Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Construction or agricultural-type vehicle
Reexamination Certificate
2003-07-14
2004-10-12
Marc-Coleman, Marthe Y. (Department: 3661)
Data processing: vehicles, navigation, and relative location
Vehicle control, guidance, operation, or indication
Construction or agricultural-type vehicle
C701S213000
Reexamination Certificate
active
06804597
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention deals generally with farm equipment and more specifically with an apparatus and method for automatically controlling a swinging implement that tractors tow.
It is somewhat surprising to a layperson to discover that a farm tractor can now be guided by a Global Positioning System (GPS). Such satellite guidance systems are used in conjunction with on-board computers, drive by wire components, and electro-hydraulic controls to automatically guide tractors in straight lines or predetermined routes with specified overlap between sequential parallel passes on a field, even at night or with poor visibility. Guidance systems are now available that can control the positioning of subsequent passes to within 2 centimeters.
However, although several GPS guidance systems can be used to automatically steer a tractor, the operator typically still has a great deal to do at the end of the field, particularly with an implement that swings from one side to the other of the tractor. When pulling a typical center pivot mower-conditioner oriented behind and to one side of the tractor, at the end of the field, in a distance approximating the width of two to four cuts, the operator must perform a great many actions. This includes the need to downshift and/or reduce ground speed, raise the cutting head, turn the tractor 180 degrees, swing the implement to the opposite side of the tractor, align it for proper towing, and then lower the cutting head. Even with GPS guidance aid, the operator must still align the tractor in approximately the correct return path, increase speed, upshift, and lower the cutting head.
Some prior art units operating in conjunction with GPS navigational systems do perform several of these tasks when instructed to do so. Thus, when the operator pushes a single “end of field” button, the tractor speed slows down, the gears downshift, and the implement is raised and its operation stopped. Then, after the operator has turned the tractor and the towed implement around and positioned it in approximately the proper path, the operator pushes another button to reestablish GPS alignment control, increase the tractor speed, and put the implement back into operation. However, the only part the GPS plays in this entire procedure is to guide the tractor and to inform the operator when the tractor has reached the area at the end of the field. The operator is still left with several jobs, such as of turning the tractor, changing the towed implement over to the opposite side, and realigning the towed implement with the tractor.
To better appreciate the problem of mowing a field with a center pivot mower, it is advantageous to understand the traditional procedure for mowing a field. The first step in mowing a field is called “opening the field” in the terminology of the industry. This involves cutting around the circumference of the field, near the boundaries that might be fencing, trees, or somebody else's property. Typically, two to four cutting passes are made around the entire field, each being farther from the edge of the field by the width of the mower. This results in a frame-like area, called the “headlands” in the terminology of the industry, that is fully cut and now available for maneuvering the tractor and towed implement.
It should be appreciated that, in order to minimize the number of times the equipment must be turned around, fields are cut so that the cuts run parallel to the longest sides of the field. However, even the precutting of the ends of the field provides only a minimum space for turning the equipment around, and to add to the difficulty, the cut crop at the end of the field is usually formed into swaths or windrows that should be disturbed, a little as possible.
This requires that the cutting apparatus be lifted off the ground precisely when the mower reaches the edges of the headlands area. The cutting apparatus must be raised, the tractor must then be turned, the towed implement must be moved to the opposite side of the tractor, and the cutting apparatus lowered before it reaches the uncut area again. Furthermore this must all be accomplished in the space of three to four cut widths. Only the most skilled operators have been able to consistently accomplish this procedure quickly and accurately hour after hour.
It would be very beneficial to automate any of these functions, and thus truly leave the operator with only the job of making certain that everything is operating properly. Such a system would permit the operation of the equipment by less skilled personnel and would truly permit safe, low visibility field operations while maximizing the efficiency of the implement.
SUMMARY OF THE INVENTION
The present invention uses the Global Positioning System not only as a guidance system for the parallel runs down a field, but also as an information source to control the actions at the end of the field. Using a super accurate Real Time Kinematic (RTK) GPS that includes a local portable base station, the GPS can locate the tractor to within less than an inch of a desired path. With this capability and the tractor location information transmitted to a computer that records it, the apparatus of the invention knows and can record precisely the tractor's present location and everywhere the tractor has been. It should be noted that the end of field functions operate just as well with the less accurate differential global positioning systems (DGPS).
This means that, for the preferred embodiment using a towed mower, while the first circumferential cut is being made around the edges of the field, the computer is mapping the exact location of the boundaries of the field. Furthermore, with the mower dimensions already entered into the computer and sensors on the tractor and the towed mower to provide information to the computer on the position, operation mode, and orientation of the mower, the computer records the dimensions of the portions of the field that have already been cut. Of course, this also provides the computer with the information needed to determine the exact area and location of the uncut portion of the field enclosed within that first circumferential cut.
It should be appreciated that, although most references in this specification refer to the preferred embodiment of the invention as controlling a center pivot mower towed by a tractor, the same control apparatus is useable with other farm implements that independently shift from one side to the other side of the tractor.
When a tractor is equipped with the integrated guidance system of the invention, after the completion of the first circumferential cut around the edges of the field, the computer has enough information in its memory to take over steering along the uncut crop and keeping the mower full, and at the end of the field, to lift and swing the mower to the opposite side and align it for the next pass. The computer monitors speed, transmission setting, steering, and orientation of the towed mower by means of sensors associated with each function, and the recorded information provided by the GPS gives the computer all the information needed on the size and shape of the field and what portion of the crop is uncut. The tractor's control module then uses the information to control conventional electro-hydraulic valves for control of the main functions of the tractor and the towed implement. On the other hand, the operator can also maintain any portion of the control desired.
In the fully automatic mode, the apparatus makes one or more additional circumferential cuts, each offset inward toward the center of the field, until the ends of the field have been cut by an amount sufficient, as determined by the operator, usually two to four rounds, to permit a full turn-around of the tractor, including the room needed for movement of the towed implement to the opposite side of the tractor, within the previously cut rows at the end of the field. The computer then automatically steers the mower and the tractor and sets the towed implement to cut the rest of the fiel
Day James R.
Posselius John H.
Marc-Coleman Marthe Y.
New Holland North America Inc.
Stader John William
Webb Collin A.
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