JP5200578B2 - Water heater - Google Patents

Description

  The present invention relates to a hot water supply device that includes a heat storage tank that stores heated hot water, and that allows hot water filling and reheating from the heat storage tank to a bathtub, and further heat recovery to the heat storage tank by remaining hot water from the bathtub.

  As a conventional hot water supply device, for example, as shown in Patent Document 1, a device that enables heat recovery to a hot water storage tank using remaining hot water in a bathtub is known. That is, in this hot water supply apparatus, a heat source such as an electric heater is attached to the upper part of the hot water tank, hot water sucked from the lower part of the hot water tank is injected into the upper part of the hot water tank, and hot water is directed from the upper side to the lower side of the tank by the heat source. To generate. Then, the low temperature hot water at the bottom of the hot water storage tank is sent to the heat recovery heat exchanger arranged outside, returned to the intermediate part of the hot water storage tank, and the remaining hot water from the bathtub is sent to the heat recovery heat exchanger to be heat exchanged. The hot water is drained.

Thus, in the heat recovery heat exchanger, the low temperature hot water in the lower part of the hot water storage tank is heated by the hot water in the bathtub, and the heat of the residual hot water can be efficiently recovered in the hot water storage tank.
Japanese Patent Laid-Open No. 2003-269991

  However, in the technique of the above-mentioned Patent Document 1, hot water heated by heat recovery is returned to the intermediate portion of the hot water storage tank. Therefore, when the heat source for generating high temperature hot water is an external heat source such as a heat pump, the hot water storage tank If there is already heated high-temperature hot water in the middle part of the hot water, the temperature of the high-temperature hot water is lowered and cannot be used as hot water for hot water supply. In addition, when the water is boiled up on the next day, the temperature rise of the hot water supplied to the heat source increases due to the heat recovery that is returned to the intermediate portion of the hot water storage tank as described above, and the heat source (heat pump) Efficiency will decrease.

  Furthermore, in the technique of the above-mentioned Patent Document 1, when refilling the bath water filled in the bathtub, a heat exchanger different from the heat recovery heat exchanger is required, and there is a problem in terms of cost. there were.

  In view of the above problems, an object of the present invention is to provide a hot water supply apparatus that enables heat recovery while preventing adverse effects on high-temperature hot water and also enables reheating of a bathtub using a heat exchanger for heat recovery. There is.

  In order to achieve the above object, the present invention employs the following technical means.

In invention of Claim 1, the thermal storage tank (10) which stores high temperature hot water on the upper side,
An external heating means (20) for generating hot water by heating hot water supplied to the heat storage tank (10) and supplying the hot water to the upper side of the heat storage tank (10);
A tank-side circulation path (17) for causing hot water to flow out from the upper part of the heat storage tank (10) and to flow into the lower part of the heat storage tank (10);
A connection flow path (18) for letting low temperature hot water stored in the lower part of the heat storage tank (10) flow out from the lower part of the heat storage tank (10) and into the intermediate part of the tank side circulation path (17);
A switching valve (19) provided at a connection point between the tank-side circulation path (17) and the connection flow path (18) to switch between the tank-side circulation path (17) side and the connection flow path (18) side. When,
A bathtub (30) for storing bath water adjusted in temperature by hot water and hot water discharged from the heat storage tank (10);
A bathtub-side circulation path (33) for causing the bath water in the bathtub (30) to flow outside and flowing again into the bathtub (30);
A heat exchanger (40) for exchanging heat between hot or cold hot water flowing downstream of the switching valve (19) of the tank side circulation path (17) and bath water flowing through the bathtub side circulation path (33) ;
By switching the switching valve (19), the low temperature hot water in the lower part of the heat storage tank (10) is caused to flow downstream of the connection flow path (18) and the tank side circulation path (17), and the bath water of the bathtub (30) The control means (50) for heating the low-temperature hot water in the heat exchanger (40) and allowing the heated low-temperature hot water to flow into the lower part of the heat storage tank (10). It is characterized by providing.

Thereby, by switching to the connection flow path (18) side by the switching valve (19), the low temperature hot water (or hot water supply water) in the lower part of the heat storage tank (10) is connected to the connection flow path (18) and the tank side circulation path (17). The low temperature hot water (or hot water) can be heated in the heat exchanger (40) by flowing the bath water of the bathtub (30) to the bathtub side circulation path (33). The heat of water can be recovered into low temperature hot water (or hot water supply water). And since the heated low temperature hot water (or hot water supply water) flows through the tank side circulation path (17) and flows into the lower part of the heat storage tank (10), the hot water stored in the upper side of the heat storage tank (10) There is no decrease in temperature. And it prevents that the temperature rise degree of the low temperature hot water supplied to an external heating means (20) at the time of the production | generation of high temperature hot water or the hot water supply supplemented becomes large, and prevents the efficiency fall of an external heating means (20). can do.

  Further, by switching to the tank side circulation path (17) by the switching valve (19), the hot water in the upper part of the heat storage tank (10) flows into the tank side circulation path (17), and the bath water of the bathtub (30) is poured into the bathtub. By flowing through the side circulation path (33), the bath water can be heated with high-temperature hot water in the heat exchanger (40), and setting of a new heat exchanger is unnecessary, that is, the heat exchanger (40) is left as it is. It can be used to catch up with bath water.

  The invention according to claim 2 is characterized in that the switching valve (19) switches to the connection flow path (18) side when the temperature of the low temperature hot water (or hot water supply water) is lower than the temperature of the bath water. .

  Accordingly, it is possible to confirm that the temperature of the low temperature hot water (or hot water) is lower than the temperature of the bath water, and to perform heat exchange between the low temperature hot water (or hot water) and the bath water by the heat exchanger (40). Therefore, it is possible to reliably recover heat from the bath water to low-temperature hot water (or hot water supply water).

  In the invention according to claim 3, the water supply position (10c) to the external heating means (20) in the heat storage tank (10) is the connection position (10g) between the lower part of the heat storage tank (10) and the connection flow path (18). ) Is provided at a higher position.

  As a result, it is possible to prevent clogging in the external heating means (20) by preventing dust and the like accumulated at the bottom of the heat storage tank (10) from being sucked into the external heating means (20), thereby improving the durability of the external heating means (20). Can be improved. Furthermore, since the amount of low-temperature hot water in the lowest part of the heat storage tank (10) can be increased, heat exchange (heat recovery) with the bath water of the bathtub (30) can be surely performed, and hot water supply excellent in energy saving performance It can be a device.

  In addition, the code | symbol in the parenthesis attached | subjected to each said means is an example which shows a corresponding relationship with the specific means of embodiment description later mentioned.

(First embodiment)
Hereinafter, the hot water supply apparatus in 1st Embodiment to which this invention is applied is demonstrated using FIG. FIG. 1 is a schematic diagram showing the overall configuration of a heat pump type hot water supply apparatus 100 using the heat pump unit 20.

  A heat pump hot water supply apparatus (hereinafter referred to as a hot water supply apparatus) 100 of the present embodiment is used for general household use, and stores high-temperature hot water generated by the heat pump unit 20 in the heat storage tank 10 (boiling operation). The stored hot water is supplied to the kitchen, washroom, bath, etc. as hot water for hot water supply (hot water supply operation, hot water filling operation). Furthermore, in addition to the hot water supply function, the hot water supply apparatus 100 maintains the water level and temperature of the bath 30 filled with hot water (automatic bath operation), and the lower part of the heat storage tank 10 by the bath water after bathing. It also has a function of performing heat recovery (bath heat recovery operation) to low temperature hot water (or hot water supply water).

  As shown in FIG. 1, a hot water supply apparatus 100 includes a heat storage tank 10, various hot water supply pipes 13, 15, 16, a heat pump unit 20 as an external heating means, a bathtub 30, a heat exchanger 40, control means 50, 51, and the like. I have.

  The heat storage tank 10 is a container for storing hot water for hot water supply (high temperature hot water), made of a metal having excellent corrosion resistance (for example, made of stainless steel), and a heat insulating material (not shown) is disposed on the outer peripheral portion. It can be kept warm for a long time.

  The heat storage tank 10 has a vertically long shape and is provided with an introduction port 10a on the bottom surface. The introduction port 10a serves as an introduction flow path for supplying (supplementing) hot water (tap water) into the heat storage tank 10. An introduction pipe 11 is connected. On the other hand, a lead-out port 10b is provided at the uppermost part of the heat storage tank 10, and a high-temperature take-out pipe 13 serving as a hot water supply channel for leading out the high-temperature hot water stored in the heat storage tank 10 is connected to the lead-out port 10b. Has been.

  At the lowermost part of the heat storage tank 10, there is provided a discharge port 10 c for discharging low temperature hot water (or hot water supply water) stored in the lower part of the heat storage tank 10 to the heat pump unit 20 side described later, and the upper part of the heat storage tank 10. Is provided with a suction port 10d through which high-temperature hot water discharged from the heat pump unit 20 side flows. The discharge port 10 c and the suction port 10 d are connected by a circulation circuit 21, and a part of the circulation circuit 21 is disposed in the heat pump unit 20.

  The heat pump unit 20 includes a heat pump cycle that uses carbon dioxide (CO 2) having a low critical temperature as a refrigerant, and a water supply pump (not shown) installed in the circulation circuit 21. According to the supercritical heat pump, hot water (for example, about 85 ° C. to 90 ° C.) higher than a general heat pump cycle can be stored in the heat storage tank 10.

  The heat pump cycle includes an electric compressor (not shown), a water refrigerant heat exchanger, an electric expansion valve, an air heat exchanger, and an accumulator, which are sequentially connected by a refrigerant pipe. Is controlled by.

  The water-refrigerant heat exchanger includes a refrigerant passage through which refrigerant flows and a water passage through which low-temperature hot water (or hot-water supply water) flows, and the high-temperature / high-pressure that is discharged from the discharge port of the compressor and flows through the refrigerant passage. The low-temperature hot water (or hot-water supply water) flowing through the water passage is heated by this refrigerant to boil the hot water.

  A water supply pump (not shown) is disposed between the discharge port 10c of the circulation circuit 21 and the heat pump unit 20 (water side heat exchanger). The water supply pump is rotationally driven by a built-in electric motor so that hot water is discharged from the discharge port 10c during the boiling operation of the high-temperature hot water, and the hot water heated in the water-side heat exchanger is stored in the heat storage tank 10. It operates to recirculate to the suction port 10d. The rotation speed of the feed water pump is controlled by a control device (not shown) so that the outlet water temperature of the water heat exchanger becomes a predetermined target boiling temperature determined under various operating conditions.

  The introduction pipe 11 is provided with a water supply pipe 12 branched from the front portion of the introduction port 10a (the branch state display is omitted in FIG. 1), and the downstream end of the water supply pipe 12 is connected to a mixing valve 14 described later. It is. In addition, the introduction pipe 11 is provided with a pressure reducing check valve (not shown) for adjusting the water pressure of hot water to be introduced (tap water) to a predetermined pressure and preventing the back flow of hot water due to water breakage or the like. It has been.

  The mixing valve 14 is provided at a downstream side joining portion between the high temperature extraction pipe 13 and the water supply pipe 12. The mixing valve 14 is a temperature control valve, which adjusts the opening area ratio between the high temperature side and the low temperature side to provide hot water extracted from the high temperature extraction pipe 13 and hot water supplied from the water supply pipe 12. By adjusting the mixing ratio, the temperature of hot water flowing through the hot water supply pipe 15 and the bath pipe 16 connected to the downstream side of the mixing valve 14 is adjusted to a set temperature set by the user. In the mixing valve 14, the adjustment of the opening area ratio is controlled by control means 50 and 51 described later.

  The hot water supply pipe 15 is a pipe that guides hot water whose temperature is adjusted to a set temperature to a hot water faucet (curan, shower, etc.) as a terminal at the downstream end. Further, the bath pipe 16 is connected to a suction port 32 (adapter) of the bathtub 30 to be described later, and the temperature of the bath pipe 16 is adjusted to a set temperature when hot water is filled in the bathtub 30, hot water, hot water, or the like. It is a pipe that guides the hot water (bath water). Although not shown, this bath pipe 16 is provided with a sys- tem in which bath water in the bathtub 30 does not flow back to the hot water supply pipe 15 side, and a solenoid valve for hot water filling, hot water supply, and hot water.

  Further, an upper outlet 10 e is provided at the uppermost part (upper part) of the heat storage tank 10, and a lower inlet 10 f is provided at the lower side wall (lower part) of the heat storage tank 10. The upper outlet 10 e and the lower inlet 10 f are connected by a tank-side circulation path 17. A primary pump 17a is disposed in the vicinity of the lower inlet 10f of the tank-side circulation path 17, and the operation of the primary pump 17a is controlled by control means 50 and 51 described later. It has become.

  Further, a lower outlet 10g is provided on the bottom surface (lower part) of the heat storage tank 10, and one end side of the connection flow path 18 is connected to the lower outlet 10g. The other end side of the connection flow path 18 is connected to an intermediate portion of the tank-side circulation path 17 so as to communicate with the tank-side circulation path 17.

  A switching valve 19 is provided at a connection point between the tank-side circulation path 17 and the connection flow path 18. The switching valve 19 is a flow path switching valve for switching the open / closed state of the tank side circulation path 17 side and the connection flow path 18 side, and the open / close switching is controlled by the control means 50 and 51 described later. The switching valve 19 is a heating mode in which the tank-side circulation path 17 side is opened and the connection flow path 18 side is closed, and the tank-side circulation path 17 side is closed and the connection flow path 18 side is opened by the operation of the internal valve body. A recovery mode is formed.

  Therefore, when the heating mode is formed by the switching valve 19 and the primary pump 17a is operated, the hot water in the upper part of the heat storage tank 10 once flows out to the outside by the tank side circulation path 17, and the lower part in the heat storage tank 10 It will be circulated so that it may flow into. Further, when the heat recovery mode is formed by the switching valve 19 and the primary pump 17 a is operated, the low temperature hot water (or hot water supply) in the lower part of the heat storage tank 10 is formed by the downstream side of the connection flow path 18 and the tank side circulation path 17. The water is once circulated so as to flow out and flow into the lower part of the heat storage tank 10 again.

The bathtub 30 is a bath container that stores temperature-controlled hot water (bath water) supplied from a suction port 32 that will be described later through the bath piping 16, and a discharge port 31 and a predetermined position on the side wall surface of the bathtub 30. A suction port 32 is provided. The discharge port 31 is connected to one end side of the bathtub-side circulation path 33, and the suction port 32 is connected to the other end side of the bathtub-side circulation path 33. The bathtub-side circulation path 33 extends from the discharge port 31 to the vicinity of the switching valve 19 of the tank-side circulation path 17 and returns to the suction port 32. Further, a secondary pump 33a is disposed in the vicinity of the discharge port 31 of the bathtub-side circulation path 33, and the operation of the secondary pump 33a is controlled by control means 50 and 51 described later. It has become. Therefore, when the secondary pump 33a is operated, the bath water in the bathtub 30 is circulated so as to once flow out from the bathtub 30 to the tank-side circulation path 17 side and into the bathtub 30 again.

  The heat exchanger 40 exchanges heat between high-temperature hot water or low-temperature hot water (or hot water) flowing downstream of the switching valve 19 of the tank-side circulation path 17 and bath water circulating in the bathtub-side circulation path 33. Heat equipment Two large flow paths are formed inside the heat exchanger 40, and one flow path is interposed on the downstream side of the switching valve 19 of the tank side circulation path 17, and the other The flow path is arranged in the middle of the bathtub-side circulation path 33. And both flow paths form a counter flow. The heat exchanger 40 operates as a heating heat exchanger that heats the bath water circulating in the bathtub-side circulation path 33 when high-temperature hot water flows through the switching valve 19 of the tank-side circulation path 17 on the downstream side. When low temperature hot water (or hot water supply water) flows downstream of the switching valve 19 of the tank side circulation path 17, the heat of the bath water circulating in the bathtub side circulation path 33 is recovered (heated) into low temperature hot water (or hot water supply water). Acts as a heat recovery heat exchanger.

  Next, the control means includes a control device 50 and a control panel (remote control) 51. The control device 50 is mainly composed of a microcomputer, and a built-in ROM (not shown) is provided with a preset control program, and receives an operation signal or the like from the operation panel 51 input by the user. Based on this, the mixing valve 14, the primary pump 17a, the switching valve 19, and the secondary pump 33a are controlled.

  The operation panel 51 is provided with a hot water supply set temperature switch, a hot water filling switch, a hot water filling set temperature switch, a reheating switch, a bath heat retention time setting switch, a bath heat recovery switch, and the like as operation switches. Further, the operation panel 51 is installed in the vicinity of a place where hot water is used, such as in a bathroom or kitchen, and other than the operation panel 51 is installed in the heat storage tank 10.

  Next, the operation of the hot water supply apparatus 100 configured as described above will be described.

1. The boiling operation control device 50 instructs the operation of the heat pump unit 20 and the water supply pump by using inexpensive late-night power during the midnight hours, and circulates the low-temperature hot water (or hot water supply water) on the lower side in the heat storage tank 10. It is made to circulate to 21 and it heats with the heat pump unit 20, and the produced | generated hot water is stored in the upper part side of the thermal storage tank 10 from the inlet 10d.

2. Hot water supply operation, hot water filling operation When using hot water in a kitchen or a washroom in the daytime or when filling a bath, the control device 50 is input from the hot water set temperature switch and hot water set temperature switch of the operation panel 51 by the user. The valve opening of the mixing valve 14 is adjusted so as to match the set temperature to be set, and hot water taken out from the outlet 10b of the heat storage tank 10 and hot water supplied from the water supply pipe 12 are mixed. And supply it as temperature-controlled hot water.

3. The bath automatic operation control device 50 detects the temperature of the bath water in the bathtub 30 in the bath heat retention set time range after the hot water operation (the time set by the user, for example, 4 hours). Implement automatic bath operation that keeps the temperature at the set temperature. That is, the control device 50 operates the switching valve 19 to open the tank-side circulation path 17 side to enter the heating mode and operate the primary pump 17a and the secondary pump 33a. Then, the hot water in the upper part of the heat storage tank 10 once flows out of the upper outlet 10e, passes through the heat exchanger 40, and flows into the heat storage tank 10 from the lower inlet 10f. Circulate. The bath water in the bathtub 30 once flows out from the discharge port 31 of the bathtub 30, passes through the heat exchanger 40, and circulates in the bathtub-side circulation path 33 so as to flow into the bathtub 30 from the suction port 32. .

  And in the heat exchanger 40, the heat of high temperature hot water is transmitted to bath water, and bath water is heated. When the temperature of the bath water reaches the set temperature, the control device 50 stops the primary pump 17a and the secondary pump 33a.

4). Bath Heat Recovery Operation After the user takes a bath, the control device 50 recovers heat to the heat storage tank 10 by utilizing the bath water (residual hot water) in the bathtub 30. That is, when the temperature of the low temperature hot water (or hot water supply water) in the heat storage tank 10 is lower than the bath water temperature, the control device 50 operates the switching valve 19 to open the connection flow path 18 side to enter the heat recovery mode. The primary pump 17a and the secondary pump 33a are operated. Then, the low temperature hot water (or hot water) in the lower part of the heat storage tank 10 once flows out from the lower outlet 10g, passes through the connection flow path 18 and the heat exchanger 40, and passes through the downstream side of the tank side circulation path 17. Circulates so as to flow into the heat storage tank 10 from the lower inlet 10f. The bath water in the bathtub 30 once flows out from the discharge port 31 of the bathtub 30, passes through the heat exchanger 40, and circulates in the bathtub-side circulation path 33 so as to flow into the bathtub 30 from the suction port 32. .

  And in the heat exchanger 40, the heat of bath water is transmitted to low temperature hot water (or hot water supply water), and low temperature hot water (or hot water supply water) is heated. And if the temperature of the low temperature hot water (or hot water supply water) in the thermal storage tank 10 becomes more than bath water temperature, the control apparatus 50 will stop the primary pump 17a and the secondary pump 33a.

  In addition, the temperature of the bath water in the bath automatic operation and the bath heat recovery operation can be detected by, for example, providing a bath water temperature detecting means (a bath thermistor) in the middle of the bathtub-side circulation path 33. The temperature of the low temperature hot water (or hot water supply water) in the bath heat recovery operation can be detected by, for example, providing a tank lower temperature detecting means (lower thermistor) on the lower side of the heat storage tank 10 and detected by the controller 50. The signal may be output as a temperature signal.

  As described above, in the present embodiment, the tank-side circulation path 17, the connection flow path 18, the switching valve 19, and the heat exchanger 40 described above are provided. Therefore, by opening the connection flow path 18 side by the switching valve 19 (heat recovery mode), low temperature hot water (or hot water supply water) at the bottom of the heat storage tank 10 is caused to flow downstream of the connection flow path 18 and the tank side circulation path 17. Moreover, low temperature hot water (or hot water supply water) can be heated in the heat exchanger 40 by flowing the bath water of the bathtub 30 to the bathtub side circulation path 33, and the heat of the bath water is changed to low temperature hot water (or hot water supply water). It can be recovered (bath heat recovery operation).

  And since the heated low temperature hot water (or hot water supply water) flows through the tank side circulation path 17 and flows into the lower part (lower inlet 10f) of the heat storage tank 10, the high temperature hot water stored in the upper part of the heat storage tank 10 is stored. There is no decrease in temperature. And it can prevent that the temperature rise degree of the low temperature hot water (or hot water supply water) supplied to the heat pump unit 20 at the time of production | generation of high temperature hot water becomes large, and can prevent the efficiency fall of the heat pump unit 20.

  Further, by opening the tank-side circulation path 17 by the switching valve 19 (heating mode), the hot water in the upper part of the heat storage tank 10 is caused to flow to the tank-side circulation path 17 and the bath water of the bathtub 30 is caused to flow to the bathtub-side circulation path 33. Thus, the bath water can be heated with high-temperature hot water in the heat exchanger 40, and it is possible to recharge the bath water without using a new heat exchanger setting, that is, using the heat exchanger 40 as it is. (Bath automatic operation)

  In the bath heat recovery operation, it is confirmed that the temperature of the low temperature hot water (or hot water) is lower than the temperature of the bath water, and the operation is executed. Reliable heat recovery to hot water is possible.

(Second Embodiment)
A second embodiment to which the present invention is applied is shown in FIGS. Compared to the first embodiment, the second embodiment is a connection flow path 18 in which the water supply position (here, the position of the discharge port 10c) to the heat pump unit 20 in the heat storage tank 10 is formed on the bottom surface portion of the heat storage tank 10. And a position higher than the connection position (here, the position of the lower outlet 10g).

  Specifically, the position of the discharge port 10c provided on the lower side wall of the heat storage tank 10 that is a predetermined amount above the lowermost part of the heat storage tank 10 (FIG. 2), or circulation at the discharge port 10c. The end of the circuit 21 is extended by a predetermined amount above the lowermost part (bottom surface) of the heat storage tank 10 (FIG. 3).

Thereby, clogging in the heat pump unit 20 (water-refrigerant heat exchanger) can be suppressed by preventing dust and the like accumulated at the bottom of the heat storage tank 10 from being sucked into the heat pump unit 20, and the durability of the heat pump unit 20 can be improved. it can. Furthermore, since the amount of low-temperature hot water in the lowermost part of the heat storage tank 10 can be increased, heat exchange ( heat recovery ) with the bath water of the bathtub 30 can be surely performed, and the hot water supply device 100 having excellent energy saving performance is obtained. be able to.

(Other embodiments)
In the first and second embodiments described above, the heat pump unit 20 is used as the heating means for hot water supply. However, the present invention is not limited to this, and may be replaced with an electric external heater or the like.

It is a schematic diagram which shows schematic structure of the heat pump type hot water supply apparatus in 1st Embodiment. It is a schematic diagram which shows schematic structure of the heat pump type hot water supply apparatus in 2nd Embodiment. It is a schematic diagram which shows schematic structure of the heat pump type hot water supply apparatus in 2nd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Heat storage tank 17 Tank side circulation path 18 Connection flow path 19 Switching valve 20 Heat pump unit (external heating means)
30 Bathtub
33 Bath side circulation path 40 Heat exchanger 100 Heat pump hot water supply device

Claims (3)

A heat storage tank (10) for storing hot water,
An external heating means (20) for generating hot water by heating hot water supplied to the heat storage tank (10) and supplying the hot water to the upper side of the heat storage tank (10);
A tank side circulation path (17) for allowing the hot water to flow out from the upper part of the heat storage tank (10) and to flow into the lower part of the heat storage tank (10);
A connection flow path (18) for letting low-temperature hot water stored in the lower side of the heat storage tank (10) flow out from the lower part of the heat storage tank (10) and into the intermediate part of the tank-side circulation path (17);
Switching that is provided at a connection point between the tank-side circulation path (17) and the connection flow path (18) and performs switching between the tank-side circulation path (17) side and the connection flow path (18) side. A valve (19);
A bathtub (30) for storing bath water adjusted in temperature by the hot water and hot water flowing out of the heat storage tank (10);
A bathtub-side circulation path (33) for causing the bath water in the bathtub (30) to flow outside and flowing again into the bathtub (30);
Heat exchange for exchanging heat between the hot or cold hot water flowing on the downstream side of the switching valve (19) of the tank side circulation path (17) and the bath water flowing on the bathtub side circulation path (33). A vessel (40) ,
By switching the switching valve (19), the low temperature hot water in the lower part of the heat storage tank (10) is caused to flow downstream of the connection flow path (18) and the tank side circulation path (17), and the bathtub By flowing the bath water of (30) through the bathtub side circulation path (33), the low temperature hot water is heated in the heat exchanger (40), and the heated low temperature hot water is stored in the heat storage tank (10). A hot water supply apparatus comprising: a control means (50) for flowing into the lower part .   The hot water supply apparatus according to claim 1, wherein the switching valve (19) switches to the connection flow path (18) side when the temperature of the low-temperature hot water is lower than the temperature of the bath water.   The water supply position (10c) to the external heating means (20) in the heat storage tank (10) is higher than the connection position (10g) between the lower part of the heat storage tank (10) and the connection flow path (18). The hot water supply device according to claim 1 or 2, wherein the hot water supply device is provided.

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