Claims
- 1. A control system for automatically controlling a work implement of an earthmoving machine having wheels, said work implement including a bucket, to capture, lift and dump material, said bucket being controllably actuated by a hydraulic tilt cylinder and at least one hydraulic lift cylinder, said system comprising:a torque indicating mechanism that provides a representative value for an amount of torque applied to said wheels of said earthmoving machine; an electronic controller for receiving said representative torque value from said torque indicating mechanism and determining if said representative value of torque received from said torque indicating mechanism exceeds a first predetermined value and then responsively generating a first command signal; and a hydraulic implement controller for controlling hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence activated in response to said first command signal with said hydraulic tilt cylinder controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 2. The control system, as defined in claim 1, wherein said predetermined sequence includes a rack and hold sequence in order to remove material with said bucket.
- 3. A control system for automatically controlling a work implement of an earthmoving machine having a drivetrain and wheels, said work implement including a bucket, to capture, lift and dump material, said bucket being controllably actuated by a hydraulic tilt cylinder and at least one hydraulic lift cylinder, said system comprising:a torque indicating mechanism that provides a representative value for an amount of torque applied to said wheels of said earthmoving machine; a force indicating mechanism that generates a representative value for an amount of force applied to said at least one hydraulic lift cylinder; and an electronic controller for receiving said representative torque value from said torque indicating mechanism and said representative force value from said force indicating mechanism and then determining if said representative value of torque received from said torque indicating mechanism is below a first predetermined value and then determining if said representative value of force applied to said lift cylinder exceeds a predetermined value and then directing substantially all power of said earthmoving machine to said drivetrain of said earthmoving machine.
- 4. The control system, as defined in claim 3, wherein said bucket of said earthmoving machine performs a crowding process on said material.
- 5. The control system, as defined in claim 1, wherein said electronic controller determines if said representative value of torque received from said torque indicating mechanism is less than a second predetermined value and then responsively generating a second command signal so that said hydraulic implement controller discontinues said predetermined sequence of controlling hydraulic fluid flow to said hydraulic tilt cylinder in response to said second command signal.
- 6. The control system, as defined in claim 5, wherein substantially all power of said earthmoving machine will be directed to said drivetrain of said earthmoving machine so that said bucket of said earthmoving machine performs a crowding process in order to engage said material.
- 7. The control system, as defined in claim 6, wherein said electronic controller determines if said representative value of torque received from said torque indicating mechanism exceeds a third predetermined value and then responsively generates a third command signal so that said hydraulic implement controller controls hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence activated in response to said third command signal controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 8. The control system, as defined in claim 7, wherein said electronic controller determines if said value of representative torque received from said torque indicating mechanism does not exceed said third predetermined value then directing substantially all power of said earthmoving machine to said drivetrain of said earthmoving machine so that said bucket of said earthmoving machine performs a crowding process in order to engage said material.
- 9. The control system, as defined in claim 7, wherein said electronic controller determines if said representative value of torque received from said torque indicating mechanism does not exceed said third predetermined value and said electronic controller determines if a representative force value of said at least one hydraulic lift cylinder, received from a force indicating mechanism, does not exceed a predetermined percentage of force for a primary hydraulic relief valve then directing substantially all power for said earthmoving machine to said drivetrain of said earthmoving machine so that said bucket of said earthmoving machine performs a crowding process in order to engage said material.
- 10. The control system, as defined in claim 7, wherein said electronic controller determines if said representative value received from said torque indicating mechanism does not exceed said third predetermined value and said electronic controller determines if a representative force value of said at least one hydraulic lift cylinder, received from a force indicating mechanism, exceeds a predetermined percentage of force for a primary hydraulic relief valve then said hydraulic implement controller will control hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 11. The control system, as defined in claim 7, wherein said electronic controller determines if said representative value of torque received from said torque indicating mechanism does not exceed said third predetermined value and said electronic controller determines if a rate of change in force of said at least one hydraulic lift cylinder does not drop below a predetermined limit value then directing substantially all power of said earthmoving machine to said drivetrain of said earthmoving machine so that said bucket of said earthmoving machine performs a crowding process in order to engage said material.
- 12. The control system, as defined in claim 7, wherein said electronic controller determines if said representative value of torque received from said torque indicating mechanism does not exceed said third predetermined value and said electronic controller determines if a rate of change in force of said at least one hydraulic lift cylinder exceeds a predetermined limit value then said hydraulic implement controller will control hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 13. The control system, as defined in claim 12, wherein said predetermined limit value is determined by the equation dN=[f(n−3)-f(n)].
- 14. The control system, as defined in claim 7, wherein said electronic controller determines if said representative value of torque received from said torque indicating mechanism does not exceed said third predetermined value and said electronic controller determines if a rate of change in force of said at least one hydraulic lift cylinder does not drop below a predetermined threshold value then directing substantially all power of said earthmoving machine to said drivetrain of said earthmoving machine so that said bucket of said earthmoving machine performs a crowding process in order to engage said material.
- 15. The control system, as defined in claim 7, wherein said electronic controller determines if said representative value of torque received from said torque indicating mechanism does not exceed said second predetermined value and said electronic controller determines if a rate of change in force of said at least one hydraulic lift cylinder exceeds a predetermined threshold value then said hydraulic implement controller will control hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 16. A method for controlling a work implement of an earthmoving machine having wheels, said work implement including a bucket, to capture, lift and dump material, said bucket being controllably actuated by a hydraulic tilt cylinder and at least one hydraulic lift cylinder, said method comprising the steps of:providing a representative value of torque applied to said wheels of said earthmoving machine with a torque indicating mechanism; receiving said representative torque signal from said torque indicating mechanism and determining if said representative value of torque received from said torque indicating mechanism exceeds a first predetermined value and then responsively generating a first command signal with an electronic controller; and controlling hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence activated in response to said first command signal with said hydraulic tilt cylinder, with a hydraulic implement controller, thereby controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 17. A method for automatically controlling a work implement of an earthmoving machine having a drivetrain and wheels, said work implement including a bucket, to capture, lift and dump material, said bucket being controllably actuated by a hydraulic tilt cylinder and at least one hydraulic lift cylinder, said method comprising the steps of:providing a representative value of torque applied to said wheels of said earthmoving machine with a torque indicating mechanism; and receiving said representative torque signal from said torque indicating mechanism and then determining if said representative value of torque received from said torque indicating mechanism is below a first predetermined value and then determining if a representative value of force applied to said lift cylinder exceeds a predetermined value, with an electronic controller, then directing substantially all power of said earthmoving machine to said drivetrain of said earthmoving machine.
- 18. The method, as defined in claim 16, further including the step of:determining if said representative value of torque received from said torque indicating mechanism is less than a second predetermined value and then responsively generating a second command signal, with said electronic controller, so that said hydraulic implement controller discontinues said predetermined sequence of controlling hydraulic fluid flow to said hydraulic tilt cylinder in response to said second command signal.
- 19. The method, as defined in claim 18, further including the step of:directing substantially all power to said drivetrain of said earthmoving machine so that said bucket of said earthmoving machine performs a crowding process in order to engage said material.
- 20. The method, as defined in claim 19, further including the step of:determining if said representative value of torque received from said torque indicating mechanism exceeds a third predetermined value and then responsively generates a third command signal, with said electronic controller, so that said hydraulic implement controller controls hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence activated in response to said third command signal; and controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 21. The method, as defined in claim 20, further including the step of:determining if said representative value of torque received from said torque indicating mechanism exceeds a third predetermined value and then responsively generates a third command signal, with said electronic controller, so that said hydraulic implement controller controls hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence activated in response to said third command signal; and controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 22. The method, as defined in claim 20, further including the step of:determining if said representative value of torque received from said torque indicating mechanism does not exceed said third predetermined value and determining if a rate in change in force of said at least one hydraulic lift cylinder exceeds a predetermined limit value, with said electronic controller, then said hydraulic implement controller will control hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence; and controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
- 23. The method, as defined in claim 20, further including the step of:determining if said value of torque received from said torque indicating mechanism does not exceed said second predetermined value and said electronic controller determines if a rate in change in force of said at least one hydraulic lift cylinder exceeds a predetermined threshold value, by said electronic controller, then said hydraulic implement controller will control hydraulic fluid flow to said hydraulic tilt cylinder in a predetermined sequence controllably actuating said bucket of the earthmoving machine in order to remove material from a pile.
Parent Case Info
This application claims the benefit of prior provisional patent application Serial No. 60/170,802 filed Dec. 15, 1999.
US Referenced Citations (4)
Provisional Applications (1)
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Number |
Date |
Country |
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60/170802 |
Dec 1999 |
US |