JP5436075B2 - Hot water system - Google Patents

Description

  The present invention relates to a hot water supply system using a plurality of hot water storage tanks.

  Some conventional hot water supply systems store hot water in a hot water storage tank, and supply the hot water stored in the hot water storage tank to a hot water supply section such as a bathroom via a hot water supply pipe. As such a hot water supply system, water from a water supply source is heated by a heating device to be warm water, and this hot water is supplied to a hot water storage tank to store hot water, or supplied from a water supply source to a hot water storage tank. There is known a tank internal water heating type that heats water with a heating device to make it warm (see, for example, Patent Documents 1 and 2).

  In such a hot water supply system, when a large volume of hot water is supplied to the hot water supply portion, it is necessary to prevent the temperature of the hot water supplied from being rapidly reduced. For this purpose, it is conceivable to use two or more heating devices and one hot water storage tank, or use a large heating device and two or more hot water storage tanks.

Japanese Patent Laid-Open No. 2003-166749 JP 2008-157551 A

  However, since the conventional hot water supply system is premised on large-capacity hot water supply, when a large number of hot water storage tanks are provided, it is difficult to avoid uneven flow of hot water, that is, fluctuations in the flow rate of hot water discharged from each hot water storage tank there were.

  Accordingly, an object of the present invention is to provide a hot water supply system capable of supplying a large volume of hot water with a simple structure and without drifting of the hot water.

According to the first aspect of the present invention, the first and second hot water storage tanks for storing the water from the water supply source , and the first and second heating devices respectively heating the water in the first and second hot water storage tanks to make hot water. And hot water supply switching means for selectively supplying hot water from one of the first and second hot water storage tanks to the hot water supply pipe, and a control circuit for controlling the operation of the hot water supply switching means. When the first priority mode that prioritizes the first hot water storage tank is set, the hot water in the first hot water storage tank can be supplied to the hot water supply pipe, and when the second priority mode that prioritizes the second hot water storage tank is set, the second priority mode is set. A hot water supply system for controlling the operation of the hot water supply switching means so that hot water in a hot water storage tank can be supplied to the hot water supply pipe ,
The control circuit alternately switches between the first priority mode and the second priority mode every predetermined period .

  According to this configuration, it is possible to perform hot water supply with a large capacity without a drift of hot water supply with a simple configuration.

It is a piping system diagram of the hot water supply system according to the present invention. It is a flowchart of the hot water supply control of tank 1 priority by the control circuit of FIG. It is a flowchart of the hot water supply control of tank 2 priority by the control circuit of FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[Constitution]
In FIG. 1, reference numeral 1 denotes a water supply source such as a water pipe, 2 denotes a water stop cock connected to the water supply source 1, and 3 denotes a strainer connected to the downstream side of the water stop cock 2.

  Reference numeral 4 denotes a three-way electromagnetic switching valve (hot water supply switching means) disposed on the downstream side of the strainer 3. The three-way electromagnetic switching valve 4 has first to third ports (first to third connection ports which are first to third water outlets) 4a to 4c. The first port 4a is connected to the water outflow side of the strainer 3, the second port 4b is connected to one end of the water supply pipe 5, and the third port 4c is connected to one end of the water supply pipe 6.

  Reference numeral 7 denotes a first hot water storage tank connected to the water supply pipe 5, and 8 denotes a second hot water storage tank connected to the water supply pipe 6. The first hot water storage tank 7 has a bottom wall 7a and an upper wall 7b. The bottom wall 7a is provided with a water supply port 7a1, and the upper wall 7b is provided with a hot water outlet (hot water outlet) 7b1. The second hot water storage tank 8 has a bottom wall 8a and an upper wall 8b. The bottom wall 8a is provided with a water supply port 8a1, and the upper wall 8b is provided with a hot water outlet (hot water outlet) 8b1. The other end of the water supply pipe 5 is connected to the water supply port 7a1, and the other end of the water supply pipe 6 is connected to the water supply port 8a1.

  The hot water outlet 7b1 of the first hot water storage tank 7 is connected to the water inflow side of the one-way valve 10 via the first automatic air vent valve 9, and the hot water outlet 8b1 of the upper wall 8b of the second hot water storage tank 8 is connected to the second hot water outlet 8b1. The water inflow side of the one-way valve 12 is connected via the automatic air vent valve 11. Moreover, a hot water supply pipe 13 is connected to the water outflow side of the one-way valve 10 and the water outflow side of the one-way valve 12. In addition, since a well-known structure can be employ | adopted for the 1st automatic air vent valve 9 and the 2nd automatic air vent valve 11, the detailed description is abbreviate | omitted.

  Furthermore, 14 is a first heat pump (first heating device as a first heat source) that heats the water in the first hot water storage tank 7, and 15 is a second heat pump (second heat source) that heats the water in the second hot water storage tank 8. As a second heating device).

  The first heat pump 14 has a water supply side connected to the bottom side of the first hot water storage tank 7 via a circulation pipe 14a and a discharge side connected to the upper side of the first hot water storage tank 7 via a circulation pipe 14b. Yes. The second heat pump 15 has a water supply side connected to the bottom side of the second hot water storage tank 8 via the circulation pipe 15a and a discharge side connected to the upper side of the second hot water storage tank 8 via the circulation pipe 15b. ing.

  The first hot water tank 7 is provided with a first temperature sensor 16 as a first temperature detection means, and a first temperature control circuit (control means) for inputting a temperature detection signal from the first temperature sensor 16. ) 17 is provided. The first temperature control circuit 17 controls the operation of the first heat pump 14 based on the temperature detection signal from the first temperature sensor 16 so that the water in the first hot water storage tank 7 reaches a predetermined temperature. ing. Although only one first temperature sensor 16 is illustrated, in practice, a plurality of (for example, about 10) first temperature sensors 16 are arranged at predetermined intervals in the vertical and horizontal directions in the first hot water storage tank 7. Set up.

  The second hot water storage tank 8 is provided with a second temperature sensor 18 as second temperature detection means, and a second temperature control circuit (control means) 19 for inputting a temperature detection signal from the second temperature sensor 18. A main body substrate (not shown) is provided. The second temperature control circuit 19 controls the operation of the second heat pump 15 based on the temperature detection signal from the second temperature sensor 18 so that the water in the second hot water storage tank 8 reaches a predetermined temperature. ing. Although only one second temperature sensor 18 is shown in the drawing, a plurality of (for example, about 10) first temperature sensors 18 are actually arranged at predetermined intervals in the vertical and horizontal directions in the second hot water storage tank 8. Set up.

  Furthermore, temperature detection signals from the first and second temperature sensors 16 and 18 are input to the system control circuit (control means) 20 via the first and second temperature control circuits 17 and 19. The system control circuit 20 is provided in the first hot water storage tank 7 and performs switching control of the three-way electromagnetic switching valve 4.

  The system control circuit 20 determines whether there is hot water in the first hot water storage tank 7 based on the temperature detection signal from the first temperature sensor 16, and uses the temperature detection signal from the second temperature sensor 18. Based on this, it is determined whether or not there is hot water in the second hot water storage tank 8.

Further, the system control circuit 20 can be set to either a tank 1 priority mode that prioritizes the first hot water storage tank 7 or a tank 2 priority mode that prioritizes the second hot water storage tank 8. In addition, the system control circuit 20 can set the switching time of the three-way electromagnetic switching valve 4 every predetermined period. In this embodiment, the predetermined period is, for example, one day. For example, the system control circuit 20 switches the tank priority mode every day at Am 7:00. The tank priority mode includes a tank 1 priority mode and a tank 2 priority mode. Switching between the tank 1 priority mode and the tank 2 priority mode is performed alternately every other day.
[Action]
Next, the control action by the first and second temperature control circuits 17 and 19 and the system control circuit 20 of such a hot water supply system will be described.
A. Control by the first and second temperature control circuits 17 and 19 The first temperature control circuit 17 receives the temperature detection signal from the first temperature sensor 16, and the water in the first hot water storage tank 7 is at a predetermined temperature (set temperature). Determine if it is higher.

  Since a plurality of the first temperature sensors 16 are provided, the first temperature control circuit 17 acquires the temperature detection signal from each first temperature sensor 16 every predetermined time (for example, every 20 seconds). Moreover, the first temperature control circuit 17 determines whether or not the water in the first hot water storage tank 7 is higher than a predetermined temperature (set temperature) from the average value of the temperatures obtained from the plurality of first temperature sensors 16. In addition, heating of the water in the 1st hot water storage tank 7 other than the time of hot water supply is normally performed by operating-controlling the 1st heat pump 14 in the time zone of a midnight discount charge.

  Further, the second temperature control circuit 19 is controlled in the same manner as the first temperature control circuit 17, and therefore the description thereof is omitted.

The predetermined temperature (set temperature) can be set to 47 ° C., for example, but is not necessarily limited to this temperature.
B. Control by the system control circuit 20 In such a hot water supply system, the stop cock 2 is in an open state, and the system control circuit 20 communicates the ports 4b and 4c of the three-way electromagnetic switching valve 4 with the ports 4a and 4c. Communication with 4b and 4c is blocked.

When a hot water supply signal is input to the system control circuit 20 from a hot water supply switch (not shown), the system control circuit 20 starts the following hot water supply control.
1. Tank 1 priority mode (1). Step 1 (switching time: initial state determination)
When the tank control mode is set to the tank 1 priority mode, the system control circuit 20 determines the first time based on the temperature detection signal from the first temperature sensor 16 at the switching time (eg, Am 7:00) in step S1a. 1 It is determined whether there is hot water (hot water) in the hot water storage tank 7.

  Hot water (hot water) here means hot water (hot water) having a temperature higher than a predetermined temperature (set temperature). This point is used in the same meaning for the hot water (hot water) in the first and second hot water storage tanks 7 and 8.

  Therefore, whether or not there is hot water (hot water) in the first hot water storage tank 7 means whether or not there is hot water (hot water) having a temperature higher than a predetermined temperature (set temperature) in the first hot water storage tank 7. . Further, as will be described later, whether there is hot water (hot water) in the second hot water storage tank 8 is whether there is hot water (hot water) having a temperature higher than a predetermined temperature (set temperature) in the second hot water storage tank 8. Means no.

For simplification of description, the expression hot water (hot water) having a temperature higher than a predetermined temperature (set temperature) is simply expressed as hot water (hot water).
(1-1). When there is hot water in the first hot water storage tank 7 (with hot water) Then, when there is hot water in the first hot water storage tank 7 as in S1b, the system control circuit 20 It is determined whether or not there is hot water (hot water) in the second hot water storage tank 8 based on the temperature detection signal from.

  Next, even if there is hot water (hot water) in the second hot water storage tank 8 as in S1c, the system control circuit 20 does not have hot water (hot water) in the second hot water storage tank 8 as in S1d. In FIG. 3, the tank 1 of the three-way electromagnetic switching valve 4 is switched to connect the first and second ports 4a and 4b, and the process proceeds to step 2.

By switching the tank 1, water from the water supply source 1 can be supplied to the first hot water storage tank 7 through the stop cock 2, the strainer 3 and the three-way electromagnetic switching valve 4. When a valve (not shown) connected to the hot water supply pipe 13 is opened, the hot water in the first hot water storage tank 7 is supplied to the hot water supply pipe 13 via the first automatic air vent valve 9 and the one-way valve 10. The hot water (hot water) supplied to 13 is supplied to the hot water supply section.
(1-2). When there is no hot water (no hot water) in the first and second hot water storage tanks 7 and 8 On the other hand, the system control circuit 20 determines the hot water in the first hot water storage tank 7 as in S1f in the determination of S1a. When there is no (hot water), it is determined whether there is hot water (hot water) in the second hot water storage tank 8 based on the temperature detection signal from the second temperature sensor 18.

  Then, when there is no hot water (hot water) in the second hot water storage tank 8 as in S1g, the system control circuit 20 performs the tank 1 switching of the three-way electromagnetic switching valve 4 in S1e, and the first and second ports 4a, 4b. , And the process proceeds to step 2.

By switching the tank 1, water from the water supply source 1 can be supplied to the first hot water storage tank 7 through the stop cock 2, the strainer 3 and the three-way electromagnetic switching valve 4. When a valve (not shown) connected to the hot water supply pipe 13 is opened, the hot water in the first hot water storage tank 7 is supplied to the hot water supply pipe 13 via the first automatic air vent valve 9 and the one-way valve 10. The hot water (hot water) supplied to 13 is supplied to the hot water supply section.
(1-3). When there is no hot water (no hot water) in the first hot water storage tank 7 and hot water (hot water) is present in the second hot water storage tank 8 Further, the system control circuit 20 makes the first hot water storage tank 7 in S1f. When there is no hot water (hot water) in the second hot water (hot water) in the second hot water storage tank 8 as in S1h, the process proceeds to S2e in step 2 to switch the tank 2 of the three-way electromagnetic switching valve 4 to the first. The third ports 4a and 4c are communicated.

By switching the tank 2, water from the water supply source 1 can be supplied to the second hot water storage tank 8 via the stop cock 2, the strainer 3, and the three-way electromagnetic switching valve 4. When a valve or the like (not shown) connected to the hot water supply pipe 13 is opened, hot water in the second hot water storage tank 8 is supplied to the hot water supply pipe 13 via the second automatic air vent valve 11 and the one-way valve 12. The hot water (hot water) supplied to 13 is supplied to the hot water supply section.
(2). Determination of step 2 (priority side hot water temperature drop)
(2-1). Detection of decrease in hot water temperature (hot water temperature) in the first hot water storage tank 7 The system control circuit 20 switches the tank 1 in steps 1-1 (1-2) and 1-2 (steps 1 and 2). From the state of communication of the second ports 4a and 4b), when the process proceeds to step 2, whether or not there is hot water (hot water) in the first hot water storage tank 7 based on the temperature detection signal from the first temperature sensor 16 is determined. to decide.

  Then, when there is hot water (hot water) in the first hot water storage tank 7 as in S <b> 2 a, the system control circuit 20 repeatedly determines whether there is hot water (hot water) in the first hot water storage tank 7.

  When the system control circuit 20 determines that there is no hot water (hot water) in the first hot water storage tank 7 as in S2b, the system control circuit 20 enters the second hot water storage tank 8 based on the temperature detection signal from the second temperature sensor 18. Judge whether there is hot water (hot water).

  Then, when there is hot water (hot water) in the second hot water storage tank 8 as in S2c, the system control circuit 20 repeatedly determines whether there is hot water (hot water) in the second hot water storage tank 8, and S2e. Then, the tank 2 of the three-way electromagnetic switching valve 4 is switched to connect the first and third ports 4a and 4c, and the process proceeds to step 3.

By switching the tank 2, water from the water supply source 1 can be supplied to the second hot water storage tank 8 via the stop cock 2, the strainer 3, and the three-way electromagnetic switching valve 4. When a valve or the like (not shown) connected to the hot water supply pipe 13 is opened, hot water in the second hot water storage tank 8 is supplied to the hot water supply pipe 13 via the second automatic air vent valve 11 and the one-way valve 12. The hot water (hot water) supplied to 13 is supplied to the hot water supply section.
(2-2). Detection of decrease in hot water temperature (hot water temperature) in the first and second hot water storage tanks 7 and 8 The system control circuit 20 has no hot water (hot water) in the first hot water storage tank 7 as in S2b. When it is determined that there is no hot water (hot water) in the second hot water storage tank 8 as in S2d, the second hot water storage tank is determined until it is determined that there is hot water (hot water) in the second hot water storage tank 8. 8 repeatedly determines whether there is hot water (hot water). If it is determined that there is hot water (hot water) in the second hot water storage tank 8, the process proceeds to S2e, where the tank 2 of the three-way electromagnetic switching valve 4 is switched to connect the first and third ports 4a, 4c. 3

By switching the tank 2, water from the water supply source 1 can be supplied to the second hot water storage tank 8 via the stop cock 2, the strainer 3, and the three-way electromagnetic switching valve 4. When a valve or the like (not shown) connected to the hot water supply pipe 13 is opened, hot water in the second hot water storage tank 8 is supplied to the hot water supply pipe 13 via the second automatic air vent valve 11 and the one-way valve 12. The hot water (hot water) supplied to 13 is supplied to the hot water supply section.
(3). Determination of Step 3 (Non-priority hot water temperature drop) When the system control circuit 20 proceeds to Step 3, the hot water (hot water) is introduced into the second hot water storage tank 8 based on the temperature detection signal from the second temperature sensor 18. Judge whether there is.

  Then, when there is hot water (hot water) in the second hot water storage tank 8 as in S3a, the system control circuit 20 repeatedly determines whether there is hot water (hot water) in the second hot water storage tank 8.

  In addition, when there is no hot water (hot water) in the second hot water storage tank 8 as in S3b, the system control circuit 20 determines that hot water is in the first hot water storage tank 7 based on the temperature detection signal from the first temperature sensor 16. Judge whether there is.

  When there is hot water (hot water) in the first hot water storage tank 7 as in S3c, the system control circuit 20 repeatedly determines whether there is hot water (hot water) in the first hot water storage tank 7 and S3e. Then, the tank 1 of the three-way electromagnetic switching valve 4 is switched to connect the first and second ports 4a and 4b, and the process proceeds to step 4.

By switching the tank 1, water from the water supply source 1 can be supplied to the first hot water storage tank 7 through the stop cock 2, the strainer 3 and the three-way electromagnetic switching valve 4. When a valve (not shown) connected to the hot water supply pipe 13 is opened, the hot water in the first hot water storage tank 7 is supplied to the hot water supply pipe 13 via the first automatic air vent valve 9 and the one-way valve 10. The hot water (hot water) supplied to 13 is supplied to the hot water supply section.
(3-2). Detection of decrease in hot water temperature (hot water temperature) in the first and second hot water storage tanks 7 and 8 The system control circuit 20 has no hot water (hot water) in the second hot water storage tank 8 as in S3b. When it is determined that there is no hot water (hot water) in the first hot water storage tank 7 as in S3d, the first hot water storage tank is determined until it is determined that there is hot water (hot water) in the first hot water storage tank 7. 7 repeat the determination of whether there is hot water (hot water). If it is determined that there is hot water (hot water) in the first hot water storage tank 7, the process proceeds to S3e, where the tank 1 of the three-way electromagnetic switching valve 4 is switched to connect the first and second ports 4a, 4b. 4

By switching the tank 1, water from the water supply source 1 can be supplied to the first hot water storage tank 7 through the stop cock 2, the strainer 3 and the three-way electromagnetic switching valve 4. When a valve (not shown) connected to the hot water supply pipe 13 is opened, the hot water in the first hot water storage tank 7 is supplied to the hot water supply pipe 13 via the first automatic air vent valve 9 and the one-way valve 10. The hot water (hot water) supplied to 13 is supplied to the hot water supply section.
(4). Step 4 (No switching until switching time)
When the system control circuit 20 proceeds from step 3 to this step, the system control circuit 20 continues to determine whether there is hot water in the first hot water storage tank 7 based on the temperature detection signal from the first temperature sensor 16, and Based on the temperature detection signal from the two-temperature sensor 18, the determination as to whether there is hot water (hot water) in the second hot water storage tank 8 is continued, but the three-way electromagnetic switching valve 4 is switched until the next switching time. Not performed.
2. Tank 2 Priority Mode Then, the system control circuit 20 executes the control of the tank 2 priority mode in FIG. 3 when the next switching time comes after the transition to Step 4 in FIG. Such a switching time is set every other day (predetermined period). The predetermined period may be two days or more, but a long number of days is not set as the predetermined period.

  In the tank 2 priority mode, the system control circuit 20 executes hot water supply control according to FIG. FIG. 3 is a diagram in which the tank 1 in FIG. 2 is changed to the tank 2 and the tank 2 in FIG. In the tank 2 priority mode, priority is given to whether or not there is hot water (hot water) in the second hot water storage tank 8, and control of switching between tank 1 and tank 2 is executed. That is, in the control of the tank 1 priority mode described above, the first hot water storage tank 7 and the second hot water storage tank 8 are interchanged, and the tank 1 switching and the tank 2 switching in the switching control of the three-way electromagnetic switching valve 4 at this time are interchanged. It is.

  As described above, the hot water supply system according to the embodiment of the present invention includes a plurality of hot water storage tanks (7, 8) for storing water from the water supply source 1 and water in each of the hot water storage tanks (7, 8). A plurality of heating devices (first and second heat pumps 14 and 15) that respectively heat the water and warm water in the hot water storage tanks (7 and 8), respectively, and a plurality of temperature detection means (first , Second temperature sensors 16, 18), hot water supply switching means (three-way electromagnetic switching valve 4) for selectively supplying hot water from one of the plurality of hot water storage tanks (7, 8) to the hot water supply pipe 13, Based on the temperature detection signal from each temperature detection means (first and second temperature sensors 16 and 18), the heating devices (first and second heat pumps 14 and 15) are controlled to operate and the hot water supply switching means ( Control to control the operation of the three-way solenoid valve 4) Includes a circuit (system controller 20), the. Moreover, the control circuit (system control circuit 20) is configured to switch the hot water supply switching means (three-way electromagnetic switching valve 4) when the hot water temperature of the hot water storage tank (one of 7 and 8) for supplying the hot water is lower than a predetermined temperature. The hot water is supplied to the hot water supply pipe 13 from another hot water storage tank (the other of the hot water storage tanks 7 and 8).

  According to this configuration, a large-capacity hot water supply can be performed with an inexpensive and simple configuration without drifting of the hot water supply.

  In the above-described embodiment, an example in which a heat pump is used as the heating device has been described. However, a heating unit other than a heater or a heat pump can be used as the heating device. In the above-described embodiments, the three-way electromagnetic switching valve 4 is used as the hot water supply switching means to control the water supply to the plurality of hot water storage tanks (7, 8). Is not to be done. For example, instead of the three-way electromagnetic switching valve 4, a plurality of normal solenoid valves can be provided, and water can be supplied to the plurality of hot water storage tanks (7, 8) individually with the plurality of solenoid valves. Furthermore, the hot water supply can be switched by providing solenoid valves at the hot water outlets (7b1, 8b1) of the hot water storage tanks (7, 8), respectively, and performing opening / closing control of the solenoid valves.

  In the hot water supply system according to the embodiment of the present invention, the control circuit (system control circuit 20) controls the hot water supply switching means (three-way electromagnetic switching valve 4) to control the hot water to the hot water supply pipe 13. The priority order of the hot water storage tanks (7, 8) to be supplied is switched at predetermined intervals.

  According to this configuration, since the priority order of the hot water storage tanks (7, 8) is switched every predetermined period, only one of the multiple hot water storage tanks (7, 8) is always used (long-term use). You can avoid that. Thereby, it can prevent that the inside of the remaining thing of a some hot water storage tank (7, 8) becomes unsanitary. And even if it uses two or more small heating apparatuses and one hot water storage tank, it can prevent that the operating time of each heating apparatus is biased. That is, since the operating time of the heating devices (first and second heat pumps 14 and 15) as heat sources can be leveled, variation in deterioration of the hot water supply system can be suppressed.

  Furthermore, in the hot water supply system according to the embodiment of the present invention, the hot water supply switching means switches the water from the water supply source to one of the plurality of heating devices (first and second heat pumps 14, 15). This is an electromagnetic switching valve to be supplied (three-way electromagnetic switching valve 4).

  According to this configuration, hot water can be selectively supplied from the plurality of hot water storage tanks (7, 8) with a simple configuration.

DESCRIPTION OF SYMBOLS 1 ... Water supply source 3 ... Three-way electromagnetic switching valve (warm water supply switching means)
7 ... 1st hot water storage tank 8 ... 2nd hot water storage tank 13 ... Hot water supply pipe 14 ... 1st heat pump (1st heating apparatus)
15 ... 2nd heat pump (2nd heating device)
16 ... 1st temperature sensor (1st temperature detection means)
18 ... 2nd temperature sensor (2nd temperature detection means)
20 ... System control circuit (control circuit)

Claims (3)

First and second hot water storage tanks for storing water from the water supply source , first and second heating devices for heating the water in the first and second hot water storage tanks to warm water, and first and second A hot water supply switching means for selectively supplying hot water from one of the hot water storage tanks to the hot water supply pipe, and a control circuit for controlling the operation of the hot water supply switching means, the control circuit giving priority to the first hot water storage tank. When the first priority mode is set, the hot water in the first hot water storage tank can be supplied to the hot water supply pipe, and when the second priority mode in which the second hot water storage tank is prioritized is set, the hot water in the second hot water storage tank is supplied with the hot water supply. A hot water supply system for operating and controlling the hot water supply switching means so as to be able to supply a pipe ,
The hot water supply system , wherein the control circuit alternately switches between a first priority mode and a second priority mode every predetermined period . Provided with first and second temperature detecting means for respectively detecting hot water temperatures in the first and second hot water storage tanks;
The control circuit, when the first priority mode is set, when the temperature detected by the second temperature detecting means is higher than the predetermined temperature, and when the temperature detected by the first temperature detecting means is equal to or lower than the predetermined temperature. The hot water supply switching means is controlled to enable supply of hot water in the second hot water storage tank to the hot water supply pipe,
When the second priority mode is set, when the temperature detected by the first temperature detecting means is higher than the predetermined temperature, when the temperature detected by the second temperature detecting means is lower than the predetermined temperature, the hot water supply switching is performed. The hot water supply system according to claim 1, wherein the hot water in the first hot water storage tank can be supplied to the hot water supply pipe by controlling the means . The first and second heating devices are first and second heat pumps, and the first and second heat pumps are connected to the first and second hot water storage tanks by circulation pipes, respectively.
Circulating the water in the first and second hot water storage tanks to the first and second heat pumps via the circulation pipe,
The hot water supply switching means switches the water supply source to either the first hot water storage tank or the first hot water storage tank so as to communicate with the first hot water storage tank or the second hot water storage tank so that the water from the water supply source is first. The hot water supply system according to claim 1 or 2, wherein the hot water supply system is an electromagnetic switching valve that enables supply to the hot water storage tank or the second hot water storage tank.

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