KR100362371B1 - Control method for a heat pump type multi air-conditioner - Google Patents

Abstract

Disclosed is a method of controlling an air conditioner capable of improving a problem of generating cold air during heating or hot air during cooling caused by a stop of a compressor in a multi-room air conditioner combined with an air conditioner. According to an exemplary embodiment of the present invention, an operation control method for an air conditioner for multiple air conditioners may include: determining whether another indoor unit is in operation at this time, when an operation signal of one of a plurality of indoor units is input; If the other indoor unit is in operation according to the determination of the step, ignoring a predetermined delay condition of the indoor unit to be started and outputting the outdoor unit operation signal immediately; And if the other indoor unit is not in operation, outputting an external device operation signal after a predetermined delay condition of the indoor unit is started.

Description

Operation control method of combined air-conditioning multi air conditioner {Control method for a heat pump type multi air-conditioner}

The present invention provides a method of controlling an air conditioner for multiple air conditioners in which a plurality of indoor units are connected to one outdoor unit. More specifically, if one indoor unit is already in operation during multi-room operation, This invention relates to an operation control method for a multi-air conditioner for both air conditioning and heating, which ignores the compressor and continuously operates the compressor.

In general, an air conditioner is a machine that heats and heats a room through a heat exchange process between a heat exchange medium and an ambient atmosphere undergoing a phase change process while circulating a closed circuit. In recent years, by connecting a plurality of indoor heat exchangers installed in different rooms in parallel to one outdoor heat exchanger, a multi-air conditioner for both air conditioning and heating that provides higher efficiency at a lower cost has been provided.

An example of such a conventional air conditioning multi air conditioner is shown in FIG. 1. In the drawing, reference numeral 120 denotes an outdoor heat exchanger, and the outdoor heat exchanger 120 has an independent side circulation passage 121 and a multi side circulation passage 122.

One side of the independent side circulation passage 121 is connected to the independent side compressor 111 through the independent side 4-way valve 151, and the other side thereof is connected to the independent side indoor heat exchanger 141 through the capillary tube 131. . In addition, the independent side indoor heat exchanger 141 is connected to the independent side compressor 111 through the 4-way valve 151.

In addition, the multi-side circulation passage 122 is connected to the multi-side compressor 112, one side of which is connected to the multi-side compressor 112 through the multi-side four-way valve 152, the other side of the pair through the circulation pipe 101 divided into two It is connected to the multi-side indoor heat exchanger (142, 143). On the bifurcated circulation pipe 101, electric expansion valves 132 and 133 are respectively installed. In addition, the pair of multi-sided indoor heat exchangers 142 and 143 are connected to the multi-side four-way valve 152 through a circulation pipe 102 which is merged into one.

The conventional air-conditioning combined multi-air conditioner having such a configuration is divided into independent cycles and multi-side cycles and operated independently of each other.

First, in the independent cycle, the heat exchange medium includes a compressor 111, a four-way valve 151, an independent side circulation passage 121 of the outdoor heat exchanger 120, a capillary tube 131, and an independent side indoor heat exchanger 141. After coarse, the cooling operation is performed to lower the temperature of the room in the independent indoor heat exchanger 141 by the circulation cycle of returning to the independent compressor 111 again through the 4-way valve 151.

Meanwhile, the circulation of the heat exchange medium is reversed by the operation of the four-way valve 151, that is, the independent circulation passage of the capillary tube 131 and the outdoor heat exchanger 120 from the compressor 111 to the indoor heat exchanger 141. When it is made in the direction of returning back to the independent compressor 111 through the 121, the independent indoor heat exchanger 141 is a heating to increase the temperature of the room by the heat exchange medium of high temperature and high pressure discharged from the compressor 111 Work is done.

In addition, the heat exchange medium is a multi-side compressor 112, a multi-side four-way valve 152, a multi-side circulation passage 122 of the outdoor heat exchanger 120, an electric expansion valve 132, 133 and a multi-side indoor heat exchange The multi-side cycles circulating the groups 142 and 143 are also performed in the same manner as the independent side cycles.

However, in this multi-side cycle, a heating and cooling action can be performed at two places through a pair of multi-side indoor heat exchangers 142 and 143. In this multi-side cycle, the motor-expanded valves 132 and 133 serve as capillaries 131 of the independent cycle. That is, as the opening degree of the electric expansion valves 132 and 133 is adjusted, the flow rate of the heat exchange medium transferred to the multi-side indoor heat exchanger 142 and 143 during cooling and the multi-side of the outdoor heat exchanger 120 during heating. The flow rate of the heat exchange medium transferred to the circulation passage 122 is adjusted.

In addition, when one of the pair of multi-side indoor heat exchangers 142 and 143 (for example, 142) is not used, the electric expansion valve 132 provided on the indoor heat exchanger 142 side is closed. Therefore, the heat exchange medium cannot be circulated to the indoor heat exchanger 142.

The operation of the conventional air-conditioning combined multi-air conditioner as described above is controlled by a microcomputer installed in the indoor unit and the outdoor unit, respectively, and such a control block diagram is shown in FIG. 2.

As shown, a plurality of indoor units 20, 30, 40 are connected to one outdoor unit 10, and typically, the outdoor unit 10 is installed in an outdoor space and each indoor unit 20, 30, 40 is installed. ) Are installed in different indoor spaces. In addition, the outdoor unit 10 and the indoor unit 20, 30, 40 are provided with microcomputers 17, 23, 33, 43 for controlling the respective components.

In addition, the outdoor unit 10 includes a power supply unit 11 for supplying driving power to the microcomputer 17, and an outdoor heat exchanger temperature sensor 19 that detects and transmits the surface temperature of the outdoor heat exchanger 120 to the microcomputer 17. Is prepared. In addition, the compressor driving unit 12 for selectively driving the compressors 111 and 112, the electric expansion valve driving unit 13 for adjusting the opening degree of the electric expansion valves 132 and 133, and the outdoor fan 15 4-way valve drive unit 16 for controlling the flow direction of the heat exchange medium by operating the outdoor fan drive unit 14 to improve the heat exchange efficiency of the outdoor heat exchanger 120 and the 4-way valves 151 and 152. ) Is provided.

The compressor driver 12, the motor expansion valve driver 13, the outdoor fan driver 14, and the four-way valve driver 16 are controlled by the microcomputer 17. In addition, a communication unit 18 for communication with a plurality of indoor units 20, 30, 40 is connected to the microcomputer 17.

The indoor units 20, 30 and 40 have a power source unit 21, 31 and 41 for supplying driving power to each of the microcomputers 23, 33 and 43, and the temperature of the room to detect the microcomputer ( 23, 33, 43, and the indoor temperature sensor 29, 39, 49, and the key input unit 24 for inputting operation commands by the user to the microcomputers 23, 33, 43. 34 and 44 are provided. In addition, the operation is controlled by each of the microcomputers 23, 33, 43, and drives the indoor fans 26, 36, 46 to improve the heat exchange efficiency of the indoor heat exchangers 141, 142, 143. An indoor fan drive unit 25, 35, 45 for improving is provided. In addition, communication units 22, 32, 42 for communication with the outdoor unit 10 are connected to the microcomputers 23, 33, 43, and the communication units 22, 32, 42 are connected to a communication line ( It is connected to the communication unit 18 of the outdoor unit 10 via 50.

Conventional air-conditioning combined multi-air conditioner configured as described above, by cooling or heating the plurality of indoor units 20, 30, 40 respectively or simultaneously by mutual communication control of the microcomputers 17, 23, 33, 43. The operation can be performed as described above.

On the other hand, when performing the cooling or heating operation for at least one indoor unit 20, 30, 40 by the above configuration, each indoor unit 20, 30, 40 and the outdoor unit 10 In the initial stage, a predetermined delay time (typically 3 minutes) is set to balance the pressure of the heat exchange medium in the refrigerating cycle, and then the compressors 111 and 112 are controlled to be driven.

3A and 3B are flow charts showing the operation control method of the conventional air-conditioning combined multi air conditioner having a predetermined delay time to balance the pressure of the heat exchange medium as described above.

According to this, first, the control process of the indoor unit is input to the operation signal to the microcomputer 33, 43 through the key input unit 34, 44 in any one indoor unit 30, 40, as shown in Figure 3a In operation S101, the microcomputer 33 and 43 of the indoor unit count the operation stop time from the time when the indoor unit is turned off before, and determine whether 3 minutes have elapsed since the time of turning off the indoor unit (S102 to S103). If it is determined that 3 minutes has elapsed, the microcomputers 33 and 43 output the operation signal to the outdoor unit 10. The operation signal is transmitted to the communication unit 18 of the outdoor unit via the communication units 32 and 42 and the communication line 50 of the indoor units 30 and 40 (S104).

In the outdoor unit, as shown in FIG. 3B, the microcomputer 17 determines whether an operation signal output from the indoor units 30 and 40 is input through the communication unit 18, and the current compressor 112 is applied. It is determined whether it is in operation (S201 to S202).

When the compressor 112 is in operation, the compressor 112 does not need to be operated again. Therefore, the electric expansion valves 132 and 133 of the indoor units 30 and 40 which immediately output the operation signal are opened to open the heat exchange medium. Is circulated to the indoor heat exchanger (142, 143) (S205).

On the other hand, when the compressor 112 is not in operation, the microcomputer 17 of the outdoor unit counts the operation stop time from the time when the compressor 112 was previously turned off, and judges whether 3 minutes have elapsed since the time when the compressor 112 is turned off. do. After 3 minutes have elapsed to operate the compressor (S203 ~ S204). In addition, the electric expansion valves 132 and 133 of the indoor unit outputting the operation signal are opened so that the heat exchange medium is circulated to the corresponding indoor heat exchanger 142 and 143 (S205).

As described above, in each indoor unit 20, 30, 40 and outdoor unit 10, after a predetermined delay time (typically three minutes) for the pressure balance of the heat exchange medium inside the initial refrigeration cycle, the compressor By controlling the (111) 112 to be driven, the overload of the compressor and the refrigeration cycle was prevented.

However, the operation control method of the conventional air-conditioning combined multi-air conditioner, as shown in the time chart of Figure 4, for example, any one of the indoor unit 40, the plurality of indoor units 30, 40 were operated. Is turned off and then 'on' (time A) when the 3 minute delay time has not elapsed, the indoor unit 40 does not operate immediately and remains in a standby state until the 3 minute delay time has elapsed. . At this time, the compressor 112 of the outdoor unit 10 is stopped when the other indoor unit 30 is 'off' (B point) in the state where the indoor unit 40 does not have a three minute delay time as described above. Thereafter, when the three-minute delay time of the indoor unit 40 elapses, the indoor unit 40 is 'on', but at this time, according to the 'off' of the other indoor unit 30, the outdoor unit 10 provides initial refrigeration cycle protection. Since the compressor 112 is not operated for a predetermined delay time (typically 3 minutes), which is a heat exchange medium equilibrium time, the indoor unit 40 cools or generates cooling air due to the stop of the compressor 112. The warm air of the city is generated, there is a problem that lowers the heating and cooling efficiency and the reliability of the product.

The present invention has been made to solve the above-mentioned conventional problems, and when the compressor is in operation according to the operation of any one indoor unit during the multi-room operation, even if the compressor stop state according to the three-minute delay condition of the other indoor unit occurs By continuously operating the compressor ignoring branch delay conditions, the present invention provides an operation control method for a multiple air conditioner for both heating and cooling that can prevent the occurrence of cold air during cooling operation or warm air during heating operation due to the stop of the compressor. There is this.

1 is a view showing a refrigeration cycle of a conventional air-conditioning dual air conditioner,

2 is a control block diagram of FIG. 1;

Figure 3a and 3b is a flow chart showing the operation control method of the conventional air-conditioning combined multi air conditioner,

4 is a timing chart according to FIGS. 3A and 3B;

Figure 5 is a flow chart showing the operation control method of the air-conditioning combined multi air conditioner according to the present invention, and

FIG. 6 is a timing chart of FIG. 5.

Explanation of symbols on the main parts of the drawings

10: outdoor unit 17: outdoor unit microcomputer

18: outdoor unit communication unit 22, 32, 42: indoor communication unit

20, 30, 40: indoor unit 23, 33, 34: indoor unit microcomputer

111, 112: compressor 120: outdoor heat exchanger

132, 133: electric expansion valve 141, 142, 143: indoor heat exchanger

In order to achieve the above object, the operation control method of a multi-purpose air conditioner for both heating and cooling according to the present invention includes a plurality of indoor units connected to one outdoor unit, controlled by mutual communication through each microcomputer, and controlling the circulation direction of the heat exchange medium. In the operation control method of a multiple air conditioner for both air conditioning and heating to perform cooling or heating operation by adjusting, when an operation signal of another indoor unit is input while the compressor is operating according to the operation of any one indoor unit of the plurality of indoor units It is characterized in that the compressor is operated continuously, ignoring the predetermined delay condition of the indoor unit.

At this time, when the operation signal of the other indoor unit is input, if the compressor is not in operation, the compressor is operated after passing a predetermined delay condition of the indoor unit.

The operation of the compressor is preferably controlled by the indoor unit microcomputer by the operation signal output by the respective microcomputer communication in the plurality of indoor units.

According to this, when the compressor is in operation according to the operation of any one indoor unit of the plurality of indoor units, even if the compressor stop state according to the three-minute delay condition of the other indoor unit occurs by the mutual communication of the indoor and outdoor units, the three-minute delay condition of the indoor unit Since the compressor is operated continuously without disregarding the above, it is possible to prevent the occurrence of cold air during heating or warm air during cooling caused by the conventional compressor stopping.

Hereinafter, a preferred embodiment of the operation control method of the air-conditioning combined multi-air conditioner according to the present invention will be described in detail with reference to FIGS. 5 and 6, with reference to a refrigeration cycle and a control block diagram of the related art. It demonstrates with reference to.

FIG. 5 is a flowchart illustrating a preferred embodiment of an operation control method for an air conditioner for multiple air conditioners according to the present invention. FIG. 6 is a timing chart of FIG. 5.

Referring to FIG. 5, when the operation signal is input to any one of a plurality of indoor units, the operation control method of the air-conditioning combined multi-air conditioner according to the present invention may include determining whether another indoor unit is in operation at this time (S301 to S). S302) and if the other indoor unit is in operation according to the determination of the step, ignoring a predetermined delay condition of the indoor unit and outputting the outdoor unit operation signal immediately (S305); If not in operation, after the predetermined delay condition of the indoor unit has elapsed, outputting the outdoor unit operation signal (S303 to 304).

The operation control method of the air-conditioning combined multi-air conditioner according to the present invention will be described in more detail with reference to FIGS. 1 and 2 as follows.

First, when one indoor unit 40 inputs an operation signal to the microcomputer 43 through the key input unit 44, the indoor unit microcomputer 43 determines whether another indoor unit 30 is in operation at this time (S301). 302).

At this time, if the other indoor unit 30 is in operation, the indoor unit microcomputer 43 ignores the predetermined delay condition of the indoor unit 40 and immediately outputs the outdoor unit operation signal (S305).

On the other hand, if the other indoor unit 30 is not in operation, the indoor unit microcomputer 43 passes the predetermined delay condition of the indoor unit 40, that is, the operation stop time from the time when the indoor unit 40 is turned off before. After counting and determining whether 3 minutes have elapsed since the time of turning off, after having a predetermined delay time to balance the pressure of the heat exchange medium until 3 minutes has elapsed (S303 ~ S304), when 3 minutes has elapsed, the outdoor unit 10 The operation signal is output in step S305. The operation signal is transmitted to the communication unit 18 of the outdoor unit 10 via the communication unit 42 and the communication line 50 of the indoor unit 40. Then, the microcomputer 17 of the outdoor unit 10 is the communication unit 18. When the operation signal output from the indoor unit 40 is input through the motor, the compressor 112 is driven in accordance with the case where the compressor 112 is currently operating or the compressor 112 is not in operation. By opening the electric expansion valve 133 of the indoor unit outputting the operation signal, the heat exchange medium is circulated to the indoor heat exchanger 143 to perform the cooling and heating operation, the control process of the outdoor unit is described in the prior art described with reference to Figure 3b Since the detailed description thereof will be omitted here (S201 to S205). The operation of the present invention will be described with reference to the time chart of FIG.

As shown in FIG. 6, any one of the indoor units 40 is 'off' while the plurality of indoor units 30 and 40 are operated, and then 'on' again in a state where the three minute delay time has not elapsed. At this time, the 'on / off' time is determined according to the operation of the other indoor unit 30. That is, if the compressor 112 is being driven by the operation of the other indoor unit 30, the indoor unit 40 operates immediately without being in the standby state until the three minute delay time has elapsed (time B), In this case, it is possible to improve the generation of cold air at the time of heating or the generation of warm air at the time of cooling, which has been generated due to the conventional stop of the compressor 112.

As described above, according to the operation control method of the multiple air conditioner for both heating and cooling according to the present invention, if the compressor is in operation according to the operation of any one indoor unit among the plurality of indoor units, the compressor is stopped according to the three-minute delay condition of the other indoor units. Even if a condition occurs, the compressor continuously operates by ignoring the three-minute delay condition of the indoor unit by mutual communication between indoor and outdoor air. In this case, the cold air generated during heating or the warm air generated during cooling is generated. Can be prevented. Therefore, the cooling and heating efficiency of the air conditioner can be improved, and the reliability of the air conditioner can be further improved.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes are intended to fall within the scope of the claims set forth.

Claims (4)

In the operation control method of a combined air conditioning multi air conditioner which is connected to a plurality of indoor units and controlled by mutual communication through each microcomputer, and performs cooling or heating operation by adjusting the circulation direction of the heat exchange medium, When an operation signal is input to at least one indoor unit while all of the indoor units are in a stopped state, the compressor is operated by outputting an outdoor unit operating signal after a predetermined delay time has elapsed. If the operation signal is input to another indoor unit that is stopped in operation while the compressor is operating according to the operation of at least one indoor unit of the plurality of indoor units, the outdoor unit operation signal is immediately output while ignoring a predetermined delay time of the other indoor units. Thereby operating the compressor continuously. delete The method of claim 1, wherein the operation of the compressor, Operation control method of a multiple air conditioner for air conditioning and heating, characterized in that the operation is controlled from the indoor unit microcomputer by the operation signal output by each microcomputer communication in the plurality of indoor units. In the operation control method of the air conditioner combined multiple air conditioner is connected to a plurality of indoor units are controlled by mutual communication through each microcomputer, and to perform the cooling or heating operation by adjusting the circulation direction of the heat exchange medium, a) when an operation signal is input to at least one indoor unit of the plurality of indoor units, determining whether another indoor unit is in operation at this time; b) if the other indoor unit is in operation according to the determination of step a), ignoring a predetermined delay time of the indoor unit in operation and outputting an outdoor unit operation signal immediately; And c) outputting the outdoor unit operation signal after a predetermined delay time of the indoor unit which starts operation if the other indoor unit is not operating according to the determination of step a). Operation control method of air conditioner.