JP5247190B2 - Hot water storage hot water supply system - Google Patents

Description

  The present invention relates to a hot water storage hot water supply system that stores and heats hot water and supplies hot water that is stored and heated.

  Conventionally, in a hot water storage type hot water supply system, a hot water stored in a hot water storage tank is heated by a plurality of heat source units (heat pump units) (for example, see Patent Document 1). Such a hot water storage type hot water supply system will be described below with reference to FIGS. 6 and 7.

  A hot water storage hot water supply system 60 shown in FIG. 6 includes a hot water storage tank 71 and a plurality of heat source units 72, which are a first pipe 81, a plurality of second pipes 82, a plurality of third pipes 83, and a fourth pipe 84. A circulation pump 87 that circulates hot and cold water is provided in each heat source unit 72, connected via the first header unit 85 and the second header unit 86. The hot water stored in the hot water storage tank 71 is supplied to the first pipe 81, the first header unit 85, the plurality of second pipes 82, the plurality of third pipes 83, and the second by the circulation pump 87 provided in each heat source unit 72. It is circulated between the hot water storage tank 71 and the plurality of heat source devices 72 via the two header units 86 and the fourth pipe 84, and is heated by the plurality of heat source devices 72.

Moreover, the hot water storage type hot water supply system 70 shown in FIG. 7 differs from the hot water storage type hot water supply system 60 shown in FIG. 6 in that a circulation pump 87 is provided in the first pipe 81 or the fourth pipe 84. The hot water stored in 71 is circulated between the hot water storage tank 71 and the plurality of heat source devices 72 by the circulation pump 87 and heated by the plurality of heat source devices 72. When the circulation pump 87 is provided in the first pipe 81 or the fourth pipe 84, the tank unit 90 is configured by the hot water storage tank 71, the first pipe 81, the fourth pipe 84, and the like, and the circulation pump 87 is disposed in the tank unit 90. Is provided.
JP 2006-57871 A

  In the hot water storage type hot water supply system 60 shown in FIG. 6 described above, since the circulation pump 87 is provided in the heat source unit 72, the heat source unit 72 becomes large and the structure becomes complicated. Further, in the hot water storage type hot water supply system 70 shown in FIG. 7, since the circulation pump 87 is provided in the tank unit 90, the structure of the tank unit 90 becomes complicated.

  The present invention has been made to solve the above-described problems, and can reduce the size of the heat source device, simplify the structure of the heat source device, and simplify the structure of the tank unit. An object of the present invention is to provide a hot water storage type hot water supply system.

In order to achieve the above object, the invention of claim 1 includes a hot water storage tank for storing hot water and a plurality of heat source units for heating the hot water, and circulating hot water between the hot water storage tank and the plurality of heat source units. In a hot water storage hot water supply system that heats hot water in a hot water storage tank by a heat source device, a first pipe connected to the hot water storage tank and a plurality of heat source devices for sending hot water from the hot water storage tank to the multiple heat source devices A plurality of second pipes connected to each of the first header unit, a first header unit that connects the first pipe and the plurality of second pipes, and diverts hot water flowing through the first pipe to the plurality of second pipes; A plurality of third pipes connected to each of the plurality of heat source machines, a fourth pipe connected to the hot water storage tank, a plurality of third pipes and a second pipe for returning hot water from the heat source machine to the hot water storage tank 4 pipes are connected, and the hot water flowing through the plurality of third pipes is A second header unit that joins the pipe, and a circulation pump that is provided in at least one of the first header unit and the second header unit and circulates hot water between the hot water storage tank and the plurality of heat source units. It comprises a first header unit includes a header connected to the first pipe, branching from the header comprises a plurality of branch pipes connected to each of the plurality of second pipes, a second header The unit includes a header connected to the fourth pipe, and a plurality of branch pipes branched from the header and connected to each of the plurality of third pipes, and the first header unit or the second header unit Among them, the circulation pump is provided in the header in the header unit in which the circulation pump is provided, and the flow rate adjusting valve for adjusting the flow rate of the hot water is provided in each of the plurality of branch pipes.

The invention of claim 2 comprises a hot water storage tank for storing hot water and a plurality of heat source devices for heating the hot water, and circulating hot water between the hot water storage tank and the plurality of heat source devices, In a hot water storage type hot water supply system for heating a hot water source by a heat source device, a first pipe connected to the hot water storage tank and a plurality of heat source devices connected to each of the plurality of heat source devices for sending hot water from the hot water storage tank to the plurality of heat source devices A first header unit that connects the second pipe, the first pipe, and the plurality of second pipes, and divides hot water flowing through the first pipe into the plurality of second pipes, and a hot water storage tank from the plurality of heat source units. A plurality of third pipes connected to each of the plurality of heat source units, a fourth pipe connected to the hot water storage tank, a plurality of third pipes and a fourth pipe, The second head for joining the hot water flowing in the third pipe to the fourth pipe And a circulation pump that is provided in at least one of the first header unit and the second header unit and circulates hot water between the hot water storage tank and the plurality of heat source units. The unit includes a header connected to the first pipe and a branch pipe branched from the header and connected to each of the plurality of second pipes, and the second header unit is connected to the fourth pipe. A header, and a branch pipe branched from the header and connected to each of the plurality of third pipes, in the header unit in which the circulation pump is provided in the first header unit or the second header unit to each of the plurality of branch pipes, the circulation pump is provided, of the first header unit or the second header unit, the header units circulating pump is provided, bar connecting the plurality of branch pipes each other Comprising a path tube, the bypass tube, in which a gate valve for switching a plurality of branch pipes to each other in a state of blocking a state of communicating is provided.

According to the first aspect of the present invention, since the circulation pump is provided in the first header unit or the second header unit, the circulation pump can be arranged separately from the heat source unit and circulates in the heat source unit. There is no need to provide a pump, the heat source machine can be downsized, and the structure of the heat source machine can be simplified. Further, the circulation pump can be separately arranged separately from the tank unit configured by integrating the hot water storage tank, the first pipe, the fourth pipe, etc., and there is no need to provide a circulation pump in the tank unit. The structure can be simplified. Furthermore, since the first header unit or the second header unit has the circulation pump, the hot water storage type hot water supply system can be constructed at low cost without depending on the specifications of the heat source unit and the tank unit. In addition, since one circulation pump having a high cost weight is provided and a flow rate adjusting valve having a lower cost weight than the circulation pump is provided in each of the plurality of branch pipes, the circulation pump is provided in each of the plurality of branch pipes. Compared with (that is, a configuration in which the same number of circulation pumps as the number of installed heat source units are provided), the cost can be reduced.

According to invention of Claim 2 , since the 1st header unit or the 2nd header unit is provided with the circulation pump, a circulation pump can be separately arrange | positioned separately from a heat source machine, and it circulates to a heat source machine. There is no need to provide a pump, the heat source machine can be downsized, and the structure of the heat source machine can be simplified. Further, the circulation pump can be separately arranged separately from the tank unit configured by integrating the hot water storage tank, the first pipe, the fourth pipe, etc., and there is no need to provide a circulation pump in the tank unit. The structure can be simplified. Furthermore, since the first header unit or the second header unit has the circulation pump, the hot water storage type hot water supply system can be constructed at low cost without depending on the specifications of the heat source unit and the tank unit. In addition, by providing the circulation pump in each of the plurality of branch pipes, it is possible to simplify the structure for circulating hot water between the hot water storage tank and the plurality of heat source units, thereby reducing the cost. Moreover, if one of the circulation pumps breaks down, the branch valve is opened and the branch pipes are connected to each other via the bypass pipe, so that the other normal circulation pump can connect the hot water storage tank and the plurality of heat source machines. It is possible to circulate hot water and water for alternative operation.

  Hereinafter, a hot water storage hot water supply system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a configuration of a hot water storage type hot water supply system. The hot water storage hot water supply system 1 is a system that stores and heats hot water and supplies the hot water that has been stored and heated.

  The hot water storage hot water supply system 1 includes a hot water storage tank 2 that stores hot water and a plurality of (two) heat source units (heat pump units) 3 that heat the hot water. That is, the hot water storage type hot water supply system 1 circulates hot water between the hot water storage tank 2 and the plurality of heat source units 3 to heat the hot water in the hot water storage tank 2 by the plurality of heat source units 3, and the heated hot water storage system. Hot water from the tank 2 is supplied.

  The hot water storage hot water supply system 1 includes a first pipe 11 for circulating hot water between the hot water storage tank 2 and a plurality of heat source units 3, a plurality of (two) second pipes 12, and a plurality ( Two third pipes 13, a fourth pipe 14, a first header unit 15, a second header unit 16, and a circulation pump 17 are provided.

  The first pipe 11 and the plurality of second pipes 12 are pipes for sending hot water from the hot water storage tank 2 to the plurality of heat source units 3. The first pipe 11 is connected to the bottom of the hot water storage tank 2, and the plurality of second pipes 12 are connected to each of the plurality of heat source units 3. The plurality of third pipes 13 and the fourth pipes 14 are pipes for returning hot water from the plurality of heat source units 3 to the hot water storage tank 2. The plurality of third pipes 13 are connected to each of the plurality of heat source units 3, and the fourth pipe 14 is connected to the upper part of the hot water storage tank 2.

  The first header unit 15 divides hot water flowing through the first pipe 11 into the plurality of second pipes 12, and connects the first pipe 11 and the plurality of second pipes 12. The second header unit 16 joins the fourth pipe 14 with hot water flowing through the plurality of third pipes 13, and connects the plurality of third pipes 13 and the fourth pipes 14. The circulation pump 17 is a pump that circulates hot water between the hot water storage tank 2 and the plurality of heat source units 3, and is provided in the first header unit 15. Details of the configurations of the first header unit 15 and the second header unit 16 will be described later.

  Each heat source device 3 has a heat exchange part 3o. The heat exchange part 3o heats hot water by exchanging heat between the hot water and the refrigerant. The second pipe 12 and the third pipe 13 communicate with each other inside the heat exchange unit 3o, and the heat exchange unit 3o heats the hot water flowing from the second pipe 12 to the third pipe 13.

  The hot water storage hot water supply system 1 includes a hot water supply pipe 21 for supplying hot water to the hot water storage tank 2, a high temperature hot water discharge pipe 22 for discharging hot water from the hot water storage tank 2, a mixed hot water supply pipe 23, a high temperature branch pipe 24, A low-temperature branch pipe 25 and a mixing valve 26 are provided.

  The water supply pipe 21 is connected to the bottom of the hot water storage tank 2. The high temperature hot water supply pipe 22 is a pipe for discharging hot water heated to a high temperature, and is connected to the upper part of the hot water storage tank 2. The mixed hot-water supply pipe 23 is a pipe for mixing hot water heated to a high temperature and low-temperature hot water before being heated for hot water, and is connected to the high-temperature branch pipe 24 and the low-temperature branch pipe 25 via a mixing valve 26. It is connected. The high temperature branch pipe 24 branches from the high temperature hot water supply pipe 22, and the low temperature branch pipe 25 branches from the water supply pipe 21. The mixing valve 26 is a valve for mixing hot water flowing from the high temperature hot water supply pipe 22 to the high temperature branch pipe 24 and hot water flowing from the water supply pipe 21 to the low temperature branch pipe 25 and sending the mixed hot water to the mixed hot water supply pipe 23. .

  The hot water storage tank 2 is supplied with low-temperature hot water from the water supply pipe 21 to store hot water. Hot water stored in the hot water storage tank 2 passes through the first pipe 11, the first header unit 15, the plurality of second pipes 12, the plurality of third pipes 13, the second header unit 16, and the fourth pipe 14. The hot water tank 2 circulates between the plurality of heat source units 3 and is heated by the plurality of heat source units 3. Hot water heated by the plurality of heat source units 3 and stored in the hot water storage tank 2 is discharged from the high temperature hot water supply pipe 22 or the mixed hot water supply pipe 23.

  FIG. 2 shows the configuration of the first header unit 15. The first header unit 15 includes one header (stem pipe) 31 and a plurality (two) of branch pipes 32 branched from the header 31, and a circulation pump 17 is provided in each of the plurality of branch pipes 32. ing. That is, the first header unit 15 includes the same number of branch pipes 32 as the number of installed heat source units 3, and the same number of circulation pumps 17 as the number of installed heat source units 3 are provided. Each circulation pump 17 generates a water flow so that hot water flows from the header 31 to the branch pipe 32. Each circulation pump 17 has a flow rate adjusting function for adjusting the flow rate of hot water.

  The first header unit 15 includes a header 31 connected to the first pipe 11 connected to the hot water storage tank 2, and a plurality of branch pipes 32 connected to the plurality of heat source units 3. Connected to each of the two pipes 12. Therefore, hot water flows from the hot water storage tank 2 to the header 31 via the first pipe, hot water flows from the header 31 to each branch pipe 32 by the action of the circulation pump 17 provided in each branch pipe 32, and Hot water flows from each branch pipe 32 to each heat source unit 3 via each second pipe 12.

  In addition, the 1st header unit 15 can respond to the subsequent expansion of the heat-source equipment 3. FIG. That is, the first header unit 15 has a configuration in which the branch pipe 32 and the circulation pump 17 can be added later. When the heat source device 3 is added, the branch pipe 32 and the circulation pump 17 are added according to the number of the heat source devices 3, and the added branch pipe 32 is connected to the added heat source device 3. Connected to the second pipe 12.

  FIG. 3 shows the configuration of the second header unit 16. The second header unit 16 includes one header (stem pipe) 41 and a plurality (two) branch pipes 42 branched from the header 41. That is, the second header unit 16 includes the same number of branch pipes 42 as the number of installed heat source units 3.

  In the second header unit 16, a header 41 is connected to the fourth pipe 14 connected to the hot water storage tank 2, and a plurality of branch pipes 42 are connected to the plurality of heat source units 3. Connected to each of the three pipes 13. Accordingly, hot water flows from each heat source unit 3 to each branch pipe 42 via each third pipe 13 by the action of the plurality of circulation pumps 17 provided in the first header unit 15, and from each branch pipe 42. Hot water flows into the header 41, and hot water flows from the header 41 to the hot water storage tank 2 via the fourth pipe 14.

  In addition, the 2nd header unit 16 can respond to the subsequent expansion of the heat-source equipment 3. FIG. That is, the second header unit 16 has a configuration in which the branch pipe 42 can be added later. When the heat source device 3 is added, branch pipes 42 are added according to the number of heat source devices 3 added, and the third branch pipe 42 is connected to the added heat source device 3. 13 is connected.

  Therefore, the hot water stored in the hot water storage tank 2 is operated by the plurality of circulation pumps 17 provided in the first header unit 15, so that the first pipe 11, the first header unit 15, the plurality of second pipes 12, the plurality It circulates between the hot water storage tank 2 and the plurality of heat source units 3 via the third pipe 13, the second header unit 16, and the fourth pipe 14, and is heated by the plurality of heat source units 3.

  According to the hot water storage type hot water supply system 1 having such a configuration, since the circulation pump 17 is provided in the first header unit 15, the circulation pump 17 can be arranged separately from the heat source unit 3. It is not necessary to provide the circulation pump 17 in 3, the heat source device 3 can be reduced in size, and the structure of the heat source device 3 can be simplified. Further, the circulation pump 17 can be arranged separately from the tank unit 50 configured by integrating the hot water storage tank 2 with the first pipe 11 and the fourth pipe 14, and the circulation pump 17 is placed in the tank unit 50. There is no need to provide it, and the structure of the tank unit 50 can be simplified. Furthermore, since the first header unit 15 has the circulation pump 17, the hot water storage type hot water supply system 1 can be constructed at low cost without depending on the specifications of the heat source unit 3 and the tank unit 50.

  Further, by providing the circulation pump 17 in each of the plurality of branch pipes 32 of the first header unit 15, it is possible to simplify the structure for circulating hot water between the hot water storage tank 2 and the plurality of heat source units 3. Cost reduction can be achieved.

  FIG. 4 shows another configuration of the first header unit 15. The first header unit 15 includes one header 31 and a plurality of branch pipes 32 branched from the header 31 as in the configuration of FIG. In the first header unit 15, unlike the configuration of FIG. 2, the header 31 is provided with the circulation pump 17, and each of the plurality of branch pipes 32 is provided with a flow rate adjustment valve 33 that adjusts the flow rate of hot water. It has been. That is, one circulation pump 17 and the same number of flow rate adjusting valves 33 as the number of installed heat source units 3 are provided. The circulation pump 17 generates a water flow so that hot water flows from the header 31 to the plurality of branch pipes 32.

  In the first header unit 15, the header 31 is connected to the first pipe 11 connected to the hot water storage tank 2, and the plurality of branch pipes 32 are the plurality Connected to each of the plurality of second pipes 12 connected to the heat source unit 3.

  In addition, the 1st header unit 15 can respond to the subsequent expansion of the heat-source equipment 3. FIG. That is, the first header unit 15 has a configuration in which the branch pipe 32 and the flow rate adjustment valve 33 can be added later. In the case of adding the heat source unit 3, the branch pipe 32 and the flow rate adjusting valve 33 are added according to the number of the heat source units 3, and the added branch pipe 32 is connected to the added heat source unit 3. Connected to the second pipe 12.

  Therefore, by the action of the circulation pump 17 provided in the header 31, hot water flows from the hot water storage tank 2 to the header 31 via the first pipe, hot water flows from the header 31 to each branch pipe 32, and each branch. Hot water flows from the pipe 32 to the heat source units 3 via the second pipes 12. That is, the hot water stored in the hot water storage tank 2 is circulated between the hot water storage tank 2 and the plurality of heat source units 3 by the action of one circulation pump 17 provided in the first header unit 15, so It is heated by the heat source device 3.

  According to the first header unit 15 having such a configuration, the circulation pump 17 having a higher cost weight is provided as one unit, and the flow rate adjusting valve 33 having a lower cost weight than the circulation pump 17 is provided in each of the plurality of branch pipes 32. Therefore, compared with the configuration of FIG. 2 in which the circulation pump 17 is provided in each of the plurality of branch pipes 32 (that is, a configuration in which the number of circulation pumps 17 equal to the number of installed heat source units 3 is provided), cost reduction is achieved. Can be planned.

  FIGS. 5A and 5B show still another configuration of the first header unit 15. The first header unit 15 includes a bypass pipe 34 that connects the plurality of branch pipes 32 to each other in addition to the configuration shown in FIG. A gate valve 35 is provided for switching to the state to be performed.

  The gate valve 35 is closed when each circulation pump 17 is normal, and is opened when any circulation pump 17 fails. When the gate valve 35 is closed, the plurality of branch pipes 32 are blocked, and when the gate valve 35 is opened, the plurality of branch pipes 32 are communicated with each other. That is, when each circulation pump 17 is normal, the gate valve 35 is closed and the plurality of branch pipes 32 are shut off. When one of the circulation pumps 17 breaks down, the gate valve 35 is opened, The branch pipes 32 communicate with each other.

  In the first header unit 15, the header 31 is connected to the first pipe 11 connected to the hot water storage tank 2, and the plurality of branch pipes 32 are the plurality Connected to each of the plurality of second pipes 12 connected to the heat source unit 3.

  Therefore, when the circulation pump 17a provided in the branch pipe 32a and the circulation pump 17b provided in the branch pipe 32b are normal, the gate valve 35 is closed and the branch pipe 32a and the branch pipe 32b are shut off. Therefore, hot water flows from the hot water storage tank 2 to the header 31 via the first pipe, hot water flows from the header 31 to the branch pipes 32a and 32b, and each branch pipe 32a by the action of the circulation pumps 17a and 17b. , 32b flows through the second pipes 12 to the heat source units 3 (see FIG. 5A). That is, when each circulation pump 17a, 17b is normal, the hot water stored in the hot water storage tank 2 is circulated between the hot water storage tank 2 and the plurality of heat source units 3 by the action of each circulation pump 17a, 17b. Heated by a plurality of heat source units 3.

  On the other hand, when the circulation pump 17a provided in the branch pipe 32a fails, the gate valve 35 is opened and the branch pipe 32a and the branch pipe 32b communicate with each other, so that the circulation pump 17b provided in the branch pipe 32b As a result, hot water flows from the hot water storage tank 2 to the header 31 via the first pipe, hot water flows from the header 31 to the branch pipe 32b, and from the branch pipe 32b via the bypass pipe 34 and the gate valve 35 to the branch pipe. Hot water flows into 32a, and hot water flows from each branch pipe 32a, 32b to each heat source unit 3 via each second pipe 12 (see FIG. 5B). That is, when the circulation pump 17a provided in the branch pipe 32a breaks down, the hot water stored in the hot water storage tank 2 is separated from the hot water storage tank 2 and a plurality of units by the action of the circulation pump 17b provided in the branch pipe 32b. It circulates between the heat source devices 3 and is heated by a plurality of heat source devices 3.

  When the circulation pump 17b provided in the branch pipe 32b fails, hot water flows from the hot water storage tank 2 to the header 31 via the first pipe by the action of the circulation pump 17a provided in the branch pipe 32a. In addition, hot water flows from the header 31 to the branch pipe 32a, hot water flows from the branch pipe 32a to the branch pipe 32b via the bypass pipe 34 and the gate valve 35, and the second pipes 12 pass from the branch pipes 32a and 32b. Hot water flows to each heat source machine 3 via. That is, when the circulation pump 17b provided in the branch pipe 32b breaks down, the hot water stored in the hot water storage tank 2 is separated from the hot water storage tank 2 and a plurality of units by the action of the circulation pump 17a provided in the branch pipe 32a. It circulates between the heat source devices 3 and is heated by a plurality of heat source devices 3.

  According to the first header unit 15 having such a configuration, when any of the circulation pumps 17 breaks down, the gate valve 35 is opened and the plurality of branch pipes 32 are communicated with each other via the bypass pipe 34. The normal circulation pump 17 can circulate hot water between the hot water storage tank 2 and the plurality of heat source units 3 to perform an alternative operation.

  In addition, this invention is not restricted to the structure of the said embodiment, A various deformation | transformation is possible. For example, the circulation pump 17 may be provided in the second header unit 16 instead of the first header unit 15. In this case, the circulation pump 17 may generate a water flow so that hot water flows from the branch pipe 42 of the second header unit 16 to the header 41.

The system block diagram of the hot water storage type hot-water supply system which concerns on one Embodiment of this invention. The figure which shows the structure of the 1st header unit of the hot water storage type hot-water supply system. The figure which shows the structure of the 2nd header unit of the hot water storage type hot-water supply system. The figure which shows another structure of the 1st header unit of the hot water storage type hot-water supply system. It is a figure which shows another structure of the 1st header unit of the hot water storage type hot-water supply system, (a) is a figure which shows the flow of hot water when each circulation pump is normal, (b) is either circulation pump The figure which shows the flow of the hot water when a failure occurs. The system block diagram of the conventional hot water storage type hot-water supply system. The system block diagram of another conventional hot water storage type hot-water supply system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hot water storage type hot water supply system 2 Hot water storage tank 3 Heat source machine 3o Heat exchange part 11 1st piping 12 2nd piping 13 3rd piping 14 4th piping 15 1st header unit 16 2nd header unit 17 Circulation pump 21 Water supply piping 22 High temperature hot water supply Piping 23 Mixed hot water piping 24 High temperature branch piping 25 Low temperature branch piping 26 Mixing valve 31 Header 32 Branch pipe 33 Flow control valve 34 Bypass pipe 35 Partition valve 41 Header 42 Branch pipe 50 Tank unit

Claims (2)

A hot water storage tank for storing hot water and a plurality of heat source devices for heating the hot water are provided, hot water is circulated between the hot water storage tank and the plurality of heat source devices, and hot water in the hot water storage tank is supplied to the heat source device In the hot water storage hot water supply system heated by
A first pipe connected to the hot water storage tank for sending hot water from the hot water storage tank to the plurality of heat source machines; and a plurality of second pipes connected to each of the plurality of heat source machines;
A first header unit that connects the first pipe and the plurality of second pipes, and divides hot water flowing through the first pipe into the plurality of second pipes;
A plurality of third pipes connected to each of the plurality of heat source machines and a fourth pipe connected to the hot water storage tanks for returning hot water from the plurality of heat source machines to the hot water storage tank;
A second header unit that connects the plurality of third pipes and the fourth pipe, and merges the hot water flowing through the plurality of third pipes into the fourth pipe;
A circulation pump that is provided in at least one of the first header unit or the second header unit and circulates hot water between the hot water storage tank and the plurality of heat source units;
With
The first header unit includes a header connected to the first pipe, and a plurality of branch pipes branched from the header and connected to each of the plurality of second pipes,
The second header unit includes a header connected to the fourth pipe, and a plurality of branch pipes branched from the header and connected to each of the plurality of third pipes,
Of the first header unit or the second header unit, the circulation pump is provided in the header in the header unit in which the circulation pump is provided, and the flow rate of hot water is adjusted in each of the plurality of branch pipes. savings hot water heater system that is characterized in that the flow rate control valve that is provided. A hot water storage tank for storing hot water and a plurality of heat source devices for heating the hot water are provided, hot water is circulated between the hot water storage tank and the plurality of heat source devices, and hot water in the hot water storage tank is supplied to the heat source device In the hot water storage hot water supply system heated by
A first pipe connected to the hot water storage tank for sending hot water from the hot water storage tank to the plurality of heat source machines; and a plurality of second pipes connected to each of the plurality of heat source machines;
A first header unit that connects the first pipe and the plurality of second pipes, and divides hot water flowing through the first pipe into the plurality of second pipes;
A plurality of third pipes connected to each of the plurality of heat source machines and a fourth pipe connected to the hot water storage tanks for returning hot water from the plurality of heat source machines to the hot water storage tank;
A second header unit that connects the plurality of third pipes and the fourth pipe, and merges the hot water flowing through the plurality of third pipes into the fourth pipe;
A circulation pump that is provided in at least one of the first header unit or the second header unit and circulates hot water between the hot water storage tank and the plurality of heat source units;
With
The first header unit includes: a header connected to the first pipe; and a branch pipe branched from the header and connected to each of the plurality of second pipes;
The second header unit includes a header connected to the fourth pipe, and a branch pipe branched from the header and connected to each of the plurality of third pipes,
Among the first header unit or the second header unit, the circulation pump is provided in each of the plurality of branch pipes in the header unit in which the circulation pump is provided,
Of the first header unit or the second header unit, the header unit provided with the circulation pump includes a bypass pipe connecting the plurality of branch pipes,
Wherein the bypass tube, savings hot water heater system that is characterized in that gate valve for switching the plurality of branch pipes to each other in a state of blocking a state of communicating is provided.

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