An autoguidance interface for a hydraulic steering system for a differential steered self-propelled agricultural windrower, windrower speed and direction controlled by adjustment to a control input shaft to control the output of a pair of tandem-mounted hydraulic drive pumps and provide motive power
An autoguidance interface for a hydraulic steering system for a differential steered self-propelled agricultural windrower, windrower speed and direction controlled by adjustment to a control input shaft to control the output of a pair of tandem-mounted hydraulic drive pumps and provide motive power for the windrower. The control input shaft is rotatable and axially moveable. A hydraulic steering motor is operably connected to the input shaft to effect control input shaft rotation. Rotation of the hydraulic steering motor is selectively managed by a steering control valve attached to a cab-mounted windrower steering wheel or a proportional steering valve managed by the autoguidance system. A selector valve controls the active steering input. An emergency disengagement positions the selector valve to restore manual control by the steering wheel.
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1. A direction control mechanism for a differential speed steered agricultural machine comprising: right and left drive motors;right and left hydraulic drive pumps connected in tandem to and driven by an engine, each drive pump having a displacement control mechanism including a pintel arm rotatable
1. A direction control mechanism for a differential speed steered agricultural machine comprising: right and left drive motors;right and left hydraulic drive pumps connected in tandem to and driven by an engine, each drive pump having a displacement control mechanism including a pintel arm rotatable between first and second positions, rotation of which changes hydraulic fluid flow rate from respective drive pumps to control speed and direction of respective drive motors;a control input shaft connected to the left and right pintel arms, the shaft rotatable about its longitudinal axis and translatable along its longitudinal axis, rotation of the shaft causing simultaneous rotation of the pintel arms in opposite directions, translation of the shaft causing simultaneous rotation of the pintel arms in the same direction;a steering drive motor connected to the control input shaft to rotate the shaft thereby managing relative displacement of the right and left hydraulic pumps;a steering wheel connected to rotate a hydraulic steering valve to the right and left of a central position, the steering valve directing a volume of pressurized hydraulic fluid dependent upon the degree and direction of steering wheel rotation from the central position to the steering drive motor causing rotation of the control input shaft in proportion to the degree of rotation of the steering wheel;an automated steering control apparatus receiving signals from a vehicle guidance system indicative of the degree and magnitude of right and left direction inputs to steer the machine along a predetermined track, the automated steering control apparatus directing a volume of pressurized hydraulic fluid to the steering drive motor, the volume dependent upon the degree and magnitude of the direction change necessary to steer the machine by causing rotation of the control input shaft necessary to achieve the required direction and magnitude of the machine directional change; anda selector valve positionable between first and second positions, the first position enabling machine steering by the steering wheel, the second position enabling machine steering by the vehicle guidance system. 2. The mechanism of claim 1, wherein the selector valve position is managed by the vehicle guidance system. 3. The mechanism of claim 2, further comprising a sensor for detecting movement of the steering wheel and communicating a disengagement signal representative thereof to the vehicle guidance system, the vehicle guidance system, upon receipt of the disengagement signal, positioning the selector valve in the first position to enable steering by the steering wheel. 4. A direction control mechanism for an agricultural machine comprising: a control input shaft connected to left and right pintel arms controlling the output of right and left hydraulic drive pumps, the input shaft rotatable about its longitudinal axis and translatable along its longitudinal axis, rotation of the shaft causing simultaneous rotation of the pintel arms in opposite directions, translation of the shaft causing simultaneous rotation of the pintel arms in the same direction;a steering drive motor connected to the control input shaft to rotate the shaft;a first hydraulic steering valve manually rotatable by a steering wheel to the right and left of a central position, the first steering valve directing a varying volume of pressurized hydraulic fluid to the steering drive motor, the variation dependent upon the degree and direction of rotation from the central position, rotation of the first steering valve causing rotation of the steering drive motor and connected control input shaft in proportion to the degree of rotation of the steering wheel;a second hydraulic steering valve positionable by a steering signal initiated by a machine autoguidance system, the second steering valve directing a varying volume of pressurized hydraulic fluid to the steering drive motor, the output of the second steering valve causing rotation of the steering drive motor and connected control input shaft in proportion to the steering signal input; anda selector valve enabling steering control by the steering wheel or steering control by the machine auto guidance system to be selected. 5. The mechanism of claim 4, wherein the selector valve position is managed by the vehicle guidance system. 6. The mechanism of claim 5, further comprising a sensor for detecting movement of the steering wheel and communicating a disengagement signal representative thereof to the vehicle guidance system, the vehicle guidance system, upon receipt of the disengagement signal, positioning the selector valve to enable steering by the steering wheel.
Bebernes, Thomas D.; O'Brien, Stephen E., Steering control system for hydrostatically driven front vehicle ground wheels and steerable rear caster wheels.
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