KR100652799B1 - Control method for multi type air conditioner - Google Patents

Abstract

The present invention relates to a control method of a multi-type air conditioner, and in particular, the present invention performs a freeze prevention operation by sequentially controlling an outdoor fan and a compressor for an indoor unit in which freezing occurs during simultaneous cooling operation, and an indoor unit that is not frozen. By performing the cooling operation, the freezing can be effectively prevented without drastically lowering the cooling performance of the frozen indoor unit, and the cooling performance of the indoor unit which is not frozen even during the freezing prevention operation is secured.

To this end, the present invention provides a control method of a multi-type air conditioner including a plurality of compressors and a plurality of expansion valves with an outdoor unit and a plurality of indoor units connected to the outdoor unit. It is determined whether each freezing according to the temperature of the indoor heat exchanger provided, performs the freezing prevention operation for the frozen indoor unit, and performs the cooling operation for the indoor unit that is not frozen.

Description

Control method of multi type air conditioner {CONTROL METHOD FOR MULTI TYPE AIR CONDITIONER}

1 is a schematic refrigerant cycle diagram of a conventional multi-type air conditioner.

2 is a refrigeration cycle diagram of a multi-type air conditioner according to an embodiment of the present invention.

3 is a control block diagram of a multi-type air conditioner according to an embodiment of the present invention.

4A and 4B are control flow charts for explaining a control process for preventing freezing of a stand air conditioner in a multi-type air conditioner according to the present invention.

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

10: outdoor unit 11A: first compressor

11B: second compressor 12: outdoor heat exchanger

13: outdoor fan 14: expansion valve

15: solenoid valve 20: stand air conditioner

21: 1st indoor heat exchanger 23: 1st piping temperature sensor

30: room air conditioner 31: second indoor heat exchanger

33: second piping temperature sensor

The present invention relates to a control method of a multi-type air conditioner, and more particularly, to a control method of a multi-type air conditioner having one outdoor unit and a plurality of indoor units, and cooling and operating several indoor units simultaneously.

As shown in FIG. 1, a multi-type air conditioner, for example, includes a stand air conditioner 1 installed in a room, a room air conditioner 1, and an outdoor unit 3 installed outdoors.

The stand air conditioner 1 and the room air conditioner 2 are each equipped with the indoor heat exchangers 1A and 1B and the indoor fans 1B and 2B.

The outdoor unit (3) is a refrigerant from the compressor (4), the four-way valve (5), the outdoor heat exchanger (6), the outdoor fan (7), and the outdoor heat exchanger (6) to the respective indoor heat exchangers (1A, 1B). A first expansion valve 8 and a second expansion valve 9 provided in the flow path are respectively provided.

Therefore, when the stand air conditioner 1 is independently cooled and operated, the first expansion valve 8 is closed, the second expansion valve 9 is closed, and the compressor 4 and the outdoor fan 7 are driven to operate the stand air conditioner ( 1) Operate only cooling.

When the room air conditioner 2 is individually cooled, the first expansion valve 8 is closed, the second expansion valve 9 is closed, and the outdoor fan 7 and the compressor 4 are driven to operate the room air conditioner (2). 2) Cool only.

On the other hand, when the stand air conditioner 1 and the room air conditioner 2 are simultaneously cooled and operated, the compressor 4 and the outdoor fan 7 after opening both the first expansion valve 8 and the second expansion valve 9. Drive the air conditioner (1) and the room air conditioner (2) in both cooling operation.

In the case of cooling the stand air conditioner 1, since the indoor heat exchanger 1A of the stand air conditioner 1 functions as an evaporator, moisture condenses on the surface of the indoor heat exchanger 1A and freezes. If it persists, the heat exchange will not be performed properly, resulting in poor cooling performance.

Therefore, conventionally, the surface temperature of the indoor heat exchanger 1B detected through a temperature sensor attached to the surface of the indoor heat exchanger 1B is one example to prevent freezing of the indoor heat exchanger 1B of the stand air conditioner 1. , If the state below 0 is maintained for a predetermined time or more, the compressor 4 is stopped to stop the cooling operation, the four-way valve 5 is switched to the heating operation, the compressor 4 is restarted, and the stand air conditioner 1 is fixed. By heating for a time, the indoor heat exchanger of the stand air conditioner 1 acts as a condenser to prevent freezing of the indoor heat exchanger 1B.

However, when the stand air conditioner 1 and the room air conditioner 2 are cooled and operated at the same time, the second expansion valve 9 may be heated during the heating operation of the room air conditioner 2 in which freezing has not occurred, or during the temporary heating operation for preventing freezing. ), There is a problem that at least the room air conditioner 2 cannot perform the cooling operation.

The present invention is to solve the above-mentioned problems, an object of the present invention is to not only effectively prevent freezing, but also to effectively prevent freezing of the indoor unit where the freezing occurred during the simultaneous cooling operation, the cooling performance of the indoor unit where the freezing occurred It is to provide a control method of a multi-type air conditioner that can ensure the cooling performance of the indoor unit is not frozen even during the control to prevent freezing.

The control method of the multi-type air conditioner according to the present invention for achieving the above object, the stand air conditioner and room air conditioner having an indoor heat exchanger, respectively, and the two different compressors connected to the stand air conditioner and the room air conditioner, A first valve for opening and closing a fan, an outdoor heat exchanger, a refrigerant flow path between the outdoor heat exchanger and an indoor heat exchanger of the stand air conditioner, and a second valve for opening and closing a refrigerant flow path between the outdoor heat exchanger and the indoor heat exchanger of the room air conditioner. A control method of a multi-type air conditioner having an outdoor unit having an outdoor unit and simultaneously cooling and operating the stand air conditioner and the room air conditioner, wherein the two compressors, the first valve and the second valve are turned on during the simultaneous cooling operation. Together, the outdoor fan is rotated at a high speed, and a temperature sensor provided in the indoor heat exchanger of the stand air conditioner during the simultaneous cooling operation. It is determined whether the stand air conditioner is frozen according to the temperature of the indoor heat exchanger detected through the control unit. If the stand air conditioner is frozen, the stand air conditioner is sequentially controlled by controlling the outdoor fan, the first valve, and the compressor corresponding to the stand air conditioner. The freezing prevention operation is performed to reduce the amount of refrigerant introduced into the air conditioner, and the air conditioner is configured to perform the cooling operation with the amount of refrigerant added by the amount of the refrigerant reduced by the freezing prevention operation.

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The freezing prevention operation includes a first freeze protection control for decelerating the speed of the outdoor fan, and when the temperature of the indoor heat exchanger of the stand air conditioner is lower than a preset temperature for a predetermined time after the first freeze protection control. And a second freeze protection control to turn off the first valve and the compressor having a large capacity.

When a predetermined time elapses after the second anti-freeze control, the compressor having a low capacity and the outdoor fan are turned off to stop the cooling operation of the room air conditioner. When the predetermined pressure balancing time elapses, the stand air conditioner and the room air conditioner are restarted. Cooling operation of the stand air conditioner and the room air conditioner is characterized in that the same.

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

As shown in FIG. 2, the multi-type air conditioner according to the embodiment of the present invention includes an outdoor unit 10 and a plurality of indoor units 20 and 30 connected to the outdoor unit 10. The indoor units 20 and 30 are, for example, two indoor units of the stand air conditioner 20 and the room air conditioner 30.

The stand air conditioner 20 and the room air conditioner 30 are each provided with indoor heat exchangers 21 and 31 and indoor fans 22 and 32 which act as evaporators during the cooling operation.

The outdoor unit 10 is connected in parallel with each other, the first compressor (11A) and the second compressor (11B) of different capacities, one outdoor heat exchanger (12) acting as a condenser during the cooling operation, and one outdoor fan ( 13, the expansion valve 14 connected to the accumulator 17, the indoor heat exchanger 21 of the stand air conditioner 20, and the solenoid valve connected to the indoor heat exchanger 31 of the room air conditioner 30 ( 15) and capillary tube 16.

The inlet side of the accumulator 17 is connected to each of the indoor heat exchangers 21 and 31, and the outlet side thereof is connected to the suction side of the compressors 11A and 11B.

The outlet sides of the first compressor 11A and the second compressor 11B are commonly connected via check valves, respectively, and the common connected pipe is connected to the outdoor heat exchanger 12.

In addition, a bypass valve 18 is provided in the pipe branched from the common connected pipe and connected to the suction side of the accumulator 17.

An expansion valve 14 is installed in the refrigerant pipe between the outdoor heat exchanger 12 and the indoor heat exchanger 21 of the stand air conditioner 20. The solenoid valve 15 and the capillary tube 16 are installed in the refrigerant pipe branched from the refrigerant pipe between the outdoor heat exchanger 12 and the expansion valve 14.

Reference numeral 19 is an outdoor temperature sensor for detecting an outdoor air temperature, 23 is a first pipe temperature sensor provided at an inlet side of the first indoor heat exchanger 21 for detecting a surface temperature of a heat exchange surface, and 33 is a second It is a second pipe temperature sensor provided at the inlet side of the indoor heat exchanger (31) for detecting the surface temperature of the heat exchange surface. Reference numeral 24 is a third pipe temperature sensor installed in a pipe in which the outlet side of the first indoor heat exchanger 21 and the outlet side of the second indoor heat exchanger 31 are commonly connected.

When the stand air conditioner 20 is individually cooled, the compressor 11A, 11B is driven or the compressor 11A having a large capacity is driven, and the expansion valve 14 is opened, and the solenoid valve 15 is opened. By closing, the refrigerant is controlled to flow into the stand air conditioner 20. On the contrary, when the room air conditioner 30 is solely cooled, the compressor 11B having a small capacity is driven, the expansion valve 14 is closed, the solenoid valve 15 is opened, and the refrigerant flows into the room air conditioner 30. Control as possible.

On the other hand, in the case of simultaneous cooling operation of the stand air conditioner 20 and the room air conditioner 30, both of the compressors are driven and the expansion valve 14 and the solenoid valve 15 are opened to allow the refrigerant to stand on the stand air conditioner 20 side. Control so that all can enter the room air conditioner (30). Therefore, in the simultaneous cooling operation, the refrigerant is partially in the direction of the solid arrow, part of the compressors 11A and 11B, the outdoor heat exchanger 12, the expansion valve 14, the indoor heat exchanger 21 of the stand air conditioner 20, The air conditioner 20 is cooled by circulating the cooling cycle composed of the accumulator 17 and the compressor, and the rest of the stand air conditioner 20 is cooled and operated, and the rest of the air conditioner 12A, 11B, the outdoor heat exchanger 12, the solenoid valve 15 and the capillary tube 16 are operated. The air conditioning cycle of the room heat exchanger 31, the accumulator 17, and the compressors 11A and 11B of the room air conditioner 30 is circulated to cool the room air conditioner 30.

As shown in Figure 2, the multi-type air conditioner according to the embodiment of the present invention includes a control unit for performing overall control.

On the input side of the control unit 40, an outdoor temperature sensor 19 for detecting the outdoor air temperature and an inlet pipe of the indoor exchanger 21 of the stand air conditioner 20 are installed to detect the surface temperature of the heat exchange surface. A second pipe temperature sensor 33 installed at an inlet pipe of the indoor heat exchanger of the first pipe temperature sensor 23 and the room air conditioner 30 to detect the surface temperature of the heat exchange surface; and a third pipe temperature sensor ( 24 are each electrically connected.

In addition, on the output side of the control unit 40, an outdoor fan drive unit for driving a compressor drive unit 50 for driving the first compressor 11A and the second compressor 11B, and an outdoor fan FM1 13 of a variable speed type ( 51, an indoor fan driver 52 for driving the indoor fans FM2 and FM3, 22 and 32, and a valve driver 53 for driving the expansion valve 14 and the solenoid valve 15 are electrically connected to each other. It is connected.

When the controller 40 simultaneously cools and operates the stand air conditioner 20 and the room air conditioner 30, the controller 40 drives both the first compressor 11A and the second compressor 11B through the compressor driver 50, and then the first air conditioner. Comparing whether the pipe temperature of each indoor unit detected by the pipe temperature sensor 23 and the second pipe temperature sensor 33 lasts a temperature lower than a predetermined temperature for a predetermined time or more, the indoor heat exchangers 21 and 31 of each indoor unit are compared. It is determined whether the heat exchange surface is frozen. In addition, the frozen indoor unit performs a freezing prevention operation to prevent freezing, and the indoor unit that is not frozen continues to perform a cooling operation.

In the freezing prevention operation, the control unit 40 performs the first freezing prevention control for decelerating the speed of the outdoor fan 13 instead of switching the cooling operation to the heating operation, and freezes after the first freezing prevention control. When the temperature of the indoor heat exchanger of the indoor unit is lower than the preset temperature for a predetermined time or more, the speed of the outdoor fan 13 is reduced, and the large capacity compressor 11A and the expansion valve 14 are turned off. Second freeze control is performed sequentially. Accordingly, if the freezing is not prevented by the first freeze control, the freezing is prevented by the second freeze control, thereby effectively preventing freezing while not rapidly decreasing the cooling capacity of the frozen indoor unit by the sequential freezing prevention. Can be. In addition, since the cooling operation can be performed as it is for the indoor unit that is not frozen, the cooling performance can be prevented from falling.

Hereinafter, a control process for preventing freezing of the stand air conditioner 20 in the multi-type air conditioner according to the embodiment of the present invention will be described.

Referring to FIG. 4, first, in step S100 and step S101, the controller 40 performs a simultaneous cooling operation if the simultaneous cooling operation condition is performed. That is, the expansion valve 14, the solenoid valve 15, the outdoor fan 13, the first compressor 11A and the second compressor 11B to cool both the stand air conditioner 20 and the room air conditioner 30. Turn on. At this time, the initial speed of the outdoor fan 13 is high speed. At this time, the expansion valve opens to the superheat degree control opening degree calculated from the temperature value detected by the first refrigerant temperature sensor 23 and the temperature value detected by the third refrigerant temperature sensor 24.

Then, in steps S102 to S104, the control unit 40 uses the first pipe temperature sensor 23 installed in the first indoor heat exchanger 21 of the stand air conditioner 20 to provide the surface temperature of the first indoor heat exchanger 21. (T) is detected, and it is determined whether the detected surface temperature T of the first indoor heat exchanger 21 is equal to or lower than T1 (for example, 1 ° C.). Determine if it continues over.

If the detected surface temperature T of the first indoor heat exchanger 21 is maintained at a temperature equal to or lower than T1 (for example, 1 ° C.) for a predetermined time or more, since the freezing has occurred on the indoor heat exchange surface, in step S105 The controller 40 rotates the outdoor fan 13 at a low speed to perform primary freeze prevention control to reduce the outdoor heat exchange efficiency of the outdoor heat exchanger 12. At this time, the expansion valve opens to the superheat degree control opening degree calculated from the temperature value detected by the first refrigerant temperature sensor 23 and the temperature value detected by the third refrigerant temperature sensor 24.

After the first freeze protection control, in step S106 and step S107, the control unit 40 determines the first pipe temperature sensor 23 to determine whether freezing of the stand air conditioner 20 has been eliminated by the first freeze protection. The surface temperature T of the first indoor heat exchanger 21 is detected again to determine whether it is equal to or lower than -1, and if equal to or lower, it is determined whether the state lasts for a predetermined time or more.

After the first freeze protection control, if the surface temperature T of the first indoor heat exchanger 21 is higher than T2 (e.g., -1 ° C), it is determined in step S112 whether it is higher than T3 (e.g., 5 ° C). If lower than T3 (eg, 5 ° C.), the process returns to step S105 to perform the following steps. If it is higher than T5 (for example, 5 ° C.), the outdoor fan 13 is rotated at a high speed as usual in step S113 and then returned to step S102 to perform the following steps. On the other hand, if the surface temperature T of the first indoor heat exchanger 21 is lower than T2 (for example, -1 ° C) in step S107 but does not last longer than a predetermined time, the process returns to step S105 to perform the following steps.

On the other hand, after the first freeze protection control, if the surface temperature (T) of the first indoor heat exchanger 21 is maintained at a temperature equal to or lower than T2 (for example, -1 ℃) for a predetermined time, the first freeze prevention Since the freezing has not been eliminated even by the control, in step S108, the control unit turns off the expansion valve 14 and turns off the first compressor 11A to cool the refrigerant to the first indoor heat exchanger 21 for further freeze control. Secondary anti-freeze control is performed to prevent freezing by preventing inflow. At this time, since the solenoid valve 15 is in an on state and the second compressor 11B is in an on state, the second compressor 11B, the outdoor heat exchanger 12, the solenoid valve 15, the capillary tube 16, and the second compressor 11 are in an on state. By the cooling cycle consisting of the indoor heat exchanger 31 and the accumulator 17, the room air conditioner 30 can continue the cooling operation.

After a predetermined time has elapsed in step S109 since the second freeze protection control, in step S110, the control unit 40 controls the outdoor fan 13 and the second compressor 11B to cool the step stand air conditioner 20 together. Off.

When the pressure equalization time of a predetermined time (for example, 3 minutes) elapses in step S111, the stand air conditioner 20 and the room air conditioner 30 are simultaneously cooled again by returning to step S101.

As described in detail above, in particular, the present invention performs an anti-freezing operation to sequentially control operations for the first and second freezing prevention for indoor units in which freezing has occurred during simultaneous cooling operation, and provides cooling for indoor units not frozen. By performing the operation, it is possible not only to effectively prevent freezing without sharply lowering the cooling performance of the frozen indoor unit, but also to secure the cooling performance of the indoor unit which is not frozen even during the anti-freezing operation.

Claims (5)

delete delete Refrigerant between a stand air conditioner and a room air conditioner having an indoor heat exchanger, respectively, and two different compressors connected to the stand air conditioner and the room air conditioner, an outdoor fan, an outdoor heat exchanger, the outdoor heat exchanger, and an indoor heat exchanger of the stand air conditioner. Multi-type air having an outdoor unit having a first valve for opening and closing the flow path and a second valve for opening and closing the refrigerant flow path between the outdoor heat exchanger and the indoor heat exchanger of the room air conditioner, and simultaneously cooling and operating the stand air conditioner and the room air conditioner. In the control method of the harmonic, During the simultaneous cooling operation, the outdoor fan is rotated at a high speed while turning on the two compressors, the first valve and the second valve, It is determined whether the stand air conditioner is frozen according to the temperature of the indoor heat exchanger detected by the temperature sensor provided in the indoor heat exchanger of the stand air conditioner during the simultaneous cooling operation. When the stand air conditioner is frozen, the outdoor fan, the first valve, and the compressor corresponding to the stand air conditioner are sequentially controlled to perform a freeze prevention operation to reduce the amount of refrigerant flowing into the stand air conditioner, The room air conditioner is a control method of a multi-type air conditioner, characterized in that for performing the cooling operation with the amount of refrigerant added by the amount of refrigerant reduced by the freezing prevention operation. The method of claim 3, wherein the freezing prevention operation The first valve when the first freezing prevention control for decelerating the speed of the outdoor fan and the temperature of the indoor heat exchanger of the stand air conditioner after the first freezing prevention control are maintained for a predetermined time or more for a predetermined time; And a second freeze prevention control for turning off the compressor having a large capacity. The stand air conditioner according to claim 4, wherein when a predetermined time elapses after the second anti-freeze control, the compressor having a small capacity and the outdoor fan are turned off to stop the cooling operation of the room air conditioner. And restarting the room air conditioner and simultaneously cooling and operating the stand air conditioner and the room air conditioner.

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