connected to the upper end portion.

In the solar heat exchanger 11, a heat medium circulation path is formed by a solar pipe 12 which connects the inlet side and the outlet side of the solar heat exchanger 11.
Has a heat exchange part 13 partially introduced into the heat storage tank 14. Therefore, the heat medium heated by the solar heat exchanger 11 passes through the solar pipe 12 and the heat storage tank 1
4 is introduced into the heat storage tank 14, and heat is exchanged with the water in the heat storage tank 14 by the heat exchange unit 13, whereby hot water is generated in the heat storage tank 14.

As shown in the figure, the hot water supply connection unit 20 supplies clean water supplied through a water supply pipe 22 and hot water supplied from the heat storage tank 14 through a hot water supply pipe 16.
A mixing control valve 21 that is driven to open and close by a stepping motor 21a, which mixes as needed, is provided. The hot water sent from the heat storage tank 14 is used as it is or in a state where it is appropriately mixed with tap water. The water is delivered to the water heater 30 through the hot water pipe 23 connected to the outlet side.

Further, the water supply pipe 22 and the hot water pipe 23 are connected to each other via a bypass pipe 24 in which a diaphragm type solenoid valve 25 which is fully closed when energized is installed.
The hot water supply pipe 16 and the hot water pipe 23 connected to the mixing control valve 21 have a hot water temperature sensor 26 for detecting a temperature (hereinafter referred to as hot water temperature) Ts of hot water sent from the heat storage tank 14 and a hot water supply connection. A hot water temperature sensor 27 for detecting the temperature (hereinafter referred to as hot water temperature) To of hot water delivered from the unit 20 is installed.

When the mixing control valve 21 is fully opened, only the hot water delivered from the heat storage tank 14 through the hot water supply pipe 16 is delivered to the water heater 30, and conversely, in the fully closed state, the water supply pipe 2 is provided.
Only the clean water supplied via 2 is sent to the water heater 30, and the stepping motor 21a driving the mixing control valve 21 is driven from 0 step to 1050 steps to perform mixing control. The valve 21 is fully closed and fully opened.

However, in the hot water supply operation state in which the mixing control valve 21 is normally controlled, that is, in the hot water supply operation state in which the mixing control valve 21 is controlled so that the hot water discharge temperature To becomes a predetermined temperature, the hot water temperature Ts is changed. Predetermined temperature (for example, 40
C)), the drive range in the opening direction of the mixing control valve 21 by the stepping motor 21a is limited so that the mixing control valve 21 does not fully open, and specifically, 0 step to 700 steps. During this period, the stepping motor 21a is adapted to open and close the mixing control valve 21.

Therefore, the mixing control valve 21 has the maximum opening (70
Even when the valve is opened to 0 step), only the hot water delivered to the mixing control valve 21 via the hot water supply pipe 16 is supplied to the water heater 3
The water cannot be delivered to 0, and the tap water is delivered to the water heater 30 in a slightly mixed state. It should be noted that, when the mixing control valve 21 is opened to an opening corresponding to 700 steps, which is the upper limit of the drive range of the stepping motor 21a, the mixing ratio of hot water and clean water is kept under normal clean water pressure. Hot water: clean water = about 10: 1, and even if the stepping motor 21a is driven from 700 steps to 1050 steps, the mixing ratio of the warm water and the clean water hardly changes.

The water heater 30 is equipped with a heat exchanger 31 which heats the hot water sent from the hot water supply connection unit 20 as required by burning a burner, and the hot water outlet from the heat exchanger 31 is installed. A heat exchanger temperature sensor 32 that detects the temperature as the temperature of the heat exchanger 31 itself (hereinafter, referred to as heat exchanger temperature) Tc and a flow rate sensor 33 that detects the flow rate of hot water passing through the heat exchanger 31 are installed. Has been done.

The hot water supply connection unit 20 and the hot water supply device 30
Are equipped with controllers 20a and 30a capable of communicating with each other via a serial interface, and the operation remote controller 40 of the water heater 30 communicates with the controller 30a of the water heater 30 via a serial interface. A possible controller 40a is mounted and these controllers 20a, 30a, 4
0a controls the operation of the hot water supply system 1 comprehensively while cooperating with each other.

The controller 30a of the water heater 30 has a hot water supply temperature Te set by the operation remote controller 40,
The operation switch signal, the burner combustion signal, the temperature detection signal from the heat exchanger temperature sensor 32, and the flow rate detection signal from the flow rate sensor 33 are input, and the hot water supply set temperature Te, the operation switch signal, and the burner combustion signal are input. , The heat exchanger temperature Tc and the flow rate of the hot water passing through the heat exchanger 31 detected by the flow rate sensor 33 are equal to or more than the minimum working water amount
A water flow signal for N and the like are transmitted from the controller 30a to the controller 20a of the hot water supply connection unit 20.

Controller 20 of hot water supply connection unit 20
Temperature detection signals from the hot water temperature sensor 26 and the hot water temperature sensor 27 are input to a, and based on these temperature detection signals and the hot water supply set temperature Te transmitted from the controller 30a, The controller 20a of the hot water supply connection unit 20 controls the opening / closing operation of the mixing control valve 21.

The temperature of the hot water delivered from the heat storage tank 14, that is, the hot water temperature T detected by the hot water temperature sensor 26.
When s is equal to or higher than the hot water supply set temperature Te, the hot water of the hot water supply set temperature Te can be supplied by appropriately mixing the clean water without burning the burner of the water heater 30. The temperature of the hot water delivered,
That is, the mixing control valve 21 is adjusted so that the hot water temperature To detected by the hot water temperature sensor 27 becomes equal to the hot water supply set temperature Te.
The hot water supply set temperature control for controlling is performed.

On the other hand, when the hot water supply temperature Ts is lower than the hot water supply set temperature Te, hot water of the hot water supply set temperature Te cannot be supplied unless the burner of the hot water supply device 30 is burned, so the burner of the hot water supply device 30 is burned. By so doing, the hot water supply temperature Ts is not lower than 60 ° C. and lower than 60 ° C. so that the hot water having the hot water supply set temperature Te can be reliably generated.
Cases of 5 ° C or higher and lower than 35 ° C are divided into 45 ° C when the temperature is 60 ° C or higher, and 30 ° C when the temperature is lower than 60 ° C and 35 ° C or higher
When the temperature is lower than 0 ° C., the fixed temperature control for mixing the clean water is performed by adjusting the opening degree of the mixing control valve 21 so that the warm water at 25 ° C. is delivered.

Further, when the hot water supply temperature setting control is performed, it is not necessary to burn the burner of the water heater 30. Therefore, when the operation switch of the operation remote controller 40 is turned on to start hot water supply, the controller of the hot water supply connection unit 20 is controlled. When 20a outputs a combustion stop command to the controller 30a of the water heater 30 to perform fixed temperature control, the burner of the water heater 30 must be burned, so the operation switch of the operation remote controller 40 is turned on to start hot water supply. At that time, the controller 20a of the hot water supply connection unit 20 outputs a combustion start command to the controller 30a of the water heater 30.

Further, when the controller 20a of the hot water supply connection unit 20 is supplying hot water of the hot water supply set temperature Te by the fixed temperature control, when hot water having a temperature equal to or higher than the hot water supply set temperature Te starts to be delivered from the heat storage tank 14, When hot water having a temperature lower than the hot water supply set temperature Te starts to be supplied from the heat storage tank 14 while hot water having the hot water supply set temperature Te is being supplied by the hot water supply set temperature control, the control is switched at that stage. The switching timing will be described below with reference to the flowchart shown in FIG.

First, when the operation switch of the operation remote controller 40 is turned on (step S1), it waits until the water flow signal is turned on, that is, until hot water supply is started (step S2). Here, when the water flow signal is turned on, it is determined whether or not the hot water supply temperature Ts at that time is equal to or higher than the hot water supply set temperature Te (step S3). If the hot water supply temperature Ts is lower than the hot water supply set temperature Te, the hot water supply is performed. The controller 20a of the connection unit 20 outputs a burner combustion start command to the controller 30a of the water heater 30 (step S
4) Immediately start the above-mentioned fixed temperature control (step S5). Therefore, if the hot water supply temperature Ts at the time when hot water supply is started is lower than the hot water supply set temperature Te, the water heater 30
At the same time that the burner starts burning, a predetermined temperature (45 ° C., below the hot water supply set temperature Te from the hot water supply connection unit 20)
Hot water of 35 ° C. or 25 ° C. will be delivered to the water heater 30.

Next, the hot water supply temperature Ts is the hot water supply set temperature Te.
It is determined whether or not the temperature has risen above (step S6), the fixed temperature control is continued while the hot water temperature Ts remains lower than the hot water supply set temperature Te, and the hot water temperature Ts is maintained at the hot water supply set temperature Te. When the temperature rises above the above, the controller 20a of the hot water supply connection unit 20 outputs a burner combustion stop command to the controller 30a of the water heater 30 (step S7).

As a result, the burner of the water heater 30 stops combustion, and subsequently it is judged whether or not the heat exchanger temperature Tc is lower than the hot water set temperature Te + 20 ° C. (step S8), and the heat exchanger temperature Tc is determined. Hot water supply set temperature Te + 20
While the temperature is above ℃, the fixed temperature control is continued. When the heat exchanger temperature Tc falls below the hot water supply set temperature Te + 20 ° C., the fixed temperature control is switched to the hot water supply set temperature control (step S9), and the hot water supply connection unit 20 causes the hot water supply unit 3 to operate.
The supply of hot water at the hot water supply set temperature Te to 0 is started. Therefore,
After the burner of the water heater 30 stops burning, hot water having a predetermined temperature (45 ° C., 35 ° C. or 25 ° C.) below the hot water setting temperature Te is switched from the fixed temperature control to the hot water setting temperature control. Will be sent to 30.

On the other hand, in step S3, the bath temperature T
If s is equal to or higher than the hot water supply set temperature Te, the controller 20a of the hot water supply connection unit 20 immediately outputs a burner combustion stop command to the controller 30a of the hot water supply device 30 (step S10), and the hot water supply set temperature control described above is performed. Is started (step S11). Therefore, if the hot water supply temperature Ts at the time of starting hot water supply is equal to or higher than the hot water supply set temperature Te, the hot water supply is started without the burner of the water heater 30 burning.

Next, the hot water supply temperature Ts is the hot water supply set temperature Te.
It is determined whether or not the above is maintained (step S1
2), while the hot water supply temperature Ts is maintained at the hot water supply set temperature Te or higher, the hot water supply set temperature control is continued, and when the hot water supply temperature Ts falls below the hot water supply set temperature Te, the controller 20a of the hot water supply connection unit 20 A burner combustion start command is immediately output to the controller 30a of the water heater 30 (step S13), and the hot water supply temperature control is switched to the fixed temperature control (step S14). Therefore, as described above, unlike the case where the fixed temperature control is switched to the hot water supply set temperature control, at the same time as the burner of the water heater 30 starts combustion, the hot water supply set temperature control is switched to the fixed temperature control to change the hot water supply set temperature Te. Predetermined temperature below (45
Hot water of (° C., 35 ° C. or 25 ° C.) is delivered to the water heater 30.

In step S9, after the fixed temperature control is switched to the hot water supply set temperature control, step S1 is performed.
After shifting to 2 and switching from the hot water supply temperature control to the fixed temperature control in step S14, the process shifts to step S6 so that the same operation is repeated for the subsequent temperature change of the hot water temperature Ts. ing.

As described above, in this hot water supply system 1,
When switching from the hot water supply under the fixed temperature control to the hot water supply set temperature control, the burner of the water heater 30 is first stopped to burn at the time when the hot water supply is possible.
Since the fixed temperature control is continued until the heat exchanger temperature Tc of 0 falls below the hot water supply set temperature Te + 20 ° C., the hot water supply set temperature control is switched to when the heat exchanger temperature Tc falls below the hot water supply set temperature Te + 20 ° C. As in the conventional hot water supply system in which the combustion of the burner of the water heater is stopped and the fixed temperature control is switched to the hot water set temperature control at the same time, the hot water of the hot water set temperature Te sent to the water heater causes the burner to burn. High temperature heat exchanger 31 immediately after stopping
Further, the hot water supply temperature is not further increased and the hot water supply temperature does not temporarily rise, and it is possible to continuously supply the hot water having the substantially hot water supply set temperature Te even in the control switching stage.

In this hot water supply system 1, the heat exchanger temperature Tc is the hot water supply set temperature Te + as a criterion for determining the timing of switching from the fixed temperature control to the hot water supply set temperature control.
Although the temperature is lower than 20 ° C., the temperature “20 ° C.” added to the hot water supply set temperature Te is set to the hot water supply connection unit 20 and the water heater 30 at the time of switching to the hot water supply set temperature control. Exists in the hot water pipe 23 to be connected,
When hot water having a predetermined temperature (45 ° C., 35 ° C. or 25 ° C.) lower than the hot water supply set temperature Te passes through the heat exchanger 31, the temperature of the hot water rises up to the hot water supply set temperature Te and the heat exchanger temperature Tc. Is set on the assumption that the temperature will decrease to the hot water supply set temperature Te.
The “hot water supply set temperature Te + 20 ° C.” does not necessarily have to be used as the criterion, and “20 ° C.” is taken into consideration in consideration of the heat radiation characteristics of the heat exchanger 31 in the water heater 30 and the pipe volume (pipe length) of the hot water pipe 23. It suffices to appropriately determine the temperature corresponding to.

Further, in the hot water supply system 1, as described above, when the fixed temperature control or the hot water supply set temperature control is performed while the hot water temperature Ts is lower than the predetermined temperature (for example, 40 ° C.), the mixing adjustment is performed. Since the drive range of the mixing control valve 21 in the opening direction by the stepping motor 21a is limited so that the valve 21 is not fully opened,
At the start of hot water supply in which hot water below the predetermined temperature is likely to be sent to the hot water supply connection unit 20, the mixing control valve 2
1 does not become a fully opened state, and thereafter hot water having a high temperature is sent to the hot water supply connection unit 20, so that when the mixing control valve 21 performs the valve closing operation, the predetermined opening degree is reached in a short time. Can be closed.

Therefore, in the hot water supply system 1, it is possible to follow the rapid temperature change of the hot water delivered to the hot water supply connection unit 20 to some extent, and the temperature of the temperature can be controlled while the mixing control valve 21 is closing. Since it becomes difficult to send high hot water to the hot water supply connection unit 20 more than necessary, it is possible to continuously supply hot water at the hot water supply set temperature Te in a stable state from the start of hot water supply.

When hot water having a temperature equal to or higher than a predetermined temperature is delivered, the limitation of the drive range of the mixing control valve 21 in the opening direction by the stepping motor 21a is released, so that the clean water is mixed. Without this, only the hot water sent from the heat storage tank 14 can be sent to the water heater 30, and the hot water stored in the heat storage tank 14 can be used to the maximum extent for hot water supply.

In the above-described embodiment, the driving range of the mixing control valve 21 in the opening direction by the stepping motor 21a is limited to 0 step to 700 steps, but the invention is not limited to this and the limitation is not limited thereto. The step position depends on the flow rate characteristics of the mixing control valve 21 and the mixing control valve 21.
The optimum position may be selected in consideration of the water pressure applied to the. Particularly, in order to prevent the drive of the stepping motor 21a from being restricted in a region where the variation of the valve opening degree is large with respect to the driving step number of the stepping motor 21a, that is, in a region where the flow rate change is large with respect to the driving step number of the stepping motor 21a, It is desirable to limit the drive range of the mixing control valve 21 in the opening direction.

Further, in the above-described embodiment, the hot water temperature Ts for limiting the drive range of the mixing control valve 21 in the opening direction.
Although “40 ° C.” is given as an example, the present invention is not limited to this, and the opening / closing drive speed of the mixing control valve 21 by the stepping motor 21 a that drives the mixing control valve 21, the flow rate characteristic of the mixing control valve 21, the heat storage It may be set in consideration of the utilization efficiency of the hot water stored in the tank 14 comprehensively.

Further, in the above-described embodiment, the bath temperature T
When s is lower than the predetermined temperature, the drive range of the mixing control valve 21 is limited, but the present invention is not limited to this, and regardless of the hot water temperature Ts, in the normal control state, The drive range of the mixing control valve 21 may be always limited.

Further, instead of releasing the limitation of the drive range of the mixing control valve 21 by catching the temperature rise of the hot water temperature Ts,
The restriction on the drive range of the mixing control valve 21 may be released when a predetermined time has elapsed from the start of hot water supply,
Considering both the hot water temperature Ts and the elapsed time from the start of hot water supply, that is, hot water of a predetermined temperature or higher is the hot water supply connection unit
It is also possible to release the restriction on the drive range of the mixing control valve 21 at the time point when the start of feeding to 0 or the time point when a predetermined time has elapsed from the start of hot water supply, whichever comes first.

Further, in the above-mentioned embodiment, the bath temperature T
When s is lower than the predetermined temperature, the drive range of the mixing control valve 21 in the opening direction is limited, but the present invention is not limited to this, and the hot water temperature Ts is divided into a plurality of temperature regions, and Mixing control valve 21 for each temperature range
It is also possible to change the drive range in the opening direction of No. 2 and to change the drive range in the opening direction of the mixing control valve 21 according to the hot water supply set temperature Te.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram showing an embodiment of a hot water supply system according to the present invention.

FIG. 2 is a flowchart showing a hot water supply operation in the hot water supply system of the above.

[Explanation of symbols]

1 Hot water supply system 10 Solar water heater 14 Heat storage tank 16 Hot water supply pipe 20 Hot water supply connection unit 20a controller 21 Mixing control valve 21a Stepping motor 23 Hot water piping 26 Hot water temperature sensor 27 Hot water temperature sensor 30 water heater 30a controller 31 heat exchanger 32 heat exchanger temperature sensor 33 Flow sensor 40 Operation remote control 40a controller

Continued front page    (72) Inventor Takayoshi Shimizu             93 Edo-cho, Chuo-ku, Kobe-shi, Hyogo Stock Association             Company Noritsu (72) Inventor Tetsuya Watanabe             93 Edo-cho, Chuo-ku, Kobe-shi, Hyogo Stock Association             Company Noritsu

Claims (5)

[Claims] 1. A water heater as a main heat source, a heat storage tank for storing hot water generated by an auxiliary heat source, and hot water sent from the heat storage tank, if necessary, mixed with clean water. When the hot water having a hot water supply set temperature or higher is sent from the heat storage tank to the hot water supply connection unit, the hot water supply connection unit mixes tap water to obtain hot water at the hot water supply set temperature. When hot water that is generated and is lower than the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water supplied from the hot water supply connection unit is heated by the water heater to generate hot water at the hot water supply set temperature. In the hot water supply system, the hot water supplied from the hot water supply connection unit is heated by the water heater to generate hot water at the hot water supply set temperature, When hot water having a temperature higher than the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, the heating of the water heater is stopped, and the temperature of the heat exchanger in the water heater falls below a predetermined temperature. The hot water supply system, wherein the hot water supply connection unit is configured to send hot water having a preset hot water supply temperature to the water heater at the time point. 2. The hot water supply connection unit includes a mixing control valve that is driven to open and close by a motor and mixes hot water and tap water sent from the heat storage tank to the hot water supply device as desired, The mixing control valve is configured to deliver only hot water from the heat storage tank in a fully open state and deliver only clean water in a fully closed state, and when the mixing control valve is in a normal control state, The hot water supply system according to claim 1, wherein a drive range of the motor in the opening direction of the mixing control valve is limited so that the mixing control valve does not fully open. 3. The hot water supply according to claim 2, wherein when hot water having a temperature equal to or higher than a predetermined temperature is sent to the hot water supply connection unit, the restriction of the drive range of the motor in the opening direction of the mixing control valve is released. system. 4. At the time when a predetermined time has passed after the start of hot water supply,
The hot water supply system according to claim 2, wherein the restriction of the drive range of the mixing control valve in the opening direction by the motor is released. 5. The opening direction of the mixing control valve by the motor is set when the hot water having a temperature equal to or higher than a predetermined temperature starts to be sent to the hot water supply connection unit or a predetermined time elapses after the hot water supply is started. The hot water supply system according to claim 2, wherein the limitation of the drive range is released.