KR20190025078A - Water heater using heat pump and its control method - Google Patents

Abstract

The present invention relates to a hot water system using a heat pump. A heat pump system, which is composed of a compressor, a condenser, an expansion valve, and an evaporator, comprises: a high pressure tank which is situated between the compressor and the condenser, and in which a refrigerant of a high temperature/high pressure compressed in the compressor can be accommodated; a control valve situated between the high pressure tank and the condenser, and controlling flow of the refrigerant of a high temperature/high pressure within the high pressure tank; and a fluid supply pipe which is connected to the condenser and through which fluid can flow. The refrigerant of a high temperature/high pressure of the high pressure tank flows in the direction of the condenser through control of the control valve. Moreover, the fluid exchanges heat with the refrigerant of the condenser.

Description

Technical Field The present invention relates to a hot water system using a heat pump and a control method thereof,

The present invention relates to a hot water system using a heat pump and a control method thereof.

A hot water supply system using a heat pump system is composed of a compressor, a condenser, an expansion valve, and an evaporator. The high temperature / high pressure refrigerant compressed in the compressor is condensed in a condenser, and the condensation heat is used for generating hot water. The refrigerant is expanded in the expansion valve and evaporated in the evaporator, and then the evaporated low-temperature / low-pressure refrigerant is supplied again to the compressor.

Since the compressor and the condenser are directly connected to each other, the refrigerant flowing into the condenser is maintained only at the high temperature / high pressure state generated by the compressor, so that the refrigerant can not maintain the high temperature / high pressure higher than that of the compressor. Therefore, the temperature of hot water generated by using the condensation heat could not be increased.

Registration No. 10-1309210 (Oct. Registration No. 10-1169706 (2012.07.24.)

The present invention provides a technique capable of producing high-temperature hot water by generating a high-temperature / high-pressure refrigerant that is higher in performance than a compressor using a heat pump system.

A hot water system using a heat pump according to an embodiment of the present invention is a heat pump system including a compressor, a condenser, an expansion valve, and an evaporator. The hot water system includes a high-temperature / high- A control valve which is located between the high-pressure tank and the condenser and controls the flow of high-temperature / high-pressure refrigerant in the high-pressure tank, and a fluid supply pipe connected to the condenser and capable of flowing a fluid, , The high temperature / high pressure refrigerant of the high pressure tank flows in the direction of the condenser by the control valve control, and the fluid exchanges heat with the refrigerant of the condenser.

The hot water system using the heat pump may further include a sensing unit that senses a pressure of the high pressure tank and a temperature of the refrigerant. When the sensed pressure and temperature exceed a preset value, the control valve may be opened .

The condenser may be a plate heat exchanger.

A method of controlling a hot water system using a heat pump according to an embodiment of the present invention uses a hot water system using a heat pump defined in any one of claims 1 to 3, The control valve is closed when the refrigerant of the high pressure tank enters the high pressure tank, and when the pressure and the temperature of the high pressure tank exceeds the set value, the control valve is opened, and the refrigerant discharged from the high pressure tank is discharged to the condenser And the fluid flowing through the condenser is heat-exchanged with the refrigerant introduced, and the temperature of the fluid is capable of absorbing the heat of the refrigerant.

The temperature of the refrigerant discharged from the high-pressure tank may be in the range of 75 ° C to 85 ° C.

According to the embodiment of the present invention, when a high-pressure tank and a regulating valve are disposed between the compressor and the condenser so that the regulating valve is kept closed, the temperature and pressure of the refrigerant discharged from the compressor to the high- . When the regulating valve is opened, the refrigerant whose temperature and pressure are increased flows in the direction of the condenser and can be heat-exchanged with the fluid flowing in the condenser. The arrangement of the high pressure tank and the control valve can produce hot water of a higher temperature than the conventional one without the control valve and the high pressure tank.

FIG. 1 is a schematic diagram of a hot water system system using a heat pump according to an embodiment of the present invention. FIG.
2 is a schematic view showing the heat pump cycle diagram of FIG. 1;
3 is a schematic view showing the heat pump cycle temperature distribution of FIG. 1;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

A hot water system using a heat pump according to an embodiment of the present invention will be described with reference to FIG.

1 is a system diagram of a hot water system using a heat pump according to an embodiment of the present invention.

1, a hot water system using a heat pump according to the present embodiment includes a compressor 10, a condenser 20, an expansion valve 30, an evaporator 40, a high-pressure tank 50, a control valve (not shown) 60 and a fluid supply pipe 70 and uses the heat pump system to produce hot water.

The condenser 20 is formed of a known plate heat exchanger or a tubular heat exchanger so that the heat of the refrigerant discharged from the compressor 10 is heat-exchanged with the outside air to discharge the refrigerant. The evaporator 40 exchanges the refrigerant discharged from the expansion valve 30 with the room air to heat the refrigerant discharged from the indoor side Absorbs heat in the air. The compressor (10), the condenser (20), the expansion valve (30) and the evaporator (40) are connected to each other by a refrigerant tube through which the refrigerant flows.

Although not shown in FIG. 1, a receiver (not shown) may be disposed between the condenser 20 and the expansion valve 30. The receiver is composed of a container for temporarily storing the refrigerant passing through the condenser.

The detailed configuration of the compressor 10, the condenser 20, the expansion valve 30, the evaporator 40 and the receiver is the same as that of the known heat pump compressor, condenser, expansion valve, evaporator and receiver, Is omitted.

The high pressure tank 50 and the regulating valve 60 are disposed on the refrigerant pipe connecting the compressor 10 and the condenser 20. The high pressure tank 50 is adjacent to the discharge end of the compressor 10 and the control valve 60 is located between the high pressure tank 50 and the condenser 20 and adjacent to the input end of the condenser 20.

The high pressure tank 50 has a predetermined volume and has an inlet connected to the discharge end of the compressor 10 and a discharge port connected to the regulating valve 60. The discharge port is located higher than the inlet port with respect to the inner bottom of the high-pressure tank (50). The high-temperature / high-pressure refrigerant discharged from the compressor 10 flows into the high-pressure tank 50 through the inlet port and can be discharged through the discharge port.

The control valve (60) controls the flow of the refrigerant discharged from the discharge port of the high-pressure tank (50). The high temperature / high pressure refrigerant flowing into the high pressure tank 50 can not flow in the direction of the evaporator 40 and remains in a trapped state when the regulating valve 60 is kept closed. However, when the control valve 60 is opened, the refrigerant in the high-pressure tank 50 can flow toward the condenser 20.

1, the control valve 60 is disposed on the refrigerant pipe at a distance from the high-pressure tank 50, but the control valve 60 may be disposed at the discharge port of the high-pressure tank 50. The position of the regulating valve 60 may vary depending on the design of the hot water system using the heat pump.

The fluid supply pipe 70 is connected to the condenser 20 through which a fluid such as water can flow. The fluid in the fluid supply pipe (70) and the refrigerant introduced into the condenser (20) can exchange heat. The heat of the refrigerant is transferred to the fluid, so that the water temperature can rise. The water that has absorbed the heat of the refrigerant in the condenser 20 can be supplied with hot water, heating water, or the like. The water absorbing the heat of the refrigerant can be stored in a separate storage tank (not shown).

The hot water system using the heat pump according to the embodiment of the present invention may further include a sensing unit 80. [

The sensing unit 80 is disposed in the high pressure tank 50 and can sense the pressure and temperature of the refrigerant between the compressor 10 and the control valve 60. When the pressure and the temperature of the refrigerant sensed by the sensing unit 80 exceed the preset value, the control valve 60 may be opened. On the contrary, when the pressure and temperature of the refrigerant sensed by the sensing unit 80 are lower than the predetermined value, the control valve 60 may be closed.

The hot water system using the heat pump according to the embodiment of the present invention may further include a control unit (not shown). The control unit is electrically connected to the sensing unit and controls the hot water system using the heat pump.

The following describes the method of controlling the hot water system using the heat pump described above.

Closing the regulating valve, opening the regulating valve, and heat exchanging the fluid with the refrigerant.

A hot water system control method using a heat pump is capable of producing hot water using a heat pump.

A high pressure tank 50 and a control valve 60 are disposed on the refrigerant pipe connecting the compressor 10 and the condenser 20. That is, the high-pressure tank 50 and the control valve 60 are disposed at the discharge end of the compressor 10.

When the high temperature / high pressure refrigerant discharged from the compressor 10 enters the high pressure tank 50, the control valve 60 installed at the discharge end of the high pressure tank 50 is closed. At this time, a phenomenon such as a pump-down phenomenon occurs in the compressor 10, so that refrigerant of a higher temperature and a higher pressure is generated, and refrigerant of a higher temperature and pressure is contained in the high-pressure tank 50 by this phenomenon. That is, when the compressor 10 continues to operate in a state in which the refrigerant of the high-pressure tank 50 is not discharged due to the locking of the control valve 60, the refrigerant of high temperature / high pressure continuously flows into the high-pressure tank 50, 10 and the regulating valve 60 can be gradually increased as shown in the cycle diagrams and the temperature distribution diagrams of [Fig. 2] and [Fig. 3].

The temperature of the refrigerant in the high-pressure tank 50 before the pump-down phenomenon may be 30 ° C to 50 ° C. However, the refrigerant temperature in the high-pressure tank 50 may be 70 ° C to 90 ° C due to the pump-down phenomenon of the compressor 10. The temperature and pressure of the refrigerant in the high-pressure tank 50 may vary depending on the control of the regulating valve 60.

When the refrigerant is filled with the high pressure tank 50 at a high temperature / high pressure and the refrigerant pressure and temperature of the high pressure tank 50 sensed by the sensing unit exceed the set value, the control valve 60 is opened to the control of the control unit .

By opening the regulating valve 60, the refrigerant in the high-pressure tank 50 can flow in the direction of the condenser 20 and exchange heat with the fluid of the fluid supply pipe 70. At this time, since the temperature of the refrigerant is higher than the temperature of the fluid, the heat of the refrigerant moves to the fluid, and the temperature of the fluid may rise. That is, the refrigerant and the fluid undergo heat exchange in the condenser 20 to produce hot water.

Accordingly, the existing heat pump system can produce only hot water of 40 ° C or less, but it can produce hot water of 70 ° C to 90 ° C according to the setting of the control valve 60, and can supply hot water or heating water.

On the other hand, when the regulating valve 60 is opened, the refrigerant temperature and pressure between the regulating valve 60 and the compressor 10 can be gradually lowered as shown in the [Figure 2] and [Figure 3] .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

10: compressor 20: condenser
30: expansion valve 40: evaporator
50: high-pressure tank 60: regulating valve
70: fluid supply pipe 80:

Claims (5)

In a heat pump system composed of a compressor, a condenser, an expansion valve and an evaporator,
A high-pressure tank disposed between the compressor and the condenser and capable of receiving high-temperature / high-pressure refrigerant compressed in the compressor,
A control valve located between the high pressure tank and the condenser and controlling the flow of the high temperature / high pressure refrigerant in the high pressure tank;
And a fluid supply pipe connected to the condenser,
/ RTI >
The high temperature / high pressure refrigerant in the high pressure tank flows in the direction of the condenser with the control valve control, and the fluid undergoes heat exchange with the refrigerant in the condenser
Hot water system using heat pump. The method of claim 1,
And a sensing unit for sensing the pressure of the high-pressure tank and the temperature of the refrigerant,
When the pressure sensed by the sensing unit and the temperature exceed the set value, the control valve is opened
Hot water system using heat pump. The method of claim 1,
The condenser is a hot water system using a heat pump which is a plate type heat exchanger. A hot water system using a heat pump as defined in any one of claims 1 to 3,
When the high temperature / high pressure refrigerant discharged from the compressor enters the high pressure tank, the control valve located at the high pressure tank discharge end is locked and
Opening the regulating valve when the pressure and temperature of the high-pressure tank exceeds a set value, and
The refrigerant discharged from the high-pressure tank flows into the condenser, and the fluid flowing through the condenser exchanges heat with the refrigerant introduced into the condenser,
And a control unit for controlling the hot water system. 5. The method of claim 4,
Wherein the temperature of the refrigerant discharged from the high-pressure tank is in the range of 75 캜 to 85 캜.

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