Pressurization system for an agricultural machine

We claim: 1. A pressurization system for an agricultural machine comprising: an operator cab having an access movable between an open state allowing for an egress of ambient air out of the operator cab therethrough and a closed state for preventing the egress of ambient air out of the operator cab therethrough to an external environment; an airflow system including a fan, the fan being configured to draw ambient air into the operator cab; a first pressure sensor configured to sense a first pressure in the operator cab; a second pressure sensor configured to sense a second pressure external to the operator cab; a cab sensor configured to sense an open or closed state of the access of the operator cab; and a controller in communication with the airflow system, the first and second pressure sensors and the cab sensor, the controller executing a program stored in a non-transient medium operable to: (a) determine a pressure differential by calculating a difference between the first and second pressures, wherein the pressure differential is positive when the first pressure is greater than the second pressure; (b) activate the fan of the airflow system to draw ambient air into the operator cab so as to provide a positive pressure differential when the cab sensor indicates the access of the operator cab is in the closed state and egress of ambient air out of the operator cab to the external environment is prevented; and (c) deactivate the airflow system when the cab sensor indicates the operator cab is in the open state. 2. The pressurization system of claim 1 , wherein the access is at least one of a door and a window and wherein the cab sensor is configured to sense an open position of the door or the window of the operator cab in the open state and a closed position of the door or the window of the operator cab in the closed state. 3. The pressurization system of claim 2 , wherein the airflow system includes an air filter, wherein the controller is operable to deactivate the airflow system by deactivating the fan. 4. The pressurization system of claim 3 , wherein the fan is a first fan, and the airflow system further comprises a second fan, wherein the first fan draws ambient air through the air filter into a mixing chamber in a first air stream, and the second fan draws air from the operator cab into the mixing chamber in a second air stream, wherein the first and second air streams mix in the mixing chamber for release into the operator cab. 5. The pressurization system of claim 1 , further comprising an alarm system, wherein the controller is operable to activate the alarm system when the pressure differential is negative. 6. The pressurization system of claim 5 , wherein activation of the alarm system comprises illumination of a visual indicator in the operator cab. 7. The pressurization system of claim 1 , wherein the controller activates the airflow system with closed loop control to achieve a set positive pressure differential. 8. The pressurization system of claim 7 , wherein the controller is configured to apply hysteresis before activating or deactivating the airflow system. 9. The pressurization system of claim 1 , wherein the controller is configured to monitor an elapsed time for activation of the airflow system. 10. A method for pressurizing an operator cab of an agricultural machine comprising: drawing ambient air into the operator cab with a fan of an airflow system; sensing a first pressure in the operator cab with a first pressure sensor; sensing a second pressure external to the operator cab with a second pressure sensor; sensing an open or closed state of the operator cab with a cab sensor; preventing the egress of ambient air from the operator cab with the operator cab in the closed state; determining a pressure differential by calculating a difference between the first and second pressures, wherein the pressure differential is positive when the first pressure is greater than the second pressure; activating the fan of the airflow system to draw ambient air into the operator cab so as to provide a positive pressure differential when the cab sensor indicates the operator cab is in the closed state and the egress of ambient air out of the operator cab to an external environment outside of the operator cab is prevented; and deactivating the airflow system when the cab sensor indicates the operator cab is in the open state. 11. The method of claim 10 , further comprising the cab sensor sensing an open position of a door or window of the operator cab in the open state and a closed position of the door or window of the operator cab in the closed state. 12. The method of claim 11 , wherein the airflow system comprises a fan and an air filter, and further comprising deactivating the airflow system by deactivating the fan. 13. The method of claim 10 , further comprising activating an alarm system when the pressure differential is negative. 14. The method of claim 10 , further comprising activating the airflow system with closed loop control to achieve a set positive pressure differential. 15. The method of claim 14 , further comprising applying hysteresis before activating or deactivating the airflow system. 16. The method of claim 10 , further comprising monitoring an elapsed time for activation of the airflow system. 17. An agricultural sprayer comprising: a chassis supported by a plurality of wheels, the chassis supporting an engine, a drive system, a lift arm assembly, and an operator cab having a cab door; a sprayer boom connected to the lift arm assembly; an airflow system including a fan configured to draw ambient air into the operator cab; a first pressure sensor configured to sense a first pressure in the operator cab; a second pressure sensor configured to sense a second pressure external to the operator cab; a cab sensor configured to sense an open or closed state of the cab door, the cab door preventing the egress of air from the operator cab with the cab door in the closed state; and a controller in communication with the airflow system, the first and second pressure sensors and the cab sensor, the controller executing a program stored in a non-transient medium operable to: (a) determine a pressure differential by calculating a difference between the first and second pressures, wherein the pressure differential is positive when the first pressure is greater than the second pressure; (b) activate the fan of the airflow system to draw ambient air into the operator cab so as to provide a positive pressure differential when the cab sensor indicates the cab door is in the closed state and the egress of ambient air out of the operator cab to an external environment outside of the operator cab is prevented; and (c) deactivate the airflow system when the cab sensor indicates the cab door is in the open state. 18. The agricultural sprayer of claim 17 , wherein the controller activates the airflow system until a minimum positive pressure differential is achieved and then deactivates the airflow system.