Efficiency based integrated power train control system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-061/662
B60W-010/04
F16H-061/40
G06F-007/00
출원번호
UP-0600745
(2006-11-17)
등록번호
US-7678015
(2010-04-21)
발명자
/ 주소
Funke, Steven J.
Bloms, Jason K.
Crowell, Thomas J.
Leman, Scott A.
Weber, James R.
Skorupski, Jeff
Genise, Tom
Nellums, Rich
Smedley, Daniel G.
Speranza, Donald
출원인 / 주소
Caterpillar Inc.
Eaton Corporation
대리인 / 주소
K&L Gates LLP
인용정보
피인용 횟수 :
3인용 특허 :
16
초록▼
A power train control system for a mobile machine is disclosed. The power train control system has a power source configured to produce a power output, a transmission device operatively connected to receive the power output and propel the mobile machine, and a control module. The control module is c
A power train control system for a mobile machine is disclosed. The power train control system has a power source configured to produce a power output, a transmission device operatively connected to receive the power output and propel the mobile machine, and a control module. The control module is configured to receive an indication of a power demand, receive an indication of a current travel speed of the mobile machine, and reference the power demand and the current travel speed with a power train efficiency map to determine a desired power source speed. The power train control system is also configured to control operation of the transmission device to bring a speed of the power source within a predetermined amount of the desired power source speed.
대표청구항▼
What is claimed is: 1. A power train control system for a mobile machine, comprising: a power source configured to produce a power output; a transmission device operatively connected to receive the power output and propel the mobile machine; wherein the transmission device comprises a fixed ratio t
What is claimed is: 1. A power train control system for a mobile machine, comprising: a power source configured to produce a power output; a transmission device operatively connected to receive the power output and propel the mobile machine; wherein the transmission device comprises a fixed ratio transmission unit comprising a plurality of available fixed output ratios; and a control module configured to: receive an indication of a power demand; receive an indication of a current travel speed of the mobile machine; reference the power demand and the current travel speed with a power train efficiency map to determine a first desired power source speed; and control operation of the transmission device to bring a speed of the power source within a predetermined amount of the first desired power source speed; wherein the control module comprises a plurality of power train efficiency maps, each of the plurality of power train efficiency maps corresponding with one of the plurality of available fixed output ratios, and wherein the first desired power source speed is associated with a current fixed output ratio, and wherein the control module is configured to: determine a second desired power source speed associated with an upper bounding fixed output ratio, and a third desired power source speed associated with a lower bounding fixed output ratio; compare a power train efficiency value corresponding to the first desired power source speed with a power train efficiency value corresponding to the second desired power source speed and a power train efficiency value corresponding to the third desired power source speed; and shift the fixed ratio transmission unit to the one of the fixed output ratios having the corresponding highest power train efficiency. 2. The power train control system of claim 1, wherein the transmission device comprises a continuously variable transmission. 3. The power train control system of claim 1, wherein the control module is configured to shift the fixed ratio transmission unit to the one of the fixed output ratios only if the corresponding power train efficiency value is greater than the remaining power train efficiency values by a threshold amount. 4. The power train control system of claim 1, comprising an operator input device configured to generate the indication of a power demand. 5. The power train control system of claim 1, wherein the power train efficiency map comprises a compilation of efficiency data from both the power source and the transmission device. 6. The power train control system of claim 3, wherein the threshold amount is about 5%. 7. A power train control system for a mobile machine, comprising: a power source configured to produce a power output; a transmission device operatively connected to receive the power output and propel the mobile machine, wherein the transmission device comprises a fixed ratio transmission unit comprising a plurality of available fixed output ratios; and a control module configured to: receive an indication of a power demand; receive an indication of a current travel speed of the mobile machine; reference the power demand and the current travel speed with a power train efficiency map to determine a first desired power source speed; and control operation of the transmission device to bring a speed of the power source within a predetermined amount of the first desired power source speed; wherein the control module comprises a plurality of power train efficiency maps, each of the plurality of power train efficiency maps corresponding with one of the plurality of available fixed output ratios, and wherein the first desired power source speed is associated with a current fixed output ratio, and wherein the control module is configured to: determine at least a second desired power source speed associated with at least one of an upper bounding fixed output ratio and a lower bounding fixed output ratio; compare a power train efficiency value corresponding to the first desired power source speed with a power train efficiency value corresponding to the at least second desired power source speed; and shift the fixed ratio transmission unit to the fixed output ratio having the corresponding highest power train efficiency when the corresponding power train efficiency value is greater than the remaining power train efficiency value by a threshold amount. 8. The power train control system of claim 7, wherein the transmission device comprises a continuously variable transmission. 9. The power train control system of claim 7, wherein the threshold amount is about 5%. 10. The power train control system of claim 7, comprising an operator input device configured to generate the indication of a power demand. 11. The power train control system of claim 7, wherein the power train efficiency map comprises a compilation of efficiency data from both the power source and the transmission device. 12. A mobile machine, comprising: a power train control system, comprising: a power source configured to produce a power output; a transmission device operatively connected to receive the power output and propel the mobile machine, wherein the transmission device comprises a fixed ratio transmission unit comprising a plurality of available fixed output ratios; and a control module configured to: receive an indication of a power demand; receive an indication of a current travel speed of the mobile machine; reference the power demand and the current travel speed with a power train efficiency map to determine a first desired power source speed; and control operation of the transmission device to bring a speed of the power source within a predetermined amount of the first desired power source speed; wherein the control module comprises a plurality of power train efficiency maps, each of the plurality of power train efficiency maps corresponding with one of the plurality of available fixed output ratios, and wherein the first desired power source speed is associated with a current fixed output ratio, and wherein the control module is configured to: determine a second desired power source speed associated with an upper bounding fixed output ratio, and a third desired power source speed associated with a lower bounding fixed output ratio; compare a power train efficiency value corresponding to the first desired power source speed with a power train efficiency value corresponding to the second desired power source speed and a power train efficiency value corresponding to the third desired power source speed; and shift the fixed ratio transmission unit to the one of the fixed output ratios having the corresponding highest power train efficiency. 13. The mobile machine of claim 12, wherein the transmission device comprises a continuously variable transmission. 14. The mobile machine of claim 12, wherein the control module is configured to shift the fixed ratio transmission unit to the one of the fixed output ratios when the corresponding power train efficiency value is greater than the remaining power train efficiency values by a threshold amount. 15. The mobile machine of claim 14, wherein the threshold amount is about 5%. 16. The mobile machine of claim 12, comprising an operator input device configured to generate the indication of a power demand. 17. The mobile machine of claim 12, wherein the power train efficiency map comprises a compilation of efficiency data from both the power source and the transmission device.
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이 특허에 인용된 특허 (16)
Sakakibara Shiro (Anjo JPX) Kume Akihiro (Aichi JPX), Apparatus for controlling a continuously variable transmission.
Morisawa Kunio (Toyota JPX) Kakamu Michitaka (Toyota JPX) Kato Nobuyuki (Toyota JPX), Method and apparatus for controlling power transmitting system for automotive vehicle, including continuously variable t.
Streib Martin (Vaihingen/Enz DEX) Leonhard Rolf (Schwieberdingen DEX), Torque-setting system for vehicle with continuously variable transmission (CVT).
Roell M. van Druten NL; Marc A. Mussaeus NL; Bas G. Vroemen NL; Alexander F. A. Serrarens NL; Pieter A. Veenhuizen NL, Transmission system, especially for a motor vehicle.
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