Feed center for dense phase system

We claim: 1. A feed center for feeding a powder coating material to an applicator, the feed center comprising: a hopper in fluid communication with a fluidizing pressure source; an extraction duct in fluid communication with at least one suction source; and a control valve connecting the extraction duct with an extraction port of the hopper, the control valve being operable between a first position where an exterior opening in at least one of the control valve and the extraction duct is closed for applying suction from the at least one suction source to the hopper, and a second position where the exterior opening is open for allowing fluidizing air to escape the hopper. 2. The feed center of claim 1 , wherein the control valve comprises a sleeve that is slideable with respect to one of the extraction duct and the hopper between the first position and the second position. 3. The feed center of claim 2 , wherein the sleeve is rotationally slideable between the first position and the second position. 4. The feed center of claim 2 , wherein the sleeve is slideable in an axial direction to selectively disconnect the hopper from the extraction duct. 5. The feed center of claim 2 , wherein the sleeve comprises a first sleeve portion defining a first sleeve opening and a second sleeve portion defining a second sleeve opening, with the second sleeve portion being slideable with respect to the first sleeve portion, such that first and second sleeve openings align to define the exterior opening when the control valve is in the second position, and the first and second sleeve openings misalign to allow for suction from the at least one suction source to the hopper when the control valve is in the first position. 6. The feed center of claim 1 , wherein the hopper includes a cap defining the extraction port, the cap being pivotable from a closed position to an open position when the extraction port is disconnected from the extraction duct. 7. The feed center of claim 6 , wherein the extraction duct is a first extraction duct, and wherein when the cap is in the open position, the extraction port is in fluid communication with a second extraction duct. 8. The feed center of claim 7 , wherein the second extraction duct is in fluid communication with the at least one suction source. 9. The feed center of claim 7 , wherein the second extraction duct defines an opening sized and positioned to receive an end portion of the extraction port when the cap is in the open position. 10. The feed center of claim 1 , wherein the extraction duct is a first extraction duct, the feed center further comprising an enclosure surrounding the hopper and the control valve, and a second extraction duct at least partially disposed in the enclosure, the second extraction duct being in fluid communication with the at least one suction source to pull powder coating material exterior to the hopper into the second extraction duct for cleaning the feed center enclosure. 11. The feed center of claim 10 , wherein the first extraction duct is in fluid communication with a first suction source of the at least one suction source, and the second extraction duct is in fluid communication with a second suction source of the at least one suction source. 12. The feed center of claim 1 , wherein the hopper comprises at least one outlet port in an outer wall of the hopper, the at least one outlet port being in fluid communication with at least one applicator pump configured to apply suction to the hopper to pull fluidized powder coating material from the hopper. 13. The feed center of claim 1 , wherein the hopper is releasably connected to the fluidizing pressure source. 14. The feed center of claim 1 , wherein the extraction duct is releasably connected to the at least one suction source. 15. A feed center for feeding a powder coating material to an applicator, the feed center comprising: a hopper in fluid communication with a fluidizing pressure source; an extraction duct in fluid communication with at least one suction source; and a control valve connecting the extraction duct with an extraction port of the hopper, the control valve including a sleeve that is slideable with respect to one of the extraction duct and the hopper between a first position and a second position, wherein 1) when the sleeve is in the first position, the sleeve closes an exterior opening in at least one of the control valve and the extraction duct and the at least one suction source can apply suction to the hopper, and 2) when the sleeve is in the second position, the sleeve opens the exterior opening. 16. The feed center of claim 15 , wherein the sleeve is rotationally slideable between the first position and the second position. 17. The feed center of claim 15 , wherein the sleeve is slideable in an axial direction to selectively disconnect the hopper from the extraction duct. 18. The feed center of claim 15 , wherein the sleeve comprises a first sleeve portion defining a first sleeve opening and a second sleeve portion defining a second sleeve opening, with the second sleeve portion being slideable with respect to the first sleeve portion, such that first and second sleeve openings align to define the exterior opening when the control valve is in the second position, and the first and second sleeve openings misalign to allow for suction from the at least one suction source to the hopper when the control valve is in the first position. 19. The feed center of claim 15 , wherein the hopper is releasably connected to the fluidizing pressure source. 20. The feed center of claim 15 , wherein the extraction duct is releasably connected to the at least one suction source.