IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0243276
(2011-09-23)
|
등록번호 |
US-8886376
(2014-11-11)
|
우선권정보 |
JP-2010-223013 (2010-09-30) |
발명자
/ 주소 |
- Aoki, Koji
- Murakami, Hisashi
|
출원인 / 주소 |
|
대리인 / 주소 |
Birch, Stewart, Kolasch & Birch, LLP
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
4 |
초록
▼
A control apparatus for a motor-assisted bicycle detects a pedaling torque applied to a crankshaft with a pedaling force sensor, controls a motor unit of the motor-assisted bicycle in a regenerative control process to charge a battery, if the torque value of the detected pedaling torque is equal to
A control apparatus for a motor-assisted bicycle detects a pedaling torque applied to a crankshaft with a pedaling force sensor, controls a motor unit of the motor-assisted bicycle in a regenerative control process to charge a battery, if the torque value of the detected pedaling torque is equal to or smaller than a predetermined level, and controls the motor unit in an assistive control process, if the torque value is greater than the predetermined level. The control apparatus performs an assistive transient control process with an assistive ratio lower than in the assistive control process while the crankshaft makes a predetermined number of revolutions and thereafter performs the regenerative control process, if the torque value detected by the pedaling force sensor has a peak equal to or smaller than the predetermined level.
대표청구항
▼
1. A control apparatus for a motor-assisted bicycle, the control apparatus comprising: a pedaling force sensor configured to detect a pedaling torque applied to a crankshaft; anda controller configured to control a motor unit of the motor-assisted bicycle in a regenerative control process to charge
1. A control apparatus for a motor-assisted bicycle, the control apparatus comprising: a pedaling force sensor configured to detect a pedaling torque applied to a crankshaft; anda controller configured to control a motor unit of the motor-assisted bicycle in a regenerative control process to charge a battery, if the torque value of the detected pedaling torque is equal to or smaller than a predetermined level, and to control the motor unit in an assistive control process, if said torque value is greater than said predetermined level,wherein said control apparatus, in response to a case that a peak value of the torque value is equal to or smaller than said predetermined level, performs an assistive transient control process with an assistive ratio lower than in said assistive control process for a predetermined number of revolutions of the crankshaft, and performs the regenerative control process after the predetermined number of revolutions of the crankshaft if the peak value of the torque value is still equal to or smaller than said predetermined level, andwherein said control apparatus varies said predetermined level depending on the state of charge of the battery. 2. The control apparatus for the motor-assisted bicycle according to claim 1, wherein: said control apparatus operates in an assistive mode for performing the assistive control process and a regenerative mode for performing the regenerative control process;said control apparatus includes a mode determiner for determining which one of the assistive mode and the regenerative mode is to be performed; andsaid mode determiner determines that an assistive transient mode for performing the assistive transient control process is to be performed, if said mode determiner detects that the torque value detected by said pedaling force sensor has a peak equal to or smaller than said predetermined level after the mode to be performed has switched from the assistive mode to the regenerative mode. 3. The control apparatus for the motor-assisted bicycle according to claim 2, further comprising: a crankshaft rotational speed detector for detecting a rotational speed of the crankshaft with a counter for measuring a time during which said assistive transient mode continues while the assistive transient mode is performed; anda transient coefficient setting section for setting a transient coefficient to reduce said assistive ratio each time the crankshaft makes one-half of a revolution,wherein said control apparatus performs the assistive transient control process with an assistive ratio that is reduced based on the transient coefficient set by said transient coefficient setting section. 4. The control apparatus for the motor-assisted bicycle according to claim 3, further comprising: a vehicle speed information detector for detecting a vehicle speed information value representing a vehicle speed of the motor-assisted bicycle; anddecision means for determining which one of the assistive mode and the regenerative mode is to be performed, depending on said pedaling torque and the vehicle speed of the motor-assisted bicycle,wherein said mode determiner determines the mode to be performed from said decision means, using the torque value detected by the pedaling force sensor and the vehicle speed information value detected by said vehicle speed information detector. 5. The control apparatus for the motor-assisted bicycle according to claim 2, further comprising: a vehicle speed information detector for detecting a vehicle speed information value representing a vehicle speed of the motor-assisted bicycle; anddecision means for determining which one of the assistive mode and the regenerative mode is to be performed, depending on said pedaling torque and the vehicle speed of the motor-assisted bicycle,wherein said mode determiner determines the mode to be performed from said decision means, using the torque value detected by the pedaling force sensor and the vehicle speed information value detected by said vehicle speed information detector. 6. The control apparatus for the motor-assisted bicycle according to claim 5, further comprising: a state-of-charge detector for detecting the state of charge of the battery,wherein said decision means includes a plurality of decision means provided depending on the state of charge of the battery; andsaid mode determiner determines the mode to be performed from the decision means, which corresponds to the state of charge of the battery that is detected by said state-of-charge detector. 7. The control apparatus for the motor-assisted bicycle according to claim 6, wherein said plurality of decision means provided depending on the state of charge of the battery is determined such that said predetermined level is higher as the state of charge of the battery is lower. 8. The control apparatus for the motor-assisted bicycle according to claim 5, wherein said decision means includes a preset decision map. 9. The control apparatus for the motor-assisted bicycle according to claim 1, wherein said control apparatus is configured to start performing the assistive transient control process when the pedaling torque is at the peak value. 10. A control apparatus for a motor-assisted bicycle, comprising: a torque detecting unit configured to detect a pedaling torque applied to a crankshaft with a pedaling force sensor; anda control unit configured to control a motor unit of the motor-assisted bicycle in a regenerative control process to charge a battery, if the torque value of the detected pedaling torque is equal to or smaller than a predetermined level, and control the motor unit in an assistive control process, if said torque value is greater than said predetermined level,wherein said control apparatus, in response to a case that a peak value of the torque value is equal to or smaller than said predetermined level, is configured to perform an assistive transient control process with an assistive ratio lower than in said assistive control process for a predetermined number of revolutions of the crankshaft, and perform the regenerative control process after the predetermined number of revolutions of the crankshaft if the peak value of the torque value is still equal to or smaller than said predetermined level, andwherein said control apparatus varies said predetermined level depending on the state of charge of the battery. 11. The control apparatus for the motor-assisted bicycle according to claim 10, wherein: said control unit is configured to operate in an assistive mode to perform the assistive control process and a regenerative mode to perform the regenerative control process;said control apparatus includes a mode determiner configured to determine which one of the assistive mode and the regenerative mode is to be performed; andsaid mode determiner determines an assistive transient mode to perform the assistive transient control process is to be performed, if said mode determiner detects that the torque value detected by the pedaling force sensor has a peak equal to or smaller than said predetermined level after the mode to be performed has switched from the assistive mode to the regenerative mode. 12. The control apparatus for the motor-assisted bicycle according to claim 11, further comprising: a crankshaft rotational speed detector configured to detect a rotational speed of the crankshaft with a counter for measuring a time during which said assistive transient mode continues while the assistive transient mode is performed; anda transient coefficient setting section configured to set a transient coefficient to reduce said assistive ratio each time the crankshaft makes one-half of a revolution,wherein said control apparatus performs the assistive transient control process with an assistive ratio that is reduced based on the transient coefficient set by said transient coefficient setting section. 13. The control apparatus for the motor-assisted bicycle according to claim 12, further comprising: a vehicle speed information detector configured to detect a vehicle speed information value representing a vehicle speed of the motor-assisted bicycle; anda decision unit configured to determine which one of the assistive mode and the regenerative mode is to be performed, depending on said pedaling torque and the vehicle speed of the motor-assisted bicycle,wherein said mode determiner is configured to determine the mode to be performed from said decision unit, using the torque value detected by the pedaling force sensor and the vehicle speed information value detected by said vehicle speed information detector. 14. The control apparatus for the motor-assisted bicycle according to claim 11, further comprising: a vehicle speed information detector configured to detect a vehicle speed information value representing a vehicle speed of the motor-assisted bicycle; anda decision unit configured to determine which one of the assistive mode and the regenerative mode is to be performed, depending on said pedaling torque and the vehicle speed of the motor-assisted bicycle,wherein said mode determiner is configured to determine the mode to be performed from said decision unit, using the torque value detected by the pedaling force sensor and the vehicle speed information value detected by said vehicle speed information detector. 15. The control apparatus for the motor-assisted bicycle according to claim 14, further comprising: a state-of-charge detector configured to detect the state of charge of the battery,wherein said decision unit includes a plurality of decision units provided depending on the state of charge of the battery; andsaid mode determiner is configured to determine the mode to be performed from the decision unit, which corresponds to the state of charge of the battery that is detected by said state-of-charge detector. 16. The control apparatus for the motor-assisted bicycle according to claim 15, wherein said plurality of decision units provided depending on the state of charge of the battery is determined such that said predetermined level is higher as the state of charge of the battery is lower. 17. The control apparatus for the motor-assisted bicycle according to claim 14, wherein said decision unit includes a preset decision map. 18. The control apparatus for the motor-assisted bicycle according to claim 10, wherein said control apparatus is configured to start performing the assistive transient control process when the pedaling torque is at the peak value.
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