JP2014163640A - Heat pump hot water storage type water heater, hems controller and hot water supply system including these - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a heat pump hot water storage type water heater which contributes to leveling of power demand between night and day, and solving or alleviating the power demand peak in the morning.SOLUTION: The heat pump hot water storage type water heater includes: target heat amount calculation means 452 for calculating a target heat amount of the next day by learning a used heat amount up to the previous day; boiling start time calculation means 453 for calculating boiling start time so that the boiling of the target heat amount can be completed by boiling time zone completion time; and early completion setting means 455 for setting a boiling completion target time going back for predetermined time from the boiling time zone completion time by automatic or manual setting. When the boiling completion target time is set by the early completion setting means 455, the boiling start time calculation means 453 calculates the boiling start time so as to complete the boiling of the target heat amount by the boiling completion target time, and when the boiling of the target heat amount cannot be completed by the boiling completion target time, it continues the boiling until the boiling time zone completion time.

Description

  The present invention relates to a heat pump hot water heater that heats up the target heat amount of the next day in the midnight time zone, a HEMS controller that monitors power demand in a building linked to the heat pump hot water heater, and a hot water system including these. It is about.

  Conventionally, in a heat pump hot water heater having a hot water storage tank for storing hot water of this kind and a heat pump heating means for boiling hot water in the hot water storage tank with a predetermined heating capacity, as shown in Patent Document 1, the previous day There was one that learned the amount of heat used until the target heat amount of the next day was raised in the late night hours of the hourly rate system of the electric power company.

  Moreover, what was shown to patent document 2 was known as a HEMS controller which monitors the electric power demand in the building linked with a heat pump hot water storage type water heater.

JP 2006-125664 A JP 2010-169314 A

  As electrified houses that use IH cooking heaters as heating cookers and air conditioners as heating and cooling devices, along with such heat pump hot water storage hot water heaters, the activity time of residents before the completion of boiling of the heat pump hot water heater The bands overlap, and the peak of power demand appears in the early morning.

  On the other hand, the HEMS controller that monitors the electric power demand in the building is not considered much about the linkage with the heat pump hot water storage type hot water heater, and there remains room for improvement.

  Therefore, the heat pump hot water storage water heater that aims to level the power demand during the day and night facilitates the peak formation of the power demand in the early morning, and it is possible to level the power demand during the day and night while eliminating this situation. It is an object of the present invention to provide a heat pump hot water storage type water heater, a HEMS controller, and a hot water supply system including these.

  In order to achieve the above-mentioned object, the present invention achieves the above-mentioned purpose, and includes a hot water storage tank for storing hot water, a heat pump heating means for boiling hot water in the hot water storage tank with a predetermined heating capacity, and a plurality of hourly rate systems for electric power companies The boiling time zone start time and the boiling time zone end time are memorized for each boiling time zone course, and the boiling time zone course selection means for selecting the boiling time zone course to be heated, and the amount of heat used until the previous day The target heat amount calculating means for calculating the target heat amount for the next day by learning the above, and the boiling start time for completing the boiling of the target heat amount at the end time of the boiling time period is used as the value of the predetermined heating capacity. Boil start time calculating means to calculate, boil control means to start driving the heat pump heating means when the boiling start time comes, Early completion setting means for setting a boiling completion target time that is a predetermined time later than the boiling time zone end time by operation or manual setting, and the boiling start time calculation means is determined by the early completion setting means. When the boiling completion target time is set, the boiling start time is calculated so that the boiling of the target heat amount is completed at the boiling completion target time, and the boiling completion target time is set. When the boiling of the target heat amount could not be completed, the boiling was continued until the boiling time end time.

  In addition, when the boiling start time calculating means determines that the boiling of the target heat amount is not expected to be completed at the boiling completion target time, the heating start time calculating means uses an increased heating capacity larger than the predetermined heating capacity. The boiling start time is calculated, and when the boiling start time comes, the boiling control means operates the heat pump heating means with an increased heating capacity to perform boiling.

  Further, the early completion setting means sets the boiling completion target time when receiving an early boiling request signal from an external HEMS controller.

  Further, the early boiling request signal from the external HEMS controller includes the value of the predetermined time or the boiling completion target time itself.

  The HEMS controller monitors power demand in a building where the heat pump hot water storage hot water heater of claim 3 or 4 is installed, and the boiling time zone course selected by the heat pump hot water hot water heater is selected. When an electric power demand peak occurs at a time before or near the boiling time period end time, an early boiling request is transmitted to the heat pump hot water heater. did.

  Further, from the state of power demand at a time before the boiling time zone end time or near the boiling time zone end time, the value of the predetermined time or the boiling completion target time itself is determined, and the early time Included in the boiling request signal.

  Also, the boiling time zone end time of the boiling time zone course selected by the heat pump hot water storage type hot water heater is estimated from the boiling end time received from the heat pump hot water storage type hot water heater.

  In addition, the boiling time zone end time of the boiling time zone course selected by the heat pump hot water storage type water heater is a value input manually.

  In addition, the boiling time zone end time of the boiling time zone course selected by the heat pump hot water heater is the time received from the smart meter installed in the building equipped with the heat pump hot water heater It was estimated from the information on the rate system by band.

  Moreover, it was set as the hot water supply system provided with the heat pump hot water storage type hot water supply apparatus in any one of the said Claims 1-4, and the HEMS controller in any one of the said Claims 5-9.

  According to the present invention, it is possible to contribute to leveling of electric power demand during the day and night, and since the boiling completion time is advanced, it is possible to contribute to eliminating or mitigating the peak of electric power demand in the morning, and when boiling is not completed. Priority is given to eliminating peak power demand in the morning, and boiling continues until the boiling time end time, so there is no worry of running out of hot water.

  In addition, if it is determined that the target heat amount is large and boiling is not expected to be completed by the target time for completion of boiling, the heat pump type heating means is operated with an increased heating capacity to perform boiling. Even when the power demand peak is large, the boiling completion time is advanced, which can contribute to the cancellation or relaxation of the peak power demand in the morning.

  In addition, when an external HEMS controller grasps that the peak of power demand in the building was in the morning and an early boiling request is output to the heat pump hot water storage type water heater, early boiling from the HEMS controller is performed. Since the boiling completion target time is set according to the heating request, if the peak of power demand actually occurs in the morning, the boiling completion time is advanced, which can contribute to the cancellation or mitigation of the peak of the morning power demand At the same time, if the boiling is not completed, the boiling is continued until the boiling time end time in preference to the peak power demand in the morning, so there is no fear of running out of hot water.

  In addition, the HEMS controller determines the value of the predetermined time to advance the completion of boiling from the state of power demand or the boiling completion target time itself. It is possible to set an appropriate boiling completion target time for leveling demand.

1 is a schematic configuration diagram of a heat pump hot water storage type water heater according to an embodiment of the present invention. Control block diagram of the same embodiment Schematic configuration diagram of a hot water supply system according to another embodiment

  Next, a heat pump hot water storage type water heater 1 according to an embodiment of the present invention will be described with reference to the drawings. 2 is a hot water storage tank unit having a stainless steel hot water storage tank 3 for storing hot water, 4 is a heat pump unit as a heat pump type heating means for boiling hot water in the hot water storage tank 3 mainly at midnight, and 5 is a hot water supply set temperature. It is a remote controller for performing operations such as changing the.

  The hot water storage tank unit 2 includes a water supply pipe 6 for supplying city water to the bottom of the hot water storage tank 3, a hot water discharge pipe 7 for discharging hot water from the upper part of the hot water storage tank 3, a water supply bypass pipe 8 branched from the water supply pipe 6, and a hot water supply pipe 7. Hot water mixing valve 9 for mixing hot water from the hot water supply water and water from the water supply bypass pipe 8 at a hot water supply set temperature, a hot water supply pipe 10 through which the hot water mixed by the hot water supply mixing valve 9 circulates, and in the middle of the hot water supply pipe 10 A hot water temperature sensor 11 provided for detecting the hot water temperature, a hot water flow rate sensor 12 provided in the middle of the hot water pipe 10 for detecting the hot water flow rate, and a plurality of hot water storage temperatures provided on the upper and lower sides of the hot water storage tank 2 for detecting the hot water temperature respectively. Heating is performed by the sensor 13, the pressure reducing valve 13 provided in the water supply pipe 6 for reducing the supply pressure of city water to a constant pressure, the overpressure relief valve 14 for releasing the overpressure in the hot water storage tank 2, and the heat pump unit 4. Hot water storage The heating forward pipe 15 for circulating the hot water taken out from the bottom of the tank 2, the heating return pipe 16 for circulating the hot water heated by the heat pump unit 4 to the upper part of the hot water tank 2, and the side of the hot water tank 3 are different in height. A plurality of hot water storage temperature sensors 17 for detecting the hot water storage temperature are provided.

  Further, in the hot water storage tank unit 2, the bath water circulates through the bath heat exchanger 19 for heating the bath water from the bathtub 18 with the heat of the hot water in the hot water storage tank 2, and the bath 18 and the bath heat exchanger 19. A bath circulation circuit 20 that can be connected, a bath circulation pump 21 that is provided in the middle of the bath circulation circuit 20 to circulate bath water, and a heat exchanger bypass pipe 22 that connects the bath circulation circuit 20 by bypassing the bath heat exchanger 19. And a three-way valve 23 for switching between flowing the bath water from the bathtub 18 to the bath heat exchanger 19 side or the heat exchange bypass pipe 22 side, and detecting the temperature of the bath water flowing from the bathtub 18 to the bath heat exchanger 19 There are provided a bath temperature sensor 24, a running water switch 25 for detecting the presence or absence of circulation of bath water in the bath circulation circuit 20, and a water level sensor 26 for detecting the water level in the bathtub 18.

  Further, the hot water storage tank unit 2 includes a hot water pipe 27 branched from the hot water supply pipe 10 and connected in the middle of the bath circulation circuit 20, and a hot water flow rate sensor 28 provided in the middle of the hot water pipe 26 to detect the hot water flow rate. A hot water temperature sensor 29 provided in the middle of the hot water pipe 27 for detecting the hot water temperature, a hot water on / off valve 30 comprising an electromagnetic valve provided in the middle of the hot water pipe 27, and a downstream of the hot water on / off valve 30. And a hopper valve 31 for draining the bath water to the outside when the backflow pressure from the bathtub 18 is higher than the water supply pressure upstream of the hot water on / off valve 30.

  The heat pump unit 4 radiated heat by the compressor 32 that compresses the refrigerant, the refrigerant water heat exchanger 33 that exchanges heat between the compressed high-temperature refrigerant and hot water from the hot water storage tank 3, and the refrigerant water heat exchanger 33. An expansion valve 34 for depressurizing the refrigerant, an evaporator 35 for evaporating the low-temperature and low-pressure refrigerant, a refrigeration cycle pipe 36 in which the compressor 32, the refrigerant water heat exchanger 33, the expansion valve 34, and the evaporator 35 are connected in an annular shape, A blower 37 that blows outside air as a heat source to the evaporator 35, a heating circulation pump 38 that supplies hot water from the hot water storage tank 3 to the water side of the refrigerant water heat exchanger 33, and a refrigerant water heat exchanger from the heating forward pipe 15. An incoming water temperature sensor 39 for detecting the temperature of hot water flowing into the hot water 33 and a boiling temperature sensor 40 for detecting the temperature of hot water flowing out of the refrigerant water heat exchanger 33 into the heating return pipe 16 are provided.

  The remote controller 5 includes a display unit 41 for displaying various information related to the water heater (hot water set temperature, bath set temperature, bath set hot water amount, remaining hot water amount, operating state of the water heater, etc.), hot water set temperature and bath set temperature. Alternatively, a setting switch 42 for setting and operating the bath setting hot water amount and a plurality of operation switches 44 such as a hot water switch 43 for instructing the bathtub 18 to supply hot water of the bath setting hot water amount are provided.

  45 is provided in the hot water storage tank unit 2, and includes a hot water temperature sensor 11, a hot water flow rate sensor 12, a hot water temperature sensor 17, a bath temperature sensor 24, a running water switch 25, a water level sensor 26, a hot water flow rate sensor 28, and a hot water temperature sensor 29. Is detected, and the operation of the hot water supply mixing valve 9, the bath circulation pump 21, the three-way valve 23, and the hot water valve 30 is controlled, and the heat pump unit 4 and the remote controller 5 are connected so that necessary information can be transmitted and received. Hot water storage control means. Here, the hot water storage control means 45 has a logic circuit such as an MPU and controls the operation according to a program stored in advance while referring to the memory.

  46 is provided in the heat pump unit 4, and the detected values of the incoming water temperature sensor 39 and the boiling temperature sensor 40 are bathed to control the operation of the compressor 32, expansion valve 34, blower 37, and heating circulation pump 38, and hot water storage It is a heating control means connected to the control means 45 so that necessary information can be transmitted and received. Here, the heating control means 46 has a logic circuit such as an MPU and controls the operation according to a program stored in advance while referring to the memory.

  47 is provided in the remote controller 5 and receives an operation signal of the operation switch 44 or a signal from the hot water storage control means 45 to cause the display unit 41 to perform a necessary display in advance and to cause the hot water storage control means 45 to operate. Remote control means for transmitting a signal based on the above. Here, the remote control means 47 has a logic circuit such as an MPU and controls the operation according to a program stored in advance while referring to the memory.

  Here, the hot water storage control means 45, the heating control means 46 and the remote control means 47 exchange necessary information and act as control means for controlling the operation of the heat pump hot water storage water heater in cooperation with each other.

  FIG. 2 is a control block diagram of the hot water storage control means 45. Reference numeral 451 denotes a boiling time zone start time and a boiling time zone end time for each of a plurality of boiling time zone courses corresponding to the hourly rate system of the electric power company. Is stored in advance, and a boiling time zone course selecting means for selecting any one of the boiling time zone courses according to the boiling time zone course selection setting operation of the remote controller 5.

  452 calculates the amount of heat used during one day from the temperature and flow rate of hot water detected by the hot water temperature sensor 11, hot water flow rate sensor 12, hot water temperature sensor 28 and hot water flow rate sensor 29, and this is calculated for a plurality of days. It is a target heat amount calculation means for storing and calculating an average or deviation and calculating a target heat amount for the next day. The amount of heat used may be calculated by adding the amount of stored hot water used for heating the bath water.

  453 is a start of boiling for completing the boiling of the target heat amount calculated by the target heat amount calculating means 452 at the end time of the boiling time period course selected by the boiling time period course selecting means 451 A boiling start time calculation means for calculating the time using a predetermined heating capacity. Here, when the boiling time zone start time is reached, the residual heat amount in the hot water storage tank 3 detected by the hot water temperature sensor 17 is subtracted from the target heat amount. The boiling start time is calculated by back-calculating the required boiling time calculated by dividing the calculated value by the predetermined heating capacity of the heat pump unit 4 from the boiling time zone end time. The earliest boiling start time is limited to the boiling time zone start time of the selected boiling time zone course.

  When the boiling start time calculated by the boiling start time calculating unit 453 is reached, 454 outputs a boiling start instruction to the heating control unit 46 so as to drive the heat pump unit 30 with a predetermined heating capacity (4.5 kW in this case). When the boiling time period end time arrives or when it is detected by the hot water storage temperature sensor 17 that the target heat amount has been stored, the boiling control means outputs a boiling stop instruction to the heating control means 46.

  455 goes back by a predetermined time from the boiling time zone end time of the boiling time zone course selected by the boiling time zone course selection means 451 by the specific operation of the operation switch 44 of the remote controller 5. It is an early completion setting means for setting the boiling completion target time, and the predetermined time is selected from among 0.5 hours, 1 hour, 1.5 hours, and 2 hours by operating the operation switch 44. Is.

  When the boiling completion target time is set by the early completion setting means 455, the boiling start time calculation means 453 is configured to complete the boiling at the boiling completion target time when the boiling time zone start time is reached. The boiling control means 454 outputs a boiling start instruction to the heating control means 46 so as to drive the heat pump unit 4 with a predetermined heating capacity when the calculated boiling start time is reached. The operation is performed so that the boiling is completed by the boiling completion target time.

  In this way, when early completion is set, even if the resident's activity time zone overlaps before the boiling time zone end time, the boiling completion target time that goes back a certain time from the boiling time zone end time Since boiling is to be completed by this time, it is possible to eliminate or mitigate the peak of power demand in the early morning.

  Here, if the target heat quantity does not boil up at the target time of completion of boiling, such as when hot water is supplied after the start of boiling, the time until the end of the boiling time zone will arrive even after the target time of completion of boiling. Boiling is continued until the target heat quantity is stored, and the boiling control means 454 proceeds to the heating control means 46 when the boiling time zone end time arrives or the hot water temperature sensor 17 detects that the target heat quantity is stored. A boiling stop instruction is output.

  In this way, if boiling is not completed by the boiling completion target time, boiling will continue until the boiling time end time, giving priority to eliminating peak power demand in the morning. It keeps boiling in the middle of the night, and there is no worry of running out of hot water.

  On the other hand, if there is a large amount of target heat due to a large hot water supply load in winter and there is no expectation that boiling can be completed with the specified heating capacity by the target heating completion time, boiling will continue until the boiling time end time as usual. The increase will continue, and there will be a problem that it will not be possible to eliminate the peak power demand in the morning.

  In response to this, when the boiling start time calculated by the boiling start time calculating means 453 is a time earlier than the boiling time zone start time by a certain time (for example, 0.5 hours), the boiling start is started. The time calculation means 453 determines that there is no possibility that the boiling can be completed with the predetermined heating capacity by the boiling completion target time, and at the same time, a predetermined predetermined increased heating capacity (a predetermined heating capacity larger than the predetermined heating capacity of the heat pump unit 4 ( Here, the boiling start time is calculated again using 6.0 kW).

  The boiling control means 454 outputs a boiling start instruction to the heating control means 46 so as to drive the heat pump unit 4 with a predetermined increased heating capacity at the boiling start time, and the boiling control means 454 is heated to the boiling completion target time. Operates to complete the lift.

  In this way, when it is determined that the target heat amount is large and the boiling is not expected to be completed by the boiling completion target time, the heat pump unit 4 is operated with the increased heating capacity to perform the boiling. Even when the peak of the morning power demand is large, the boiling completion time is advanced, which can contribute to the cancellation or relaxation of the peak of the morning power demand.

  In the above embodiment, the early completion setting is manually set by operating the remote controller 5. However, the early completion setting may be automatically set according to the occurrence situation of the morning power demand peak. Therefore, a hot water supply system according to another embodiment described below will be described. The heat pump hot water storage type water heater 1 in FIG. 3 is the same as the heat pump hot water storage type hot water supply apparatus 1 of the above embodiment, and the description thereof is omitted.

  100 is a smart meter that receives power from the system power 110, 120 is an intelligent distribution board installed in the building and capable of obtaining and outputting the current value of each branch circuit, and 130 is each branch from the intelligent distribution board 120. A HEMS controller 140 that acquires information on the current value of the circuit and analyzes the information, and 140 is a monitor operation panel that displays information analyzed by the HEMS controller 130 and performs setting operations on the HEMS controller 130.

  Here, HEMS is an abbreviation of HomeEnergyManagementSystem, which is a home energy management system that monitors and manages the use status of energy in the home and manages it, and the HEMS controller 130 forms the core of the home energy management system. It is a device that monitors energy usage and analyzes information, and is connected to an Internet network (not shown). The HEMS controller 130 may be a cloud type.

  The HEMS controller 130 is connected to the heat pump hot water storage type hot water heater 1 via a LAN cable, and is connected to be communicable with each other in accordance with the ECHONET Lite (registered trademark) standard.

  A heating time zone course corresponding to the hourly fee system applied to this building by setting operation from the monitor operation panel 140 is input to the HEMS controller 130 (≈ contract course of hourly fee system), The HEMS controller 130 has a predetermined peak power demand in the morning based on the current value information from the intelligent distribution board 120 in the time zone that goes back from the boiling time zone end time of the boiling time zone course. Judge whether it exceeds the allowable size.

  When the morning power demand peak exceeds an allowable size, the HEMS controller 130 completes the boiling that can eliminate or mitigate the power demand peak from the boiling time end time and the power demand peak time. The target time is set, and the boiling completion target time is transmitted to the heat pump hot water storage type water heater 1 together with the early boiling request signal.

  At this time, even if the peak time of the morning power demand peak is later than the boiling time end time, the morning power demand peak start time is earlier than the boiling time end time. If it can be determined that the peak of the morning power demand can be mitigated by bringing the heat pump hot water heater 1 ahead of time, the appropriate boiling completion target time is set together with the early boiling request signal. Is transmitted to the machine 1.

  Instead of transmitting the boiling completion target time itself, the HEMS controller 130 determines whether the boiling completion set by the early completion setting means 455 is forwarded for a certain period of time from the boiling time end time and the peak time of power demand. The value may be determined and transmitted to the heat pump hot water storage water heater 1 together with the early boiling request signal.

  It should be noted that the early boiling request signal and the boiling completion target time or the value of the predetermined time to be moved forward are not defined in the communication standard of ECHONETLite (registered trademark), and are transmitted using the extended area of the communication property.

  The heat pump hot water storage type water heater 1 that has received the early boiling request signal and the boiling completion target time sets the boiling completion target time received by the early boiling setting means 455, and the boiling start time calculation means 453 When the boiling time zone start time is reached, the boiling start time for completing the boiling is calculated at the boiling completion target time, and when the calculated boiling start time is reached, the boiling control means 454 causes the heat pump unit 4 to be turned on. A heating start instruction is output to the heating control means 46 so as to drive with a predetermined heating capacity, and the operation is performed to complete the boiling by the boiling completion target time.

  In this way, when the external HEMS controller 130 grasps that the peak of power demand in the building was in the morning and an early boiling request is output to the heat pump hot water heater 1, this HEMS Since the boiling completion target time is set in response to the early boiling request from the controller 130, when the peak power demand actually occurs in the morning, the boiling completion time is advanced. In addition to contributing to mitigation, if boiling is not completed, boiling is continued until the boiling time end time, giving priority to eliminating peak power demand in the morning, so there is no fear of running out of hot water.

  Further, since the HEMS controller 130 determines the value of the predetermined time to bring up the boiling completion or the boiling completion target time itself from the situation of the power demand, it can surely eliminate or mitigate the peak of the power demand and An appropriate boiling completion target time can be set for leveling of electric power demand.

  The HEMS controller 130 is set with the boiling time zone end time of the heating time zone course selected by the heat pump hot water storage water heater 1 by manual operation input via the monitor operation panel 140. Not limited to, for example, learning the time when boiling is completed from the state of the boiling state property defined in the communication standard of ECHONETLite (registered trademark) transmitted from the heat pump hot water heater 1 to the HEMS controller 130, The boiling time period end time may be estimated. In addition, it is also possible to estimate the boiling time end time by receiving information on the contract course of the hourly rate system that is contracted with the electric power company from the smart meter 100. The operation input to the HEMS controller 130 of the raising time zone course can be omitted, and a certain boiling time zone end time can be inputted.

  In addition, this invention is not limited to said embodiment, It can modify | change within the range which does not change the summary of invention.

DESCRIPTION OF SYMBOLS 1 Heat pump hot water storage type water heater 2 Hot water storage tank unit 3 Hot water storage tank 4 Heat pump unit (heat pump type heating means)
45 Hot water storage control means 451 Boiling time zone course selection means 452 Target heat amount calculation means 453 Boiling start time calculation means 454 Boiling control means 455 Early completion setting means 100 Smart meter 110 System power 120 Intelligent distribution board 130 HEMS controller 140 Monitor Operation board

Claims (10)

  A hot water storage tank for storing hot water, a heat pump heating means for boiling hot water in the hot water storage tank with a predetermined heating capacity, and boiling for each of a plurality of boiling time period courses corresponding to the electric power company's hourly rate system Memorize the time zone start time and the boiling time zone end time, learn the heating time zone course selection means to select the boiling time zone course to be heated, and the amount of heat used up to the previous day, the target heat amount for the next day A target heat amount calculating means for calculating, and a boiling start time calculating means for calculating a boiling start time for completing the boiling of the target heat amount at the end time of the boiling time period using the value of the predetermined heating capacity And heating control means for starting the heating by starting the heat pump type heating means when the boiling start time is reached, and automatic or manual setting. And an early completion setting means for setting a boiling completion target time that goes back a certain time from the boiling time zone end time, and the boiling start time calculation means sets the boiling completion target time by the early completion setting means The boiling start time is calculated so that the heating of the target heat amount is completed at the boiling completion target time, and the heating of the target heat amount is performed at the boiling completion target time. When the heat pump cannot be completed, the heating is continued until the boiling time end time.   When the boiling start time calculating means determines that the boiling of the target heat amount is not expected to be completed at the boiling completion target time, the boiling start time calculating means uses the increased heating capacity larger than the predetermined heating capacity. The heating start time is calculated, and when the boiling start time comes, the boiling control means operates the heat pump heating means with an increased heating capacity to perform boiling. Heat pump hot water storage type water heater.   3. The heat pump hot water storage type hot water supply according to claim 1, wherein the early completion setting means sets the boiling completion target time when receiving an early boiling request signal from an external HEMS controller. Machine.   The heat pump hot water storage type water heater according to claim 3, wherein the early boiling request signal from the external HEMS controller includes the value of the predetermined time or the boiling completion target time itself.   The power demand in the building in which the heat pump hot water storage type hot water heater of claim 3 or 4 is installed is monitored, and from the boiling time zone end time of the boiling time zone course selected by the heat pump hot water type hot water heater The HEMS controller is characterized in that an early boiling request is transmitted to the heat pump hot water storage type water heater when a peak of power demand occurs at a time before or near the boiling time end time. .   Determine the value of the predetermined time or the boiling completion target time itself from the power demand situation at the time before or near the boiling time period end time, and the early boiling request. 6. The HEMS controller according to claim 5, wherein the HEMS controller is included in a signal.   The boiling time zone end time of the boiling time zone course selected by the heat pump hot water heater is estimated from the boiling end time received from the heat pump hot water heater. The HEMS controller according to claim 5 or 6   The HEMS controller according to claim 5 or 6, wherein the boiling time zone end time of the boiling time zone course selected by the heat pump hot water storage type water heater is a value input manually.   The boiling time zone end time of the boiling time zone course selected by the heat pump hot water heater is classified by the time zone received from the smart meter installed in the building equipped with the heat pump hot water heater. 7. The HEMS controller according to claim 5, wherein the HEMS controller is estimated from information on a fee system.   A hot water supply system comprising the heat pump hot water storage type hot water heater according to any one of claims 1 to 4 and the HEMS controller according to any one of claims 5 to 9.

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