IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0463298
(2003-06-17)
|
우선권정보 |
DE-0027484 (2002-06-19) |
발명자
/ 주소 |
- Thiemann, Holger
- Uhlending, Hubert
- Dammann, Ludwig
|
출원인 / 주소 |
- CLAAS Selbstfahrende Erntemaschinen GmbH
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
40 인용 특허 :
22 |
초록
▼
A position control for a crop pickup device which is mounted for vertical movement relative to an agricultural harvester. A measuring device is provided for determining the distance from the crop pickup device to the ground, wherein the position of the crop pickup device relative to the ground is ad
A position control for a crop pickup device which is mounted for vertical movement relative to an agricultural harvester. A measuring device is provided for determining the distance from the crop pickup device to the ground, wherein the position of the crop pickup device relative to the ground is adjustable by one control device as a function of the measured ground distance. The distance to the ground is determined by the measuring device at two points spaced from each other in the direction of travel. As a result, advantageously the inclination of the ground can be determined and used for optimized control of ground simulation of the crop pickup device. Additionally, the cutting angle can be adapted automatically to the slope of the ground, to avoid crop losses and impede damage to the grain header.
대표청구항
▼
1. A crop cutting height maintenance system for an agricultural machine having a crop pickup device disposed to pick up crop along a crop pickup line transverse to a direction of travel of the agricultural machine, said cutting height maintenance system comprising:a first frame mounted on the crop p
1. A crop cutting height maintenance system for an agricultural machine having a crop pickup device disposed to pick up crop along a crop pickup line transverse to a direction of travel of the agricultural machine, said cutting height maintenance system comprising:a first frame mounted on the crop pickup device at a first point along the direction of travel and disposed to measure a first height between the crop pickup device and the ground;a second frame mounted on the crop pickup device at a second point along the direction of travel, and disposed to measure a second height between the crop pickup device and the ground;each of said first and second frames being operatively connected to a processor to signal to said processor said first height and said second height; andsaid processor being configured to send a change of elevation signal to a crop pickup device elevator in response to a difference between said first height and said second height, such that a cutting height of the crop pickup device is changed. 2. The crop cutting height maintenance system of claim 1 wherein said first frame is ahead of the crop pick up line and said second frame is behind the crop pickup line relative to the direction of travel. 3. The crop cutting height maintenance system of claim 1 wherein said elevation signal raises the crop pickup device and raises said cutting height when said first height becomes smaller than said second height. 4. The crop cutting height maintenance system of claim 1 wherein said elevation signal lowers the crop pickup device and lowers said cutting height when said first height is greater than said second height. 5. The crop cutting height maintenance system of claim 1 further comprising an edge sensor, said edge sensor being in operative communication with said processor. 6. The crop cutting height maintenance system according to claim 1 wherein said first ground height and said second ground height are measured simultaneously. 7. The crop cutting height maintenance system according to claim 1 wherein said first frame and said second frame are aligned in the direction of travel. 8. The crop cutting height maintenance system according to claim 1 wherein said first frame and said second frame are located on a first lateral portion of the crop pickup device and further comprising a third frame and a fourth frame located on the opposite lateral portion of the crop pickup device. 9. The crop cutting height maintenance system of claim 8 further comprising at least one additional frame. 10. The crop cutting height maintenance system of claim 1 wherein at least one frame is replaced by a contactless measuring device. 11. The crop cutting height maintenance system of claim 1 further comprising a contactless measuring device mounted on said crop pickup device and located above a top level of a crop. 12. The crop cutting height maintenance system of claim 1 further comprising an inclination sensor mounted on the crop pickup device and disposed to measure an inclination of the crop pickup device relative to a horizontal plane. 13. The crop cutting height maintenance system of claim 1 wherein said processor is further configured to send a change of angle signal to a crop pickup device in response to a change in said first height or said second height, such that a cutting angle of the crop pickup device is changed. 14. The crop cutting height maintenance system of claim 12 wherein said processor is further configured to send a change of angle signal to a crop pickup device in response to a change in an inclination sensed by said inclination sensor. 15. The crop cutting height maintenance system of claim 9 wherein said processor is further configured to send a change of transverse angle signal to the crop pickup device in response to a difference between a height measured on said first lateral portion of the crop pickup device and a height measured on said opposite lateral portion of the crop pickup device. 16. The crop cutting height maintenance system of claim 1 wherein said processor is further configured to determine a curve for a connective span between a plurality of measured ground heights along the direction of travel and wherein said processor is further configured to automatically maintain a selected cutting height as a function of the determined curve. 17. The crop cutting height maintenance system of claim 8 wherein said processor is further configured to calculate a ground area from a plurality of distances measured transversely to the direction of travel, said transversely measured heights being separated from one another along the direction of travel, and wherein said processor is further configured to determine a longitudinal inclination of a connecting span for the ground area, further configured to determine a transverse inclination of a finger bar, and further configured to automatically adjust the crop pickup device to maintain a preselected cutting angle and a preselected cutting height as a function of said calculated ground area. 18. The crop cutting height maintenance system of claim 1 wherein said crop pickup device elevator is comprised of a plurality of lifting cylinders. 19. The crop cutting height maintenance system of claim 1 further comprising a swinging adapter. 20. A position control apparatus for a crop pickup device comprising;a mount disposed to move the crop pickup device relative to an agricultural harvesting machine;a measuring device configured to determine distances from the crop pickup device to the ground at a plurality of points spaced from each other in a direction of travel of the agricultural harvesting machine, the measuring device including:at least one equipment position sensor, said equipment position sensor being configured to signal to a control device a determined position of one equipment component relative to at least one other equipment component;at least one mechanical ground sensor, said mechanical ground sensor being configured to signal to the control device a determined position of at least one equipment component relative to the ground;at least one contactless ground sensor, said contactless ground sensor being configured to signal to the control device a determined position of at least one equipment component relative to the ground;at least one other sensor, the at least one other sensor being either an equipment position sensor or a mechanical ground sensor; andthe control device being configured to adjust a position of the crop pickup device as a function of the determined positions. 21. The apparatus according to claim 20, wherein the measuring device simultaneously determines the distance to the ground at the plurality of points. 22. The apparatus according to claim 20, wherein the measuring device determines a first distance to the ground at a point located ahead of the crop pickup device in the direction of travel, and a second distance to the ground at a point located behind the crop pickup device in the direction of travel. 23. The apparatus according to claim 20, wherein the measuring device determines the distance to the ground at a plurality of aligned points located one behind the other on one track in the direction of travel. 24. The apparatus according to claim 20, wherein the crop pickup device mount includes a feeder housing mounted for vertical movement relative to the agricultural harvesting machine, and wherein one of said at least one ground sensors of the measuring device is arranged on a side of the feeder housing facing toward the crop pickup device. 25. The apparatus according to claim 20, wherein the measuring device includes a plurality of measuring devices spaced from each other transversely to the direction of travel, wherein each of the measuring devices determines a plurality of distances to the ground. 26. The apparatus according to claim 20, wherein the mechanical ground sensor is a frame sensor. 27. The apparatus according to claim 20, wherein the mechani cal ground sensor is selected from the group consisting of: a frame sensor behind the crop pickup device, a frame sensor in front of the crop pick up device and a feeder housing frame sensor. 28. The apparatus according to claim 20, wherein the contactless measuring device is disposed proximate to a crop height. 29. The apparatus according to claim 20, wherein the measuring device includes an edge sensor. 30. The apparatus according to claim 20, including an inclination sensor on the crop pickup device configured and disposed to determine a position of the crop pickup device relative to a horizontal plane. 31. The position control apparatus for crop pickup device of claim 20 wherein said contactless ground sensor is mounted on the crop pickup device. 32. The position control apparatus of claim 20 wherein said equipment position sensor is selected from the group consisting of:a feeder housing adjustment sensor;a swing adapter pivot sensor;a header tilt sensor; anda crop divider linkage angle sensor. 33. A method for position control of a crop pickup device mounted on an agricultural harvesting machine for movement relative thereto, and with at least one measuring device for determining the distance from the crop pickup device to the ground, the method comprising the steps of:measuring a first distance to the ground with a contactless sensor;measuring a second distance to the ground with a mechanical ground sensor;monitoring a position of a first equipment component relative to a second equipment component;sensing at least one other parameter with either an equipment position sensor or a mechanical ground sensor; andautomatically adjusting a position of the crop pickup device relative to the ground as a function of the measured distances, monitored position and at least one other parameter. 34. The method according to claim 33, wherein the step of automatically adjusting the position of the crop pickup device includes the step of adjusting a transverse inclination of the crop pickup device about a longitudinal axis lying in the direction of travel. 35. The method according to claim 33, wherein the step of automatically adjusting the position of the crop pickup device includes the step of adjusting a longitudinal inclination of the crop pickup device about an axis transverse to the direction of travel. 36. The method according to claim 33, further comprising the steps of selecting a cutting height; determining a curve for a connecting span between a plurality of measured distances; and automatically maintaining the selected cutting height as a function of the determined curve. 37. The method according to claim 33, further comprising the steps of: measuring a plurality of distances spaced apart from each other transversely to the direction of travel; calculating a ground area from the plurality of measured distances spaced apart from each other in the direction of travel; determining a longitudinal inclination of a connecting span for the ground area; determining a transverse inclination of a finger bar; and automatically adjusting the crop pickup device to maintain a pre-selected cutting angle and a pre-selected cutting height. 38. A position control apparatus for a crop pickup device mounted on an agricultural harvesting machine, the agricultural machine having a direction of travel and the crop pickup device including a finger bar, the position control apparatus comprising:a first measuring device for measuring a first distance value, the first measuring device operatively connected to the agricultural machine and located on the crop pickup device ahead of the finger bar in the direction of travel;a second measuring device for measuring a second distance value offset from the first distance value, the second measuring device operatively connected to the agricultural machine and located on the crop pickup device aft of the finger bar in the direction of travel; andan adjusting member configured to automatically adjust the crop p ickup device as a function of the first and second distance values. 39. The apparatus according to claim 38, wherein the adjusting member includes a plurality of lifting cylinders and a control device. 40. The apparatus according to claim 38, the apparatus further comprising:a pivot disposed to pivot the crop pick up device in at least two directions. 41. The position control apparatus for a crop pickup device of claim 38 wherein at least one mechanical ground sensor is mounted forward of a crop pickup device and at least one other mechanical ground sensor is mounted to the rear of the crop pickup device. 42. The position control apparatus for a crop pickup device of claim 38 wherein said mechanical ground sensor positioned in front of said crop pickup device measures the position of the crop pickup device relative to the ground at a position substantially proximate to the crop pickup device, and said contactless ground sensor measures the position of the crop pickup device relative to the ground at a distance forward and remote from the crop pickup device. 43. The apparatus according to claim 38, wherein the pivot includes a swinging adapter. 44. A position control apparatus for crop pickup device comprising:a feeder housing adjustment sensor;a swing adapter pivot sensor;a header tilt sensor;a crop divider linkage angle sensor;a front crop divider frame sensor;a back crop divider frame sensor;a feeder housing frame sensor;a contactless ground sensor;each of said sensors being configured to signal a measurement to a control device; andsaid control device being configured to adjust a position of the crop pickup device relative to the ground as a function of the determined measurements of said sensors. 45. The position control apparatus for a crop pickup device of claim 44 wherein said control device is configured to signal an adjustment of a position of the crop pickup device based upon input from at least four of said sensors.
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