KR100543332B1 - Air conditioner and control method thereof - Google Patents

Abstract

An air conditioner and a control method thereof are disclosed. The air conditioner and the control method according to the present invention prevent excessive cooling and heating and condensation by bypassing the discharge refrigerant of the compressor to the suction side according to the change of the outdoor temperature and the outdoor temperature, The purpose is to ensure reliability. An air conditioner according to the present invention for this purpose includes an indoor unit and a compressor, an outdoor heat exchanger, a capillary tube, a bypass device, and a control unit. The compressor is for compressing the refrigerant, and the outdoor heat exchanger allows heat exchange between the compressed refrigerant discharged from the compressor and the outdoor air. The capillary tube depressurizes the refrigerant supplied to the indoor unit from the outdoor heat exchanger. The bypass device is for bypassing the refrigerant discharged from the compressor to the suction side of the compressor, and is provided between the suction side and the discharge side of the compressor. The control unit controls the discharge refrigerant of the compressor to be bypassed to the suction side of the compressor by opening the bypass device according to the change of the outdoor temperature and the outdoor temperature.

Description

Air Conditioner and Control Method {AIR CONDITIONER AND CONTROL METHOD THEREOF}

1 is a view showing a refrigerant cycle of the air conditioner according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a control system of the air conditioner shown in FIG. 1. FIG.

Figure 3 is a graph showing the bypass valve opening and closing characteristics of the air conditioner according to an embodiment of the present invention.

Figure 4 is a flow chart showing a control method of the air conditioner according to an embodiment of the present invention.

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

102: outdoor unit

104: room type indoor unit

106: package indoor unit

108: compressor

108a: discharge side

108b: suction side

112: bypass valve

114: Solenoid Valve

116: Electronic Expansion Valve

118: capillary

302: outdoor temperature change curve

304: bypass valve opening section

The present invention relates to an air conditioner, and more particularly, to a multi-type air conditioner having a plurality of indoor units and a control method thereof.

An air conditioner performs a cooling function that lowers the room temperature or a heating function that raises the room temperature. Some models combine a cooling function and a heating function. When the user sets a desired operating condition through an input device provided in the control panel or the remote controller of the air conditioner, the controller of the air conditioner controls the overall operation of the air conditioner according to the setting condition, Carry out driving.

The basic configuration of the air conditioner can be largely divided into indoor and outdoor. In the case of cooling, the outdoor unit drops the temperature of the refrigerant through heat exchange between the outdoor air and the refrigerant, and the indoor unit cools the indoor air through heat exchange between the low temperature refrigerant and the indoor air. To this end, the indoor unit includes a fan for circulating indoor air and a heat exchanger for heat exchange between the indoor air. The air circulated by the fan is first sucked through the air inlet and then heat exchanged in the heat exchanger to be discharged into the indoor space through the air outlet.

The air conditioner has a basic type in which one indoor unit is connected to one outdoor unit and a multi type in which a plurality of indoor units are connected to one outdoor unit according to the installation form. Multi-type is generally a system for individual heating and cooling in various areas in a large building.

In the case of a multi-type air conditioner, a large-capacity packaged indoor unit is installed and operated according to the size of the heating and cooling zone, or a relatively small room-type indoor unit is operated. In order to cope with fluctuations in heating and cooling loads, a variable capacity compressor having a variable compression capacity is used. Even in the case of a variable capacity compressor, a small capacity room type indoor unit operates alone and a large capacity in which all indoor units operate. Since it does not correspond to all, when the room type indoor unit is operated alone, excessive cooling or excessive heating can be made. Excessive heating and cooling not only causes unnecessary power consumption, but also causes condensation and lowers reliability at low temperatures.

The air conditioner and the control method according to the present invention prevent excessive cooling and heating and condensation by bypassing the discharge refrigerant of the compressor to the suction side according to the change of the outdoor temperature and the outdoor temperature, The purpose is to ensure reliability.

An air conditioner according to the present invention for this purpose includes an indoor unit and a compressor, an outdoor heat exchanger, a capillary tube, a bypass device, and a control unit. The compressor is for compressing the refrigerant, and the outdoor heat exchanger allows heat exchange between the compressed refrigerant discharged from the compressor and the outdoor air. The capillary tube depressurizes the refrigerant supplied to the indoor unit from the outdoor heat exchanger. The bypass device is for bypassing the refrigerant discharged from the compressor to the suction side of the compressor, and is provided between the suction side and the discharge side of the compressor. The control unit controls the discharge refrigerant of the compressor to be bypassed to the suction side of the compressor by opening the bypass device according to the change of the outdoor temperature and the outdoor temperature.

The control method of the air conditioner according to the present invention having such a configuration controls the discharge refrigerant of the compressor to be bypassed to the suction side of the compressor by opening the bypass device according to the change of the outdoor temperature and the outdoor temperature.

Referring to Figures 1 to 4 a preferred embodiment of the present invention made as described above are as follows. 1 is a view showing a refrigerant cycle of the air conditioner according to an embodiment of the present invention. As shown in FIG. 1, a room type indoor unit 104 and a packaged indoor unit 106 are connected to one outdoor unit 102 through a refrigerant pipe. The compressed refrigerant discharged from the compressor 108 of the outdoor unit 102 is heat-exchanged with the outdoor air in the outdoor heat exchanger 110, and then decompressed by the electronic expansion valve 116 and supplied to the packaged indoor unit 106. In addition, the refrigerant passing through the outdoor heat exchanger 110 is reduced in pressure by the capillary tube 118 and is supplied to the room type indoor unit 104. The bypass valve 112 is provided between the discharge side 108a and the suction side 108b of the compressor 108. When the bypass valve 112 is opened, a part of the discharge refrigerant of the compressor 108 is bypassed to the suction side 108b of the compressor 108 to reduce the amount of the refrigerant supplied to the outdoor heat exchanger 110. . This means that when the bypass valve 112 is opened, the amount of refrigerant supplied to each indoor unit 104 or 106 is reduced. In the air conditioner according to the embodiment of the present invention, the capillary tube 118 is used to depressurize the refrigerant supplied to the room type indoor unit 104. The capillary tube 118 is lower in price and easier to maintain than the electronic expansion valve. Therefore, it is very efficient in system design and operation because communication for control is unnecessary.

In the cooling operation, the opening degree of the electromagnetic expansion valve 116 is adjusted according to the cooling capability required in the packaged indoor unit 106, while the solenoid valve 114 in front of the capillary tube 118 is required in the room type indoor unit 104. Fully open regardless of cooling capacity. Due to such a structure, the capillary tube 118 has a predetermined size of reduced pressure. When the compression capacity of the compressor 108 exceeds the maximum heat exchange capacity of the room type indoor unit 104, excessive cooling and condensation occur, resulting in a low temperature of the outdoor temperature. Since the refrigerant temperature is too low in the section, there may be a problem such as freezing of the compressor 108, such a problem by bypassing the discharge refrigerant of the compressor 102 to the suction side (108b) through the bypass valve 112 Should not occur.

FIG. 2 is a block diagram showing a control system of the air conditioner shown in FIG. 1. As shown in FIG. 2, a temperature detector 212 for detecting an outdoor temperature is connected to an input terminal of the controller 202. The compressor driving unit 204 and the solenoid valve driving unit 206, the bypass valve driving unit 208, and the electromagnetic expansion valve driving unit 210 are connected to the output end of the control unit 202, and the compressor 108 and the solenoid valve 114 are respectively connected. The bypass valve 112 and the electromagnetic expansion valve 116 are driven. The controller 202 controls the discharge valve of the compressor 102 to be bypassed to the suction side 108b of the compressor 102 by opening the bypass valve 112 according to the change of the outdoor temperature. The description is as follows.

3 is a graph illustrating the opening and closing characteristics of the bypass valve of the air conditioner according to the exemplary embodiment of the present invention, and illustrates a relationship between the outdoor temperature change curve 302 and the bypass valve opening section 304. As shown in FIG. 3, when the outdoor temperature reaches the first set temperature (for example, 28 ° C.) when the outdoor temperature is falling, the bypass valve 112 is opened and the refrigerant discharged from the compressor 108 is sucked in. Bypass to the side 108b, and closes the bypass valve 112 when the outdoor temperature reaches the second set temperature (e.g., 30 ° C) when the outdoor temperature is rising.

In the low temperature conditions, both the indoor and outdoor temperatures are 21 ° C. in the dry bulb temperature and 15 ° C. in the wet bulb temperature. In this section, the bypass valve 112 is opened to reduce the circulation of the refrigerant, and at the same time, the high temperature refrigerant discharged from the compressor 108 is removed. By-passing to the suction side 108b prevents the freezing of the compressor 108 to ensure the reliability of the compressor even at low temperature conditions. The dew condensation conditions are both a dry bulb temperature of 27 ° C. and a wet bulb temperature of 24 ° C., and condensation can be prevented by opening the bypass valve 112 in this section as well. In addition, when the outdoor temperature is 30 ° C or higher, the bypass valve 112 is closed because the room type indoor unit 104 does not need to bypass the discharged refrigerant because the room type indoor unit 104 deviates from the low temperature condition and the dew condensation condition if the outdoor temperature is high enough. .

This problem in the low temperature and condensation conditions is more prominent when the room type indoor unit 104 is operated alone, so that the bypass valve according to the change of the outdoor temperature when the room type indoor unit 104 is operated alone. 112, which will be described with reference to FIG. 4 as follows.

4 is a flowchart illustrating a control method of an air conditioner according to an embodiment of the present invention. As shown in FIG. 4, it is determined whether the room type indoor unit 104 operates alone (402), and if the room type indoor unit 104 does not operate alone, it is determined whether the package type indoor unit 106 is the sole operation. (404) The packaged indoor unit 106 is operated alone (406), or the room type indoor unit 104 and the packaged indoor unit 106 are operated in parallel (408).

In the case of the single operation of the room type indoor unit 104 (402), the outdoor temperature is first measured to determine whether the outdoor temperature corresponds to a low temperature section or a dew condensation section (410). If the outdoor temperature is falling (412) and the outdoor temperature reaches 28 ° C (414), the bypass valve 112 is opened to allow the discharged refrigerant of the compressor 102 to bypass the suction side 108b. (416).

When the outdoor temperature rises (418), when the outdoor temperature reaches 30 ° C, efficient cooling can be achieved even when the room type indoor unit 104 operates alone, so that the bypass valve 112 is closed to close the compressor ( All of the discharged refrigerant of 102 may be circulated through the refrigerant cycle (422).

The air conditioner and the control method according to the present invention prevent excessive cooling and heating and condensation by bypassing the discharge refrigerant of the compressor to the suction side according to the change of the outdoor temperature and the outdoor temperature, Ensure reliability.

Claims (6)

Indoor unit; A compressor for compressing the refrigerant; An outdoor heat exchanger configured to perform heat exchange between the compressed refrigerant discharged from the compressor and outdoor air; A capillary tube for reducing the refrigerant supplied from the outdoor heat exchanger to the indoor unit; A bypass device for bypassing the refrigerant discharged from the compressor to the suction side of the compressor; And a control unit for controlling the hot refrigerant discharged from the compressor to be bypassed to the suction side of the compressor when the outdoor temperature reaches the first set temperature when the outdoor temperature decreases. group. The method of claim 1, wherein the control unit, And closing the bypass device when the outdoor temperature reaches a second set temperature when the outdoor temperature is rising. The method of claim 1, wherein the bypass device, A bypass tube connected between the suction side of the compressor and the discharge side of the compressor; And a bypass valve provided in the bypass pipe to be opened and closed by the controller. An indoor heat exchanger for performing heat exchange between the indoor unit, a compressor for compressing the refrigerant, an compressed air discharged from the compressor and outdoor air, a capillary tube for reducing the refrigerant supplied from the outdoor heat exchanger to the indoor unit; In the control method of the air conditioner including a bypass device for bypassing the refrigerant discharged from the compressor to the suction side of the compressor, When the outdoor temperature reaches a first set temperature when the outdoor temperature decreases, the control unit of the air conditioner controls to open the bypass device so that the hot refrigerant discharged from the compressor is bypassed to the suction side of the compressor. . The method of claim 4, wherein And controlling the bypass device when the outdoor temperature reaches a second set temperature when the outdoor temperature increases. The method of claim 4, wherein The indoor unit comprises at least two unit indoor units; And controlling the bypass device according to a change in the outdoor temperature when any one of the at least two unit indoor units operates alone.

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