Fluid control assembly for mix-on-demand sprayer

What is claimed is: 1. A flow control assembly comprising: a) a manifold configured to be coupled to a positive displacement pump, wherein the manifold defines a fluid conduit having a fluid inlet, a pump supply outlet, a bypass inlet and a mixing chamber between the fluid inlet and both of the pump supply outlet and the bypass inlet; b) a fluid input unit fluidly coupled to the fluid inlet of the manifold, wherein the fluid input unit includes a diluent input configured to receive a fixed flow of a diluent from a diluent tank, and a concentrate input configured to receive a selectively adjustable flow of a liquid concentrate from a concentrate tank, wherein the mixing chamber of the fluid conduit is configured to mix the diluent and the liquid concentrate to form a mixed solution to be delivered through the pump supply outlet to a pump inlet on the positive displacement pump; and c) a bypass unit having a bypass conduit fluidly coupled to the bypass inlet of the manifold and a high pressure input configured to couple to a high pressure output on the positive displacement pump to receive a high pressure mixed fluid therefrom, wherein the bypass unit includes a bypass valve positionable within the bypass inlet of the manifold between a closed position and an open position, wherein the bypass valve is in the closed position when the high pressure mixed fluid is below a threshold pressure, and wherein the bypass valve is in the open position when the high pressure mixed fluid is above the threshold pressure whereby a portion of the high pressure mixed fluid is reintroduced to the mixing chamber of the fluid conduit of the manifold via the bypass conduit and the bypass inlet. 2. The flow control assembly of claim 1 wherein the fluid input unit further includes a concentrate needle valve assembly coupled to the concentrate input whereby the concentrate needle valve assembly is configured to selectively control the adjustable flow of the liquid concentrate from the concentrate tank. 3. The flow control assembly of claim 1 wherein the fluid input unit further includes a diluent shut-off valve assembly coupled to the diluent input wherein the diluent shut-off valve assembly includes a diluent shut-off valve positionable between a closed position and an open position, wherein the fixed flow of the diluent is prevented when the diluent shut-off valve is in the closed position, and wherein the fixed flow of the diluent is enabled when the diluent shut-off valve is in the open position. 4. The flow control assembly of claim 3 wherein the diluent shut-off valve includes a spring-loaded plunger having a spring biasing the plunger to the closed position. 5. The flow control assembly of claim 4 wherein the diluent shut-off valve is manually actuatable and includes a knob coupled to the plunger to retract the plunger to the open position or is mechanically actuatable and includes a solenoid coupled to the plunger which operates to retract the plunger to the open position when the solenoid is powered. 6. The flow control assembly of claim 1 wherein the bypass valve includes a spring-loaded plunger having a spring biasing the plunger to the closed position. 7. The flow control assembly of claim 6 wherein the bypass unit further includes a knob coupled to the bypass valve, whereby actuation of the knob changes the biasing force of the spring-loaded plunger to thereby selectively adjust the threshold pressure. 8. The flow control assembly of claim 1 wherein the bypass unit further includes a pressure gage configured to monitor a fluid pressure of the high pressure mixed fluid within the bypass unit. 9. The flow control assembly of claim 1 wherein the manifold includes a check valve between the mixing chamber and the fluid inlet wherein the check valve is configured to prevent backflow of the mixed solution toward the diluent tank. 10. A flow control assembly comprising: a) a manifold configured to be coupled to a positive displacement pump, wherein the manifold defines a fluid conduit having a fluid inlet, a pump supply outlet, a bypass inlet, a mixing chamber between the fluid inlet and both of the pump supply outlet and the bypass inlet, and a check valve between the mixing chamber and the fluid inlet; b) a fluid input unit fluidly coupled to the fluid inlet of the manifold, wherein the fluid input unit includes: i) a diluent input configured to receive a fixed flow of a diluent from a diluent tank; ii) a diluent shut-off valve assembly coupled to the diluent input wherein the diluent shut-off valve assembly includes a diluent shut-off valve positionable between a closed position and an open position, wherein the fixed flow of the diluent is prevented when the diluent shut-off valve is in the closed position, and wherein the fixed flow of the diluent is enabled when the diluent shut-off valve is in the open position, and wherein the diluent shut-off valve includes a spring-loaded plunger having a spring biasing the plunger to the closed position, wherein the shut-off valve is manually actuatable and includes a knob coupled to the plunger to retract the plunger to the open position or is mechanically actuatable and includes a solenoid coupled to the plunger which operates to retract the plunger to the open position when the solenoid is powered; iii) a concentrate input configured to receive a selectively adjustable flow of a liquid concentrate from a concentrate tank and a concentrate needle valve assembly coupled to the concentrate input whereby the concentrate needle valve assembly is configured to selectively control the adjustable flow of the liquid concentrate from the concentrate tank, wherein the mixing chamber of the fluid conduit is configured to mix the diluent and the liquid concentrate to form a mixed solution to be delivered through the pump supply outlet to a pump inlet on the positive displacement pump and wherein the check valve is configured to prevent backflow of the mixed solution toward the diluent tank; and c) a bypass unit having a bypass conduit fluidly coupled to the bypass inlet of the manifold and a high pressure input configured to couple to a high pressure output on the positive displacement pump to receive a high pressure mixed fluid therefrom, wherein the bypass unit includes: i) a bypass valve including a spring-loaded plunger positionable within the bypass inlet between a closed position and an open position, wherein the bypass valve is biased via a spring to the closed position when the high pressure mixed fluid is below a threshold pressure, and wherein the bypass valve is driven to the open position when the high pressure mixed fluid is above the threshold pressure whereby a portion of the high pressure mixed fluid is reintroduced to the mixing chamber of the fluid conduit of the manifold via the bypass conduit and the bypass inlet; ii) a knob coupled to the bypass valve, whereby actuation of the knob changes the biasing force of the spring-loaded plunger to thereby selectively adjust the threshold pressure; and iii) a pressure gage configured to monitor fluid pressure of the high pressure mixed fluid within the bypass unit. 11. A sprayer system comprising: a) a diluent tank configured to hold a diluent; b) a concentrate tank configured to hold a liquid concentrate; c) a positive displacement pump having a pump inlet and a high pressure output; and d) a flow control assembly comprising: i) a manifold coupled to the positive displacement pump, wherein the manifold defines a fluid conduit having a fluid inlet, a pump supply outlet, a bypass inlet and a mixing chamber between the fluid inlet and both of the pump supply outlet and the bypass inlet; ii) a fluid input unit flu