IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0308391
(2007-07-11)
|
등록번호 |
US-8334077
(2012-12-18)
|
우선권정보 |
JP-2006-193303 (2006-07-13) |
국제출원번호 |
PCT/JP2007/063799
(2007-07-11)
|
§371/§102 date |
20081212
(20081212)
|
국제공개번호 |
WO2008/007689
(2008-01-17)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Toyota Jidosha Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
A fuel cell system capable of suppressing noise caused by backflow of air when a compressor stops. Also, there is provided a fuel cell vehicle provided with this fuel cell system. A fuel cell system includes a fuel cell and a compressor that compresses air taken in from outside and supplies compress
A fuel cell system capable of suppressing noise caused by backflow of air when a compressor stops. Also, there is provided a fuel cell vehicle provided with this fuel cell system. A fuel cell system includes a fuel cell and a compressor that compresses air taken in from outside and supplies compressed air to the fuel cell. Operation of the compressor is stopped after a pressure difference between an upstream side and a downstream side of the compressor has become equal to or smaller than a predetermined value by using a control unit. In this case, the predetermined value can be a pressure difference corresponding to a predetermined noise level.
대표청구항
▼
1. A fuel cell system comprising: a fuel cell;a compressor which compresses air taken in from an outside and supplies compressed air to the fuel cell via a gas supply path;means for suppressing noise generated by the backflow of air into the compressor comprising: means for measuring a pressure diff
1. A fuel cell system comprising: a fuel cell;a compressor which compresses air taken in from an outside and supplies compressed air to the fuel cell via a gas supply path;means for suppressing noise generated by the backflow of air into the compressor comprising: means for measuring a pressure difference between an upstream side and a downstream side of the compressor;means for controlling the pressure difference so as to become equal to or smaller than a predetermined value when supply of air to the fuel cell is stopped; andmeans for stopping operation of the compressor after said measured pressure difference has become equal to or smaller than the predetermined value. 2. The fuel cell system according to claim 1, further comprising a pressure regulating valve for regulating a pressure of the air supplied from the compressor to the fuel cell, wherein the pressure regulating valve is arranged in at least one of the gas supply path and a gas discharge path, which is a flow path of gas discharged from the fuel cell, andthe operation of the compressor is stopped after the pressure regulating valve has been opened and the pressure difference has become equal to or smaller than the predetermined value. 3. The fuel cell system according to claim 1, further comprising a discharge valve for discharging air on the downstream side of the compressor into atmosphere without causing the air to pass through the fuel cell, wherein the operation of the compressor is stopped after the discharge valve has been opened and the pressure difference has become equal to or smaller than the predetermined value. 4. A fuel cell vehicle mounted with the fuel cell system according to claim 1, comprising: accelerating operation detecting means for detecting operation of an accelerating operation member;decelerating operation detecting means for detecting operation of a decelerating operation member; andpressure control means which decrease a pressure of air supplied to the fuel cell when the accelerating operation member is not operated, and increase the pressure of the air supplied to the fuel cell when the accelerating operation member is operated,wherein, when the pressure of the air is decreased by the pressure control means and the decelerating operation member is operated, operation of the compressor is stopped. 5. A fuel cell vehicle mounted with the fuel cell system according to claim 1, comprising: accelerating operation detecting means for detecting operation of an accelerating operation member; andpressure control means which decrease a pressure of air supplied to the fuel cell when the accelerating operation member is not operated, and increase the pressure of air supplied to the fuel cell when the accelerating operation member is operated,wherein, when the pressure of air is decreased by the pressure control means and a fixed period of time has elapsed from when the accelerating operation member is not operated, operation of the compressor is stopped. 6. A fuel cell system comprising: a fuel cell;a compressor which compresses air taken in from an outside and supplies compressed air to the fuel cell via a gas supply path;means for suppressing noise generated by the backflow of air into the compressor comprising: means for setting the rotational speed of the compressor at a value which is smaller than the rotational speed of the compressor during ordinary power generation of the fuel cell but is greater than zero, when supply of air to the fuel cell is stopped;means for measuring the time that has elapsed from when rotational speed of the compressor was set at the smaller value; andmeans for stopping the operation of the compressor when the measured time reaches a predetermined time. 7. The fuel cell system according to claim 6, further comprising a pressure regulating valve for regulating a pressure of the air supplied from the compressor to the fuel cell, wherein the pressure regulating valve is arranged in at least one of the gas supply path and a gas discharge path, which is a flow path of gas discharged from the fuel cell, andthe operation of the compressor is stopped after the pressure regulating valve has been opened and a pressure difference has become equal to or smaller than a predetermined value. 8. The fuel cell system according to claim 6, further comprising a discharge valve for discharging the air on the downstream side of the compressor into the atmosphere without causing the air to pass through the fuel cell, and wherein the operation of the compressor is stopped after the discharge valve has been opened and the pressure difference has become equal to or smaller than the predetermined value. 9. A fuel cell vehicle mounted with the fuel cell system according to claim 6, comprising: accelerating operation detecting means for detecting operation of an accelerating operation member;decelerating operation detecting means for detecting operation of a decelerating operation member; andpressure control means which decrease a pressure of air supplied to the fuel cell when the accelerating operation member is not operated, and increase the pressure of the air supplied to the fuel cell when the accelerating operation member is operated,wherein, when the pressure of the air is decreased by the pressure control means and the decelerating operation member is operated, operation of the compressor is stopped. 10. A fuel cell vehicle mounted with the fuel cell system according to claim 6, comprising: accelerating operation detecting means for detecting operation of an accelerating operation member; andpressure control means which decrease a pressure of air supplied to the fuel cell when the accelerating operation member is not operated, and increase the pressure of air supplied to the fuel cell when the accelerating operation member is operated,wherein, when the pressure of air is decreased by the pressure control means and a fixed period of time has elapsed from when the accelerating operation member is not operated, operation of the compressor is stopped. 11. A fuel cell system comprising: a fuel cell;a compressor which compresses air taken in from an outside and supplies compressed air to the fuel cell via a gas supply path;a throttle valve which is arranged in a gas discharge path, which is a flow path of gas discharged from the fuel cell; andmeans for suppressing noise generated by the backflow of air into the compressor comprising: means for stopping operation of the compressor after a degree of opening of the throttle valve when supply of air to the fuel cell is stopped has been made large as compared with a case where the supply of air is not stopped. 12. A fuel cell vehicle mounted with the fuel cell system according to claim 11, comprising: accelerating operation detecting means for detecting operation of an accelerating operation member;decelerating operation detecting means for detecting operation of a decelerating operation member; andpressure control means which decrease a pressure of air supplied to the fuel cell when the accelerating operation member is not operated, and increase the pressure of the air supplied to the fuel cell when the accelerating operation member is operated,wherein, when the pressure of the air is decreased by the pressure control means and the decelerating operation member is operated, operation of the compressor is stopped. 13. A fuel cell vehicle mounted with the fuel cell system according to claim 11, comprising: accelerating operation detecting means for detecting operation of an accelerating operation member; andpressure control means which decrease a pressure of air supplied to the fuel cell when the accelerating operation member is not operated, and increase the pressure of air supplied to the fuel cell when the accelerating operation member is operated, wherein, when the pressure of air is decreased by the pressure control means and a fixed period of time has elapsed from when the accelerating operation member is not operated, operation of the compressor is stopped. 14. A method for suppressing noise caused by backflow of air in a compressor in a fuel cell system, the method comprising: measuring a pressure difference between an upstream side and a downstream side of the compressor;controlling the pressure difference so as to become equal to or smaller than a predetermined value when supply of air to the fuel cell is stopped; andstopping the operation of the compressor when the pressure difference is less than a predetermined value corresponding to an allowable level of noise generated by the backflow of air into the compressor. 15. A method for suppressing noise caused by backflow of air in a compressor in a fuel cell system, the method comprising: setting the rotational speed of the compressor at a value which is smaller than the rotational speed of the compressor during ordinary power generation of the fuel cell but is greater than zero, when the supply of air to the fuel cell is stopped;measuring the time that has elapsed from when rotational speed of the compressor was set at a value which is smaller than that at a time of ordinary power generation of the fuel cell but is not zero; andstopping the operation of the compressor when the measured time reaches a predetermined time corresponding to a time at which an allowable level of noise is generated by the backflow of air into the compressor. 16. A method for suppressing noise caused by backflow of air in a compressor, the method comprising: measuring the degree of opening of a throttle valve arranged in a gas discharge path;increasing the degree of opening of the throttle valve when supply of air to the fuel cell is stopped; andstopping operation of the compressor after a degree of opening of the throttle valve has been made large as compared with a case where the supply of air is not stopped, wherein said large degree of opening corresponds to an allowable level of noise generated by the backflow of air into the compressor.
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