KR102044728B1 - Energy-saving heat pump system - Google Patents

Abstract

The present invention relates to an energy-saving heat pump system, which comprises: a case in which a mounting space is formed; a control unit mounted on the case, and controlling various operation modes, on which a display unit is mounted; a heat pump arranged at one side of the mounting space of the case, and composed of a compressor compressing a refrigerant at a high temperature and a high pressure, a first heat exchanger and a second heat exchanger arranged with an interval to condense or vaporize the refrigerant, an expansion valve arranged between the first heat exchanger and the second heat exchanger to expand the refrigerant, and a direction switching valve controlling the direction of a flow path of the refrigerant discharged from the compressor; a water tank unit arranged at an upper portion of the other side of the mounting space of the case, and supplying a high-temperature water or a low-temperature water; and a pump unit arranged at the mounting space of the case located at a lower portion of the water tank unit, and having a pump individually operated corresponding to each operation mode according to the operation of the control unit. Therefore, according to the energy-saving heat pump system of the present invention, the mixture of the high-temperature water of a high-temperature water tank and the low-temperature water of a low-temperature is organized in an overflow structure, such that the temperature of the low-temperature water may be quickly increased even when the temperature of the low-temperature water is decreased below a predetermined temperature.

Description

Energy-saving heat pump system {Energy-saving heat pump system}

The present invention relates to an energy-saving heat pump system, and more specifically, it is possible to supply hot water and cold water, and when the temperature of the cold water is lowered below the set temperature, the hot water is rapidly supplied to provide the temperature of the cold water. The present invention relates to an energy saving heat pump system capable of raising the temperature to a set temperature.

In general, a refrigerant circulation cycle of a heat pump system includes a compressor for compressing a refrigerant gas to a condensation pressure in a state of high temperature and high pressure, a condenser for condensing the refrigerant compressed in the compressor to a liquid phase by heat dissipation by air in the case of air cooling, An expansion valve for expanding the liquid refrigerant in the high temperature and high pressure state condensed in the condenser to the gaseous refrigerant in the low pressure state by the throttling action, and blowing by the blower using the latent heat of evaporation of the refrigerant while evaporating the expanded refrigerant in the expansion valve. It is composed of an evaporator that cools the air by heat exchange and returns the refrigerant gas to the compressor.

However, the conventional heat pump system has a problem in that a configuration for preventing the temperature stored in the low temperature water tank is lowered as the temperature of the low temperature water stored in the low temperature water tank is continuously lowered by the evaporator.

That is, the conventional heat pump system has a problem that the temperature of the low temperature water supplied to the low temperature tank is lowered as the heat is continuously taken from the evaporator, the efficiency is lowered, and frost is accumulated on the evaporator.

In order to overcome this problem, the conventional heat pump system has a heater or heat exchanger that can supply heat, but when the heater or heat exchanger is installed, there is a problem in that the installation space increases and the cost increases.

In addition, the conventional heat pump system has a problem in that the temperature rise rate is low by increasing the temperature by the heat exchange method of the low temperature water in the low temperature tank and the operation efficiency and the operable width decrease as the predetermined time is taken.

Republic of Korea Patent Publication No. 10-2011-0043260 Republic of Korea Patent Application Publication No. 10-2013-0130264

The present invention has been proposed in view of the above circumstances, and is formed in a structure capable of directly mixing the high temperature water contained in the high temperature water tank with the low temperature water contained in the low temperature water tank, thereby increasing the temperature of the low temperature water tank below the set temperature. It is an object of the present invention to provide an energy-saving heat pump system that can be rapidly raised even if the temperature of the received cold water is lowered.

In addition, an object of the present invention is to provide an energy-saving heat pump system capable of performing various operation modes through a pump unit including a heat pump and a plurality of pumps.

An energy saving heat pump system according to an embodiment of the present invention includes a case in which a mounting space is formed; A control unit mounted to the case and controlling various operation modes and having a display unit; Is disposed on one side of the mounting space of the case, the compressor for compressing the refrigerant at a high temperature and high pressure, the first heat exchanger and the second heat exchanger, which is arranged at intervals to condense or evaporate the refrigerant, the first heat exchanger and the second An expansion valve disposed between the heat exchangers and expanding the refrigerant, and a heat pump configured to adjust a direction of a flow path of the refrigerant discharged from the compressor; A water tank unit disposed above the other side of the mounting space and supplying hot water or cold water; It is disposed in the mounting space of the case located in the lower portion of the water tank unit, the pump unit corresponding to each operation mode in accordance with the operation of the control unit;

And the water tank unit is stored in the hot water, a heating circulation hole for the heating operation is formed in the front lower part and one side, hot water heat exchanger for heat exchange with the first heat exchanger of the hot water and the heat pump in the lower part of the front and one side A circulation hole is formed, and a low temperature water supply hole for supplying hot water to the low temperature water tank is formed at the lower side of the other side, and a hot water tank at which the hot water connection hole is formed at the upper side of the other side; The low temperature water is stored, and the lower part of one side is formed with a high temperature water inlet for receiving the high temperature water discharged through the low temperature water supply hole of the high temperature tank, and the upper part of the one side and the lower part of the other side of the low temperature water and the heat pump. A low temperature heat exchange circulation hole for heat exchange with a second heat exchanger, and a low temperature water tank having a low temperature connection hole formed at an upper portion of one side corresponding to the hot water connection hole; And a water tank connection pipe connecting the hot water connection hole of the high temperature water tank and the low temperature connection hole of the low temperature water tank.

Here, the mixing of the high temperature water of the hot water tank and the low temperature water of the low temperature water tank is the hot water discharged through the low temperature water supply hole of the high temperature water tank according to the operation of the low temperature water supplemental pump constituting the pump unit according to the operation of the control unit is low temperature It is supplied to the lower part of the low temperature tank through the hot water inlet of the water tank, the high temperature water introduced into the low temperature water tank is mixed with the low temperature water, and the low temperature water located above the low temperature water tank is connected to the inside of the high temperature water tank through the connection pipe. Can be delivered.

And the pump unit circulating the hot water stored in the high temperature water tank of the water tank through the first heat exchanger to increase the temperature of the high temperature water hot water pump; A low temperature circulation pump lowering the temperature of the low temperature water by circulating the low temperature water stored in the low temperature water tank of the water tank through a second heat exchanger; A heating circulation pump configured to transfer the warmth therein by heating the hot water stored in the hot water tank of the water tank; And a low temperature water replenishment pump for supplying hot water stored in the high temperature water tank of the water tank unit to the hot water supply or the low temperature water tank through the solenoid valve mounted in the middle of the pipe.

The energy-saving heat pump system according to the present invention is formed in a structure capable of directly mixing the low temperature water contained in the low temperature water tank with the high temperature water contained in the high temperature water tank to increase the temperature of the low temperature water contained in the low temperature water tank below the set temperature. Even if the temperature is lowered, the temperature can be quickly increased, and the operation can be performed safely and the operating range can be expanded compared to the conventional heat pump system.

In addition, the energy-saving heat pump system according to the present invention has a simple structure and easy installation and disassembly, and can increase the temperature of the cold water accommodated in the low temperature water tank through the water recycling process, thereby saving water. have.

In addition, the energy-saving heat pump system according to the present invention can perform a variety of operating modes through the pump unit consisting of a heat pump and a plurality of pumps, there is an effect that can be variously applied to the inland area, water shortage area, swimming pool, and the like. .

In addition, the energy-saving heat pump system according to the present invention has the effect of minimizing the shortage of the heat source generated when using the conventional air heat by using the hot water in the recirculation method.

1 is an external view showing an energy-saving heat pump system according to the present invention.
Figure 2 is an internal configuration showing an energy-saving heat pump system according to the present invention.
Figure 3 is a block diagram showing the water movement path of the energy-saving heat pump system according to the present invention.
Figure 4 is a flow chart showing the heating mode of the energy-saving heat pump system according to the present invention.
5 is a flowchart showing a high temperature mode of an energy-saving heat pump system according to the present invention.
Figure 6 is a flow chart showing a low temperature mode of the energy-saving heat pump system according to the present invention.
7 is a flow chart showing a hot water supply mode of the energy-saving heat pump system according to the present invention.
8 is a flow chart showing the cold water replenishment mode of the energy-saving heat pump system according to the present invention.
9 is a block diagram showing a cold water replenishment mode of Figure 8 in accordance with the present invention.
10 is a flow chart showing a refrigerant movement path of the energy-saving heat pump system according to the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the present embodiments are intended to complete the disclosure of the present invention, and the general knowledge in the art to which the present invention pertains. It is provided to fully convey the scope of the invention to those skilled in the art, and the invention is defined by the description of the claims. Meanwhile, the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, “comprises” or “comprising” means the presence of one or more other components, steps, operations and / or elements other than the components, steps, operations and / or elements mentioned or Does not exclude additional

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention, Figure 1 is an external view showing an energy-saving heat pump system according to the present invention, Figure 2 is an internal configuration showing an energy-saving heat pump system according to the present invention Figure 3 is a block diagram showing the water movement path of the energy-saving heat pump system according to the present invention.

Energy saving heat pump system 100 of the present invention includes a case 200, the control unit 300, the heat pump 400, the water tank unit 500, the pump unit 600.

The case 200 has a predetermined size and has a mounting space 220 formed therein.

That is, the case 200 varies in size depending on the installation location and environment, and the heat pump 400, the water tank part 500, and the pump part 600 are accommodated in the mounting space 220 therein.

The controller 300 is mounted on the case 200 and controls various operation modes.

In addition to the temperature of the low temperature water and the high temperature water, the control unit 300 is equipped with a display unit 320 to check the state of various operation modes.

That is, the control unit 300 is mounted on the case 200, and based on the information displayed on the display unit 320, a high temperature mode for increasing the temperature of the hot water, a low temperature mode for lowering the temperature of the cold water, and transmitting warmth therein. To control the heating mode, the hot water mode for supplying hot water, the cold water replenishment mode for increasing the temperature of the cold water through the hot water.

The heat pump 400 is disposed at one side of the mounting space 220 of the case 200.

The heat pump 400 includes a compressor 410 for compressing a refrigerant at a high temperature and high pressure, a first heat exchanger 420 and a second heat exchanger 430 disposed at intervals to condense or evaporate the refrigerant, and the first heat exchanger 430. An expansion valve 440 disposed between the first heat exchanger 420 and the second heat exchanger 430 to expand the refrigerant, and a direction change valve 450 to adjust the direction of the flow path of the refrigerant discharged from the compressor 410. It consists of

That is, the heat pump 400 is a device capable of cooling and heating, the first heat exchange for selectively condensing or evaporating the compressor 410 for compressing the refrigerant flowing along the refrigerant pipe and the refrigerant flowing along the refrigerant pipe The second heat exchanger 430, the expansion valve 440 for expanding the refrigerant flowing along the refrigerant pipe, and the refrigerant passing through the compressor 410. It is configured to include a direction switching valve 450 for guiding the refrigerant to be provided to the compressor 410.

Here, the structure of the heat pump 400 is the same as the existing general heat pump structure, the description of the detailed structure for each configuration is omitted.

The water tank 500 is disposed above the other side of the mounting space 220 of the case 200.

That is, the water tank unit 500 supplies hot water or cold water according to the operation of the controller 300.

And the water tank unit 500 is composed of a high temperature water tank 510, a low temperature water tank 520, a water tank connection pipe 530.

The high temperature water tank 510 is a high temperature water is stored, a heating circulation hole 511 for heating operation is formed in the lower part of the front and one side, the hot water and the heat pump 400 in the lower part of the front lower part and one side. Hot water heat exchange circulation hole 512 for heat exchange with the first heat exchanger 420 is formed, and a low temperature water supply hole 513 for supplying hot water to the low temperature water tank 520 is formed at the lower side of the other side, Hot water connection hole 514 is formed on the upper side of the other side.

The low temperature water tank 520 stores low temperature water, and a high temperature water inlet hole 521 is formed at a lower portion of one side to receive high temperature water discharged through the low temperature water supply hole 513 of the high temperature water tank 510. The low temperature heat exchange circulation hole 522 for heat exchange with the second heat exchanger 430 of the low temperature water and the heat pump 400 is formed at an upper side and a lower side of the other side, and the hot water connection hole 514. The low temperature connection hole 523 is formed at an upper portion of the corresponding side.

In addition, the water tank connection pipe 530 connects the hot water connection hole 514 of the high temperature water tank 510 and the low temperature connection hole 523 of the low temperature water tank 520.

The pump unit 600 is mounted in the mounting space 220 of the case 200.

That is, the pump unit 600 is mounted in the mounting space 220 of the case 200 located below the water tank unit 500, and the pump corresponding to the operation mode is operated individually according to the operation of the controller 300. Done.

The pump unit 600 circulates the hot water stored in the hot water tank 510 of the water tank 500 through the first heat exchanger 420 to increase the temperature of the hot water, thereby increasing the temperature of the hot water. A low temperature circulation pump 620 for lowering the temperature of the low temperature water by circulating the low temperature water stored in the low temperature water tank 520 of the water tank 500 through the second heat exchanger 430, and the high temperature of the water tank 500 The heating circulation pump 630 for heating the hot water stored in the water tank 510 to transmit warmth therein, and the solenoid valve mounted on the hot water stored in the hot water tank 510 of the water tank 500 in the middle of the pipe ( It consists of a cold water replenishment pump 640 to supply the hot water supply or the low temperature water tank 520 through 650.

That is, the pump unit 600 is a high temperature circulating pump 610 to increase the temperature of the hot water according to the operation of the control unit 300, a low temperature circulating pump 620 to lower the temperature of the low temperature water, to transmit the warmth therein The heating circulation pump 630, the hot water supply or the low temperature water tank 520, the low temperature water replenishment pump 640 for supplying hot water is operated individually.

Referring to the embodiment of the energy-saving heat pump system configured as described above are as follows.

First, a case 200 having a predetermined size and having a mounting space 220 formed therein is formed.

In addition, a control unit 300 is mounted on the front surface of the case 200 to control various operation modes, and to display the display unit 320 for checking various operation modes in addition to the temperature of the low temperature water and the high temperature water.

Next, the compressor 410 for compressing the refrigerant at a high temperature and high pressure to one side of the mounting space 220 of the case 200, the first heat exchanger 420 and the first heat exchanger 420 disposed at intervals to condense or evaporate the refrigerant. 2 an expansion valve 440 disposed between the heat exchanger 430, the first heat exchanger 410, and the second heat exchanger 420 to expand the refrigerant, and the flow path of the refrigerant discharged from the compressor 410. It is equipped with a heat pump 400 consisting of a direction change valve 450 for adjusting the direction.

And the hot water is stored in the upper portion of the other side of the mounting space 220 of the case 200, the heating circulating hole 511 for the heating operation is formed in the lower front and one side, the lower surface of the front and one side In the hot water and the first heat exchanger 420 of the heat pump 400 and the hot water heat exchange circulation hole 512 for heat exchange is formed, the cold water for supplying hot water to the low temperature water tank 520 in the lower side of the other side The supply hole 513 is formed, the hot water tank 510 and the low temperature water is stored in the upper portion of the other side is formed hot water connection hole 514, the low temperature water supply hole of the hot water tank (510) on one side ( A high temperature water inlet 521 is formed to receive the high temperature water discharged through the 513, and the second heat exchanger 430 of the low temperature water and the heat pump 400 is disposed at an upper side and a lower side of the other side. A low temperature heat exchange circulation hole 522 is formed for heat exchange, and one side corresponding to the hot water connection hole 514. The tank connection pipe connecting the low temperature water tank 520 and the hot water connection hole 514 of the high temperature water tank 510 and the low temperature water connection hole 523 of the low temperature water tank 520 in the upper portion thereof. 530 is equipped with a water tank (500).

Next, the high temperature water stored in the high temperature water tank 510 of the water tank 500 through the first heat exchanger 420 to the mounting space 220 of the case 200 positioned below the water tank 500. The high temperature circulation pump 610 for circulating operation to increase the temperature of the high temperature water, and the low temperature water stored in the low temperature water tank 520 of the water tank 500 are circulated through the second heat exchanger 430 to increase the temperature of the low temperature water. Low temperature circulating pump 620, the heating circulation pump 630 for transmitting the warmth by operating the hot water stored in the high temperature water tank 510 of the water tank unit 500, the high temperature water tank of the water tank 500 Energy-saving type is equipped with a pump unit 600 consisting of a low-temperature water supplementary pump 640 for supplying hot water stored in the 510 to the hot water supply or low-temperature water tank 520 through the solenoid valve 650 is installed in the middle of the pipe Installation of the heat pump system 100 is completed.

Here, the assembly sequence of the energy-saving heat pump system reveals that it can proceed differently from the above.

Next, the operation mode of the energy saving heat pump system 100 according to the operation of the control unit 300 will be described.

First, in order to transmit the warmth of the hot water of the high temperature water tank 510 constituting the water tank 500, the heating circulation pump 630 constituting the pump 600 is operated.

Thereafter, the hot water stored in the hot water tank 510 is discharged through the heating circulation hole 511 formed at the front lower side, and then transfers warmth to the inside through the heating circulation pump 630 and the heating pipe, and then one side It is introduced into the hot water tank 510 through the heating circulation hole 511 formed in the upper portion of the.

Secondly, in order to increase the temperature of the hot water stored in the high temperature water tank 510 constituting the water tank 500, the high temperature circulation pump 610 constituting the pump 600 is operated. .

Thereafter, the high temperature water stored in the high temperature water tank 510 is discharged through the hot water heat exchange circulation hole 512 formed at the front lower side, and then heated through the high temperature circulation pump 610 and the first heat exchanger 420. It is introduced into the hot water tank 510 through the hot water heat exchange circulation hole 512 formed at the lower side of one side.

Third, in order to lower the temperature of the low temperature water stored in the low temperature water tank 520 constituting the water tank 500, the low temperature circulation pump 620 constituting the pump 600 is operated. .

Thereafter, the low temperature water stored in the low temperature water tank 520 is discharged through the low temperature heat exchange circulation hole 522 formed at the lower side of one side, and then cooled through the low temperature circulation pump 620 and the second heat exchange 430. Next, the low-temperature heat exchange circulation hole 522 formed at an upper portion of one side is introduced into the low temperature water tank 520.

Fourth, if you want to use the hot water stored in the hot water tank 510 constituting the water tank 500 as a hot water supply, to operate the cold water replenishment pump 640 constituting the pump 600 do.

Thereafter, the high temperature water stored in the high temperature water tank 510 is discharged through the low temperature water supply hole 513 formed at the lower side of the other side, and then passes through the low temperature water supplement pump 640, followed by a hot water supply pipe to the outside. Will be supplied.

At this time, the solenoid valve 650 mounted to the pipe connected to the low temperature water supplement pump 640 guides the high temperature water to the hot water supply pipe.

Fifth, in order to increase the temperature of the low temperature water stored in the low temperature water tank 520 by using the high temperature water stored in the high temperature water tank 510 constituting the water tank 500, the pump unit 600 The cold water make-up pump 640 is configured to operate.

Thereafter, the high temperature water stored in the high temperature water tank 510 is discharged through the low temperature water supply hole 513 formed at the lower side of the other side, and then passes through the low temperature water supplement pump 640 to the low temperature water tank 520. Will be supplied.

At this time, the solenoid valve 650 mounted to the pipe connected to the low temperature water supplement pump 640 guides the high temperature water to the low temperature water tank 520.

Specifically, the process of mixing the hot water of the hot water tank 510 and the cold water of the cold water tank 520 will be described with reference to FIG. 9.

First, when the cold water supplemental pump 640 of the pump unit 600 according to the operation of the control unit 300 operates, the hot water of the hot water tank 510 is discharged through the cold water supply hole 513 After passing through the low temperature water replenishment pump 640 and the solenoid valve 650, flowing through the high temperature water inlet 521 of the low temperature water tank 520, and then exchanging heat with the low temperature water of the low temperature water tank 520. This is done.

At this time, the low temperature water rising upward according to the high temperature water introduced through the high temperature water inlet 521 of the low temperature water tank 520 is a low temperature of the high temperature water tank 510, the hot water connecting hole 514, and the low temperature water tank 520. Through the water tank connection pipe 530 connecting the connection hole 523 is introduced into the high temperature water tank 510 to increase the temperature of the low temperature water stored in the low temperature water tank 520.

That is, the low temperature water contained in the low temperature water tank 520 is directly mixed with the high temperature water supplied from the high temperature water tank 510, and the temperature thereof rises. Then, the low temperature water is supplied to the high temperature water tank 510 through the water tank connection pipe 530 to be heated. After the temperature is increased by mixing with the hot water contained in the water tank 510, the process of re-supplying the cold water tank 520 is performed several times.

As described above, the energy-saving heat pump system of the present invention has an advantage in that when the temperature of the low temperature water stored in the low temperature water tank decreases, the high temperature water of the high temperature water tank and the low temperature water of the low temperature water tank can be exchanged through simple operation of the control unit and the pump unit. have.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the embodiments represented in the present invention are not intended to limit the technical spirit of the present invention, but to describe the present invention, and the scope of the present invention is not limited to these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas that are equivalent or equivalent to the scope of the present invention should be construed as being included in the scope of the present invention.

100: energy saving heat pump system
200: case 220: mounting space
300: control unit 320: display unit
400: heat pump 410: compressor
420: first heat exchanger 430: second heat exchanger
440: expansion valve 450: directional control valve
500: water tank 510: high temperature water tank
511: heating circulation hole 512: hot water heat exchange circulation hole
513: low temperature water supply hole 514: hot water connection hole
520: low temperature water tank 521: high temperature water inlet
522: low temperature heat exchange circulation hole 530: water tank connection piping
600: pump unit 610: high temperature circulation pump
620: low temperature circulation pump 630: heating circulation pump
640: low temperature water replenishment pump 650: solenoid valve

Claims (4)

A case having a mounting space formed therein;
A control unit mounted to the case, controlling various operation modes, and a display unit;
Is disposed on one side of the mounting space of the case, a compressor for compressing the refrigerant at a high temperature and high pressure, the first heat exchanger and the second heat exchanger, which is arranged at intervals to condense or evaporate the refrigerant, the first heat exchanger and the second An expansion valve disposed between the heat exchangers and expanding the refrigerant, and a heat pump configured to control a direction of the flow path of the refrigerant discharged from the compressor;
A water tank unit disposed above the other side of the mounting space and supplying hot water or cold water;
It is disposed in the mounting space of the case located in the lower portion of the water tank unit, the pump unit for operating the pump corresponding to each operation mode according to the operation of the control unit; includes;
The water tank unit,
The hot water is stored, and heating circulation holes for heating operation are formed in the lower part of the front and one side, and the hot water heat exchange circulation holes for heat exchange with the first heat exchanger of the hot water and the heat pump are formed in the lower part of the front and one side. A low temperature water supply hole for supplying hot water to the low temperature water tank is formed at the lower side of the other side, and a high temperature water tank at which the hot water connection hole is formed at the upper side of the other side;
The low temperature water is stored, and the lower part of one side is formed with a high temperature water inlet for receiving the high temperature water discharged through the low temperature water supply hole of the high temperature tank, and the upper part of the one side and the lower part of the other side of the low temperature water A low temperature heat exchange circulating hole for heat exchange with a second heat exchanger, and a low temperature water tank having a low temperature connection hole formed at an upper portion of the one side corresponding to the hot water connection hole; And
Energy-saving heat pump system comprising a; water tank connection pipe for connecting the hot water connection hole of the hot water tank and the low temperature connection hole of the low temperature water tank.
delete The method according to claim 1,
The mixing of the high temperature water of the high temperature tank and the low temperature water of the low temperature tank,
The hot water discharged through the low temperature water supply hole of the high temperature water tank is supplied to the lower portion of the low temperature water tank through the high temperature water inlet of the low temperature water tank according to the operation of the low temperature water supplement pump constituting the pump unit according to the operation of the control unit. The hot water introduced into the low temperature water tank is mixed with the low temperature water, and the low temperature water located above the low temperature water tank is delivered to the inside of the high temperature water tank through a connection pipe.
The method of claim 1, wherein the pump unit,
A high temperature circulation pump configured to increase the temperature of the hot water by circulating the hot water stored in the high temperature water tank of the water tank through a first heat exchanger;
A low temperature circulation pump lowering the temperature of the low temperature water by circulating the low temperature water stored in the low temperature water tank of the water tank through a second heat exchanger;
A heating circulation pump configured to transfer the warmth therein by heating the hot water stored in the hot water tank of the water tank;
Energy-saving heat pump system, characterized in that consisting of; a low-temperature water supplementary pump for supplying hot water stored in the hot water tank of the water tank unit to the hot water supply or low temperature water tank through the solenoid valve mounted in the middle of the pipe.

Images