Start-up control device and method for electric scroll compressor
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04B-049/06
F25B-049/00
F25B-031/00
출원번호
US-0602449
(2008-05-21)
등록번호
US-8342810
(2013-01-01)
우선권정보
JP-2007-146894 (2007-06-01)
국제출원번호
PCT/JP2008/059361
(2008-05-21)
§371/§102 date
20091130
(20091130)
국제공개번호
WO2008/149673
(2008-12-11)
발명자
/ 주소
Koyama, Shigeyuki
출원인 / 주소
Sanden Corporation
대리인 / 주소
Cozen O'Connor
인용정보
피인용 횟수 :
1인용 특허 :
14
초록▼
A device executing a start-up control method for an electric scroll compressor has a thermistor (18) and a pressure sensor (20) which, prior to the start-up of the scroll compression unit, detect temperature and pressure of a suction refrigerant introduced into the compression unit (2), and a contro
A device executing a start-up control method for an electric scroll compressor has a thermistor (18) and a pressure sensor (20) which, prior to the start-up of the scroll compression unit, detect temperature and pressure of a suction refrigerant introduced into the compression unit (2), and a controller (10) for controlling driving of a motor (4) of the compression unit (2) at the start-up of the compressor. The controller (10) determines at the start-up of the compressor whether or not a liquid refrigerant exists in the compression unit (2) on the basis of the detected temperature and pressure; selects either a normal start-up mode or a liquid-discharge mode in which the rotational speed of the motor (4) is regulated to be lower than in the normal start-up mode, according to the determination result; and controls the start-up of the compression unit (2) through the motor (4) according to the selected mode.
대표청구항▼
1. A start-up control device for an electric scroll compressor including a motor and a scroll compression unit driven with the motor and used to compress a refrigerant, comprising: a detector for detecting temperature and pressure of the refrigerant existing in the compression unit prior to start-up
1. A start-up control device for an electric scroll compressor including a motor and a scroll compression unit driven with the motor and used to compress a refrigerant, comprising: a detector for detecting temperature and pressure of the refrigerant existing in the compression unit prior to start-up of the compressor, and outputting a detection result; anda controller for controlling driving of the motor at start-up of the compressor, the controller including a determination section for determining whether or not liquid refrigerant exists in the compression unit on the basis of the detection result of the detector, and a executing section for executing the driving of the motor according to a start-up control process selected on the basis of the determination result of the determination section, wherein:the start-up control process includes:a normal start-up mode for being selected when liquid refrigerant does not exist in the compression unit; anda liquid-discharge mode for being selected when there is liquid refrigerant in the compression unit and regulating a rotational speed of the motor to be non-zero and lower than in the normal start-up mode. 2. The start-up control device for an electric scroll compressor according to claim 1, wherein the liquid-discharge mode takes a longer execution time than the normal start-up mode. 3. The start-up control device for an electric scroll compressor according to claim 1, wherein: the compression unit includes a fixed scroll and a movable scroll rotated with the motor, andthe rotational speed of the motor in the liquid-discharge mode is regulated to secure such a gap between the fixed and movable scrolls as to allow the liquid refrigerant to leak out. 4. The start-up control device for an electric scroll compressor according to claim 1, wherein: the compressor includes a common housing in which both the motor and the compression unit are accommodated, and into which the refrigerant is introduced; andthe detector includes a temperature sensor located in the housing, for detecting a temperature of the refrigerant introduced into the housing as refrigerant temperature in the compression unit, and a pressure sensor for detecting a pressure of the refrigerant introduced into the housing as refrigerant pressure in the compression unit. 5. A start-up control device for an electric scroll compressor including a motor and a scroll compression unit driven with the motor and used to compress a refrigerant, comprising: a detector for detecting temperature and pressure of the refrigerant existing in the compression unit prior to start-up of the compressor, and outputting a detection result; anda controller for controlling driving of the motor at start-up of the compressor, the controller including a determination section for determining whether or not liquid refrigerant exists in the compression unit on the basis of the detection result of the detector, and a executing section for executing the driving of the motor according to a start-up control process selected on the basis of the determination result of the determination section, wherein:the start-up control process includes:a normal start-up mode for being selected when liquid refrigerant does not exist in the compression unit; anda liquid-discharge mode for being selected when there is liquid refrigerant in the compression unit and regulating a rotational speed of the motor to be lower than in the normal start-up mode, wherein:the controller further includes a timer for measuring a rest time from a point at which operation of the compression unit is stopped to a point at which the compression unit is started up;the determination result of the determination section includes a gas-phase state in which there is no liquid refrigerant in the compression unit, a liquid-phase state in which there is liquid refrigerant in the compression unit, and a gas-liquid mixing state in which presence of liquid refrigerant in the compression unit is unclear; andwhen the determination result is the gas-liquid mixing state, the determination section determines whether or not liquid refrigerant exists in the compression unit on the basis of refrigerant temperature in the compression unit and the rest time. 6. A start-up control method for an electric scroll compressor including a motor and a scroll compression unit driven with the motor and used to compress a refrigerant, comprising steps of: detecting temperature and pressure of the refrigerant existing in the compression unit prior to a start-up of the compressor, and outputting a detection result of said detecting step;controlling driving of the motor at the start-up of a compressor, said controlling step including a determination process of determining on the basis of the detection result of said detecting step whether or not liquid refrigerant exists in the compression unit, and an execution process of executing the driving of the motor according to a start-up control process selected on the basis of the determination of the determination process, wherein:the start-up control process includes:a normal start-up mode for being selected when liquid refrigerant does not exist in the compression unit; anda liquid-discharge mode for being selected when there is liquid refrigerant in the compression unit and regulating a rotational speed of the motor to be non-zero and lower than in the normal start-up mode. 7. The start-up control method for an electric scroll compressor according to claim 6, wherein the liquid-discharge mode takes a longer execution time than the normal start-up mode. 8. The start-up control method for an electric scroll compressor according to claim 6, wherein the liquid-discharge mode regulates the rotational speed of the motor to secure such a gap between fixed and movable scrolls of the compression unit as to allow the liquid refrigerant to leak out. 9. The start-up control method for an electric scroll compressor according to claim 6, wherein: the compressor includes a common housing in which both the motor and the compression unit are accommodated, and into which the refrigerant is introduced; andsaid detecting step detects a temperature of the refrigerant introduced into the housing as refrigerant temperature in the compression unit, and a pressure of the refrigerant introduced into the housing as refrigerant pressure in the compression unit. 10. A start-up control method for an electric scroll compressor including a motor and a scroll compression unit driven with the motor and used to compress a refrigerant, comprising steps of: detecting temperature and pressure of the refrigerant existing in the compression unit prior to a start-up of the compressor, and outputting a detection result of said detecting step;controlling driving of the motor at the start-up of the compressor, said controlling step including a determination process of determining on the basis of the detection result of said detecting step whether or not liquid refrigerant exists in the compression unit, and an execution process of executing the driving of the motor according to a start-up control process selected on the basis of the determination of the determination process, wherein:the start-up control process includes:a normal start-up mode for being selected when liquid refrigerant does not exist in the compression unit; anda liquid-discharge mode for being selected when there is liquid refrigerant in the compression unit and regulating a rotational speed of the motor to be lower than in the normal start-up mode, wherein:the determination process measures a rest time from a point at which operation of the compression unit is halted to a point at which the compression unit is started up;the determination result of the determination process includes a gas-phase state in which there is no liquid refrigerant in the compression unit, a liquid-phase state in which there is liquid refrigerant in the compression unit, and a gas-liquid mixing state in which presence of liquid refrigerant in the compression unit is unclear; andwhen the determination result is the gas-liquid mixing, state, the determination process determines whether or not the liquid refrigerant exists in the compression unit on the basis of refrigerant temperature in the compression unit and the rest time.
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