Power output apparatus and method of controlling the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-003/08
B60L-007/20
B60L-007/00
출원번호
US-0927659
(2004-08-27)
우선권정보
JP-8-265187(1996-09-13)
발명자
/ 주소
Sasaki,Shoichi
출원인 / 주소
Toyota Jidosha Kabushiki Kaisha
대리인 / 주소
Oilff &
인용정보
피인용 횟수 :
4인용 특허 :
14
초록▼
While a ring gear shaft 126 linked with a drive shaft rotates, a power output apparatus 110 applies a torque to a first motor MG1 attached to a sun gear shaft 125, thereby abruptly increasing a revolving speed of an engine 150, to which a fuel injection is stopped. A torque generated by a frictional
While a ring gear shaft 126 linked with a drive shaft rotates, a power output apparatus 110 applies a torque to a first motor MG1 attached to a sun gear shaft 125, thereby abruptly increasing a revolving speed of an engine 150, to which a fuel injection is stopped. A torque generated by a frictional force of, for example, a piston in the engine 150 and working as a reaction is applied as a braking torque to the ring gear shaft 126 via a planetary gear 120. The magnitude of the braking torque depends upon the frictional force of, for example, the piston and can be controlled by regulating the revolving speed of the engine 150 by means of the first motor MG1. This control procedure enables the energy consumed by the engine 150 to be output as a braking force to the drive shaft.
대표청구항▼
What is claimed is: 1. A power output apparatus for outputting power to a drive shaft, said power output apparatus comprising: an engine having an output shaft; a motor having a rotating shaft and inputting and outputting power to and from said rotating shaft; three shaft-type power input/output
What is claimed is: 1. A power output apparatus for outputting power to a drive shaft, said power output apparatus comprising: an engine having an output shaft; a motor having a rotating shaft and inputting and outputting power to and from said rotating shaft; three shaft-type power input/output means having three shafts, including the output shaft and the rotating shaft, respectively linking said engine and said drive shaft, said three shaft-type power input/output means inputting and outputting power to and from a residual one shaft, based on predetermined powers input to and output from any two shafts among said three shafts; storage battery means for supplying and receiving an electrical energy required for inputting and outputting power to and from said motor; and braking control means for controlling said engine and said motor, based on a charging state of said storage battery means, in order to enable a braking force to be applied to said drive shaft. 2. A power output apparatus in accordance with claim 1, wherein said braking control means comprises means for enabling said motor to carry out a regenerative operation, thereby applying a braking force to said drive shaft. 3. A power output apparatus in accordance with claim 1, for outputting power to a drive shaft, said power output apparatus comprising: an engine having an output shaft; a motor having a rotating shaft and inputting and outputting power to and from said rotating shaft; three shaft-type power input/output means having three shafts, including the output shaft and the rotating shaft, respectively linking said engine and said drive shaft, said three shaft-type power input/output means inputting and outputting power to and from a residual one shaft, based on predetermined powers input to and output from any two shafts among said three shafts; storage battery means for supplying and receiving an electrical energy required for inputting and outputting power to and from said motor; and braking control means for controlling said engine and said motor, based on charging state of said storage battery means, in order to enable a braking force to be applied to said drive shaft, wherein said braking control means comprises means for enabling said motor to carry out a power operation, thereby applying a braking force to said drive shaft. 4. A power output apparatus in accordance with claim 1, wherein said braking control means comprises means for controlling said motor, in order to enable said motor to motor said engine. 5. A power output apparatus in accordance with claim 1, for outputting power to a drive shaft, said power output apparatus comprising: an engine having an output shaft; a motor having a rotating shaft and inputting and outputting power to and from said rotating shaft; three shaft-type power input/output means having three shafts, including the output shaft and the rotating shaft, respectively linking said engine and said drive shaft, said three shaft-type power input/output means inputting and outputting power to and from a residual one shaft, based on predetermined powers input to and output from any two shafts among said three shafts; storage battery means for supplying and receiving an electrical energy required for inputting and outputting power to and from said motor; and braking control means for controlling said engine and said motor, based on a charging state of said storage battery means, in order to enable a braking force to be applied to said drive shaft, wherein said braking control means comprises means for locking up said motor. 6. A power output apparatus in accordance with claim 1, said power output apparatus further comprising: a second motor for inputting and outputting power to and from said drive shaft, in addition to said motor working as a first motor, wherein said storage battery comprises means for supplying and receiving an electrical energy required for inputting and outputting power to and from said second motor, said braking control means comprising means for controlling said engine, said first motor, and said second motor, in order to enable a braking force to be applied to said drive shaft. 7. A power output apparatus in accordance with claim 6, said power output apparatus further comprising: charging state detection means for detecting the charging state of said storage battery means, wherein said braking control means comprises means for controlling said engine, said first motor, and said second motor based on the charging state of said storage battery means detected by said detection means, thereby applying a braking force to said drive shaft. 8. A power output apparatus in accordance with claim 7, wherein said braking control means comprises means for regulating the charging state of said storage battery means detected by said charging state detection means to be within a predetermined range. 9. A power output apparatus in accordance with claim 6, wherein said braking control means comprises means for controlling said second motor in order to enable said second motor to apply a braking force to said drive shaft, while controlling said first motor in order to make power input to and output from said motor equal to zero. 10. A power output apparatus in accordance with claim 6, wherein said braking control means comprises means for controlling said second motor in order to enable said second motor to apply a braking force to said drive shaft, while controlling said engine and said first motor in order to set a driving state of said engine to a predetermined operating condition. 11. A power output apparatus in accordance with claim 10, said power output apparatus further comprising: driving state detection means for detecting a driving state of said drive shaft; and braking-time driving state setting means for setting the redetermined predetermined operating condition based on the driving state of said drive shaft detected by said driving state detection means. 12. A power output apparatus in accordance with claim 10, wherein the driving state of said engine represents a revolving speed of said output shaft of said engine. 13. A power output apparatus in accordance with claim 6, wherein said braking control means comprises means for controlling said first motor, in order to enable said first motor to motor said engine. 14. A power output apparatus in accordance with claim 6, wherein said braking control means comprises means for controlling said first motor and said second motor, in order to enable an electrical energy represented by said second motor to be identical with an electrical energy consumed by said first motor. 15. A power output apparatus in accordance with claim 1, said power output apparatus further comprising: a second motor for inputting and outputting power to and from said output shaft of said engine, in addition to said motor working as a first motor, wherein said storage battery means comprises means for supplying and receiving an electrical energy required for inputting and outputting power to and from said second motor, said braking control means comprising means for controlling said engine, said first motor, and said second motor, in order to enable a braking force to be applied to said drive shaft. 16. A power output apparatus in accordance with claim 15, said power output apparatus further comprising: charging state detection means for detecting the charging state of said storage battery means, wherein said braking control means comprises means for controlling said engine, said first motor, and said second motor based on the charging state of said storage battery means detected by said charging state detection means. 17. A power output apparatus in accordance with claim 16, wherein said braking control means comprises means for regulating the charging state of said storage battery means detected by said charging state detection means to be within a predetermined range. 18. A power output apparatus in accordance with claim 15, wherein said braking control means comprises means for controlling said first motor in order to enable said first motor to motor said engine, while controlling said second motor in order to enable said second motor to apply a braking force to said output shaft of said engine. 19. A power output apparatus in accordance with claim 15, wherein said braking control means comprises means for controlling said first motor and said second motor, in order to enable an electrical energy regenerated by said second motor to be identical with an electrical energy consumed by said first motor. 20. A method of controlling a power output apparatus for outputting power to a drive shaft, said method comprising the steps of: (a) providing (1) engine having an output shaft; (2) a first motor having a rotating shaft and inputting and outputting power to and from said rotating shaft; (3) a second motor for inputting and outputting power to and from said drive shaft; and (4) three shaft-type power input/output means having three shafts, including the output shaft and the rotating shaft, respectively linking said engine and said drive shaft, said three shaft-type power input/output means inputting and outputting power to and from a residual one shaft, based on predetermined powers input to and output from any two shafts among said three shafts; (b) controlling said second motor, in order to enable said second motor to apply a braking force to said drive shaft; and (c) controlling said engine and said first motor, in order to set a driving state of said engine to a predetermined operating condition. 21. A method of controlling a power apparatus for outputting power to a drive shaft, said method comprising the steps of: (a) providing (1) an engine having an output shaft; (2) a first motor having a rotating shaft and inputting and outputting power to and from said rotating shaft; (3) a second motor for inputting and outputting power to and from said drive shaft; (4) three shaft-type power input/output means having three shafts respectively linking said engine and said drive shaft, said three shaft-type power input/output means inputting and outputting power to and from a residual one shaft, based on predetermined powers input to and output from any two shafts among said three shafts; and (5) storage battery means for supplying and receiving an electrical energy required for inputting and outputting power to and from said first motor, and supplying and receiving an electrical energy required for inputting and outputting power to and from said second motor; and (b) controlling said engine, said first motor, and said second motor, in order to apply a braking force to said drive shaft while keeping a charging state of said storage battery means within a predetermined range. 22. A power output apparatus for outputting power to a drive shaft, said power output apparatus comprising: an engine having an output shaft; a motor having a rotating shaft and inputting and outputting power to and from said rotating shaft; three shaft-type power input/output means having three shafts, including the output shaft and the rotating shaft, respectively linking said engine and said drive shaft, said three shaft-type power input/output means inputting and outputting power to and from a residual one shaft, based on predetermined powers input to and output from any two shafts among said three shafts; storage battery means for supplying and receiving an electrical energy required for inputting and outputting power to and from said motor; and braking control means for controlling said engine and said motor, based on a charging state of said storage battery, in order to enable a braking force to be applied to said drive shaft; a remaining charge detection means that detects the remaining charge of the storage battery means; and an engine driving means that drives said engine in a predetermined operating condition, which enables said motor to regenerate electric power, when the remaining charge of the battery is less than a predetermined threshold value. 23. A method of controlling a power output apparatus, for outputting power to a drive shaft, having an engine with an output shaft, a motor with a rotating shaft, and a three shaft-type power input/output means having three shafts, including the output shaft and the rotating shaft, respectively linking said engine and said drive shaft, the method comprising: inputting and outputting power to and from said rotating shaft; inputting and outputting power, via the three shaft- type power input/output means, to and from a residual one shaft, based on predetermined powers input to and output from any two shafts among said three shafts; supplying and receiving an electrical energy, from a storage battery means, required for inputting and outputting power to and from said motor; controlling, using a braking controlling means, said engine and said motor based on a charging state of said storage battery means, in order to enable a braking force to be applied to said drive shaft; and enabling said motor to carry out a power operation, thereby applying a braking force to said drive shaft by means of said braking control means.
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이 특허에 인용된 특허 (14)
Hara Takeshi,JPX ; Tsuzuki Shigeo,JPX ; Tanaka Satoru,JPX ; Watanabe Manabu,JPX ; Omote Kenji,JPX, Control system for vehicular drive unit.
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