IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0901349
(2004-07-29)
|
등록번호 |
US-7337054
(2008-02-26)
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발명자
/ 주소 |
- Pandey,Saurabh
- Caruthers,Michael A.
- Skiba,Richard J.
|
출원인 / 주소 |
|
대리인 / 주소 |
Finnegan, Henderson, Farabow, Garrett & Dunner
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
12 |
초록
▼
A system is provided for controlling slip of a ground-engaging traction device of a work machine. The system includes an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine. The system also includes a ground condition sele
A system is provided for controlling slip of a ground-engaging traction device of a work machine. The system includes an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine. The system also includes a ground condition selector operable to transmit a ground condition signal corresponding to a selected ground condition. A desired slip calculator is operable to transmit a desired slip signal based on the ground condition signal. A slip controller is coupled with the actual slip calculator and the desired slip calculator. The slip controller is operable to transmit a slip control signal based on the actual slip signal and the desired slip signal. The slip control signal controls the actual slip experienced by the work machine to achieve the desired slip.
대표청구항
▼
What is claimed is: 1. A system for controlling slip of a ground-engaging traction device of a work machine, comprising: an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine; a ground condition selector operable to tran
What is claimed is: 1. A system for controlling slip of a ground-engaging traction device of a work machine, comprising: an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine; a ground condition selector operable to transmit a ground condition signal corresponding to a selected ground condition; a desired slip calculator operable to transmit a desired slip signal based on the ground condition signal; and a slip controller coupled with the actual slip calculator and the desired slip calculator, the slip controller operable to transmit a slip control signal based on the actual slip signal and the desired slip signal, wherein the slip control signal controls the actual slip experienced by the work machine to achieve the desired slip. 2. The system of claim 1, wherein the desired slip calculator includes data that define a relationship between slip and ground condition for a particular work machine configuration. 3. The system of claim 1, further including a tractive efficiency selector operable to transmit a tractive efficiency signal corresponding to a selected tractive efficiency, and wherein the desired slip calculator is further operable to transmit the desired slip signal based on the tractive efficiency signal. 4. The system of claim 3, wherein the desired slip calculator includes data that define a relationship between slip and tractive efficiency for a particular work machine configuration. 5. The system of claim 1, wherein the slip control signal includes a slip-controlled torque signal operable to control a torque of a propulsion system of the work machine. 6. The system of claim 5, further including a torque manager operable to transmit a propulsion system torque signal based on the slip-controlled torque signal, the propulsion system torque signal operable to control a torque of the propulsion system. 7. A system for controlling slip of a ground-engaging traction device of a work machine, comprising: an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine; a tractive efficiency selector operable to transmit a tractive efficiency signal corresponding to a selected tractive efficiency; a desired slip calculator operable to transmit a desired slip signal based on the tractive efficiency signal; and a slip controller coupled with the actual slip calculator and the desired slip calculator, the slip controller operable to transmit a slip control signal based on the actual slip signal and the desired slip signal, wherein the slip control signal controls the actual slip experienced by the work machine to achieve the desired slip. 8. The system of claim 7, wherein the desired slip calculator includes data that define a relationship between slip and tractive efficiency for a particular work machine configuration. 9. The system of claim 7, wherein the slip control signal includes a slip-controlled torque signal to control a torque of a propulsion system of the work machine. 10. The system of claim 9, further including a torque manager operable to transmit a propulsion system torque signal based on the slip-controlled torque signal, the propulsion system torque signal controlling a torque of the propulsion system. 11. A method for controlling slip of a ground-engaging traction device of a work machine, comprising: determining an actual slip experienced by the work machine; receiving a ground condition signal corresponding to a selected ground condition; determining a desired slip based on the ground condition signal; and controlling the actual slip experienced by the work machine to achieve the desired slip. 12. The method of claim 11, wherein determining a desired slip includes defining a relationship between slip and ground condition for a particular work machine configuration. 13. The method claim 11, further including receiving a tractive efficiency signal corresponding to a selected tractive efficiency, and wherein determining a desired slip further includes determining the desired slip based on the tractive efficiency signal. 14. The method of claim 13, wherein determining a desired slip based on the tractive efficiency signal includes defining a relationship between slip and tractive efficiency for a particular work machine configuration. 15. The method of claim 11, wherein controlling an actual slip experienced by the work machine includes controlling a torque of a propulsion system of the work machine. 16. A method for controlling slip of a ground-engaging traction device of a work machine, comprising: determining an actual slip experienced by the work machine; receiving a tractive efficiency signal corresponding to a selected tractive efficiency; determining a desired slip based on the tractive efficiency signal; and controlling the actual slip experienced by the work machine to achieve the desired slip. 17. The method of claim 16, wherein determining a desired slip includes defining a relationship between slip and tractive efficiency for a particular work machine configuration. 18. The method of claim 16, wherein controlling an actual slip experienced by the work machine includes controlling a torque of a propulsion system of the work machine. 19. A work machine, comprising: a propulsion system; an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine; a ground condition selector operable to transmit a ground condition signal corresponding to a selected ground condition; a desired slip calculator operable to transmit a desired slip signal based on the ground condition signal; and a slip controller coupled with the actual slip calculator and the desired slip calculator, the slip controller operable to transmit a slip control signal based on the actual slip signal and the desired slip signal, wherein a power output of the propulsion system is varied based on the slip control signal to control the actual slip experienced by the work machine to achieve the desired slip. 20. The work machine of claim 19, wherein the desired slip calculator includes data that define a relationship between slip and ground condition for a particular work machine configuration. 21. The work machine of claim 19, further including a tractive efficiency selector operable to transmit a tractive efficiency signal corresponding to a selected tractive efficiency, and wherein the desired slip calculator is further operable to transmit the desired slip signal based on the tractive efficiency signal. 22. The work machine of claim 21, wherein the desired slip calculator includes data that define a relationship between slip and tractive efficiency for a particular work machine configuration. 23. The work machine of claim 19, wherein the slip control signal includes a slip-controlled torque signal to control a torque of the propulsion system. 24. The work machine of claim 23, further including a torque manager operable to transmit a propulsion system torque signal based on the slip-controlled torque signal, the propulsion system torque signal controlling a torque of the propulsion system. 25. A work machine, comprising: a propulsion system; an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine; a tractive efficiency selector operable to transmit a tractive efficiency signal corresponding to a tractive efficiency selected by an operator of the work machine; a desired slip calculator operable to transmit a desired slip signal based on the tractive efficiency signal; and a slip controller coupled with the actual slip calculator and the desired slip calculator, the slip controller operable to transmit a slip control signal based on the actual slip signal and the desired slip signal, wherein a power output of the propulsion system is varied based on the slip control signal to control the actual slip experienced by the work machine to achieve the desired slip. 26. The work machine of claim 25, wherein the desired slip calculator includes data that define a relationship between slip and tractive efficiency for a particular work machine configuration. 27. The work machine of claim 25, wherein the slip control signal includes a slip-controlled torque signal to control a torque of a propulsion system of the work machine. 28. The work machine of claim 27, further including a torque manager operable to transmit a propulsion system torque signal based on the slip-controlled torque signal, the propulsion system torque signal controlling a torque of the propulsion system. 29. A work machine, comprising: an electric drive propulsion system; an actual slip calculator operable to transmit an actual slip signal corresponding to an actual slip experienced by the work machine; a desired slip calculator operable to transmit a desired slip signal based on at least one operational input parameter; and a slip controller coupled with the actual slip calculator and the desired slip calculator, the slip controller operable to transmit a slip control signal based on the actual slip signal and the desired slip signal, wherein a torque output of the electric drive propulsion system is varied based on the slip control signal to control the actual slip experienced by the work machine to achieve the desired slip. 30. The work machine of claim 29, wherein the operational input parameter includes at least one of a ground condition signal corresponding to a selected ground condition and a tractive efficiency signal corresponding to a selected tractive efficiency.
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