KR100992376B1 - The electricity boiler of the height efficiency which uses the refrigeration system - Google Patents

Abstract

The present invention relates to a high-efficiency electric boiler using a refrigeration system, the configuration is an electric boiler using a refrigeration system, the refrigerant circulation line through which a high-temperature, high-pressure refrigerant (gas) is passed through a compressor and passed through a compressor. Primary heat exchange in contact with the heat exchanger using water, the water is a heat exchanger for heating used for heating, and the medium-temperature, high-pressure refrigerant (liquid) of the medium temperature is lowered by heat exchanged through the heat exchanger for heating The secondary heat exchange in contact with the refrigerant circulation line, which is heat-exchanged by using water, the water is a heat exchanger for the hot water used for hot water, the heat exchanger passing through the heat exchanger for hot water, the temperature of the medium temperature, high pressure The refrigerant circulation line through which the refrigerant (liquid) flows is passed through the cooling unit consisting of a plurality of cooling fins to the formulation 1 continuous bending portion. The medium (liquid) is the third heat exchange at low temperature, high pressure, the refrigerant circulation line through which the heat exchanged low temperature, high pressure refrigerant (liquid) is passed through the expansion valve while the refrigerant (liquid) is a low pressure, low pressure The refrigerant circulation line through which the low temperature and low pressure refrigerant (liquid) is circulated is completely evaporated to the low temperature and low pressure refrigerant (gas) while passing through the cooling unit to the second continuous bending part, and the Formulation 2 continuous bent portion is an evaporation unit configured to intersect the formulation 1 continuous bent portion, a water level control unit for replenishing and supplying water evaporated from the heat exchanger for heating, and measure the temperature of the water for heating the heat exchanger for heating to measure and send to the controller Receiving a first temperature measuring sensor and a heating temperature, heating time, heating reservation time, etc. desired by the user, and receiving an electrical signal transmitted from the first temperature measuring sensor It is characterized in that the control unit for controlling the refrigeration system, the refrigerant circulation line through which the high temperature refrigerant flows and the heating and hot water produced by the first and second heat exchange of water, the new structure of the evaporation unit is evaporation process is performed By preventing the freezing phenomenon of the refrigerant circulation line has an effect that can increase the efficiency of heating.

In addition, by allowing the high-temperature refrigerant to be heat-exchanged in 1, 2, 3, and sufficiently lowering the temperature, the refrigerant passing through the evaporation unit is easily evaporated completely, so that the compressor can be used for a long time.

Description

The electric boiler of the height efficiency which uses the refrigeration system}

The present invention relates to a high-efficiency electric boiler using a refrigeration system, and more particularly to the heating and hot water produced by the first and second heat exchange of the refrigerant circulation line and the water circulation of the high temperature refrigerant, and evaporation process is made The present invention relates to a high-efficiency electric boiler using a refrigeration system that can increase the efficiency of heating by preventing freezing of the refrigerant circulation line by the new structure of the evaporator.

Conventionally, oil boilers or gas boilers have been used as heating and hot water boilers, but there have been problems inefficient to use oil or gas having high operating costs in the high oil price era. Therefore, an electric boiler using a refrigeration system with low operating cost and high heating effect is being developed.

In general, an electric boiler using a refrigeration system is composed of a compressor, a condenser, an expansion valve, an evaporator, a refrigerant circulation line connecting the respective components, and a refrigerant filled in the refrigerant circulation line, and the inside of the refrigerant circulation line. It consists of a heat exchanger that exchanges heat with a refrigerant circulation line through which a high-temperature and high-pressure refrigerant flows through a refrigeration system and a compression process so that the compression, condensation, expansion, and evaporation processes are continuously repeated while the refrigerant is circulated continuously. .

The heat exchanger is used as a heat exchanger having a built-in refrigerant circulation line through which the high temperature and high pressure refrigerant flows, and the heat exchange water introduced into the heat exchanger is heat-contacted by the refrigerant circulation line to increase in temperature. The water is stored and used for hot water and heating when needed.

However, since the electric boiler using such a refrigeration system recovers only a part of the waste heat generated in the refrigeration system, its efficiency is lowered. In addition, the freezing phenomenon is severely outside the refrigerant circulation line, which is gentle to the evaporator. In order to solve the freezing phenomenon of the refrigerant circulation line, there was a structural limitation that the auxiliary heater for heating must be installed. This, in turn, results in a complex structure that not only increases the size of the device, but also means economic losses due to additional energy consumption by driving the auxiliary heater.

In addition, the refrigerant flowing through the evaporator must be completely evaporated into the refrigerant gas at low temperature and low pressure while passing through the evaporator, but must be distributed to the compressor. However, the refrigerant not sufficiently exchanged in the heat exchanger before reaching the evaporator is completely evaporated in the evaporator. In addition, a small amount of the refrigerant liquid which failed to evaporate is distributed to the compressor, which causes the life of the compressor to be shortened.

The present invention has been proposed to solve the above-mentioned problems, the object is to produce and use heating and hot water by the first and second heat exchange of the refrigerant circulation line and the water circulation of the high temperature refrigerant, the evaporation process The new structure of the evaporator is to provide a high efficiency electric boiler using a refrigeration system that can prevent the freezing of the refrigerant circulation line to increase the efficiency of heating.

In addition, it is to provide a high-efficiency electric boiler using a refrigeration system that can be used for a long time by the refrigerant through the evaporation unit is easily evaporated by allowing the high-temperature refrigerant to be heat-exchanged 1,2,3 times sufficiently low temperature.

The high efficiency electric boiler using the refrigeration system according to the present invention for achieving the above object is a compressor, a condenser, an expansion valve, an evaporator, a refrigerant circulation line connecting the respective components, and inside the refrigerant circulation line In the electric boiler using a refrigerating system is composed of a refrigerant to be filled, the compression process, condensation process, expansion process, evaporation process is continuously repeated while the refrigerant is continuously circulated in the refrigerant circulation line, the compression through the compressor The primary heat exchanger is in contact with the refrigerant circulation line through which the high-temperature, high-pressure refrigerant (gas) flows, and heat-exchanges using water, and the water passes through a heat exchanger for heating used for heating and the heat exchanger for heating. Heat exchange by contacting the refrigerant circulation line through which the medium-temperature, high-pressure refrigerant (liquid) is slightly lowered temperature The secondary heat exchange, but the heat exchange using water, the water is a heat exchanger for hot water used for hot water, the medium-temperature, high-pressure refrigerant (liquid) is passed through the heat exchanger for the hot water and the temperature is lowered to circulate The refrigerant circulation line is a refrigerant consisting of a plurality of cooling fins passing through the formulation 1 continuous bending portion the refrigerant (liquid) is a third heat exchange at low temperature, high pressure, the refrigerant heat exchanged low temperature, high pressure refrigerant (liquid) In the circulation line, the refrigerant (liquid) decreases in pressure at low temperature and low pressure while passing through the expansion valve, and the refrigerant circulation line in which the coolant (liquid) at low temperature and low pressure flows back to the formulation 2 continuous bent portion. While evaporating completely through the low temperature, low pressure refrigerant (gas), the formulation 2 continuous bent portion and the formulation 1 continuous bent portion of the refrigerant circulation line is configured to cross each other And, the water level control unit for replenishing and supplying the water evaporated from the heat exchanger for heating, the first temperature measuring sensor for measuring the temperature of the water for heating the heating heat exchanger and transmits to the control unit, the user desired heating temperature, heating time, And a control unit for receiving a heating reservation time and the like, and controlling the refrigeration system by receiving an electric signal transmitted from the first temperature measuring sensor.

In addition, the heating heat exchange unit has a space therein, the first inlet through which the refrigerant circulation line through which the high-temperature, high-pressure refrigerant (gas) is passed through the compressor through the compression process flows, and the introduced refrigerant circulation line is At least one or more of a first tank formed with a first outlet to be discharged to the outside, water is accommodated therein, a sub tank for supplying the water to the first tank, and a pipe connecting the first tank and the sub tank. A heating circulation line is formed, the water supplied from the auxiliary tank to the first tank flows into the pipe connected to the first tank, and the introduced water circulates the pipe and flows out to the auxiliary tank; Located on the heating circulation line, including a circulating pump to easily circulate the water continuously circulated in the pipe, it is supplied from the auxiliary tank The water introduced into the first tank is brought into contact with the refrigerant circulation line through which the high temperature and high pressure refrigerant (gas) is circulated, thereby exchanging heat, and the temperature of the water is increased by circulating the heating circulation line, thereby lowering the temperature. , The water is lowered temperature is characterized in that it is recovered to the auxiliary tank.

In addition, the hot water heat exchanger has a space therein, the second inlet through which the refrigerant circulation line through which the medium-temperature, high-pressure refrigerant (liquid) is passed through the heating heat exchanger and heat exchanged somewhat lowered, and the inflow; A second tank having a second outlet port through which the coolant circulation line is discharged to the outside, an inlet pipe for supplying water to the second tank, and the water supplied to the second tank is a medium-temperature, high-pressure refrigerant ( It is characterized in that it comprises a comprising a hot water outflow pipe that is in contact with the refrigerant circulation line through which the liquid) is circulated through the heat exchange and warm, the warm water is discharged to the outside.

In addition, the water level control portion of the supply pipe branched from the hot water outflow pipe to supply water to the auxiliary tank, the solenoid valve located on the supply pipe, and the water contained in the auxiliary tank located inside the auxiliary tank It is configured to include a water level sensor for measuring the water level, wherein the water level sensor is characterized in that it comprises to open or close the electromagnetic valve by sending an electrical signal to the electromagnetic valve in accordance with the change in the water level of the auxiliary tank. do.

In addition, the first auxiliary heater is located in the lower part of the auxiliary tank and temporarily operated to increase the temperature of the water for heating during the initial operation of the boiler in a short time, and the refrigeration system or the first auxiliary heater is located in the lower part of the auxiliary tank. The apparatus may further include a preliminary heater which is operated when a failure of the heater occurs to increase the temperature of the water for heating, wherein the first subsidiary heater and the preliminary heater are controlled by a controller.

In addition, a second temperature measuring sensor for measuring the temperature of the water for hot water stored in the second tank and transmits it to the control unit, and a second temperature temporarily located in the lower portion of the inside of the second tank to be temporarily operated to increase the temperature of the hot water. An auxiliary heater is further included, wherein the second auxiliary heater is controlled by a controller.

As described above, according to the high-efficiency electric boiler using the refrigeration system according to the present invention, the heating and hot water is produced and used by the refrigerant circulation line through which the high temperature refrigerant is circulated and the first and second heat exchange of water, and the evaporation process is performed. The new structure of the evaporator prevents freezing of the refrigerant circulation line, thereby improving heating efficiency.

In addition, by allowing the high-temperature refrigerant to be heat-exchanged in 1, 2, 3, and sufficiently lowering the temperature, the refrigerant passing through the evaporation unit is easily evaporated completely, so that the compressor can be used for a long time.

A high efficiency electric boiler using a refrigeration system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 show a high efficiency electric boiler using a refrigeration system according to an embodiment of the present invention, Figure 1 is a conceptual diagram of a high efficiency electric boiler using a refrigeration system according to an embodiment of the present invention, Figure 2 1 is a perspective view of the high-efficiency electric boiler using the refrigeration system shown in Figure 1, Figure 3 is a cutaway perspective view of the evaporation unit of the high-efficiency electric boiler using the refrigeration system shown in Figure 1, respectively.

As shown in the drawings, the high-efficiency electric boiler 1000 using the refrigeration system according to an embodiment of the present invention, the compressor (1), the condenser, expansion valve (2), the evaporator and the respective components connected It consists of a refrigerant circulation line 3 and a refrigerant filled in the refrigerant circulation line 3, the refrigerant is continuously circulated inside the refrigerant circulation line, the compression process, condensation process, expansion process, evaporation process is continuous In the electric boiler using a refrigeration system to be repeated, the heat exchanger 100 for heating, the heat exchanger 200 for hot water, the evaporator 300, the water level control unit 400, the first temperature measuring sensor ( 500, and a control unit 600.

As shown in FIGS. 1 and 2, the heating heat exchange part 100 has a space therein, and the refrigerant having a high temperature and high pressure refrigerant (gas) circulated through the compressor 1 and is compressed. A first tank 110 having a first inlet 111 through which the circulation line 3 is introduced, a first outlet 112 through which the introduced refrigerant circulation line 3 flows out, and water (4) therein. ) Is accommodated, the auxiliary tank 120 for supplying the water (4) to the first tank 110, and the pipe connected to the first tank 110 and the auxiliary tank 120 at least one or more pipes A line 131 is formed, and the water 4 supplied from the auxiliary tank 120 to the first tank 110 flows into a pipe connected to the first tank 110, and the introduced water 4 ) Is located on the heating circulation line 130 and the heating circulation line 130 is discharged to the auxiliary tank 120 by circulating the pipe, continuously circulating the inside of the pipe Is characterized by configured by a circulation pump 140 for circulating the water to be easily (4).

That is, the water 4 accommodated in the first tank 110 is in contact with the refrigerant circulation line 3 through which a high temperature and high pressure refrigerant (gas) is circulated, thereby performing a first heat exchange to increase the temperature, thereby increasing the temperature. The water 4 circulates the heating circulation line 130 to consume heat for heating. Here, the water (4) that consumed heat for heating is recovered to the auxiliary tank 120, the water (4) is supplied to the first tank 110 again to exchange heat with the refrigerant circulation line (3) The cycle is repeated by increasing the temperature.

In addition, the piping line 131 constituting the heating circulation line 130 of the high-efficiency electric boiler 1000 using the refrigeration system according to an embodiment of the present invention consists of three lines, but is not limited to this. .

In addition, by installing a separate valve 132 on the three pipe line 131, it is preferable to adjust so that the heating water is circulated to the pipe line 131 desired by the user.

The heat exchanger 200 for hot water has a space therein, and the refrigerant circulation line through which the medium-temperature, high-pressure refrigerant (liquid) of which the temperature is somewhat lowered through the first heat exchange through the heating heat exchanger 100 is distributed ( A second tank 210 having a second inlet 211 through which 3) flows, a second outlet 212 through which the introduced refrigerant circulation line 3 flows out, and the second tank 210; Refrigerant circulation line (3) through which the inlet pipe (220) for supplying the water (4) to the furnace, and the water (4) supplied to the second tank (210) are used for the medium-temperature, high-pressure refrigerant (liquid) It is characterized in that it comprises a hot water outflow pipe 230, which is in contact with the second heat exchange is warm, the warm water (4) is outflowed to the outside.

In addition, the air outlet 240 for outflowing the air in the second tank 210 when the water 4 is first supplied into the second tank 210 to the second tank 210 to the outside. Is preferably formed.

As shown in FIG. 3, the evaporator 300 passes through the heat exchanger 200 for hot water, and the refrigerant circulation line 3 through which a medium-temperature, high-pressure refrigerant (liquid) having a low temperature is circulated through the second heat exchanger. ) Is passed through the cooling unit 310 consisting of a plurality of cooling fins 311 to the first continuous bending portion 320, the refrigerant (liquid) is the third heat exchange at low temperature, high pressure, the cooling unit 310 The refrigerant circulation line (3) through which the low-temperature, high-pressure refrigerant (liquid), the third heat exchange while passing through, is passed through the expansion valve (2) while the refrigerant (liquid) decreases the pressure to low, low pressure, The refrigerant circulation line 3 through which the low temperature and low pressure refrigerant (liquid) flows is completely evaporated to the low temperature and low pressure refrigerant (gas) while passing through the cooling unit 310 to the second bending portion 330. The formulation 2 continuous bent portion 330 and the formulation 1 continuous bent portion 320 of the refrigerant circulation line 3 alternate with each other. That is characterized in that the.

That is, the first continuous bent part 320 has a condensation action for allowing the refrigerant (liquid) to pass through the third heat exchange, so that the refrigerant (liquid) passed through the first continuous bent part 320 is expanded. Passing through the valve 2 and passing through the second continuous bent portion 330 to induce a complete evaporation to the gas of low temperature, low pressure. This prevents not only the efficiency of the compressor 1 from decreasing when the refrigerant flowing into the compressor 1 is introduced into the liquid because it is completely evaporated, but also a reduction in the service life of the device.

In addition, since the low-temperature coolant is distributed in the first continuous bent part 320 and the low-temperature coolant is distributed in the second continuous bent part 330, the first continuous bent part 320 diverges from the first continuous bent part 320. The heat is to prevent the freezing phenomenon generated in the second continuous bent portion 330 and the cooling fins 311 through which a low-temperature refrigerant is circulated to increase the efficiency of the refrigeration system.

The water level control unit 400 is branched from the hot water outlet pipe 230, the supply pipe 410 for supplying water (4) to the auxiliary tank 120, and the electronic valve located on the supply pipe 410 And a level sensor 430 which is positioned inside the auxiliary tank 120 and measures the level of water 4 accommodated in the auxiliary tank 120. 430 may include transmitting an electric signal to the solenoid valve 420 to open or close the solenoid valve 420 according to a change in the water level of the water 4 accommodated in the auxiliary tank 120. It is done.

The first temperature measuring sensor 500 is positioned on the heating circulation line 130 to measure the temperature of the heating water 4 of the heating heat exchanger 200 and transmit the measured temperature to the controller 600.

The control unit 600 receives a heating temperature, a heating time, a heating reservation time, etc. desired by the user, and receives the electric signal transmitted from the first temperature measuring sensor 500 to control the refrigeration system.

In addition, the first auxiliary heater 700 and the auxiliary tank 120 which is temporarily located to be located in the lower portion of the inside of the auxiliary tank 120 to temporarily increase the temperature of the water 4 for heating during the initial operation of the boiler, and the auxiliary tank 120 It further includes a preliminary heater (710) located in the lower portion of the interior to operate when the failure of the refrigeration system or the first auxiliary heater 700 to increase the temperature of the water for heating (4), the first auxiliary heater ( 700 and the preliminary heater 710 is controlled by the controller 600.

In addition, the second temperature measuring sensor 800 for measuring the temperature of the water for hot water (4) stored in the second tank 210 and transmits to the control unit 600, and the lower portion inside the second tank (210) It further includes a second auxiliary heater 810 is temporarily operated to increase the temperature of the water for hot water (4), the second auxiliary heater 810 is characterized in that it is controlled by the controller 810 .

The second auxiliary heater 810 is preferably installed when the capacity of the second tank 210 is a large capacity (7-8 people), a sufficient amount even if not installed at a small capacity (3-4 people usage) It is possible to procure water (4).

The high-efficiency electric boiler 1000 using the refrigeration system according to the embodiment of the present invention having the configuration as described above operates as follows.

First, the user operates the control unit 600 to set a desired heating temperature and heating time.

Then, the refrigeration system is operated, the water (4) is heated in the heat exchange unit 100 for heating through heat exchange. At this time, the first auxiliary heater 700 is temporarily operated for quick heating.

Then, the heating water 4 warmed through the heating heat exchange part 100 is used for heating while circulating the heating circulation line 130, the valve installed in the piping line 131 constituting the heating circulation line 130. Through operation of the 132 to determine the user's desired place to be heated.

In the heat exchange part 200 for hot water, the water 4 warmed through heat exchange is stored in the second tank 210 so that the user can use it when necessary, and the hot water stored in the second tank 210. When the temperature is low, the second auxiliary heater 810 is temporarily operated.

While operating as described above, when the user reaches the heating temperature determined by the control unit 600, the refrigeration system is automatically stopped.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, this is by way of example and not limited to the above-described embodiments, various modifications and equivalent embodiments are possible from those skilled in the art. You will understand the point. In addition, modifications by those skilled in the art can be made without departing from the scope of the present invention. Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and their technical spirit.

1 is a conceptual diagram of a high-efficiency electric boiler using a refrigeration system according to an embodiment of the present invention.

Figure 2 is a perspective view of a high efficiency electric boiler using the refrigeration system shown in FIG.

3 is a cutaway perspective view of the evaporation unit of the high-efficiency electric boiler using the refrigeration system shown in FIG.

<Description of Symbols for Main Parts of Drawings>

1. Compressor 2. Expansion valve

3. Refrigerant circulation line 4. Water

100. Heat exchanger for heating 110. First tank

111. Inlet 1 112. Outlet 1

120. Secondary tank 130. Heating circulation line

131. Piping line 132. Valve

140. Circulating pump 200. Heat exchanger for hot water

210. Second tank 211. Second inlet

212. Second outlet 220. Inlet pipe

230. Hot water outflow pipe 240. Air outlet

300. Evaporator 310. Cooling unit

311. Cooling fins 320. First continuous bend

330. Second continuous bending part 400. Water level adjusting part

410. Supply piping 420. Solenoid valve

430. Water level sensor 500. First temperature sensor

600. Control unit 700. First auxiliary heater

710. Preliminary heater 800. Second mixing sensor

810. Second Auxiliary Heater 1000. Highly efficient electric boiler using refrigeration system

Claims (6)

Compressor (1), condenser, expansion valve (2), evaporator, the refrigerant circulation line (3) connecting the respective components, and the refrigerant filled in the refrigerant circulation line (3), the refrigerant In the electric boiler using the refrigeration system to continuously repeat the refrigerant, circulation, condensation, expansion, evaporation process as the refrigerant is circulated in the circulation line, After the compressor (1) is in contact with the refrigerant circulation line (3) through which the high-temperature, high-pressure refrigerant (gas) is passed through the compression process, the first heat exchange, the heat exchange using water (4), the water (4) is a heat exchanger 100 for heating used for heating; The secondary heat exchanger is in contact with the refrigerant circulation line (3) through which the medium-temperature, high-pressure refrigerant (liquid) of which the temperature is slightly lowered by being heat-exchanged through the heating heat exchanger (100) is circulated, and using water (4). Heat exchange, the water (4) is a hot water heat exchanger 200 used for hot water; The refrigerant circulation line 3 through which the medium-temperature, high-pressure refrigerant (liquid) of which the temperature is lowered by passing through the heat exchanger 200 for hot water is circulated is provided with a cooling unit 310 including a plurality of cooling fins 311. Formulation 1 The refrigerant (liquid) is the third heat exchange at a low temperature, high pressure while passing through the continuous bending portion 320, the refrigerant circulation line (3) through which the heat exchanged low-temperature, high pressure refrigerant (liquid) is passed through the expansion valve As the refrigerant (liquid) passes through (2), the pressure decreases to low temperature and low pressure, and the refrigerant circulation line 3 through which the low temperature and low pressure refrigerant (liquid) is circulated again prepares the cooling unit 310. 2 passes through the continuous bending portion 330 and completely evaporated to a low temperature, low pressure refrigerant (gas), the formulation 2 continuous bending portion 330 and the formulation 1 continuous bending portion 320 of the refrigerant circulation line (3) The evaporator 300 is configured to cross each other; A water level control unit 400 for replenishing and supplying water 4 evaporated from the heat exchanger 200 for heating; A first temperature measuring sensor 500 which measures the temperature of the heating water 4 of the heating heat exchanger 200 and transmits the measured temperature to the control unit 600; A control unit 600 which receives a heating temperature, a heating time, a heating reservation time, etc. desired by a user, and controls the refrigeration system by receiving an electric signal transmitted from the first temperature measuring sensor 500. High efficiency electric boiler using refrigeration system. The method of claim 1, The heat exchanger 100 for heating, A first inlet 111 having a space therein and the refrigerant circulation line 3 through which the high-temperature, high-pressure refrigerant (gas) flows through the compressor (1) and flows through the compressor (1); A first tank 110 having a first outlet 112 through which the circulation line 3 flows outward; Water 4 is accommodated therein, the auxiliary tank 120 for supplying the water (4) to the first tank 110, and At least one pipe line 131 is formed as a pipe connected to the first tank 110 and the auxiliary tank 120, and water supplied from the auxiliary tank 120 to the first tank 110 (4). ) Is introduced into the pipe connected to the first tank 110, the introduced water (4) is a heating circulation line 130 to circulate the pipe and outflow to the auxiliary tank 120, Located on the heating circulation line 130, and comprises a circulation pump 140 for easily circulating the water (4) continuously circulated in the pipe, it is supplied from the auxiliary tank 120 The water 4 introduced into the first tank 110 is in contact with the refrigerant circulation line 3 through which a high temperature and high pressure refrigerant (gas) is circulated, thereby exchanging heat, thereby increasing the temperature and increasing the temperature of the water (4). The heat exchange while circulating the heating circulation line 130 is lowered, the temperature is lowered, the water (4) the temperature is lowered high efficiency electric boiler using a refrigeration system, characterized in that recovered to the auxiliary tank. The method of claim 1, The heat exchanger 200 for hot water, The second inlet 211 having a space therein and into which the refrigerant circulation line 3 through which the medium-temperature, high-pressure refrigerant (liquid) flows through the heating heat exchange part 100 and is slightly lowered in temperature is introduced. A second tank 210 having a second outlet 212 through which the introduced refrigerant circulation line 3 flows out; An inlet pipe 220 for supplying water 4 to the second tank 210; The water (4) supplied to the second tank (210) is in contact with the refrigerant circulation line (3) through which the medium-temperature, high-pressure refrigerant (liquid) is circulated and heat-exchanged to warm it, the warm water (4) outside High-efficiency electric boiler using a refrigeration system, characterized in that comprising a hot water outflow pipe 230 is discharged to. The method of claim 1, The water level control unit 400 is branched from the hot water outlet pipe 230, the supply pipe 410 for supplying water (4) to the auxiliary tank 120, and the electronic valve located on the supply pipe 410 And a level sensor 430 which is positioned inside the auxiliary tank 120 and measures the level of water 4 accommodated in the auxiliary tank 120. 430 may include transmitting an electric signal to the solenoid valve 420 to open or close the solenoid valve 420 according to a change in the water level of the water 4 accommodated in the auxiliary tank 120. High efficiency electric boiler using refrigeration system. The method of claim 2, A first auxiliary heater 700 positioned below the auxiliary tank 120 and temporarily operated so that the temperature of the heating water 4 increases in a short time during initial operation of the boiler; Further comprising a preliminary heater 710 located in the lower portion of the auxiliary tank 120 to operate at the time of failure of the refrigeration system or the first auxiliary heater 700 to increase the temperature of the water 4 for heating, The first auxiliary heater 700 and the preliminary heater (710) is a high efficiency electric boiler using a refrigeration system, characterized in that controlled by. The method of claim 3, wherein A second temperature measuring sensor 800 measuring the temperature of the hot water 4 stored in the second tank 210 and transmitting the measured temperature to the controller 600; The second auxiliary heater 810 is located in the lower portion of the inside of the second tank 210 and temporarily operated to increase the temperature of the water 4 for hot water, wherein the second auxiliary heater 810 is a control unit. High efficiency electric boiler using a refrigeration system, characterized in that controlled by 810.

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