Claims
- 1. A method of powder coating a workpiece in a housing having a powder coating area with a workpiece travel path and an interior wall surface sloped around at least a portion of the workpiece travel path, the method comprising:producing a cloud of powder particles in said powder coating area, moving air in said powder coating area at locations along said sloped interior wall surface to produce a flow pattern of air and powder particles generally swirling around at least a portion of said workpiece travel path, and conveying said workpiece along said workpiece travel path such that said powder particles are deposited on said workpiece.
- 2. The method of claim 1, further comprising:producing a cloud of charged powder particles in the producing step, directing positively pressurized air into the powder coating area in the moving step, and conveying said workpiece at an electrical potential opposite to the charge on said powder particles in the conveying step.
- 3. The method of claim 2, wherein the step of producing a cloud of charged powder particles in said powder coating area further comprises:using ionized air to fluidize a bed of powder communicating with said powder coating area.
- 4. The method of claim 2, wherein the step of producing a cloud of charged powder particles in said powder coating area further comprises:directing charged powder particles into said powder coating area with pressurized air.
- 5. The method of claim 4, wherein the step of directing charged powder particles further comprises:introducing said charged powder particles with the pressurized air being directed against said sloped interior wall surface.
- 6. The method of claim 2, wherein the sloped interior wall surface further comprises a curved wall surface and the step of directing said positively pressurized air into said powder coating area further comprises:directing the pressurized air against said curved wall surface to produce said swirling flow pattern of air and charged powder particles.
- 7. The method of claim 2, wherein the sloped interior wall surface includes a length and the step of directing said positively pressurized air into said powder coating area further comprises:directing the pressurized air through a plurality of air inputs disposed along the length of said sloped interior wall surface.
- 8. A method of powder coating a workpiece in a housing having a powder coating area with a workpiece travel path and an interior wall surface sloped around at least a portion of the workpiece travel path, wherein the powder coating area includes an inlet and an outlet for receiving the workpiece, the method comprising:producing a cloud of powder particles in said powder coating area, moving air in said powder coating area at locations along said sloped interior wall surface to produce a flow pattern of air and powder particles generally swirling around at least a portion of said workpiece travel path, conveying said workpiece along said workpiece travel path such that said powder particles are deposited on said workpiece, and drawing air and powder out of said housing using respective vacuum-induced vortex air flow patterns proximate the inlet and outlet.
- 9. A method of powder coating a workpiece in a housing having a powder coating area with a workpiece travel path and at least one vortex generator including an elongate tubular structure disposed around at least a portion of the workpiece travel path, the tubular structure being elongated in a direction coaxial to the vortex flow, the method comprising:directing powder particles into said powder coating area, introducing pressurized air generally tangentially into said elongate tubular structure to produce a swirling pattern of air, directing the swirling pattern of air into the powder coating area and around at least a portion of the workpiece travel path, and conveying said workpiece along said workpiece travel path such that said powder particles are deposited on said workpiece.
- 10. The method of claim 9 further comprising:directing charged powder particles into said powder coating area in the directing step, and conveying said workpiece at an electrical potential opposite to the charge on said powder particles in the conveying step.
- 11. The method of claim 10, wherein the step of directing charged powder particles into said powder coating area further comprises:using ionized air to fluidize a bed of powder communicating with said powder coating area.
- 12. The method of claim 10, wherein the step of directing charged powder particles into said powder coating area further comprises:directing the charged powder particles into said swirling pattern of air in said tubular structure.
- 13. The method of claim 9, wherein the housing further comprises a pair of said vortex generators each respectively comprising inner and outer tubular structures with at least one annular space therebetween, and the method further comprises:introducing pressurized air into the annular spaces of said vortex generators to produce swirling patterns of air therein, and directing the swirling patterns of air into the powder coating area and around the workpiece travel path.
- 14. A method of powder coating a workpiece in a housing having a powder coating area with a workpiece travel path and an interior wall surface sloped around at least a portion of the workpiece travel path, wherein the powder coating area includes an inlet and an outlet for receiving the workpiece, the method comprising:producing a cloud of powder particles in said powder coating area, conveying said workpiece along said workpiece travel path such that said powder particles are deposited on said workpiece, and drawing air and powder out of said housing using respective vacuum-induced vortex air flow patterns proximate the inlet and outlet.
Parent Case Info
This application is a divisional of application Ser. No. 09/196,677 filed Nov. 20, 1998, now U.S. Pat. No. 6,240,873.
US Referenced Citations (6)