KR101275580B1 - An air conditioner and Control method of the same - Google Patents

Abstract

The air conditioner of the present invention includes a compressor for compressing a refrigerant; A heat exchanger in which the refrigerant is condensed or evaporated by heat exchange with the fluid; A plate heat exchanger configured to form a refrigerant passage through which the refrigerant passes and a water passage through which water passes, so that the refrigerant in the refrigerant passage exchanges heat with water in the water passage and evaporates or condenses; An expansion mechanism for expanding the refrigerant between the heat exchanger and the plate heat exchanger; An acquisition flow path through which water is obtained through the water flow path; A discharge passage through which water in the water passage is discharged; An oil recovery flow path connected to recover the oil in the refrigerant flow path to the compressor; An oil recovery valve installed in the oil recovery passage; A plate heat exchanger temperature sensor for sensing a temperature of the plate heat exchanger; It includes a water flow path temperature sensor for sensing the temperature of the water flow channel, the oil return valve is turned on for a set time when the temperature of the plate heat exchanger is higher than the temperature of the water flow channel, to prevent excessive accumulation of oil in the plate heat exchanger It is possible to increase the cooling capacity of the plate heat exchanger.

Description

An air conditioner and control method of the same

The present invention relates to an air conditioner and a method of operating the same, and more particularly, to an air conditioner having a plate heat exchanger in which a refrigerant is heat-exchanged with water, and a method of operating the same.

In general, an air conditioner may cool or heat an interior using a refrigeration cycle of a refrigerant including a compressor, a condenser, an expansion mechanism, and an evaporator to create a more comfortable indoor environment for a user.

Such an air conditioner may be configured as a plate heat exchanger in which a condenser or an evaporator heat exchanges refrigerant and water, and the water may be cooled or heated by heat exchange with a refrigerant passing through the plate heat exchanger while passing through the plate heat exchanger. The air conditioner may be cooled or heated in a plate heat exchanger to pass through a water-air heat exchanger such as a cold water coil or a hot water coil, and the air may be discharged into a room after the heat exchange with the water-air heat exchanger to cool or heat the room. Can be.

KR 10-2011-0090687 A (2011.08.11)

In the air conditioner according to the prior art, the oil discharged with the refrigerant from the compressor may be accumulated in the plate heat exchanger, and when the amount of oil accumulated in the plate heat exchanger is excessive, there is a problem in that the heat exchange performance of the refrigerant and water is low.

Air conditioner according to the present invention for solving the above problems is a compressor for compressing the refrigerant; A heat exchanger in which the refrigerant is condensed or evaporated by heat exchange with the fluid; A plate heat exchanger configured to form a refrigerant passage through which a refrigerant passes and a water passage through which water passes, so that the refrigerant in the refrigerant passage exchanges heat with water in the water passage and evaporates or condenses; An expansion mechanism for expanding a refrigerant between the heat exchanger and the plate heat exchanger; An acquisition flow path through which water is obtained through the water flow path; An outlet passage through which water from the water passage is discharged; An oil recovery flow path connected to recover the oil in the refrigerant flow path to the compressor; An oil recovery valve installed in the oil recovery passage; A plate heat exchanger temperature sensor detecting a temperature of the plate heat exchanger; And a water extraction channel temperature sensor for sensing the temperature of the water extraction channel, wherein the oil recovery valve is turned on for a set time when the temperature of the plate heat exchanger is higher than the temperature of the water extraction channel.

 The oil recovery valve may be turned off if the temperature of the plate heat exchanger is not higher than a set temperature higher than the temperature of the water discharge channel.

The plate heat exchanger may have a refrigerant inlet and a water outlet at the bottom thereof, a refrigerant outlet and a water inlet at the top thereof, and the oil return passage may be connected to the opposite side of the refrigerant inlet of the plate heat exchanger.

The plate heat exchanger may be provided in plural, the plate heat exchanger temperature sensor may be installed in each of the plate heat exchanger, the oil return valve is at least one temperature of the plurality of plate heat exchanger than the temperature of the water flow passage If the set temperature is high, it can be turned on during the set time.

The plate heat exchanger temperature sensor may be installed to detect the temperature of the water flow path.

A method of operating an air conditioner according to the present invention includes a compressor driving step of driving a compressor; A temperature sensing step of sensing a temperature of a plate heat exchanger for exchanging water between a refrigerant and water after the compressor driving step and a water outlet flow path through which water discharged from the plate heat exchanger passes; If the temperature of the plate heat exchanger is higher than the set temperature of the water discharge passage includes an oil recovery valve on step for turning on the oil recovery valve for recovering the oil of the plate heat exchanger to the compressor for a set time.

The operation method of the air conditioner may further include an oil recovery valve off step of turning off the oil recovery valve when the temperature of the plate heat exchanger is not higher than a set temperature of the water outlet flow path.

The present invention can prevent the excessive accumulation of oil in the plate heat exchanger, there is an advantage that can increase the cooling capacity of the plate heat exchanger.

1 is a view showing a configuration of an embodiment of an air conditioner according to the present invention,
2 is a control block diagram of an embodiment of an air conditioner according to the present invention;
3 is an exploded perspective view of the plate heat exchanger shown in FIG.
4 is a flowchart illustrating an embodiment of a method of operating an air conditioner according to the present invention.

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

1 is a diagram showing the configuration of an embodiment of an air conditioner according to the present invention, Figure 2 is a control block diagram of an embodiment of an air conditioner according to the present invention.

The air conditioner of this embodiment includes a compressor (2) for compressing a refrigerant; A heat exchanger (4) in which the refrigerant exchanges heat with the fluid to condense or evaporate; The refrigerant passages 6 and 7 through which the refrigerant passes and the water passages 8 and 9 through which the water passes are formed, and the refrigerant in the refrigerant passages 6 and 7 is connected to the water in the water passages 8 and 9. Plate heat exchangers 10 and 11 which are evaporated or condensed by heat exchange; An expansion mechanism (12) for expanding the refrigerant between the heat exchanger (4) and the plate heat exchanger (10) (11); An inflow passage 14 through which water is supplied into the water passages 8 and 9; It may include a water discharge passage 16 through which water in the water passages 8 and 9 is discharged.

The compressor 2 may consist of a scroll compressor.

The compressor 2 may include a shell forming an external appearance, a compression unit disposed inside the shell to compress the refrigerant, and a motor unit for operating the compression unit.

Compressor 2 may be accommodated therein oil lubricating at least one of the compression unit and the motor unit.

The compressor 2 may be connected with a suction channel 22 through which refrigerant is sucked into the compressor 2, and a discharge channel 24 through which the refrigerant compressed by the compressor 2 is discharged.

The heat exchanger 4 may function as a condenser that condenses the refrigerant compressed by the compressor 2 with a fluid such as cooling water or outdoor air. The heat exchanger 4 may function as an evaporator that heat-exchanges the refrigerant expanded by the expansion mechanism 12 with a fluid such as cooling water or outdoor air.

The heat exchanger 4 may include a coolant flow path through which a coolant flows and a coolant flow path through which a coolant passes through a cooling tower (not shown) and a coolant flow path.

The heat exchanger (4) may include a refrigerant flow path through which the refrigerant passes, when the heat exchanger (4) exchanges the refrigerant and outdoor air, and the refrigerant and outdoor air are blown out by the outdoor fan (5) for blowing outdoor air to the heat exchanger (4). It can be heat exchanged.

The plate heat exchanger (10) (11) can function as an evaporator for evaporating heat exchanged refrigerant with water in the expansion mechanism (12). The plate heat exchanger 10, 11 may function as a condenser for condensing the refrigerant compressed by the compressor 2 with water.

The plate heat exchanger 10 and 11 may be provided in plural, and the plate heat exchanger 10 and 11 may be connected in parallel.

The plate heat exchanger 10, 11 includes a first plate heat exchanger 10 having a first refrigerant passage 6 and a first water passage 8, a second refrigerant passage 7, and a second water passage ( 9) may include a second plate heat exchanger (11) formed.

In the plate heat exchanger 10 and 11, the first refrigerant passage 6 and the second refrigerant passage 7 may be connected in parallel, and the first water passage 8 and the second water passage 9 may be connected in parallel. Can be connected.

The expansion mechanism 12 consists of a capillary tube or electronic expansion valves (EEV).

The expansion mechanism 12 may expand the refrigerant flowing toward the plate heat exchanger 10 and 11 after condensing in the heat exchanger 4. The expansion mechanism 12 may expand the refrigerant flowing toward the heat exchanger 4 after condensing in the plate heat exchanger 10 and 11.

The expansion mechanism 12 may be connected to the heat exchanger 4 and the heat exchanger connection passage 26, and may be connected to the plate heat exchanger 10 and 11 and the plate heat exchanger connection passage 28.

The plate heat exchanger connection passage 28 may include a first refrigerant passage connection passage connected to the first refrigerant passage 6 of the first plate heat exchanger 10 when a plurality of plate heat exchangers 10 and 11 are installed. 28a, the second refrigerant passage connecting passage 28b connected to the second refrigerant passage 7 of the second plate heat exchanger 11, the first refrigerant passage connecting passage 28a, and the second refrigerant passage connecting passage. It may include a common channel 28c to which 28b is connected.

The inlet passage 14 and the outlet passage 16 may connect the water demand destination (not shown) and the plate heat exchanger 10 and 11. The water of the water demand destination may cool or heat the water demand destination while circulating the inflow passage 14, the plate heat exchanger 10, 11, the outlet flow passage 16, and the water demand destination.

Here, the water demand destination is composed of an air handling unit (AHU) for discharging the mixed air of the indoor air and outdoor air with the water heat-exchanged with the refrigerant in the plate heat exchanger (10) (11) and discharge it to the interior It is possible.

The air handling unit includes a water-air heat exchanger connected to an inflow passage 14 and an outlet passage 16 and discharged to the inlet passage 14 after the water in the outlet passage 16 passes, and the indoor air to the water-air heat exchanger. And it may include a fan for blowing the mixed air of the outdoor air.

The water demand destination may be configured as a fan coil unit (FCU) for discharging indoor air into the room after heat-exchanging with the water heat-exchanged with the refrigerant in the plate heat exchanger (10) (11).

The fan coil unit is connected to the inflow channel 14 and the outflow channel 16, and after the water of the outflow channel 16 passes, the coil discharged to the inflow channel 14, and the indoor air is blown into the coil and then indoors. It may include a fan for discharging.

The water demand destination may be configured as a coil unit which is connected to the inflow passage 14 and the outlet passage 16 and installed in the room to directly cool or heat the air in the room.

When the plurality of plate heat exchangers 10 and 11 are installed, the inlet passage 14 may include a first water passage inlet 14a connected to the first water passage 8 of the first plate heat exchanger 10. A second water flow passage 14b connected to the second water flow passage 9 of the second plate heat exchanger 11, a first water flow passage 14a, and a second water flow passage 14b. It may include a common inlet flow path (14c) is connected.

When the plurality of plate heat exchangers 10 and 11 are installed, the water outlet passage 16 may include a first water passage outlet passage 16a connected to the first water passage 8 of the first plate heat exchanger 10. And a second water passage exit passage 16b connected to the second water passage 9 of the second plate heat exchanger 11, a first water passage exit passage 16a, and a second water passage exit passage 16b. It may include a common discharge passage 16c is connected.

At least one of the inflow channel 14 and the outflow channel 16 includes a water pump for pumping water to circulate the inflow channel 14, the plate heat exchanger 10, 11, the outlet channel 16, and the water source. (Not shown) may be installed.

In the air conditioner, when the refrigerant is circulated in the order of the compressor 2, the heat exchanger 4, the expansion mechanism 12, the plate heat exchanger 10, 11, and the compressor 2, the heat exchanger 4 is a condenser. And the plate heat exchanger (10) (11) function as an evaporator, it is possible to cool the water in the water flow path (8) (9), the water cooled in the water flow path (8) (9) It can be used for cooling.

In the air conditioner, when the refrigerant is circulated in the order of the compressor 2, the plate heat exchanger 10, 11, the expansion mechanism 12, the heat exchanger 4, and the compressor 2, the plate heat exchanger 10 ( 11 acts as a condenser and the heat exchanger 4 acts as an evaporator, allowing the water in the water flow paths 8 and 9 to be heated, where the water heated in the water flow paths 8 and 9 is It can be used for heating.

The air conditioner may selectively perform a cooling operation and a heating operation, and may further include an operation switching valve 30 capable of switching the cooling operation and the heating operation. Hereinafter, the air conditioner will be described as an example including the operation switching valve 30.

The suction flow passage 22 and the discharge flow passage 24 may be connected to the operation switching valve 30.

The operation switching valve 30 may be connected to the heat exchanger 4 and the heat exchanger connection flow path 32, and may be connected to the plate heat exchanger 10 and 11 and the plate heat exchanger connection flow path 34.

The plate heat exchanger connection passage 34 may include a first refrigerant passage connection passage connected to the first refrigerant passage 6 of the first plate heat exchanger 10 when a plurality of plate heat exchangers 10 and 11 are installed. 34a), the second refrigerant passage connecting passage 34b connected to the second refrigerant passage 7 of the second plate heat exchanger 11, the first refrigerant passage connecting passage 34a and the second refrigerant passage connecting passage It may include a common channel 34c to which the 34b is connected.

During the cooling operation, the operation switching valve 30 guides the refrigerant introduced from the discharge passage 24 to the heat exchanger connection passage 32 and receives the refrigerant introduced from the plate heat exchanger connection passage 34 in the suction passage 22. Can be guided.

The operation switching valve 30 guides the refrigerant introduced from the discharge passage 24 to the plate heat exchanger connection passage 34 during the heating operation, and takes the refrigerant introduced from the heat exchanger connection passage 32 into the suction passage 22. Can be guided.

In the air conditioner, when the compressor 2 is driven, the gas refrigerant of high temperature and high pressure may be discharged from the compressor 2, and the oil may be discharged to the discharge passage 24 together with the gas refrigerant of high temperature and high pressure. The oil in the discharge passage 24 may be recovered by the compressor 2 after passing through the heat exchanger 4, the expansion mechanism 12, and the plate heat exchanger 10, 11 together with the refrigerant.

In the air conditioner, oil may remain in the plate heat exchanger (10) (11), but when the oil in the plate heat exchanger (10) (11) is excessive, the heat exchange efficiency of the refrigerant and water is low, and the plate heat exchanger (10) (11) It is preferable that the oil in) is managed such that the temperature of the water discharged from the plate heat exchanger 10, 11 maintains an appropriate temperature range.

The air conditioner includes an oil recovery passage 40 connected to recover the oil in the refrigerant passages 6 and 7 to the compressor 2; It may include an oil recovery valve 42 installed in the oil return passage (12).

One end of the oil return passage 40 may be connected to the refrigerant passages 6 and 7 of the plate heat exchanger 10 and 11, and the other end thereof may be connected to the compressor 2 or the suction passage 22.

The oil recovery passage 40 may be connected to all of the plurality of plate heat exchangers 10 and 11 when a plurality of plate heat exchangers 10 and 11 are installed.

The oil recovery passage 40 includes a first oil recovery passage 40a connected to the first refrigerant passage 6 of the first plate heat exchanger 10, and a second refrigerant passage of the second plate heat exchanger 11 ( 7) a second oil recovery passage 40b connected to the second oil recovery passage 40b, and a common oil recovery passage 40c connected to the first oil recovery passage 40a and the second oil recovery passage 40b.

The oil recovery valve 42 may open the oil recovery passage 40 when it is turned on, and seal the oil recovery passage 40 when it is turned off.

The oil recovery valve 42 may be installed in the common oil recovery passage 40c.

The air conditioner may include a plate heat exchanger temperature sensor 50 and 51 for detecting a temperature of the plate heat exchanger 10 and 11, and a water extraction flow path temperature sensor 52 for detecting a temperature of the water extraction flow path 16. Can be.

Plate heat exchanger temperature sensor 50, 51 may be installed to detect the temperature of the water flow path (8) (9).

The plate heat exchanger temperature sensors 50 and 51 may be installed in each of the plate heat exchangers 10 and 11 when a plurality of plate heat exchangers 10 and 11 are installed.

The plate heat exchanger temperature sensors 50 and 51 may include a first plate heat exchanger temperature sensor 50 for sensing a temperature of the first water flow path 8 of the first plate heat exchanger 10, and a second plate heat exchanger ( A second plate heat exchanger temperature sensor 51 for detecting the temperature of the second water flow path 9 of 11) may be included.

The exit flow path temperature sensor 52 may be installed in the common exit flow path 16c when a plurality of plate heat exchangers 10 and 11 are installed.

The air conditioner may include a controller 54 capable of controlling the compressor 2 according to the load of the water demand destination.

The oil recovery valve 42 may be controlled according to the temperature of the plate heat exchanger 10 and 11 and the temperature of the water outlet passage 16.

The controller 54 may control the oil recovery valve 42 on and off according to the detection result of the plate heat exchanger temperature sensors 50 and 51 and the detection result of the water discharge flow path temperature sensor 52.

The oil recovery valve 42 may be turned on for a predetermined time when the temperature (A ° C.) of the plate heat exchanger 10 (11) is higher than the temperature (B ° C.) of the water discharge passage 16.

When the plurality of plate heat exchangers 10 and 11 are installed, the oil return valve 42 has a temperature (A ° C) of at least one of the plurality of plate heat exchangers 10 and 11 at the outlet flow path 16. If the set temperature (C ℃) higher than the temperature (B ℃) of the may be turned on for a set time.

The oil recovery valve 42 may be turned off if the temperature (A ° C.) of the plate heat exchanger 10 (11) is not higher than the set temperature (C ° C.) than the temperature (B ° C.) of the water discharge passage 16.

 When the plurality of plate heat exchangers 10 and 11 are installed, the oil return valve 42 has a temperature (A ° C) of at least one of the plurality of plate heat exchangers 10 and 11 at the outlet flow path 16. If the set temperature (C ℃) is not higher than the temperature (B ℃) of the can be turned off.

3 is an exploded perspective view of the plate heat exchanger shown in FIG. 1.

The plate heat exchanger 10 and 11 may be formed with the refrigerant passages 6 and 7 and the water passages 8 and 9 interposed between the heat transfer plates 60. The plate heat exchanger 10, 11 may have a plurality of heat transfer plates 60 arranged therebetween, and the refrigerant passages 6, 7 and the water passages 8, 9 may alternate with the heat transfer plates 60 therebetween. It can be formed as.

The plate heat exchanger 10 and 11 may have a refrigerant inlet 61, a refrigerant outlet 62, a water inlet 63, and a water outlet 64.

The plate heat exchanger 10 and 11 may be formed to be spaced apart from the refrigerant inlet 61 and the water outlet 64 at the bottom thereof, and may be formed to be spaced apart from the refrigerant outlet 62 and the water inlet 63 at the upper portion thereof. have.

The plate heat exchanger (10) (11) is spaced apart from the front cover (66) and the front cover (66) formed with the refrigerant inlet (61), the refrigerant outlet (62), the water inlet (63), and the water outlet (64). It may include a back cover 68 to form the rear appearance of the plate heat exchanger (10) (11).

The plurality of heat transfer plates 60 may be disposed between the front cover 66 and the back cover 68.

The plate heat exchanger 10 and 11 may include a seal plate 70 disposed between the frontmost heat transfer plate and the front cover 66 among the plurality of heat transfer plates 60.

In the plate heat exchanger (10) (11), the refrigerant inlet (61) is located below the plate heat exchanger (10) (11), and the refrigerant outlet (62) is located above the plate heat exchanger (10) (11). Therefore, the refrigerant may be exchanged with water while flowing from the lower portion of the refrigerant passages 6 and 7 of the plate heat exchanger 10 and 11 to the upper portion of the refrigerant passages 6 and 7.

In the plate heat exchanger 10, 11, the water inlet 63 is located above the plate heat exchanger 10, 11, and the water outlet 64 is located below the plate heat exchanger 10, 11. Therefore, the water flows from the upper portion of the water passages 8 and 9 of the plate heat exchanger 10 and 11 to the lower portion of the water passages 8 and 9 and thus may be heat-exchanged with the refrigerant.

 The oil recovery passage 40 may be connected to the opposite side of the refrigerant inlet 61 of the plate heat exchanger 10 and 11, and the oil recovery passage 40 may pass through the back cover 68 to allow the refrigerant passage 6 to be connected to the refrigerant flow passage. 7) can be communicated with.

4 is a flowchart illustrating an embodiment of a method of operating an air conditioner according to the present invention.

 The air conditioner operating method of the present embodiment may include a compressor driving step S1, a temperature sensing step S2, an oil recovery valve on step S3, S4, and an oil recovery valve off step S5. have.

The compressor driving step S1 is a step of driving the compressor 2.

The compressor 2 can be driven when there is a cooling load at the water demand.

The air conditioner may generate a cooling load when the water temperature of the water demand destination falls below the set temperature range of the water demand destination or when the water temperature of the water outlet passage 16 falls below the set temperature range, and the cooling load as described above occurs. The compressor 2 can then be driven. In addition, the operation switching valve 30 may be controlled to the cooling operation mode.

When the compressor 2 is driven, the water pump can be driven, and the water of the water demand source is the water passages 8 and 9 and the discharge passage 16 of the inlet flow passage 14 and the plate heat exchanger 10 and 11. Circulation and water demand)

When the compressor 2 is driven, the refrigerant is discharged from the compressor 2, the refrigerant is condensed while passing through the heat exchanger 4, and expanded while passing through the expansion mechanism 12. The refrigerant expanded in the expansion mechanism (12) flows into the refrigerant passages (6) and (7) of the plate heat exchanger (10) and (11), and evaporates while exchanging heat with water in the water passages (8) and (9). Refrigerant and oil flow out from the refrigerant paths 6 and 7 of the plate heat exchanger 10 and 11, and the refrigerant and oil are recovered by the compressor 2.

On the other hand, when the compressor 2 is driven, the water pump can be driven, and the water of the water demand destination is the water passages 8 and 9 and the water passage of the inlet flow passage 14 and the plate heat exchanger 10 and 11. (16) and the water demand can be cycled to cool the water demand.

The temperature sensing step S2 detects the temperature of the plate heat exchanger 10 and 11 and the temperature of the water discharge channel 16 after the compressor driving step S1.

Plate heat exchanger temperature sensor 50, 51 detects the temperature of the plate heat exchanger (10) (11) and outputs to the control unit 54, the water exit flow path temperature sensor 52 is the temperature of the water exit flow path (16) It detects and outputs to the control part 54.

 In the air conditioner operation method, the temperature of the plate heat exchanger 10 (11) detected in the temperature sensing step (S2) is the oil recovery valve on step (S3) (S4) and the oil recovery by the temperature of the water outlet passage (16). The valve off step S5 can be selectively performed.

 Oil return valve on stage (S3) (S4) is a plate heat exchanger if the temperature (A ℃) of the plate heat exchanger (10) (11) is higher than the set temperature (C ℃) than the temperature (B ℃) of the water discharge passage 16 (10) The oil recovery valve 42 for recovering the oil to the compressor can be turned on for a set time.

The set temperature (C ° C) is a temperature set to determine whether the oil is excessive in the refrigerant passages 6 and 7 of the plate heat exchanger 10 and 11.

The set time is a time set for adjusting the amount of oil in the plate heat exchanger 10 (11) within an appropriate range. If the set time is set too long, the amount of refrigerant that bypasses the plate heat exchanger 10 and 11 without evaporating from the plate heat exchanger 10 and 11 of the refrigerant in the plate heat exchanger 10 and 11 may be excessive. If it is set too short, the residual oil in the plate heat exchanger (10) (11) is large.

The air conditioner is a temperature detected by the first plate heat exchanger temperature sensor 50 when there is excess oil in the first plate heat exchanger 10 and the first plate heat exchanger 10 of the second plate heat exchanger 11. (A ° C) may be higher than the set temperature (C ° C) of the water discharge passage 16 (B ° C), and at this time, the oil recovery valve 42 may be turned on.

The air conditioner is a temperature detected by the second plate heat exchanger temperature sensor 51 when there is excess oil in the second plate heat exchanger 11 of the first plate heat exchanger 10 and the second plate heat exchanger 11. (A ° C) may be higher than the set temperature (C ° C) of the water discharge passage 16 (B ° C), and at this time, the oil recovery valve 42 may be turned on.

When the oil return valve 42 is turned on, the oil return flow path 40 is opened, and the oil in the refrigerant flow paths 6 and 7 of the plate heat exchanger 10 and 11 is transferred to the oil return flow path 40 and the oil recovery path. The valve 42 is returned to the compressor 2.

When the oil of the plate heat exchanger (10) (11) is recovered to the compressor (2) for a set time as described above, the oil in the plate heat exchanger (10) (11) is reduced, the heat exchange between the refrigerant and water is increased and efficient heat exchange This becomes possible.

In the oil recovery valve off step S5, when the temperature (A ° C.) of the plate heat exchanger 10 (11) is not higher than the set temperature (C ° C.) higher than the temperature (B ° C.) of the water discharge passage 16, the oil recovery valve ( 42) can be turned off.

2: compressor 4: heat exchanger
6: refrigerant passage 8: water passage
10,11: plate heat exchanger 12: expansion mechanism
14: Euro Euro 16: Euro Euro
40: oil return passage 42: oil return valve
50, 51: plate heat exchanger temperature sensor 52: exit flow path temperature sensor

Claims (7)

A compressor for compressing the refrigerant;
A heat exchanger in which the refrigerant is condensed or evaporated by heat exchange with the fluid;
A plate heat exchanger configured to form a refrigerant passage through which a refrigerant passes and a water passage through which water passes, so that the refrigerant in the refrigerant passage exchanges heat with water in the water passage and evaporates or condenses;
An expansion mechanism for expanding a refrigerant between the heat exchanger and the plate heat exchanger;
An acquisition flow path through which water is obtained through the water flow path;
An outlet passage through which water from the water passage is discharged;
An oil recovery flow path connected to recover the oil in the refrigerant flow path to the compressor;
An oil recovery valve installed in the oil recovery passage;
A plate heat exchanger temperature sensor detecting a temperature of the plate heat exchanger;
It includes a water flow passage temperature sensor for sensing the temperature of the water flow passage,
The oil recovery valve is an air conditioner that is turned on for a set time when the temperature of the plate heat exchanger is higher than the temperature of the outlet flow path. The method of claim 1,
The oil recovery valve is turned off if the temperature of the plate heat exchanger is not higher than the set temperature higher than the temperature of the discharge passage. The method of claim 1,
The plate heat exchanger is formed with a refrigerant inlet and a water outlet at the bottom, a refrigerant outlet and a water inlet at the top,
The oil recovery passage is connected to the opposite side of the refrigerant inlet of the plate heat exchanger. The method of claim 1,
The plate heat exchanger is provided in plurality,
The plate heat exchanger temperature sensor is installed in each of the plate heat exchanger,
The oil return valve is an air conditioner that is turned on for a set time when at least one of the plurality of plate heat exchangers has a temperature higher than a set temperature of the water outlet flow path. The method of claim 1,
The plate heat exchanger temperature sensor is an air conditioner installed to detect the temperature of the water flow path. A compressor driving step of driving the compressor;
A temperature sensing step of sensing a temperature of a plate heat exchanger for exchanging water between a refrigerant and water after the compressor driving step and a water outlet flow path through which water discharged from the plate heat exchanger passes;
Operation of the air conditioner comprising the step of turning on the oil recovery valve for turning on the oil recovery valve for recovering the oil of the plate heat exchanger to the compressor when the temperature of the plate heat exchanger is higher than the set temperature of the water discharge passage Way. The method according to claim 6,
The operation method of the air conditioner further comprises the step of turning off the oil recovery valve, if the temperature of the plate heat exchanger is not higher than the set temperature of the water discharge channel, the operation method of the air conditioner.

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