KR20050122625A - A multi air conditioner system and a driving method of indoor unit - Google Patents

Abstract

The present invention relates to a multi-air conditioner system and an indoor unit operating method, and an object of the present invention is to operate a multi-air conditioner system and indoor unit that can protect the system without interrupting the operation of the entire system even if some systems in the multi-air conditioner system In providing a method.

The present invention provides a multi-air conditioner system having at least one outdoor unit and a plurality of indoor units connected in parallel to the at least one outdoor unit, each indoor unit having an indoor unit failure detection unit for detecting a failure of the indoor unit, and the indoor unit when a failure occurs in the indoor unit. A refrigerant control valve for automatically blocking the flow of the refrigerant flowing through the indoor unit pipe by the signal of the failure detection unit.

Description

A multi air conditioner system and a driving method of indoor unit}

The present invention relates to a multi air conditioner system and an indoor unit operating method, and more particularly, to a multi air conditioner system and an indoor unit operating method that can properly cope with a failure in a part of the system.

In general, as shown in FIG. 1, the multi-air conditioner system commands a plurality of outdoor units 1, a plurality of indoor units 2 connected to the plurality of outdoor units 1, and a command to control the plurality of indoor units 2. And a central controller 3 for input. In addition, each outdoor unit 1 and the plurality of indoor units 2 are provided with an outdoor unit microcomputer 4 and an indoor unit microcomputer 5, and a repeater for interfacing between the central controller 3 and the outdoor unit microcomputer 4. (6) is provided. The configuration of other multi-air conditioner system is disclosed in detail in Korean Patent Publication No. 10-0412411.

In such a multi-air conditioner system, the central controller 3, the repeater 6, the outdoor unit 1, and the indoor unit 2 perform data communication in a specific communication method to identify the state of other devices or perform a desired operation.

That is, when a user inputs a control command to each indoor unit 2 through a wired remote controller 7 or a wireless remote controller (not shown), the indoor unit microcomputer 5 analyzes the received data to meet the needs of the user. Control each device. In addition, the indoor unit microcomputer 5 transmits the received data to the outdoor unit microcomputer 4 through the communication line, the outdoor unit microcomputer 4 analyzes the data transmitted from the indoor unit microcomputer 5 to the respective devices of the outdoor unit (1) To control.

In the conventional multi-air conditioner system, the microcomputer 5 of some indoor units 2 of the indoor units of the entire indoor unit fails, or an electric valve (not shown) installed in the indoor unit 2 fails, or the outdoor unit microcomputer 4 and the indoor unit microcomputer ( 5) If there is a problem in some systems, such as when there is a communication error, the outdoor unit 1 connected to the indoor unit 5 in which the failure has occurred operates the entire indoor unit belonging to the outdoor unit 1 in order to prevent the deterioration of the failure condition. Was forcibly stopped.

However, even if only some indoor units are abnormal in this way, if the entire indoor unit is stopped, the air-conditioning efficiency of the space where the other indoor units are functioning is not only reduced, but also the user's dissatisfaction due to frequent downtime of the system increases. there was.

The present invention is to solve the above-described problems, an object of the present invention is to provide a multi-air conditioning system and indoor unit operating method that can protect the system without interrupting the operation of the entire system even if some system in the multi-air conditioning system. In providing.

According to an aspect of the present invention, there is provided a multi-air conditioner system having at least one outdoor unit and a plurality of indoor units connected in parallel to the at least one outdoor unit, each indoor unit having an indoor unit failure detection unit for detecting a failure of the indoor unit; It characterized in that it comprises a refrigerant control valve for automatically blocking the flow of the refrigerant flowing through the indoor unit pipe by the signal of the indoor unit failure detection unit when the indoor unit failure occurs.

In addition, the indoor unit failure detection unit is characterized in that the microcomputer state detection unit for detecting a failure of the indoor unit microcomputer.

In addition, the indoor unit microcomputer transmits a clock signal of a predetermined cycle to the microcomputer state detection unit during normal operation, and the microcomputer state detection unit outputs an operation state signal that is high when the clock signal of a predetermined cycle is transmitted from the indoor unit microcomputer, and the indoor unit If the clock signal of the predetermined period is not transmitted from the microcomputer, the microcomputer outputs a low-state operation state signal.

In addition, the refrigerant control valve is connected to the valve relay for supplying or cutting off power to the refrigerant control valve, the valve relay is the operating state signal of the indoor unit microcomputer output from the microcomputer state detection unit and the valve relay output from the indoor unit microcomputer And a gate for receiving a driving signal and outputting a different value according to the operation state signal and the valve relay driving signal.

In addition, the valve relay is an active low, the gate is a NAND gate, when a failure occurs in the indoor unit microcomputer, the operating state signal is input to the NAND gate is low, a high signal is output, the valve relay is turned off, the refrigerant Since the current does not flow in the control valve is characterized in that the refrigerant control valve is closed.

In addition, an electric valve for expanding the refrigerant is installed in the pipe connected to one side of the heat exchanger, and the refrigerant control valve is installed in the pipe connected to the other side of the indoor unit heat exchanger.

In addition, in a multi-air conditioner system having a plurality of indoor units connected in parallel to an outdoor unit and the outdoor unit, the plurality of indoor units may include a refrigerant control valve that regulates a flow of refrigerant flowing through each indoor unit, and when the communication with the outdoor unit is abnormal, It characterized in that it comprises a control unit for controlling to close the control valve.

In addition, the pipe connected to one side of the heat exchanger provided in the indoor unit is provided with an electric valve for expanding the refrigerant, the pipe connected to the other side of the heat exchanger is characterized in that the refrigerant control valve is installed.

In addition, the refrigerant control valve is connected to a valve relay for supplying or cutting off power to the refrigerant control valve, the valve relay receives the operation state signal of the control unit and the valve relay drive signal output from the control unit receives the operation state signal And a gate for outputting a different value according to the valve relay driving signal.

In addition, the valve relay is an active low, the gate is a NAND gate, and when a communication error occurs with the outdoor unit when the controller is in a normal state, the controller is a valve relay that is low with the operation state signal high to the NAND gate. A high signal is output from the NAND gate by transmitting a driving signal, and the valve relay is turned off, so that the refrigerant control valve is closed because no current flows in the refrigerant control valve.

In the multi-air conditioner system having a distributor having at least one outdoor unit, a plurality of indoor units connected in parallel to the at least one outdoor unit, and a plurality of electric valves for expanding the refrigerant flowing into the plurality of indoor units, the distributor When the indoor unit is broken or a communication error occurs between the indoor unit and the outdoor unit, it is further characterized by having a plurality of refrigerant control valves provided as many as the number of the indoor unit to block the refrigerant flowing through the abnormal indoor unit.

In addition, the refrigerant control valve is connected to a valve relay for supplying or cutting off power to the refrigerant control valve, the valve relay receives the operation state signal of the control unit and the valve relay drive signal output from the control unit receives the operation state signal And a gate for outputting a different value according to the valve relay driving signal.

In addition, in the multi-air conditioner system having a plurality of indoor units connected in parallel to the outdoor unit, the outdoor unit, the piping of each indoor unit is characterized in that the refrigerant control valve is automatically installed when the power is supplied, and automatically closed when the power is cut off is installed. .

In addition, in the indoor unit operating method of the multi-air conditioner system having an outdoor unit and a plurality of indoor units connected in parallel to the outdoor unit, it is determined whether there is an error in communication with the outdoor unit, and if the communication is abnormal, the operation of the indoor unit is stopped, After stopping operation, characterized in that for closing the refrigerant control valve for controlling the flow of the refrigerant flowing through the indoor unit.

In addition, the indoor unit control method checks the operation mode before the operation stops after the operation stop, and in accordance with the operation mode the electric valve and the refrigerant control valve installed in the pipe connected to both sides of the heat exchanger of the indoor unit in a different order It is characterized in that for closing.

In addition, the electric valve is installed in the pipe connected to the suction side of the heat exchanger on the basis of the cooling operation of the indoor unit and the refrigerant control valve is installed in the pipe connected to the discharge side of the heat exchanger, the indoor unit operation mode before the operation stop In the cooling operation mode, the electric valve is first closed and the refrigerant control valve is characterized in that the closing.

If the indoor unit operation mode before the operation stop is the heating operation mode, the refrigerant control valve is first closed and the electric valve is closed. If the indoor unit operation mode before the operation stop is the blowing mode or the standby mode, the refrigerant opening / closing valve is closed. It features.

In addition, in the indoor unit operating method of the multi-air conditioner system having an outdoor unit and a plurality of indoor units connected in parallel to the outdoor unit, it is determined whether the plurality of indoor units is broken or there is an error in communication between the plurality of indoor units and the outdoor unit, If at least one indoor unit of the plurality of indoor units is broken or there is an error in the communication of the outdoor unit, the flow of the refrigerant flowing to the indoor unit is blocked, and the remaining indoor units are characterized in that the normal operation.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. 2 and 3, the multi-air conditioner system according to the exemplary embodiment of the present invention includes an outdoor unit 10 and a plurality of indoor units 20 connected to the outdoor unit 10. As shown in FIG.

The outdoor unit 10 delivers a plurality of compressors 11 for compressing a refrigerant, a four-way valve 12 for adjusting a flow direction of the refrigerant discharged from each compressor 11, and a refrigerant compressed by each compressor 11. It includes an outdoor heat exchanger 13 for receiving and exchanging heat with the outside air, an outdoor fan 14 forcibly blown by the outdoor heat exchanger 13, and an outdoor fan motor 15 for rotating the outdoor fan 14.

In addition, the outdoor unit 10 is installed in parallel with the outdoor electric valve 16 and the outdoor electric valve 16 for expanding the refrigerant by adjusting the opening degree during the heating operation and adjusting the opening degree during the heating operation. A check valve 17 for bypassing, an accumulator 18 for delivering the refrigerant to the compressor 11 in a gas state, and controlling the devices of the outdoor unit 1 and performing data communication with the indoor unit microcomputer 24. The outdoor unit microcomputer 19 is included.

On the other hand, the indoor unit 20 is an indoor heat exchanger 21 in which heat exchange is performed after indoor air is sucked, and indoor air is sucked from the outside of the indoor unit 20 and passes through the indoor heat exchanger 21, and then again the indoor unit 20. Indoor fan 22 to be discharged to the outside of the control panel, the indoor fan motor 23 for rotating the indoor fan 22 and the indoor unit for controlling each device of the indoor unit 20 and data communication with the outdoor unit microcomputer 19 The microcomputer 24 is included.

In addition, in the pipe connected to the indoor heat exchanger 21, a pipe in which the refrigerant is sucked during the cooling operation is installed with an indoor electric valve 25 for expanding the refrigerant, and the refrigerant discharged from the indoor heat exchanger 21 during the cooling operation flows. In the piping, when a failure occurs in the indoor unit 20 itself or a communication error occurs between the indoor unit 20 and the outdoor unit 10, the flow of the refrigerant flowing through the indoor heat exchanger is automatically controlled by a control command of the indoor unit microcomputer 24. The refrigerant control valve 26 is installed.

As shown in FIG. 4, the driving device of the refrigerant control valve includes a valve relay 31 for applying power to the refrigerant control valve 26 or a shut off, and a NAND gate 32 connected to the valve relay 31. And a microcomputer state detection unit 33 for transmitting an operating state signal of the indoor unit microcomputer 24 to the NAND gate 32.

Since the valve relay 31 is active low, when the low signal is output from the NAND gate 32, the valve relay 31 is turned on to supply power to the refrigerant control valve 26. When the high signal is output from the NAND gate 32, the valve relay 31 is turned off. The power is prevented from being applied to the 26. At this time, the refrigerant control valve 26 is opened when the power is applied and is closed when the power is cut off.

The indoor unit microcomputer 24 transmits a square wave of a certain period through the port 1 to the microcomputer state detection unit 33 in the normal operation, but does not generate a periodic square wave in case of failure. In addition, the microcomputer state detection unit 33 outputs a high signal when a periodic square wave output from the port 1 of the indoor unit microcomputer 24 is input, and outputs a low signal when the periodic square wave is not input.

The NAND gate 32 receives an operation state signal transmitted from the microcomputer state detecting unit 33 through one of the two input terminals, and a valve transmitted from the port 2 of the indoor unit microcomputer 24 through the other input terminal. Receive relay drive signal. The output signal of the NAND gate 32 is also input to the reset terminal of the indoor unit microcomputer 24.

As shown in FIG. 5, if the indoor unit microcomputer 24 is normal, the indoor unit microcomputer 24 transmits the periodic square wave to the microcomputer state detection unit 33 through the port 1, and the microcomputer state detection unit 33 receives the high signal (H). ) In this state, when the indoor unit microcomputer 24 outputs the high signal H as the valve relay driving signal from the port 2 to open the refrigerant control valve 26, the NAND gate 32 outputs the low signal L. When the low signal L is output from the NAND gate 32, the valve relay 31 is turned on to supply power to the refrigerant control valve 26, thereby opening the refrigerant control valve 26.

On the contrary, in order to close the refrigerant control valve 26, the indoor unit microcomputer 24 outputs a low signal L as a valve relay driving signal at the port 2. In this case, the NAND gate 32 outputs a high signal H. When the high signal H is output from the NAND gate 32, the valve relay 31 is turned off so that power is not applied to the refrigerant control valve 26, and thus the refrigerant control valve 26 is closed.

On the other hand, if a failure occurs in the indoor unit microcomputer 24, the port 1 of the indoor unit microcomputer 24 does not transmit the periodic square wave to the microcomputer state detection unit 33 and the microcomputer state signal unit 33 outputs a low signal (L). do. When the microcomputer state detector 33 outputs the low signal L, the NAND gate 32 outputs the high signal H regardless of the input signal of the other input terminal. When the high signal H is output from the NAND gate 32, the valve relay 31 is turned off, so power is not applied to the refrigerant control valve 26, and the refrigerant control valve 26 is closed.

On the other hand, if there is an abnormality in the power supply of the indoor unit 20, since no power is applied to the refrigerant control valve 26, the refrigerant control valve 26 is closed to block the flow of the refrigerant.

Referring to FIG. 6, a method of operating an indoor unit in the case where there is a communication error between the indoor unit 20 and the outdoor unit 10 in the multi-air conditioner system shown in FIGS. 2 and 3 will be described. If the indoor unit microcomputer 24 is not normal (40), as described above, the refrigerant control valve 26 is automatically closed to prevent the refrigerant from flowing into the failed indoor unit 20 (54).

On the other hand, if the indoor unit microcomputer 24 is normal, it is determined whether there is an error in communication with the outdoor unit 10 (42). If there is no problem in communication with the outdoor unit 10, the controller returns. If there is an error in communication with the outdoor unit 10, the operation of the indoor unit 20 is stopped and the operation mode before the operation stop is checked (44).

Then, it is determined whether the indoor unit 20 operation mode before the operation stop is the cooling operation mode (46). If the operation mode before the operation stop is the cooling operation mode, the refrigerant flows in the direction of the indoor electric valve 25-the indoor heat exchanger 21-the refrigerant control valve 26, so that the indoor electric valve 25 is closed first. (48) After the predetermined time has elapsed, the refrigerant control valve 26 is closed (50). At this time, the valve relay driving signal, which is low, is generated at port 2 of the indoor unit microcomputer 24 to close the refrigerant control valve 26, and the high signal is output as the operation state signal from the microcomputer state detection unit 33. As shown, the refrigerant control valve 26 is closed. In addition, the interior electric valve 25 is first closed and waits for a predetermined time, and then the refrigerant control valve 26 is closed to give a time for the refrigerant remaining in the indoor heat exchanger 21 to flow before closing the refrigerant control valve 26. Refrigerant is prevented from remaining in the machine 21.

On the other hand, if the operation mode before the operation stop of the indoor unit 20 having a communication error in step 46 is not the cooling operation mode, it is determined whether the operation mode before the operation stop of the indoor unit 20 is the heating operation mode (56). If the operation mode before the operation stop is the heating operation mode, since the refrigerant flows in the direction of the refrigerant control valve 26-the indoor heat exchanger 21-the indoor electric valve 25, the refrigerant control valve 26 is first closed ( 58. After the predetermined time has elapsed, the control is performed to close the indoor transmission valve 25 (60). By closing the refrigerant control valve 26 first, waiting a predetermined time, and then closing the indoor electric valve 25, the refrigerant is prevented from remaining in the indoor heat exchanger 21 as in the case of the cooling operation. Refrigerant flowing in the indoor unit 20 has been blocked as described above, but the operation of the remaining indoor unit 20 is maintained as it is (52).

If the operation mode before the indoor unit operation stop is not the heating operation mode in step 56, since the indoor unit operation mode before the operation stop is the blowing operation mode or the standby operation mode, the indoor electric valve 25 is already closed and only the refrigerant control valve 26 is closed. (62). In the air blowing operation mode, the heat exchange is not performed in the indoor heat exchanger 21, only the indoor fan 23 is driven, and the indoor air is circulated. In the standby operation mode, the indoor unit 20 is turned off and only the indoor unit microcomputer 24 is operated. It is only on.

In FIG. 6, the case where there is a communication error between the indoor unit 20 and the outdoor unit 10 has been described by way of example. In addition, even when the indoor unit microcomputer 24 detects an abnormal operation of the indoor electric valve 25. The valve relay driving signal may be controlled to close the refrigerant control valve 26.

As shown in FIG. 7, each indoor electric valve 25 and the refrigerant control valve 26 in the multi-air conditioner system shown in FIG. 2 may be installed inside the indoor unit 20 as shown in FIG. 2 as well as the distributor 70. Can also be installed. In the distributor 70, the high pressure side and the low pressure side pipes of the outdoor unit 10 are branched, and the indoor electric valve 25 and the refrigerant control valve 26 are installed in each branched pipe.

The remaining parts except for the changed part in FIG. 7 are the same as those of the multi-air conditioner system shown in FIG. 2, and the indoor unit microcomputer 24 is broken or there is a problem in communication between the outdoor unit 10 and the indoor unit 20. The corresponding operation when there is a problem in part also applies in the same manner as the description of Figs.

As such, even if there is a problem with the indoor unit microcomputer 24 or a power source applied to the indoor unit 20 or there is a communication error between the outdoor unit and the indoor unit, the refrigerant flowing to the indoor unit having abnormality is blocked, and the remaining indoor unit is normally driven. Can be prevented from being stopped.

As described in detail above, the present invention can not only protect the system by blocking the refrigerant flow of the indoor unit and maintain the operation of the indoor unit to operate normally when a failure occurs in some indoor units in the multi-air conditioning system, as well as heating and cooling the entire system. Efficiency can also be maintained above a certain level.

1 is a view showing a conventional multi-air conditioner system.

2 is a refrigerant flow diagram illustrating a multi-air conditioner system according to an exemplary embodiment of the present invention.

FIG. 3 is a block diagram showing components of the multi-air conditioner system shown in FIG.

4 is a circuit diagram showing a driving circuit of the refrigerant control valve.

FIG. 5 is a table listing signals output from the devices of FIG. 4.

FIG. 6 is a flowchart illustrating a method of operating an indoor unit of the multi-air conditioner system shown in FIG. 2.

7 is a diagram illustrating a distributor used in a multi-air conditioner system according to another embodiment of the present invention.

* Description of the code for the main functions of the drawings

1,10: Outdoor unit 2, 20: Indoor

19: outdoor unit microcomputer 21: indoor heat exchanger

24: indoor microcomputer 25: indoor electric valve

26: refrigerant control valve 31: valve relay

32: NAND gate 33: microcomputer state detection unit

70: distributor

Claims (18)

A multi-air conditioner system having at least one outdoor unit and a plurality of indoor units connected in parallel to the at least one outdoor unit, Each indoor unit includes an indoor unit failure detection unit for detecting a failure of the indoor unit, and a refrigerant control valve for automatically blocking the flow of the refrigerant flowing through the indoor unit pipes by a signal of the indoor unit failure detection unit when a failure occurs in the indoor unit. Multi air conditioning system The method of claim 1, The indoor unit failure detection unit is a multi-air conditioner system, characterized in that the microcomputer state detection unit for detecting the failure of the indoor unit microcomputer The method of claim 2, The indoor unit microcomputer transmits a clock signal of a predetermined period to the microcomputer state detection unit during normal operation, and the microcomputer state detection unit outputs an operation state signal that is high when the clock signal of a predetermined period is transmitted from the indoor unit microcomputer, and the indoor unit microcomputer The multi-air conditioner system outputs a low operating state signal when a clock signal of a certain period is not transmitted from The method of claim 2, A valve relay is connected to the refrigerant control valve to supply or cut off power to the refrigerant control valve, and the valve relay drives an operation state signal of the indoor unit microcomputer output from the microcomputer state detecting unit and a valve relay output from the indoor unit microcomputer. A multi-air conditioner system connected to a gate receiving a signal and outputting a different value according to the operation state signal and the valve relay driving signal The method of claim 4, wherein The valve relay is active low, the gate is a NAND gate, when a failure occurs in the indoor unit microcomputer, the operation state signal is input to the NAND gate is low and a high signal is output so that the valve relay is turned off to control the refrigerant. Multi-air conditioner system, characterized in that the refrigerant control valve is closed because no current flows through the valve The method of claim 2, An electric valve for expanding a refrigerant is installed in the pipe connected to one side of the heat exchanger, and the refrigerant control valve is installed in the pipe connected to the other side of the indoor unit heat exchanger. In the multi-air conditioner system having an outdoor unit, a plurality of indoor units connected in parallel to the outdoor unit, The plurality of indoor units includes a refrigerant control valve for controlling the flow of refrigerant flowing through each indoor unit, and a controller for controlling the closing of the refrigerant control valve when an error occurs in communication with the outdoor unit. The method of claim 7, wherein Multi-air conditioner system characterized in that the electric valve for expanding the refrigerant is installed in the pipe connected to one side of the heat exchanger provided in the indoor unit, the refrigerant control valve is installed in the pipe connected to the other side of the heat exchanger. The method of claim 8, The refrigerant control valve is connected to a valve relay for supplying or cutting off power to the refrigerant control valve, wherein the valve relay receives an operation state signal of the control unit and a valve relay driving signal output from the control unit, and receives the operation state signal and The multi-air conditioner system, characterized in that connected to the gate for outputting a different value according to the valve relay drive signal The method of claim 9, The valve relay is active low, the gate is a NAND gate, and when a communication error occurs with the outdoor unit when the controller is in a normal state, the controller drives a valve relay that is low with an operating state signal high to the NAND gate. Multi-air conditioner system characterized in that the high signal is output from the NAND gate by transmitting a signal and the valve relay is turned off so that no current flows in the refrigerant control valve. A multi-air conditioner system having at least one outdoor unit, a plurality of indoor units connected in parallel to the at least one outdoor unit, and a distributor having a plurality of electric valves for expanding refrigerant introduced into the plurality of indoor units, The distributor may further include a plurality of refrigerant control valves provided as many as the number of the indoor units to block the refrigerant flowing through the indoor unit when the indoor unit is broken or communication error occurs between the indoor unit and the outdoor unit. The method of claim 11, The refrigerant control valve is connected to a valve relay for supplying or cutting off power to the refrigerant control valve, wherein the valve relay receives an operation state signal of the control unit and a valve relay driving signal output from the control unit, and receives the operation state signal and The multi-air conditioner system, characterized in that connected to the gate for outputting a different value according to the valve relay drive signal In the multi-air conditioner system having an outdoor unit, a plurality of indoor units connected in parallel to the outdoor unit, Multi-air conditioner system, characterized in that the refrigerant control valve is installed in the piping of each indoor unit is automatically opened when the power is supplied and automatically closed when the power is cut off In the indoor unit operating method of the multi-air conditioner system having an outdoor unit and a plurality of indoor units connected in parallel to the outdoor unit, It is determined whether there is an error in communication with the outdoor unit, If there is an error in the communication, the operation of the indoor unit is stopped, Indoor unit operating method of the multi-air conditioning system, characterized in that for closing the refrigerant control valve for controlling the flow of the refrigerant flowing through the indoor unit after the operation stop. The method of claim 14, The indoor unit control method checks the operation mode after stopping the operation before stopping the operation, Indoor unit operation method of the multi-air conditioning system, characterized in that in order to close the electric valve and the refrigerant control valve installed in the pipes connected to both sides of the heat exchanger of the indoor unit in different order. The method of claim 15, The electric valve is installed in the pipe connected to the suction side of the heat exchanger based on the cooling operation of the indoor unit, the refrigerant control valve is installed in the pipe connected to the discharge side of the heat exchanger, the indoor unit operation mode before the operation stop is cooled In the operation mode, the indoor unit operating method of the multi-air conditioner system, characterized in that for closing the electric valve first and closing the refrigerant control valve. The method of claim 16, The refrigerant control valve is closed first and the electric valve is closed when the indoor unit operation mode before the operation stop is the heating operation mode, and the refrigerant opening / closing valve is closed when the indoor unit operation mode before the operation stop is the blowing mode or the standby mode. To operate the indoor unit of a multi-air conditioning system In the indoor unit operating method of the multi-air conditioner system having an outdoor unit and a plurality of indoor units connected in parallel to the outdoor unit, It is determined whether the plurality of indoor units are malfunctioning or there is an abnormality in communication between the plurality of indoor units and the outdoor unit, If at least one indoor unit of the plurality of indoor units is broken or there is an error in the communication of the outdoor unit, the indoor unit operating method of the multi-air conditioner system, characterized in that the flow of the refrigerant flowing to the indoor unit is blocked and the remaining indoor unit is operated normally.