JP4513754B2 - Hybrid hot water supply system - Google Patents

Description

  The present invention relates to a hybrid hot water supply system that combines a heat pump water heater and a solar water heater.

  2. Description of the Related Art Conventionally, as a hot water supply system combining a heat pump water heater and a solar water heater, a hybrid hot water supply system as shown in FIG.

  The hybrid hot water supply system 11 includes a solar water heater 13, a heat pump water heater 15, and a hot water supply switching device 17. The solar water heater 13 has a first hot water storage tank 19. The first hot water storage tank 19 includes a water supply pipe 21 that supplies room temperature water and a first hot water supply pipe 23 that discharges heated hot water. Is connected. A heat exchanger 25 is disposed in the hot water storage tank 19, and this heat exchanger 25 constitutes a circulating water circuit 31 together with a pump 27 and a solar heat collector 29. As the heat medium circulates, the heat medium heated by the solar heat collector 29 heats the water in the first water storage tank 19 through the heat exchanger 25. The heat pump water heater 15 has a second hot water storage tank 33. The second hot water storage tank 33 has a water supply pipe 21 for supplying room temperature water and a second hot water supply pipe 35 for discharging heated hot water. Is connected. Further, a heat pump 37 as a heat source is connected to the second hot water storage tank 33 via a pipe 39 so as to heat the water in the second hot water storage tank. The hot water supply switching device 17 is connected to the first hot water supply piping 23 and the second hot water supply piping 35. The hot water switching device 17 includes a first switching valve 41 and a second switching valve, respectively. A valve 43 is provided. After passing through the first switching valve 41 and the second switching valve 43, the first hot water piping 23 and the second hot water piping 35 join together to become a third hot water piping 45. A water supply pipe 21 for supplying room temperature water is connected via a third switching valve 47. Further, a control device 49 is provided in the hot water supply switching device 17. The control device 49 includes a pump 27, a temperature sensor 51 provided in the first hot water storage tank 19, a temperature sensor 53 provided in the second hot water storage tank 33, a heat pump 37, a first switching valve 41, a second The changeover valve 43 and the third changeover valve 47 are connected to control the entire hybrid hot water supply system 11.

  In such a hybrid hot water supply system 11, when the control valve 49 switches the switching valves 41, 43, 47, there is sunshine, and when the water in the first hot water storage tank is hot, the hot water in this hot water storage tank. When the temperature in the first hot water storage tank is low without sunshine at night or the like, the hot water in the second hot water storage tank is supplied to perform energy saving and low cost hot water supply.

  However, since the hybrid hot water supply system 11 has a hot water supply switching device 17 in addition to the solar water heater 13 and the heat pump water heater 15, this leads to an increase in cost and requires a wider installation space. And Moreover, the piping of the solar water heater 13 and the heat pump type hot water heater 15 must be connected to the hot water supply switching device 17, resulting in a problem that workability is lowered.

JP-A-2005-134077

  An object of the present invention is to provide a hybrid hot water supply system that can be installed even in a narrow space at low cost and has excellent workability.

  In order to solve the above problems, a solar heat collector (79), a first hot water storage tank (67) for storing hot water heated by the solar heat collector (79), and the first hot water storage tank (67) A first hot water circuit (71) for taking out hot water from the solar water heater (65), a heat source device (85) using a heat pump cycle, and a first hot water heated by the heat source device (85). 2 hot water storage tanks (81), a high temperature water hot water discharge circuit (87) connected to the upper part of the second hot water storage tank (81) and used to discharge hot high temperature water, and the second hot water storage tank (81). And a second hot-water supply circuit (89) connected to the junction of the intermediate-temperature hot-water supply circuit (89) and the hot-water hot-water supply circuit (87). 91) and the hot water provided at the confluence A heat pump water heater having a first valve (93) for discharging at least one of the hot water of the hot water circuit (87) and the medium hot water of the intermediate hot water hot water circuit (89) to the second hot water circuit (91). (63), the first hot water circuit (71) is connected to the middle hot water hot water circuit (89), and the second hot water storage tank is connected to the connecting portion. Means provided with a second valve (95) for supplying at least one of the warm water from (81) and the warm water from the first hot water circuit (71) to the first valve (93). Can be adopted.

  According to this means, there is no need for a separate hot water supply switching device for switching hot water from the solar water heater (65) and hot water from the heat pump water heater (63), so it can be installed in a small space at a low cost. An excellent hybrid hot water supply system can be provided.

  In order to solve the above problem, the first hot water circuit (71) is provided with a temperature sensor (97) for measuring the temperature of the hot water in the first hot water circuit (71). 97) Based on the temperature information from 97) and the set temperature of the user, the first valve (93) and the second valve (95) are switched to mix hot water and supply hot water at a desired temperature. Means provided with the device (103) can be employed. According to this means, the hot water in the first hot water storage tank (67) and the second hot water storage tank (81) are automatically mixed based on the temperature measurement result of the hot water from the first hot water storage tank (67). Desired hot water can be provided, and convenience as a water heater can be improved.

  Moreover, in order to solve the said subject, the water supply circuit (69) which supplies normal temperature water is connected in the middle of the said 2nd hot water circuit (91), The 3rd valve (101) was provided in this connection part, The control device (103) can also provide means configured to switch the third valve (101) to supply hot water of a desired temperature. Therefore, according to this means, hot water having a desired temperature can be easily provided even in the hot water supply in the summer when the temperature of the hot water storage tank on the solar water heater side tends to be high.

  The following embodiments of the present invention will be described with reference to FIG.

  FIG. 1 shows a hybrid water heater 61 according to the present invention. The hybrid water heater 61 includes a heat pump water heater system 63 and a solar water heater 65. The solar water heater 65 has a first hot water storage tank 67. A water supply pipe 69 is connected to the bottom of the first hot water storage tank 67 so that room temperature water is appropriately supplied into the tank. The first hot water storage tank 67 is connected to a first hot water discharge pipe 71 so that heated hot water is discharged. A heat exchanger 73 for heating the water in the first hot water storage tank is disposed below the first hot water storage tank 67. The heat exchanger 73 is connected to a pump 77 and a solar heat collecting panel 79 by a circulation pipe 75, and the circulating liquid is transferred to the heat exchanger 73, the pump 77, the solar heat collecting panel 79, and the heat exchanger 73 by the pump 77. It is comprised so that it may recirculate in order. The circulating liquid heated to a high temperature by the solar heat collecting panel 79 passes through the heat exchanger 73 to heat the water in the first hot water storage tank 67.

  On the other hand, the heat pump water heater system 63 has a second hot water storage tank 81. A heat pump unit 85 as a heat source is connected to the second hot water storage tank 81 through a pipe 83 so as to heat the water in the second hot water storage tank 81.

  A water supply pipe 69 that supplies room temperature water is connected to the bottom of the second hot water storage tank 81. In addition, a high-temperature water discharge pipe 87 is connected to the upper part of the second hot water storage tank 81 so that the hot water collected at the upper part of the second hot water storage tank 81 is taken out. Further, an intermediate temperature hot water discharge pipe 89 is connected to the middle of the second hot water storage tank 81 in the vertical direction, and the intermediate temperature water staying in the middle of the second hot water storage tank 81 is taken out. . The high-temperature water discharge pipe 87 extending from the upper part of the second hot water storage tank 81 and the intermediate-temperature water discharge pipe 89 extending from the middle merge to form a second discharge pipe 91, and a first valve 93 is provided at the junction. Is provided. The first valve 93 is configured to discharge at least one of the high-temperature water in the high-temperature water discharge pipe 87 and the medium-temperature water in the medium-temperature water discharge pipe 89 to the second discharge pipe.

  In such a configuration, the first hot water supply pipe 71 is connected to the middle of the intermediate temperature hot water supply pipe 89, and a second valve 95 is provided at this connection point. The second valve 95 is configured to supply at least one of hot water from the hot water outlet hot water pipe 89 and hot water from the first hot water outlet pipe 71 to the first valve 93.

  A temperature sensor 97 and a flow rate counter 99 are provided on the upstream side of the second valve 95 of the first outlet pipe 71. The temperature sensor 97 measures the temperature of the hot water from the first hot water storage tank 67. As will be described later, whether the hot water from the first hot water storage tank 67 is used based on this temperature or the second hot water storage tank 81. It is judged whether to use hot water from. Further, the flow rate counter 99 is for measuring the flow rate of hot water in the first tap water piping 71, and can calculate the amount of heat passing by multiplying it with the temperature of the hot water by the temperature sensor 99. A water supply pipe 69 for supplying room temperature water is connected to the middle of the second hot water supply pipe 91, and a third valve 101 is provided at the connection point. This is for lowering the temperature of the hot water to a predetermined temperature when the temperature of the hot water passing through the first valve 93 is higher than the required temperature.

  The second hot water storage tank 81 is provided with a control device 103. This control device 103 is connected to a temperature sensor 97, a flow rate counter 99, a first valve 93, a second valve 95, and a third valve 101 so as to be able to transmit information, and the required temperature for hot water supply and the first hot water storage. In consideration of the temperature and amount of hot water from the tank, the first to third valves are switched to supply hot water at the required temperature.

  Next, the operation of the hybrid water heater 61 will be described.

  In the solar water heater 65, room temperature water is stored in the first hot water storage tank 67 through the water supply pipe 69. The circulating liquid heated by the solar heat collecting panel is circulated by the pump 77 and heats the water stored in the first hot water storage tank by the heat exchanger 73. Thus, hot water heated by solar heat is stored in the first hot water storage tank 67.

  On the other hand, in the heat pump water heater system 63, room temperature water is stored in the second hot water storage tank 81 through the water supply pipe 69. Further, the water in the second hot water storage tank 81 is heated by the heat pump 85 connected to the second hot water storage tank 81. Thus, heated hot water is stored in the second hot water storage tank 81.

  When hot water is stored in the first hot water storage tank 67 and the second hot water storage tank 81 as described above and the user requests hot water supply by specifying a predetermined temperature, the request is transmitted to the control device 103. The The hybrid water heater operates as follows.

  First, when the hot water temperature in the first hot water piping measured by the temperature sensor 97 is equal to or higher than the hot water supply specified temperature, the control device 103 causes the hot water in the first hot water storage tank 67 to pass through the second valve 95 and the first hot water. The first valve 93, the second valve 95, and the third valve 101 are switched so that the water enters the second hot water piping through the valve 93 and normal temperature water is added by the third valve to reach the specified hot water supply temperature. . By doing in this way, only the hot water made with the solar water heater 65 is used, without using the hot water made with the heat pump 85, and an energy cost is reduced.

  Next, when the hot water temperature in the first hot water supply pipe 71 measured by the temperature sensor 97 is 30 ° C. or more below the specified hot water supply temperature, the controller 103 causes the hot water in the first hot water storage tank 67 to be The first valve 93, the third valve 95, and the third valve 101 are passed through the valve 95 so that hot water from the high-temperature water discharge circuit 87 is added by the first valve 93 so that the hot water supply specified temperature is reached. Switch. By doing in this way, the hot water made with the solar water heater 65 is used as much as possible, and an energy cost is reduced.

  Furthermore, when the hot water temperature in the 1st hot water piping 71 measured by the temperature sensor 97 is 30 degrees C or less, the control apparatus 103 stops supply of the hot water from the 1st hot water storage tank 67, and 2nd The first valve 93, the second valve 95, and the third valve 101 are switched so that medium temperature water and high temperature water from the hot water storage tank 81 are mixed and discharged.

  Thus, in this hybrid hot water supply device 61, the first hot water discharge pipe 71 is connected to the middle hot water hot water supply circuit 89, and the hot water and the first hot water from the first storage tank 67 are connected to this connecting portion. Since the second valve 95 for supplying at least one of hot water from the pipe 71 to the first valve 93 is provided, it is necessary to separately provide a hot water supply switching device in addition to the solar water heater and the heat pump water heater. Therefore, the cost can be reduced and the installation space can be reduced. Moreover, the effort which connects the piping of a solar water heater and a heat pump type water heater to a hot water supply switching device can be saved, and workability can be improved.

  In the hybrid hot water supply apparatus 61, a temperature sensor 97 that measures the temperature of the hot water in the first hot water supply pipe 71 is provided in the first hot water supply pipe 71, and based on temperature information from the temperature sensor 97. In addition, since the controller 103 is provided to supply hot water by switching the first valve 93 and the second valve 95 to mix the hot water in the first hot water storage tank 67 and the second hot water storage tank 81, the temperature of the user Optimal hot water can be supplied according to demand, and the performance as a water heater can be improved.

The block diagram which shows the hybrid hot-water supply apparatus which is one embodiment of this invention. The block diagram which shows the conventional hybrid hot-water supply apparatus.

Explanation of symbols

61 Hybrid Water Heater 63 Heat Pump Water Heater System 65 Solar Water Heater 67 First Hot Water Tank 71 First Hot Water Pipe 79 Solar Heat Collection Panel 81 Second Hot Water Tank 85 Heat Pump Unit 87 Hot Water Hot Water Pipe 89 Medium Hot Water Hot Water Pipe 91 Second hot water piping 93 First valve 95 Second valve 97 Temperature sensor 101 Third valve 103 Control device

Claims (3)

Solar collector (79),
A first hot water storage tank for storing hot water heated by the solar heat collector (79) (67);
A first hot water circuit (71) for taking out hot water from the first hot water storage tank (67);
A solar water heater (65) having:
A heat source device (85) using a heat pump cycle;
A second hot water storage tank (81) for storing hot water heated by the heat source device (85);
A high-temperature water discharge circuit (87) connected to the upper part of the second hot water storage tank (81) and discharging hot hot water;
An intermediate hot water hot water circuit (89) connected to an intermediate portion of the second hot water storage tank (81) and for discharging hot water;
A second hot water circuit (91) connected to the confluence of the medium hot water hot water circuit (89) and the high temperature water hot water circuit (87);
A first valve that is provided at the junction point and discharges at least one of high-temperature water from the high-temperature water tap circuit (87) and medium-temperature water from the medium-temperature water tap circuit (89) to the second tap circuit (91). (93)
A heat pump water heater (63) having
(61) in a hybrid hot water supply system equipped with
The first hot water circuit (71) is connected in the middle of the intermediate hot water hot water circuit (89), and the intermediate hot water from the second hot water storage tank (81) and the first hot water circuit (71) are connected to this connecting portion. ) Is provided with a second valve (95) for supplying at least one of the hot water from the first valve (93).   The first tapping circuit (71) is provided with a temperature sensor (97) for measuring the temperature of the hot water in the first tapping circuit (71), temperature information from the temperature sensor (97), and use A control device (103) is provided that supplies hot water of a desired temperature by switching the first valve (93) and the second valve (95) based on the set temperature of the person and mixing hot water. The hybrid hot water supply system according to claim 1, wherein   A water supply circuit (69) for supplying room temperature water is connected in the middle of the second hot water supply circuit (91), and a third valve (101) is provided at the connection portion, and the control device (103) is connected to the third hot water supply circuit (91). The hybrid hot water supply system according to claim 2, wherein the valve (101) is also switched to supply hot water at a desired temperature.

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