Apparatus and method for controlling compressor, and refrigerator having the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-041/00
F25B-027/00
F25B-043/02
F04B-049/02
F25B-001/02
F25B-001/10
F25B-005/02
F25B-049/02
F04B-049/06
출원번호
US-0752563
(2013-01-29)
등록번호
US-9366246
(2016-06-14)
우선권정보
KR-10-2012-0009082 (2012-01-30)
발명자
/ 주소
Yoo, Jaeyoo
Nah, Taewoong
출원인 / 주소
LG ELECTRONICS INC.
대리인 / 주소
KED & Associates, LLP
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
A compressor control apparatus and method, and a refrigerator including the same, are provided. In a refrigerator having two compressors, starting of two compressors may be staggered to reduce an effect of the suction pressure and discharge pressure between the two compressors, to provide for stable
A compressor control apparatus and method, and a refrigerator including the same, are provided. In a refrigerator having two compressors, starting of two compressors may be staggered to reduce an effect of the suction pressure and discharge pressure between the two compressors, to provide for stable operation of the compressors, and improve reliability and power consumption.
대표청구항▼
1. A compressor control apparatus for controlling a first compressor and a second compressor connected to each other to compress a refrigerant in two stages, the apparatus comprising: a controller configured to generate a first control signal and a second control signal based on a load of the first
1. A compressor control apparatus for controlling a first compressor and a second compressor connected to each other to compress a refrigerant in two stages, the apparatus comprising: a controller configured to generate a first control signal and a second control signal based on a load of the first compressor and the second compressor, respectively, and transmit the generated first control signal and the second control signal to operate the first compressor and the second compressor, respectively, wherein the first compressor and the second compressor are operated independently by the controller, wherein the controller is configured to first start the second compressor, and to start the first compressor after a predetermined period of time has elapsed after starting the second compressor in a simultaneous operation mode in which the first and second compressors are operated together, wherein the controller detects a top dead center of the second compressor after the second compressor is started, and wherein the controller starts the first compressor after the top dead center of the second compressor is detected. 2. The apparatus of claim 1, further including: a first load detector and a second load detector configured to detect a load of the first and second compressors, respectively. 3. The apparatus of claim 2, wherein the first load detector includes: a first current detector configured to detect a first motor drive current applied to a first motor provided in the first compressor;a first voltage detector configured to detect a first motor drive voltage applied to the first motor; anda first stroke calculator configured to calculate a first stroke of the first compressor using the first motor drive current and the first motor drive voltage, and wherein the second load detector includes: a second current detector configured to detect a second motor drive current applied to a second motor provided in the second compressor;a second voltage detector configured to detect a second motor drive voltage applied to the second motor; anda second stroke calculator configured to calculate a second stroke of the second compressor using the second motor drive current and the second motor drive voltage. 4. The apparatus of claim 3, wherein the controller includes: a gas spring constant calculator configured to calculate a gas spring constant of the first and second compressors, respectively; anda top dead center detector configured to detect the top dead center using an inflection paint of the gas spring constant. 5. The apparatus of claim 3, wherein the controller includes: a phase difference detector configured to detect a phase difference between the first and second motor drive currents and the first and second strokes, respectively; anda top dead center detector configured to detect the top dead center using an inflection point of the phase difference. 6. The apparatus of claim 1, wherein the first and second compressors are reciprocating compressors. 7. The apparatus of claim 6, further including: a converter configured to rectify commercial alternating current power to direct current power;a smoothing device configured to smoothen and store the rectified direct current power;a first inverter configured to perform switching in response to the first control signal to convert the smoothened direct current power into drive power for the first compressor to apply the drive power to the first compressor; anda second inverter configured to perform switching in response to the second control signal to convert the smoothened direct current power into drive power for the second compressor to apply the drive power to the second compressor. 8. The apparatus of claim 6, further including: a first alternating current switch and a second alternating current switch configured to perform switching in response to the first and second control signals to drive the first and second compressors, respectively. 9. The apparatus of claim 1, wherein the first and second compressors are reciprocating compressors having a brushless direct current motor. 10. A refrigerator, comprising: first and second compressors connected to each other to compress a refrigerant in two stages;a condenser connected to a discharge side of the second compressor, downstream of the second compressor in a refrigerant flow direction;a first evaporator branched from, the condenser and connected to a suction side of the first compressor, upstream of the first compressor in the refrigerant flow direction;a second, evaporator branched from the condenser along with the first evaporator and connected between a discharge side of the first compressor and a suction side of the second compressor;a refrigerant switching valve provided at a position branched from an outlet side of the condenser to the first evaporator and the second evaporator to control the refrigerant flow direction; anda controller configured to operate the first compressor and the second compressor independently, first start the second compressor, and start the first compressor after starting the second compressor when the first and second compressors are to be operated together, wherein the controller detects a top dead center of the second compressor after the second compressor is started, and wherein the controller starts the first compressor after the top dead center of the second compressor is detected. 11. The refrigerator of claim 10, wherein the controller is configured to detect the top dead center based on an inflection point of a gas spring constant of the second compressor or an inflection point of a phase difference between a corresponding motor drive current and stroke. 12. The refrigerator of claim 10, wherein the discharge side of the first compressor is connected to the suction side of the second compressor. 13. The refrigerator of claim 10, further including a first expander and a second expander to expand the refrigerant provided between the refrigerant switching valve and the first evaporator and the second evaporator, respectively. 14. The refrigerator of claim 13, wherein an inlet side and an outlet side of the first expander are connected to an outlet side of the refrigerant switching valve and an inlet side of the first evaporator, respectively, and wherein an inlet side and an outlet side of the second expander are connected to the other outlet side of the refrigerant switching valve and an inlet side of the second evaporator, respectively. 15. The refrigerator of claim 10, wherein the refrigerant switching valve is a 3-way valve configured to communicate the outlet side of the condenser selectively with one of the first evaporator or the second evaporator, or with the first evaporator and the second evaporator simultaneously. 16. The apparatus of claim 7, further including a DC link voltage detector that detects a DC link voltage stored in the smoothing device, wherein the controller generates the first control signal and the second control signal using the detected DC link voltage. 17. The apparatus of claim 8, further including, a power voltage detector that detects a power voltage of commercial AC power, wherein the controller generates the first control signal and the second control signal using the detected power voltage.
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