KR101479240B1 - Air conditioner and method of controlling the same - Google Patents

Abstract

The present invention relates to an air conditioner and a control method thereof, and more particularly, to an air conditioner and a control method thereof, in which even when a plurality of indoor units having different capacities (stand type or wall- And is not supplied or overloaded. A control method for an air conditioner according to the present invention includes a first outdoor unit having a compressor, a first indoor unit that does not provide operation state information to the outdoor unit, and a second indoor unit In an air conditioner, detecting an outdoor temperature; Determining a target discharge temperature of the compressor corresponding to the outdoor temperature; Detecting a discharge temperature of the compressor; The opening degree of the expansion valve associated with the supply of the refrigerant to the first indoor unit is controlled to control the discharge temperature of the compressor so as to follow the target discharge temperature.

Air conditioner, compressor, discharge temperature, valve opening control

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner,

The present invention relates to an air conditioner and a control method thereof, and more particularly, to an air conditioner and a control method thereof in which a plurality of indoor units are connected to an outdoor unit.

The air conditioner is a device used for cooling or heating the room, and circulates the refrigerant between the indoor unit and the outdoor unit, absorbing the surrounding heat when the liquid refrigerant vaporizes, and discharging heat To perform cooling or heating.

The air conditioner basically operates one indoor unit connected to one outdoor unit. However, the number of the indoor units is extended to connect a plurality of indoor units to one outdoor unit. In particular, a plurality of indoor units having different capacities and different types (stand type or wall-mounted type) may be connected and operated.

When a plurality of indoor units having different capacities (stand type or wall-mounted type) and different indoor units are connected and operated in one outdoor unit, refrigerant is insufficiently supplied to each indoor unit according to the shape and product variation of each indoor unit There is a case where excess supply is performed. This lowers the cooling / heating performance of the air conditioner, causes unnecessary energy consumption of the air conditioner, and lowers the reliability of the product.

It is an object of the present invention to prevent refrigerant from being supplied in an insufficient or excessive amount to each indoor unit even when a plurality of indoor units having different capacities (stand type or wall type) and one indoor unit having different capacities are connected to one outdoor unit .

A control method for an air conditioner according to the present invention includes a first outdoor unit having a compressor, a first indoor unit that does not provide operation state information to the outdoor unit, and a second indoor unit In an air conditioner, detecting an outdoor temperature; Determining a target discharge temperature of the compressor corresponding to the outdoor temperature; Detecting a discharge temperature of the compressor; The opening degree of the expansion valve associated with the supply of the refrigerant to the first indoor unit is controlled to control the discharge temperature of the compressor so as to follow the target discharge temperature.

Further, the operation of the first indoor unit is controlled based on the above-described outdoor temperature.

Further, when the discharge temperature of the compressor is lower than the target discharge temperature of the compressor, the opening degree of the expansion valve is reduced to reduce the amount of refrigerant supplied to the first indoor unit.

When the discharge temperature of the compressor is higher than the target discharge temperature of the compressor, the opening degree of the expansion valve is increased to increase the amount of refrigerant supplied to the first indoor unit.

Further, when the discharge temperature of the compressor is equal to the target discharge temperature of the compressor, the opening degree of the expansion valve is maintained at a reference opening predetermined to correspond to the outdoor temperature.

According to an aspect of the present invention, there is provided an air conditioner including: an outdoor unit having a compressor; A first indoor unit that does not provide operation state information to an outdoor unit; A second indoor unit for providing operation status information to the outdoor unit; A first temperature sensor for detecting an outdoor temperature; A second temperature sensor for detecting a discharge temperature of the compressor; And a control unit for determining a target discharge temperature of the compressor corresponding to the outdoor temperature and controlling the opening degree of the expansion valve involved in the supply of the refrigerant to the first indoor unit so that the discharge temperature of the compressor follows the target discharge temperature.

In addition, the control unit controls the operation of the first indoor unit based on the outdoor temperature.

Further, when the discharge temperature of the compressor is lower than the target discharge temperature of the compressor, the control unit reduces the opening degree of the expansion valve to reduce the amount of refrigerant supplied to the first indoor unit.

The control unit increases the opening degree of the expansion valve to increase the amount of refrigerant supplied to the first indoor unit when the discharge temperature of the compressor is higher than the target discharge temperature of the compressor.

Further, the above-described control unit maintains the opening degree of the expansion valve at a reference opening degree preset to correspond to the outdoor temperature when the discharge temperature of the compressor is equal to the target discharge temperature of the compressor.

The above-described expansion valve is an electronic expansion valve.

Further, it further includes a check valve provided on the discharge side of the compressor described above; The second temperature sensor is provided to detect the discharge temperature of the refrigerant passing through the check valve.

Another control method of an air conditioner according to the present invention for an air conditioner according to the present invention includes an outdoor unit having a compressor, a first indoor unit that does not provide operation state information to the outdoor unit, 2. An air conditioner including an indoor unit, the method comprising: receiving an operation command of the first indoor unit; Detecting an outdoor temperature; Opening the expansion valve associated with the supply of the refrigerant to the first indoor unit at a reference opening predetermined to correspond to the detected outdoor temperature; Determining a target discharge temperature of the compressor corresponding to the detected outdoor temperature; Detecting a discharge temperature of the compressor; The opening degree of the expansion valve is variably controlled so that the discharge temperature of the compressor follows the target discharge temperature.

Further, the operation of the first indoor unit is controlled based on the above-described outdoor temperature.

Even when a plurality of indoor units having different capacities (stand type or wall-mounted type) and different indoor units are connected to one outdoor unit and refrigerant is not supplied or over-supplied to each indoor unit, To deliver maximum performance and provide a satisfactory cooling effect for consumers.

A preferred embodiment of the present invention will now be described with reference to FIGS. 1 to 4. FIG. 1 is a view illustrating a connection state between an outdoor unit of an air conditioner and a plurality of indoor units according to an embodiment of the present invention. 1, an air conditioner 100 according to an embodiment of the present invention includes an outdoor unit 102 and a plurality of indoor units 104 and 106. [ In FIG. 1, only the first indoor unit 104 and the second indoor unit 106 are shown, and more indoor units are connected and operated as needed.

The first indoor unit 104 is a room air conditioner (RAC), and a refrigerant circulation pipe 104a is connected between the outdoor unit 102 and the first indoor unit 104, and a communication line 104b is connected for control . The information transmitted from the first indoor unit 104 to the outdoor unit 102 through the communication between the outdoor unit 102 and the first indoor unit 104 includes an operation command and target temperature information (user desired temperature information) Is limited to the information necessary for the basic operation of the first indoor unit 104 as shown in FIG. Therefore, the outdoor unit 102 can control the operation of the first indoor unit 104 by using the outdoor unit 102 operating conditions (for example, the outdoor temperature and the compressor discharge temperature) without considering the operating state of the first indoor unit 104 (104). In particular, the outdoor unit 102 controls the opening degree of the expansion valve involved in the supply of the refrigerant in the first indoor unit 104 based on the compressor discharge temperature. The outdoor unit 102 and the first indoor unit 104 are connected to each other to control the cooling operation of the first indoor unit 9104) It does not communicate directly.

The second indoor unit 106 is a floor air conditioner and the refrigerant circulation pipe 106a and the communication line 106b for control are connected between the outdoor unit 102 and the second indoor unit 106 . The information transmitted from the outdoor unit 102 to the second indoor unit 106 through the communication line 106b is transmitted to the second indoor unit 106 such as an operation command and target temperature information (user desired temperature information) (For example, the indoor heat exchanger temperature) of the second indoor unit 106, in addition to the information necessary for the basic operation of the second indoor unit 106. [ That is, the outdoor unit 102 communicates with the second indoor unit 106 to exchange data necessary for the cooling operation control of the second indoor unit 106. Therefore, the outdoor unit 102 can control the operation of the second indoor unit 104 (for example, the outdoor unit 102) by using both the outdoor unit 102 side operation conditions (e.g., outdoor temperature and compressor discharge temperature) ) In the cooling operation.

FIG. 2 is a view showing a refrigerant cycle of the air conditioner shown in FIG. 1. FIG. 2, an air conditioner according to an embodiment of the present invention includes an outdoor unit 102 and a plurality of indoor units 104 and 106 connected to each other through refrigerant circulation pipes 104a and 104b, Cycle. The air conditioner 100 according to the embodiment of the present invention is provided with two capacity fixed compressors 212a and 212b in the outdoor unit 102. [ The air conditioner 100 operates either one or both of the two compressors 212a and 212b to vary the cooling capacity of the air conditioner 100. [

The two compressors 212a and 212b provided in the outdoor unit 102 compress the refrigerant into a high-temperature and high-pressure gas state. The outdoor heat exchanger 216 receives the compressed high-temperature high-pressure gas refrigerant from each of the two compressors 212a and 212b and exchanges heat with outdoor air. The outdoor fan 218 is driven by the outdoor fan motor 220 to forcibly blow outdoor air so that the outdoor heat exchanger 216 performs heat exchange between the outdoor air and the high temperature refrigerant. The refrigerant at high temperature and high pressure in the outdoor unit 102 is expanded (decompressed) by the capillary tube 222 to be easily vaporized and supplied to the first indoor unit 104 and the second indoor unit 106, respectively. An accumulator 224 for converting liquid refrigerant contained in the refrigerant flowing into the two compressors 212a and 212b into a gaseous state is provided on the suction side of each of the two compressors 212a and 212b. The accumulator 224 serves to suppress the liquid refrigerant from flowing into the two compressors 212a and 212b. A first electronic expansion valve (226) and a second electronic expansion valve (228) are installed in an outlet side pipe of the outdoor heat exchanger (216). The first electronic expansion valve 226 and the second electronic expansion valve 228 regulate the amount of refrigerant supplied to the first indoor unit 104 and the second indoor unit 106 to control the amount of refrigerant supplied to the first indoor unit 104 and the second indoor unit 106, And the degree of superheat of the indoor heat exchangers 252 and 276 provided in the indoor units 106 is controlled. Check valves 214a and 214b and a discharge temperature sensor 280 are installed on the discharge side piping of each of the two compressors 212a and 212b provided in the outdoor unit 102. [ The discharge temperature sensor 280 is for detecting the temperature of the refrigerant discharged from the compressors 212a and 212b and passed through the check valves 214a and 214b. The outdoor unit 102 is also provided with an outdoor temperature sensor 290 for detecting the outdoor temperature. In the air conditioner and the control method thereof according to an embodiment of the present invention, based on the temperature of the discharged refrigerant detected through the discharge temperature sensor 280 and the outdoor temperature detected through the outdoor temperature sensor 290, And controls the amount of refrigerant supplied to the first indoor unit 104 by controlling the opening degree of the expansion valve 226.

A first indoor heat exchanger (252) is installed in the first indoor unit (104). The first indoor fan 256 driven by the first indoor fan motor 254 forcibly circulates the indoor air through the first indoor heat exchanger 252 to circulate the refrigerant of the first indoor heat exchanger 252 and the indoor air Thereby allowing heat exchange to occur between them.

Similarly, the second indoor heat exchanger (272) is installed in the second indoor unit (106). The second indoor fan 276 driven by the second indoor fan motor 274 forcibly circulates the indoor air through the second indoor heat exchanger 272 to circulate the refrigerant of the second indoor heat exchanger 272 and the indoor air Thereby allowing heat exchange to occur between them.

3 is a view showing a control system of the air conditioner shown in Fig. 3, the first indoor unit 104 and the second indoor unit 106 are connected to the outdoor unit 102 through the refrigerant circulation pipes 104a and 106a, respectively. A discharge temperature sensor 280 and an outdoor temperature sensor 290 are connected to the input side of the control unit 302 of the outdoor unit 102. The control unit 302 receives the temperature information of the refrigerant discharged from the compressors 212a and 212b from the discharge temperature sensor 280 and receives the temperature information of the outdoor air from the outdoor temperature sensor 290. [ 212b, an outdoor fan motor 220, a first electronic expansion valve 226, and a second electronic expansion valve 228 are connected to the output side of the control unit 302. The compressor 212a, The opening degree of each of the first electronic expansion valve 226 and the second electronic expansion valve 228 is controlled by the control section 302. The storage unit 304 stores software and data necessary for the control unit 302 to control the overall operation of the air conditioner. For example, the storage unit 304 stores the data of the target discharge temperature, which is information on which the control unit 302 controls the opening degree of each of the first electronic expansion valve 226 and the second electronic expansion valve 228 . Further, the storage unit 304 stores data of the reference opening degree corresponding to the outdoor temperature.

The control unit 302 operates the compressors 212a and 212b in response to an operation command of the first indoor unit 104 generated by the user so that the refrigerant circulates between the outdoor unit 102 and the first indoor unit 104 . The control unit 302 controls the amount of refrigerant supplied to the first indoor unit 104 by adjusting the opening degree of the first electronic expansion valve 226. If the discharge temperature of the compressors 212a and 212b detected by the discharge temperature sensor 280 is different from the target discharge temperature, the controller 302 adjusts the opening degree of the first electronic expansion valve 226, 104 to increase or decrease the amount of refrigerant supplied to the compressors 212a, 212b so as to follow the target discharge temperature.

The target discharge temperature of the compressors 212a and 212b is determined according to the current outdoor temperature. That is, in the product development stage, the outdoor temperature is classified into the <low temperature condition (for example, 21 占 폚)> and the <standard condition (for example, 34 占 폚 and <high temperature condition (212a) and (212b) when the air conditioner produces the optimum air conditioning efficiency under the outdoor temperature condition of the outdoor unit, and stores it in the storage unit 304 as the target discharge temperature in each outdoor temperature condition The control unit 302 determines whether or not the target discharge temperature of the outdoor temperature condition stored in the storage unit 304 during the operation of the air conditioner is equal to or greater than the target discharge temperature And compares the discharge temperature of the compressors 212a and 212b with the target discharge temperature and adjusts the opening degree of the first electronic expansion valve 226 based on the comparison result. Communicates with the outdoor unit 102 The first indoor unit 104 is operated under a preset operating condition corresponding to the outdoor temperature when an operation command is generated. Therefore, the first indoor unit 104, which does not communicate with the outdoor unit 102, The degree of opening of the first electronic expansion valve 226 corresponding to the first indoor unit 104 that does not communicate with the outdoor unit 102 is controlled to thereby adjust the opening degree of each of the first indoor unit 104 and the second indoor unit 106 The opening degree of the first electronic expansion valve 226 is determined at a predetermined reference opening degree according to the outdoor temperature at the beginning of the operation of the first indoor unit 104, ) 212b increases or decreases the opening degree of the first electronic expansion valve 226 as needed in the process of following the target discharge temperature. The reference opening degree and the target discharge temperature stored in the storage unit 304 Product version After the firmware update, it can be updated through the same method as firmware upgrade.

4 is a view illustrating a control method of an air conditioner according to an embodiment of the present invention. The control unit 302 drives the compressors 212a and 212b to perform compression and circulation of the refrigerant as shown in FIG. 4, when the indoor unit, that is, the first indoor unit 104 that does not communicate with the outdoor unit 102, (402). At this time, the control unit 302 detects (404) the outdoor temperature T1 through the outdoor temperature sensor 290, and determines the outdoor air temperature T1 of the first electronic expansion valve 226 The opening degree is controlled (406). The target discharge temperature T2 of the compressors 212a and 212b corresponding to the outdoor temperature T1 is determined (408). The determination of the target discharge temperature (T2) refers to the data of the target discharge temperature stored in the storage section (304). The control unit 302 detects the discharge temperature T3 of the compressors 212a and 212b through the discharge temperature sensor 280 for comparison with the target discharge temperature.

When the discharge temperature T3 and the target discharge temperature T2 of the compressors 212a and 212b are secured, the controller 304 sets the discharge temperature T3 and the target discharge temperature T2 of the compressors 212a and 212b to And the opening degree of the first electronic expansion valve 226 is controlled according to the comparison result (412). If the discharge temperature T3 of the compressors 212a and 212b is higher than the target discharge temperature T2 (T2 < T3 of 412), then the first electronic expansion valve 226 corresponding to the first indoor unit 104 The opening amount is increased to increase the refrigerant supply amount to the first indoor unit 104 (414). Conversely, when the discharge temperature T3 of the compressors 212a and 212b is lower than the target discharge temperature T2 (T2> T3 of 412), the first electronic expansion valve 226 corresponding to the first indoor unit 104 is opened, To reduce the amount of refrigerant supplied to the first indoor unit 104 (416). Such increase control or decrease control of the opening degree of the first electronic expansion valve 226 continues until the discharge temperature T3 of the compressors 212a and 212b becomes equal to the target discharge temperature T2. If the discharge temperature T3 of the compressors 212a and 212b is equal to the target discharge temperature T2 (T2 = T3 of 412), the first expansion valve 226 corresponding to the first indoor unit 104 The opening degree is maintained at the current opening degree (418). When the operation termination command of the first indoor unit 104 is received during the operation of the first indoor unit 104 as described above, the control unit 302 closes the first electronic expansion valve 226 to supply the refrigerant to the first indoor unit 104 The supply is not made (420).

5 is a view showing the effects of an air conditioner and a control method thereof according to an embodiment of the present invention. 5, the performance (W) when the opening degree EEV STEP of the first electronic expansion valve 226 is 170 degrees is 2,564 W and the opening degree EEV STEP of the first electronic expansion valve 226 is The performance (W) at 190 degrees is 2,835 W. That is, higher performance can be obtained by sufficiently opening the first electronic expansion valve 226 and lowering the discharge temperature (DIS) of the compressors 212a and 212b.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view illustrating a connection state between an outdoor unit and a plurality of indoor units of an air conditioner according to an embodiment of the present invention; FIG.

Fig. 2 is a view showing a refrigerant cycle of the air conditioner shown in Fig. 1. Fig.

3 is a view showing a control system of the air conditioner shown in Fig.

4 is a view illustrating a control method of an air conditioner according to an embodiment of the present invention.

5 is a view showing an effect of an air conditioner and a control method thereof according to an embodiment of the present invention.

Description of the Related Art [0002]

100: air conditioner

102: outdoor unit

104: first indoor unit

106: second indoor unit

104a, 106a: refrigerant circulation pipe

104b, 106b: communication line

212a, 212b: compressor

226: first electronic expansion valve

228: a second electronic expansion valve

280: Discharge temperature sensor

290: Outdoor temperature sensor

Claims (14)

A method of controlling an air conditioner including an outdoor unit having a compressor, a first indoor unit that does not provide operation status information to the outdoor unit, and a second indoor unit that provides operating status information to the outdoor unit, Receiving an operation command of the first indoor unit; Detecting an outdoor temperature; Determining a target discharge temperature of the compressor corresponding to the outdoor temperature; Detecting a discharge temperature of the compressor; A control method of an air conditioner for controlling an opening degree of only an expansion valve participating in refrigerant supply to the first indoor unit that does not provide operating state information to the outdoor unit so that the discharge temperature of the compressor follows the target discharge temperature . The method according to claim 1, And controlling the operation of the first indoor unit based on the outdoor temperature. The method according to claim 1, Wherein when the discharge temperature of the compressor is lower than the target discharge temperature of the compressor, the opening degree of the expansion valve is reduced to reduce the amount of refrigerant supplied to the first indoor unit. The method according to claim 1, And increasing the opening degree of the expansion valve to increase the amount of refrigerant supplied to the first indoor unit when the discharge temperature of the compressor is higher than the target discharge temperature of the compressor. The method according to claim 1, And when the discharge temperature of the compressor is equal to the target discharge temperature of the compressor, the opening degree of the expansion valve is maintained at a reference opening predetermined to correspond to the outdoor temperature. An outdoor unit having a compressor; A first indoor unit that does not provide operation state information to the outdoor unit; A second indoor unit for providing operation status information to the outdoor unit; A first temperature sensor for detecting an outdoor temperature; A second temperature sensor for detecting a discharge temperature of the compressor; A first indoor unit for receiving the operation instruction of the first indoor unit and a second indoor unit for supplying the operation state information to the outdoor unit; And controls the opening degree of the compressor so that the discharge temperature of the compressor follows the target discharge temperature. The method according to claim 6, And the control unit controls the operation of the first indoor unit based on the outdoor temperature. 7. The apparatus of claim 6, And decreases the opening degree of the expansion valve to reduce the amount of refrigerant supplied to the first indoor unit when the discharge temperature of the compressor is lower than the target discharge temperature of the compressor. 7. The apparatus of claim 6, And increases the opening degree of the expansion valve to increase the amount of refrigerant supplied to the first indoor unit when the discharge temperature of the compressor is higher than the target discharge temperature of the compressor. 7. The apparatus of claim 6, And maintains the opening degree of the expansion valve at a reference opening predetermined to correspond to the outdoor temperature when the discharge temperature of the compressor is equal to the target discharge temperature of the compressor. The method according to claim 6, Wherein the expansion valve is an electronic expansion valve. The method according to claim 6, Further comprising: a check valve provided on a discharge side of the compressor; And the second temperature sensor is installed to detect the discharge temperature of the refrigerant that has passed through the check valve. A method of controlling an air conditioner including an outdoor unit having a compressor, a first indoor unit that does not provide operation status information to the outdoor unit, and a second indoor unit that provides operating status information to the outdoor unit, Receiving an operation command of the first indoor unit; Detecting an outdoor temperature; Only the expansion valve that is involved in the supply of the refrigerant to the first indoor unit that does not provide the operating state information to the outdoor unit is opened at a preset reference opening corresponding to the detected outdoor temperature; Determining a target discharge temperature of the compressor corresponding to the outdoor temperature; Detecting a discharge temperature of the compressor; Wherein the controller controls the opening degree of only the expansion valve associated with the supply of the refrigerant to the first indoor unit that does not provide the operating state information to the outdoor unit so that the discharge temperature of the compressor follows the target discharge temperature Way. 14. The method of claim 13, And controlling the operation of the first indoor unit based on the outdoor temperature.

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