Masking removal machines, and methods of masking removal

What is claimed is: 1. An automated masking removal machine comprising a head assembly and a processing station, the processing station constructed to retain a glazing pane in a processing position wherein a masked surface of the glazing pane is oriented toward the head assembly, the head assembly comprising a cutting unit including two spaced-part cutters constructed to engage and move along the masked surface of the glazing pane so as to make two respective cuts in a masking film of the masked surface of the glazing pane and thereby cut a portion from the masking film, the head assembly further comprising two spaced-apart belts constructed to engage and move along the masked surface of the glazing pane. 2. The automated masking removal machine of claim 1 wherein the cutting unit is located on a leading portion of the head assembly and the two belts are located on a trailing portion of the head assembly, such that the automated masking removal machine is constructed to move the head assembly along the masked surface of the glazing pane with the two cutters ahead of the two belts. 3. The automated masking removal machine of claim 1 wherein the two belts are spaced further apart from each other than are the two cutters, the two belts constructed to engage and move along the masked surface of the glazing pane so as to apply pressure to the masking film that is to remain on the masked surface and thereby prevent edges of the masking film adjacent the cuts from bubbling or being lifted off the masked surface. 4. The automated masking removal machine of claim 1 further comprising one or more pressurized gas nozzles located between the two belts. 5. The automated masking removal machine of claim 4 wherein the one or more nozzles comprise at least three nozzles. 6. The automated masking removal machine of claim 4 wherein the one or more nozzles include two adjustable nozzles spaced apart from each other by a width, the two adjustable nozzles mounted on the head assembly adjustably such that the width can be changed by moving the two adjustable nozzles closer together or further apart. 7. The automated masking removal machine of claim 1 wherein the two belts are mounted on the cutting head such that a separation distance between them is adjustable. 8. The automated masking removal machine of claim 7 wherein each of the two belts is mounted on a pair of rotatable sprockets, such that there are two pairs of rotatable sprockets and each of the two belts is constructed to circulate on a respective one of the two pairs of rotatable sprockets. 9. The automated masking removal machine of claim 8 wherein the two pairs of rotatable sprockets are mounted respectively on two adjustable bases, the two adjustable bases mounted on the head assembly so as to be moveable toward or away from each other. 10. The automated masking removal machine of claim 9 further comprising at least one gas nozzle mounted on each of the two adjustable bases. 11. An automated masking removal machine comprising a head assembly and a processing station, the processing station constructed to retain a glazing pane in a processing position wherein a masked surface of the glazing pane is oriented toward the head assembly, the head assembly comprising a cutting unit including two spaced-part cutters constructed to engage and move along the masked surface of the glazing pane so as to make two respective cuts in a masking film of the masked surface of the glazing pane and thereby cut a portion from the masking film, the two cutters spaced apart by an adjustable width, the head assembly further comprising a plurality of nozzles positioned to deliver one or more pressurized gas streams toward the portion cut from the masking film, wherein the plurality of nozzles includes two adjustable nozzles spaced apart from each other by a separation width, the separation width of the two adjustable nozzles measured parallel to the adjustable width of the two cutters, the two adjustable nozzles mounted on the head assembly adjustably such that the separation width can be changed by moving the two adjustable nozzles closer together or further apart, wherein the two adjustable nozzles are mounted respectively on two bases having between them a spacing that can be changed, such that changing the spacing between the two bases changes the separation width between the two adjustable nozzles. 12. The automated masking removal machine of claim 11 wherein the plurality of nozzles is operable at a pressure of greater than 175 psi. 13. The automated masking removal machine of claim 12 wherein the pressure is about 200 psi or more. 14. The automated masking removal machine of claim 11 wherein the plurality of nozzles comprises five nozzles. 15. The automated masking removal machine of claim 11 wherein the head assembly further comprises two spaced-apart belts constructed to engage and move along the masked surface of the glazing pane. 16. The automated masking removal machine of claim 15 wherein each of the two belts is mounted on a pair of rotatable sprockets, such that there are two pairs of rotatable sprockets and each of the two belts is constructed to circulate on a respective one of the two pairs of rotatable sprockets, wherein the two rotatable sprockets are mounted respectively on two adjustable bases, and the two adjustable bases are mounted on the head assembly so as to be moveable toward or away from each other, and further comprising at least one gas nozzle mounted on each of the two adjustable bases. 17. An automated masking removal machine comprising a head assembly and a processing station, the processing station constructed to retain a glazing pane in a processing position wherein a masked surface of the glazing pane is oriented toward the head assembly, the head assembly comprising a cutting unit including three spaced-apart cutters constructed to engage and move along the masked surface of the glazing pane so as to make three respective cuts in a masking film of the masked surface of the glazing pane and thereby cut a portion from the masking film, such that the three cuts are two outer cuts and a central cut, the three cutters including two outside cutters and a central cutter, the two outside cutters configured to make the two outer cuts, and the central cutter configured to make the central cut, the central cutter being located between the two outside cutters, the head assembly further comprising one or more nozzles positioned to deliver one or more pressurized gas streams toward the portion cut from the masking film, and the cutting unit further comprising a knurling tool, the knurling tool being aligned with the central cutter such that the knurling tool is positioned to act on the masking film at the central cut to provide an entrance for high-pressure air from the one or more nozzles such that two resulting cut-strip halves of the portion cut from the masking film are blown up and away from each other and off the masked surface of the glazing pane. 18. The automated masking removal machine of claim 17 wherein the two outside cutters are two adjustable cutters, and the central cutter is a fixed central cutter, such that the two adjustable cutters are spaced apart by an adjustable width. 19. The automated masking removal machine of claim 17 wherein the three cutters are located on a leading portion of the cutting unit and the knurling tool is located on a trailing portion of the cutting unit, such that the automated masking removal machine is constructed to move the cutting unit along the masked surface