Laser ablation cleaning
First Claim
1. An apparatus for performing laser ablation cleaning of a surface, the apparatus comprising:
- a laser source for generating a laser beam;
a beam delivery system for transmitting the beam from said source to a workhead; and
a workhead comprising;
an optical box having a beam entrance and a beam exit and enclosing an interior containing a first mirror and a second mirror for directing said beam from said entrance toward the surface;
means for positively pressurizing the interior of said optical box to induce an air stream out said beam exit; and
a vacuum nozzle adjacent said beam exit, said nozzle in fluid communication with a vacuum unit for providing negative pressure in said nozzle to induce an airflow through said nozzle;
wherein material ablated from the surface is entrained into said airflow in said nozzle.
1 Assignment
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Accused Products
Abstract
Laser ablation cleaning apparatus. An optical box containing mirrors for specially directing laser light, such as repeated pulsed CO2 laser, is mounted in a hand-held cleaning head or in a custom work head. The hand-held cleaning head can be used to safely direct laser energy to a surface to be cleaned; the laser beam ablates from the surface coatings, corrosion, and the like without harming the substrate. The custom work head is removably mountable upon the iron core stack of a conventional commercial electric generator, and features an optics box carriage that is selectively movable along the axis of the stack to direct a laser beam into the slots of the stack for cleaning.
74 Citations
22 Claims
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1. An apparatus for performing laser ablation cleaning of a surface, the apparatus comprising:
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a laser source for generating a laser beam;
a beam delivery system for transmitting the beam from said source to a workhead; and
a workhead comprising;
an optical box having a beam entrance and a beam exit and enclosing an interior containing a first mirror and a second mirror for directing said beam from said entrance toward the surface;
means for positively pressurizing the interior of said optical box to induce an air stream out said beam exit; and
a vacuum nozzle adjacent said beam exit, said nozzle in fluid communication with a vacuum unit for providing negative pressure in said nozzle to induce an airflow through said nozzle;
wherein material ablated from the surface is entrained into said airflow in said nozzle. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
an axial launch mirror for directing said laser beam from said laser source down the longitudinal axis of the core of the stack;
at least one adjustable jig assembly, releasably attachable to the core iron stack, for fixing said launch mirror upon the longitudinal axis;
at least one carriage rail disposable axially within the core of the stack;
means for rotatably mounting said rail to said jig assembly; and
a carriage, mounting said workhead including said optical box and nozzle, said carriage movable along said at least one rail for selective axial positioning of said carriage on the longitudinal axis within said core;
wherein said carriage is controllably rotatable in relation to the longitudinal axis to radially said beam exit with the slot thereby to direct said laser beam toward said slot.
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7. An apparatus according to claim 6 wherein said jig assembly comprises a central hub and at least two spokes extending radially from said hub, said spokes having adjustable lengths.
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8. An apparatus according to claim 7 wherein said jig assembly comprises three uniformly spaced spokes.
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9. An apparatus according to claim 8 further comprising means for uniformly adjusting the lengths of said three spokes, thereby to position said axial launch mirror and said carriage on the longitudinal axis of stacks of differing diameters.
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10. An apparatus according to claim 9 wherein said second mirror is dithered for controlled to-and-fro pivoting.
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11. A system for performing laser ablation cleaning of a surface, the system comprising:
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a laser source for generating a laser beam, said source including a laser dust-reject subsystem;
a beam delivery system for transmitting the beam from said source to a workhead; and
a workhead comprising;
an optical box having a beam entrance and a beam exit and enclosing an interior containing a first mirror and a second mirror for directing said beam from said entrance toward the surface;
means for positively pressurizing the interior of said optical box to induce an air stream out said beam exit; and
a vacuum nozzle adjacent said beam exit, said nozzle in fluid communication with a vacuum unit for providing negative pressure in said nozzle to induce an airflow through said nozzle;
wherein said workhead is hand-led and further comprises a triggered gun housing for containing said optical box, and further wherein material ablated from the surface is entrained into said airflow in said nozzle. - View Dependent Claims (12, 13, 14, 15)
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16. A system for laser ablation cleaning of a slot in a core stack of an electrical generator, the stack having a longitudinal axis, the system comprising:
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a laser source for generating a laser beam;
a beam delivery system for transmitting the beam from said source to a workhead; and
a workhead comprising;
an optical box having a beam entrance and a beam exit and enclosing an interior containing a first mirror and a second mirror for directing said beam from said entrance toward the surface;
means for positively pressurizing the interior of said optical box to induce an air stream out said beam exit; and
a vacuum nozzle adjacent said beam exit, said nozzle in fluid communication with a vacuum unit for providing negative pressure in said nozzle to induce an airflow through said nozzle;
an axial launch mirror for directing said laser beam from said laser source down the longitudinal axis of the core of the stack;
at least one adjustable jig assembly, releasably attachable to the core iron stack, for fixing said launch mirror upon the longitudinal axis;
at least one carriage rail disposable axially within the core of the stack;
means for rotatably mounting said rail to said jig assembly; and
a carriage, mounting said workhead including said optical box and nozzle, said carriage movable along said at least one rail for selective axial positioning of said carriage on the longitudinal axis within said core;
wherein said carriage is controllably rotatable in relation to the longitudinal axis to radially said beam exit with the slot thereby to direct said laser beam toward said slot, and wherein material ablated from the surface is entrained into said airflow in said nozzle. - View Dependent Claims (17, 18, 19, 20, 21, 22)
a rotatable ring gear;
pinion gears, corresponding in number to said spokes, in operative connection with said ring gear; and
a toothed rack on a movable segment of each of said spokes and engaged with said pinion gear;
wherein rotary motion of said ring gear causes said pinion gears to rotate thereby uniformly moving said movable segments of said spokes.
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21. A system according to claim 19 wherein said means for uniformly adjusting comprises:
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an endless gearbelt;
pinion gears, corresponding in number to said spokes, in operative connection with said gearbelt; and
a toothed rack on a segment of each of said spokes and engaged with said pinion gear;
wherein movement of said gearbelt causes said pinion gears to rotate thereby uniformly moving said movable segments of said spokes.
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22. A system according to claim 16 wherein said second mirror is dithered for controlled to-and-fro pivoting.
Specification