KR200418092Y1 - Ground Source Heat Pumps - Google Patents

Abstract

The present invention is a heat pump using a geothermal heat, the refrigerant compressed in the compressor is condensed through the indoor, external heat exchanger and then recovered to the compressor in a state of constant pressure and constant temperature, so that the outdoor temperature deviation or severe Since the refrigerant of constant temperature and constant pressure flows into the compressor of the heat pump installed in a place where the cooling and heating conditions of the room are constantly changing, it does not generate a bunch, and particularly relates to a heat pump apparatus using geothermal heat to improve heat exchange efficiency.

To this end, the present invention provides a heat pump apparatus in which an indoor heat exchanger connected to an air conditioner and an outdoor heat exchanger connected to an underground heat exchanger are connected to a compressor through a four-way valve to selectively condensate and evaporate refrigerant, wherein the indoor and external heat exchangers A pressure regulator having a constant pressure coil configured to maintain the condensed refrigerant at a constant pressure; The pressure regulator is provided with four ports; The first port connects the indoor and external heat exchanger with the positive pressure coil, the second port connects the positive pressure coil and the expansion valve, the third port connects the four-way valve and the constant pressure regulator, and the fourth cloth It is characterized by connecting the constant pressure and the compressor.

Positive pressure receiver, receiver, positive pressure coil

Description

Ground Source Heat Pumps using Geothermal Heat

1 is a schematic view showing a cycle of the heat pump apparatus of the embodiment of the present invention

2 is a schematic view showing the structure of a pressure regulator of a heat pump device according to an embodiment of the present invention;

<Code Description of Main Parts of Drawing>

1: compressor 2: indoor heat exchanger

3: outdoor heat exchanger 4: air conditioner

5: underground heat exchanger 6: expansion valve

7: four-way valve 8: constant pressure

9: receiver 10: filter

11 connector 12 bypass tube

13 temperature sensing unit 14 electronic control valve

15: static pressure tank 16: static pressure coil

17: first port 18: second port

19: third port 20: fourth port

The present invention relates to a heat pump apparatus using geothermal heat, and more particularly, the refrigerant condensed through an indoor and an external heat exchanger is maintained at a constant pressure and a constant temperature to improve evaporation and a compressor. The present invention relates to a heat pump apparatus using geothermal heat to increase the heat exchange efficiency by preventing overheating.

In general, a heat pump type refrigeration cycle device is a compressor, an indoor heat exchanger, an expansion valve, and an outdoor heat exchanger connected to four-way valves. When the four-way valve is operated to condense the indoor heat exchanger, the room is heated. System.

In the case of a geothermal heat pump, it is a technique known recently to connect an outdoor heat exchanger with an underground heat exchanger buried in the ground so that heat exchange occurs during condensation and evaporation thereof to improve evaporation and condensability of the indoor heat exchanger.

However, in the case of the conventional geothermal heat pump, since the refrigerant from the compressor is heat-exchanged while circulating the indoor and external heat exchangers, it is recovered to the compressor.

Since the temperature and pressure of the condensed refrigerant discharged from the indoor and external heat exchangers cannot be constantly maintained according to the outdoor temperature and the cooling and heating conditions of the room, the compressor when the irregular refrigerant is introduced into the compressor. The compression efficiency of the compressor was low and the compression load was not constant, causing the compressor to easily break down.

The present invention was developed in view of the conventional problems, and an object of the present invention is a heat pump using geothermal heat, in which a refrigerant compressed in a compressor is condensed while passing through an indoor and an external heat exchanger, so that a constant pressure and a constant temperature are maintained. By allowing the compressor to be recovered, since the refrigerant of constant temperature and constant pressure flows into the compressor of the heat pump installed in an area where outdoor temperature variation is severe or a place where the cooling and heating conditions of the room are constantly changing, no heat is generated. The present invention provides a heat pump apparatus using geothermal heat.

In order to achieve the above object, the present invention provides a heat pump apparatus in which an indoor heat exchanger connected to an air conditioner and an outdoor heat exchanger connected to an underground heat exchanger are connected to a compressor through a four-way valve to selectively condensate and evaporate refrigerant. A constant pressure coil having a constant pressure coil for maintaining the refrigerant condensed in the external heat exchanger at a constant pressure; The pressure regulator is provided with four ports; The first port connects the indoor and external heat exchanger with the positive pressure coil, the second port connects the positive pressure coil and the expansion valve, the third port connects the four-way valve and the constant pressure regulator, and the fourth cloth It is characterized by connecting the constant pressure and the compressor.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a cycle of the heat pump device according to an embodiment of the present invention, Figure 2 is a schematic view showing the structure of a pressure regulator of the heat pump device according to an embodiment of the present invention. The heat pump according to the embodiment of the present invention includes a compressor (1), a constant pressure (8), a receiver (9) having a heat storage function, an expansion valve (6), and an indoor and external heat exchanger (2) (3). (1) and the indoor and external heat exchangers (2) (3) are connected by a four-way valve (7). The four-way valve (7) is connected to the compressor (1) and the indoor heat exchanger (2) when heating to heat the room by the condensation heat of the indoor heat exchanger (2), when cooling the outdoor heat exchange with the compressor (1) By connecting the group (3) to the indoor cooling by the evaporation in the indoor heat exchanger (2) is achieved.

The pressure regulator (8) is a form in which the constant pressure coil (16) is built in the constant pressure tank (15), and has four ports. The first port 17 is connected to the indoor and external heat exchangers 2 and 3 to introduce the condensed refrigerant into the positive pressure tank 15, and the second port 18 is connected to the positive pressure coil 16. The receiver 9 is connected, the third port 19 is connected to the four-way valve (7), and finally the fourth port 20 is connected to the compressor (1).

The receiver 9 has a function of storing and regenerating liquid refrigerant and is connected through the expansion valve 6 and the filter 10. Since the receiver 9 stores a part of the refrigerant circulated into the heat pump, the circulating liquid refrigerant is temporarily stored while being mixed with other circulating liquid refrigerant, and the temperature is at a constant temperature. The filter 10 serves as gas-liquid separation and foreign matter screening to prevent a refrigerant in a gaseous state from entering the expansion valve 6.

The indoor heat exchanger (2) is connected to the air conditioner (4) and the pump (4a) installed in the room to form a closed circuit, the air conditioner (4) is composed of a fan coil unit.

The outdoor heat exchanger (3) is connected to the underground heat exchanger (5) and the pump (5a) in the underground, the underground heat exchanger (5) is composed of a citron tube. The underground heat exchanger (5) is embedded in a plurality depending on the cooling, heating capacity and the water is maintained at a temperature of 15 ℃ is circulated. The air conditioner (4) is also a way that the water is circulated and the water of about 15 ℃, the heating is about 50 ℃ circulating when circulating.

In addition, a temperature sensing unit 13 is attached to the connection pipe 11 connecting the third port 19 of the pressure regulator 8 and the four-way valve 7, and the connection pipe 11 and the expansion valve 6 are attached thereto. ) Is provided with a bypass tube 12 for connecting the electronic control valve 14 to open and close the bypass tube 12 according to whether the temperature sensing unit 13 senses the temperature. When the high temperature liquid refrigerant is not evaporated inside the connection pipe 11 according to the temperature sensing of the temperature sensing unit 13, an opening signal is input to a controller (not shown) so that the electronic control valve 14 is opened. The control unit opens the electronic control valve 14, the high-temperature liquid refrigerant is sent to the expansion valve (6) to be evaporated again in the indoor, external heat exchanger (2) (3) to increase the thermal efficiency.

The heat pump according to the embodiment of the present invention constituted as described above allows the condensed refrigerant to be evaporated by the constant temperature constant pressure, thereby improving heat exchange efficiency in the indoor and external heat exchangers, and the refrigerant flowing into the compressor is also constant pressure and constant temperature. No overloading increases device reliability.

Referring to the heating cycle of the embodiment of the present invention as follows.

The high temperature and high pressure refrigerant compressed by the compressor (1) is sent to the indoor heat exchanger (2) via the four-way valve (7) and heats the water circulated to the air conditioner (4) in the process of condensation to heat the room. Let's do it. The refrigerant condensed in the indoor heat exchanger (2) flows into the positive pressure regulator (8), passes through the positive pressure coil (16), and the pressure remains constant, and then enters the receiver (9) to maintain a constant temperature. do. Since the receiver 9 contains a refrigerant circulating a heating cycle, the refrigerant having a constant pressure in the positive pressure coil 16 is mixed with the refrigerants introduced into the receiver 9 first and the temperature is leveled. It becomes constant.

Constant temperature and constant pressure refrigerant from the receiver (9) is evaporated in the outdoor heat exchanger (3) via the expansion valve (6) at this time to cool the water circulated into the underground heat exchanger (5). The refrigerant evaporated in the outdoor heat exchanger (3) is introduced again into the constant pressure (8) via the connecting pipe (11) and then circulated to the compressor (1) is repeated. In addition, the high temperature refrigerant which is not evaporated in the outdoor heat exchanger 3 is detected by the temperature sensing unit 13 installed in the connection pipe 11, and the bypass pipe 12 is opened through the electronic control valve 14. When the high temperature refrigerant is evaporated again in the outdoor heat exchanger (3) through the expansion valve (6) to increase the heat exchange efficiency.

In the case of a cooling cycle, the compressor (1) and the outdoor heat exchanger (3) are directly connected by the operation of the four-way valve (7) to allow the refrigerant to condense in the outdoor heat exchanger (3) and the indoor heat exchanger (2). The same function as the heating cycle except for allowing the water circulated inside the air conditioner (4) to cool while the evaporation occurs.

As described above, according to the present invention, after condensing the refrigerant from the compressor of the heat pump, it is made into a constant pressure in the pressure regulator and is made to be constant temperature in the receiver so that the rapid temperature and pressure of the refrigerant do not change, and by evaporating the refrigerant of constant temperature and constant pressure, The heat exchange efficiency in the outdoor unit is improved, the refrigerant compressibility of the compressor is improved, and the life of the compressor is extended.

In addition, the refrigerant that has not been evaporated is further circulated through the expansion valve to be evaporated, thereby further improving heat exchange efficiency.

Claims (3)

In a heat pump apparatus in which an indoor heat exchanger connected to an air conditioner and an outdoor heat exchanger connected to an underground heat exchanger are connected to a compressor through a four-way valve to selectively condensate and evaporate refrigerant. A constant pressure coil having a constant pressure coil in which the refrigerant condensed in the indoor and external heat exchangers is maintained at a constant pressure; The pressure regulator is provided with four ports; The first port connects the indoor and external heat exchanger with the positive pressure coil, The second port connects the constant pressure coil and the expansion valve, The third port connects the four-way valve and the constant pressure regulator, The fourth fabric is a geothermal heat pump device characterized in that for connecting the constant pressure and the compressor. The method of claim 1, And a receiver is installed between the second port of the constant pressure valve and the expansion valve to reduce a temperature deviation of the refrigerant while storing a part of the circulating refrigerant. The method of claim 2, The four-way valve and the third port of the pressure regulator are connected by a connecting pipe, The connection pipe is provided with a temperature sensing unit, The connection pipe and the expansion valve are connected to a bypass pipe having an electronic control valve, so that the high temperature refrigerant that has not evaporated passes through the connection pipe, and the temperature sensing unit detects this and opens the bypass pipe by the electronic control valve. While being circulated again to the expansion valve while using a heat pump using geothermal heat.

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