Kinetic energy system and method for hybrid machine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60K-006/30
B60K-006/28
B60K-006/22
출원번호
US-0408391
(2012-02-29)
등록번호
US-8718889
(2014-05-06)
발명자
/ 주소
Jensen, Jeffrey Edward
출원인 / 주소
Caterpillar Inc.
대리인 / 주소
Miller, Matthias & Hull
인용정보
피인용 횟수 :
3인용 특허 :
13
초록▼
A kinetic energy system incorporates multiple flywheels, each flywheel situated and adapted to develop and store kinetic energy, and to subsequently impart that energy to move a work machine. Each flywheel is controlled by an ECM to operate in a selective sequence with respect to any of the other fl
A kinetic energy system incorporates multiple flywheels, each flywheel situated and adapted to develop and store kinetic energy, and to subsequently impart that energy to move a work machine. Each flywheel is controlled by an ECM to operate in a selective sequence with respect to any of the other flywheels. Each flywheel has its own individual external gear and clutch unit adapted to be in communication with a commonly shared continuously variable transmission. The plurality of flywheels may be operated sequentially to develop, store, and dispense kinetic energy equivalently to that of a substantially larger unitary flywheel. In the disclosed embodiment and method of operation, the flywheel system may be employed with a traditional internal combustion engine to produce a hybrid motive source, with capability for effectively meeting transient load demands of an off-road work machine.
대표청구항▼
1. A kinetic energy system, comprising: a power source,multiple flywheels, each flywheel having a drive gear and clutch unit;a transmission selectively driven by the power source, and selectively and operatively connected to each flywheel to drive or be driven by each flywheel; anda controller commu
1. A kinetic energy system, comprising: a power source,multiple flywheels, each flywheel having a drive gear and clutch unit;a transmission selectively driven by the power source, and selectively and operatively connected to each flywheel to drive or be driven by each flywheel; anda controller communicatively connected to the transmission and each flywheel, and configured to generate signals to selectively connect the power source to the transmission to drive the transmission, and generate signals to selectively and sequentially connect the transmission to each of the flywheels. 2. The kinetic energy system of claim 1, wherein the controller is configured to store kinetic energy from drivetrain energy during downhill descents of the work machine, and to subsequently dispense the drivetrain energy directly into an internal combustion engine of the work machine. 3. The kinetic energy system of claim 1, further comprising a power take-off operatively connected to the transmission to be selectively driven by the transmission. 4. The kinetic energy system of claim 1, wherein the clutch unit of each flywheel comprises a clutch pack interposed between that flywheel and its associated flywheel drive gear. 5. The kinetic energy system of claim 4, wherein the clutch pack and associated drive gear of each flywheel are physically interposed between the transmission and the flywheel. 6. The kinetic energy system of claim 1, wherein the transmission is a continuously variable transmission, and wherein the flywheels are supported circumferentially with respect to one another on a common support member about the continuously variable transmission. 7. The kinetic energy system of claim 6, wherein the support member is ring-shaped. 8. The kinetic energy system of claim 1, wherein each flywheel is situated in an individual vacuum housing. 9. The kinetic energy system of claim 1, wherein each flywheel is situated in a single shared vacuum housing. 10. A kinetic energy system for a hybrid work machine, comprising: a power source;a flywheel system comprising multiple flywheels, each having a drive gear and clutch unit;a transmission selectively driven by the power source, and selectively and operatively connected to each flywheel to drive or be driven by each flywheel; anda controller communicatively connected to the transmission and each flywheel, and configured to generate signals to selectively connect the power source to the transmission to drive the transmission, and generate signals to selectively and sequentially connect the transmission to each of the flywheels. 11. The kinetic energy system of claim 10, wherein the controller is configured to store mechanical energy from drivetrain energy during downhill descents of the work machine, and to subsequently dispense the drivetrain energy directly to an internal combustion engine of the work machine. 12. The kinetic energy system of claim 10, further comprising a power take-off operatively connected to the transmission to be selectively driven by the transmission. 13. The kinetic energy system of claim 10, wherein the clutch unit of each flywheel comprises a clutch pack interposed between that flywheel and its associated flywheel drive gear. 14. The kinetic energy system of claim 13, wherein the clutch pack and associated drive gear of each flywheel are physically interposed between the transmission and the flywheel. 15. The kinetic energy system of claim 10, wherein the transmission is a continuously variable transmission, and wherein the flywheels are supported circumferentially with respect to one another on a common support member about the continuously variable transmission. 16. The kinetic energy system of claim 15, wherein the support member is ring-shaped. 17. The kinetic energy system of claim 10, wherein each flywheel is situated in an individual vacuum housing. 18. The kinetic energy system of claim 10, wherein each flywheel is situated in a single shared vacuum housing. 19. A method of using a kinetic energy system, comprising the steps of: providing multiple flywheels in a work machine, with each flywheel having a drive gear;providing a CVT with a gear in engagement with each of the flywheel drive gears;providing a system of individual flywheel clutch packs, each clutch pack situated between a flywheel gear and associated flywheel to engage and control rotation of that one flywheel;providing an ECM to monitor and control the CVT to simultaneously and individually control each flywheel clutch pack so as to enable the CVT to sequentially engage each clutch pack to develop kinetic energy sequentially in each flywheel; andthe ECM subsequently controlling the CVT and each flywheel clutch pack to transfer kinetic energy sequentially from each flywheel to provide motive power to the work machine during transient periods of power demand. 20. A method of recovering stored kinetic energy in a machine having work functions, comprising: selectively driving a transmission with a first flywheel;selectively driving the transmission with a second flywheel;selectively driving the output of a power source with the transmission to augment the power source and increase power available for the work functions. 21. A method of storing kinetic energy in a machine having work functions, comprising: selectively driving a transmission with a power source when the power source produces greater power than needed for the work functions;selectively driving a first flywheel with the transmission; andselectively driving a second flywheel with the transmission. 22. The method of claim 19, further comprising the steps of: providing a vacuum housing about each flywheel;providing a vacuum pump and vacuum lines between the vacuum housings and the pump to support and maintain a vacuum within each of the housings.
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이 특허에 인용된 특허 (13)
Curtis,Brent Edward, Big wheel motive power source.
Dorsett, William A.; Dillinger, James B.; Lyten, Michael John; Barr, Marcus N.; Neilson, Bradley Maxwell; Owings, Don F., Mining machine and energy storage system for same.
Dorsett, William A.; Dillinger, James B.; Lyten, Michael John; Barr, Marcus N.; Neilson, Bradley Maxwell; Owings, Don F., Systems, methods, and apparatuses for storing energy in a mining machine.
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