Platform auger torque sensing brake activation
First Claim
1. A harvesting assembly comprising:
- a frame;
a feed auger rotatably mounted to the frame;
a feed auger drive for rotating the feed auger relative to the frame;
a feed auger torque sensor for torque transmitted to the feed auger and providing an actual feed auger torque signal;
a controller having a memory in which a maximum desired feed auger torque signal is stored, the controller disengages the feed auger drive from driving the feed auger when the actual feed auger torque signal exceeds the maximum desired feed auger torque signal.
1 Assignment
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Accused Products
Abstract
A harvesting assembly is provided with a transverse feed auger for directing harvested crop material into a feederhouse. The feed auger is also provided with retractable fingers. The retractable fingers are freely rotatably mounted on a finger timing shaft located in the feed auger. A feed auger torque sensor is mounted to the feed auger and communicates an actual feed auger torque signal to a controller. The controller is provided with a memory having a maximum desired feed auger torque signal. When the actual feed auger torque signal exceeds the maximum desired feed auger torque signal, the feed auger drive is disengaged. A timing shaft torque sensor is mounted to the finger timing shaft and communicates an actual timing shaft torque signal to the controller. The memory of the controller is provided with a maximum desired timing shaft torque signal. When the actual timing shaft torque signal exceeds the maximum desired timing shaft torque signal a brake is applied to the feed auger.
78 Citations
19 Claims
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1. A harvesting assembly comprising:
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a frame;
a feed auger rotatably mounted to the frame;
a feed auger drive for rotating the feed auger relative to the frame;
a feed auger torque sensor for torque transmitted to the feed auger and providing an actual feed auger torque signal;
a controller having a memory in which a maximum desired feed auger torque signal is stored, the controller disengages the feed auger drive from driving the feed auger when the actual feed auger torque signal exceeds the maximum desired feed auger torque signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of controlling how much torque is applied to a feed auger of a harvesting assembly, the feed auger is rotated by a feed auger drive, the method comprising:
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sensing the torque applied to the feed auger and forming an actual feed auger torque signal;
communicating the actual feed auger torque signal to a controller having a memory;
comparing the actual feed auger torque signal to a maximum desired feed auger torque signal stored in the memory of the controller;
disengaging the feed auger drive when the actual feed auger torque signal exceeds the maximum desired feed auger torque signal. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A harvesting assembly comprising:
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a frame;
a feed auger rotatably mounted to the frame, the feed auger being provided with retractable fingers that are freely rotatably mounted to a finger timing shaft;
a feed auger drive for rotating the feed auger relative to the frame;
a brake for braking the rotation of the feed auger;
a timing shaft torque sensor for sensing torque transmitted to the finger timing shaft and providing an actual timing shaft torque signal;
a controller having a memory in which a maximum desired timing shaft torque signal is stored, the controller activates the brake braking the feed auger when the actual timing shaft torque signal exceeds the maximum desired timing shaft torque signal. - View Dependent Claims (17)
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18. A method of controlling how much torque is applied to a feed auger of a harvesting assembly, the feed auger is rotated by a feed auger drive and is provided with retractable fingers freely rotatably mounted on a finger timing shaft, the method comprising:
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sensing the torque applied to the finger timing shaft and forming an actual timing shaft torque signal;
communicating the actual timing shaft torque signal to a controller having a memory;
comparing the actual timing shaft torque signal to a maximum desired timing shaft torque signal stored in the memory of the controller;
braking the feed auger drive when the actual timing shaft torque signal exceeds the maximum desired timing shaft torque signal. - View Dependent Claims (19)
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Specification