Task-specific ride-height and speed control of an agricultural product applicator with air strut suspension

We claim: 1. A task-specific ride-height and speed control system for a self-propelled agricultural product applicator having a propulsion unit and three or more ground engaging wheels operatively joined to a frame adapted for supporting at least one agricultural product container and distributor arrangement, and defining forward and rear ends of the frame, a longitudinally extending central axis of the frame extending from the rear end to the forward end of the frame in a direction of travel of the self-propelled agricultural product applicator, and a vertical axis of the frame, the task-specific ride-height system comprising: a plurality of controllable ride-height trailing arm suspension systems independently joining each wheel to the frame, with each trailing arm suspension system including an upper suspension arm, a lower suspension arm, an extensible air strut and an angular position sensor operatively interconnected to one another and disposed between a rolling axis of a corresponding ground engaging wheel of the three or more ground engaging wheels independently supported by that controllable ride-height trailing arm suspension system and a point of attachment of the controllable ride-height trailing arm suspension system to the frame such that the angular position sensor detects a relative angular position between the upper and lower suspension arms at a present extension of the extensible air strut; an air power source for providing a controlled flow of pressurized air to the extensible air strut of each of the controllable ride-height trailing arm suspension systems, to thereby control ride-height by controlling extension of each of the extensible air struts; a speed control arrangement operatively connected to the propulsion unit for controlling ground speed of the self-propelled agricultural product applicator; and an electronic control unit operatively connected to the angular position sensors, a load sensing arrangement, the air power source, and the speed control arrangement; the electronic control unit being configured for receiving a desired task input and signals from the angular position sensors indicative of a present relative angular position of the upper and lower suspension arms of each suspension system, and commanding the air power source to control the extensible air struts at an extension thereof providing a ride-height corresponding to the desired task input; the electronic control unit also being configured for determining a maximum ground speed corresponding to the desired task input, and commanding the speed control arrangement to limit ground speeds while operating at the ride-height corresponding to the desired task input to ground speeds less than or equal to the maximum ground speed corresponding to the desired task input. 2. The task-specific ride-height and speed control system of claim 1 , wherein the desired task input indicates a selected desired task of one or more predetermined desired tasks, and the electronic control unit is configured to control the extensible air struts at an extension thereof providing a preset ride-height corresponding to the selected desired task input. 3. The task-specific ride-height and speed control system of claim 2 , wherein the load sensing arrangement is operatively connected to the electronic control unit for detecting a suspended weight of the self-propelled agricultural product applicator and agricultural product in the product container, and for sending a signal indicative of the detected suspended weight to the electronic control unit, and wherein the electronic control unit is further configured to modify the determined maximum ground speed in accordance with a predetermined schedule of maximum ground speeds as a function of the desired task input, the preset ride-height, and the detected suspended weight. 4. The task-specific ride-height and speed control system of claim 3 , wherein the load sensing arrangement includes a pressure sensor operatively connected to detect a pressure of the flow of air provided by the air power source to the extensible air struts, as being indicative of the detected suspended weight of the self-propelled agricultural product applicator and product container and distributor. 5. The task-specific ride-height and speed control system of claim 3 , wherein the electronic control unit is yet further configured to compare the present ride-height signals from the angular position sensors to the detected suspended weight, and command the speed control arrangement to further limit the propulsion unit to operation at speeds at or under a predetermined default speed if the detected suspended weight and any one or more of the present ride-height signals is not consistent with the preset ride-height corresponding to the desired task input. 6. The task-specific ride-height and speed control system of claim 3 , wherein the electronic controller is configured to control the ground speed of the self-propelled agricultural product applicator in accordance with at least one of the predetermined combinations of desired task input, preset ride-height, determined suspended weight and maximum ground speed from the group of predetermined combinations consisting of: desired task input is transit, present ride-height is as commanded for transit operation, detected suspended weight indicates that an unloaded product container and distributor are mounted on the frame, and a commanded maximum transit ground speed of the self-propelled agricultural product applicator; desired task input is transit, present ride-height is as commanded for transit operation, detected suspended weight indicates that no product container and distributor are mounted on the frame, and a commanded maximum bare frame ground speed of the self-propelled agricultural product applicator that is lower than the commanded maximum transit ground speed; desired task input is application, present ride-height is as commanded for application operation, detected suspended weight indicates that a product container and distributor are mounted on the frame and carrying a load of product within load limits of the applicator, and a commanded maximum application ground speed of the self-propelled agricultural product applicator; desired task input is application, present ride-height is as commanded for application operation, detected suspended weight indicates that a product container and distributor are mounted on the frame and carrying a load of product that exceeds load limits of the self-propelled agricultural product applicator, and a commanded maximum overloaded ground speed of the self-propelled agricultural product applicator; and desired task input is tendering, present ride-height is as commanded for tendering operation, detected suspended weight indicates that a product container and distributor are mounted on the frame and carrying a load of product within load limits of the applicator, and a commanded maximum tendering ground speed of the applicator. 7. The task-specific ride-height and speed control system of claim 3 , wherein the electronic control unit is configured to receive a suspended weight signal from the load sensor arrangement and recalculate the maximum ground speed whenever the desired task input is changed. 8. The task-specific ride-height and speed control system of claim 7 , wherein the electronic control unit is configured to command a change in maximum speed, from a previously commanded maximum ground speed to the recalculated maximum ground speed, only after the self-propelled agricultural product applicator has first been brought to a complete stop. 9. A self-propelled agricultural product applicator having a propulsion unit and three or more ground engaging wheels operatively j