JP4613459B2 - Hot water system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention stores hot water generated by an auxiliary heat source such as solar heat in a heat storage tank, and sends the hot water to a water heater via a hot water supply connection unit that can be mixed with tap water. About.
[0002]
[Prior art]
As a hot water supply system using an auxiliary heat source, for example, a hot water supply system combining a solar water heater and a water heater that generates hot water using solar heat is generally known.
[0003]
In such a hot water supply system, a solar water heater and a hot water heater having a heat storage tank for storing hot water generated using solar heat are connected via a hot water connection unit. The hot water stored in the heat storage tank of the solar water heater is sent to the water heater via the hot water connection unit, but the hot water connection unit does not simply send the hot water stored in the heat storage tank to the water heater, As needed, it is comprised so that it can send out to a water heater in the state which mixed the hot water with the warm water sent out from a thermal storage tank.
[0004]
Therefore, when hot water equal to or higher than the hot water supply set temperature set for the water heater is stored in the heat storage tank, the hot water connection unit appropriately supplies hot water and hot water equal to or higher than the hot water supply set temperature sent from the heat storage tank. By mixing, hot water having a hot water supply set temperature is generated and sent to a water heater. In this case, hot water having a hot water supply set temperature can be supplied without burning the burner of the water heater. On the other hand, when hot water 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 is predetermined by mixing hot water lower than the hot water set temperature sent from the heat storage tank as it is or with tap water as appropriate. Delivered to the water heater with the temperature lowered. In this case, hot water having a hot water supply set temperature is generated by burning the burner of the water heater.
[0005]
Further, in this hot water supply system, when hot water at a hot water supply set temperature is supplied from the heat storage tank to the hot water supply connection unit in a state where hot water at the hot water supply set temperature is supplied by burning the burner of the hot water heater, Therefore, the hot water supply connection unit outputs a combustion stop command to the water heater and immediately stops the combustion of the water heater burner. When hot water 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 supply connection unit outputs a combustion start command to the hot water heater and the hot water heater burner Combustion starts immediately.
[0006]
[Problems to be solved by the invention]
However, as described above, when hot water having a hot water supply set temperature is supplied by burning the burner of the hot water heater, when hot water having a temperature higher than the hot water set temperature is sent from the heat storage tank to the hot water supply connection unit, When the burner of the water heater immediately stops combustion, hot water having a low temperature in the hot water pipe connecting the hot water supply connecting unit and the hot water heater is sent as it is, and hot water lower than the hot water supply set temperature is temporarily supplied. It will be.
[0007]
Conversely, when hot water having a hot water supply set temperature is supplied without burning the burner of the hot water heater, when hot water lower than the hot water set temperature is sent from the heat storage tank to the hot water supply connection unit, When the burner immediately starts combustion, hot water at the hot water supply set temperature in the hot water piping connecting the hot water supply connection unit and the hot water heater is further heated by the hot water heater, and hot water above the hot water supply set temperature is temporarily supplied. Will be.
[0008]
By the way, since the hot water supply connection unit is usually installed near the water heater, the length of the hot water pipe connecting the two is short, the operation mode for supplying hot water without burning the burner of the water heater, and the water heater As described above, even if the operation mode in which hot water is supplied while burning the burner is immediately switched, the supply amount of hot water deviating from the hot water supply set temperature is small and there is no particular problem. If the water heater is installed in a separate location, the length of the hot water pipe connecting the two will be longer, so the amount of hot water supplied will deviate from the hot water set temperature and the hot water system is used. There is a problem that it is impossible for the user to comfortably supply hot water.
[0009]
Then, the subject of this invention is providing the hot-water supply system which can supply the hot water of hot-water supply preset temperature reliably, without being influenced by the installation place of a hot-water connection unit or a hot water heater.
[0010]
[Means for solving the problems and effects thereof]
In order to solve the above problems, the invention according to claim 1 is necessary for a hot 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. A hot water supply connection unit that mixes clean water and sends it to the water heater, and when hot water of a hot water set temperature or higher is sent from the heat storage tank to the hot water supply connection unit, the hot water supply connection unit When hot water below the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water heater heats the hot water sent from the hot water supply connection unit. In the hot water supply system configured to generate hot water having a hot water supply set temperature, the hot water heater is configured to heat the hot water sent from the hot water supply connection unit. In a state where hot water having a temperature is generated, a temperature state in which the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit is lower than the hot water supply set temperature, or higher than the hot water supply set temperature. Since the predetermined time set in advance according to the pipe length of the hot water pipe connecting the hot water supply connection unit and the hot water heater has elapsed from the time of transition to, the heating of the hot water heater is stopped. is there.
[0011]
As described above, in this hot water supply system, when switching from an operation state in which hot water is supplied with hot water at a hot water supply set temperature while the water heater is heated to an operation state in which hot water at a hot water supply set temperature is supplied without heating. Since the hot water heater is stopped by delaying a predetermined time according to the length of the hot water pipe connecting the hot water supply connection unit and the hot water heater, the hot water supply connection unit and the hot water heater are connected. While the hot water having a low temperature in the hot water pipe is being sent to the water heater, the water heater is substantially continuously heated, and the hot water at the set temperature of the hot water supply can be continuously supplied even in the operation state switching stage. .
[0012]
Moreover, in order to solve said subject, the invention which concerns on Claim 3 is the hot water heater as a main heat source, the thermal storage tank which stores the warm water produced | generated by the auxiliary heat source, and the warm water sent from the said thermal storage tank, A hot water supply connection unit that mixes clean water as needed and sends it to the water heater, and when hot water of a hot water set temperature or higher is sent from the heat storage tank to the hot water supply connection unit, the hot water supply connection unit When hot water having a hot water supply set temperature is generated by mixing clean water and hot water lower than the hot water set temperature is sent from the heat storage tank to the hot water connection unit, the hot water sent from the hot water connection unit is used as a water heater. In the hot water supply system configured to generate hot water at a hot water supply set temperature by heating the hot water storage tank, the hot water connection unit is sending out hot water at the hot water supply set temperature. From the point in time when the hot water delivered to the hot water supply connection unit or the hot water delivered from the hot water supply connection unit shifts from a temperature state higher than the hot water supply set temperature to a temperature state lower than the hot water supply set temperature, the hot water supply connection unit and the hot water supply The heating of the water heater is started when a predetermined time set in advance according to the length of the hot water pipe connected to the water heater has passed.
[0013]
As described above, in this hot water supply system, when switching from an operation state in which hot water at a hot water supply set temperature is supplied without heating the hot water supply device to an operation state in which the hot water heater is heated and at a hot water supply set temperature is supplied Since the hot water heater starts heating with a delay of a predetermined time set according to the length of the hot water pipe connecting the hot water supply connection unit and the hot water heater, the hot water supply connection unit and the hot water heater are connected. The hot water at the hot water supply set temperature in the hot water pipe is not heated above the hot water set temperature by the hot water heater, and hot water at the hot water set temperature can be continuously supplied even at the switching stage of the operating state. it can.
[0014]
Moreover, like the hot water supply system of the invention which concerns on Claim 2, as needed, to the hot water heater as a main heat source, the thermal storage tank which stores the warm water produced | generated by the auxiliary heat source, and the warm water sent from the said thermal storage tank A hot water connection unit that mixes and supplies hot water to the hot water heater, and when hot water of a reference temperature or higher set before and after the hot water set temperature is sent from the heat storage tank to the hot water connection unit, When the hot water supplied from the hot water supply connection unit is heated without the hot water heater being heated, and hot water lower than a reference temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water is sent from the hot water supply connection unit. A hot water supply system in which hot water is heated by the hot water heater being heated by the hot water heater being heated from the hot water supply connection unit. From the time when the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit shifts from a temperature state lower than a reference temperature to a temperature state equal to or higher than the reference temperature in a state where hot water is being supplied. The heating of the hot water heater is stopped when a predetermined time set in advance according to the length of a hot water pipe connecting the hot water supply connecting unit and the hot water heater has elapsed, or according to claim 4 As in the hot water supply system of the invention, hot water 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 are mixed with clean water as necessary. A hot water supply connection unit for sending out to the hot water heater, and when hot water of a reference temperature or higher set before and after the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, When the hot water supplied from the hot water supply connection unit is heated without the hot water heater heating, and hot water lower than a reference temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water is sent from the hot water supply connection unit. A hot water supply system in which hot water is heated by the hot water heater being heated, and the heat storage is performed in a state where the hot water supplied from the hot water supply connection unit is heated without the hot water heater being heated. The hot water supply connection unit and the water heater from the time when the hot water sent from the tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit shifts from a temperature state higher than a reference temperature to a temperature state lower than the reference temperature. So that heating of the water heater is started when a predetermined time set in advance according to the length of the hot water pipe connecting the It is also possible to do.
[0015]
As described above, when the control is switched based on the reference temperature set before and after the hot water supply set temperature, hot water lower than the hot water supply set temperature may be supplied, but the reference temperature is set near the hot water supply set temperature. In particular, when the reference temperature is set to a temperature lower than the hot water supply set temperature, the temperature of the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water supply connection unit is not reduced. Before the temperature of the hot water to be sent rises to the hot water supply set temperature, the heating of the water heater is stopped, and the temperature of the hot water sent from the heat storage tank to the hot water supply connection unit or the temperature of the hot water sent from the hot water supply connection unit is Since the heating of the water heater is started after the temperature falls below the hot water supply set temperature, hot water can be supplied using the hot water stored in the heat storage tank to the maximum extent.
[0016]
Moreover, like the hot water supply system of the invention which concerns on Claim 5, the time selection means for selecting an appropriate predetermined time from the several predetermined time preset according to the piping length of the said hot water piping, or the said predetermined time By providing time input means for inputting, it is possible to easily set a predetermined time for delaying the start or stop timing of combustion of the burner at the time of installation of the hot water supply system 1.
[0017]
In particular, as in the hot water supply system of the invention according to claim 6, a hot 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, as necessary A hot water supply connection unit that mixes and supplies hot water to the hot water heater, and when hot water having a temperature higher than the hot water supply temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water supply connection unit supplies the hot water. When hot water having a hot water supply set temperature is generated by mixing and hot water lower than the hot water set temperature is sent from the heat storage tank to the hot water connection unit, the hot water heater heats the hot water sent from the hot water connection unit. In the hot water supply system configured to generate hot water having a hot water supply set temperature, the hot water supply device is configured to heat the hot water sent from the hot water supply connection unit. In a state where hot water having a temperature is generated, a temperature state in which the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit is lower than the hot water supply set temperature, or higher than the hot water supply set temperature. The measurement of the hot water delivery amount is started from the time of shifting to the above, and the measured hot water delivery amount corresponds to the pipe volume of the hot water pipe that connects the hot water supply connection unit and the hot water heater, which have been measured in advance. When the amount of hot water is reached, heating of the water heater is stopped, or hot water generated by a hot water heater as a main heat source and an auxiliary heat source is stored as in the hot water system of the invention according to claim 8. And a hot water supply connection unit that mixes hot water as needed with the hot water sent from the heat storage tank and sends it to the hot water heater. When hot water is sent to the hot water supply connection unit, the hot water connection unit generates hot water at a hot water set temperature by mixing clean water, and hot water below the hot water set temperature from the heat storage tank is supplied to the hot water supply connection unit. In the case of the hot water supply system, the hot water supply connection unit generates the hot water at the hot water supply set temperature by generating the hot water at the hot water supply set temperature by heating the hot water supplied from the hot water supply connection unit. When the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit shifts from a temperature state equal to or higher than the hot water supply set temperature to a temperature state lower than the hot water set temperature. Then, the measurement of the hot water delivery amount is started, and the measured hot water delivery amount is measured in advance with the hot water supply connection unit and the water supply. When the amount of hot water corresponding to the volume of the hot water pipe connected to the water heater is reached, heating of the water heater is started, so that the hot water supplied in the operation state switching stage can be more reliably obtained. The hot water supply set temperature can be maintained.
[0018]
Further, as in the hot water supply system of the invention according to claim 7, a hot 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, as necessary A hot water connection unit that mixes and supplies hot water to the hot water heater, and when hot water of a reference temperature or higher set before and after the hot water set temperature is sent from the heat storage tank to the hot water connection unit, When the hot water supplied from the hot water supply connection unit is heated without the hot water heater being heated, and hot water lower than a reference temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water is sent from the hot water supply connection unit. A hot water supply system in which hot water is heated by the hot water heater being heated by the hot water heater being heated from the hot water supply connection unit. From the time when the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit shifts from a temperature state lower than a reference temperature to a temperature state equal to or higher than the reference temperature in a state where hot water is being supplied. The measurement of the hot water delivery amount was started, and the measured hot water delivery amount reached the hot water amount corresponding to the pipe volume of the hot water pipe connecting the hot water supply connection unit and the hot water heater, which had been measured in advance. At the time, the heating of the water heater is stopped, or, as in the hot water system of the invention according to claim 9, a hot water heater as a main heat source, and a heat storage tank for storing hot water generated by an auxiliary heat source, A hot water supply connection unit that mixes hot water sent from the heat storage tank with the hot water as needed and sends it to the water heater, and has a temperature equal to or higher than a reference temperature set before and after the hot water set temperature. Is sent from the heat storage tank to the hot water supply connection unit, hot water supplied from the hot water supply connection unit is heated without the water heater heating, and hot water below the reference temperature is supplied from the heat storage tank to the hot water supply. When sent to the connection unit, the hot water supply system is configured to supply hot water by heating the hot water sent from the hot water supply connection unit, and the hot water sent from the hot water supply connection unit is used as the hot water supply. In a state where hot water is being supplied without heating the heater, the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit falls below the reference temperature from a temperature state higher than a reference temperature. The measurement of the hot water delivery amount is started from the time of transition to the temperature state, and the measured hot water delivery amount is measured in advance. It is also possible to start heating the water heater when the amount of hot water corresponding to the pipe volume of the hot water pipe connecting the knit and the water heater is reached.
[0019]
As described above, when the control is switched based on the reference temperature set before and after the hot water supply set temperature, hot water lower than the hot water supply set temperature may be supplied, but the reference temperature is set near the hot water supply set temperature. In particular, when the reference temperature is set to a temperature lower than the hot water supply set temperature, the temperature of the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water supply connection unit is not reduced. Before the temperature of the hot water to be sent rises to the hot water supply set temperature, the heating of the water heater is stopped, and the temperature of the hot water sent from the heat storage tank to the hot water supply connection unit or the temperature of the hot water sent from the hot water supply connection unit is Since the heating of the water heater is started after the temperature falls below the hot water supply set temperature, hot water can be supplied using the hot water stored in the heat storage tank to the maximum extent.
[0020]
As described above, when the heating of the water heater is stopped or started when the amount of hot water corresponding to the pipe volume of the hot water pipe is delivered, the heat storage tank as in the hot water supply system of the invention according to claim 10. After detecting the temperature change of the hot water sent to the hot water supply connection unit from the hot water inlet side or the hot water outlet side of the hot water supply connection unit, the temperature change is detected on the hot water inlet side of the water heater. It is only necessary to measure the amount of hot water sent out until it is detected again in step 1 and use the amount of hot water as the pipe volume of the hot water pipe.
[0021]
In particular, as in the hot water supply system of the invention according to claim 11, in the state where hot water having a hot water supply set temperature is generated by heating the hot water sent from the hot water supply connection unit, When the hot water sent to the hot water supply connection unit or the hot water sent from the hot water supply connection unit shifts from a temperature state lower than the hot water supply set temperature to a temperature state equal to or higher than the hot water supply set temperature, In the state where the hot water connection unit is sending hot water at a hot water supply set temperature, as in the hot water supply system of the invention according to claim 12, The hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit is not hot water supply set temperature or higher than the hot water supply set temperature. By measuring the amount of hot water sent between the time when the temperature is lowered and the time when the hot water at that temperature reaches the water heater, the hot water supply system is actually measured without separately measuring the pipe volume. The pipe volume can be obtained while operating.
[0022]
In addition, as in the hot water supply system of the invention according to claim 13, it is preferable to measure the amount of hot water a plurality of times and use an average value of the plurality of measured hot water amounts as a pipe volume of the hot water pipe.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments will be described 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. In this hot water supply system 1, as shown in the figure, a solar water heater 10 and a hot 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 supplied with hot water. It is sent to the hot water heater 30 via the connection unit 20.
[0024]
The solar thermal water heater 10 includes a solar heat exchanger 11 and a sealed heat storage tank 14, and a water supply pipe 15 for supplying clean water to the lower end of the heat storage tank 14 is connected to the heat storage tank 14. In addition, a hot water supply pipe 16 for sending stored hot water to the hot water supply connection unit 20 is connected to the upper end portion.
[0025]
In the solar heat exchanger 11, a heat medium circulation path is formed by a solar pipe 12 connecting the inlet side and the outlet side of the solar heat exchanger 11, and the solar pipe 12 is partially introduced into the heat storage tank 14. The heat exchanger 13 is provided. Therefore, the heat medium heated by the solar heat exchanger 11 is guided into the heat storage tank 14 through the solar pipe 12, and heat exchange with the water in the heat storage tank 14 is performed by the heat exchange unit 13. Hot water is generated in 14.
[0026]
As shown in the figure, the hot water supply connection unit 20 mixes clean water supplied through the water supply pipe 22 and hot water supplied from the heat storage tank 14 through the hot water supply pipe 16 as necessary. The warm water sent from the heat storage tank 14 is sent to the water heater 30 through the hot water pipe 23 connected to the blend control valve 21 as it is or appropriately mixed with clean water. The hot water is supplied through the heat exchanger 31 of the water heater 30.
[0027]
The water supply pipe 22 and the hot water pipe 23 are connected to each other via a bypass pipe 24 provided with a diaphragm type electromagnetic valve 25 that is fully closed when energized, and the hot water connected to the mixing control valve 21. In the supply pipe 16 and the hot water pipe 23, the temperature of the hot water sent from the heat storage tank 14 (hereinafter referred to as the hot water temperature) Ts and the temperature of the hot water sent from the hot water supply connection unit 20 are detected. (Hereinafter referred to as tapping temperature) A tapping temperature sensor 27 for detecting To is provided.
[0028]
The hot water supply connection unit 20 and the hot water heater 30 are respectively equipped with controllers 20a and 30a that can communicate with each other via a serial interface, and the operation remote controller 40 of the hot water heater 30 is supplied with hot water via a serial interface. A controller 40a that can communicate with the controller 30a of the water heater 30 is mounted. The controllers 20a, 30a, and 40a collectively control the operation of the hot water supply system 1 in cooperation with each other.
[0029]
A temperature detection signal from the hot water temperature sensor 26 and the hot water temperature sensor 27 is input to the controller 20a of the hot water supply connection unit 20, and the hot water set temperature Te and operation switch signal, burner combustion signal, A water flow signal that is turned on when the flow rate of hot water passing through the heat exchanger 31 of the water heater 30 is equal to or greater than the minimum working water amount is transmitted from the controller 30a of the water heater 30. The controller 20a of the hot water supply connection unit 20 controls the mixing control valve 21 based on the set temperature Te.
[0030]
When the temperature of the hot water delivered from the heat storage tank 14, that is, the hot water temperature Ts detected by the hot water temperature sensor 26 is equal to or higher than the hot water supply set temperature Te, water is appropriately supplied without burning the burner of the water heater 30. Since the hot water of the hot water supply set temperature Te can be supplied by mixing, the temperature of the hot water delivered from the hot water supply connection unit 20, that is, the hot water temperature To detected by the hot water temperature sensor 27 becomes the hot water supply set temperature Te. Thus, hot water supply set temperature control for controlling the mixing control valve 21 is performed.
[0031]
On the other hand, when the hot water temperature Ts is lower than the hot water supply set temperature Te, the hot water at the hot water supply set temperature Te cannot be supplied unless the burner of the hot water heater 30 is burned. The hot water temperature Ts is divided into the case where the hot water temperature Ts is 60 ° C. or more, less than 60 ° C., 35 ° C. or more, and less than 35 ° C., and when it is 60 ° C. or more, 45 ° C. When the temperature is below 60 ° C and above 35 ° C, 30 ° C, and when it is below 35 ° C, 25 ° C warm water is sent out. To do.
[0032]
In addition, when performing the hot water supply set temperature control, it is not necessary to burn the burner of the hot water heater 30, so when the hot water supply is started by turning on the operation switch of the operation remote controller 40, the controller 20 a of the hot water supply connecting unit 20 supplies the hot water. When a combustion stop command is output to the controller 30a of the water heater 30 and fixed temperature control is performed, the burner of the water heater 30 must be burned, so when the operation switch of the operation remote controller 40 is turned on and hot water supply is started. The controller 20a of the hot water supply connection unit 20 outputs a combustion start command to the controller 30a of the hot water heater 30.
[0033]
The controller 20a of the hot water supply connection unit 20 is equipped with a timer, and the control board is provided with a DIP switch that switches the set time of the timer between 0.5 seconds and 2 seconds. Specifically, when the DIP switch is turned on, the timer setting time is set to 0.5 seconds, and when the DIP switch is turned off, the timer setting time is set to 2 seconds.
[0034]
The selection of whether to turn the DIP switch ON or OFF is determined based on the length of the hot water pipe 23 that connects the installed hot water supply connection unit 20 and the hot water heater 30, and at the time of construction, the hot water pipe 23 When the pipe length of the hot water pipe 23 is long (for example, about 4 to 5 m), the DIP switch is turned off.
[0035]
In addition, the controller 20a of the hot water supply connection unit 20 is in a state where hot water having a hot water supply set temperature Te is supplied by fixed temperature control, or when hot water having a temperature equal to or higher than the hot water set temperature Te starts to be sent from the heat storage tank 14, In the state where hot water at the hot water supply set temperature Te is being supplied by temperature control, when hot water lower than the hot water supply set temperature Te starts to be sent out from the heat storage tank 14, the control is switched at that time. The output timing of the combustion stop command and the combustion start command at the time of switching will be described below with reference to the flowchart shown in FIG.
[0036]
First, when the operation switch of the operation remote controller 40 is turned on (step S1), the process 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 temperature Ts at that time is equal to or higher than the hot water supply set temperature Te (step S3), and if the hot water temperature Ts is lower than the hot water supply set temperature Te, The controller 20a of the connection unit 20 immediately outputs a burner combustion start command to the controller 30a of the water heater 30 (step S4), and starts the above-described fixed temperature control (step S5). Therefore, when the hot water temperature Ts at the time of starting hot water supply is lower than the hot water supply set temperature Te, the burner of the hot water heater 30 immediately starts combustion.
[0037]
Subsequently, it is determined whether or not the hot water temperature Ts has risen above the hot water supply set temperature Te (step S6), and the fixed temperature control is performed while the hot water temperature Ts is below the hot water supply set temperature Te. If the hot water temperature Ts continues to rise above the hot water supply set temperature Te, the fixed temperature control is switched to the hot water supply set temperature control described above (step S7).
[0038]
In this way, when the fixed temperature control is switched to the hot water supply set temperature control, it is subsequently determined whether or not the hot water temperature To has risen to the hot water supply set temperature Te (step S8), and the hot water temperature To is the hot water supply set temperature Te. While it is below, wait as it is. Here, when the hot water temperature To rises to the hot water supply set temperature Te, it is determined whether or not the above-described DIP switch is turned on (step S9). If the DIP switch is turned on, the set time is set to 0.5. The timer is set to seconds (step S10), and when 0.5 seconds have elapsed (step S11), a burner combustion stop command is output to the controller 30a of the water heater 30 (step S14).
[0039]
On the other hand, if the DIP switch is not turned on in step S9, the set time is set to 2 seconds and the timer is started (step S12). When 2 seconds have passed (step S13), the hot water heater 30 is turned on. A burner combustion stop command is output to the controller 30a (step S14).
[0040]
Therefore, when the pipe length of the hot water pipe 23 connecting the installed hot water supply connection unit 20 and the hot water heater 30 is short, when 0.5 seconds have elapsed since the switch from the fixed temperature control to the hot water supply set temperature control. When the combustion of the burner of the hot water heater 30 is stopped and the pipe length of the hot water pipe 23 is long, the burner of the hot water heater 30 burns when 2 seconds have elapsed from the time of switching from the fixed temperature control to the hot water set temperature control. Will be stopped.
[0041]
As described above, the combustion stop timing of the burner is delayed according to the pipe length of the hot water pipe 23 without immediately stopping the combustion of the burner of the water heater 30 when switching from the fixed temperature control to the hot water supply set temperature control. Since hot water lower than the hot water supply set temperature Te in the hot water pipe 23 at the time of switching from the fixed temperature control to the hot water supply set temperature control is heated by the water heater 30, the hot water at the hot water supply set temperature Te continues at the time of control switching. Will be supplied.
[0042]
On the other hand, if the hot water temperature Ts is equal to or higher than the hot water supply set temperature Te in step S3, the controller 20a of the hot water supply connection unit 20 immediately outputs a burner combustion stop command to the controller 30a of the water heater 30 (step S15). ), The above-described hot water supply set temperature control is started (step S16). Therefore, when the hot water temperature Ts at the time when the hot water supply is started is equal to or higher than the hot water supply set temperature Te, the hot water supply is started without burning the burner of the water heater 30.
[0043]
Subsequently, it is determined whether or not the hot water temperature Ts is maintained at or above the hot water supply set temperature Te (step S17), and the hot water supply set temperature control is continued while the hot water temperature Ts is maintained at or above the hot water supply set temperature Te. When the hot water temperature Ts falls below the hot water supply set temperature Te, the hot water supply set temperature control is switched to the fixed temperature control (step S18).
[0044]
In this way, when the hot water supply set temperature control is switched to the fixed temperature control, it is subsequently determined whether or not the hot water temperature To is lower than the hot water supply set temperature Te (step S19), and the hot water temperature To is set to the hot water supply set temperature Te. While it is maintained, it waits as it is. Here, when the hot water temperature To falls below the hot water supply set temperature Te, it is determined whether or not the above-described DIP switch is turned on (step S20). If the DIP switch is turned on, the set time is set to 0.5. The timer is set to seconds (step S21), and when 0.5 seconds have elapsed (step S22), the controller 20a of the hot water supply connection unit 20 issues a burner combustion start command to the controller 30a of the hot water heater 30. Output (step S25).
[0045]
On the other hand, if the DIP switch is not turned on in step S20, the set time is set to 2 seconds to start the timer (step S23), and when 2 seconds have passed (step S24), the hot water supply connection unit 20 The controller 20a outputs a burner combustion start command to the controller 30a of the water heater 30 (step S25).
[0046]
Therefore, when the pipe length of the hot water pipe 23 that connects the installed hot water supply connection unit 20 and the hot water heater 30 is short, at the time when 0.5 second has elapsed from the time when the hot water supply set temperature control is switched to the fixed temperature control. When the combustion of the burner of the water heater 30 is started and the length of the hot water pipe 23 is long, the combustion of the burner of the water heater 30 starts when 2 seconds have elapsed from the time of switching from the hot water set temperature control to the fixed temperature control. Will be started.
[0047]
As described above, the combustion start timing of the burner is delayed according to the pipe length of the hot water pipe 23 without immediately starting the combustion of the burner of the water heater 30 when switching from the hot water supply set temperature control to the fixed temperature control. Since the hot water of the hot water supply set temperature Te in the hot water pipe 23 at the time of switching from the hot water supply set temperature control to the fixed temperature control is not further heated by the hot water heater 30, the hot water supply set temperature Te of the hot water set temperature Te is also changed at the time of control switching. Hot water will be supplied continuously.
[0048]
After outputting the burner combustion stop command to the controller 30a of the water heater 30 in step S14, the process proceeds to step S17, and after outputting the burner combustion start command to the controller 30a of the water heater 30 in step S25. By shifting to step S6, the same operation is repeated for the subsequent temperature change of the hot water temperature Ts.
[0049]
In the above-described embodiment, the timer is started from the time when the temperature change of the tapping temperature To is detected after detecting the temperature change of the tapping temperature Ts. However, the present invention is not limited to this. After detecting the temperature change of the temperature Ts, the timer can be started from the time when the mixing control valve 21 starts to operate, or the timer can be started immediately when the temperature change of the hot water temperature Ts is detected. Is possible.
[0050]
In the above-described embodiment, the set time of the timer is set to either 0.5 seconds or 2 seconds. However, the present invention is not limited to this, and by providing a plurality of DIP switches It is also possible to set the set time more finely according to the pipe length of the hot water pipe 23.
[0051]
In the embodiment described above, the DIP switch is provided in the controller 20a of the hot water supply connection unit 20. However, the present invention is not limited to this, and the DIP switch can be provided in the controller 30a of the water heater 30. is there.
[0052]
In addition, the switching of the set time of the timer is not limited to the DIP switch as described above, and may be set by the operation remote controller 40 of the water heater 30 so that the user can set it himself. .
[0053]
3 to 5 show other embodiments. Since the hot water supply system 2 also has basically the same configuration as the hot water supply system 1 described above, the same components are denoted by the same reference numerals, description thereof is omitted, and different portions will be described in detail.
[0054]
In the hot water supply system 1 described above, the burner combustion stop command and the combustion start command are output for a predetermined time roughly determined according to the pipe length of the hot water pipe 23 connecting the hot water supply connection unit 20 and the hot water heater 30. In this hot water supply system 2, the pipe volume of the constructed hot water pipe 23 is actually measured, and the hot water amount corresponding to the pipe volume of the hot water pipe 23 is supplied to the water heater 30 from the time of control switching. This is different from the hot water supply system 1 in that the output timing of the burner's combustion stop command and combustion start command is delayed by the time until it is sent out. Therefore, in this hot water supply system 2, no DIP switch for switching the set time of the timer is provided.
[0055]
In this hot water supply system 2, as shown in FIG. 3, the temperature of hot water sent from the hot water supply connection unit 20 (hereinafter referred to as hot water supply hot water temperature) Ti is detected on the hot water inlet side of the hot water heater 30. A water heater temperature sensor 32 and a flow rate sensor 33 for measuring the flow rate V thereof are provided, and the temperature detection signal and the flow rate detection signal from the water heater temperature sensor 32 and the flow rate sensor 33 are the controller 30a of the water heater 30. To be input.
[0056]
The temperature detection signal and the flow rate detection signal input to the controller 30a of the hot water heater 30 are transmitted to the controller 20a of the hot water connection unit 20 as needed, and the controller 20a performs the above-described hot water temperature Ts, hot water temperature To, hot water heater hot water. The pipe volume of the hot water pipe 23 is obtained based on the temperature Ti and the flow rate V and stored in the memory, and the output timing of the burner combustion stop command and the combustion start command is delayed in consideration of the pipe volume. The details will be described below with reference to the flowcharts shown in FIGS. In this hot water supply system 2, the pipe volume of the hot water pipe 23 is obtained while actually performing the hot water supply operation, and the pipe volume measuring operation is an initial stage when the hot water supply system 2 actually starts the hot water supply operation. Thereafter, the operation is shifted to a normal hot water supply operation using the determined pipe volume.
[0057]
First, the measurement operation of the pipe volume of the hot water pipe 23 performed in the initial operation stage of the hot water supply system will be described with reference to the flowchart shown in FIG. When the operation switch of the operation remote controller 40 is turned on (step S31), the operation waits until the water flow signal is turned on, that is, until hot water supply is started (step S32). Here, when the water flow signal is turned on, it is determined whether or not the hot water temperature Ts at that time is equal to or higher than the hot water supply set temperature Te (step S33), and if the hot water temperature Ts is lower than the hot water supply set temperature Te, The controller 20a of the connecting unit 20 immediately outputs a burner combustion start command to the controller 30a of the water heater 30 (step S34), and starts the above-described fixed temperature control (step S35).
[0058]
Subsequently, it is determined whether or not the hot water temperature Ts has risen above the hot water supply set temperature Te (step S36), and the fixed temperature control is performed while the hot water temperature Ts is below the hot water supply set temperature Te. When the hot water temperature Ts continues to rise above the hot water supply set temperature Te, switching from the fixed temperature control to the hot water supply set temperature control (step S37), immediately outputs a burner combustion stop command to the controller 30a of the water heater 30. (Step S38).
[0059]
In this way, when the fixed temperature control is switched to the hot water supply set temperature control, it is subsequently determined whether or not the hot water temperature To has risen to the hot water supply set temperature Te (step S39), and the hot water temperature To is determined as the hot water supply set temperature Te. While it is below, wait as it is. Here, when the hot water temperature To rises to the hot water supply set temperature Te, integration of the flow rate V transmitted as needed from the controller 30a of the hot water heater 30 is started (step S40).
[0060]
Subsequently, it is determined whether or not the hot water supply hot water temperature Ti transmitted from the controller 30a of the water heater 30 has risen to the hot water supply set temperature Te (step S41). Here, while the hot water supply hot water temperature Ti is lower than the hot water supply set temperature Te, the integration of the flow rate is continued, but when the hot water supply hot water input temperature Ti rises to the hot water supply set temperature Te, the flow rate integration is stopped at that time. (Step S42), and the integrated flow rate up to that point is stored in the memory as the pipe volume of the hot water pipe 23 (Step S43).
[0061]
On the other hand, if the hot water temperature Ts is equal to or higher than the set hot water temperature Te in step S33, 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 heater 30 (step S44). ), The above-described hot water supply set temperature control is started (step S45).
[0062]
Subsequently, it is determined whether or not the hot water temperature Ts is maintained above the hot water supply set temperature Te (step S46), and the hot water supply set temperature control is continued while the hot water temperature Ts is maintained above the hot water supply set temperature Te. When the hot water temperature Ts falls below the hot water supply set temperature Te, the hot water set temperature control is switched to the fixed temperature control (step S47), and immediately a burner combustion start command is output to the controller 30a of the water heater 30 (step S48). ).
[0063]
In this way, when the hot water supply set temperature control is switched to the fixed temperature control, subsequently, it is determined whether or not the hot water temperature To has fallen below the hot water supply set temperature Te (step S49), and the hot water temperature To becomes the hot water supply set temperature Te. While it is maintained, it waits as it is. Here, when the hot water temperature To falls below the hot water supply set temperature Te, integration of the flow rate V transmitted as needed from the controller 30a of the hot water heater 30 is started (step S50).
[0064]
Subsequently, it is determined whether or not the hot water supply hot water temperature Ti transmitted from the controller 30a of the water heater 30 is below the hot water supply set temperature Te (step S51). Here, while the hot water heater hot water temperature Ti is maintained at the hot water supply set temperature Te, the flow rate is continued to be accumulated. However, when the hot water heater hot water temperature Ti is lower than the hot water supply set temperature Te, the flow rate is accumulated at that time. The operation is stopped (step S52), and the integrated flow up to that point is stored in the memory as the pipe volume of the hot water pipe 23 (step S53).
[0065]
Next, a normal hot water supply operation that performs control using the pipe volume data of the hot water pipe 23 thus obtained will be described with reference to the flowchart shown in FIG. First, when the operation switch of the operation remote controller 40 is turned on (step S61), the process waits until the water flow signal is turned on, that is, until hot water supply is started (step S62). Here, when the water flow signal is turned on, it is determined whether or not the hot water temperature Ts at that time is equal to or higher than the hot water supply set temperature Te (step S63), and if the hot water temperature Ts is lower than the hot water supply set temperature Te, The controller 20a of the connection unit 20 immediately outputs a burner combustion start command to the controller 30a of the water heater 30 (step S64), and starts the above-described fixed temperature control (step S65). Therefore, when the hot water temperature Ts at the time of starting hot water supply is lower than the hot water supply set temperature Te, the burner of the hot water heater 30 immediately starts combustion.
[0066]
Subsequently, it is determined whether or not the hot water temperature Ts has risen above the hot water supply set temperature Te (step S66), and the fixed temperature control is performed while the hot water temperature Ts is below the hot water supply set temperature Te. If the hot water temperature Ts continues to rise above the hot water supply set temperature Te, the hot water supply set temperature control is switched from the fixed temperature control (step S67).
[0067]
In this way, when the fixed temperature control is switched to the hot water supply set temperature control, it is subsequently determined whether or not the hot water temperature To has risen to the hot water supply set temperature Te (step S68), and the hot water temperature To is the hot water supply set temperature Te. While it is below, wait as it is. Here, when the hot water temperature To rises to the hot water supply set temperature Te, integration of the flow rate V transmitted from the controller 30a of the water heater 30 as needed is started (step S69).
[0068]
Subsequently, it is determined whether or not the accumulated flow has reached a hot water amount corresponding to the pipe volume of the hot water pipe 23 stored in advance in the memory (step S70). Here, when the accumulated flow rate does not reach the hot water amount corresponding to the pipe volume of the hot water pipe 23, the flow rate accumulation is continued while maintaining the state as it is, but the accumulated flow rate becomes the pipe volume of the hot water pipe 23. When the corresponding amount of hot water is reached, a burner combustion stop command is output to the controller 30a of the water heater 30 at that time (step S71).
[0069]
On the other hand, if the hot water temperature Ts is equal to or higher than the hot water supply set temperature Te in step S63, a burner combustion stop command is immediately output to the controller 30a of the hot water heater 30 (step S72), and hot water supply set temperature control is started. (Step S73). Therefore, when the hot water temperature Ts at the time when the hot water supply is started is equal to or higher than the hot water supply set temperature Te, the hot water supply is started without burning the burner of the water heater 30.
[0070]
Subsequently, it is determined whether or not the hot water temperature Ts is maintained above the hot water supply set temperature Te (step S74), and the hot water supply set temperature control is continued while the hot water temperature Ts is maintained above the hot water supply set temperature Te. When the hot water temperature Ts falls below the hot water supply set temperature Te, the hot water supply set temperature control is switched to the fixed temperature control (step S75).
[0071]
In this way, when the hot water supply set temperature control is switched to the fixed temperature control, it is subsequently determined whether or not the hot water temperature To is lower than the hot water supply set temperature Te (step S76), and the hot water temperature To becomes the hot water supply set temperature Te. While it is maintained, it waits as it is. Here, when the hot water temperature To falls below the hot water supply set temperature Te, integration of the flow rate V transmitted as needed from the controller 30a of the hot water heater 30 is started (step S77).
[0072]
Subsequently, it is determined whether or not the accumulated flow has reached a hot water amount corresponding to the pipe volume of the hot water pipe 23 stored in advance in the memory (step S78). Here, when the accumulated flow rate does not reach the hot water amount corresponding to the pipe volume of the hot water pipe 23, the flow rate accumulation is continued while maintaining the state as it is, but the accumulated flow rate becomes the pipe volume of the hot water pipe 23. When the corresponding amount of hot water is reached, a burner combustion start command is output to the controller 30a of the water heater 30 at that time (step S79).
[0073]
After outputting the burner combustion stop command to the controller 30a of the water heater 30 in step S71, the process proceeds to step S74, and after outputting the burner combustion start command to the controller 30a of the water heater 30 in step S79. By shifting to step S66, the same operation is repeated for the subsequent temperature change of the hot water temperature Ts.
[0074]
As described above, in the hot water supply system 2, after switching the control, when the hot water corresponding to the pipe volume of the hot water pipe 23 measured in advance has been sent to the hot water heater 30, the burner combustion stop command Since the combustion start command is output to the controller 30a of the hot water heater 30, the command timing is delayed by a predetermined time roughly determined according to the pipe length of the hot water pipe 23. Thus, the hot water supplied at the time of control switching can be held at the hot water supply set temperature with higher accuracy. In addition, as described above, the hot water supply system 2 has an advantage that it is not necessary to separately measure only the pipe volume because the pipe volume is obtained while actually performing the hot water supply operation.
[0075]
In the above-described embodiment, the pipe volume is obtained while actually performing the hot water supply operation, but is not limited to this, and the pipe volume is separately measured using various methods. You may make it input into the controller 20a of the hot water supply connection unit 20. FIG.
[0076]
In the above-described embodiment, the flow rate integration process is performed by the controller 20a of the hot water supply connection unit 20. However, the present invention is not limited to this, and the controller 30a of the water heater 30 performs the flow rate integration process. Is also possible.
[0077]
Further, in the embodiment described above, after detecting the temperature change of the hot water temperature Ts, the integration of the flow rate is started from the time when the temperature change of the hot water temperature To is detected. However, the present invention is not limited to this. After the temperature change of the hot water temperature Ts is detected, it is also possible to start integrating the flow rate from the time when the mixing control valve 21 starts to operate, and immediately after detecting the temperature change of the hot water temperature Ts, the flow rate is immediately controlled. It is also possible to start integration.
[0078]
In the above-described embodiment, the pipe volume is measured during the first hot water supply operation. However, the present invention is not limited to this, and the accumulated pipe volume is obtained by repeatedly measuring the pipe volume a plurality of times. The actual pipe volume to be used may be determined based on the data.
[0079]
In the above-described embodiment, the flow rate until the temperature change of the hot water supply hot water temperature Ti is detected after detecting the temperature change of the hot water temperature To is actually integrated. For example, after detecting the temperature change of the hot water temperature To, the time until the temperature change of the hot water supply hot water temperature Ti is detected is integrated by a timer, and when the timer starts integration, during integration or at the end of integration It is also possible to predict and determine the integrated flow rate based on one or more measured flow rate data.
[0080]
In the above-described embodiment, the burner combustion stop command and the combustion start command are output at the time when the hot water corresponding to the pipe volume measured in advance has been sent to the water heater 30 from the control switching time. However, the present invention is not limited to this. For example, a delay time corresponding to the pipe volume may be set in advance, and the command timing may be delayed by the delay time corresponding to the measured pipe volume.
[0081]
In the embodiment described above, the hot water supply set temperature control and the fixed temperature control are switched depending on whether or not the hot water supply temperature Ts is equal to or higher than the hot water supply set temperature Te, but the present invention is not limited to this. Switching between hot water supply set temperature control and fixed temperature control depending on whether Ts is equal to or higher than a reference temperature set before and after the hot water supply set temperature Te (for example, hot water set temperature Te-5 ° C, hot water set temperature Te + 2 ° C). Is also possible. In that case, when the predetermined time has elapsed from the time when the hot water temperature Ts is shifted from the temperature state below the reference temperature to the temperature state equal to or higher than the reference temperature, or when the hot water corresponding to the pipe volume of the hot water pipe 23 is delivered. The hot water corresponding to the pipe volume of the hot water pipe 23 is sent when a predetermined time elapses from the time when the combustion of the 30 burners is stopped or the hot water temperature Ts shifts from the temperature state above the reference temperature to the temperature state below the reference temperature. At that time, the combustion of the burner of the water heater 30 may be started.
[0082]
As described above, when the hot water set temperature control and the fixed temperature control are switched depending on whether the hot water temperature Ts is equal to or higher than the reference temperature set before and after the hot water set temperature Te, hot water lower than the hot water set temperature Te is supplied. However, if the reference temperature is set in the vicinity of the hot water supply set temperature Te, it will not be extremely unusable, and in particular, if the reference temperature is set to a temperature lower than the hot water supply set temperature Te, Before the temperature of the hot water sent from the heat storage tank 14 to the hot water supply connection unit 20 or the temperature of the hot water sent from the hot water supply connection unit 20 rises to the hot water supply set temperature Te, the combustion of the burner of the water heater 30 is stopped, and the heat storage After the temperature of the hot water sent from the tank 14 to the hot water supply connection unit 20 or the temperature of the hot water sent from the hot water supply connection unit 20 falls below the hot water supply set temperature Te. Since the combustion of the burner of the hot water heater 30 is started, the combustion time of the burner of the hot water heater 30 is shortened as a whole, and the hot water supply operation using the hot water stored in the heat storage tank 14 to the maximum is performed. Is possible.
[0083]
Moreover, although embodiment mentioned above is a hot water supply system which used the solar-heated water heater as an auxiliary heat source, the auxiliary heat source in a hot-water supply system is not limited to such a solar-heated water heater, For example, cogeneration Needless to say, the present invention can be applied to a hot water supply system using various auxiliary heat sources, such as a hot water supply system using waste heat of a gas engine or a gas turbine in the system as an auxiliary heat source.
[Brief description of the 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.
FIG. 3 is a schematic configuration diagram showing a hot water supply system according to another embodiment.
FIG. 4 is a flowchart showing a pipe volume measuring operation in the hot water supply system according to the first embodiment.
FIG. 5 is a flowchart showing a hot water supply operation in the above hot water supply system.
[Explanation of symbols]
1, 2 Hot water supply system
10 Solar water heater
14 Thermal storage tank
16 Hot water supply pipe
20 Hot water supply connection unit
20a controller
21 Mixing control valve
23 Hot water piping
26 Hot water temperature sensor
27 Hot water temperature sensor
30 Water heater
30a controller
31 heat exchanger
32 Hot water heater temperature sensor
33 Flow sensor
40 Operation remote control
40a controller

Claims (13)

A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water of 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 generates hot water at a hot water supply set temperature by mixing clean water,
When hot water 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 to generate hot water at the hot water set temperature. In the hot water system,
From the hot water supplied from the heat storage tank to the hot water supply connection unit or from the hot water supply connection unit in a state where the hot water generator generates hot water having a hot water supply set temperature by heating the hot water sent from the hot water supply connection unit. From the time when the hot water to be sent is changed from a temperature state below the hot water supply set temperature to a temperature state equal to or higher than the hot water supply set temperature, the hot water is preset according to the length of the hot water pipe connecting the hot water supply connection unit and the hot water supply A hot water supply system, wherein heating of the water heater is stopped when a predetermined time has elapsed. A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water that is equal to or higher than a reference temperature set before and after the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, hot water is not supplied from the hot water supply unit without heating the hot water. Done
When hot water lower than a reference temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water supply system is configured to perform hot water supply by heating the hot water sent from the hot water supply connection unit,
Hot water sent from the heat storage tank to the hot water supply connection unit or hot water sent from the hot water supply connection unit in a state where hot water is being heated by heating the hot water sent from the hot water supply connection unit. When a predetermined time elapses in advance according to the length of the hot water pipe connecting the hot water supply connection unit and the hot water heater from the time when the temperature state is lower than the reference temperature to the temperature state higher than the reference temperature. The hot water supply system is characterized in that heating of the water heater is stopped. A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water of 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 generates hot water at a hot water supply set temperature by mixing clean water,
When hot water 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 to generate hot water at the hot water set temperature. In the hot water system,
In a state where the hot water supply connection unit is sending hot water at a hot water supply set temperature, the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit is a temperature state equal to or higher than the hot water supply set temperature. From the point of time when the hot water supply unit temperature is changed to a temperature state lower than the hot water supply set temperature, when a predetermined time set in advance according to the length of the hot water pipe connecting the hot water supply connection unit and the hot water heater has passed, A hot water supply system characterized in that heating is started. A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water that is equal to or higher than a reference temperature set before and after the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, hot water is not supplied from the hot water supply unit without heating the hot water. Done
When hot water lower than a reference temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water supply system is configured to perform hot water supply by heating the hot water sent from the hot water supply connection unit,
Hot water sent from the hot water storage connection unit or hot water sent from the hot water supply connection unit in a state where hot water is being supplied without the hot water heater heating the hot water sent from the hot water supply connection unit. When a predetermined time elapses from the time when the temperature state is changed from the temperature state equal to or higher than the reference temperature to the temperature state lower than the reference temperature, according to the length of the hot water pipe connecting the hot water supply connection unit and the water heater. In the hot water supply system, heating of the water heater is started. 2. A time selection means for selecting an appropriate predetermined time from a plurality of predetermined times set in advance according to a pipe length of the hot water pipe, or a time input means for inputting the predetermined time. The hot water supply system according to 2, 3 or 4. A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water of 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 generates hot water at a hot water supply set temperature by mixing clean water,
When hot water 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 to generate hot water at the hot water set temperature. In the hot water system,
From the hot water supplied from the heat storage tank to the hot water supply connection unit or from the hot water supply connection unit in a state where the hot water generator generates hot water having a hot water supply set temperature by heating the hot water sent from the hot water supply connection unit. When the temperature of the hot water to be delivered is changed from a temperature state below the hot water supply set temperature to a temperature state equal to or higher than the hot water supply set temperature, measurement of the hot water delivery amount is started, and the hot water delivery amount being measured has been measured in advance. A hot water supply system, wherein heating of the water heater is stopped when a hot water amount corresponding to a pipe volume of a hot water pipe connecting the hot water supply connecting unit and the water heater is reached. A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water that is equal to or higher than a reference temperature set before and after the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, hot water is not supplied from the hot water supply unit without heating the hot water. Done
When hot water lower than a reference temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water supply system is configured to perform hot water supply by heating the hot water sent from the hot water supply connection unit,
Hot water sent from the heat storage tank to the hot water supply connection unit or hot water sent from the hot water supply connection unit in a state where hot water is being heated by heating the hot water sent from the hot water supply connection unit. The measurement of the hot water delivery amount is started from the time when the temperature state is lower than the reference temperature to the temperature state equal to or higher than the reference temperature, and the hot water delivery amount being measured is measured in advance with the hot water supply connection unit and the hot water supply. A hot water supply system characterized in that heating of the water heater is stopped when the amount of hot water corresponding to the pipe volume of the hot water pipe connecting the heater is reached. A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water of 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 generates hot water at a hot water supply set temperature by mixing clean water,
When hot water 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 to generate hot water at the hot water set temperature. In the hot water system,
In a state where the hot water supply connection unit is sending hot water at a hot water supply set temperature, the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit is a temperature state equal to or higher than the hot water supply set temperature. From the point of time when the temperature has shifted to a temperature lower than the hot water supply set temperature, measurement of the hot water delivery amount is started, and the hot water delivery amount being measured is connected in advance to the hot water supply connection unit and the water heater. A hot water supply system, wherein heating of the water heater is started when a hot water amount corresponding to a pipe volume of the hot water pipe is reached. A hot water heater as a main heat source, a heat storage tank for storing hot water generated by the auxiliary heat source, and a hot water supply connection for mixing hot water with the hot water sent from the heat storage tank and sending it to the water heater as necessary With a unit,
When hot water that is equal to or higher than a reference temperature set before and after the hot water supply set temperature is sent from the heat storage tank to the hot water supply connection unit, hot water is not supplied from the hot water supply unit without heating the hot water. Done
When hot water lower than a reference temperature is sent from the heat storage tank to the hot water supply connection unit, the hot water supply system is configured to perform hot water supply by heating the hot water sent from the hot water supply connection unit,
Hot water sent from the hot water storage connection unit or hot water sent from the hot water supply connection unit in a state where hot water is being supplied without the hot water heater heating the hot water sent from the hot water supply connection unit. From the time when the temperature state is shifted from the temperature state equal to or higher than the reference temperature to the temperature state lower than the reference temperature, measurement of the hot water delivery amount is started, and the hot water delivery amount being measured is measured in advance with the hot water supply connection unit and the A hot water supply system, wherein heating of the water heater is started when the amount of hot water corresponding to a pipe volume of a hot water pipe connected to the water heater is reached. After detecting the temperature change of the hot water having a temperature gradient in the middle sent from the heat storage tank to the hot water supply connection unit at the hot water inlet side or the hot water outlet side of the hot water supply connection unit, the temperature change of the hot water heater The hot water supply system according to claim 6, 7, 8 or 9, wherein the amount of hot water sent out before being detected again at the hot water inlet side is measured, and the amount of hot water is defined as the pipe volume of the hot water pipe. From the hot water supplied from the heat storage tank to the hot water supply connection unit or from the hot water supply connection unit in a state where the hot water generator generates hot water having a hot water supply set temperature by heating the hot water sent from the hot water supply connection unit. Measures the amount of hot water sent from the time when the hot water sent is below the hot water supply set temperature to a temperature state above the hot water set temperature until the hot water in that temperature reaches the water heater The hot water supply system according to claim 6, 7, 8 or 9, wherein the amount of hot water is the pipe volume of the hot water pipe. In a state where the hot water supply connection unit is sending hot water at a hot water supply set temperature, the hot water sent from the heat storage tank to the hot water supply connection unit or the hot water sent from the hot water supply connection unit is a temperature state equal to or higher than the hot water supply set temperature. Measure the amount of hot water sent from the time when the temperature of the hot water is lower than the set temperature of hot water to the time when the hot water in that temperature reaches the water heater, and the amount of hot water is the pipe volume of the hot water pipe. The hot water supply system according to claim 6, 7, 8, or 9. The hot water supply system according to claim 10, 11 or 12, wherein the hot water amount is measured a plurality of times, and an average value of the measured plural hot water amounts is defined as a pipe volume of the hot water pipe.

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