KR20110043260A - Boiler for heat pump - Google Patents

Abstract

PURPOSE: A heat pump boiler is provided to maximize a defrosting function by supplying heat generated from a hot water tank to an evaporator. CONSTITUTION: A heat pump boiler comprises a main body(10), a hot water tank(20), a compressor(30), an expansion valve(40), and an evaporator(50). A dual spiral pipe-shaped preheating unit(21), a heating unit(22) for hot water supply, and a room heating unit(23) are successively installed in the hot water tank. The hot water tank heat-exchanges the refrigerants with tap water. The compressor supplies the high-temperature and high-pressure refrigerants to the preheating unit, the heating unit, and the room heating unit by compressing the refrigerants. The expansion valve decompresses the liquefied refrigerants and transfers the liquefied refrigerants to the evaporator. The evaporator converts the high-temperature and high-pressure refrigerants into low-temperature and low-pressure vaporized refrigerants by absorbing external heat and supplies the vaporized refrigerants to the inlet(32) of the compressor.

Description

Heat pump boiler {Boiler for heat pump}

The present invention relates to a heat pump boiler, and more specifically, to a stand-type boiler, the heat pump is built into the inside of the main body, the preheating portion and the hot water heater and the inside of the hot water tank connected to the heat pump and The heating and heating parts are respectively installed, each part is formed in the form of a double tube is heated by the refrigerant of the heat pump is excellent heat efficiency, easy to install and can be used for long and trouble-free heat pump boiler.

In general, the heating boiler is configured to heat the heating water injected into the hot water tank using the heating means and then circulate the heating pipe.

Among them, a heating boiler using a heat pump has been widely used in recent years. Until now, the heat pump boiler has a main body of the boiler and an outdoor unit separately. The refrigerant is supplied, and the refrigerant is changed to a high temperature and high pressure state by compressing the supplied refrigerant in a compressor.

In the case of the conventional heat pump boiler configured as described above, the evaporator is installed outdoors, and most of the heat pump boiler does not absorb the latent heat of evaporation by the air of the outside air, which is sucked to the outdoor unit by the temperature falling into the subzero region in winter. There is a chronic problem that the heating efficiency of the heat pump is sharply lowered and the output efficiency is sharply lowered compared to the input.

In addition, since the boiler body and the outdoor unit have to be installed separately, a problem arises that the time and cost of the installation are excessively required.

Accordingly, the present invention has been invented in view of the above problems, and the present invention consists of five parts, the main body 10 having a rectangular case shape; The inside of the main body 10 is installed in the form of a rectangular case, inside the double spiral tube-shaped preheating unit 21, the hot water heating unit 22 and the heating heating unit 23 are sequentially installed to direct the refrigerant and A hot water tank 20 configured to exchange heat; The cylindrical body is installed inside the main body 10, and the refrigerant is compressed to preheat the portion 21, the hot water heater 22, and the heating heater 23 of the hot water tank 20 in a state of high temperature and high pressure. A compressor 30 configured to be supplied with; An expansion valve 40 configured to reduce the high pressure liquefied refrigerant while passing through the hot water tank 20; The evaporator 50 is configured to contact the outer wall surface of the hot water tank 20 so that the refrigerant in the low temperature low pressure liquefied state is evaporated while absorbing heat from the outside while changing through the expansion valve 40. do.

The present invention configured as described above, the hot water tank and the compressor, expansion valve and evaporator are all built in the form of a stand-type boiler embedded in the body of the rectangular case form, the installation of the boiler is easy, and does not require a separate outdoor unit It can reduce the installation cost.

In addition, the evaporator is installed on the outer wall of the hot water tank to rapidly evaporate the low temperature low pressure liquefied refrigerant through the expansion valve to the gaseous refrigerant to supply heat generated from the hot water tank to the evaporator to maximize thermal efficiency and defrosting function. There is one effect.

In addition, the direct water introduced from the outside of the boiler is preheated through the preheating unit and then introduced into the hot water heating unit and the hot water tank body so that the temperature inside the hot water tank is not lowered and the temperature of the hot water for hot water is also rapidly heated. It works.

The present invention relates to a heat pump boiler, and more specifically, to a stand-type boiler, the heat pump is built into the inside of the main body, the preheating portion and the hot water heater and the inside of the hot water tank connected to the heat pump and Heating heaters are installed respectively, each part is formed in the form of a double tube is heated by the refrigerant of the heat pump is excellent in thermal efficiency, easy to install and can be used for a long time without failure.

An embodiment of the present invention will be described below with reference to the accompanying drawings.

Figure 1 shows the whole perspective view of the present invention, Figure 2 is a cross-sectional view of the present invention, Figure 3 is a cross-sectional view showing the hot water circulation structure of the present invention, as shown, the body 10 configured in the form of a rectangular case The inside of the hot water tank 20 of the rectangular case form is installed, the preheating unit 21 and the hot water heating unit 22 and the heating heating unit 23 of the double spiral tube installed inside the hot water tank 20 and The compressor 30, the expansion valve 40, and the evaporator 50 have an approximate configuration to be connected.

First, the main body 10 of the present invention is a stand-type boiler in the form of a square case, which is generally widely used, and a support foot 11 is provided at a lower end thereof, and a circulation motor 12 is provided at a lower side thereof. And has hot water generated in the hot water tank 20 to circulate along the heating pipe 60.

On the other hand, looking at the configuration of the hot water tank 20 is installed inside the main body 10, the outer shape is composed of a normal hot water tank form formed in a rectangular case shape, and serves as a condenser of the heat pump, hot water tank ( 20, the preheating unit 21, the hot water heating unit 22 and the heating heating unit 23 in the form of a double spiral tube is configured to be embedded in sequence.

The preheating unit 21 is formed in the form of a double helix tube, the direct water supplied from the outside is configured to be transferred from the inlet port 21a formed in the lower portion to the outlet port 21b formed in the upper portion.

The preheating unit 21 functions to be primarily heated by the refrigerant in the double helix tube as the direct water passes through the double helix tube, and thus the preheated hot water is partially transferred through the first transfer pipe 61. It is introduced into the hot water heating unit 22 to be described later, and the other part has a configuration introduced into the hot water tank 20 through the lower side of the hot water tank 20.

In addition, looking at the configuration of the hot water heater 22 is installed in the lower portion of the preheater 21, is formed in the form of a double helix tube of the same shape as the preheater 21, preheated by the preheater 21 The heated water is configured to be transferred from the inlet port 22a formed in the upper portion to the outlet port 22b formed in the lower portion through the first transfer pipe 61.

The hot water heating unit 22 functions to be heated once more by the refrigerant in the double helix tube as the hot water preheated through the preheater 21 passes through the double helix tube. It is connected to the hot water facility through a pipe (not shown) connected to 22b).

And when looking at the configuration of the heating heating unit 23 installed in the lower portion of the hot water heating portion 22, it is formed in the form of a double spiral tube of the same shape as the preheating portion 21 and the hot water heating portion 22, hot water The hot water for heating in the tank 20 is introduced into the inlet 23a formed in the upper portion through the second transfer pipe 62 and is transferred to the outlet 23b formed in the lower portion.

The heating and heating unit 23 is a function of the heating hot water heated inside the hot water tank 20 once more as it passes through the double helix tube, the heated water is heated in connection with the outlet 23b It has a configuration that is supplied to the heating facility through the pipe (60).

On the other hand, looking at the configuration of the compressor (30) configured to supply the refrigerant to the preheating unit 21, the hot water heating unit 22 and the heating heating unit 23 installed inside the hot water tank 20, the main body ( 10) is installed in a cylindrical shape, the outlet has an outlet 31 is formed in the upper portion has a configuration in which the inlet 32 is formed.

Compressor 30 configured as described above is configured in the same form as a compressor commonly used in heat pumps, and is supplied via the evaporator 50, which will be described later to receive a low-temperature low-pressure gas state refrigerant from the inlet 32 to compress it After changing to a state of high temperature and high pressure, through the outlet 31, the outlet 21b of the preheating unit 21 of the hot water tank 20, the inlet 22a of the hot water heater 22 and the heating heater 23. 23a).

In addition, looking at the configuration of the expansion valve 40 is installed on the inner side of the main body 10, it is typically configured in the form similar to the expansion valve used for the heat pump, the upper inlet 42 is formed The lower portion has a configuration in which the outlet 41 is formed.

The expansion valve 40 configured as described above depressurizes the high-pressure liquefied refrigerant through the preheating unit 21, the hot water heating unit 22, and the heating heating unit 23 installed in the hot water tank 20 to reduce the low temperature. It is configured to change to the refrigerant in the liquefied state of the preheating portion 21 through the inlet port (21a) and the hot water supply heating unit 22 and the heating inlet port 22b through the outlet (22b, 23b) to the inlet port 42 To recover each, the recovered refrigerant is configured to be supplied to the evaporator 50 to be described later through the outlet (41).

Finally, the refrigerant depressurized by the expansion valve 40 and the low temperature low pressure liquefied state is configured to absorb heat from the outside through the evaporator 50, looking at the configuration of the evaporator 50, evaporator ( 50 is attached to one side of the hot water tank 20 in the form of a continuously bent metal tube in the form of a 'S' commonly used, the inlet 51 of the refrigerant as a part connected to the expansion valve (40). Is formed, and the outlet 52 of the refrigerant is formed as a part connected to the compressor 30.

Since the evaporator 50 is installed in the hot water tank 20 as described above, the refrigerant in the low temperature low pressure liquefied state absorbs the heat generated from the hot water tank 20 and changes to a low temperature low pressure gas state. It is introduced into the compressor 30 described above.

As such, the low-temperature low-pressure refrigerant absorbs the heat generated from the hot water tank 20 to recover and reuse the heat discarded to the outside of the hot water tank 20, thereby increasing thermal efficiency, and passing the expansion valve 40. It is a structure which can prevent the phenomenon which freezes with the refrigerant | coolant of a low temperature low pressure liquid state.

Looking at the assembly and installation state of the present invention configured as described above, first, the support foot 11 is installed at the lower end of the body 10 of the rectangular case form, the inside of the hot water tank 20 and the cylindrical form of the rectangular case form Compressor 30, expansion valve 40 and the evaporator 50 of each is installed, but first from the inner lower side of the hot water tank 20, the heating heating unit 23 and the hot water heating unit 22 in the form of a double spiral tube and After the preheating unit 21 is sequentially stacked and installed, the inlet port 21a of the preheater unit 21 is directly connected to the direct water, and the outlet port 21b of the preheater unit 21 is connected to the first transfer pipe 61. .

Then, the outlet formed at the intermediate point of the first transfer pipe 61 is connected to the inlet 22a of the hot water heater 22, and the outlet formed at the end of the first transfer pipe 61 is the hot water tank 20. Connect to the inlet installed at the bottom of the).

On the other hand, the outlet installed in the upper portion of the hot water tank 20 is connected to the inlet of the second transfer pipe 62, the outlet formed at the end of the second transfer pipe 62 is the inlet (23a) of the heating heating unit (23). ).

In addition, the outlet 23b of the heating and heating unit 23 is connected to the inlet of the heating pipe 60, the outlet of the heating pipe 60 is another of the lower end of the hot water tank 20 via the circulation motor 12 Connect to the inlet.

Thereafter, the refrigerant pipes installed in the outlet pipe 21b of the preheating part 21 of the hot water tank 20 and the inlet ports 22a and 23a of the heating hot water supply part 22 and the heating and heating part 23 are the compressor 30. And the refrigerant pipes connected to the outlet 31 of the preheater 21 and installed at the outlets 22b and 23b of the heating hot water supply unit 22 and the heating and heating unit 23 of the preheater 21 are expanded valves ( It is connected to the inlet 42 of 40).

Then, the outlet 41 of the expansion valve 40 and the inlet 51 of the evaporator 50, the outlet 52 of the evaporator 50 is connected to the inlet 32 of the compressor 30, the evaporator 50 is installed in the form of laying on one side wall of the hot water tank 20 to complete the assembly and installation of the present invention.

Looking at the operating process of the present invention installed as described above, first, the refrigerant is compressed by the compressor 30 in the form of gas of high temperature and high pressure while the outlet 21b and the hot water supply of the preheating unit 21 installed inside the hot water tank 20 When supplied to the inlets 22a and 23a of the heating unit 22 and the heating and heating unit 23, at the same time, direct water flows into the hot water tank 20, and heat exchange is performed in the hot water tank 20.

Looking at the heat exchange between the heated refrigerant and the direct water, when the direct water flows into the inlet (21a) of the preheater 21, it is preheated through the double helix tube, and the preheated hot water is combined with the outlet 21b. A part of 61 is introduced into the inlet 22a of the hot water heater 22, and a part of the hot water tank 20 is introduced into the inlet at the bottom of the hot water tank 20.

The preheated hot water introduced into the hot water heater 22 is heated through a double spiral tube and discharged into a hot water supply facility connected to the outlet 22b, and the hot water introduced into the hot water tank 20 is a hot water tank 20. The heat is heated through heat exchange with the outside of the double helix tube of the heating heating unit 23 and the hot water heating unit 22 and the preheating unit 21 and then discharged to the upper outlet of the hot water tank 20.

The second feed pipe 62 is connected to the outlet of the hot water tank 20 so that the heated hot water flows back into the inlet 23a of the heating heater 23 and is heated once more inside the double spiral tube. It is discharged to the outlet 23b, wherein the outlet 23b is connected to the heating pipe 60 is configured to be supplied to the heating facility by the circulation motor 12.

After the heat exchange is performed as described above, the high pressure liquefied refrigerant recovered through the inlets 21a of the preheater 21 and the outlets 22b and 23b of the hot water heater 22 and the heating heater 23 is an expansion valve ( The refrigerant is introduced into the inlet 42 of the 40 and then depressurized while exiting the outlet 41, and is supplied to the evaporator 50.

Refrigerant introduced into the inlet 51 of the evaporator 50 is discharged to the outlet 52 in the form of a low-temperature low-pressure gas while passing through the evaporator 50 attached to the wall of the hot water tank 20, which is again It has the whole operation process flowing into the inlet 32 of the compressor 30.

The present invention configured as described above has been described with reference to one embodiment, and the modified embodiment such as to selectively supply the coolant and water to the inner and outer surfaces of the double helix tube or to change the inlet and outlet of the refrigerant Modifications can be made as much as possible within the technical idea of the present invention, and it will be obvious that such modifications are within the scope of the present invention.

1 is an overall perspective view of the present invention

3 is a cross-sectional view of the present invention

4 is a cross-sectional view showing a hot water circulation structure of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

10: main body 11: stand foot

12: circulation motor 20: hot water tank

21: Preheater 21a, 22a, 23a: Inlet

21b, 22b, 23b: outlet 22: hot water heater

23: heating heater 30: compressor

31, 41, 52: outlet 32, 42, 51: inlet

40: expansion valve 50: evaporator

60: heating pipe 61: first feed pipe

62: second feed pipe

Claims (2)

In a boiler with a heat pump, A main body 10 formed in a rectangular case shape; The inside of the main body 10 is installed in the form of a rectangular case, inside the double spiral tube-shaped preheating unit 21, the hot water heating unit 22 and the heating heating unit 23 are sequentially installed to direct the refrigerant and A hot water tank 20 configured to exchange heat; The cylindrical body is installed inside the main body 10, and the refrigerant is compressed to preheat the portion 21, the hot water heater 22, and the heating heater 23 of the hot water tank 20 in a state of high temperature and high pressure. A compressor 30 configured to be supplied to the compressor; An expansion valve (40) configured to receive the high pressure liquefied refrigerant through the hot water tank (20) to the inlet (42) to reduce the pressure and send it to the evaporator (50); The low temperature low pressure liquefied refrigerant is introduced into the inlet port 51 while passing through the expansion valve 40 to absorb heat from the outside and evaporate to change to a low temperature low pressure gas state, and then to the inlet port 32 of the compressor 30. Heat pump boiler, characterized in that consisting of the evaporator 50 is installed to contact the outer wall of the hot water tank 20 to supply. The method of claim 1, The inlet 21a of the double helix tube of the preheater 21 formed in the hot water tank 20 is directly connected to the direct water, and the outlet 21b of the preheater 21 is connected to the first transfer pipe 61. The outlet formed at the intermediate point of the first feed pipe 61 is connected to the inlet 22a of the hot water heater 22, and the outlet formed at the end of the first feed pipe 61 is located at the bottom of the hot water tank 20. It is connected to the inlet is installed, the outlet installed in the upper portion of the hot water tank 20 is connected to the inlet of the second transfer pipe 62, the outlet formed at the end of the second transfer pipe 62 is the heating heater 23 It is connected to the inlet 23a of, the outlet 23b of the heating heater 23 is connected to the inlet of the heating pipe 60, the outlet of the heating pipe 60 through the circulation motor 12 and the hot water tank ( Heat pump boiler, characterized in that it is connected to another inlet at the bottom of 20).

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