KR101610836B1 - System Air Conditioner And Method for operating the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system air conditioner, and more particularly, to a system air conditioner that performs a defrosting operation while performing a heating operation or a simultaneous cooling and heating operation.

The present invention is characterized in that the plurality of indoor units in the defrosting operation include at least one first indoor unit performing the heating operation and the plurality of outdoor units include at least one outdoor unit for circulating the refrigerant to the high pressure gas pipe, A first outdoor unit, a liquid pipe, a first outdoor unit, and at least one second outdoor unit for circulating the refrigerant through the low-pressure gas pipe.

Description

System air conditioner and method of operating same

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system air conditioner, and more particularly, to a simultaneous cooling / heating system air conditioner in which a part of a plurality of indoor units performs heating operation while the others perform defrost operation.

 The system air conditioner has a plurality of indoor units. The system air conditioner can perform heating operation, cooling operation, main heating operation, or main cooling operation according to the operation mode of a plurality of indoor units. The heating operation is a case in which all of the indoor units perform the heating operation, and the cooling operation is the case in which all the indoor units perform the heating operation. Also, in the main heating operation or the main cooling operation, a part of the plurality of indoor units performs the heating operation and the remainder performs the cooling operation. In this way, a part of the plurality of indoor units performs the heating operation, Quot;

The system air conditioner includes an outdoor unit and an air conditioner switching unit. The outdoor unit may be formed as a single unit or a plurality of units. The outdoor unit can perform heating operation or cooling operation. A plurality of indoor units are connected in parallel to the outdoor unit, and a plurality of indoor units corresponding to the outdoor units perform heating operation or cooling operation. Further, the cooling / heating switching device is provided between the outdoor unit and the plurality of indoor units, so that the plurality of indoor units can simultaneously perform the cooling / heating operation.

On the other hand, the system air conditioner performs defrosting operation when a frost is formed in an outdoor unit during heating operation or simultaneous heating and cooling operation. The system air conditioner is unable to perform heating operation during defrosting operation. In particular, even when a plurality of outdoor units are provided, the operation modes of the outdoor units are set to the same, so that when one of the outdoor units performs the defrosting operation, the other outdoor units are also defrosted to fail to perform the heating operation.

One aspect of the present invention discloses a system air conditioner in which an outdoor unit performs a defrosting operation while an indoor unit performs a heating operation or a simultaneous cooling and heating operation, and a method of operating the system air conditioner.

A system air conditioner according to an embodiment of the present invention includes a plurality of indoor units, a plurality of outdoor units, and a high-pressure gas pipe, a low-pressure gas pipe, and a liquid pipe connecting the plurality of indoor units and the plurality of outdoor units, Wherein the plurality of indoor units includes at least one first indoor unit for performing a heating operation and the plurality of outdoor units include at least one indoor unit for circulating the refrigerant to the high pressure gas pipe, And at least one second outdoor unit for circulating the refrigerant to the liquid pipe, the first outdoor unit, and the low-pressure gas pipe.

The first outdoor unit includes a first outdoor heat exchanger, a first compressor, and a first four-way valve. The second outdoor unit includes a second outdoor heat exchanger, a second compressor, and a second four- Wherein the first four-way valve of the first outdoor unit guides the refrigerant discharged from the first compressor to the high-pressure gas pipe, and the second four-way valve of the second outdoor unit discharges the refrigerant discharged from the second compressor to the high- To the second outdoor heat exchanger.

Further, the refrigerant condensed in the second outdoor heat exchanger is guided to the first outdoor heat exchanger by the liquid pipe and evaporated.

In addition, a part of the refrigerant evaporated in the first outdoor heat exchanger is guided to the second compressor by the low-pressure gas pipe and is compressed.

The first indoor unit includes a first indoor heat exchanger, and the refrigerant guided to the high-pressure gas pipe by the first four-way valve is guided to the first indoor heat exchanger and condensed.

The refrigerant condensed in the first indoor heat exchanger is guided to the first outdoor heat exchanger by the liquid pipe and evaporated.

In addition, a part of the refrigerant evaporated in the first outdoor heat exchanger is guided to the first compressor and is compressed.

A method of operating a system air conditioner according to an embodiment of the present invention is a method of operating a system air conditioner including a plurality of indoor units and a plurality of outdoor units, wherein at least one of the plurality of indoor units performs a heating operation Operating at least one first outdoor unit performing a heating operation among the plurality of outdoor units and operating at least one second outdoor unit performing a cooling operation among the plurality of outdoor units, .

The indoor unit further includes a high-pressure gas pipe, a low-pressure gas pipe, and a liquid pipe connecting the plurality of indoor units and the plurality of outdoor units, wherein the first outdoor unit is configured such that the refrigerant circulates through the high- And causing the second outdoor unit to circulate the refrigerant through the liquid pipe, the first outdoor unit, and the low-pressure gas pipe.

And determining whether at least one of the plurality of outdoor units requires a defrost operation.

The plurality of outdoor units each include an outdoor heat exchanger, and the temperature of each of the outdoor heat exchangers is measured, and the step of determining whether the temperature of the outdoor heat exchanger is a temperature corresponding to the defrost operation .

The system air conditioner and the operation method thereof according to an aspect of the present invention are characterized in that a defrosting operation is performed only by a corresponding outdoor unit requiring a defrosting operation in which a plurality of outdoor units are used for heating operation and the other outdoor units maintain a heating operation The heating performance is improved.

Hereinafter, a system air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a refrigerant flow during a heating operation of a system air conditioner according to an embodiment of the present invention.

As shown in FIG. 1, the system air conditioner according to the embodiment of the present invention includes a plurality of outdoor units 20A and 20B and a plurality of indoor units 30A to 30D. The plurality of outdoor units 20A and 20B and the plurality of indoor units 30A to 30D are connected by a pipe 40. [ The plurality of indoor units 30 are connected to the piping 40 and the plurality of outdoor units 20 are connected to the high-pressure gas pipe 41, the low-pressure gas pipe 42 and the liquid pipe 43, Respectively, are also connected to the piping 40. Hereinafter, when it is necessary to distinguish a plurality of outdoor units 20A and 20B, different reference numerals 20A and 20B are used, and explanation will be made using the same reference numeral 20 when it is not necessary to distinguish. When it is necessary to distinguish a plurality of indoor units 30, different reference numerals 30A, 30B, 30C, and 30D are used and the same reference numeral 30 is used when it is not necessary to distinguish.

In addition, the system air conditioner according to the embodiment of the present invention includes an air conditioner switching unit 50 that switches the operation mode of each of the plurality of outdoor units 20 to cooling operation or heating operation.

The outdoor unit (20) includes an outdoor heat exchanger (21), a compressor (22), and a four - way valve (23). The four-way valve 23 determines the flow direction of the refrigerant discharged from the compressor 22 and the outdoor heat exchanger 21 performs heat exchange with the outdoor air introduced by the fan 27. The outdoor unit 20 also includes an accumulator 24 for separating the refrigerant in the gaseous state and the refrigerant in the liquid state to supply the refrigerant to the compressor 22 and includes an outdoor expansion side 25 for expanding the refrigerant. The outdoor unit 20 includes an outdoor heat exchanger temperature sensor 26 for measuring the temperature of the outdoor heat exchanger 21. The outdoor unit 20 determines whether or not the defrost operation is performed based on the temperature measured by the outdoor heat exchanger temperature sensor 26 .

In the outdoor unit 20, the high-pressure gas pipe 41 can be connected to the discharge side of the compressor 22 by the four-way valve 23, and the outdoor heat exchanger 21 can be connected to the compressor 22 by the four- And can be connected to the discharge side. 1, the four-way valve 23 guides the refrigerant discharged from the compressor 22 to the high-pressure gas pipe 41, and in the cooling operation, the four-way valve 23 opens the compressor 22 To the outdoor heat exchanger (21).

The liquid pipe (43) is connected to the outdoor heat exchanger (21) through the outdoor expansion side (25). 1, the refrigerant flowing into the outdoor heat exchanger 21 through the liquid pipe 43 during the heating operation evaporates, and the refrigerant condensed in the outdoor heat exchanger 21 during the cooling operation as shown in FIG. 2 And moves to the indoor unit (30) side through the liquid pipe (43).

The low-pressure gas pipe 42 is connected to the suction side of the compressor 22 through the accumulator 24. The low-pressure gas pipe 42 performs a main function in the cooling operation, the simultaneous cooling / heating operation or the defrosting operation, which will be described later in detail.

The indoor unit (30) includes an indoor heat exchanger (31) and an indoor expansion port (32) connected in series with the indoor heat exchanger (31). And an indoor temperature sensor (33) for measuring the temperature of the indoor heat exchanger (31).

The heating / cooling device 50 includes a heating valve 51 and a cooling valve 52. The high-pressure gas pipe 41 is branched into a plurality of parts and is connected to the indoor heat exchanger 31. A plurality of heating valves 51A to 51D are provided in the high-pressure gas pipe 41 branched into a plurality of parts. The low-pressure gas pipe 42 also branches into a plurality of units and is connected to the indoor heat exchanger 31. A plurality of cooling valves 52A to 52D are installed in the low-pressure gas pipe 42 branched into a plurality of units. Further, the liquid pipe 43 is also divided into a plurality of portions and connected to the indoor heat exchanger 31 through the room expansion side 32. The high pressure gas pipe 41 branched into a plurality of portions is connected to the liquid pipe 43 through the heating valve 51, the indoor heat exchanger 31 and the room expansion 32. The low pressure gas pipe 42, Is connected to the liquid pipe (43) through the valve (52), the indoor heat exchanger (31) and the room expansion side (32).

The control unit controls various devices based on the sensor information of the outdoor heat exchanger temperature sensor 26 provided in the outdoor heat exchanger 21 and the indoor temperature sensor 33 installed in the indoor heat exchanger 31. The four-way valve 23, the expansion valves 25 and 32, the heating valve 51, the cooling valve 52, the compressor 22, and the like.

Hereinafter, the heating operation of the system air conditioner according to the embodiment of the present invention will be described.

As shown in FIG. 1, a system air conditioner according to an embodiment of the present invention includes two outdoor units 20 and four indoor units 30 as one embodiment.

In order for the system air conditioner according to the embodiment of the present invention to perform the heating operation, both the outdoor unit 20 and the indoor unit 30 perform the heating operation. That is, the refrigerant evaporates in the outdoor heat exchanger 21 of the outdoor unit 20, and the indoor space is heated by condensing the refrigerant in the indoor heat exchanger 31 of the indoor unit 30.

Way valve 23 guides the refrigerant discharged from the compressor 22 to the high-pressure gas pipe 41 so that the outdoor unit 20 performs the heating operation. At this time, the heating valve 51 is opened and the cooling valve 52 is closed in the cooling / heating switch 50. The refrigerant passes through the heating valve 51 and moves to the indoor unit 30 side. The refrigerant in the indoor unit (30) is guided to the indoor heat exchanger (31) and is condensed by heat exchange with indoor air in the indoor heat exchanger (31). The condensed refrigerant moves to the outdoor unit (20) side through the liquid pipe (43). The refrigerant in the outdoor unit (20) is guided to the outdoor heat exchanger (21) and evaporated by heat exchange with the outdoor air in the outdoor heat exchanger (21). The evaporated refrigerant is guided to the compressor (22) by the four-way valve (23) and compressed.

Since the indoor heat exchanger 31 functions as a condenser, the indoor unit 30 functions as a radiator.

Hereinafter, the cooling operation of the system air conditioner according to the embodiment of the present invention will be described.

FIG. 2 illustrates a refrigerant flow during a cooling operation of a system air conditioner according to an embodiment of the present invention.

Referring to FIG. 2, in order for the system air conditioner according to the embodiment of the present invention to perform the cooling operation, both the outdoor unit 20 and the indoor unit 30 perform the cooling operation. The refrigerant is condensed in the outdoor heat exchanger 21 of the outdoor unit 20 and the refrigerant evaporates in the indoor heat exchanger 31 of the indoor unit 30 to cool the indoor space.

Way valve 23 guides the refrigerant discharged from the compressor 22 to the outdoor heat exchanger 21 so that the outdoor unit 20 performs the cooling operation. The refrigerant guided to the outdoor heat exchanger (21) is condensed by heat exchange with outdoor air in the outdoor heat exchanger (21). The condensed refrigerant moves to the indoor unit (30) side through the liquid pipe (43). The refrigerant in the indoor unit (30) is guided to the indoor heat exchanger (31) and evaporated by heat exchange with indoor air in the indoor heat exchanger (31). At this time, the cooling valve 52 is opened and the heating valve 51 is closed in the cooling / heating switch 50. The refrigerant evaporated in the indoor heat exchanger (31) passes through the cooling valve (52) and passes through the low-pressure gas pipe (42). The refrigerant is moved to the outdoor unit (20) side through the low pressure gas pipe (42), and the refrigerant in the outdoor unit (20) is guided and compressed by the compressor (22).

Since the indoor heat exchanger 31 functions as an evaporator, the indoor unit 30 functions as a cooler.

Hereinafter, the simultaneous cooling and heating operation of the system air conditioner according to the embodiment of the present invention will be described.

FIG. 3 illustrates a refrigerant flow during simultaneous cooling and heating operation of a system air conditioner according to an embodiment of the present invention.

3, in order to perform the simultaneous cooling and heating, the outdoor unit 20 performs the heating operation, the indoor unit 30 performs the heating operation, and the indoor unit 30 30) performs the cooling operation. The outdoor unit 20 does not necessarily perform the heating operation. Even when the outdoor unit 20 performs the cooling operation, some of the indoor units 30 perform the heating operation and some of the indoor units 30 perform the cooling operation . ≪ / RTI > Hereinafter, the case where the outdoor unit 20 performs the heating operation as shown in FIG. 1 and the indoor unit 30 performs the simultaneous cooling and heating operation will be described.

Way valve 23 guides the refrigerant discharged from the compressor 22 to the high-pressure gas pipe 41 so that the outdoor unit 20 performs the heating operation. At this time, the first heating valve 51A is closed and the first cooling valve 52A is opened in the cooling / heating switch 50. [ The second to fourth heating valves 51B to 51D are opened and the second to fourth cooling valves 52B to 52D are closed. Therefore, the refrigerant passes through the second to fourth heating valves 51B to 51D and moves to the second to fourth indoor units 30B to 30D. The refrigerant is guided to the second to fourth indoor heat exchangers 31B to 31D in the second to fourth indoor units 30B to 30D and the outdoor air is exchanged with the indoor air in the second to fourth indoor heat exchangers 31B to 31D .

Most of the condensed refrigerant moves to the outdoor unit 20 side through the liquid pipe 43 and a part of the condensed refrigerant moves to the first indoor unit 30A side through the liquid pipe 43. [ The refrigerant traveling to the outdoor unit 20 side is guided to the outdoor heat exchanger 21 and evaporated by heat exchange with the outdoor air in the outdoor heat exchanger 21. [ The evaporated refrigerant is guided to the compressor (22) by the four-way valve (23) and compressed. The refrigerant moving toward the first indoor unit (30A) is guided to the first outdoor heat exchanger (21A) and evaporated by heat exchange with indoor air in the first outdoor heat exchanger (21A). The evaporated refrigerant passes through the low-pressure gas pipe 42 through the first cooling valve 52A. The refrigerant is moved to the outdoor unit (20) side through the low pressure gas pipe (42), and the refrigerant in the outdoor unit (20) is guided and compressed by the compressor (22).

As described above, the first indoor heat exchanger 31A functions as an evaporator, so that the first indoor unit 30A functions as a cooler and the second to fourth indoor heat exchangers 31B through 31D function as a condenser, The indoor units 32B to 32D function as radiators.

Hereinafter, the defrosting operation of the system air conditioner according to the embodiment of the present invention will be described.

FIG. 4 shows a refrigerant flow during a defrosting operation of a system air conditioner according to an embodiment of the present invention.

When the heating operation is performed as shown in FIG. 1, or when the simultaneous cooling and heating operation is performed as shown in FIG. 3, the outdoor heat exchanger 21 of the outdoor unit 20 is frosted and the heat exchange efficiency can be drastically reduced. Therefore, the outdoor heat exchanger temperature sensor 26 is installed in the outdoor heat exchanger 21, and when the temperature measured by the outdoor heat exchanger temperature sensor 26 corresponds to the set temperature, the system air conditioner performs defrost operation. However, even when the defrosting operation is performed, the system air conditioner according to the embodiment of the present invention can perform the heating operation or the simultaneous cooling and heating operation.

Referring to FIG. 4, in the case of the system air conditioner according to the embodiment of the present invention, the second outdoor unit 20 satisfies the defrost requirement condition. Here, the defrosting operation condition means that the temperature T sensed by the outdoor heat exchanger temperature sensor 26 reaches a temperature T 'required to be defrosted in advance. During the defrosting operation, the first outdoor unit (20A) performs the heating operation and the second outdoor unit (20B) performs the cooling operation. The refrigerant evaporates in the first outdoor heat exchanger 21A of the first outdoor unit 20A and the refrigerant condenses in the second outdoor heat exchanger 21B of the second outdoor unit 20B.

The first four-way valve 23A guides the refrigerant discharged from the first compressor 22A to the high-pressure gas pipe 41 so that the first outdoor unit 20A performs the heating operation. The subsequent refrigerant flow is the same as that described in Fig. The refrigerant flows out from the first outdoor unit 20A and flows into the first outdoor unit 20A through the high pressure gas pipe 41, the indoor unit 30 and the liquid pipe 43, The refrigerant is guided to the first outdoor heat exchanger 21A and evaporated by heat exchange with the outdoor air in the first outdoor heat exchanger 21A. The evaporated refrigerant is guided to the compressor 22 or the low-pressure gas pipe 42 by the first four-way valve 23A.

The second four-way valve 23B guides the refrigerant discharged from the second compressor 22B to the second outdoor heat exchanger 21B so that the second outdoor unit 20B performs the cooling operation. Since the refrigerant guided to the second outdoor heat exchanger 21B has a high temperature and a high pressure, the frost, etc. formed in the second outdoor heat exchanger 21B is removed. And is condensed by heat exchange with the outdoor air in the second outdoor heat exchanger (21B). The condensed refrigerant joins the liquid pipe 43 and moves to the first outdoor unit 20A side. In the first outdoor unit (20A), the refrigerant is guided to the first outdoor heat exchanger (21A) and evaporated by heat exchange with the outdoor air. The refrigerant is guided to the first compressor 22A or the low-pressure gas pipe 42 by the first four-way valve 23A of the evaporated refrigerant, a part of the evaporated refrigerant is guided to the first compressor 22A, And is guided to the gas pipe 42.

On the other hand, the refrigerant guided to the low-pressure gas pipe 42 moves from the first outdoor unit 20A to the second outdoor unit 20B. The refrigerant in the second outdoor unit 20B is guided and compressed by the second compressor 22B and the refrigerant compressed in the second compressor 22B is supplied to the second outdoor heat exchanger 21B through the second four- .

If the first outdoor unit 20A and the second outdoor unit 20B are to defrost the second outdoor unit 20B while performing the heating operation, the first outdoor unit 20A continues to perform the heating operation And the second outdoor unit 20B performs the cooling operation. Thus, the refrigerant circulates through the second outdoor unit 20B, the liquid pipe 43, the first outdoor unit 20A, and the low-pressure gas pipe 42, so that the second outdoor heat exchanger 21B of the second outdoor unit 20B, do. In addition, the indoor unit (30) can perform the heating operation or the simultaneous cooling / heating operation by the first outdoor unit (20A). As a result, the system air conditioner according to the embodiment of the present invention can perform the defrosting operation without stopping the heating operation or the simultaneous cooling and heating operation.

FIG. 1 shows a refrigerant flow during a heating operation of a system air conditioner according to an embodiment of the present invention.

FIG. 2 illustrates a refrigerant flow during a cooling operation of a system air conditioner according to an embodiment of the present invention.

FIG. 3 illustrates a refrigerant flow during simultaneous cooling and heating operation of a system air conditioner according to an embodiment of the present invention.

FIG. 4 illustrates a refrigerant flow during a defrost operation of a system air conditioner according to an embodiment of the present invention.

Description of the Related Art [0002]

20: outdoor unit 30: indoor unit

41: high pressure gas pipe 42: low pressure gas pipe

43: liquid pipe 50: heating /

Claims (11)

A plurality of indoor units A plurality of outdoor units each including a compressor and a heat exchanger; A high-pressure gas pipe, a low-pressure gas pipe, and a liquid pipe connecting the plurality of indoor units and the plurality of outdoor units, Wherein the plurality of indoor units include at least one first indoor unit performing a heating operation, Wherein the plurality of outdoor units includes at least one first outdoor unit for circulating refrigerant to the high-pressure gas pipe, the first indoor unit and the liquid pipe, at least one outdoor unit for circulating refrigerant through the liquid pipe, the first outdoor unit, And a second outdoor unit, Wherein the second outdoor unit performs a cooling operation and the first indoor unit performs heating operation during a defrosting operation of the second outdoor unit, and a part of the refrigerant flows from the compressor and the heat exchanger of the second outdoor unit to the liquid pipe, The heat exchanger of the outdoor unit, and the closed-loop path connected to the low-pressure gas pipe, and then circulated to the compressor of the second outdoor unit. The method according to claim 1, Wherein the first outdoor unit includes a first outdoor heat exchanger, a first compressor, and a first four-way valve, and the second outdoor unit includes a second outdoor heat exchanger, a second compressor, and a second four- Wherein the first four-way valve of the first outdoor unit guides the refrigerant discharged from the first compressor to the high-pressure gas pipe, and the second four-way valve of the second outdoor unit discharges the refrigerant discharged from the second compressor to the high- To the second outdoor heat exchanger. 3. The method of claim 2, And the refrigerant condensed in the second outdoor heat exchanger is guided to the first outdoor heat exchanger by the liquid pipe and evaporated. The method of claim 3, And a part of the refrigerant evaporated in the first outdoor heat exchanger is guided to the second compressor by the low-pressure gas pipe and is compressed. 3. The method of claim 2, Wherein the first indoor unit includes a first indoor heat exchanger, And the refrigerant guided to the high-pressure gas pipe by the first four-way valve is guided to the first indoor heat exchanger and condensed. 6. The method of claim 5, And the refrigerant condensed in the first indoor heat exchanger is guided to the first outdoor heat exchanger by the liquid pipe to evaporate. The method according to claim 6, And a part of the refrigerant evaporated in the first outdoor heat exchanger is guided to the first compressor and compressed. A method of operating a system air conditioner including a plurality of indoor units, a plurality of outdoor units each including a compressor and a heat exchanger, and a high pressure gas pipe, a low pressure gas pipe, and a liquid pipe connecting the plurality of indoor units and the plurality of outdoor units, A step of recognizing that at least one of the plurality of outdoor units requires defrost operation; When defrosting operation is required At least one of the plurality of indoor units performing a heating operation; At least one of the plurality of outdoor units is operated to perform a heating operation and at least one of the plurality of outdoor units is operated to perform a cooling operation, During the defrosting operation, At least one of the plurality of outdoor units performing the heating causes the refrigerant to circulate the at least one of the high pressure gas pipe and the plurality of indoor units performing the heating and the liquid pipe, At least one of the plurality of outdoor units performing cooling includes at least one heat exchanger of a compressor and a heat exchanger of an outdoor unit in which the refrigerant performs the at least one cooling and the outdoor units performing the heating of the liquid pipe, Wherein at least one of the plurality of outdoor units performing the cooling is circulated through at least one of the plurality of outdoor units performing the heating via a closed-loop path formed by the gas pipe. delete 9. The method of claim 8, Wherein each of the plurality of outdoor units includes an outdoor heat exchanger, The method comprising the steps of: measuring a temperature of each of the outdoor heat exchangers; and determining whether the temperature of the outdoor heat exchanger corresponds to the defrosting operation. 11. The method of claim 10, Wherein each of the plurality of outdoor units includes an outdoor heat exchanger temperature sensor for detecting a temperature of the outdoor heat exchanger.

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