Spray system pump wash sequence

The invention claimed is: 1. A fluid change method for a multi-fluid spray system having a plurality of primary fluid sources with an output line and a common pump, the method comprising: halting pumping of a first fluid from a first primary fluid source through the output line; isolating the common pump from the output line and the primary fluid sources; connecting an inlet of the common pump to a solvent source and a compressed air source, and an outlet of the common pump to a waste fluid dump; filling the common pump with a first purge volume of washing solvent from the solvent source; cycling the common pump in a flush mode to flush dirty solvent from the common pump; operating the common pump in a timed flow mode to fill the common pump with an air stream from the compressed air source and washing solvent in an alternating fashion; connecting an inlet of the common pump to a second primary fluid source, and actuating the pump in the pumping mode; connecting an outlet of the common pump to the output line; and starting pumping of a second fluid from the second primary fluid source through the output line. 2. The method of claim 1 , wherein the common pump is a double-action linear pump with a reciprocating plunger and “up” and “down” inlet and outlet valves. 3. The method of claim 1 , wherein isolating the common pump from the output line and the primary fluid sources comprises closing valves connecting the output line and the solvent source. 4. The method of claim 3 , wherein a valved inlet manifold selectively couples the inlet of the common to pump the first and second fluid sources, the solvent source, and the compressed air source, individually. 5. The method of claim 4 , wherein operating the common pump in the timed flow mode comprises alternatingly opening a solvent source inlet valve for a first length of time and a compressed air source inlet valve for a second length of time. 6. The method of claim 1 and further comprising: filling the common pump with a second purge volume of the washing solvent and cycling the pump to flush waste air and solvent from the pump. 7. The method of claim 1 , wherein connecting an outlet of the common pump to a waste fluid dump comprises closing valves connecting the common pump to the output line and opening valves connecting the common pump the waste fluid dump. 8. The method of claim 7 , wherein a valved outlet manifold selectively couples the outlet of the common pump to the outlet line and the waste fluid dump, individually. 9. The method of claim 1 , wherein the washing solvent is an alcohol, ester, ketone, aliphatic petroleum naphtha, or aromatic hydrocarbon. 10. A spray system comprising: a first fluid source and a first sprayer for a spraying first spray fluid; a second fluid source and a second sprayer for spraying a second spray fluid; a solvent source for providing a washing solvent; a compressed air source for providing an air stream; a waste fluid dump; a pump comprising: a metered double-action pumping cylinder with a reciprocating plunger; first and second inlet valves; and first and second outlet valves; a valved inlet manifold configured to selectively couple the pump to the first and second fluid sources, the solvent source, and the compressed air source; a valved outlet manifold configured to selectively couple the pump to the first and second sprayers and the waste fluid dump; and a controller configured to control the pump to spray the first fluid during a first operational state and the second fluid in a second operational state; and to transition from the first operational state to the second operational state via an intermediate washing process wherein during the intermediate washing process the valved inlet manifold connects the pump to the solvent source and the compressed air source, the valved outlet manifold connects the pump to the waste fluid dump, and the pump is actuated first in a pumping mode to flush the first fluid from the pump, then in a timed flow mode mode to direct washing solvent and compressed air through the pump, and then a flush mode to flush waste air and solvent from the pump. 11. The spray system of claim 10 , wherein the first operational state comprises: the valved inlet manifold connecting the pump to the first fluid source; the valved outlet manifold connecting the pump to the first sprayer; and the pump actuating in the pumping mode to pump the first fluid through the sprayer. 12. The spray system of claim 10 , wherein actuating the common pump in a pumping mode comprises: alternatingly executing a down-stroke of the reciprocating plunger with the first inlet and outlet valves open and the second inlet and outlet valves closed and an up-stroke of the reciprocating plunger with the second inlet and outlet valves open and the first inlet and outlet valves closed. 13. The spray system of claim 10 , wherein actuating the common pump in a timed flow mode comprises alternatingly opening a solvent source inlet valve for a first length of time and a compressed air source inlet valve for a second length of time. 14. The spray system of claim 10 , wherein the solvent is an alcohol, ester, ketone, aliphatic petroleum naphtha, or aromatic hydrocarbon. 15. The spray system of claim 10 , wherein valving of the pump, the valved inlet manifold, and the valved outlet manifold are all controlled by the controller.