Patent application number | Description | Published |
20100101810 | Pump Support Coupler System - A pump support coupler assembly for connecting a large displacement hydraulic pump to a tractor power take off device is provided. The pump support coupler assembly includes a coupler housing with front and back walls, and sidewalls. The high displacement hydraulic pump attaches directly or indirectly to the coupler housing back wall. A shaft extends longitudinally through the coupler housing. The shaft is coupled to an input shaft of the hydraulic pump at its first end and a power take off output shaft at its second end. A torque restraint strap extends between the coupler housing and a tractor drawbar, and prevents the coupler housing from rotating about its longitudinal axis. In this configuration, the power take off output shaft supports the pump support coupler assembly and the hydraulic pump, and since the pump is attached to the coupler housing, the pump input shaft is not subjected to bending-type loads. | 04-29-2010 |
20100205953 | Case Drain Line Pressure Switch With Automatic Fan Drive Motor Shutdown - A case drain circuit particularly well suited for use with a bulk fill subassembly or a vacuum fan assembly of an agricultural implement towed by a tractor or similar vehicle includes a pressure switch that may cause illumination of an in-cab warning light and/or sounding of an in-cab alarm when pressure in the case drain circuit exceeds a predetermined threshold. A fan is driven by a solenoid controlled hydraulic motor which is supplied hydraulic fluid under pressure from a flow control valve to the motor in accordance with electrical signals that are supplied to the solenoid by a controller. The case drain circuit provides a pathway along which leakage fluid from the motor may be delivered to a fluid reservoir, preferably carried by the towing vehicle. During undesirable high pressure conditions in the case drain circuit, the pressure switch provides a corresponding high pressure signal to the controller that in turn cuts electrical current to the solenoid to cut the flow of hydraulic fluid to the motor. | 08-19-2010 |
20100251948 | PLANTER WITH DIRECT HYDRAULIC SEED DRIVE - The invention provides an innovative yet straightforward approach to driving the seed distribution system in planters which feature hinged winged extensions. The flexibility of the hinged winged extensions may allow the planter to adjust to the contours of a field and to fold to facilitate transport of the planter. In one embodiment, for example, the invention may provide a mechanical coupling between several sections of a seed drive shaft which may support and be driven by a hydraulic motor for each of the winged sections. The seed drive system may also be coupled to row units to synchronize and power the distribution of seeds by the planter. | 10-07-2010 |
20100251949 | PLANTER WITH DIRECT HYDRAULIC SEED DRIVE - The invention provides an innovative yet straightforward approach to driving the seed distribution system in planters which feature hinged winged extensions. The flexibility of the hinged winged extensions may allow the planter to adjust to the contours of a field and to fold to facilitate transport of the planter. In one embodiment, for example, the invention may provide a mechanical coupling between several sections of a seed drive shaft which may support and be driven by a hydraulic motor for each of the winged sections. The seed drive system may also be coupled to row units to synchronize and power the distribution of seeds by the planter. | 10-07-2010 |
20110100657 | STEERABLE AGRICULTURAL IMPLEMENT WITH EQUALIZED STEERING EFFORT - An agricultural implement is provided that includes a hitch assembly configured to couple the agricultural implement to a tow vehicle, and a carrier frame pivotally coupled to the hitch assembly. The agricultural implement also includes a pair of wheel assemblies each rotatably coupled to the carrier frame by a respective pivot joint. The agricultural implement further includes an actuator assembly configured to rotate each wheel assembly about the respective pivot joint in a first direction by applying a first torque, and to rotate each wheel assembly about the respective pivot joint in a second direction, opposite the first direction, by applying a second torque. A magnitude of the first torque and a magnitude of the second torque are substantially equal. | 05-05-2011 |
20110315234 | FLUID CONTROL SYSTEM FOR STEERABLE AGRICULTURAL IMPLEMENT - An agricultural implement system is provided that includes a valve in fluid communication with first and second actuating cylinders and with first and second fluid conduits. The valve is configured to control fluid flow from the first and second fluid conduits to the first and second actuating cylinders. Furthermore, a controller is communicatively coupled to first and second pressure sensors and to the valve. The first pressure sensor is coupled to the first fluid conduit, and the second pressure sensor is coupled to the second fluid conduit. The controller is configured to determine whether the first fluid conduit or the second fluid conduit is supplying fluid to the valve based on signals from the first and second pressure sensors, and to automatically control fluid flow to the first and second actuating cylinders such that wheel assemblies are rotated to a desired angle relative to an implement frame. | 12-29-2011 |