Patent application number | Description | Published |
20090192734 | CORN HEAD CLUTCH MONITOR - A system for determining slippage of row unit or chopping unit slip clutches of a corn head includes a microcomputer coupled to at least one vibration sensor and a display or aural annunciator. A slipping clutch or group of clutches including a slipping clutch may be identified by recognizing a speed dependent predominant frequency. A slipping clutch or group of clutches including a slipping clutch may be identified by comparing magnitudes or times of receipt of vibrations from a pair of sensors. A slipping clutch or group of clutches including a slipping clutch may also be identified by comparing vibrations received from a single sensor with known location identifying magnitudes | 07-30-2009 |
20090311084 | WORK MACHINE AND UNLOADING SYSTEM FOR UNLOADING AN AGRICULTURAL PRODUCT FROM A WORK MACHINE - An agricultural work machine includes a hopper configured to store an agricultural product during harvesting operations, and an unloading system configured to receive the agricultural product from the hopper and to unload the agricultural product from the work machine. The unloading system includes a turret rotatably attached to a portion of the work machine; a base conveyor belt system configured to convey the agricultural product away from the turret; a base support structure pivotably coupled to the turret, the base support structure being configured to support at least in part the base conveyor belt system; and a shock absorption system configured to absorb a shock load transmitted between the base support structure and the turret. | 12-17-2009 |
20100009731 | AGRICULTURAL WORK MACHINE HAVING AN UNLOADING SYSTEM FOR UNLOADING AN AGRICULTURAL PRODUCT - The invention is directed to an agricultural work machine for performing harvesting operations. The agricultural work machine includes a support structure. An unloading system is coupled to the support structure and is configured to transport an agricultural product received from a hopper to an off-machine location. The unloading system includes a transfer assembly having a discharge chute. A positioning system is configured to adjust at least one of an elevation, a length and a rotational position of the transfer assembly to position the discharge chute. A control system is configured to automatically locate the discharge chute from a stowed position to a desired unload position of a plurality of preset unload positions upon receiving an operator input via an operator input device. | 01-14-2010 |
20100012467 | TRACTOR MOUNTED UNLOADING CONVEYOR - A conveyor is mounted on a tractor and extends from a hopper at the front of the tractor to an outlet behind the tractor. An agricultural harvester unloading system is operated to deposit grain from the harvester into the hopper of the conveyor. The conveyor is operated to transfer the grain into a cart pulled by the tractor. | 01-21-2010 |
20100016045 | BELTED GRAIN TANK FLOOR - A grain tank on a crop harvester includes a belted conveyor floor for moving grain in the grain tank toward an opening through which the grain tank is emptied. | 01-21-2010 |
20100016046 | FLEXIBLE UNLOADING TUBE - An agricultural combine has a flexible unloading tube for discharging the contents of a grain tank positioned on the combine. The unloading tube includes first and second tubes connected by a pair of swivel joints on an intermediate tube. The swivel joints are actuated independent of one another by either electrical or hydraulic power to provide a range of motion significantly greater than found in current combines. A series of augers, connected through flexible joints, move grain material through the unloading tube. The double swivel joints enable the unloader to be conveniently located in the combine with a minimum intrusion on the overall volume of the unit. | 01-21-2010 |
20100016047 | DUAL SIDED BELTED UNLOADER - An unloader for an agricultural harvester includes a telescopic belted conveyor that can be extended to opposite sides of the harvester. The conveyor can be operated at any selected elevation between a minimum elevation and a maximum elevation and at any extended length between a minimum extended length and a maximum extended length for the conveyor. | 01-21-2010 |
20100043369 | DEVICE AND METHOD FOR REDUCING TIRE WEAR ON AN AGRICULTURAL VEHICLE - An agricultural work machine having a chassis with an operating direction and a transport system coupled to the chassis. The transport system includes a plurality of wheels including a first wheel and a wheel repositioning system. The wheel repositioning system is operatively connected to the first wheel. The wheel repositioning system is configured to adjust a position of the first wheel in a direction substantially normal to the operating direction while the chassis is moving in the operating direction. | 02-25-2010 |
20100075727 | STEERING AXLE TRANSPORT POSITIONING STRUCTURE AND METHOD - A steering axle assembly of a work machine such as an agricultural harvester includes telescoping axles and hub assemblies on the telescoping axles, with front and rear hydraulic cylinders for axially and angularly adjusting positions of the wheel hub assemblies, including steering the hubs to angles sufficient to minimize a width of the steering axle assembly for transport. | 03-25-2010 |
20100293911 | HARVESTER LOAD CONTROL SYSTEM - A method of controlling a multiengine harvester including the steps of operating the harvester in a first mode, operating the harvester in a second mode, and selecting less than all of the power absorbing loads to be driven. In the first mode, the harvester is operated using a first engine and a second engine to drive the plurality of power absorbing loads. In the second mode, the harvester is operated with the second engine being uncoupled from all of the power absorbing loads. In the selecting step, less than all of the power absorbing loads are selected to be driven dependent upon the sensed load on the first engine while operating in the second mode. The first engine is incapable of driving all of the power absorbing loads. | 11-25-2010 |
20100293912 | AGRICULTURAL HARVESTER WITH PROPULSION LOAD SHIFTING BETWEEN DUAL ENGINES - An agricultural harvester includes a first power unit which is couplable with a first primary load. The first primary load includes a threshing system load. A second power unit has a threshold power output and is couplable with a second primary load. The second primary load includes a propulsion load. A first motor/generator is mechanically coupled with the first power unit. A second motor/generator is mechanically coupled with the second power unit. The second motor/generator and the first motor/generator are electrically coupled together. At least one electrical processing circuit is coupled with each of the first motor/generator and the second motor/generator. The at least one electrical processing circuit is configured for selectively transferring electrical power from the first motor/generator to the second motor/generator, when the second power unit is at or above the threshold power output. | 11-25-2010 |
20100293913 | AGRICULTURAL HARVESTER WITH DUAL ENGINE FAILURE POWER TRANSFER SYSTEM - An agricultural harvester includes a first power unit which is couplable with a first primary load. The first primary load includes a threshing system load. A first motor/generator is mechanically coupled with the first power unit. A first clutch is mechanically coupled between the first power unit and the first primary load. A second power unit is couplable with a second primary load. The second primary load includes a propulsion load. A second motor/generator is mechanically coupled with the second power unit and electrically coupled with the first motor/generator. A second clutch is mechanically coupled between the second power unit and the second motor/generator. | 11-25-2010 |
20100295368 | HARVESTER MULTIPLE ENGINE ENERGY CONTROL SYSTEM - An agricultural vehicle including a plurality of engines, a plurality of loads, a plurality of electrical generators, at least one load sensor, at least one electrical energy storage device, and a controller. The plurality of engines include a first engine and a second engine. The plurality of loads include a first mechanical load, a second mechanical load, a first electrical load, and a second electrical load. The first mechanical load is coupled to the first engine and the second mechanical load is coupled to the second engine. The plurality of electrical generator include a first generator and a second generator. The first generator is coupled to the first engine and the second generator is coupled to the second engine. The first generator is electrically coupled to the first electrical load and the second generator is electrically coupled to the second electrical load. The at least one load sensor is configured to produce a signal representative of power being used by the first engine and the second engine to drive the plurality of loads. The controller is configured to direct energy from the electrical energy storage device to the plurality of loads and/or the plurality of electrical generators dependent upon the signal. | 11-25-2010 |
20120025477 | Method Of Automatically Changing Wheel Toe Angle - A method for changing the track of a vehicle ( | 02-02-2012 |
20120282985 | BELTED GRAIN TANK FLOOR - A grain tank on a crop harvester includes a belted conveyor floor for moving grain in the grain tank toward an opening through which the grain tank is emptied. A sensor determines when the grain has depleted the tank to a substantially low level and activates the floor to remove the remainder of the grain material. A flexible strip between the active floor and the sidewalls of the grain container ensure that grain loss is minimized, if not eliminated. The active floor may be provided in an belt in which the driven side has a lower friction material so as to improve belt life. | 11-08-2012 |