Automatic rinse system for an agricultural sprayer

We claim: 1. A rinse system for a self-propelled agricultural sprayer, the rinse system comprising: a product storage system having a product tank storing an agricultural liquid product on a chassis of the sprayer; a rinse liquid storage system having a rinse tank storing a rinse liquid on the chassis; a spray boom supported by the chassis of the sprayer and defining multiple spray sections for receiving the liquid product and the rinse liquid and selectively delivering the liquid product and the rinse liquid to a field; a pump arranged between the spray boom and the product and rinse tanks for delivering liquid product and rinse liquid from the product and rinse tanks to the spray boom, respectively, the pump being configured to deliver the rinse liquid in first and second liquid flow directions during a rinse cycle; an on-board valve system including a product tank outlet valve configured to actuate between a closed position preventing flow of the liquid product out of the product tank and an open position permitting flow of the liquid product out of the product tank and a rinse tank outlet valve configured to actuate between a closed position preventing flow of the rinse liquid out of the rinse tank and an open position permitting flow of the rinse liquid out of the rinse tank; a boom valve system including multiple spray section feed valves, wherein each of the spray section feed valves is configured to actuate between a closed position preventing flow of the liquid product and the rinse liquid through a respective spray section and an open position permitting flow of the liquid product and the rinse liquid through the respective spray section; plumbing components connecting the product storage system, the rinse liquid storage system and the spray boom via the on-board and boom valve systems; and a control system operatively connected to the on-board and boom valve systems, the control system including a user interface adapted to receive a user instruction regarding operation of the product tank outlet valve, the rinse tank outlet valve and each of the multiple spray section feed valves and being configured to: evaluate the user instruction to determine if the user instruction received is erroneous, and if so, provide to the user at least one of a first signal indicating the user instruction is erroneous and a second signal indicating the erroneous user instruction may be overwritten; and actuate one or more of the product tank outlet valve, the rinse tank outlet valve and the spray section feed valves for rinsing at least some of the plumbing components with the rinse liquid in response to one of a non-erroneous user instruction and an overwritten erroneous user instruction; and inhibit energizing of the pump with both the product tank valve and the rinse tank outlet valve in the closed positions. 2. The rinse system of claim 1 , wherein the user interface of the control system further includes a configuration input adapted to allow the user to configure one or more aspects of the rinsing. 3. The rinse system of claim 2 , wherein the user interface includes a selector to allow the user to configure the rinse system to rinse the product tank with the rinse liquid. 4. The rinse system of claim 2 , wherein the user interface includes a selector to allow the user to configure the rinse system for a duration for rinsing, wherein the duration for rinsing controls a time in which each of the product tank outlet valve, the rinse tank outlet valve and the spray section feed valves are actuated during the rinsing. 5. The rinse system of claim 2 , wherein the user interface includes a selector to allow the user to configure the rinse system for a number of rinse cycles for the rinsing, wherein each rinse cycle provides actuation of each of the product tank outlet valve, the rinse tank outlet valve and the spray section feed valves in an open position permitting flow of the rinse liquid and in a closed position preventing flow of the rinse liquid. 6. The rinse system of claim 1 , wherein the user interface includes a touchscreen with a first set of buttons controlling the boom valve system, a second set of buttons controlling the on-board valve system, and a rinse button for receiving the rinse command. 7. The rinse system of claim 6 , wherein the rinse command is communicated to the control system through an International Organization for Standardization (ISO) bus or a Controller Area Network (CAN) bus. 8. The rinse system of claim 1 , wherein the user interface of the control system includes a display, the display configured to display the first signal when the pump is activated with both the product outlet valve in the closed position and the rinse tank outlet valve in the closed position. 9. A rinse system for a self-propelled agricultural sprayer, the rinse system comprising: a product storage system having a product tank storing an agricultural liquid product on a chassis of the sprayer; a rinse liquid storage system having a rinse tank storing a rinse liquid on the chassis; a spray boom supported by the chassis of the sprayer and defining multiple spray sections for receiving the liquid product and the rinse liquid and selectively delivering the liquid product and the rinse liquid to a field; an on-board valve system including a product tank outlet valve configured to actuate between a closed position preventing flow of the liquid product out of the product tank and an open position permitting flow of the liquid product out of the product tank and a rinse tank outlet valve configured to actuate between a closed position preventing flow of the rinse liquid out of the rinse tank and an open position permitting flow of the rinse liquid out of the rinse tank; a boom valve system including multiple spray section feed valves, wherein each of the spray section feed valves is configured to actuate between a closed position preventing flow of the liquid product and the rinse liquid through a respective spray section and an open position permitting flow of the liquid product and the rinse liquid through the respective spray section; plumbing components connecting the product storage system, the rinse liquid storage system and the spray boom via the on-board and boom valve systems; and a control system operatively connected to the on-board and boom valve systems, the control system including a user interface adapted to receive a user instruction regarding operation of the product tank outlet valve, the rinse tank outlet valve and each of the multiple spray section feed valves and being configured to: evaluate the user instruction to determine if the user instruction received is erroneous, and if so, provide to the user at least one of a first signal indicating the user instruction is erroneous and a second signal indicating the erroneous user instruction may be overwritten; and actuate one or more of the product tank outlet valve, the rinse tank outlet valve and the spray section feed valves for rinsing at least some of the plumbing components with the rinse liquid in response to one of a non-erroneous user instruction and an overwritten erroneous user instruction; wherein the user interface of the control system includes a display, the display configured to display the first signal in response to a request to activate the pump when both the product outlet valve and the rinse tank outlet valve are in the closed position. 10. The rinse system of claim 8 , wherein the user interface of the control system includes a display, the display configured to display the first signal when both the product outlet valve and the rinse tank outlet valve are in the open position. 11. The fluid flow system o