JP5982238B2 - Hot water storage water heater - Google Patents

Description

  The present invention relates to a hot water storage type hot water heater that circulates hot water in a hot water storage tank to a primary side of a hot water supply external heat exchanger and heats flowing water flowing on a secondary side to supply hot water.

  Conventionally, in a hot water storage type water heater having an external heat exchanger of this type, as in Patent Document 1, a hot water storage tank for storing hot water, a heating means for heating the hot water in the hot water storage tank, and a primary side A hot water supply external heat exchanger that heats and supplies hot water flowing from the hot water in the hot water storage tank circulating through the hot water tank, and a primary side connecting the upper part of the hot water storage tank and the primary inlet of the hot water supply external heat exchanger A side return pipe, a primary return pipe connecting the primary outlet of the hot water supply external heat exchanger and the hot water storage tank, and a hot water in the hot water storage tank provided outside the hot water supply provided in the middle of the primary return pipe. A primary side pump that circulates to the primary side of the heat exchanger, a water supply pipe connected to the secondary side inlet of the hot water supply external heat exchanger, and a hot water supply pipe connected to the secondary side outlet of the hot water supply external heat exchanger There was something with.

JP 2012-107843 A

  However, in such a conventional system, when hot water supply is started at a large flow rate, it takes time from the start of hot water supply until the required flow rate flows to the primary side of the hot water external heat exchanger, and the hot water temperature is actually It took time to reach the set temperature.

Therefore, in order to solve the above-described problems, the present invention provides a hot water storage tank for storing hot water, heating means for heating the hot water in the hot water storage tank, and hot water in the hot water storage tank circulating in the primary side as a heat source as a secondary source. A hot water external heat exchanger that heats and supplies hot water to the hot water, a primary forward pipe that connects the upper part of the hot water storage tank and the primary inlet of the hot water external heat exchanger, and a primary side of the hot water external heat exchanger A primary side return pipe connecting an outlet and the hot water storage tank, a primary side pump provided in the middle of the primary side return pipe for circulating hot water in the hot water storage tank to a primary side of the hot water supply external heat exchanger, A hot water supply pipe connected to a secondary side inlet of the hot water supply external heat exchanger, a hot water supply pipe connected to a secondary side outlet of the hot water supply external heat exchanger, and a hot water flow rate sensor for detecting a hot water supply flow rate . In the hot water storage type water heater, downstream of the primary pump A recirculation pipe that branches from the primary return pipe and is connected to the primary forward pipe and joins hot water from the downstream of the primary pump to the primary side of the hot water external heat exchanger, and the hot water external heat A mixing ratio adjusting valve for adjusting a mixing ratio of hot water from the recirculation pipe flowing into the primary side of the exchanger and hot water from the primary side forward pipe, and the hot water supply flow sensor detects less than the minimum operating flow rate. During the hot water supply standby, the primary pump is driven, and the mixing ratio adjusting valve is controlled so that the hot water from the primary return pipe is mixed with the hot water from the recirculation pipe to control the external hot water supply heat exchanger A preheating control means for performing a preheating operation for maintaining the temperature of the hot water remaining on the secondary side is provided.

  Further, the preheating control means controls the mixing ratio adjusting valve so that a primary side inlet temperature of the hot water supply external heat exchanger does not exceed the target temperature.

  In addition, the preheating control unit controls the mixing ratio adjusting valve so that a primary side inlet temperature of the hot water supply external heat exchanger becomes the target temperature.

  Further, the preheating control means temporarily stops the primary side pump when the primary side outlet temperature of the hot water supply external heat exchanger rises to a temperature lower than the target temperature by a constant temperature α.

  In addition, the preheating control unit temporarily stops the primary side pump, and then the primary side inlet temperature or the primary side outlet temperature of the hot water supply heat exchanger decreases to a temperature lower than the target temperature by a constant temperature β (> α). Then, the driving of the primary pump was resumed.

  According to the present invention, since the hot water supply operation is started in the preheating operation state in which the primary pump is driven, the time required to increase the rotation speed of the primary pump to the primary flow rate required for hot water supply. Along with the fact that the hot water on the secondary side that has been shortened and remains in the hot water external heat exchanger is preheated, the rise in hot water temperature at the start of hot water supply and undershoot can be suppressed, and the recirculation pipe Thus, the amount of hot water circulating through the hot water storage tank during preheating can be reduced, and the consumption amount related to the preheating of hot water in the hot water storage tank can be suppressed.

  In addition, during preheating during hot water standby, the temperature of hot water flowing into or out of the primary side of the hot water external heat exchanger is adjusted by the mixing ratio adjustment valve, so that hot water at the hot water set temperature is stably supplied from the beginning of hot water supply. It is something that can be done.

Schematic configuration diagram of one embodiment of the present invention Flow chart for explaining the operation of the same embodiment

Next, a hot water storage type water heater according to an embodiment of the present invention will be described with reference to the drawings.
1 is a tank unit having a hot water storage tank 2 for storing hot water, 3 is a hot water external heat exchanger composed of a plate heat exchanger for heating the hot water in the hot water tank 2 as a heat source, and 4 is a hot water tank 2. The primary side circulation circuit 4 circulates the hot water inside the hot water supply outside heat exchanger 3 to the primary side, and the primary side circulation circuit 4 connects the one side inlet 3 a of the hot water supply outside heat exchanger 3 and the upper part of the hot water storage tank 2. The primary side return pipe 5 is composed of a primary side return pipe 6 that connects the primary side outlet 3b of the hot water supply external heat exchanger 3 and the lower part of the hot water storage tank 2, and the upper part of the hot water storage tank 2 is in the middle of the primary side return pipe 6. A primary pump 7 is provided for circulating the hot water taken out from the primary side of the hot water supply external heat exchanger 3.

  8 is a water supply pipe connected to the secondary side inlet 3 c of the hot water supply external heat exchanger 3, and 9 is a hot water supply pipe connecting the secondary side outlet 3 d of the hot water supply external heat exchanger 3 and the hot water tap 10. Here, the water supply pipe 8 is directly connected from the city water to the hot water supply external heat exchanger 3 without going through the pressure reducing valve.

  Here, the hot water supply external heat exchanger 3 is arranged and fixed in the tank unit 1 in a posture in which a known plate type heat exchanger is set up, and a primary side inlet 3a and a secondary side outlet are provided at the lower part of one end plate. 3d is arranged, and the primary side outlet 3b and the secondary side inlet 3c are arranged at the upper part of the end plate on the same surface, and the primary side and the secondary side exchange heat in a substantially opposite flow. The hot water supply external heat exchanger 3 is not limited to a plate heat exchanger.

  11 is a heat pump unit as a heating means for heating the hot water in the hot water storage tank 2, and 12 is a heating circulation circuit for circulating the hot water in the hot water storage tank 2 to the heat pump unit 11, which is connected to the inlet of the heat pump unit 11. And a heating return pipe 14 connecting the outlet side of the heat pump unit 11 and the upper part of the hot water storage tank 2. The hot water storage tank 13 is located in the middle of the heating forward pipe 13. 2 A heating circulation pump 16 for circulating hot water taken out from the lower part to the water side of the refrigerant water heat exchanger 15 of the heat pump unit 11 is provided.

  17 is a compressor that compresses refrigerant, 18 is an expansion valve that decompresses and expands the pressure of the refrigerant, 19 is an evaporator that evaporates liquid refrigerant, 20 is a blower that blows outside air as a heat source to the evaporator 19, and 21 is refrigerant water. An incoming water temperature sensor 22 detects the temperature of hot water from the hot water storage tank 2 that flows into the water side of the heat exchanger 15, and 22 is the temperature of hot water boiled up by the heat pump unit 11 that flows out from the water side of the refrigerant water heat exchanger 15. The boiling temperature sensor 23 detects the outside air temperature, and the outside air temperature sensor 23 detects the outside air temperature. The heat pump unit 11 compresses the refrigerant absorbed by the evaporator 19 by the compressor 17 and supplies water via the refrigerant water heat exchanger 15. It is intended to be heated.

  Reference numeral 24 denotes a heating branch pipe branched from the middle of the heating return pipe 14 and connected to the primary return pipe 6, and 25 is provided at a branch point between the heating return pipe 14 and the heating branch pipe 24. This is a heating switching valve that switches between returning to the upper part of the hot water storage tank 2 or returning to the lower part of the hot water storage tank 2 via the heating branch pipe 24 and the primary return pipe 6.

  Reference numeral 26 denotes a recirculation pipe branched from the downstream side of the primary pump 7 of the primary return pipe 6 and connected to the primary forward pipe 5. The primary hot water whose temperature has dropped due to heat exchange in the hot water supply external heat exchanger 3. Is circulated again to the hot water supply external heat exchanger 3.

  Reference numeral 27 denotes a primary side mixing as a mixing ratio adjusting valve for adjusting a mixing ratio of the low temperature hot water from the recirculation pipe 26 flowing into the primary side of the hot water supply external heat exchanger 3 and the high temperature hot water from the primary side forward pipe 5. A valve is provided at the junction of the primary-side forward pipe 5 and the recirculation pipe 26.

  28 is a supplementary water pipe branched from the hot water supply pipe 9 and connected in the middle of the primary side outgoing pipe 5, 29 is a pressure reducing valve provided in the middle of the supplementary water pipe 28 to reduce the feed water pressure, and 30 is connected in the middle of the primary side outgoing pipe 5. This is an overpressure relief valve that releases overpressure in the hot water storage tank 2.

  A water supply temperature sensor 31 is provided in the middle of the water supply pipe 8 to detect the temperature of the water supply, and 32 is provided in the middle of the hot water supply pipe 9 and is a hot water supply temperature at the secondary outlet of the hot water supply external heat exchanger 3 (secondary outlet temperature). A hot water supply temperature sensor as a secondary outlet temperature sensor for detecting the hot water, a hot water supply flow sensor 33 for detecting a hot water supply flow rate provided in the middle of the hot water supply pipe 9, and a junction 34 and a hot water supply of the primary forward pipe 5 and the recirculation pipe 26. A primary inlet temperature sensor 35 is provided between the external heat exchangers 3 to detect the temperature of hot water as a heat source flowing into the hot water supply external heat exchanger 3. A hot water supply external heat exchanger 3 is provided in the middle of the primary return pipe 6. A plurality of primary outlet temperature sensors 36 for detecting the temperature of the primary hot water flowing out from the hot water storage tank 2 are provided above and below the side surface of the hot water storage tank 2 to detect the hot water storage temperature.

  Reference numeral 37 denotes a remote controller including an operation switch for setting a desired hot water supply set temperature and a display unit for displaying the hot water set temperature.

  Reference numeral 38 denotes an incoming water temperature sensor 21, a boiling temperature sensor 22, an outside air temperature sensor 23, a feed water temperature sensor 31, a hot water supply temperature sensor 32, a hot water supply flow rate sensor 33, a primary inlet temperature sensor 34, a primary outlet temperature sensor 35, and a hot water storage temperature sensor 36. The detected value is input, and the operation of the primary side pump 7, heat pump unit 11, heating circulation pump 16, compressor 17, expansion valve 18, blower 20, heating switching valve 25, primary side mixing valve 27 is controlled, and remote control 37 And a control means connected so as to be communicable with each other. The control means 38 stores in advance a program for controlling the operation of the water heater, and has a calculation, comparison, storage function, and clock function.

  The control means 38 includes a primary pump control means 39 for controlling the rotation speed of the primary side pump 7, a primary side mixing valve control means 40 for controlling the opening degree of the primary side mixing valve 27, and hot water supply during hot water supply standby. Preheating for controlling the primary side pump 7 and the primary side mixing valve 27 to circulate hot water in the hot water storage tank 2 to the primary side of the external heat exchanger 3 and preheat the secondary side hot water of the hot water supply external heat exchanger 3. Control means 41 is provided.

  The primary pump control means 39 detects the hot water supply temperature set by the remote controller 37 as the target temperature on the secondary side of the hot water supply external heat exchanger 3, the hot water temperature detected by the hot water temperature sensor 31, and the hot water flow rate sensor 33. Calculate the required amount of hot water supply from the hot water supply flow rate (heat exchange secondary side flow rate), and outside the hot water supply from the primary side outlet temperature (estimated primary side outlet temperature) of the hot water outside heat exchanger 3 estimated from the supply water temperature and the required hot water supply heat amount A flow rate (heat exchange primary side flow rate) flowing through the primary side of the heat exchanger 3 is calculated, and this heat exchange primary side flow rate is converted into the rotation speed (indicated rotation speed) of the primary side pump 7. Feed-forward control is performed so that the hot water supply temperature becomes the hot water supply set temperature by controlling the rotational speed to be the indicated rotational speed, and when the actual rotational speed of the primary pump 7 reaches the indicated rotational speed, With hot water temperature sensor 32 A temperature deviation is calculated from the supplied hot water temperature, and the rotation speed (instructed rotation speed) of the primary pump 7 is calculated from the temperature deviation by PI calculation of a predetermined control cycle. The rotation speed of the primary pump 7 is calculated as the instruction rotation speed. By performing such control, feedback control is performed so that the hot water supply temperature becomes the hot water supply set temperature.

  Further, the primary side mixing valve control means 40 has a specified rotational speed of the primary pump 7 instructed by the primary pump control means 39 to a predetermined minimum rotational speed, and a hot water temperature (secondary side) detected by the hot water temperature sensor 32. If the state in which the outlet temperature) exceeds the hot water supply set temperature (target outlet temperature) by a predetermined value (here, 1 ° C.) or more continues for a predetermined time (here, 1 second), the rotational speed of the primary pump 7 is set to the predetermined minimum rotational speed. The primary side pump control means 39 is instructed to maintain the temperature at the same time, and the opening degree of the primary side mixing valve 27 is controlled so that the hot water supply temperature coincides with the hot water supply set temperature. If the hot water supply temperature continues below a predetermined value (here, 1 ° C.) or more for a predetermined time (here, 1 second), the opening of the primary side mixing valve 27 becomes high. Fixed with 100% side At the same time, the instruction for maintaining the rotational speed of the primary pump 7 at the predetermined minimum rotational speed, which has been instructed to the primary pump control means 39, is canceled, and the primary pump 7 so that the hot water supply temperature matches the hot water supply set temperature. The number of rotations is controlled.

  Further, the preheating control means 41 drives the primary pump 7 at a predetermined number of revolutions when a preheating operation during hot water supply standby in which the hot water supply flow rate sensor 33 detects less than the minimum operating flow rate (including no flow rate) is required. At the same time, the opening degree of the primary side mixing valve 27 is controlled to mix the hot water from the hot water storage tank 2 with the low and medium hot water from the recirculation pipe 26 after radiating heat from the hot water supply external heat exchanger 3. The hot water supplied to the primary side of the external heat exchanger 3 and preheated on the secondary side of the hot water supply external heat exchanger 3 is preheated to around the hot water supply set temperature, and the temperature detected by the primary inlet temperature sensor 34 becomes the hot water supply set temperature. Thus, the opening degree of the primary side mixing valve 27 is controlled.

  Here, the case where the preheating operation is required means that the control means 38 learns a time zone in which large hot water of a predetermined flow rate or more has been performed, and the current time coincides with the preheating time zone set based on the time zone. If there is an automatic bath that performs automatic warming for a predetermined time following a set amount of automatic hot water to a bathtub (not shown), the bath is likely to use a shower, or the bath For example, when hot water pouring hot water is used to pour hot water to raise the temperature, if preheating operation is not required, set the preheating operation not to be performed by remote control 37 operation in advance. Is also possible.

<Boiling operation>
At the start time of a predetermined time zone (midnight time zone) at which the power unit price is cheap, the control means 36 drives the heat pump unit 11 and the heating circulation pump 16 so as to start boiling the hot water amount corresponding to the hot water supply load amount so far. The hot water taken out from the lower part of the hot water storage tank 2 is started and heated to the set temperature.

  At this time, the control means 38 keeps the heating switching valve 25 on the heating branch pipe 24 side while the boiling temperature detected by the boiling temperature sensor 22 is lower than a predetermined temperature lower than the boiling setting temperature, and the temperature is low. When hot water is prevented from flowing in from the upper part of the hot water storage tank 2 to lower the hot water storage temperature, and the boiling temperature reaches a predetermined temperature lower than the boiling temperature, the heating switching valve 25 is placed on the upper side of the hot water tank 2. The hot water that has been boiled so as to communicate with each other is returned to the upper part of the hot water storage tank 2, and hot water at the boiling set temperature is stored in a stacked manner from the upper part of the hot water storage tank 2.

  When the lowermost hot water storage temperature sensor 36 detects a predetermined boiling end determination temperature, the control means 38 stops driving the heat pump unit 11 and the heating circulation pump 16 and ends the boiling operation.

  At this time, the hot water stored as the temperature of the hot water in the hot water tank 2 rises, and when the pressure in the hot water tank 2 exceeds the set pressure of the overpressure relief valve 30, the overpressure relief valve 30 opens. When the expanded water is drained and the pressure in the hot water storage tank 2 becomes equal to or lower than the set pressure of the overpressure relief valve 30, the overpressure relief valve 30 is closed and the drainage is stopped to keep the inside of the hot water storage tank 2 at an appropriate pressure. Yes.

  Then, the hot water stored in the hot water storage tank 2 contracts due to the natural heat dissipation of the hot water in the hot water storage tank 2 over time and the temperature drop of the hot water in the hot water storage tank 2 due to the hot water supply described later, and the pressure in the hot water storage tank 2 is reduced. When the pressure falls below the set pressure of 29, the city water flows into the hot water storage tank 2 from the refill water pipe 28 via the pressure reducing valve 29, and when the pressure in the hot water storage tank 2 becomes equal to or higher than the set pressure of the pressure reducing valve 29, The inflow of water stops and the hot water storage tank 2 is kept in a full water state at an appropriate pressure.

<Hot-water supply operation>
Next, the hot water supply operation will be described. When the hot water tap 10 is opened, city water flows into the secondary side of the hot water supply external heat exchanger 3 from the water supply pipe 8 and passes through the secondary side of the hot water supply external heat exchanger 3. The discharged hot water flows out from the hot water supply pipe 9 toward the hot water tap 10. At this time, if the hot water supply flow sensor 33 detects a predetermined minimum working water amount or more, the primary pump control means 39 will detect the water supply temperature detected by the water supply temperature sensor 31, the hot water supply set temperature set by the remote control 37, The hot water supply required heat quantity is calculated from the hot water supply flow rate detected by the hot water supply flow rate sensor 33, the temperature of the primary hot water flowing out of the hot water supply external heat exchanger 3 (estimated primary side outlet temperature) is estimated from the hot water supply temperature, and hot water storage From the hot water storage temperature detected by the hot water storage temperature sensor 36 at the uppermost part of the tank 2, the estimated primary outlet temperature, and the required hot water supply amount, the flow rate of the hot water flowing through the primary side of the hot water supply heat exchanger 3 (primary flow rate) is calculated. The primary pump 7 is started to be driven at a rotation speed (instructed rotation speed) corresponding to the calculated primary flow rate.

  When the primary pump control means 39 detects that the actual rotational speed of the primary pump 7 has reached the indicated rotational speed, it calculates a temperature deviation from the hot water set temperature and the hot water temperature detected by the hot water temperature sensor 32. The rotation speed of the primary pump 7 (instructed rotation speed) is calculated from the temperature deviation by a predetermined PI calculation, and the hot water supply temperature is controlled so that the rotation speed of the primary pump 7 becomes the instruction rotation speed. The feedback control is performed so that the hot water supply temperature is reached.

  At this time, the hot water supply temperature may exceed the hot water supply set temperature even if the primary pump 7 is driven at the minimum number of revolutions in a situation where the required hot water supply amount is small and the hot water storage temperature is high. In this case, the designated rotational speed of the primary pump 7 designated by the primary pump control means 39 is a predetermined minimum rotational speed, and the hot water temperature detected by the hot water temperature sensor 32 is a predetermined value (here, the hot water temperature setting temperature). When the primary side mixing valve control means 40 detects that the state exceeding 1 ° C.) has been continued for a predetermined time (here, 1 second), the primary side mixing valve control means 40 sets the rotation speed of the primary side pump 7 to a predetermined value. The primary pump control means 39 is instructed to maintain the minimum number of revolutions, and the opening degree of the primary side mixing valve 27 is feedback-controlled so that the hot water temperature detected by the hot water temperature sensor 32 coincides with the hot water set temperature.

  In this way, when the required hot water supply amount is small and the hot water storage temperature is high, even if the primary pump 7 is driven at the minimum number of rotations, the hot water supply temperature exceeds the hot water supply set temperature. The control means 39 maintains the indicated rotational speed of the primary pump 7 at the minimum rotational speed, and the primary mixing valve control means 40 performs the primary side mixing by a predetermined PI calculation from the temperature deviation so as to coincide with the hot water supply temperature and the hot water supply set temperature. Since the opening degree of the valve 27 is feedback-controlled, the temperature-decreasing hot water flowing out from the primary side of the hot water supply external heat exchanger 3 is recirculated to the primary side inlet of the hot water supply heat exchanger 3 through the recirculation pipe 26. Therefore, the temperature of the hot water flowing from the primary side inlet of the hot water supply external heat exchanger 3 is lowered to an appropriate temperature, and the hot water supply external heat exchanger 3 is not reduced without reducing the rotational speed of the primary pump 7 below the minimum rotational speed. Reduce the amount of heating So that it is, the hot water supply heat value demand is small, and even when the hot water storage temperature is high, it is possible to stably hot water to hot water of a desired hot water temperature setting.

  At this time, since the hot water flowing through the primary side of the hot water supply external heat exchanger 3 is used to reduce the temperature of the hot water flowing into the primary side of the hot water supply heat exchanger 3, Even in a situation where the tank 2 is entirely filled with high-temperature hot water, the heating amount of the hot water supply external heat exchanger 3 can be reduced without reducing the rotational speed of the primary pump 7 below the minimum rotational speed, Even when the required hot water supply amount is small and the hot water storage temperature is high, hot water having a desired hot water supply set temperature can be stably supplied.

  Here, after the hot water supply temperature control by the primary side mixing valve control means 40 is started, the opening degree of the primary side mixing valve 27 becomes an opening degree of 100% on the high temperature side, and the hot water supply temperature is a predetermined value (here, If the temperature of the primary side mixing valve 27 is reduced to a state where the primary side pump 7 can be controlled at a higher rotational speed than the minimum rotational speed, While the opening degree is fixed at a high temperature side of 100%, the primary pump control means 39 cancels the instruction for maintaining the rotational speed of the primary pump 7 which has been instructed to the primary pump control means 39 at a predetermined minimum rotational speed. The means 39 controls the rotational speed of the primary pump 7 so that the hot water supply temperature matches the hot water supply set temperature.

  In this way, when the required amount of hot water supply becomes large and the opening of the primary side mixing valve 27 reaches 100% on the high temperature side, the temperature of the hot water flowing into the primary side of the hot water outside heat exchanger 3 is reduced again. Since there is no circulation, the temperature rises to the original hot water temperature in the hot water storage tank 2, so that the rotation speed of the primary pump 7 is reduced and the maximum rotation speed of the primary pump 7 can be suppressed.

  When the hot water flow rate detected by the hot water flow rate sensor 33 decreases to less than the minimum working water amount due to the hot water tap 10 being closed or the like, the control means 38 stops the operation of the primary side pump 7 and the primary side mixing valve 27 to supply hot water. Exit.

  In this way, the hot water after heat dissipation flowing out from the primary side of the hot water supply heat exchanger 3 is recirculated to the primary side of the hot water supply heat exchanger 3 via the recirculation pipe 26, so that the hot water in the hot water storage tank 2 is recirculated. Even if the total amount of water is high, the temperature of the hot water supplied to the primary side of the hot water supply external heat exchanger 3 can be lowered to the temperature required for heating the hot water, and even when the required amount of hot water supply is small, Hot water at a hot water supply set temperature can be stably supplied.

<Waiting for hot water supply>
When preheating operation during hot water supply standby is required in which the hot water supply flow rate sensor 33 after the hot water supply stop detects less than the minimum operating flow rate (including no flow rate), as shown in the flowchart of FIG. More specifically, the primary side pump 7 is driven at the minimum number of rotations (step S1) and the detected temperature of the primary inlet temperature sensor 34 is specifically set to the hot water supply set temperature so as not to exceed the hot water set temperature set by the remote controller 37. The opening degree of the primary side mixing valve 27 is feedback-controlled by a predetermined PI calculation from the temperature deviation so as to match (step S2).

  At this time, the hot water having a lowered temperature flowing out from the primary side of the hot water supply heat exchanger 3 is circulated again to the primary side inlet of the hot water supply heat exchanger 3 through the recirculation pipe 26. 3 can be maintained at the hot water supply set temperature, and the amount of hot water flowing out from the hot water storage tank 2 can be reduced as compared with the case where the recirculation pipe 26 is not provided. .

  When it is detected that the primary outlet temperature of the hot water supply external heat exchanger 3 detected by the primary outlet temperature sensor 35 has risen to a temperature lower than the set hot water temperature by a constant temperature α (here, 1 ° C.) (step S3). Yes), the preheating control means 41 temporarily stops the primary pump 7 assuming that all the hot water remaining on the secondary side of the hot water supply external heat exchanger 3 is preheated to near the hot water supply set temperature (step). S4), the control of the primary side mixing valve 27 is also temporarily stopped (step S5).

  When it is detected that the temperature detected by the primary inlet temperature sensor 34 or the primary outlet temperature sensor 35 has decreased to a temperature lower than a predetermined temperature β (> α, 3 ° C. in this case) lower than the set hot water temperature by the passage of time without hot water supply ( In step S6, Yes), the primary side pump 7 is driven again (step S7), and the control of the primary side mixing valve 27 is also resumed (step S8).

  In this way, hot water from the hot water storage tank 2 and medium / low temperature hot water from the recirculation pipe 26 are mixed with the primary side of the hot water supply heat exchanger 3 and supplied to the primary side of the hot water supply heat exchanger 3. Therefore, the hot water remaining on the secondary side of the hot water supply external heat exchanger 3 can be kept near the hot water supply set temperature.

  When hot water supply is started during the preheating operation, the above-described hot water supply operation is performed. At this time, the hot water supply operation is started in the preheating operation state in which the primary pump 7 is driven. The time required to increase the rotational speed of the primary pump 7 to the flow rate on the side is shortened, and the hot water on the secondary side remaining in the hot water supply external heat exchanger 3 is preheated, and at the start of hot water supply It is possible to improve the rise of the hot water supply temperature and to suppress undershoot.

  Moreover, since the temperature of the hot water flowing into the primary side of the hot water supply external heat exchanger 3 is controlled with the hot water supply set temperature as the upper limit, the hot water remaining on the secondary side of the hot water supply heat exchanger 3 exceeds the hot water supply set temperature. Therefore, overshoot at the start of hot water supply can be suppressed.

  Thus, since the hot water supply operation is started in the preheating operation state in which the primary pump 7 is driven, the time required to increase the rotational speed of the primary pump 7 to the primary flow rate required for hot water supply. In addition to the fact that the secondary hot water remaining in the hot water supply external heat exchanger 3 is preheated, the rise in the hot water temperature at the start of hot water supply and undershoot can be suppressed, and The circulation pipe 26 can reduce the amount of hot water circulated through the hot water storage tank 2 during preheating, can suppress the consumption of hot water in the hot water storage tank 2, and can also be preheated during preheating operation. Since the opening of the primary side mixing valve 27 is adjusted so that only the amount of hot water corresponding to the required amount of heat is circulated from the hot water storage tank 2, the amount of heat consumed from the hot water storage tank 2 can be minimized. , Salary For hot water remaining in the secondary side of the external heat exchanger 3 is also suitably held near the hot water set temperature, it is those that can be stably hot water the hot water of the hot water supply set temperature from the hot water supply started early.

  In this embodiment, the primary side mixing valve 27 as the mixing ratio adjusting valve is arranged at the junction of the primary side forward pipe 5 and the recirculation pipe 26. However, the embodiment of the mixing ratio adjusting valve is not limited thereto. Instead, the primary side mixing valve 27 may be arranged at the branch point of the primary side return pipe 6 and the recirculation pipe 26, and a flow rate adjusting valve is provided in the recirculation pipe 26 instead of the primary side mixing valve 27. Alternatively, even if it is provided in either the primary-side forward pipe 5 before joining or the primary-side return pipe 6 after branching and the recirculation pipe 26, it is equivalent to the primary-side mixing valve 27 of this embodiment. The action can be exhibited.

  Moreover, although the rotation speed of the primary side pump at the time of a preheating operation was demonstrated as the minimum rotation speed, it is not restricted to this, It has turned out that large hot water will be immediately discharged | emitted at the time of the hot water primary stop etc. in a hot water bath. During hot water standby in the state, the rotation speed of the primary pump during the preheating operation may be set to a rotation speed larger than the minimum rotation speed. In this case, the rise of the primary flow rate at the time of restarting large hot water is improved compared to the minimum rotation speed. In addition, the rising property of the hot water supply temperature can be further improved.

  In addition, this invention is not limited to the said one Embodiment, It can modify | change within the range which does not change the summary of invention, For example, a heating means is not restricted only to the heat pump unit 11, For example, by cogeneration Exhaust heat, solar heat, or an electric heater may be used as the heating means.

DESCRIPTION OF SYMBOLS 2 Hot water storage tank 3 Hot water supply external heat exchanger 3a Primary side inlet 3b Primary side outlet 3c Secondary side inlet 3d Secondary side outlet 5 Primary side forward pipe 6 Primary side return pipe 7 Primary side pump 8 Water supply pipe 9 Hot water supply pipe 11 Heat pump unit (Heating means)
26 Recirculation pipe 27 Primary side mixing valve (mixing ratio adjustment valve)
41 Preheating control means

Claims (5)

Hot water storage tank for storing hot water, heating means for heating the hot water in the hot water storage tank, and hot water outside heat exchange for supplying hot water by heating the running water on the secondary side using the hot water in the hot water tank circulating in the primary side as a heat source A primary side forward pipe connecting the upper part of the hot water storage tank and the primary inlet of the hot water supply external heat exchanger, and a primary return pipe connecting the primary outlet of the hot water supply external heat exchanger and the hot water storage tank A primary side pump provided in the middle of the primary side return pipe to circulate hot water in the hot water storage tank to a primary side of the hot water supply external heat exchanger, and connected to a secondary side inlet of the hot water supply external heat exchanger In the hot water storage type hot water heater comprising a hot water supply pipe, a hot water supply pipe connected to a secondary outlet of the hot water supply external heat exchanger, and a hot water supply flow rate sensor for detecting a hot water supply flow rate , the downstream side of the primary pump Branching from the primary return pipe of the primary side A recirculation pipe connected to a primary pipe to join hot water from a downstream side of the primary pump to the primary side of the hot water supply external heat exchanger, and a recirculation pipe flowing into the primary side of the hot water supply external heat exchanger A mixing ratio adjustment valve that adjusts the mixing ratio of hot water and hot water from the primary-side forward pipe, and driving the primary pump during hot water standby when the hot-water supply flow sensor detects less than the minimum operating flow rate. Preheating to maintain the temperature of the hot water remaining on the secondary side of the hot water supply external heat exchanger by controlling the mixing ratio adjustment valve so as to mix the hot water from the recirculation pipe with the hot water from the primary side forward pipe A hot water storage type hot water supply apparatus provided with preheating control means for performing operation.   The hot water storage type hot water supply according to claim 1, wherein the preheating control means controls the mixing ratio adjusting valve so that a primary side inlet temperature of the hot water supply external heat exchanger does not exceed the target temperature. Machine.   2. The hot water storage type hot water heater according to claim 1, wherein the preheating control means controls the mixing ratio adjusting valve so that a primary side inlet temperature of the hot water supply external heat exchanger becomes the target temperature. .   2. The preheating control means is configured to temporarily stop the primary pump when the primary side outlet temperature of the hot water supply external heat exchanger rises to a temperature lower than the target temperature by a constant temperature α. Or the hot water storage type hot water supply apparatus of 2.   The preheating control means, after temporarily stopping the primary side pump, when the primary side inlet temperature or the primary side outlet temperature of the hot water supply heat exchanger decreases to a temperature lower than the target temperature by a constant temperature β (> α), 5. The hot water storage type hot water heater according to claim 4, wherein the driving of the primary side pump is resumed.

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