KR101592270B1 - Refrigeration cycle apparatus and control method thereof - Google Patents

Abstract

The present invention provides a refrigeration cycle apparatus and a control method thereof. The refrigeration cycle apparatus according to the present invention comprises a compressor which compresses a working fluid; an exterior heat exchanger which exchanges the heat of the working fluid compressed in the compressor or cooling water provided from the exterior with an external air, and emits the heat to the exterior; an expansion apparatus which expands the working fluid heat-exchanged in the exterior heat exchanger; an internal heat exchanger in which heat is transferred to the working fluid compressed in the compressor or the cooling water provided from the exterior to make the working fluid or the cooling water evaporated to cool an intermediate medium; a three-way valve for providing the cooling water flowing in from the exterior through a first pipe for the interior heat exchanger via a second pipe or for the exterior heat exchanger via a third pipe; a valve for controlling the cooling water, in which a fourth pipe is connected to the second pipe and which controls the supply of the cooling water in the fourth pipe for providing the cooling water from the exterior heat exchanger to the interior heat exchanger; an inflow temperature detector which detects the inflow temperature of the cooling water in the interior heat exchanger; an exterior air temperature detector which detects the temperature of the exterior air; and a controller which controls an operation of the compressor or the three-way valve by comparing the exterior air temperature detected by the exterior air temperature detector and the inflow temperature of the cooling temperature detected by the inflow temperature detector.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigeration cycle apparatus,

The present invention relates to a refrigeration cycle apparatus and, more particularly, to a refrigeration cycle apparatus that operates to cool a compressor by operating a compressor according to the temperature of the outside air, or to cool by using cooling water by heat exchange with a lower outside air flowing from the outside, And a control method.

Generally, the refrigeration cycle apparatus operates to cool the desired space while discharging the heat of the specific substance to the outside. The refrigeration cycle apparatus generally receives heat to be discharged to the outside through the cooling process for the refrigerant, and discharges it to the outside through heat exchange with the outside air.

Such a refrigeration cycle apparatus is greatly influenced by operation and efficiency depending on the use environment. For example, when the temperature of the outside air is high, there is a problem that the efficiency of the heat exchanger is lowered due to an increase in the compression power for releasing heat from the refrigeration cycle apparatus to the outside air and an increase in the working fluid. There is a case in which it is not possible to utilize the outside air at such a low temperature as possible.

In the case that there are four seasons like Korea, and the external temperature change is severe, the operation of the refrigeration cycle device depends on the external temperature, that is, the temperature of the outside air. That is, according to the season, there is a large difference in efficiency of the refrigeration cycle device, and in some cases, the refrigeration cycle device may fail due to high load on the compressor.

In Korea, the operating conditions of the refrigeration cycle system are different due to the high temperature of the southern region in summer compared to the central region. In order to design the refrigeration cycle device to fit the area having various external temperature conditions, the capacity of the heat exchanger for heat exchange with the outside air can not be increased. However, this is over-designed for the refrigeration cycle device, which causes an increase in the manufacturing cost of the refrigeration cycle device and an increase in the power consumption.

Korean Patent No. 10-563302 Korean Patent Publication No. 10-2011-0076558 Japanese Laid-Open Patent Publication No. 2013-007522 Japanese Laid-Open Patent Application No. 2010-151392

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a refrigeration cycle apparatus and a control method thereof that reduce power consumption in a refrigerator by controlling the operation of a refrigeration cycle apparatus in accordance with the temperature of an outside air in a refrigeration cycle apparatus. The purpose is to provide.

In addition, the present invention provides a refrigeration cycle apparatus and method for cooling an intermediate medium such as water using only outside air at a low temperature because the cooling is performed through heat exchange with the outside air at a low temperature when the temperature of the outside air is low, There is another purpose in providing a method.

A refrigeration cycle apparatus according to an embodiment of the present invention includes: a compressor for compressing a working fluid; An external heat exchanger for exchanging heat with the outside air by exchanging the working fluid compressed in the compressor or the cooling water supplied from the outside; An expansion device for expanding the working fluid heat-exchanged in the external heat exchanger; An internal heat exchanger for cooling the intermediate medium by evaporating the heat of the working fluid expanded from the expansion device or the cooling water supplied from the outside; A three-way valve for supplying the cooling water flowing from the outside through the first pipe to the external heat exchanger through the internal heat exchanger or the third pipe through the second pipe; A fourth pipe connected to the second pipe to supply cooling water from the external heat exchanger to the internal heat exchanger and to control the supply of cooling water from the external heat exchanger to the internal heat exchanger through the fourth pipe and the second pipe Cooling water control valve; An inlet temperature detector for detecting an inlet temperature of the cooling water supplied to the internal heat exchanger; An outside air temperature detector for detecting a temperature of outside air; And a controller unit for controlling the operation of the compressor or the three-way valve by comparing the outside temperature detected by the outside temperature detection unit and the intake temperature of the cooling water detected by the intake temperature detection unit, wherein the controller unit detects Directional valve so that the cooling water supplied from the outside through the first pipe is supplied only to the internal heat exchanger when the temperature of the outdoor air is higher than the temperature of the cooling water detected by the water temperature detection unit, And when the temperature of the outside air detected by the outside air temperature detection unit is lower than the intake temperature of the cooling water detected by the incoming temperature detection unit, the cooling water supplied from the outside through the first pipe is supplied only to the external heat exchanger, The controller activates the valve, Wherein when the temperature of the coolant detected by the coolant temperature detector is higher than a predetermined second reference temperature, the coolant control valve turns on the coolant from the external heat exchanger, When the cooling water is supplied to the internal heat exchanger through the fourth pipe and the second pipe and the cooling water supplied from the outside through the first pipe is supplied to the internal heat exchanger through the three way valve and the second pipe, Closed.

In the present invention, when the temperature of the outside air detected by the outside air temperature detection unit is higher than a predetermined first reference temperature, the controller turns on the compressor and the cooling water supplied from the outside through the first pipe is supplied to the internal heat exchanger Way valve is operated to supply only the three-way valve.

According to the present invention, when the temperature of the outside air detected by the outside air temperature detection unit is lower than the first reference temperature, the controller unit controls the three-way valve so that the cooling water supplied from the outside through the first pipe is supplied only to the external heat exchanger. .

In the present invention, in a state where the cooling water is supplied only to the external heat exchanger, the controller unit turns on the compressor when the temperature of the cooling water detected by the water temperature detection unit is higher than a predetermined second reference temperature.

In the present invention, a plurality of cooling fans are installed on one side of the external heat exchanger, and the controller unit turns on the plurality of cooling fans when the compressor is turned on.

In the present invention, the controller decelerates the rotation speeds of the plurality of cooling fans while the temperature of the cooling water detected by the intake temperature detection unit is close to the predetermined second reference temperature, Thereby accelerating the rotation speed of a plurality of cooling fans.

The controller may further include an outflow temperature detector for detecting an outflow temperature of the cooling water discharged to the outside from the internal heat exchanger, wherein in a state where the cooling water is supplied only to the external heat exchanger, The controller turns on the compressor when the outgoing temperature of the compressor is higher than a predetermined third reference temperature.

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According to another aspect of the present invention, there is provided a method of controlling a refrigeration cycle apparatus, comprising: compressing a working fluid in a compressor; Exchanging the working fluid compressed by the compressor in the external heat exchanger or the cooling water supplied from the outside with the outside air to discharge heat to the outside; Expanding a working fluid heat exchanged in said external heat exchanger in an expansion device; Cooling the intermediate medium by the heat of the working fluid expanded by the expansion device or the cooling water supplied from the outside by the expansion device in the internal heat exchanger; Detecting a temperature of the outside air in the outside air temperature detecting unit; Detecting an intake temperature of the cooling water discharged from the internal heat exchanger in the intake temperature detection unit; Comparing the outside air temperature detected by the outside air temperature detection unit with predetermined first and second reference temperatures and an intake temperature of the cooling water detected by the intake temperature detection unit in a controller unit; And a third directional valve for supplying the cooling water flowing from the outside through the first pipe to the external heat exchanger through the second heat exchanger or the third heat exchanger through the second pipe in accordance with the comparison result in the controller unit, Wherein the controller is configured to turn on the compressor if the temperature of the outside air detected by the outside air temperature detection unit is higher than the intake temperature of the cooling water detected by the intake temperature detection unit, Way valve is operated so that the cooling water supplied through the outdoor heat exchanger is supplied only to the internal heat exchanger, and when the temperature of the outside air detected by the outdoor temperature detection unit is lower than the intake temperature of the cooling water detected by the intake temperature detection unit, 1 < / RTI > pipe to be supplied only to the external heat exchanger, The controller activates the compressor when the temperature of the coolant detected by the coolant temperature detector is higher than a predetermined second reference temperature when the coolant is supplied only to the external heat exchanger, In a state where the cooling water is supplied only to the external heat exchanger, the controller unit turns on the compressor when the outgoing temperature of the cooling water detected by the outflow temperature detecting unit provided at the outlet side of the internal heat exchanger is higher than a predetermined third reference temperature .

In the present invention, when the temperature of the outside air detected by the outside air temperature detection unit is higher than a predetermined first reference temperature, the controller turns on the compressor and the cooling water supplied from the outside through the first pipe is supplied to the internal heat exchanger Way valve is operated to supply only the three-way valve.

According to the present invention, when the temperature of the outside air detected by the outside air temperature detection unit is lower than the first reference temperature, the controller unit controls the three-way valve so that the cooling water supplied from the outside through the first pipe is supplied only to the external heat exchanger. .

In the present invention, in a state where the cooling water is supplied only to the external heat exchanger, the controller unit turns on the compressor when the temperature of the cooling water detected by the water temperature detection unit is higher than a predetermined second reference temperature.

In the present invention, the controller unit turns on a plurality of cooling fans installed on one side of the external heat exchanger when the compressor is turned on.

In the present invention, the controller decelerates the rotation speeds of the plurality of cooling fans while the temperature of the cooling water detected by the intake temperature detection unit is close to the predetermined second reference temperature, Thereby accelerating the rotation speed of a plurality of cooling fans.

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According to the present invention, in the refrigeration cycle apparatus, the main heat exchanger and the auxiliary heat exchanger are provided separately to operate the main heat exchanger and the auxiliary heat exchanger stepwise or selectively according to the temperature of the outside air, so that, when the temperature of the outside air is low, Exchanging the outdoor air with the intermediate medium through the heat exchanger at a low temperature, thereby reducing the power consumption of the refrigeration cycle apparatus.

In addition, according to the present invention, the outside air passing through the main heat exchanger and receiving heat from the refrigerant and discharging the outside air to a predetermined temperature range is transferred to the main heat exchanger, so that the outside air having the optimum temperature can be supplied to the main heat exchanger, There is also an additional effect that can be achieved most efficiently and stably.

1 is a configuration diagram of a refrigeration cycle apparatus according to an embodiment of the present invention;
2 is a plan view showing a relationship between an outside air temperature setting unit and a cooling fan constituting an embodiment of the present invention,
3 is a schematic view for explaining a process of performing a first cooling process according to the temperature of an outside air in a refrigeration cycle apparatus according to an embodiment of the present invention;
FIG. 4 is a schematic view illustrating a process of performing a second cooling process according to temperature of an outside air in a refrigeration cycle apparatus according to an embodiment of the present invention; FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a configuration diagram of a refrigeration cycle apparatus according to an embodiment of the present invention.

1, a refrigeration cycle apparatus according to an embodiment of the present invention includes a compressor 110, an external heat exchanger 120, an expansion device 130, an internal heat exchanger 140, a three-way valve 150, A valve 160, an intake temperature detection unit 170, an outside temperature detection unit 180, and a controller unit 190. The refrigeration cycle apparatus may further include an outflow temperature detection unit 170 'in another embodiment.

The compressor 110 compresses the refrigerant as an operating oil and makes it easy to liquefy at room temperature. The working fluid from the compressor (110) is transferred to the external heat exchanger (120) through a predetermined pipe.

The external heat exchanger 120 performs heat exchange with the outside air while the working fluid flows therein. That is, heat is transferred from the working fluid to the outside air. The outside air is pressurized by the cooling fan 10, passes through the external heat exchanger 120, and takes heat from the working fluid passing through the inside of the external heat exchanger 120, so that the working fluid becomes liquid. The working fluid from the external heat exchanger 120 is transferred to the expansion device 130 through the pipe. The external heat exchanger 120 receives the cooling water supplied from the outside and performs heat exchange with the outside air. The cooling water causes the outside air to cool the cooling water passing through the external heat exchanger 120 to cool the cooling water. The cooling water having passed through the external heat exchanger 120 is supplied to the internal heat exchanger 140 through the fourth pipe 14.

The expansion device (130) expands the liquid working fluid to a state in which it is easy to evaporate. The working fluid exiting from the expansion device 130 is transferred to the internal heat exchanger 140.

In the internal heat exchanger 140, the working fluid or the cooling water generally exchanges heat with the room air. Of course, the internal heat exchanger 140 does not necessarily perform heat exchange with the indoor air, but may perform heat exchange with another intermediate medium. The working fluid or the cooling water flows through the interior heat exchanger 140 and the indoor air or the intermediate medium passes through the outside or inside of the internal heat exchanger 140 to heat exchange the room air or the medium (for example, fluid such as water) And the working fluid or the cooling water is evaporated in the internal heat exchanger (140). The internal heat exchanger (140) is connected to the compressor (110). Accordingly, the working fluid from the internal heat exchanger 140 is transferred to the compressor 110, compressed again, and flows along the external heat exchanger 120, the expansion device 130, and the internal heat exchanger 140, . On the other hand, the cooling water from the internal heat exchanger (140) is discharged to the outside through the outlet pipe. In order to heat-exchange the working fluid and the intermediate medium in the internal heat exchanger 140, an inlet pipe is provided to transfer the intermediate medium to the interior heat exchanger 140. The intermediate medium, which is heat exchanged in the internal heat exchanger (140), is discharged through the outlet pipe.

In the drawings, reference numeral 200 denotes a receiver. This receiver (200) serves to temporarily store the working fluid and to control the optimal working fluid flow on the flow path.

The three-way valve 150 supplies the cooling water flowing from the outside through the first pipe 11 to the internal heat exchanger 120 through the second heat exchanger 140 or the third heat exchanger 13 through the second heat exchanger 12 . The operation of the three-way valve 150 is controlled by the controller 190 and the cooling water flowing from the outside is supplied to the external heat exchanger 120 or the internal heat exchanger 140, As shown in FIG. Here, the fourth pipe 14 is connected to a part of the second pipe 12 to supply the cooling water from the external heat exchanger 120 to the internal heat exchanger 140. This is so that the cooling water from the external heat exchanger 120 can be supplied to the internal heat exchanger 140 through the second pipe 12 through the fourth pipe 14.

The cooling water control valve 160 is installed in the fourth pipe 14 and supplies and blocks the cooling water from the external heat exchanger 120 to the internal heat exchanger 140 through the fourth pipe 14. The cooling water control valve 160 is operated under the control of a controller 190 to be described later and controls the cooling water to be supplied or cut from the external heat exchanger 120 to the internal heat exchanger 140 as occasion demands.

The inlet temperature detector 170 is installed at the inlet of the internal heat exchanger 140 to receive the cooling water and detects the temperature of the cooling water supplied to the internal heat exchanger 140. The inlet side of the internal heat exchanger (140) is connected to the second pipe (12).

The outdoor temperature detection unit 180 detects the temperature of the outdoor air in the external environment. This outside air is for exchanging heat between the working fluid and the intermediate medium in the external heat exchanger 120. In the present invention, the cooling process is set differently according to the temperature of the outside air detected by the outside air temperature detector 180.

The controller unit 190 controls the overall operation of the refrigeration cycle apparatus according to the present invention. In particular, the controller 190 controls the compressor 110, the external heat exchanger 120, the expansion device 130, the internal heat exchanger 140, the three-way valve 150, And controls the operation of the cooling water control valve 160 so as to efficiently and smoothly cool the intermediate medium by the working fluid or the cooling water. Specifically, the controller 190 of the present embodiment turns on the compressor 110 when the temperature of the outside air detected by the outside air temperature detector 180 is higher than a predetermined first reference temperature, Way valve 150 so that the cooling water supplied through the outdoor heat exchanger 11 is supplied only to the internal heat exchanger 140. When the outdoor air temperature detected by the outdoor temperature detector 180 is lower than the first reference temperature, The three-way valve 150 is operated so that the cooling water supplied through the pipe 11 is supplied only to the external heat exchanger 120.

If the temperature of the coolant detected by the coolant temperature detector 170 is higher than a predetermined second reference temperature in a state where the coolant is supplied only to the external heat exchanger 120, the refrigeration cycle device is driven to turn on the first cooling process, and when it is lower, the compressor 110 is turned off to stop the refrigeration cycle device. This is because the temperature of the cooling water supplied from the outside is low and the intermediate medium is cooled only by the cooling water. At this time, the controller unit 190 turns on the plurality of cooling fans 10 installed on one side of the external heat exchanger 120 when the compressor 110 is turned on. This is to enable heat exchange at a high speed in the external heat exchanger 120 during the first cooling process. Here, the controller 190 decelerates the rotation speed of the plurality of cooling fans 10 while the temperature of the cooling water detected by the intake temperature detector 170 approaches the predetermined second reference temperature, Thereby accelerating the rotational speed of the plurality of cooling fans 10 while being away from the temperature.

In another embodiment of the present invention, the controller 190 turns on the compressor 110 when the temperature of the outside air detected by the outside air temperature detector 180 is higher than the intake temperature of the cooling water detected by the intake temperature detector 170 and operates the three-way valve 150 so that the cooling water supplied from the outside through the first pipe 11 is supplied only to the internal heat exchanger 140. Conversely, if the temperature of the outside air detected by the outside air temperature detection unit 180 is lower than the temperature of the cooling water detected by the incoming temperature detection unit 170, the cooling water supplied from the outside through the first pipe 11 is supplied to the external heat exchanger 120 Way valve 150 so as to be supplied only to the three-way valve 150. This is to supply the cooling water supplied from the outside to the external heat exchanger 120 when the temperature of the outside air is low to a certain degree or less so that the second cooling process is performed using only the cooling water cooled by the low outside temperature. This is to cool the intermediate medium with cooling water only when the temperature of the outside air is very low as in winter. In the state where the cooling water introduced from the outside is supplied only to the external heat exchanger 120 as described above, the controller unit 190 determines that the temperature of the cooling water detected by the water temperature detection unit 170 is higher than the predetermined second reference temperature When the compressor 110 is turned on, if it is difficult to smoothly and efficiently cool only by the external cooling water, the compressor 110 is turned on to perform the first cooling process.

The cooling water control valve 160 is opened when the cooling water from the external heat exchanger 120 is supplied to the internal heat exchanger 140 so that the cooling water flows through the second pipe 12 connected to the fourth pipe 14 To the internal heat exchanger (140). However, when the cooling water is supplied from the three-way valve 150 to the internal heat exchanger 140, the cooling water control valve 160 is closed so that the cooling water from the external heat exchanger 120 flows into the internal heat exchanger 140 .

Further, as described above, in another embodiment of the present invention, the above-described cooling cycle device may further include an outlet temperature detection unit 170 '. The outflow temperature detection unit 170 'is installed in an outlet pipe installed to discharge the cooling water to the outside from the internal heat exchanger 140, and detects the outflow temperature of the cooling water in the internal heat exchanger 140. In this case, when the outflow temperature of the cooling water detected by the outflow temperature detection unit 170 'is higher than the predetermined third reference temperature while the cooling water is supplied only to the external heat exchanger 120, the controller unit 190 controls the compressor 110 The compressor 110 is turned off to stop the refrigeration cycle apparatus. The controller unit 190 turns on the compressor 110 when the temperature of the outside air detected by the outside air temperature detector 180 is higher than the outflow temperature of the cooling water detected by the outflow temperature detector 170 ' Way valve (150) so that the cooling water supplied through the first pipe (11) is supplied only to the internal heat exchanger (140). Conversely, when the temperature of the outside air detected by the outside air temperature detection unit 180 is lower than the outflow temperature of the cooling water detected by the outflow temperature detection unit 170 ', the cooling water supplied from the outside through the first pipe 11 is discharged to the outside heat exchanger Way valve 150 so as to be supplied only to the three-way valve 120. This is to cool the intermediate medium with cooling water only when the temperature of the outside air is very low as in winter. In the state where the cooling water introduced from the outside is supplied only to the external heat exchanger 120 as described above, the controller unit 190 determines that the outflow temperature of the cooling water detected by the outflow temperature detection unit 170 ' The compressor 110 is turned on so that the first cooling process is performed by turning on the compressor 110 when it is difficult to smoothly and efficiently cool only by the external cooling water.

The first, second, and third reference temperatures are reference temperatures for determining operation of the refrigeration cycle apparatus. The first reference temperature is a reference temperature for determining whether to operate the refrigeration cycle apparatus with respect to the detected ambient temperature. 2 reference temperature is a reference temperature for determining whether to operate the refrigeration cycle apparatus with respect to the intake temperature of the cooling water detected at the inlet side of the internal heat exchanger 140 and the third reference temperature is a reference temperature at the outlet side of the internal heat exchanger 140 And is a reference temperature for determining whether to operate the refrigeration cycle apparatus with respect to the outflow temperature of the detected cooling water. These first to third reference temperatures can be designed and changed under various conditions when the refrigeration cycle apparatus is operated.

2 is a plan view showing a relationship between an external heat exchanger and a cooling fan constituting an embodiment of the present invention.

Referring to FIG. 2, the cooling fan 10 according to the present invention may be formed on one side of the external heat exchanger 120. Therefore, when the cooling fan 10 is operated, the outside air passes through the external heat exchanger 120, exchanges heat, and is discharged to the outside through the cooling fan 10.

Hereinafter, the operation of the refrigeration cycle apparatus according to the present invention will be described in detail with reference to FIGS. 3 and 4. FIG.

FIG. 3 is a schematic view for explaining a process of performing a first cooling process according to the temperature of an outside air in a refrigeration cycle apparatus according to an embodiment of the present invention. FIG. 4 is a schematic view of a refrigeration cycle apparatus according to an embodiment of the present invention. And a second cooling process according to the temperature is performed. 3 and 4, the controller unit 190 is not shown.

Referring to FIGS. 3 and 4, when the temperature of the outside air is higher than a predetermined first reference temperature, a first cooling process is performed. Specifically, when the temperature of the outside air detected by the outside air temperature detection unit 180 is higher than a predetermined first reference temperature, the controller 110 controls the compressor 110, the external heat exchanger 120, the expansion unit 130, Way valve 150, and the cooling water control valve 160 to perform the first cooling process for cooling the intermediate medium by the working fluid. Specifically, when the temperature of the outside air is higher than the first reference temperature, the compressor 110 is turned on to operate the refrigeration cycle apparatus and the three-way valve 150 is operated to supply the refrigerant from the outside through the first pipe 11 So that the cooling water is supplied to the internal heat exchanger 140. If the temperature of the outside air detected by the outside air temperature detector 180 is lower than the first reference temperature, the compressor 110 is turned off to stop the operation of the refrigeration cycle apparatus, So that the cooling water supplied through the first pipe (11) is supplied to the external heat exchanger (120). In this cooling process, the first cooling process is performed by operating the refrigeration cycle apparatus only when the temperature of the outside air is higher than the first reference temperature, and when the temperature is lower than the first reference temperature, the second cooling process is performed only with the cooling water. If the temperature of the coolant detected by the coolant temperature detector 170 is higher than a predetermined second reference temperature in a state where the coolant is supplied to the external heat exchanger 120, the compressor 110 is turned on, The apparatus is driven to perform the first cooling process again, and when it is low, the compressor 110 is turned off to stop the refrigeration cycle apparatus. At this time, the controller unit 190 turns on the plurality of cooling fans 10 installed on one side of the external heat exchanger 120 when the compressor 110 is turned on. During the operation of the cooling fan 10, the controller 190 controls the rotation speeds of the plurality of cooling fans 10 while the intake temperature of the cooling water detected by the intake temperature detection unit 170 approaches a predetermined second reference temperature And accelerates the rotational speed of the plurality of cooling fans 10 while moving away from the second reference temperature.

3, the first cooling process is performed when the temperature of the outside air is higher than the cooling water intake temperature in the preset internal heat exchanger 140. [ The controller unit 190 controls the compressor 110 to be turned on when the temperature of the outside air detected by the outside air temperature detector 180 is higher than the temperature of the cooling water detected by the inlet temperature detector 170. In this case, way valve 150 is operated so that the cooling water supplied from the outside through the first pipe 11 is supplied to the internal heat exchanger 140 so that the first cooling process is performed, . On the contrary, if the temperature of the outside air detected by the outside air temperature detection unit 180 is lower than the intake temperature of the cooling water detected by the intake temperature detection unit 170, the control unit 150 controls the three-way valve 150 so that the outside air flows through the first pipe 11 So that the supplied cooling water is supplied to the external heat exchanger 120. This is because when the temperature of the outside air is low to some extent as in winter, the cooling water supplied from the outside is supplied to the external heat exchanger 120 so that the second cooling process is performed using only the cooling water cooled by the low outside temperature will be. At this time, in a state where only the cooling water introduced from the outside is supplied only to the external heat exchanger 120, the controller unit 190 controls the compressor 110 The compressor 110 is turned on so that the first cooling process can be performed when smooth and efficient cooling is difficult with only the external cooling water.

Although the present invention has been described in detail with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the details of the illustrated embodiments. Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope of the appended claims, The genius will be so self-evident. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

110: compressor 120: external heat exchanger
130: expansion device 140: internal heat exchanger
150: three-way valve 160: cooling water control valve
170: incoming temperature detection unit 170 ': outflow temperature detection unit
180: ambient temperature detection unit 190:

Claims (21)

A compressor for compressing the working fluid;
An external heat exchanger for exchanging heat with the outside air by exchanging the working fluid compressed in the compressor or the cooling water supplied from the outside;
An expansion device for expanding the working fluid heat-exchanged in the external heat exchanger;
An internal heat exchanger for cooling the intermediate medium by evaporating the heat of the working fluid expanded from the expansion device or the cooling water supplied from the outside;
A three-way valve for supplying the cooling water flowing from the outside through the first pipe to the external heat exchanger through the internal heat exchanger or the third pipe through the second pipe;
A fourth pipe connected to the second pipe to supply cooling water from the external heat exchanger to the internal heat exchanger and to control the supply of cooling water from the external heat exchanger to the internal heat exchanger through the fourth pipe and the second pipe Cooling water control valve;
An inlet temperature detector for detecting an inlet temperature of the cooling water supplied to the internal heat exchanger;
An outside air temperature detector for detecting a temperature of outside air; And
And a controller unit for controlling the operation of the compressor or the three-way valve by comparing the outside temperature detected by the outside temperature detection unit and the intake temperature of the cooling water detected by the intake temperature detection unit,
Wherein the controller unit turns on the compressor when the temperature of the outside air detected by the outside air temperature detection unit is higher than the intake temperature of the cooling water detected by the incoming temperature detection unit and controls the cooling water supplied from the outside through the first pipe to the internal heat exchange And when the temperature of the outside air detected by the outside air temperature detection unit is lower than the intake temperature of the cooling water detected by the incoming temperature detection unit, the cooling water supplied from the outside through the first pipe The three-way valve is operated so as to be supplied only to the external heat exchanger,
Wherein the controller unit turns on the compressor when the temperature of the coolant detected by the coolant temperature detector is higher than a predetermined second reference temperature when the coolant is supplied only to the external heat exchanger,
Wherein the cooling water control valve is opened when cooling water from the external heat exchanger is supplied to the internal heat exchanger through the fourth pipe and the second pipe and cooling water supplied from the outside through the first pipe is supplied to the three- And is closed when supplied to the internal heat exchanger through the second pipe. The method according to claim 1,
Wherein the controller unit is configured to turn on the compressor when the temperature of the outside air detected by the outside air temperature detection unit is higher than a predetermined first reference temperature and to supply the cooling water supplied from the outside through the first pipe only to the internal heat exchanger Wherein the three-way valve is operated. The method according to claim 1,
Wherein the controller unit controls the three-way valve so that the cooling water supplied from the outside through the first pipe is supplied only to the external heat exchanger if the temperature of the outside air detected by the outside air temperature detection unit is lower than a preset first reference temperature, Cycle device. The method of claim 3,
Wherein the controller unit turns on the compressor when the intake temperature of the cooling water detected by the intake temperature detection unit is higher than a predetermined second reference temperature while the cooling water is supplied only to the external heat exchanger. 5. The method of claim 4,
A plurality of cooling fans are installed on one side of the external heat exchanger and the controller unit controls the cooling cycle devices to turn on the plurality of cooling fans when the compressor is turned on, 6. The method of claim 5,
Wherein the controller decelerates the rotation speeds of the plurality of cooling fans while the temperature of the cooling water detected by the intake temperature detection unit is close to the predetermined second reference temperature, Which accelerates the rotation speed of the refrigeration cycle apparatus The method of claim 3,
Further comprising an outflow temperature detection unit for detecting the outflow temperature of the cooling water discharged to the outside from the internal heat exchanger, wherein in a state where the cooling water is supplied only to the external heat exchanger, the controller unit determines that the outflow temperature of the cooling water detected by the outflow temperature detection unit is And the compressor is turned on when the temperature is higher than a predetermined third reference temperature. delete delete delete delete Compressing the working fluid in the compressor;
Exchanging the working fluid compressed by the compressor in the external heat exchanger or the cooling water supplied from the outside with the outside air to discharge heat to the outside;
Expanding a working fluid heat exchanged in said external heat exchanger in an expansion device;
Cooling the intermediate medium by the heat of the working fluid expanded by the expansion device or the cooling water supplied from the outside by the expansion device in the internal heat exchanger;
Detecting a temperature of the outside air in the outside air temperature detecting unit;
Detecting an intake temperature of the cooling water discharged from the internal heat exchanger in the intake temperature detection unit;
Comparing the outside air temperature detected by the outside air temperature detection unit with predetermined first and second reference temperatures and an intake temperature of the cooling water detected by the intake temperature detection unit in a controller unit; And
A third directional valve for supplying the cooling water flowing from the outside through the first pipe to the external heat exchanger through the second heat exchanger or the third pipe in accordance with the comparison result by the controller unit, And controlling,
Wherein the controller unit turns on the compressor when the temperature of the outside air detected by the outside air temperature detection unit is higher than the intake temperature of the cooling water detected by the incoming temperature detection unit and the cooling water supplied from the outside through the first pipe, And when the temperature of the outside air detected by the outside air temperature detection unit is lower than the intake temperature of the cooling water detected by the intake temperature detection unit, the cooling water supplied from the outside through the first pipe The three-way valve is operated so as to be supplied only to the external heat exchanger,
Wherein the controller unit turns on the compressor when the intake temperature of the cooling water detected by the intake temperature detector is higher than a predetermined second reference temperature when the cooling water is supplied only to the external heat exchanger,
In a state where the cooling water is supplied only to the external heat exchanger, the controller unit turns on the compressor when the outflow temperature of the cooling water detected by the outflow temperature detecting unit provided at the outlet side of the internal heat exchanger is higher than a predetermined third reference temperature Control method of refrigeration cycle apparatus. 13. The method of claim 12,
Wherein the controller unit is configured to turn on the compressor when the temperature of the outside air detected by the outside air temperature detection unit is higher than a predetermined first reference temperature and to supply the cooling water supplied from the outside through the first pipe only to the internal heat exchanger Wherein the three-way valve is operated. 13. The method of claim 12,
Wherein the controller unit operates the three-way valve so that the cooling water supplied from the outside through the first pipe is supplied only to the external heat exchanger if the temperature of the outside air detected by the outside air temperature detection unit is lower than the first reference temperature, A method of controlling a device. 15. The method of claim 14,
Wherein the controller unit turns on the compressor when the temperature of the coolant detected by the coolant temperature detector is higher than a predetermined second reference temperature while the coolant is supplied only to the external heat exchanger. 16. The method of claim 15,
Wherein the controller unit turns on a plurality of cooling fans installed on one side of the external heat exchanger when the compressor is turned on. 17. The method of claim 16,
Wherein the controller decelerates the rotation speeds of the plurality of cooling fans while the temperature of the cooling water detected by the intake temperature detection unit is close to the predetermined second reference temperature, Of the refrigeration cycle apparatus. delete delete delete delete

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