Harvester speed control with header position input
First Claim
1. A harvester having a frame supported on the surface of the ground by wheel structure for forward movement through a field of standing crop, the harvester including crop processing structure and a header for directing the crop to the processing structure, a header control system for adjusting the header vertically, wherein rate of material flow to the processing structure from the header is dependent on header vertical adjustment and forward speed, a harvesting control comprising:
- a harvester speed control for controlling forward speed of the harvester through the field, transducer structure for providing a header position signal;
a throughput transducer located in the processing structure for providing a throughput signal; and
wherein the harvester speed control is responsive to a header position signal to immediately decrease the forward speed of the harvester prior to the throughput signal changing as a result of header position change when the header position signal indicates a lowering of the header, thereby reducing sudden increases in the rate of material flow to the processing structure resulting from changes in the vertical adjustment of the header.
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Accused Products
Abstract
A system for harvester speed control includes a header position sensor connected to a processor. If the header is lowered during crop cutting, harvester speed is immediately decreased to prevent a sudden increase in material downstream of the feeder house input. The percentage speed reduction preferably is approximately equal to the estimated percentage increase in material for the given height change as set manually by the operator, calculated during a brief calibration process, or derived utilizing an adaptive learning technique. Signals from a throughput transducer and from harvesting quality transducers such as grain loss transducers are communicated to the processor to determine desired harvester speed.
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Citations
18 Claims
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1. A harvester having a frame supported on the surface of the ground by wheel structure for forward movement through a field of standing crop, the harvester including crop processing structure and a header for directing the crop to the processing structure, a header control system for adjusting the header vertically, wherein rate of material flow to the processing structure from the header is dependent on header vertical adjustment and forward speed, a harvesting control comprising:
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a harvester speed control for controlling forward speed of the harvester through the field, transducer structure for providing a header position signal;
a throughput transducer located in the processing structure for providing a throughput signal; and
wherein the harvester speed control is responsive to a header position signal to immediately decrease the forward speed of the harvester prior to the throughput signal changing as a result of header position change when the header position signal indicates a lowering of the header, thereby reducing sudden increases in the rate of material flow to the processing structure resulting from changes in the vertical adjustment of the header. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A harvester having a frame supported on the surface of the ground by wheel structure for forward movement through a field of standing crop, the harvester including crop processing structure and a header for directing the crop to the processing structure, a header control system for adjusting the header vertically, wherein rate of material flow to the processing structure from the header is dependent on header vertical adjustment and forward speed, a harvesting control comprising:
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a harvester speed control for controlling forward speed of the harvester through the field, transducer structure for providing a header position signal;
wherein the harvester speed control is responsive to a header position signal to decrease the forward speed of the harvester when the header position signal indicates a lowering of the header, thereby reducing sudden increases in the rate of material flow to the processing structure resulting from changes in the vertical adjustment of the header; and
further comprising a throughput sensor on the harvester for providing a process indication of the amount of material being processed by the harvester, a processor for receiving the header position signal and the process indication and for estimating a change in throughput for the header position change prior to the process indication reflecting a change in the amount of material in the processing structure as a result of the lowering of the header, and wherein the decrease in forward speed is dependent on estimated change in throughput based on previous experience rather than on a real time change in the process indication at the time of the lowering of the header.
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11. A method of operating a harvester for harvesting a standing crop, the harvester having a vertically adjustable cutting platform and an electronic speed control for automatically adjusting harvester speed, wherein the height of the cutting platform and the harvesting speed establish a harvester throughput, the method comprising:
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establishing a desired speed based upon at least one monitored harvester condition depending at least in part on the throughput;
maintaining the harvester speed;
generally at the desired speed;
detecting a change in the vertical position of the cutting platform;
estimating a change in the harvester throughput resulting from the detected change in position; and
changing the harvester speed in dependence on the estimated change in the throughput, prior to the monitored condition substantially changing as a result of the change in vertical position, to maintain a generally constant throughput and prevent overload and under-capacity conditions as a result of changes in height of the cutting platform. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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18. A method of operating a harvester for harvesting a standing crop, the harvester having a vertically adjustable cutting platform and an electronic speed control for automatically adjusting harvester speed, wherein the height of the cutting platform and the harvesting speed establish a harvester throughput, the method comprising:
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establishing a desired speed based upon at least one monitored harvester condition depending at least in part on the throughput;
maintaining the harvester speed generally at the desired speed;
detecting a change in the vertical position of the cutting platform;
estimating a change in the harvester throughput resulting from the detected change in position;
changing the harvester speed in dependence on the estimated change in the throughput, prior to the monitored condition substantially changing as a result of the change in vertical position, to maintain a generally constant throughput and prevent overload and under-capacity conditions as a result of changes in height of the cutting platform; and
wherein the step of estimating a change in the harvester throughput resulting from the detected change in position includes the step of determining if the change in position results from a change in crop or ground contour conditions that will not appreciably affect throughput.
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Specification