Cooling system for cooling driving motor of hybrid vehicle and method for controlling the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25D-023/12
H02K-009/00
B60L-011/00
출원번호
US-0170500
(2011-06-28)
등록번호
US-8774996
(2014-07-08)
우선권정보
KR-10-2010-0122244 (2010-12-02)
발명자
/ 주소
Shin, Gwang Seob
Kim, Jong Hyun
Kim, Youngchul
Lee, Jang Mi
Yi, Jaeshin
출원인 / 주소
Hyundai Motor Company
대리인 / 주소
Edwards Wildman Palmer LLP
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
The present invention relates to a cooling system for cooling a driving motor of a hybrid vehicle and a method for controlling the same which supplies suitable cooling flow according to temperature and temperature change rate of the driving motor. An exemplary embodiment may include: an electric oil
The present invention relates to a cooling system for cooling a driving motor of a hybrid vehicle and a method for controlling the same which supplies suitable cooling flow according to temperature and temperature change rate of the driving motor. An exemplary embodiment may include: an electric oil pump to generate hydraulic pressure for cooling the driving motor; a switching valve to selectively transmit the hydraulic pressure to the driving motor; a solenoid valve to selectively supply control pressure to the switching valve so as to switch hydraulic lines in the switching valve; and a control portion controlling operations of the electric oil pump and the switching valve, wherein the control portion operates the electric oil pump by various operation amounts or stops the electric oil pump according to temperature of the driving motor and temperature change rate of the driving motor, and turns on or off the solenoid valve.
대표청구항▼
1. A cooling system for cooling a driving motor of a hybrid vehicle, comprising: an electric oil pump that generates hydraulic pressure for cooling the driving motor of the hybrid vehicle;a switching valve that selectively transmits the hydraulic pressure generated by the electric oil pump to the dr
1. A cooling system for cooling a driving motor of a hybrid vehicle, comprising: an electric oil pump that generates hydraulic pressure for cooling the driving motor of the hybrid vehicle;a switching valve that selectively transmits the hydraulic pressure generated by the electric oil pump to the driving motor;a solenoid valve that selectively supplies control pressure to the switching valve so as to switch hydraulic lines in the switching valve; anda control portion that controls operations of the electric oil pump and the switching valve,wherein the control portion is configured to: operate the electric oil pump by first, second, and third operation amounts,stop the electric oil pump according to temperature of the driving motor and temperature change rate operating region of the driving motor, andturns on or off the solenoid valve when the temperature change rate of the driving motor is within a first predetermined operating region in relation to time and temperature of the driving motor,wherein the control portion is further configured to operate the electric oil pump: by i.) the second operation amount and turns on the solenoid valve when the temperature change rate of the driving motor falls within a second predetermined operating region and the temperature of the driving motor is greater than or equal to a reference temperature,by ii.) the third operation amount and turn on the solenoid valve when the temperature change rate of the driving motor is within a third predetermined operating region and the temperature of the driving motor is greater than or equal to the reference temperature, andby iii.) turn off the electric oil pump and the solenoid valve when the temperature change rate of the driving motor is within a fourth predetermined operating region, or the temperature change rate of the driving motor is within the third predetermined operating region and the temperature of the driving motor is less than the reference temperature. 2. A method for controlling a cooling system which cools a driving motor of a hybrid vehicle by pumping oil by an electric oil pump and delivering the pumped oil to the driving motor by a control of a solenoid valve, the method comprising: determining, by a control portion, the driving motor is operational;detecting, by the control portion, a temperature of the driving motor while the driving motor is operating;calculating, by the control portion, a temperature change rate of the driving motor based on the detected temperature of the driving motor;determining, by the control portion, the temperature change rate of the driving motor is greater than or equal to a first predetermined operating region; andoperating, by the control portion, the electric oil pump by a first operation amount and turning on the solenoid valve responsive to the temperature change rate operating region of the driving motor being greater than or equal to the first predetermined operating region in relation to time and temperature of the driving motor,wherein when the temperature change rate of the driving motor is less than the first predetermined operating region, determining, by the control portion, the temperature of the driving motor is greater than or equal to a reference temperature;turning off the electric oil pump and the solenoid valve responsive to the temperature of the driving motor being less than the reference temperature;determining, by the control portion, the temperature change rate of the driving motor is within a second predetermined operating region responsive to the temperature of the driving motor being greater than or equal to the reference temperature;operating, by the control portion, the electric oil pump by a second operation amount and turning on the solenoid valve responsive to the temperature change rate of the driving motor being within the second predetermined operating region,determining, by the control portion, the temperature change rate of the driving motor is within a third predetermined operating region responsive to the temperature change rate of the driving motor not being within the second predetermined operating region; andoperating, by the control portion, the electric oil pump by a third operation amount and turning on the solenoid valve responsive to the temperature change rate of the driving motor being within the third predetermined operating region. 3. The method of claim 2, further comprising: turning off the electric oil pump and the solenoid valve responsive to the temperature change rate of the driving motor being within a fourth predetermined operating region. 4. A tangible, non-transitory, computer-readable medium having instructions thereon to control a cooling system which cools a motor by pumping oil by an oil pump and delivering the pumped oil to the motor by a control of a solenoid valve, the instructions when executed by a processor perform acts of: determining the motor is operational;detecting a temperature of the motor while the motor is operating;calculating temperature change rate of the motor based on the temperature of the motor;determining the temperature change rate of the motor is larger than or equal to a first predetermined operating region; andoperate the oil pump by a first operation amount and turning on the solenoid valve responsive to the temperature change rate operating region of the motor being within the first predetermined operating region in relation to time and temperature of the motor;determining the temperature of the motor is greater than or equal to a reference temperature responsive to the temperature change rate of the motor being less than the first predetermined operating region;turning off the electric oil pump and the solenoid valve responsive to the temperature of the motor being less than the reference temperature;determining the temperature change rate of the motor is within a second predetermined operating region responsive to the temperature of the motor being greater than or equal to the reference temperature;operating the electric oil pump by a second operation amount and turning on the solenoid valve responsive to the temperature change rate of the driving motor being within the second predetermined operating region;determining the temperature change rate of the motor is within a third predetermined operating region responsive to the temperature change rate of the motor not being within the second predetermined operating region;operating the electric oil pump by a third operation amount and turning on the solenoid valve responsive to the temperature change rate of the motor being within the third predetermined operating region; andturning off the oil pump and the solenoid valve responsive to the temperature change rate of the motor being within a fourth predetermined operating region.
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이 특허에 인용된 특허 (7)
Tetsuya Hasebe JP; Yusuke Tatara JP; Toshinori Tsukamoto JP, Cooling apparatus of hybrid vehicle, including serially-connected cooling systems for electric devices which have different heat resisting allowable temperatures.
Longnecker, John Edward; Super, Leopold; Avery, Jr., Richard Michael; Lewallen, Brian, Method and system for controlling engine temperature by engine derating.
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