JP6962140B2 - Hot water storage type hot water supply device - Google Patents

Description

The present invention relates to a hot water storage type hot water supply device.

A hot water storage type hot water supply device having a function of supplying hot water to a faucet, a shower, a bathtub, etc. at a temperature set by a remote controller is widely used. Medium-temperature water in the hot water storage tank is a factor that deteriorates the pumping efficiency. The hot water storage type hot water supply device disclosed in Patent Document 1 below is configured as follows. The numbers in parentheses are the reference numerals in Patent Document 1. The hot water hot water mixing valve (5) for mixing the high temperature water taken out from the upper part of the hot water storage tank (1) and the medium hot water taken out from the middle part of the hot water storage tank (1) is provided. A water supply / hot water mixing valve (7) for mixing the low temperature water from the water supply pipe (6) and the hot water from the high temperature water / hot water mixing valve (5) is provided. The medium hot water of the hot water storage tank (1) is consumed by using it for supplying hot water to a faucet, a shower, a bathtub, etc. via a high temperature water hot water mixing valve (5) and a water supply hot water mixing valve (7).

Japanese Unexamined Patent Publication No. 2009-162481

The temperature of the medium-temperature water taken out from the middle part of the tank is more likely to fluctuate than the temperature of the high-temperature water taken out from the upper part of the tank. For example, if the position of the temperature boundary layer in the tank moves, the temperature of the medium temperature water taken out from the middle part of the tank may fluctuate greatly. Therefore, the temperature of hot water supplied to the faucet, shower, bathtub, etc. may fluctuate during hot water supply using medium hot water.

The present invention has been made to solve the above-mentioned problems, and to provide a hot water storage type hot water supply device capable of using medium-temperature water in a hot water storage tank for hot water supply and suppressing fluctuations in hot water supply temperature. The purpose.

The hot water storage type hot water supply device according to the present invention comprises a hot water storage tank, a high temperature pipe communicating with the first position of the hot water storage tank, a medium temperature pipe communicating with the hot water storage tank at a second position lower than the first position, and a hot water storage tank. A medium-temperature position that has a medium-temperature inlet into which medium-temperature water supplied through a medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of medium-temperature water flows in, and a water outlet, and communicates the medium-temperature inlet with the water outlet. A medium-temperature take-out switching valve that can switch the flow path to a low-temperature position that connects the low-temperature inlet to the water outlet, and a hot water-side inlet that allows high-temperature hot water supplied from the hot water storage tank to flow through the high-temperature pipe, and medium-temperature take-out switching. A mixing valve having a water side inlet into which water flows in from the water outlet of the valve, a hot water outlet in which hot water flowing in from the hot water side inlet and water flowing in from the water side inlet are discharged, a mixing valve and A control means for controlling the medium temperature take-out switching valve is provided, and the control means is provided when the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature. It is a hot water storage type hot water supply device that sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position. Among them, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position, and the control means is the first control mode and the second control mode in which energy saving is prioritized over the first control mode. When the second control mode is selected and a request to start the hot water storage operation occurs during the execution of hot water supply using the medium temperature water supplied from the hot water storage tank to the medium temperature pipe, The control means postpones the start of the hot water storage operation until the hot water supply is completed .
Further, the hot water storage type hot water supply device according to the present invention includes a hot water storage tank, a high temperature pipe communicating with the first position of the hot water storage tank, a medium temperature pipe communicating with the hot water storage tank at a second position lower than the first position, and hot water storage. It has a medium-temperature inlet into which medium-temperature water supplied from the tank through a medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of medium-temperature water flows in, and a water outlet, and communicates the medium-temperature inlet to the water outlet. A medium temperature take-out switching valve that can switch the flow path between the medium temperature position and the low temperature position that connects the low temperature inlet to the water outlet, the hot water side inlet where the high temperature hot water supplied from the hot water storage tank through the high temperature pipe flows in, and the medium temperature Mixing with a mixing valve having a water side inlet into which water flows in from the water outlet of the take-out switching valve and a hot water outlet in which hot water inflowing from the hot water side inlet and water flowing in from the water side inlet are discharged. A control means for controlling the valve and the medium temperature take-out switching valve is provided, and the control means is provided when the temperature of the medium-temperature water supplied to the medium-temperature inlet of the medium-temperature take-out switching valve may be higher than the current temperature. Is a hot water storage type hot water supply device that sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position, and exchanges heat between the bath water circulated from the bathtub and the circulating water circulated from the hot water storage tank. A heat exchanger is further provided, and during the reheating operation in which the bath water is heated by the circulating water in the heat exchanger, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position. , The control means has a first control mode and a second control mode in which energy saving is prioritized over the first control mode, and is supplied from the hot water storage tank to the medium temperature pipe when the second control mode is selected. If a request to start the reheating operation occurs during the execution of the hot water supply using the medium hot water, the control means postpones the start of the reheating operation until the hot water supply is completed.
Further, the hot water storage type hot water supply device according to the present invention includes a hot water storage tank, a high temperature pipe communicating with the first position of the hot water storage tank, a medium temperature pipe communicating with the hot water storage tank at a second position lower than the first position, and hot water storage. It has a medium-temperature inlet into which medium-temperature water supplied from the tank through a medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of medium-temperature water flows in, and a water outlet, and communicates the medium-temperature inlet to the water outlet. A medium temperature take-out switching valve that can switch the flow path between the medium temperature position and the low temperature position that connects the low temperature inlet to the water outlet, the hot water side inlet where the high temperature hot water supplied from the hot water storage tank through the high temperature pipe flows in, and the medium temperature Mixing with a mixing valve having a water side inlet into which water flows in from the water outlet of the take-out switching valve and a hot water outlet in which hot water inflowing from the hot water side inlet and water flowing in from the water side inlet are discharged. A control means for controlling the valve and the medium temperature take-out switching valve is provided, and the control means is provided when the temperature of the medium-temperature water supplied to the medium-temperature inlet of the medium-temperature take-out switching valve may be higher than the current temperature. Is a hot water storage type hot water supply device that sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position, and exchanges heat between the bath water circulated from the bathtub and the circulating water circulated from the hot water storage tank. A heat exchanger is further provided, and during the bath heat recovery operation in which the heat in the bath is recovered in the hot water storage tank by heating the circulating water with the bath water in the heat exchanger, the control means switches the medium temperature take-out. The valve is set to the low temperature position, switching to the medium temperature position is prohibited, and the control means has a first control mode and a second control mode in which energy saving is prioritized over the first control mode, and the second control mode is selected. In this case, if a request to start the bath heat recovery operation occurs during the execution of hot water supply using the medium temperature water supplied from the hot water storage tank to the medium temperature pipe, the control means ends the hot water supply. Until then, the start of the bath heat recovery operation is postponed.
Further, the hot water storage type hot water supply device according to the present invention includes a hot water storage tank, a high temperature pipe communicating with the first position of the hot water storage tank, a medium temperature pipe communicating with the hot water storage tank at a second position lower than the first position, and hot water storage. It has a medium-temperature inlet into which medium-temperature water supplied from the tank through a medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of medium-temperature water flows in, and a water outlet, and communicates the medium-temperature inlet to the water outlet. A medium temperature take-out switching valve that can switch the flow path between the medium temperature position and the low temperature position that connects the low temperature inlet to the water outlet, the hot water side inlet where the high temperature hot water supplied from the hot water storage tank through the high temperature pipe flows in, and the medium temperature Mixing with a mixing valve having a water side inlet into which water flows in from the water outlet of the take-out switching valve and a hot water outlet in which hot water inflowing from the hot water side inlet and water flowing in from the water side inlet are discharged. A control means for controlling the valve and the medium temperature take-out switching valve is provided, and the control means is provided when the temperature of the medium-temperature water supplied to the medium-temperature inlet of the medium-temperature take-out switching valve may be higher than the current temperature. Is a hot water storage type hot water supply device that sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position, and exchanges heat between the bath water circulated from the bathtub and the circulating water circulated from the hot water storage tank. A heat exchanger is further provided, and the hot water taken out from the upper part of the hot water storage tank is passed through the heat exchanger without circulating the bath water to the heat exchanger, and the hot water taken out from the middle part of the hot water storage tank is merged to store the hot water. During the execution of the air bleeding operation for returning to the middle portion lower than the upper part of the tank, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position.
Further, the hot water storage type hot water supply device according to the present invention includes a hot water storage tank, a high temperature pipe communicating with the first position of the hot water storage tank, a medium temperature pipe communicating with the hot water storage tank at a second position lower than the first position, and hot water storage. It has a medium-temperature inlet into which medium-temperature water supplied from the tank through a medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of medium-temperature water flows in, and a water outlet, and communicates the medium-temperature inlet to the water outlet. A medium temperature take-out switching valve that can switch the flow path between a medium temperature position and a low temperature position that connects the low temperature inlet to the water outlet, a hot water side inlet into which high temperature hot water supplied from the hot water storage tank through a high temperature pipe flows in, and a medium temperature Mixing with a mixing valve having a water side inlet into which water flows in from the water outlet of the take-out switching valve and a hot water outlet in which hot water inflowing from the hot water side inlet and water flowing in from the water side inlet are discharged. A control means for controlling the valve and the medium temperature take-out switching valve is provided, and the control means is provided when the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature. Is a hot water storage type hot water supply device that sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position. A second temperature sensor for detecting the temperature of the medium temperature water supplied to the medium temperature pipe is further provided, and at least one of the mixing valve, the medium temperature take-out switching valve, the first temperature sensor, and the second temperature sensor has an abnormality. At one time, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position.
Further, the hot water storage type hot water supply device according to the present invention includes a hot water storage tank, a high temperature pipe communicating with the first position of the hot water storage tank, a medium temperature pipe communicating with the hot water storage tank at a second position lower than the first position, and hot water storage. It has a medium-temperature inlet into which medium-temperature water supplied from the tank through a medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of medium-temperature water flows in, and a water outlet, and communicates the medium-temperature inlet to the water outlet. A medium temperature take-out switching valve that can switch the flow path between the medium temperature position and the low temperature position that connects the low temperature inlet to the water outlet, the hot water side inlet where the hot water supplied from the hot water storage tank through the high temperature pipe flows in, and the medium temperature Mixing with a mixing valve having a water side inlet into which water flows in from the water outlet of the take-out switching valve and a hot water outlet in which hot water inflowing from the hot water side inlet and water flowing in from the water side inlet are discharged. A control means for controlling the valve and the medium temperature take-out switching valve is provided, and the control means is provided when the temperature of the medium-temperature water supplied to the medium-temperature inlet of the medium-temperature take-out switching valve may be higher than the current temperature. Is a hot water storage type hot water supply device that sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position, and is further equipped with a temperature sensor that detects the hot water supply temperature, which is the temperature of the hot water flowing out from the hot water outlet of the mixing valve. When the hot water supply temperature is higher than the standard, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position.

According to the present invention, the medium-temperature water in the hot water storage tank can be used for hot water supply, and fluctuations in the hot water supply temperature can be suppressed.

It is a figure which shows the hot water storage type hot water supply apparatus by Embodiment 1. FIG. It is a flowchart which shows the control operation of the hot water storage type hot water supply apparatus by Embodiment 1. FIG. It is a flowchart which shows the control operation of the hot water storage type hot water supply apparatus by Embodiment 2.

Hereinafter, embodiments will be described with reference to the drawings. Common or corresponding elements in the drawings are designated by the same reference numerals to simplify or omit duplicate description. The present disclosure may include any combination of configurable configurations among the configurations described in each of the following embodiments.

Embodiment 1.
FIG. 1 is a diagram showing a hot water storage type hot water supply device according to the first embodiment. As shown in FIG. 1, the hot water storage type hot water supply device of the present embodiment includes a heat pump unit 2 which is a heating means for heating water, and a hot water storage unit 40 having a hot water storage tank 1. The heat pump unit 2 and the hot water storage unit 40 are connected to each other via an HP going pipe 48, an HP return pipe 49, and electrical wiring (not shown). The heat pump unit 2 is provided with a heat pump circuit in which a compressor, a heat exchanger for hot water supply, an expansion valve, and an air heat exchanger are sequentially connected by a refrigerant pipe.

The hot water storage tank 1 stores hot water. Inside the hot water storage tank 1, a temperature stratification can be formed in which the upper side is high temperature and the lower side is low temperature due to the difference in water density depending on the temperature. The hot water storage tank 1 in the present embodiment includes only one hot water storage tank. As a modification, the hot water storage tank 1 may include a plurality of hot water storage tanks connected in series. In a plurality of hot water storage tanks connected in series, the lower part of the hot water storage tank on the upper side and the upper part of the next hot water storage tank on the lower side with respect to the hot water storage tank are sequentially connected via a pipe. In the following description, the vertical position of the hot water storage tank 1 will be referred to. However, when the hot water storage tank 1 includes a plurality of hot water storage tanks connected in series, the entire hot water storage tank 1 including the plurality of hot water storage tanks In the hierarchy of, the position in the vertical direction shall be specified.

On the outer surface of the hot water storage tank 1, the volumes from the upper part of the hot water storage tank 1 are, for example, 0L, 50L, 100L, 150L, 170L, 220L at each position, the first temperature sensor 5a, the second temperature sensor 5b, and the second. A temperature sensor 5c, a fourth temperature sensor 5d, a fifth temperature sensor 5e, and a sixth temperature sensor 5f are provided, respectively, and detect the water temperature at each position. The first to sixth temperature sensors 5a to 5f function as a residual hot water heat amount detecting means for detecting the residual hot water heat amount in the hot water storage tank 1. The HP going pipe 48 is provided with a seventh temperature sensor 5g for detecting the temperature of water entering the heat pump unit 2.

Inside the hot water storage unit 40, there are a circulation pump 4, a general hot water supply side electric mixing valve 7, a high temperature pipe 8, a water supply pipe 9, a bath hot water supply side electric mixing valve 11, a bath electromagnetic valve 13, a bath circulation pump 14, and a water inlet switching valve 17. , Hot water supply flow sensor 19, hot water supply temperature sensor 20, bath flow sensor 21, bath temperature sensor 22, water supply temperature sensor 23, hot water outlet switching valve 26, medium temperature return switching valve 27, medium temperature take-out switching valve 28, medium temperature piping 30 Etc. are further provided.

The upstream of the water supply pipe 9 is connected to a water source such as a water pipe. The downstream side of the water supply pipe 9 is branched into a water supply pipe 9a and a water supply pipe 9b. The water supply pipe 9a is connected to the lower part of the hot water storage tank 1. The low-temperature water supplied from the water source flows from the water supply pipe 9a into the lower part of the hot water storage tank 1, so that the inside of the hot water storage tank 1 is maintained in a full state.

The medium temperature take-out switching valve 28 has a medium temperature inlet 28a, a low temperature inlet 28b, and a water outlet 28c. A water supply pipe 9b is connected to the low temperature inlet 28b. One end of the medium temperature pipe 30 is connected to the medium temperature inlet 28a. The upstream portion of the high temperature pipe 8 communicates with the hot water storage tank 1 at the first position 1a above the hot water storage tank 1. The other end of the medium temperature pipe 30 communicates with the hot water storage tank 1 at the second position 1b, which is lower than the first position 1a. The second position 1b is higher than the lower part of the hot water storage tank 1 to which the water supply pipe 9a is connected. That is, the second position 1b is in the middle portion between the upper part and the lower part of the hot water storage tank 1.

The medium-temperature water supplied from the hot water storage tank 1 through the medium-temperature pipe 30 flows into the medium-temperature inlet 28a. Low temperature water having a temperature lower than that of the medium hot water flows into the low temperature inlet 28b. In the present embodiment, the low temperature water supplied from the water source through the water supply pipe 9b flows into the low temperature inlet 28b. The medium temperature take-out switching valve 28 can switch the flow path between the "medium temperature position" and the "low temperature position". In the "medium temperature position", the medium temperature inlet 28a communicates with the water outlet 28c and the low temperature inlet 28b is blocked. In the "medium temperature position", the medium temperature water from the medium temperature pipe 30 flows to the water outlet 28c. At the "low temperature position", the low temperature inlet 28b communicates with the water outlet 28c and the medium temperature inlet 28a is blocked. At the "low temperature position", the low temperature water from the water supply pipe 9b flows to the water outlet 28c.

The general hot water supply side electric mixing valve 7 includes a hot water side inlet 7a, a water side inlet 7b, and a hot water outlet 7c. The hot water supply side electric mixing valve 11 includes a hot water side inlet 11a, a water side inlet 11b, and a hot water outlet 11c. The downstream portion of the high temperature pipe 8 communicates with each of the hot water side inlet 7a and the hot water side inlet 11a. The water outlet 28c of the medium temperature take-out switching valve 28 communicates with each of the water side inlet 7b and the water side inlet 11b.

One end of the first hot water supply pipe 10 is connected to the hot water outlet 7c. The general hot water supply side electric mixing valve 7 mixes the high temperature hot water supplied from the hot water storage tank 1 through the high temperature pipe 8 and the water from the water outlet 28c of the medium temperature take-out switching valve 28 to control the temperature. The temperature-controlled hot water flows into the first hot water supply pipe 10. The hot water passing through the first hot water supply pipe 10 is supplied to, for example, a faucet, a shower, or the like.

One end of the second hot water supply pipe 18 is connected to the hot water outlet 11c. The electric mixing valve 11 on the bath hot water supply side mixes high-temperature hot water supplied from the hot water storage tank 1 through the high-temperature pipe 8 and water from the water outlet 28c of the medium-temperature take-out switching valve 28 to control the temperature. The temperature-controlled hot water flows into the second hot water supply pipe 18.

The water supply pipe 9 is provided with a water supply temperature sensor 23. The water supply temperature sensor 23 detects the water supply temperature, which is the temperature of the water flowing through the water supply pipe 9. The first hot water supply pipe 10 is provided with a hot water supply flow rate sensor 19 and a hot water supply temperature sensor 20. The hot water supply flow rate sensor 19 detects the flow rate of hot water flowing through the first hot water supply pipe 10. The hot water supply temperature sensor 20 detects the first hot water supply temperature, which is the temperature of the hot water flowing through the first hot water supply pipe 10. The second hot water supply pipe 18 is provided with a bath solenoid valve 13, a bath flow rate sensor 21, and a bath temperature sensor 22. The solenoid valve 13 for a bath corresponds to an on-off valve that opens and closes the second hot water supply pipe 18. The bath flow rate sensor 21 detects the flow rate of hot water flowing through the second hot water supply pipe 18. The bath temperature sensor 22 detects the second hot water supply temperature, which is the temperature of the hot water flowing through the second hot water supply pipe 18.

The second hot water supply pipe 18 is connected to the bath side circulation circuit 12. A heat exchanger 15 is arranged in the hot water storage unit 40. The bath-side circulation circuit 12 is a route capable of drawing bath water from a bathtub (not shown) in a bathroom outside the hot water storage type hot water supply device and returning the bath water via the heat exchanger 15 into the bathtub. When the bath circulation pump 14 connected in the middle of the bath side circulation circuit 12 is operated, bath water is circulated from the bathtub so as to pass through the bath side circulation circuit 12 and return to the bathtub.

When performing the hot water filling operation of injecting hot water from the hot water storage unit 40 into the bathtub, the operation is as follows. The solenoid valve 13 for the bath is opened. The hot water whose temperature is controlled by the electric mixing valve 11 on the hot water supply side of the bath flows into the bathtub through the second hot water supply pipe 18 and the circulation circuit 12 on the bath side. When the bath solenoid valve 13 is closed, the hot water filling operation is completed.

The water inlet switching valve 17 is a flow path switching means having an inlet a port and a b port and an outlet c port. The water entry switching valve 17 is configured so that the flow path can be switched between the two paths ac and bc.

The hot water outlet switching valve 26 is a flow path switching means having an inlet a port and a b port and an outlet c port and d port. The hot water outlet switching valve 26 is configured so that the flow path can be switched between the four paths ac, ad, bc, and bd.

The medium temperature return switching valve 27 is a flow path switching means having an inlet a port and an outlet b port, c port, and d port. The medium temperature return switching valve 27 is configured so that the flow path can be switched between the three paths ab, ac, and ad.

The hot water storage unit 40 has a low temperature pipe 41, a first water supply pipe 42, a first hot water pipe 43, a second hot water pipe 44, a third hot water pipe 45, a fourth hot water pipe 46, and a fifth hot water pipe 47. The low temperature pipe 41 connects the lower part of the hot water storage tank 1 and the a port of the water inlet switching valve 17. The first water supply pipe 42 connects the c port of the water inlet switching valve 17 and the inlet of the circulation pump 4. The HP going pipe 48 connects the outlet of the circulation pump 4 and the inlet of the heat pump unit 2. The HP return pipe 49 connects the outlet of the heat pump unit 2 and the b port of the hot water outlet switching valve 26. The first hot water pipe 43 connects the d port of the hot water outlet switching valve 26 and the a port of the medium temperature return switching valve 27. The third hot water pipe 45 connects the b port of the medium temperature return switching valve 27 and the hot water introduction outlet 1c at the upper part of the hot water storage tank 1. The fourth hot water pipe 46 connects the d port of the medium temperature return switching valve 27 to a position in the middle of the high temperature pipe 8. The fifth hot water pipe 47 connects the c port of the medium temperature return switching valve 27 and the hot water introduction port 1d provided between the upper part and the middle portion of the hot water storage tank 1.

An upper temperature sensor 6 is provided near the hot water introduction outlet 1c. The upper temperature sensor 6 detects the temperature of the hot water that is heated by the heat pump unit 2 and returned to the upper part of the hot water storage tank 1.

The first tank circulation pipe 16 connects a position in the middle of the third hot water pipe 45 and the inlet of the tank water of the heat exchanger 15. The second tank circulation pipe 50 connects the outlet of the tank water of the heat exchanger 15 and the b port of the water inlet switching valve 17. The second water supply pipe 51 branches from between the circulation pump 4 and the inlet of the heat pump unit 2 in the HP going pipe 48, and is connected to the a port of the hot water outlet switching valve 26. The bath heat recovery pipe 31 branches from a position in the middle of the second tank circulation pipe 50 and is connected to a position in the middle of the medium temperature pipe 30.

The hot water storage type hot water supply device of the present embodiment includes a control unit 24 as a control means. The control unit 24 is electrically connected to each of the actuators and each sensor described above. The operation of the hot water storage type hot water supply device is controlled by the control unit 24.

The control unit 24 and the remote controller 25 can communicate in both directions by wired communication or wireless communication. The control unit 24 and the remote controller 25 may be able to communicate with each other via a network. The remote controller 25 is an example of a user interface. The remote controller 25 has an operation unit operated by the user and a display unit 25a for displaying information. The remote controller 25 may include a touch screen having the functions of both the operation unit and the display unit 25a. By operating the remote controller 25, the user can remotely control the hot water storage type hot water supply device and make various settings. The display unit 25a of the remote controller 25 has a function as a notification means for notifying the user of information. The remote controller 25 in the present embodiment includes the display unit 25a as the notification means, but as a modification, other notification means such as a voice guidance device may be provided.

In the present embodiment, the remote controller 25 may be installed on a wall such as a kitchen, a living room, or a bathroom. Alternatively, for example, a mobile terminal such as a smartphone may be configured to have a function as a user interface such as the remote controller 25. A plurality of remote controllers 25 may be able to communicate with the control unit 24.

By operating the remote controller 25, the user can change the set temperature of the general hot water supply side electric mixing valve 7 and the set temperature of the bath hot water supply side electric mixing valve 11, respectively. In the following description, the set temperature of the general hot water supply side electric mixing valve 7 is referred to as "hot water supply set temperature", and the set temperature of the bath hot water supply side electric mixing valve 11 is referred to as "hot water beam set temperature".

The hot water storage type hot water supply device of the present embodiment can execute a hot water storage operation in which hot water heated by the heat pump unit 2 flows into the hot water storage tank 1. In hot water storage operation, it is as follows. The heat pump unit 2 and the circulation pump 4 are operated. The water taken out from the lower part of the hot water storage tank 1 is guided into the heat pump unit 2 through the low temperature pipe 41, the water inlet switching valve 17, the first water supply pipe 42, the circulation pump 4, and the HP going pipe 48. The hot water heated in the heat pump unit 2 passes through the HP return pipe 49, the hot water outlet switching valve 26, the first hot water pipe 43, the medium temperature return switching valve 27, and the third hot water pipe 45, and from the hot water introduction outlet 1c. It flows into the hot water storage tank 1. The hot water storage operation is typically carried out mainly in the midnight electric time zone, and the hot water used on the next day is stored in the hot water storage tank 1.

When the hot water supply flow rate sensor 19 detects the water flow, the control unit 24 adjusts the mixing ratio in the general hot water supply side electric mixing valve 7 so that the temperature detected by the hot water supply temperature sensor 20 becomes equal to the hot water supply set temperature. .. When the bath flow rate sensor 21 detects the water flow, the control unit 24 adjusts the mixing ratio of the electric mixing valve 11 on the bath hot water supply side so that the temperature detected by the bath temperature sensor 22 becomes equal to the hot water set temperature. do.

When the medium temperature take-out switching valve 28 is in the low temperature position, the low temperature water from the water source and the high temperature hot water from the upper part of the hot water storage tank 1 are mixed by the general hot water supply side electric mixing valve 7 and the bath hot water supply side electric mixing valve 11. , Used for hot water supply. When the medium temperature take-out switching valve 28 is in the medium temperature position, the medium hot water flowing out from the hot water storage tank 1 to the medium temperature pipe 30 and the high temperature hot water from the upper part of the hot water storage tank 1 are the general hot water supply side electric mixing valve 7 and the bath hot water supply side electric. It is mixed by the mixing valve 11 and used for hot water supply. In the present embodiment, since the medium-temperature water flowing out from the hot-water storage tank 1 to the medium-temperature pipe 30 can be used for hot water supply, the amount of medium-temperature water in the hot-water storage tank 1 can be reduced. Therefore, the temperature of water entering the heat pump unit 2 can be lowered, and the operating efficiency of the heat pump unit 2 can be improved. In the following description, using the medium temperature water for hot water supply by setting the medium temperature take-out switching valve 28 to the medium temperature position may be referred to as "utilization of medium temperature water".

The hot water storage type hot water supply device of the present embodiment can perform reheating operation. The reheating operation is an operation in which the heat exchanger 15 heats the bath water circulated from the bathtub by the tank water circulated from the hot water storage tank 1. At the time of reheating operation, it becomes as follows. The bath circulation pump 14 is operated, and bath water circulates in the bath side circulation circuit 12. The circulation pump 4 is operated, and the tank water taken out from the hot water storage tank 1 circulates as follows. The high-temperature tank water flowing out from the hot water introduction outlet 1c at the upper part of the hot water storage tank 1 flows into the heat exchanger 15 through the first tank circulation pipe 16. In the heat exchanger 15, the temperature of the tank water is lowered by being deprived of heat by the bath water from the bathtub, and the temperature becomes, for example, about 50 ° C. The tank water whose temperature has dropped is hereinafter referred to as "reheating return hot water". The reheating return hot water is supplied from the heat exchanger 15, the second tank circulation pipe 50, the water inlet switching valve 17, the first water supply pipe 42, the circulation pump 4, the second water supply pipe 51, the hot water outlet switching valve 26, and the first hot water pipe 43. , It flows into the hot water storage tank 1 from the hot water introduction port 1d through the medium temperature return switching valve 27 and the fifth hot water pipe 47. When the temperature of the bath water in the bathtub rises to an appropriate temperature, the control unit 24 stops the operation of the bath circulation pump 14 and the circulation pump 4 and ends the reheating operation.

The hot water storage type hot water supply device of the present embodiment can execute the bath heat recovery operation. In the bath heat recovery operation, after bathing is completed, the heat in the bathtub is recovered in the hot water storage tank 1 by heating the tank water circulated from the hot water storage tank 1 with the bath water circulated from the bathtub in the heat exchanger 15. It is a driving to do. At the time of bath heat recovery operation, it becomes as follows. The bath circulation pump 14 is operated, and bath water circulates in the bath side circulation circuit 12. The circulation pump 4 is operated, and the tank water taken out from the hot water storage tank 1 circulates as follows. The low-temperature tank water flowing out from the lower part of the hot water storage tank 1 to the low-temperature pipe 41 includes a water inlet switching valve 17, a first water supply pipe 42, a circulation pump 4, a second water supply pipe 51, a hot water outlet switching valve 26, and a first hot water pipe 43. It flows into the heat exchanger 15 through the medium temperature return switching valve 27, the third hot water pipe 45, and the first tank circulation pipe 16. In the heat exchanger 15, the tank water is heated by the heat of the bath water from the bathtub, and becomes a temperature close to the temperature of the bath water in the bathtub. This heated tank water is hereinafter referred to as "heat recovery hot water". The heat recovery hot water flows into the hot water storage tank 1 from the second position 1b through the bath heat recovery pipe 31 and the medium temperature pipe 30 from the heat exchanger 15. When the bath heat recovery operation is carried out in this way, the heat recovery hot water is stored in the hot water storage tank 1 in a region having a height close to the second position 1b. When the recovery of the residual heat of the bath water in the bathtub is completed, the control unit 24 stops the operations of the bath circulation pump 14 and the circulation pump 4 and ends the bath heat recovery operation.

The hot water storage type hot water supply device of the present embodiment can execute an air bleeding operation. The air bleeding operation is an operation for bleeding air in the piping. When the operation of starting the air bleeding operation is performed by the remote controller 25, the control unit 24 performs the air bleeding operation. At the time of air bleeding operation, it becomes as follows. The circulation pump 4 is operated. The hot water taken out from the upper part of the hot water storage tank 1 passes through the heat exchanger 15, the water inlet switching valve 17, the circulation pump 4, the heat pump unit 2, the hot water outlet switching valve 26, and the medium temperature return switching valve 27, and from the hot water introduction port 1d. It flows into the hot water storage tank 1. At the same time, the hot water in the hot water storage tank 1 flows into the second tank circulation pipe 50 from the second position 1b through the medium temperature pipe 30 and the bath heat recovery pipe 31 and merges. During the air bleeding operation, the bath circulation pump 14 is not operated and the bath water is not circulated to the heat exchanger 15. Therefore, the hot water passing through the heat exchanger 15 does not exchange heat and flows into the hot water storage tank 1 from the hot water introduction port 1d at a high temperature. When the operation time of the air bleeding operation exceeds a predetermined time, or when the operation of ending the air bleeding operation is performed by the remote controller 25, the control unit stops the operation of the circulation pump 4 and performs the air bleeding operation. finish.

The control unit 24 includes a medium-temperature water utilization control means 24a, a medium-temperature water utilization prohibition means 24b, and a medium-temperature water utilization stop means 24c. The medium-temperature water utilization control means 24a determines whether or not medium-temperature water can be used, and sends an operation instruction to the medium-temperature take-out switching valve 28. The medium-temperature water utilization control means 24a determines whether or not the medium-temperature water can be used based on the temperature of the medium-temperature water supplied from the hot water storage tank 1 to the medium-temperature pipe 30. The fourth temperature sensor 5d is at the same height as or approximately the same height as the second position 1b. The temperature detected by the fourth temperature sensor 5d can be regarded as equal to the temperature of the medium temperature water supplied from the hot water storage tank 1 to the medium temperature pipe 30. Therefore, the fourth temperature sensor 5d can detect the medium temperature water supplied from the hot water storage tank 1 to the medium temperature pipe 30. In the following description, the temperature detected by the fourth temperature sensor 5d is referred to as "medium temperature water detection temperature".

For example, it may be as follows. The medium temperature water utilization control means 24a calculates the medium temperature take-out permitted temperature based on at least one of the hot water supply set temperature and the hot water beam set temperature. The medium temperature extraction permission temperature is a temperature lower than the hot water supply set temperature or the hot water beam set temperature. If the medium temperature water detection temperature is equal to or lower than the medium temperature take-out permitted temperature, the medium temperature water utilization control means 24a determines that the medium temperature water can be used, and issues an operation instruction to set the medium temperature take-out switching valve 28 to the medium temperature position. If the medium-temperature water detection temperature is higher than the medium-temperature take-out permitted temperature, the medium-temperature water utilization control means 24a determines that the medium-temperature water cannot be used, and issues an operation instruction to set the medium-temperature take-out switching valve 28 to the low temperature position.

In the following description, the temperature of the medium temperature water supplied to the medium temperature inlet 28a of the medium temperature take-out switching valve 28 is referred to as "medium temperature water temperature". The medium hot water use prohibition means 24b prohibits the use of medium hot water when the temperature of the medium hot water may be higher than the current temperature. For example, the medium hot water use prohibition means 24b is operated in which the temperature of the intermediate portion in the hot water storage tank 1 may rise, or the temperature of the intermediate portion in the hot water storage tank 1 may fluctuate sharply. If so, the use of medium temperature water is prohibited. As a result, it is possible to reliably prevent hot water having a temperature higher than the set temperature from being supplied to the first hot water supply pipe 10 or the second hot water supply pipe 18 or causing fluctuations in the hot water supply temperature. In the following description, the supply of hot water having a temperature higher than the set temperature to the first hot water supply pipe 10 or the second hot water supply pipe 18 is referred to as "high temperature hot water supply", and the first hot water supply pipe 10 or the second hot water supply pipe 18 is referred to. Fluctuations in the temperature of flowing hot water are called "fluctuations in hot water supply temperature".

Further, the medium hot water use prohibition means 24b prohibits the use of medium hot water when the equipment used for hot water supply using medium hot water is out of order. This is because if hot water is supplied using medium-temperature water when the equipment is out of order, high-temperature hot water supply and fluctuations in the hot water supply temperature may occur.

The medium hot water utilization stop means 24c may operate in which the temperature of the intermediate portion in the hot water storage tank 1 may rise during the use of medium hot water, or the temperature of the intermediate portion in the hot water storage tank 1 may fluctuate sharply. When a request to start a certain operation occurs, the use of medium temperature water is stopped. As a result, high-temperature hot water supply and fluctuations in hot water supply temperature can be reliably prevented.

FIG. 2 is a flowchart showing a control operation of the hot water storage type hot water supply device according to the first embodiment. In the first embodiment, the operation when the medium temperature take-out switching valve 28 is on standby at the low temperature position will be described. The control unit 24 executes the process of this flowchart when the medium temperature take-out switching valve 28 is in the low temperature position. In step S1 of FIG. 2, the medium hot water use prohibition means 24b determines whether or not the hot water storage operation is being executed. When the hot water storage operation is being executed, the process proceeds to step S7, and the medium temperature water use prohibition means 24b prohibits the operation of switching the medium temperature take-out switching valve 28 to the medium temperature position. During the hot water storage operation, the layer of hot water expands from the top to the bottom in the hot water storage tank 1, so that the temperature of the medium hot water may be higher than the current temperature. In the present embodiment, by prohibiting the use of medium-temperature water during the hot water storage operation, high-temperature hot water supply and fluctuations in hot water supply temperature can be reliably prevented.

If the hot water storage operation is not being executed, the process proceeds from step S1 to step S2. In step S2, the medium hot water use prohibition means 24b determines whether or not the reheating operation is being executed. When the reheating operation is being executed, the process proceeds to step S7, and the medium temperature water use prohibition means 24b prohibits the operation of switching the medium temperature take-out switching valve 28 to the medium temperature position. During the reheating operation, the reheating return hot water flows into the hot water storage tank 1 from the hot water introduction port 1d, so that the medium hot water temperature may be higher than the current temperature. In the present embodiment, by prohibiting the use of medium-temperature water during the reheating operation, high-temperature hot water supply and fluctuations in hot water supply temperature can be reliably prevented.

If the reheating operation is not being executed, the process proceeds from step S2 to step S3. In step S3, the medium hot water use prohibition means 24b determines whether or not the bath heat recovery operation is being executed. When the bath heat recovery operation is being executed, the process proceeds to step S7, and the medium temperature water use prohibition means 24b prohibits the operation of switching the medium temperature take-out switching valve 28 to the medium temperature position. During the bath heat recovery operation, the heat recovery hot water flows into the medium temperature pipe 30, so that the medium temperature water temperature may be higher than the current temperature. In the present embodiment, by prohibiting the use of medium-temperature water during the execution of the bath heat recovery operation, high-temperature hot water supply and fluctuations in hot water supply temperature can be reliably prevented.

If the bath heat recovery operation is not being executed, the process proceeds from step S3 to step S4. In step S4, the medium hot water use prohibition means 24b determines whether or not the air bleeding operation is being executed. If the air bleeding operation is being executed, the process proceeds to step S7, and the medium temperature water use prohibition means 24b prohibits the operation of switching the medium temperature take-out switching valve 28 to the medium temperature position. During the execution of the air bleeding operation, the high temperature hot water may flow into the medium temperature pipe 30, so that the medium temperature water temperature may be higher than the current temperature. In the present embodiment, by prohibiting the use of medium-temperature water during the execution of the air bleeding operation, high-temperature hot water supply and fluctuations in hot water supply temperature can be reliably prevented.

If the air bleeding operation is not being executed, the process proceeds from step S4 to step S5. In step S5, at least one of the general hot water supply side electric mixing valve 7, the bath hot water supply side electric mixing valve 11, the medium temperature take-out switching valve 28, the fourth temperature sensor 5d, the hot water supply temperature sensor 20, and the bath temperature sensor 22. Determine if there are any abnormalities such as failure errors with respect to one device. Abnormality with respect to at least one of the general hot water supply side electric mixing valve 7, the bath hot water supply side electric mixing valve 11, the medium temperature take-out switching valve 28, the fourth temperature sensor 5d, the hot water supply temperature sensor 20, and the bath temperature sensor 22. If there is, the process proceeds to step S7, and the medium temperature water use prohibition means 24b prohibits the operation of switching to the medium temperature position of the medium temperature take-out switching valve 28. As a result, high-temperature hot water supply and fluctuations in hot water supply temperature can be reliably prevented.

If there is no abnormality in step S5, the process proceeds to step S6. In step S6, the medium hot water use prohibition means 24b compares the detected temperature of the hot water supply temperature sensor 20 or the bath temperature sensor 22 with the reference high temperature determination temperature. The high temperature determination temperature is calculated according to the hot water supply set temperature or the hot water beam set temperature. The high temperature determination temperature is a temperature higher than the hot water supply set temperature or the hot water beam set temperature. If the detection temperature of the hot water supply temperature sensor 20 or the bath temperature sensor 22 is equal to or higher than the high temperature determination temperature, the process proceeds to step S7, and the medium temperature water use prohibition means 24b switches the medium temperature take-out switching valve 28 to the medium temperature position. proclaim. As a result, low-temperature water from the water source can be reliably supplied to the general hot water supply side electric mixing valve 7 and the bath hot water supply side electric mixing valve 11, so that the hot water supply temperature higher than the set temperature is surely lowered. be able to.

If the detection temperature of the hot water supply temperature sensor 20 or the bath temperature sensor 22 is lower than the high temperature determination temperature in step S6, the process proceeds to step S8, and the medium hot water use prohibition means 24b permits the use of medium hot water. In this case, the medium temperature take-out switching valve 28 is controlled by the medium temperature water utilization control means 24a.

As described above, according to the present embodiment, it is prohibited to switch the medium temperature take-out switching valve 28 from the low temperature position to the medium temperature position when the medium temperature water temperature may be higher than the current temperature. Therefore, it is possible to prevent high-temperature hot water supply and fluctuation of hot water supply temperature.

Embodiment 2.
Next, the second embodiment will be described with reference to FIG. 3, but the differences from the first embodiment will be mainly described, and the same or corresponding parts will be simplified or omitted. Since the hardware configuration of the hot water storage type hot water supply device of the second embodiment is the same as that of the first embodiment shown in FIG. 1, the illustration is omitted.

FIG. 3 is a flowchart showing a control operation of the hot water storage type hot water supply device according to the second embodiment. In the second embodiment, the operation when the medium temperature take-out switching valve 28 is on standby at the medium temperature position will be described. The control unit 24 executes the process of the flowchart of FIG. 3 when the medium temperature take-out switching valve 28 is in the medium temperature position.

In step S9 of FIG. 3, the medium hot water utilization stop means 24c determines whether or not there is a request to start the hot water storage operation. When there is a request to start the hot water storage operation, the process proceeds to step S15, and the medium hot water use stop means 24c determines to stop the use of medium hot water. Next, the process proceeds to step S16, and the medium temperature water utilization stop means 24c gives an operation instruction to switch the medium temperature take-out switching valve 28 to the low temperature position. As described above, when the hot water storage operation is started and the medium temperature take-out switching valve 28 is in the medium temperature position, the high temperature hot water supply and the hot water supply temperature fluctuation can be reliably prevented by switching the medium temperature take-out switching valve 28 to the low temperature position.

If there is no request to start the hot water storage operation, the process proceeds from step S9 to step S10. In step S10, the medium hot water utilization stop means 24c determines whether or not there is a request to start the reheating operation. When there is a request to start the reheating operation, the process proceeds to step S15, and the medium hot water use stop means 24c determines to stop the use of medium hot water. Next, the process proceeds to step S16, and the medium temperature water utilization stop means 24c gives an operation instruction to switch the medium temperature take-out switching valve 28 to the low temperature position. In this way, when the reheating operation is started and the medium temperature take-out switching valve 28 is in the medium temperature position, the high temperature hot water supply and the hot water supply temperature fluctuation can be reliably prevented by switching the medium temperature take-out switching valve 28 to the low temperature position. ..

If there is no request to start the reheating operation, the process proceeds from step S10 to step S11. In step S11, the medium hot water utilization stop means 24c determines whether or not there is a request to start the bath heat recovery operation. When there is a request to start the bath heat recovery operation, the process proceeds to step S15, and the medium hot water use stop means 24c determines to stop the use of medium hot water. Next, the process proceeds to step S16, and the medium temperature water utilization stop means 24c gives an operation instruction to switch the medium temperature take-out switching valve 28 to the low temperature position. In this way, when the bath heat recovery operation is started and the medium temperature take-out switching valve 28 is in the medium temperature position, the medium temperature take-out switching valve 28 is switched to the low temperature position to reliably prevent high-temperature hot water supply and hot water supply temperature fluctuations. can.

If there is no request to start the bath heat recovery operation, the process proceeds from step S11 to step S12. In step S12, the medium hot water utilization stop means 24c determines whether or not there is a request to start the air bleeding operation. When there is a request to start the air bleeding operation, the process proceeds to step S15, and the medium hot water use stop means 24c determines to stop the use of medium hot water. Next, the process proceeds to step S16, and the medium temperature water utilization stop means 24c gives an operation instruction to switch the medium temperature take-out switching valve 28 to the low temperature position. In this way, when the air bleeding operation is started and the medium temperature take-out switching valve 28 is in the medium temperature position, the high temperature hot water supply and the hot water supply temperature fluctuation can be reliably prevented by switching the medium temperature take-out switching valve 28 to the low temperature position. ..

If there is no request to start the air bleeding operation, the process proceeds from step S12 to step S13. In step S13, at least one of the general hot water supply side electric mixing valve 7, the bath hot water supply side electric mixing valve 11, the medium temperature take-out switching valve 28, the fourth temperature sensor 5d, the hot water supply temperature sensor 20, and the bath temperature sensor 22. It is determined whether or not an abnormality such as a failure error has occurred in one device. Abnormality with respect to at least one of the general hot water supply side electric mixing valve 7, the bath hot water supply side electric mixing valve 11, the medium temperature take-out switching valve 28, the fourth temperature sensor 5d, the hot water supply temperature sensor 20, and the bath temperature sensor 22. When the above occurs, the process proceeds to step S15, and the medium hot water use stop means 24c determines to stop the use of medium hot water. Next, the process proceeds to step S16, and the medium temperature water utilization stop means 24c gives an operation instruction to switch the medium temperature take-out switching valve 28 to the low temperature position. As a result, high-temperature hot water supply and fluctuations in hot water supply temperature can be reliably prevented.

If no abnormality has occurred in step S13, the process proceeds to step S14. In step S14, the medium hot water utilization stop means 24c determines whether or not the detection temperature of the hot water supply temperature sensor 20 or the bath temperature sensor 22 is equal to or higher than the high temperature determination temperature. When the detection temperature of the hot water supply temperature sensor 20 or the bath temperature sensor 22 is equal to or higher than the high temperature determination temperature, the process proceeds to step S15, and the medium hot water use stop means 24c determines to stop the use of medium hot water. Next, the process proceeds to step S16, and the medium temperature water utilization stop means 24c gives an operation instruction to switch the medium temperature take-out switching valve 28 to the low temperature position. As a result, low-temperature water from the water source can be supplied to the general hot water supply side electric mixing valve 7 and the bath hot water supply side electric mixing valve 11, so that the hot water supply temperature higher than the set temperature can be reliably lowered. can.

If the detection temperature of the hot water supply temperature sensor 20 or the bath temperature sensor 22 is lower than the high temperature determination temperature in step S14, the process proceeds to step S17, and the medium hot water use stopping means 24c permits the continuation of the use of medium hot water. In this case, the medium temperature take-out switching valve 28 is controlled by the medium temperature water utilization control means 24a.

As described above, according to the present embodiment, when there is a possibility that the temperature of the medium temperature water becomes higher than the current temperature during the use of the medium temperature water, the medium temperature take-out switching valve 28 is moved from the medium temperature position to the low temperature. By switching to the position, it is possible to prevent high temperature hot water supply and hot water supply temperature fluctuation.

The control unit 24 may have a first control mode and a second control mode as control modes. The second control mode is a control mode in which energy saving is prioritized over the first control mode. For example, the first control mode may have a name such as "normal mode", and the second control mode may have a name such as "energy saving mode". The user can select the first control mode or the second control mode by operating the remote controller 25.

When the second control mode is selected, hot water storage operation, reheating operation, bath heat recovery operation, or air bleeding operation is performed during hot water supply using the medium temperature water supplied from the hot water storage tank 1 to the medium temperature pipe 30. When a request to start is generated, the control unit 24 postpones the start of the requested hot water storage operation, reheating operation, bath heat recovery operation, or air bleeding operation until the hot water supply is completed. May be good. Then, the control unit 24 waits for the end of the hot water supply, switches the medium temperature take-out switching valve 28 from the medium temperature position to the low temperature position, and then performs the requested hot water storage operation, reheating operation, bath heat recovery operation, or air bleeding. The operation may be started. By doing the above, the amount of medium-temperature water used can be increased, so energy saving can be achieved.

1 Hot water storage tank, 1a 1st position, 1b 2nd position, 1c Hot water inlet, 1d Hot water inlet, 2 Heat pump unit, 4 Circulation pump, 7 General hot water supply side electric mixing valve, 7a Hot water side inlet, 7b Water side inlet, 7c hot water outlet, 8 high temperature piping, 9, 9a, 9b water supply pipe, 10 first hot water supply pipe, 11 bath hot water supply side electric mixing valve, 11a hot water side inlet, 11b water side inlet, 11c hot water outlet, 12 bath side circulation circuit, 13 Electromagnetic valve for bath, 14 Bath circulation pump, 15 Heat exchanger, 17 Water inlet switching valve, 18 Second hot water supply pipe, 19 Hot water supply flow sensor, 20 Hot water supply temperature sensor, 21 Bath flow rate sensor, 22 Bath temperature sensor , 23 Water supply temperature sensor, 24 control unit, 24a medium temperature water use control means, 24b medium temperature water use prohibition means, 24c medium temperature water use stop means, 25 remote control, 25a display unit, 26 hot water supply switching valve, 27 medium temperature return switching valve, 28 Medium temperature take-out switching valve, 28a medium temperature inlet, 28b low temperature inlet, 28c water outlet, 30 medium temperature piping, 31 bath heat recovery piping, 40 hot water storage unit, 48 HP outgoing piping, 49 HP return piping

Claims (11)

With a hot water tank
A high-temperature pipe that communicates with the first position of the hot water storage tank,
A medium-temperature pipe that communicates with the hot water storage tank at a second position lower than the first position,
It has a medium-temperature inlet into which medium-temperature water supplied from the hot water storage tank through the medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of the medium-temperature water flows in, and a water outlet. A medium temperature take-out switching valve that can switch the flow path between a medium temperature position that communicates with the water outlet and a low temperature position that communicates the low temperature inlet with the water outlet.
The hot water side inlet into which the hot water supplied from the hot water storage tank through the high temperature pipe flows in, the water side inlet in which the water from the water outlet of the medium temperature take-out switching valve flows in, and the hot water side inlet. A mixing valve having a hot water outlet from which hot water mixed with hot water and water flowing in from the water side inlet is discharged.
A control means for controlling the mixing valve and the medium temperature take-out switching valve, and
With
When the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature, the control means sets the medium temperature take-out switching valve at the low temperature position. A hot water storage type hot water supply device that prohibits switching to the medium temperature position.
Further equipped with a heating means to heat water,
During the execution of the hot water storage operation in which the water in the hot water storage tank is heated by the heating means, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position.
The control means has a first control mode and a second control mode in which energy saving is prioritized over the first control mode.
When the second control mode is selected and a request to start the hot water storage operation occurs during execution of hot water supply using the medium temperature water supplied from the hot water storage tank to the medium temperature pipe, the above The control means is a hot water storage type hot water supply device that postpones the start of the hot water storage operation until the hot water supply is completed. When said hot water storage operation is started, when the medium temperature takeout switching valve is in said intermediate temperature position, the control means, storage-type water heater according to claim 1 for switching the medium temperature takeout switching valve to said low position. With a hot water tank
A high-temperature pipe that communicates with the first position of the hot water storage tank,
A medium-temperature pipe that communicates with the hot water storage tank at a second position lower than the first position,
It has a medium-temperature inlet into which medium-temperature water supplied from the hot water storage tank through the medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of the medium-temperature water flows in, and a water outlet. A medium temperature take-out switching valve that can switch the flow path between a medium temperature position that communicates with the water outlet and a low temperature position that communicates the low temperature inlet with the water outlet.
The hot water side inlet into which the hot water supplied from the hot water storage tank through the high temperature pipe flows in, the water side inlet in which the water from the water outlet of the medium temperature take-out switching valve flows in, and the hot water side inlet. A mixing valve having a hot water outlet from which hot water mixed with hot water and water flowing in from the water side inlet is discharged.
A control means for controlling the mixing valve and the medium temperature take-out switching valve, and
With
When the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature, the control means sets the medium temperature take-out switching valve at the low temperature position. A hot water storage type hot water supply device that prohibits switching to the medium temperature position.
Further provided with a heat exchanger for exchanging heat between the bath water circulating from the bathtub and the circulating water circulating from the hot water storage tank.
During the reheating operation in which the bath water is heated by the circulating water in the heat exchanger, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position. ,
The control means has a first control mode and a second control mode in which energy saving is prioritized over the first control mode.
When the second control mode is selected, if a request to start the reheating operation occurs during execution of hot water supply using the medium-temperature water supplied from the hot-water storage tank to the medium-temperature pipe, The control means is a hot water storage type hot water supply device that postpones the start of the reheating operation until the hot water supply is completed. The hot water storage type hot water supply device according to claim 3 , wherein when the reheating operation is started and the medium temperature take-out switching valve is in the medium temperature position, the control means switches the medium temperature take-out switching valve to the low temperature position. .. With a hot water tank
A high-temperature pipe that communicates with the first position of the hot water storage tank,
A medium-temperature pipe that communicates with the hot water storage tank at a second position lower than the first position,
It has a medium-temperature inlet into which medium-temperature water supplied from the hot water storage tank through the medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of the medium-temperature water flows in, and a water outlet. A medium temperature take-out switching valve that can switch the flow path between a medium temperature position that communicates with the water outlet and a low temperature position that communicates the low temperature inlet with the water outlet.
The hot water side inlet into which the hot water supplied from the hot water storage tank through the high temperature pipe flows in, the water side inlet in which the water from the water outlet of the medium temperature take-out switching valve flows in, and the hot water side inlet. A mixing valve having a hot water outlet from which hot water mixed with hot water and water flowing in from the water side inlet is discharged.
A control means for controlling the mixing valve and the medium temperature take-out switching valve, and
With
When the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature, the control means sets the medium temperature take-out switching valve at the low temperature position. A hot water storage type hot water supply device that prohibits switching to the medium temperature position.
Further provided with a heat exchanger for exchanging heat between the bath water circulating from the bathtub and the circulating water circulating from the hot water storage tank.
During the bath heat recovery operation of recovering the heat in the bathtub into the hot water storage tank by heating the circulating water with the bath water in the heat exchanger, the control means switches the medium temperature take-out. Set the valve to the low temperature position, prohibit switching to the medium temperature position,
The control means has a first control mode and a second control mode in which energy saving is prioritized over the first control mode.
When the second control mode is selected, when a request to start the bath heat recovery operation occurs during execution of hot water supply using the medium temperature water supplied from the hot water storage tank to the medium temperature pipe. The control means is a hot water storage type hot water supply device that postpones the start of the bath heat recovery operation until the hot water supply is completed. The hot water storage type hot water supply according to claim 5 , wherein when the bath heat recovery operation is started and the medium temperature take-out switching valve is in the medium temperature position, the control means switches the medium temperature take-out switching valve to the low temperature position. Device. With a hot water tank
A high-temperature pipe that communicates with the first position of the hot water storage tank,
A medium-temperature pipe that communicates with the hot water storage tank at a second position lower than the first position,
It has a medium-temperature inlet into which medium-temperature water supplied from the hot water storage tank through the medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of the medium-temperature water flows in, and a water outlet. A medium temperature take-out switching valve that can switch the flow path between a medium temperature position that communicates with the water outlet and a low temperature position that communicates the low temperature inlet with the water outlet.
The hot water side inlet into which the hot water supplied from the hot water storage tank through the high temperature pipe flows in, the water side inlet in which the water from the water outlet of the medium temperature take-out switching valve flows in, and the hot water side inlet. A mixing valve having a hot water outlet from which hot water mixed with hot water and water flowing in from the water side inlet is discharged.
A control means for controlling the mixing valve and the medium temperature take-out switching valve, and
With
When the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature, the control means sets the medium temperature take-out switching valve at the low temperature position. A hot water storage type hot water supply device that prohibits switching to the medium temperature position.
Further provided with a heat exchanger for exchanging heat between the bath water circulating from the bathtub and the circulating water circulating from the hot water storage tank.
The hot water taken out from the upper part of the hot water storage tank without circulating the bath water to the heat exchanger is passed through the heat exchanger, and the hot water taken out from the middle part of the hot water storage tank is merged to join the hot water storage tank. During the execution of the air bleeding operation for returning to the intermediate portion lower than the upper portion of the above, the control means sets the medium temperature take-out switching valve to the low temperature position and prohibits switching to the medium temperature position . The hot water storage type hot water supply device according to claim 7 , wherein when the air bleeding operation is started and the medium temperature take-out switching valve is in the medium temperature position, the control means switches the medium temperature take-out switching valve to the low temperature position. .. The control means has a first control mode and a second control mode in which energy saving is prioritized over the first control mode.
When the second control mode is selected, when a request to start the air bleeding operation occurs during execution of hot water supply using the medium temperature water supplied from the hot water storage tank to the medium temperature pipe, there is a request to start the air bleeding operation. The hot water storage type hot water supply device according to claim 7 or 8 , wherein the control means postpones the start of the air bleeding operation until the hot water supply is completed. With a hot water tank
A high-temperature pipe that communicates with the first position of the hot water storage tank,
A medium-temperature pipe that communicates with the hot water storage tank at a second position lower than the first position,
It has a medium-temperature inlet into which medium-temperature water supplied from the hot water storage tank through the medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of the medium-temperature water flows in, and a water outlet. A medium temperature take-out switching valve that can switch the flow path between a medium temperature position that communicates with the water outlet and a low temperature position that communicates the low temperature inlet with the water outlet.
The hot water side inlet into which the hot water supplied from the hot water storage tank through the high temperature pipe flows in, the water side inlet in which the water from the water outlet of the medium temperature take-out switching valve flows in, and the hot water side inlet. A mixing valve having a hot water outlet from which hot water mixed with hot water and water flowing in from the water side inlet is discharged.
A control means for controlling the mixing valve and the medium temperature take-out switching valve, and
With
When the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature, the control means sets the medium temperature take-out switching valve at the low temperature position. A hot water storage type hot water supply device that prohibits switching to the medium temperature position.
A first temperature sensor that detects the temperature of hot water discharged from the hot water outlet of the mixing valve, and
A second temperature sensor that detects the temperature of the medium temperature water supplied from the hot water storage tank to the medium temperature pipe, and
With more
When there is an abnormality in at least one of the mixing valve, the medium temperature take-out switching valve, the first temperature sensor, and the second temperature sensor, the control means sets the medium temperature take-out switching valve at the low temperature position. A hot water storage type hot water supply device that prohibits switching to the medium temperature position. With a hot water tank
A high-temperature pipe that communicates with the first position of the hot water storage tank,
A medium-temperature pipe that communicates with the hot water storage tank at a second position lower than the first position,
It has a medium-temperature inlet into which medium-temperature water supplied from the hot water storage tank through the medium-temperature pipe flows in, a low-temperature inlet in which low-temperature water having a temperature lower than that of the medium-temperature water flows in, and a water outlet. A medium temperature take-out switching valve that can switch the flow path between a medium temperature position that communicates with the water outlet and a low temperature position that communicates the low temperature inlet with the water outlet.
The hot water side inlet into which the hot water supplied from the hot water storage tank through the high temperature pipe flows in, the water side inlet in which the water from the water outlet of the medium temperature take-out switching valve flows in, and the hot water side inlet. A mixing valve having a hot water outlet from which hot water mixed with hot water and water flowing in from the water side inlet is discharged.
A control means for controlling the mixing valve and the medium temperature take-out switching valve, and
With
When the temperature of the medium temperature water supplied to the medium temperature inlet of the medium temperature take-out switching valve may be higher than the current temperature, the control means sets the medium temperature take-out switching valve at the low temperature position. A hot water storage type hot water supply device that prohibits switching to the medium temperature position.
Further provided with a temperature sensor for detecting the hot water supply temperature, which is the temperature of the hot water flowing out from the hot water outlet of the mixing valve, is provided.
When the hot water supply temperature is higher than the reference, the control means is a hot water storage type hot water supply device in which the medium temperature take-out switching valve is set to the low temperature position and switching to the medium temperature position is prohibited.

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