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A machine employing controllable mounts and a method for controlling such mounts based on machine operation are disclosed. The controllable mount may include a housing, a pin, rheological fluid within the housing and coils provided proximate to the rheological fluid. As current is applied to the coi

A machine employing controllable mounts and a method for controlling such mounts based on machine operation are disclosed. The controllable mount may include a housing, a pin, rheological fluid within the housing and coils provided proximate to the rheological fluid. As current is applied to the coils, the apparent viscosity of the rheological fluid is increased, and in so doing so are the damping and stiffness properties of the controllable mount. With other operations such as roading or working on a flat surface, the feedback afforded by the mounts is not as important as operator comfort, in which case the current applied to the coils can be lowered and thus the mount can be made more relaxed. The machine of the present disclosure identifies the machine operation being performed through sensors, predictive algorithms, implement position, and operator input and sets the current and properties of the controllable mounts accordingly.

대표청구항 ▼

1. A machine, comprising: a frame;an operator cab supported by the frame;at least one movable implement operatively associated with the frame;a controllable mount operatively connecting the operator cab to the frame, the controllable mount including: a housing having a first chamber filled with a rh

1. A machine, comprising: a frame;an operator cab supported by the frame;at least one movable implement operatively associated with the frame;a controllable mount operatively connecting the operator cab to the frame, the controllable mount including: a housing having a first chamber filled with a rheological fluid, the first chamber separated into an upper portion and a lower portion by a damping plate fixedly attached to a pin, and a second chamber filled with a pressurized gas, the second chamber separated from the lower portion of the first chamber by a plunger fixedly attached to the pin;the pin coupled to the operator cab and mounted within the housing; andcoils positioned relative to the housing to generate a field through the rheological fluid; andan electronic control unit operatively associated with the coils and adapted to change a level of current applied to the coils to adjust an apparent viscosity of the rheological fluid based on machine operation. 2. The machine of claim 1, wherein the operator cab includes an operator interface through which an operator can input a type of machine operation. 3. The machine of claim 2, wherein the type of machine operation is selected from the group of machine operations consisting of at least two of loading, ripping, grading, plowing, dumping, and roading. 4. The machine of claim 1, wherein the machine further includes a sensor adapted to detect movement of the implement, the electronic control unit being adapted to detect a type of machine operation based on a signal received from the sensor. 5. The machine of claim 1, wherein the electronic control unit employs a predictive algorithm and predicts the machine operation based on sensed machine parameters. 6. The machine of claim 5, wherein the sensed machine parameters are selected from the group of machine parameters consisting of hydraulic pressure, incline, decline, determined pitch rate, steering signals and articulation joint position. 7. The machine of claim 1, wherein the electronic control unit increases current flow to the coils when the machine operation is fine grading. 8. The machine of claim 1, wherein the electronic control unit decreases current flow to the coils when the machine operation is roading. 9. The machine of claim 1, wherein the electronic control unit decreases current flow when the machine operation is excavating. 10. The machine of claim 1, wherein the electronic control unit increases current flow when the machine operation is loading. 11. The machine of claim 1, wherein the electronic control unit further senses a gear in which a transmission of the machine is operating, and decreases current flow to the coils as the gear increases. 12. The machine of claim 1, wherein the electronic control unit further senses a speed of the machine and decreases current flow to the coils as the speed increases. 13. The machine of claim 1, wherein the electronic control unit further senses a speed with which the implement is moved, and increases current flow to the coils as the implement speed decreases. 14. The machine of claim 1, wherein the rheological fluid is one of a magneto-rheological fluid and an electro-rheological fluid. 15. A method of controlling a cab mount, comprising: connecting a cab to a frame of a machine using the cab mount, the machine including at least one movable implement, the cab mount having: a pin; anda housing having a first chamber filled with a rheological fluid, the first chamber separated into an upper portion and a lower portion by a damping plate fixedly attached to the pin, and a second chamber filled with a pressurized gas, the second chamber separated from the lower portion of the first chamber by a plunger fixedly attached to the pin, the housing and the pin coupled to the cab and movable relative to the housing;sensing a type of operation being performed by the machine; andadjusting current flow to coils positioned relative to the housing based on the sensed operation. 16. The method of claim 15, wherein the type of operation is sensed based on a relative position of the implement attached to the machine. 17. The method of claim 15, wherein the type of operation is sensed based on a combination of sensed machine parameters, and the method further employing a predictive algorithm to determine the type of operation based on the combination of sensed machine parameters. 18. The method of claim 17, wherein the sensed machine parameters are selected from the group of sensed machine parameters consisting of hydraulic pressure, incline, decline, determined pitch rate, steering signals and articulation joint position. 19. The method of claim 15, wherein the type of operation is sensed based on a combination of sensed machine parameters, and the method further employs a plurality of stacked algorithms used in sequence to determine the current flow to the coils. 20. A control system for controlling a mount operatively connecting an operator cab to a machine having at least one movable implement, comprising: a controllable mount including a housing, a pin coupled to the operator cab and movable within the housing, the housing having a first chamber filled with a rheological fluid, the first chamber separated into an upper portion and a lower portion by a damping plate fixedly attached to the pin, and a second chamber filled with a pressurized gas, the second chamber separated from the lower portion of the first chamber by a plunger fixedly attached to the pin and coils mounted proximate to the rheological fluid;a sensor adapted to monitor parameters associated with the machine; andan electronic control unit adapted to determine a type of operation being performed by the machine based on the sensed parameters of the machine and adjust a level of current applied to the coils based on the determined type of operation.