KR20170054373A - Refrigeration Cycle Device - Google Patents

Abstract

The present invention provides a refrigeration cycle apparatus, comprising: a first evaporator which evaporates a refrigerant from liquid to gas; a compressor which communicates with the first evaporator with fluid and which compresses and discharges the refrigerant; a condenser which is placed in between the first evaporator and the compressor and which liquefies the refrigerant discharged from the compressor from gas to liquid; a first expansion valve which expands the refrigerant from the condenser to the inlet of the first evaporator; a refrigerant distribution flow pipe which is installed in between the condenser and the first expansion valve and which distributes the flow of the refrigerant into a first refrigerant flow and a second refrigerant flow; and a second evaporator which evaporates the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow pipe and lowers the temperature of the condenser. The present invention can reduce the temperature of the heat discharged from the surrounding area of a condenser and relieve greenhouse effects and global warming.

Description

Refrigeration cycle device

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigeration cycle apparatus, and more particularly, to a refrigeration cycle apparatus that further includes an evaporator in a refrigeration cycle apparatus to lower a temperature of heat discharged according to a change in state of refrigerant.

Conventional refrigeration systems include a compressor, a condenser, an expansion valve and an evaporator, and are connected to each other to establish serial fluid communication therebetween. Cooling is achieved through evaporation of the liquid refrigerant under reduced temperature and pressure. Initially, the vapor refrigerant is introduced into the compressor for compression within the compressor. The compression of the vapor refrigerant results in higher temperatures and pressures, and the vapor refrigerant from the compressor flows into the condenser. The condenser acts as a heat exchanger and is associated with the periphery in heat exchange. Heat is transferred from the vapor refrigerant to the periphery, and therefore the temperature of the refrigerant is lowered.

In this way, a change in state occurs and the vapor refrigerant condenses into a liquid. The liquid refrigerant flows from the condenser to the expansion valve, and since the liquid refrigerant flows through the expansion valve, the pressure of the refrigerant is reduced and expanded before entering the evaporator. As the liquid refrigerant undergoes a state change to the vapor refrigerant, the heat of the peripheral portion is transferred to the refrigerant.

The heat absorbed by the evaporator is released from the condenser to the periphery due to the change in the refrigerant condition of the refrigeration cycle unit. The heat released to the condenser is released into the atmosphere, causing problems such as promoting greenhouse effect and global warming.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a refrigeration cycle apparatus which includes an evaporator in a condenser to lower the temperature of heat discharged from a periphery of a condenser according to a change in state of the refrigerant .

According to an aspect of the present invention, there is provided a refrigerator comprising: a first evaporator for evaporating a refrigerant from a liquid to a gas; a compressor in fluid communication with the first evaporator for compressing and discharging the refrigerant; And a first expansion valve for expanding the refrigerant from the condenser to the first evaporator inlet, the refrigerating cycle apparatus comprising: a condenser and the condenser, A refrigerant distribution flow tube provided between the first expansion valve and the first expansion valve for distributing the flow of the refrigerant to the first refrigerant flow and the second refrigerant flow, and a second refrigerant flow pipe for evaporating the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube, And a second evaporator for lowering the temperature of the refrigerant is provided.

The refrigerant distribution flow tube includes an inlet flow tube for allowing the refrigerant to flow from the condenser, a first outlet flow tube for allowing the refrigerant to flow to the first evaporator, and a second outlet flow tube for allowing the refrigerant to flow to the second evaporator A refrigeration cycle device is provided.

In addition, a dispensing valve is provided at the inlet of the second outflow tube to control the amount of refrigerant distributed to the second outflow tube in the inflow tube.

The diameter of the inflow-flowtube is equal to the diameter of the inflow-flowtube, and the diameter of the inflow-flowtube is greater than the diameter of the second outflow- And the refrigerant is distributed to the second outflow flow tube.

Also provided is a second expansion valve for expanding the refrigerant from the second outflow tube to the second evaporator inlet, and the second evaporator and the compressor are in fluid communication.

In addition, the refrigerant distribution flow tube may be provided between the first evaporator and the compressor, and may include an inlet flow tube for allowing the refrigerant to flow from the first evaporator, a first outlet flow tube for allowing the refrigerant to flow to the compressor, And a second outflow tube for allowing the refrigerant to flow to the second evaporator.

A first evaporator which is in fluid communication with the first evaporator and which compresses and discharges the refrigerant, a second evaporator which is disposed between the first evaporator and the compressor and discharges the refrigerant discharged from the compressor to a liquid And a first expansion valve for expanding the refrigerant from the condenser to the first evaporator inlet. The refrigeration cycle apparatus is provided between the condenser and the first expansion valve, A second evaporator for reducing the temperature of the condenser by evaporating the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube, and a second evaporator for reducing the temperature of the condenser, And the second evaporator is provided with a coil-shaped flow tube. It is.

Further, the second refrigerant flowing in the coil-shaped flow tube of the second evaporator and the refrigerant flowing in the coil-shaped flow tube of the condenser are heat-exchanged, and connected to the condenser and the second evaporator to expand the heat- A refrigerating cycle device is provided.

Further, there is provided a refrigeration cycle apparatus in which the second evaporator and the compressor are in fluid communication.

The refrigerant distribution flow tube includes an inlet flow tube for allowing the refrigerant to flow from the condenser, a first outlet flow tube for allowing the refrigerant to flow to the first evaporator, and a second outlet flow tube for allowing the refrigerant to flow to the second evaporator A refrigeration cycle device is provided.

 A first evaporator which is in fluid communication with the first evaporator and which compresses and discharges the refrigerant, a second evaporator which is disposed between the first evaporator and the compressor and discharges the refrigerant discharged from the compressor to a liquid And a first expansion valve for expanding the refrigerant from the condenser to the first evaporator inlet. The refrigeration cycle apparatus is provided between the condenser and the first expansion valve, A second expansion valve for expanding the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube by the steam to lower the temperature of the condenser, A refrigerating cycle device is provided.

The condenser is provided with a coil-shaped flow tube, an inlet through which the refrigerant expanded by the second expansion valve flows, and an outlet through which the expanded refrigerant exits after being heat-exchanged with the condenser, Is in fluid communication with the compressor.

In addition, the refrigerant distribution flow tube may include an inlet flow tube for allowing the refrigerant to flow from the condenser, a first outlet flow tube for allowing the refrigerant to flow to the first evaporator, and a second outlet flow tube for allowing the refrigerant to flow to the second expansion valve A refrigeration cycle device is provided.

In addition, the refrigerant distribution flow tube may be provided between the first evaporator and the compressor, and may include an inlet flow tube for allowing the refrigerant to flow from the first evaporator, a first outlet flow tube for allowing the refrigerant to flow to the compressor, And a second outflow flow tube for allowing the refrigerant to flow to the condenser.

The present invention constructed and operated as described above can lower the temperature of the heat radiated from the periphery of the condenser, thereby lowering the greenhouse effect and global warming.

1 is a schematic view showing a refrigeration cycle apparatus according to a first embodiment of the present invention.
2 is a cross-sectional view schematically showing a refrigerant distribution flow tube according to a first embodiment of the present invention.
3 is a schematic view showing a refrigeration cycle apparatus of a second embodiment according to the present invention.
4 is a cross-sectional view schematically showing a refrigerant distribution flow tube according to a second embodiment of the present invention.
5 is a schematic view showing a refrigeration cycle apparatus of a third embodiment according to the present invention.
6 is a schematic view showing a refrigeration cycle apparatus according to a fourth embodiment of the present invention.
7 is a schematic view showing a refrigeration cycle apparatus of a fifth embodiment according to the present invention.
8 is a schematic view showing a refrigeration cycle apparatus of a sixth embodiment according to the present invention.
9 is a schematic view showing a refrigeration cycle apparatus of a seventh embodiment according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings for explaining a refrigeration cycle apparatus according to the present invention.

The present invention is characterized in that a part of the refrigerant is extracted and heat exchange is performed in the condenser to lower the temperature of the condenser, and the refrigeration cycle according to the present invention is applicable to any kind of refrigeration cycle.

1 is a schematic view showing a refrigeration cycle apparatus according to a first embodiment of the present invention.

According to Fig. 1, the refrigeration cycle apparatus includes a refrigeration cycle in which refrigerant circulates. In the refrigeration cycle, the first evaporator (30) evaporates the refrigerant entering the inlet from the liquid to the gas and absorbs the heat of the peripheral portion due to the change of the state of the refrigerant.

A condenser 20 in fluid communication with the first evaporator 30 and compressing and discharging the refrigerant and a condenser 20 disposed between the first evaporator 30 and the compressor 10, (10) is liquefied from a gas to a liquid to release heat.

And a first expansion valve 40 for expanding the refrigerant from the condenser 20 to the inlet of the first evaporator 30. The first expansion valve 40 is installed between the condenser 20 and the first expansion valve 40, The refrigerant distribution flow tube 50 distributes the refrigerant flow to the first refrigerant flow and the second refrigerant flow.

A second evaporator 31 for evaporating the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube 50 to lower the temperature of the condenser 20 is provided to lower the temperature of the heat discharged to the peripheral portion.

In addition, the second evaporator (31) and the compressor (10) are in fluid communication to form a refrigeration cycle.

The refrigerant distribution flow tube 50 includes an inlet flow tube 51 through which the refrigerant flows from the condenser 20, a first outlet flow tube 53 through which the refrigerant flows into the first evaporator 30, And a second outflow flow pipe (52) for allowing the refrigerant to flow to the evaporator (31).

A dispensing valve 54 is provided at the inlet of the second outflow flow tube 52 to adjust the amount of the refrigerant distributed from the inflow flow tube 51 to the second outflow flow tube 52.

Further, a second expansion valve (41) for expanding the refrigerant from the second outflow flow tube (52) to the inlet of the second evaporator (31) is further provided.

2 is a cross-sectional view schematically showing a refrigerant distribution flow tube according to a first embodiment of the present invention.

2, a refrigerant distribution flow tube 50 having a Y-shaped three-way joint configuration is employed.

The refrigerant distribution flow tube 50 includes the inlet flow tube 51 through which the refrigerant flows, the first outlet flow tube 53 through which the refrigerant flows into the first evaporator 30, and the refrigerant through the second evaporator 31 And the second outflow flow pipe (52) for allowing the second outflow flow pipe (52) to flow.

The refrigerant outflow direction in the first outflow flow tube (53) and the second outflow flow tube (52) is directed in a predetermined direction with respect to the inflow direction of the refrigerant in the inflow flow tube (51), and these outflow directions intersect with each other at an acute angle .

A dispensing valve 54 is provided at the inlet of the second outflow flow tube 52 to adjust the amount of the refrigerant distributed from the inflow flow tube 51 to the second outflow flow tube 52. Therefore, the first evaporator 30 and the second evaporator 31 can be supplied with a proper amount of refrigerant.

3 is a schematic view showing a refrigeration cycle apparatus of a second embodiment according to the present invention.

According to Fig. 3, the refrigeration cycle apparatus includes a refrigeration cycle in which the refrigerant circulates. In the refrigeration cycle, the first evaporator (30) evaporates the refrigerant entering the inlet from the liquid to the gas and absorbs the heat of the peripheral portion due to the change of the state of the refrigerant.

A condenser 20 in fluid communication with the first evaporator 30 and compressing and discharging the refrigerant and a condenser 20 disposed between the first evaporator 30 and the compressor 10, (10) is liquefied from a gas to a liquid to release heat.

And a first expansion valve 40 for expanding the refrigerant from the condenser 20 to the inlet of the first evaporator 30. The first expansion valve 40 is disposed between the condenser 20 and the first expansion valve 40, The refrigerant distribution flow tube 50 installed in the first refrigerant distribution unit 50 distributes the refrigerant flow to the first refrigerant flow and the second refrigerant flow.

A second evaporator 31 for evaporating the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube 50 to lower the temperature of the condenser 20 is provided to lower the temperature of the heat discharged to the peripheral portion.

In addition, the second evaporator (31) and the compressor (10) are in fluid communication to form a refrigeration cycle.

The refrigerant distribution flow tube 50 includes an inlet flow tube 51 through which the refrigerant flows from the condenser 20, a first outlet flow tube 53 through which the refrigerant flows into the first evaporator 30, And a second outflow flow pipe (52) for allowing the refrigerant to flow to the evaporator (31).

The diameter of the inflow flow tube 51 and the diameter of the first outflow tube 53 are the same and the diameter of the inflow tube 51 is larger than the diameter of the second outflow tube 52.

The refrigerant is distributed to the second outlet flow tube 52 as the pressure of the inlet flow tube 51 is higher than the pressure of the second outlet flow tube 52.

Further, a second expansion valve (41) for expanding the refrigerant from the second outflow flow tube (52) to the inlet of the second evaporator (31) is provided.

4 is a cross-sectional view schematically showing a refrigerant distribution flow tube according to a second embodiment of the present invention.

4, a refrigerant distribution flow tube 50 having a T-type three-way joint configuration is employed.

The refrigerant distribution flow tube 50 includes the inlet flow tube 51 through which the refrigerant flows, the first outlet flow tube 53 through which the refrigerant flows into the first evaporator 30, and the refrigerant through the second evaporator 31 And the second outflow flow pipe (52) for allowing the second outflow flow pipe (52) to flow.

The inlet flow tube (51) and the first outlet flow tube (53) are arranged such that the flow direction of the refrigerant in the inlet flow tube (51) is substantially coincident with the outlet direction of the refrigerant in the first outlet flow tube Respectively.

The outflow direction of the refrigerant in the second outflow flow tube (52) is orthogonal to the flow direction of the refrigerant in the inflow flow pipe (51) and the first outflow flow pipe (53).

The diameter D1 of the inflow flow tube 51 is equal to the diameter D1 of the first outflow flow tube 53 and the diameter D1 of the inflow flow tube 51 is equal to the diameter D2 of the second outflow flow tube 52 (D1 > D2).

The refrigerant is distributed to the second outlet flow tube 52 as the pressure P1 of the inlet flow tube 51 is higher than the pressure P2 of the second outlet flow tube 52 (P1 > P2).

The flow rate of the refrigerant flowing into the first evaporator 30 and the flow rate of the refrigerant flowing into the second evaporator 31 may be adjusted by setting appropriate diameters of the first outlet flow tube 53 and the second outlet flow tube 52, The flow rate ratio of the flow rate can be appropriately adjusted.

5 is a schematic view showing a refrigeration cycle apparatus of a third embodiment according to the present invention.

The refrigeration cycle apparatus includes a refrigeration cycle in which the refrigerant circulates, and a redundant description of the refrigeration cycle described above will be omitted.

The refrigerant distribution flow tube 50 may be provided between the first evaporator 30 and the compressor 10 and the flow of the refrigerant flowing out of the first evaporator 30 may be provided between the first refrigerant flow and the second refrigerant, Distribute it to the flow.

The refrigerant of the first refrigerant flow distributed by the refrigerant distribution flow tube (50) is transferred to the compressor (10).

Also, the refrigerant of the second refrigerant flow is transferred to the second evaporator 31, and is heat-exchanged with the condenser 20 to lower the temperature of the condenser 20 to lower the temperature.

The refrigerant distribution flow tube 50 includes an inlet flow tube 51 through which the refrigerant flows from the first evaporator 30, a first outlet flow tube 53 through which the refrigerant flows into the compressor 30, And a second outflow flow pipe (52) for allowing the air to flow to the second evaporator (31).

In addition, the refrigerant distribution flow tube 50 may adopt both the T-type three-way joint configuration and the Y-type three-way joint configuration described above.

6 is a schematic view showing a refrigeration cycle apparatus according to a fourth embodiment of the present invention.

The refrigeration cycle apparatus includes a refrigeration cycle in which the refrigerant circulates, and a redundant description of the refrigeration cycle described above will be omitted.

The refrigerant distribution flow tube 50 provided between the condenser 20 and the first expansion valve 40 distributes the flow of the refrigerant flowing out of the condenser 20 to the first refrigerant flow and the second refrigerant flow.

And a second evaporator (31) for evaporating the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube (50) to lower the temperature of the condenser (20).

The condenser 20 and the second evaporator 31 form a closed system 1 to perform heat exchange and the condenser 20 and the second evaporator 31 are respectively provided with coil- , 32 are provided.

The second refrigerant flowing in the coil-shaped flow pipe 32 of the second evaporator 31 and the refrigerant flowing in the coil-shaped flow pipe 21 of the condenser 20 lower the temperature of the heat exchanger 20 .

And a cooling fin 22 connected to the condenser 20 and the second evaporator 31. The cooling fin 22 is connected to the heat exchanging surfaces of the condenser 20 and the second evaporator 31 Thereby increasing the efficiency.

The refrigerant distribution flow tube 50 includes an inlet flow tube 51 through which the refrigerant flows from the condenser 20, a first outlet flow tube 53 through which the refrigerant flows into the first evaporator 30, And a second outflow tube 52 for allowing the refrigerant to flow to the evaporator 31. The second evaporator 31 is in fluid communication with the compressor 10 to form one refrigeration cycle.

In addition, the refrigerant distribution flow tube 50 may adopt both the T-type three-way joint configuration and the Y-type three-way joint configuration described above.

7, a second expansion valve 41 may be further provided between the refrigerant distribution flow tube 50 and the second evaporator 31, and the second expansion valve 41 may be further provided. So that the heat exchange efficiency between the second evaporator (31) and the condenser (20) can be further increased.

8 is a schematic view showing a refrigeration cycle apparatus of a sixth embodiment according to the present invention.

The refrigeration cycle apparatus includes a refrigeration cycle in which the refrigerant circulates, and a redundant description of the refrigeration cycle described above will be omitted.

8, the refrigerant distribution flow tube 50 provided between the condenser 20 and the first expansion valve 40 is configured to distribute the flow of refrigerant flowing out of the condenser 20 to the first refrigerant flow and the second refrigerant, Distribute it to the flow.

And a second expansion valve (41) for expanding the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube (50) with steam to lower the temperature of the condenser.

The condenser 20 and the second expansion valve 41 are formed with a closed system 2 to perform heat exchange and the condenser 20 is provided with the coil-shaped flow tube 21, An inlet 23 into which the refrigerant expanded by the valve 41 flows and an outlet 24 through which the expanded refrigerant exits after being exchanged with the condenser 20.

In addition, the flow path connected to the outlet 24 is in fluid communication with the compressor 10 to form one refrigeration cycle.

The refrigerant distribution flow tube 50 includes an inlet flow tube 51 through which the refrigerant flows from the condenser 20, a first outlet flow tube 53 through which the refrigerant flows into the first evaporator 30, And a second outflow flow pipe (52) for allowing the refrigerant to flow to the expansion valve (41).

In addition, the refrigerant distribution flow tube 50 may adopt both the T-type three-way joint configuration and the Y-type three-way joint configuration described above.

9 is a schematic view showing a refrigeration cycle apparatus of a seventh embodiment according to the present invention.

The refrigeration cycle apparatus includes a refrigeration cycle in which the refrigerant circulates, and a redundant description of the refrigeration cycle described above will be omitted.

Referring to FIG. 9, the refrigerant distribution flow tube 50 installed between the first evaporator 30 and the compressor 10 is configured to distribute the flow of the refrigerant flowing out of the first evaporator 20 to the first refrigerant flow and the second refrigerant flow Dispense in refrigerant flow.

The condenser 20 is provided with the coil-shaped flow tube 21, an inlet 23 through which the refrigerant of the second refrigerant flows, and a condenser 20 through which the refrigerant of the second refrigerant flow is heat-exchanged with the condenser 20, The outlet 24 is provided.

In addition, the flow path connected to the outlet 24 is in fluid communication with the compressor 10 to form one refrigeration cycle.

The refrigerant distribution flow tube 50 includes an inlet flow tube 51 through which the refrigerant flows from the first evaporator 30, a first outlet flow tube 53 through which the refrigerant flows into the compressor 30, And a second outflow flow pipe (52) for allowing the refrigerant to flow to the condenser (20).

In addition, the refrigerant distribution flow tube 50 may adopt both the T-type three-way joint configuration and the Y-type three-way joint configuration described above.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

10: compressor 20: condenser
21, 32: coil-shaped flow tube 22: cooling pin
23: inlet 24: outlet
30: first evaporator 31: second evaporator
40: first expansion valve 41: second expansion valve
50: Refrigerant distribution flow tube 51: Inlet flow tube
52: second outflow flow tube 53: first outflow tube
54: Distribution valve

Claims (14)

A first evaporator which is in fluid communication with the first evaporator and which compresses and discharges the refrigerant, a second evaporator which is disposed between the first evaporator and the compressor and discharges the refrigerant discharged from the compressor to the liquid And a first expansion valve for expanding the refrigerant from the condenser to the first evaporator inlet, the refrigeration cycle apparatus comprising:
A refrigerant distribution flow pipe installed between the condenser and the first expansion valve for distributing the flow of the refrigerant to the first refrigerant flow and the second refrigerant flow;
A second evaporator for evaporating the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube to lower the temperature of the condenser; And a refrigerating cycle unit for supplying refrigerant to the refrigerating cycle unit.
The method according to claim 1,
The refrigerant distribution flow tube includes an inlet flow tube for allowing refrigerant to flow from the condenser; and,
A first outflow flow tube for allowing the refrigerant to flow to the first evaporator; And a second outflow pipe for allowing the refrigerant to flow to the second evaporator; .
3. The method of claim 2,
The inlet port of the second outlet flow tube is provided with a distribution valve; Wherein the amount of the refrigerant distributed to the second outflow flow pipe from the inflow flow pipe can be adjusted.
3. The method of claim 2,
Wherein the diameter of the inflow flowtube is equal to the diameter of the inflow flowtube and the diameter of the inflow flowtube is greater than the diameter of the second outflowtothe pipe, And the refrigerant is distributed to the second outflow flow tube according to the formation of the refrigerant.
The method according to claim 1,
A second expansion valve for expanding the refrigerant from the refrigerant distribution flow tube to the second evaporator inlet; And the second evaporator and the compressor are in fluid communication with each other.
The method according to claim 1,
The refrigerant distribution flow tube may be provided between the first evaporator and the compressor. The refrigerant distribution flow tube may include an inlet flow tube for allowing the refrigerant to flow from the first evaporator, a first outlet flow tube for allowing the refrigerant to flow to the compressor, 2 evaporator, and a second outlet flow tube for allowing the refrigerant to flow to the second evaporator.
A first evaporator which is in fluid communication with the first evaporator and which compresses and discharges the refrigerant, a second evaporator which is disposed between the first evaporator and the compressor and discharges the refrigerant discharged from the compressor to a liquid And a first expansion valve for expanding the refrigerant from the condenser to the first evaporator inlet, the refrigeration cycle apparatus comprising:
A refrigerant distribution flow pipe installed between the condenser and the first expansion valve for distributing the flow of the refrigerant to the first refrigerant flow and the second refrigerant flow;
A second evaporator for evaporating the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube to lower the temperature of the condenser;
And a coil-shaped flow pipe is provided in the condenser and the second evaporator, respectively.
8. The method of claim 7,
A cooling fin which is connected to the condenser and the second evaporator to expand a heat exchange surface, the second refrigerant flowing in the coil-shaped flow tube of the second evaporator and the refrigerant flowing in the coil-shaped flow tube of the condenser are heat- And the refrigerant circuit is provided with a refrigerant circuit.
8. The method of claim 7,
And the second evaporator and the compressor are in fluid communication.
8. The method of claim 7,
The refrigerant distribution flow tube includes an inlet flow tube for allowing refrigerant to flow from the condenser; and,
A first outflow flow tube for allowing the refrigerant to flow to the first evaporator; And a second outflow pipe for allowing the refrigerant to flow to the second evaporator; .
A first evaporator which is in fluid communication with the first evaporator and which compresses and discharges the refrigerant, a second evaporator which is disposed between the first evaporator and the compressor and discharges the refrigerant discharged from the compressor to a liquid And a first expansion valve for expanding the refrigerant from the condenser to the first evaporator inlet, the refrigeration cycle apparatus comprising:
A refrigerant distribution flow pipe installed between the condenser and the first expansion valve for distributing the flow of the refrigerant to the first refrigerant flow and the second refrigerant flow;
A second expansion valve for expanding the refrigerant of the second refrigerant flow distributed by the refrigerant distribution flow tube with steam to lower the temperature of the condenser; And a refrigerating cycle unit for supplying refrigerant to the refrigerating cycle unit.
12. The method of claim 11,
The condenser includes a coil-shaped flow tube; and
An inlet through which the refrigerant expanded by the second expansion valve flows; Wow
An outlet through which the expanded refrigerant exits after being heat-exchanged with the condenser; Wherein the flow path connected to the outlet is in fluid communication with the compressor.
12. The method of claim 11,
The refrigerant distribution flow tube includes an inlet flow tube for allowing refrigerant to flow from the condenser; and,
A first outflow flow tube for allowing the refrigerant to flow to the first evaporator; And a second outflow-flow tube for allowing the refrigerant to flow to the second expansion valve; .
12. The method of claim 11,
The refrigerant distribution flow tube may be provided between the first evaporator and the compressor. The refrigerant distribution flow tube may include an inlet flow tube for allowing the refrigerant to flow from the first evaporator, a first outlet flow tube for allowing the refrigerant to flow to the compressor, And a second outlet flow tube for allowing the refrigerant to flow to the second outlet pipe.

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