JP3919610B2 - Freezing prevention device in heat pump type water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an anti-freezing device in a heat pump type hot water heater.
[0002]
[Prior art]
Conventionally, as shown in FIG. 2, a heat pump type hot water heater using a carbon dioxide refrigerant includes a heat pump unit 2 including a gas cooler 21, a compressor 22, an evaporator 23 having an evaporator fan 24, and an expansion valve 25. Carbon dioxide (CO ₂ ) as a refrigerant is circulated, and water circulation pipes 32 and 33 constituting the water heating unit 3 are connected to the hot water tank 1, and the water circulation pipes 32 and 33 are used for circulation in the middle of the water circulation pipes 32 and 33. A plurality of thermistors disposed in the hot water tank 1 are provided by heating the water in the hot water tank 1 in the gas cooler 21 of the heat pump unit 2 by circulating the water in the hot water tank 1 by the circulation pump 31. Hot water is stored in the hot water tank 1 until the set temperature is detected at 71, 72, 73, 74, and 7n.
And when using hot water in the hot water supply part 4, the hot water stored in the hot water tank 1 is pushed up by the water supplied from the water supply pipe 5 connected to the lower part of the hot water tank 1 by operating the faucet 42 and the like. The hot water in the hot water tank 1 is taken out through a pipe 41 connected to the upper part of the hot water tank 1.
[0003]
[Problems to be solved by the invention]
By the way, when using this heat pump type water heater in a cold region, when the heat pump unit 2 is not in operation, the water remaining in the circulation pump 31 and the water circulation pipes 32 and 33 of the water heating unit 3 is frozen, The circulation pump 31 and the water circulation pipes 32 and 33 of the water heating unit 3 are heated with a heater so that the smooth operation of the heat pump water heater is not hindered or the heat pump water heater is not damaged. Yes.
[0004]
However, in this case, in addition to the problem that it takes time to arrange the heater for heating the circulation pump 31 and the water circulation pipes 32 and 33 of the water heating unit 3, heating by the heater is moderate heating. In addition to being difficult, there is a problem that the initial cost and the maintenance cost of the heat pump type hot water heater are increased because of a large heat loss and poor thermal efficiency.
[0005]
In view of the problems of the conventional heat pump type hot water heater, the present invention provides an antifreezing device for a heat pump type hot water heater capable of preventing freezing of a heat pump type hot water heater with high efficiency and low cost. The purpose is to provide.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the antifreezing device in the heat pump type hot water heater of the present invention heats the water in the hot water storage tank in the gas cooler of the heat pump section by circulating the water in the hot water storage tank by the circulation pump. In a heat pump type hot water heater that stores hot water in a hot water storage tank, a bypass circuit that is connected in parallel with the hot water tank is arranged in the water circulation pipe of the water heating section via a three-way switching valve, and the outside air temperature is When the temperature falls below a predetermined temperature, the hot water in the gas cooler and the bypass circuit is circulated by switching the three-way switching valve and periodically operating the circulation pump . When the temperature falls below a predetermined temperature, the heat pump unit is temporarily operated and reheated by a gas cooler .
[0007]
In this heat pump type hot water heater, the anti-freezing device has a bypass circuit that is connected in parallel with the hot water storage tank in the water circulation pipe of the water heating section via a three-way switching valve, and the outside air temperature becomes below a predetermined temperature. When hot water is circulated in the gas cooler and bypass circuit by switching the three-way selector valve, water remaining in the water circulation pipe and circulation pump that is likely to freeze in the cold season is also forced to circulate. Therefore, freezing can be prevented beforehand.
Further, since the thermal energy of the water remaining in the water circulation pipe and the circulation pump is used, the cost can be reduced.
[0008]
Furthermore, in order to circulate hot water in the gas cooler and the bypass circuit, the circulation pump can be operated periodically, so that the operation energy of the circulation pump can be saved, and in the gas cooler and the bypass circuit, When the hot water drops below the specified temperature, the heat pump is temporarily operated and reheated by the gas cooler to prevent the temperature of the hot water in the gas cooler and the bypass circuit from decreasing, and the heat pump water heater can be frozen. It can be surely prevented, and since water is not heated more than necessary, the thermal efficiency is improved, and the maintenance cost of the heat pump type hot water heater can be reduced.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of an antifreezing device in a heat pump type hot water heater of the present invention will be described below with reference to the drawings.
[0010]
In FIG. 1, one Example of the freezing prevention apparatus in the heat pump type water heater of this invention is shown.
This heat pump type hot water heater is similar to the conventional heat pump type hot water heater, in which the heat pump unit 2 including the gas cooler 21, the compressor 22, the evaporator 23 having the evaporator fan 24, and the expansion valve 25 is replaced with carbon dioxide as a refrigerant. (CO ₂ ) is circulated, and the water circulation pipes 32, 33 constituting the water heating unit 3 are connected to the hot water tank 1, and the circulation pump 31 is disposed in the middle of the water circulation pipes 32, 33. The water in the hot water tank 1 is circulated by the circulation pump 31 so that the water in the hot water tank 1 is heated in the gas cooler 21 of the heat pump unit 2 and hot water is stored in the hot water tank 1. .
[0011]
And when using hot water in the hot water supply part 4, the hot water stored in the hot water tank 1 is pushed up by the water supplied from the water supply pipe 5 connected to the lower part of the hot water tank 1 by operating the faucet 42 and the like. The hot water in the hot water tank 1 is taken out through a pipe 41 connected to the upper part of the hot water tank 1.
[0012]
In the heat pump type hot water heater of the present embodiment, a bypass circuit 34 that is connected in parallel with the hot water tank 1 is disposed between the water circulation pipes 32 and 33 of the water heating unit 3 via the three-way switching valve 6. The hot water in the hot water tank 1 is boiled until the bath temperature reaches the set temperature, and when the set temperature is reached, the boiling is stopped.
[0013]
In the cold season, when the outside air temperature becomes equal to or lower than the predetermined temperature, hot water can be circulated between the bypass circuit 34 via a part of the water circulation pipes 32 and 33 by switching the three-way switching valve 6. In order to make it possible, the three-way switching valve 6 is connected to the connection portion between the bypass circuit 34 connected between the water circulation pipes 32 and 33 and one of the water circulation pipes 33, and after passing through the bypass circuit 34, the gas cooler 21 is reached. A circulation pump 31 is disposed in the water circulation pipe 32.
[0014]
It is desirable that the connection position of the bypass circuit 34 with the water circulation pipes 32 and 33 be as close as possible to the hot water tank 1. Thereby, the freezing of the water in the water circulation pipes 32 and 33 that protrude outward from the hot water tank 1 and are easily affected by the outside air temperature can be more reliably prevented.
[0015]
Thereby, when the heat pump unit 2 is operated, the water in the hot water tank 1 is circulated in the forward direction of the water circulation pipe 32, the gas cooler 21, and the water circulation pipe 33 by the circulation pump 31, as in the conventional heat pump hot water heater. Thus, the water in the hot water tank 1 can be heated in the gas cooler 21 of the heat pump unit 2, and hot water can be stored in the hot water tank 1.
[0016]
Moreover, in the cold season, the set high-temperature hot water is stored in the hot water storage tank 1 by the operation of the heat pump unit 2, and when the boiling is completed, the operation of the heat pump unit 2 is stopped.
Then, in order to circulate hot water in the gas cooler 21 and the bypass circuit 34 in a state where the three-way switching valve 6 is switched and the gas cooler 21 and the bypass circuit 34 are connected, the circulation pump 31 is periodically changed. Although it is not particularly limited, the temperature of the hot water circulating between the bypass circuit 34, the circulation pump 31 and the gas cooler 21 can be increased by operating for several minutes every few minutes to several tens of minutes. For example, 5-20 degreeC or more is kept.
Thereby, the circulating pump 31 forcibly circulates hot water between the gas cooler 21 and the bypass circuit 34, thereby using the thermal energy of the circulating hot water, the circulating pump 31 of the water heating unit 3, Water in the bypass circuit 34 and the water circulation pipes 32 and 33 can flow to prevent freezing.
[0017]
When the temperature of the hot water circulating between the bypass circuit 34, the circulation pump 31 and the gas cooler 21 falls below a predetermined temperature, for example, 5 ° C., the heat pump unit 2 is temporarily operated, and the bypass circuit 34, The hot water circulating between the circulation pump 31 and the gas cooler 21 can be reheated.
In order to measure the hot water temperature in the gas cooler 21 and the bypass circuit 34, for example, a temperature sensor 35 is provided in the bypass circuit 34.
As a result, the temperature of hot water circulating between the bypass circuit 34, the circulation pump 31 and the gas cooler 21 can be prevented from being lowered, the freezing of the heat pump type hot water heater can be surely prevented, and the water is heated more than necessary. Therefore, the thermal efficiency is improved, and the maintenance cost of the pump type water heater can be reduced.
[0018]
In the heat pump type hot water heater of the present embodiment, the water circulation pipe 33 for introducing the hot water discharged from the gas cooler 21 to the hot water tank 1 is connected to the top of the hot water tank 1. There is no particular limitation, and the temperature of the hot water in the hot water tank 1 above the position where the water circulation pipe 33 is connected to the hot water tank 1 is made uniform by convection by connecting it slightly below the top of the hot water tank 1. It can also be raised.
Further, the water circulation pipe 33 is branched, and one branched water circulation pipe is connected to the top of the hot water storage tank 1 through an electromagnetic valve, and the other water circulation pipe is connected to the hot water storage tank 1 through an electromagnetic valve. It is also possible to connect it slightly below the top.
[0019]
In addition, a heat exchanging part of an indirect heating circuit is arranged on the upper part of the hot water tank 1 so that the heat pump type hot water heater can be used for retreating the bath, etc., and the bath is connected via the indirect heating circuit. By circulating the hot water, the hot water in the bath can be indirectly heated with the hot water stored in the hot water tank 1.
The heat exchange part of the indirect heating circuit is arranged outside the hot water tank 1 in addition to being arranged in the hot water tank, and the heat exchange part and the hot water tank are connected by a pipe provided with a circulation pump. You can also
[0020]
In the present embodiment, the three-way switching valve 6 is disposed at the connection portion with the water circulation pipe 33 on one end side of the bypass circuit, but the three-way switching valve 6 is also provided at the connection portion with the water circulation pipe 32. An electromagnetic valve or the like that is interlocked can also be provided.
[0021]
As mentioned above, although the heat pump type hot water heater of the present invention has been described based on one embodiment, the present invention is not limited to the configuration described in the above embodiment, and the application target is, for example, an indirect heating circuit. It can be used for heating in baths, for heating, and for heat pump water heaters that use refrigerants other than carbon dioxide refrigerant as the refrigerant in the heat pump section. Can be changed.
[0022]
【The invention's effect】
According to the antifreezing device in the heat pump type hot water heater of the present invention, a bypass circuit that is connected in parallel with the hot water storage tank is disposed in the water circulation pipe of the water heating unit via the three-way switching valve, and the outside air temperature is a predetermined temperature. When the following conditions are met, hot water is circulated in the gas cooler and bypass circuit by switching the three-way switching valve, so water remaining in the water circulation pipe and circulation pump that is likely to freeze in the cold season is also forced. Therefore, freezing can be prevented beforehand.
Further, since the thermal energy of the water remaining in the water circulation pipe and the circulation pump is used, the cost can be reduced.
[0023]
Furthermore, in order to circulate hot water in the gas cooler and the bypass circuit, the circulation pump can be operated periodically, so that the operation energy of the circulation pump can be saved , and in the gas cooler and the bypass circuit, When hot water drops below the specified temperature, the heat pump is temporarily operated and reheated by the gas cooler to prevent the temperature of the hot water from falling in the gas cooler and bypass circuit, and freezing of the heat pump water heater is prevented. In addition to being able to reliably prevent the water from being heated more than necessary, the thermal efficiency is improved and the maintenance cost of the heat pump type hot water heater can be reduced.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing an embodiment of a freeze prevention device in a heat pump type hot water heater of the present invention.
FIG. 2 is an explanatory view showing a conventional heat pump type water heater.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Hot water tank 2 Heat pump part 21 Gas cooler 22 Compressor 23 Evaporator 24 Evaporator fan 25 Expansion valve 3 Water heating part 31 Circulation pump 32 Water circulation piping 33 Water circulation piping 34 Bypass circuit 35 Temperature sensor 4 Hot water supply part 41 Piping 42 Faucet 5 Water supply pipe 6 Three-way selector valve 7 Thermistor

Claims (1)

In the heat pump type water heater that heats the water in the hot water tank in the gas cooler of the heat pump section by circulating the water in the hot water tank by the circulation pump, and stores the hot water in the hot water tank, the water heating section A bypass circuit that is connected in parallel with the hot water storage tank is arranged via a three-way switching valve in the water circulation pipe, and when the outside air temperature falls below a predetermined temperature, the switching of the three-way switching valve and the circulation pump are periodically The hot water is circulated in the gas cooler and the bypass circuit by operating automatically, and when the hot water in the gas cooler and the bypass circuit falls below a predetermined temperature, the heat pump unit is temporarily operated and reheated by the gas cooler. An anti-freezing device for a heat pump type hot water heater,

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