JP2009144934A - Hot-water supply apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot-water supply apparatus capable of identifying whether a connected heating unit has a heating capability applicable to a tank unit or not in a case of replacing only the heating unit or the tank unit. <P>SOLUTION: On the basis of model data of a heat pump unit 10 having the heating capability applicable to the tank unit 20, stored in a main control part 70, whether the heating pump unit 10 connected to the tank unit 20 has such heating capability or not can be identified. This prevents the tank unit 20 and the heat pump unit 10 not having such heating capability applicable to the tank unit 20, from being delivered to a user, thereby preventing occurrence of after-delivery failure caused by the lack of the heating capability. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a hot water supply apparatus including a heating unit that heats water and a tank unit that stores hot water heated by the heating unit.

Conventionally, as this type of hot water supply apparatus, one having a heating unit for heating water and a tank unit for storing hot water heated in the heating unit is known (for example, see Patent Document 1).
JP 2007-240151 A

  In the conventional hot water supply device, the combination of the heating unit and the tank unit can be operated only by a combination of specific models, and it is not possible to replace one of the heating unit and the tank unit with a heating unit or a tank unit of a different model. could not. Therefore, it is conceivable to connect a heating unit of a model that does not correspond to each other and a tank unit. However, since the heating unit has a different heating capacity depending on the model, a heating unit that does not have a heating capability corresponding to the tank unit is used in the tank. When connected to the unit, it may not be possible to supply the required amount and temperature of hot water.

  An object of the present invention is to provide a hot water supply apparatus that can identify whether or not a connected heating unit has a heating capacity that can be used for the tank unit when only one of the heating unit and the tank unit is replaced. There is to do.

  In order to achieve the above-mentioned object, the present invention provides a heating unit having a heating capacity capable of accommodating a tank unit in a hot water supply apparatus including a heating unit for heating water and a tank unit for storing hot water heated in the heating unit. It is possible to identify whether the heating unit connected to the tank unit has the heating capability that can be used for the tank unit based on the storage unit that stores the model data of the unit and the model data of the heating unit stored in the storage unit Identification means.

  As a result, it is identified whether or not the heating unit connected to the tank unit is a model having a heating capability compatible with the tank unit. Delivery to the user is prevented.

  In order to achieve the object, in a hot water supply apparatus including a heating unit for heating water and a tank unit for storing hot water heated in the heating unit, by operating the heating unit connected to the tank unit. , A capacity measuring means for measuring the heating capacity of the heating unit, and a heating capacity capable of handling the heating unit connected to the tank unit when the heating capacity of the heating unit measured by the capacity measuring means exceeds a predetermined value And an identification means for identifying as a heating unit.

  As a result, it is identified whether or not the heating unit connected to the tank unit has a heating capacity compatible with the tank unit. Therefore, the use of the heating unit that does not have the heating capacity compatible with the tank unit and the tank unit is used. Delivery to the person is prevented.

  According to the present invention, since it is possible to prevent delivery of a tank unit and a heating unit that does not have a heating capacity that can be used to the tank unit to a user, occurrence of problems after delivery due to insufficient heating capacity. Can be prevented.

  1 and FIG. 2 show a first embodiment of the present invention, FIG. 1 is a schematic configuration diagram of a hot water supply apparatus, and FIG. 2 is a flowchart showing the operation of a control unit when a heat pump unit is connected to a tank unit. .

  This hot water supply apparatus supplies water to the heat pump unit 10 for heating water using electric power, the tank unit 20 for storing hot water heated by the heat pump unit 10, and the tank unit 20, the bathroom, and the kitchen. Water supply pipe 30, a hot water supply pipe 40 for supplying hot water stored in the tank unit 20 to the bathroom and kitchen, and a first circulation circuit for circulating water between the heat pump unit 10 and the tank unit 20. 50 and a second circulation circuit 60 for circulating water in the bathtub 61 between the tank unit 20 and the bathtub 61 in the bathroom. This hot water supply apparatus stores hot water heated in the heat pump unit 10 in the tank unit 20 and supplies the hot water stored in the tank unit 20 as warm water for washing in the kitchen or hot water for bathing in the bathroom. It is supplied as a heat source for reheating hot water stored in the bathtub 61.

  The heat pump unit 10 includes an electric compressor 11, a gas cooler 12, an expansion valve 13, and an evaporator 14, and a refrigerant circuit 10a is configured by sequentially connecting them with a pipe made of copper or stainless steel. In addition, the refrigerant circuit 10a is filled with carbon dioxide that is in a supercritical state on the high-pressure side as a refrigerant. The gas cooler 12 is a refrigerant-water heat exchanger, and the flow path on the water side is a part of the first circulation circuit 50. The evaporator 14 is a refrigerant-air heat exchanger, and in the vicinity thereof, a blower 14a for circulating air to exchange heat with the refrigerant is provided.

  The tank unit 20 includes a hot water storage tank 21, a hot water heat exchanger 22 for exchanging heat between the water in the bathtub 61 flowing through the second circulation circuit 60 and the hot water in the hot water storage tank 21, and the hot water storage tank 21. And a third circulation circuit 23 for circulating hot water between the heat exchanger 22 for use.

  The hot water storage tank 21 is made of stainless steel, fiber reinforced plastic (FRP), or the like, and is covered with a heat insulating material such as glass wool, urethane foam, or a vacuum heat insulating material in order to suppress heat dissipation of the stored hot water. The hot water storage tank 21 is a 370 liter tank in this embodiment.

  The additional heat exchanger 22 is a water-water heat exchanger, and one flow path is a part of the second circulation circuit 60 and the other flow path is a part of the third circulation circuit 23. It has become.

  The third circulation circuit 23 is configured by connecting an upper part of the hot water storage tank 21, a heat exchanger 22 for additional cooking, a circulation pump 23 a, and a lower part of the hot water storage tank 21 by a copper pipe or a stainless steel pipe. The hot water in the upper part of the hot water storage tank 21 flows through the reheating heat exchanger 22 and returns to the lower part of the hot water storage tank 21.

  The water supply pipe 30 includes a first water supply pipe 31 connected to the lower part of the hot water storage tank 21, a second water supply pipe 32 connected to the hot water supply pipe 40, and a third water supply pipe connected to the faucet A in the bathroom and kitchen. 33. The water supply pipe 30 upstream of the first water supply pipe 31, the second water supply pipe 32, and the third water supply pipe 33 is provided with a pressure reducing valve 30a for reducing the water supplied from the water supply to a predetermined pressure and circulating it. It has been.

  The hot water supply pipe 40 has one end connected to the upper part of the hot water storage tank 21, and the other end connected to the first mixing valve 40 a and the second mixing valve for mixing the hot water in the hot water storage tank 21 and the water flowing through the second water supply pipe 32. The first hot water supply pipe 41 connected to 40b, one end side connected to the first mixing valve 40a, the other end side connected to the bathroom and kitchen faucet A, and one end side the second mixing valve The third hot water supply pipe 43 is connected to the second circulation circuit 60 at the other end. The hot water in the upper part of the hot water storage tank 21 flows through the hot water supply pipe 40 by the pressure of the water flowing into the hot water storage tank 21 from the first water supply pipe 31. The third hot water supply pipe 43 is provided with an electromagnetic valve 43a for opening and closing the flow path.

  The first circulation circuit 50 is configured by connecting the lower part of the hot water storage tank 21, the circulation pump 51, the gas cooler 12, and the upper part of the hot water storage tank 21 in order by a copper pipe, a stainless steel pipe, a crosslinked polyethylene pipe or the like. The water in the lower part of the tank 21 flows through the gas cooler 12 and flows into the upper part of the hot water storage tank 21.

  The second circulation circuit 60 is configured by connecting the bathtub 61, the circulation pump 62, the additional heat exchanger 22, and the bathtub 61 in order by a copper pipe stainless pipe or a crosslinked polyethylene pipe. Hot water circulates through the additional heat exchanger 22 and is returned to the bathtub 61.

  The hot water supply device is provided in the tank unit 20 and is provided in the main control unit 70 for controlling the operation and the heat pump unit 10. The signal of the main control unit 70 is received to control the operation of the heat pump unit 10. A heat pump control unit 80, a kitchen remote controller 71 and a bathroom remote controller 72, which are provided in the kitchen and bathroom, respectively, for performing operation and setting.

  The main control unit 70 is constituted by a microcomputer, and a memory as its storage means stores programs such as operation operation, operation mode setting, etc., and a model of the heat pump unit 10 that can correspond to the tank unit 20 The information such as the data is stored. Further, the main control unit 70 can communicate with the heat pump control unit 80 by a first communication method or a second communication method that are different from each other, such as a difference in data amount that can be communicated.

  The heat pump control unit 80 is connected to the main control unit 70 via a communication cable and receives a signal generated from the main control unit 70 so as to control the operation of devices such as the compressor 11 and the blower 14a of the heat pump unit 10. It has become. In addition, the heat pump control unit 80 transmits the model data of the heat pump unit 10 to the main control unit 70 in response to the operation state of the heat pump unit 10 and a signal generated from the main control unit 70.

  The remote controller 71 for kitchen and the remote controller 72 for bathroom are each connected to the main control unit 70 by a communication cable, and set a switch relating to operation such as supply of hot water to the bathtub 61 and additional cooking, and the temperature of the supplied hot water. A plurality of switches 71a and 72a, such as a temperature setting switch for switching, a priority switch for switching the priority between the remote controller for kitchen and the remote controller for bathroom, a call switch for talking between the kitchen and the bathroom, and the operating state and set temperature Etc., and display portions 71b and 72b.

  In the hot water supply apparatus configured as described above, a boiling operation for heating water using late-night power or a boiling operation for additionally heating water when the amount of remaining hot water in the hot water storage tank 21 falls below a predetermined amount. When performing, the compressor 11, the air blower 14a, and the circulation pump 51 are operated. As a result, the refrigerant discharged from the compressor 11 flows through the gas cooler 12 and radiates heat, then flows into the evaporator 14 via the expansion valve 13, absorbs heat, and is sucked into the compressor 11. The water in the lower part of the hot water storage tank 21 flows through the first circulation circuit 50 by the circulation pump 51, is heated by exchanging heat with the refrigerant in the gas cooler 12, and is stored on the upper side of the hot water storage tank 21. When hot water having a preset temperature is stored in the hot water storage tank 21, the compressor 11, the blower 14a, and the circulation pump 51 are stopped.

  In the boiling operation, depending on the operation mode, the temperature of the hot water stored in the hot water storage tank 21 is set in the range of 65 ° C. to 90 ° C., and the amount of the hot water stored in the hot water storage tank 21 is set in the range of 370 l to 320 l. It has become. Further, in the boiling increase operation, the temperature of the hot water stored in the hot water storage tank 21 is set to the set temperature at the previous boiling operation.

  Moreover, the hot water supplied from the faucet A in the kitchen or bathroom is mixed with the water flowing through the first hot water supply pipe 41 through the first hot water supply pipe 41 and the second hot water supply pipe 32 in the first mixing valve 40a. Then, the hot water becomes the set temperature set in the kitchen remote controller 71 or the bathroom remote controller 72 and is supplied by circulating through the second hot water supply pipe 42.

  The hot water supplied when hot water is stored in the bathtub 61 is mixed with the water flowing through the first hot water supply pipe 41 through the first hot water supply pipe 41 and the second water supply pipe 32 in the second mixing valve 40b. Then, it becomes hot water having a set temperature set in the kitchen remote controller 71 or the bathroom remote controller 72 and is supplied by circulating through the third hot water supply pipe 43 and the second circulation circuit 60.

  Further, in the additional cooking operation, by operating the circulation pumps 23 a and 62, the hot water in the bathtub 61 is circulated through the second circulation circuit 60, and the hot water in the hot water storage tank 21 is circulated through the third circulation circuit 23. Thus, the hot water in the bathtub 61 is heated by exchanging heat with the hot water in the upper part of the hot water storage tank 21 in the additional heat exchanger 22 and returned to the bathtub 61.

  The operation of the main controller 70 when the heat pump unit 10 and the tank unit 20 are installed for the first time or when only one of the heat pump unit 10 and the tank unit 20 is replaced due to a failure or the like will be described with reference to the flowchart of FIG. .

  First, initialization is performed (step S1). When initialization is normally performed (step S2), the heat pump unit 10 is energized (step S3), and the transmission of the model data of the heat pump unit 10 is performed by the first communication method. The control unit 80 is requested (step S4). At this time, if initialization is not performed normally (step S2), a warning is displayed on the display units 71b, 72b, etc. as an abnormality on the tank unit 20 side (step S5), and the operation is stopped (step S6). ). When a model data signal is received from the heat pump control unit 80 (step S7) and it is determined that the model of the heat pump unit 10 obtained from the received signal is compatible with the tank unit 20 (step S8), the heat pump unit 10 The control constant corresponding to the model is set (step S9). If it is determined that the model of the heat pump unit 10 obtained from the received signal is incompatible with the tank unit 20 (step S8), a warning that the heat pump unit 10 is incompatible is displayed on the tank unit 20 ( Step S10), the operation is stopped (step S11). When the model data signal of the heat pump unit 10 cannot be received by the first communication method (step S7), the heat pump control unit 80 is requested to transmit the model data of the heat pump unit 10 by the second communication method (step S12). ). Thereby, when the model data signal from the heat pump control unit 80 is received (step S13), the communication method is set to the second communication method (step S14), and the model data signal from the heat pump control unit 80 cannot be received. (Step S13), a warning that the communication method is not compatible is displayed (step S15), and the operation is stopped (step S16). Further, when it is determined that the model of the heat pump unit 10 obtained from the received signal is compatible with the tank unit 20 (step S17), a control constant corresponding to the model of the heat pump unit 10 is set (step S18). . When it is determined that the model of the heat pump unit 10 obtained from the received signal is incompatible with the tank unit 20 (step S17), a warning that the heat pump unit 10 is incompatible is displayed on the tank unit 20 ( In step S19, the operation is stopped (step S20).

  Thus, according to the hot water supply apparatus of the present embodiment, the hot water supply device connected to the tank unit 20 based on the model data of the heat pump unit 10 having the heating capability capable of handling the tank unit 20 stored in the main control unit 70. Since the heat pump unit 10 is identified as to whether or not the tank unit 20 has a heating capability, the tank unit 20 and a user of the heat pump unit 10 that does not have a heating capability corresponding to the tank unit 20 can be provided. Delivery can be prevented, and occurrence of problems after delivery due to insufficient heating capacity can be prevented.

  3 and 4 show a second embodiment of the present invention, FIG. 3 is a schematic configuration diagram of a hot water supply device, and FIG. 4 is a flowchart showing an operation of a control unit when a heat pump unit is connected to a tank unit. . In addition, the same code | symbol is attached | subjected and shown to the component similar to the said embodiment.

  The heat pump controller 80 of the water heater is discharged from the compressor 11, the first temperature detector 81 for detecting the temperature of the hot water flowing out from the gas cooler 12 of the first circulation circuit 50, and the compressor 11 of the refrigerant circuit 10a. A second temperature detector 82 that detects the temperature of the refrigerant is connected, and signals of the compressor 11, the first temperature detector 81, and the second temperature detector 82 are transmitted to the main controller 70. .

  In the hot water supply apparatus configured as described above, when the heat pump unit 10 and the tank unit 20 are installed for the first time, or when only one of the heat pump unit 10 and the tank unit 20 is replaced due to a failure or the like, the operation of the main control unit 70 is performed. This will be described with reference to the flowchart of FIG.

  First, initialization is performed (step S31). When initialization is normally performed (step S32), the heat pump unit 10 is energized (step S33), and an operation instruction is issued to the heat pump unit 10 (step S34). At this time, if initialization is not performed normally (step S32), a warning is displayed on the display units 71b, 72b, etc. as an abnormality on the tank unit 20 side (step S35), and the operation is stopped (step S36). ). Next, the operation of the compressor 11 is confirmed (step S37), the detected temperature T1 of the first temperature detector 81 detects a predetermined temperature T1s or more (step S38), and the detected temperature T2 of the second temperature detector 82 is When a temperature equal to or higher than the predetermined temperature T2s is detected (step S39), the heating capacity of the heat pump unit 10 is calculated based on the detected temperature T1 of the first temperature detector 81 and the detected temperature T2 of the second temperature detector (step S40). The display unit 71b, 72b or the like displays the fact that the heat pump unit 10 that can be handled and the calculated capacity are displayed (step S41), and stops the operation of the heat pump unit 10 (step S42). Here, when the operation of the compressor 11 cannot be confirmed (step S37), when the detected temperature T1 of the first temperature detector 81 is lower than the predetermined temperature T1s (step S38), or the detected temperature T2 of the second temperature detector 82 is When the temperature is lower than the predetermined temperature T2s (step S39), a warning that the connected heat pump unit 10 is not available is displayed (step S43), and the operation of the heat pump unit 10 is stopped (step S44).

  Here, regarding calculation and display of the heating capacity of the heat pump unit 10, an operation mode (for example, water temperature: 80 ° C., amount of hot water: 370 l, etc.) corresponding to the maximum capacity of the heat pump unit 10 is calculated and the display units 71 b, 72 b, etc. To display.

  Thus, according to the hot water supply apparatus of the present embodiment, the heating capacity of the heat pump unit 10 is measured by operating the heat pump unit 10 connected to the tank unit 20, and when the measured heating capacity is equal to or greater than a predetermined value, Since the heat pump unit 10 connected to the tank unit 20 is identified as the heat pump unit 10 that can correspond to the tank unit 20, the use of the heat pump unit 10 that does not have the heating capability that can correspond to the tank unit 20 and the tank unit 20. Delivery to a person can be prevented, and the occurrence of problems after delivery due to insufficient heating capacity can be prevented.

  In addition, when the heating capacity of the heat pump unit 10 is insufficient, a warning is displayed on the display units 71b, 72b, etc., so that it is output that the heat pump unit 10 connected to the tank unit 20 is insufficient in heating capacity. This makes it possible to reliably prevent construction mistakes.

  In addition, since the operation mode corresponding to the maximum capacity of the connected heat pump unit 10 is displayed on the display units 71b, 72b, etc., the heating capacity of the connected heat pump unit 10 can be easily grasped, and the user This makes it possible to replace the heat pump unit 10.

Schematic block diagram of a hot water supply apparatus showing a first embodiment of the present invention Flow chart showing the operation of the controller when connecting the heat pump unit to the tank unit The schematic block diagram of the hot water supply apparatus which shows 2nd Embodiment of this invention. Flow chart showing the operation of the controller when connecting the heat pump unit to the tank unit

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Heat pump unit, 20 ... Tank unit, 70 ... Control part, 71 ... Remote control for kitchens, 71b ... Display part, 72 ... Remote control for bathrooms, 72b ... Display part, 80 ... Heat pump control part.

Claims (4)

In a hot water supply apparatus comprising a heating unit for heating water and a tank unit for storing hot water heated in the heating unit,
Storage means for storing model data of a heating unit having a heating capacity compatible with the tank unit;
And an identification unit capable of identifying whether or not the heating unit connected to the tank unit has a heating capacity compatible with the tank unit based on the model data of the heating unit stored in the storage unit. A water heater. In a hot water supply apparatus comprising a heating unit for heating water and a tank unit for storing hot water heated in the heating unit,
A capability measuring means for measuring the heating capability of the heating unit by operating the heating unit connected to the tank unit;
An identification means for identifying a heating unit connected to the tank unit as a heating unit having a heating capacity compatible with the tank unit when the heating capacity of the heating unit measured by the capacity measuring means is equal to or greater than a predetermined value Hot water supply device characterized by. The hot water supply apparatus according to claim 2, further comprising warning means for giving a warning when the heating capacity of the heating unit measured by the heating capacity measuring means is equal to or less than a predetermined heating capacity. The hot water supply apparatus according to claim 2 or 3, further comprising display means for displaying a possible operation mode according to the heating capacity of the heating unit measured by the heating capacity measuring means.

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