Apparatus and method for multi-beam direct engraving of elastomeric printing plates and sleeves
First Claim
1. A method of laser engraving a printing plate or a printing sleeve, the method comprising:
- emitting from a laser source an incident laser beam with sufficient power output to directly engrave an elastomeric printing plate or sleeve positioned on an imaging drum of a drum imager or on a flat bed of a flatbed imager, the drum or sleeve of the drum imager being rotatable around a longitudinal axis, and having a longitudinal direction defined by the axis of rotation and a transverse direction defined along the circumference of the drum, the flatbed imager having a longitudinal direction and a transverse direction perpendicular to the longitudinal direction, the plate or sleeve having an outer surface and an elastomeric body;
splitting the laser beam by one or more beam splitters to create a plurality of split beams;
simultaneously modulating the plurality of split beams using a plurality of optical-beam modulators to create one or more modulated beams from each split beam, each respective optical-beam modulator controlled according to a respective portion of imaging data; and
simultaneously focusing the one or more modulated beams to create one or more focused modulated beams, the focused modulated beams focused at a plurality of depths from the outer surface of the printing plate or sleeve, each focused modulated beam having an intensity;
wherein each focused modulated beam has a focal spot with a focal size, and at least two respective focal spots of two respective focused modulated beams are at different locations on the outer surface of the printing plate or sleeve, have a different intensity, and are focused at different respective depth levels in the body of the printing plate or sleeve, such that the outer surface of the printing plate or sleeve is simultaneously engraved by the plurality of modulated beams of different respective focal spot sizes on the outer surface; and
wherein the focused modulated beams build a row along the longitudinal direction of the printing plate or sleeve.
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Abstract
Described herein are an apparatus and a method for direct engraving an elastomeric printing plate or sleeve by multiple laser beams simultaneously. In one embodiment, an elastomeric printing plate or sleeve is positioned on an imaging drum for direct engraving. The imaging drum is rotatable around its longitudinal axis. Such rotation defines a circumferential direction, also called the transverse direction. The axis of rotation defines an axial direction, also called the longitudinal direction. The printing plate or sleeve has an body and a surface made of an elastomer (made of polymer or rubber). A drive mechanism provides relative motion between a plurality of laser beams and the plate or sleeve in both the transverse and longitudinal directions.
14 Citations
19 Claims
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1. A method of laser engraving a printing plate or a printing sleeve, the method comprising:
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emitting from a laser source an incident laser beam with sufficient power output to directly engrave an elastomeric printing plate or sleeve positioned on an imaging drum of a drum imager or on a flat bed of a flatbed imager, the drum or sleeve of the drum imager being rotatable around a longitudinal axis, and having a longitudinal direction defined by the axis of rotation and a transverse direction defined along the circumference of the drum, the flatbed imager having a longitudinal direction and a transverse direction perpendicular to the longitudinal direction, the plate or sleeve having an outer surface and an elastomeric body; splitting the laser beam by one or more beam splitters to create a plurality of split beams; simultaneously modulating the plurality of split beams using a plurality of optical-beam modulators to create one or more modulated beams from each split beam, each respective optical-beam modulator controlled according to a respective portion of imaging data; and simultaneously focusing the one or more modulated beams to create one or more focused modulated beams, the focused modulated beams focused at a plurality of depths from the outer surface of the printing plate or sleeve, each focused modulated beam having an intensity; wherein each focused modulated beam has a focal spot with a focal size, and at least two respective focal spots of two respective focused modulated beams are at different locations on the outer surface of the printing plate or sleeve, have a different intensity, and are focused at different respective depth levels in the body of the printing plate or sleeve, such that the outer surface of the printing plate or sleeve is simultaneously engraved by the plurality of modulated beams of different respective focal spot sizes on the outer surface; and wherein the focused modulated beams build a row along the longitudinal direction of the printing plate or sleeve. - View Dependent Claims (2, 3, 4, 5, 7, 8, 9, 10)
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6. A method of laser engraving a printing plate or a printing sleeve, the method comprising:
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emitting from a laser source an incident laser beam with sufficient power output to directly engrave an elastomeric printing plate or sleeve positioned on an imaging drum of a drum imager or on a flat bed of a flatbed imager, the drum or sleeve of the drum imager being rotatable around a longitudinal axis, and having a longitudinal direction defined by the axis of rotation and a transverse direction defined along the circumference of the drum, the flatbed imager having a longitudinal direction and a transverse direction perpendicular to the longitudinal direction, the plate or sleeve having an outer surface and an elastomeric body; splitting the laser beam by one or more beam splitters to create a plurality of split beams; simultaneously modulating the plurality of split beams using a plurality of optical-beam modulators to create one or more modulated beams from each split beam, each respective optical-beam modulator controlled according to a respective portion of imaging data; simultaneously focusing the one or more modulated beams with one or more focusing lenses to create one or more focused modulated beams, the focused modulated beams focused at a plurality of depths from the outer surface of the printing plate or sleeve, reflecting each modulated beam by one or more reflectors arranged between each optical-beam modulator and the corresponding focusing lens, such that the modulated beams from different split beams have closer distances to each other after reflection than before reflection, and are parallel; wherein each focused modulated beam has a focal spot with a focal size, and at least two respective focal spots of two respective focused modulated beams are at different locations on the outer surface of the printing plate or sleeve and are focused at different respective depth levels in the body of the printing plate or sleeve, such that the outer surface of the printing plate or sleeve is simultaneously engraved by the plurality of modulated beams of different respective focal spot sizes on the outer surface; and wherein the focused modulated beams build a row along the longitudinal direction of the printing plate or sleeve.
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11. A method of laser engraving a printing plate or a printing sleeve, the method comprising:
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emitting from a laser source an incident laser beam with sufficient power output to directly engrave an elastomeric printing plate or sleeve positioned on an imaging drum of a drum imager or on a flat bed of a flatbed imager, the drum or sleeve of the drum imager being rotatable around a longitudinal axis, and having a longitudinal direction defined by the axis of rotation and a transverse direction defined along the circumference of the drum, the flatbed imager having a longitudinal direction and a transverse direction perpendicular to the longitudinal direction, the plate or sleeve having an outer surface and an elastomeric body; splitting the laser beam by one or more beam splitters to create a plurality of split beams; simultaneously modulating the plurality of split beams using a plurality of optical-beam modulators to create one or more modulated beams from each split beam, each respective optical-beam modulator controlled according to a respective portion of imaging data; and simultaneously focusing the one or more modulated beams to create one or more focused modulated beams, the focused modulated beams focused at a plurality of depths from the outer surface of the printing plate or sleeve, wherein each focused modulated beam has a focal spot with a focal size, and at least two respective focal spots of two respective focused modulated beams are at different locations on the outer surface of the printing plate or sleeve and are focused at different respective depth levels in the body of the printing plate or sleeve, such that the outer surface of the printing plate or sleeve is simultaneously engraved by the plurality of modulated beams of different respective focal spot sizes on the outer surface; and wherein the focused modulated beams build a row along the longitudinal direction of the printing plate or sleeve and each of the one or more modulated beams are focused with a focusing lens to create the one or more focused modulated beams, the focusing lenses disposed in a processing head with a space between the focusing lenses and the printing plate or sleeve, the space separated by a metal shield, the metal shield having openings to allow the focused modulated beams to propagate onto the printing plate or sleeve, wherein the method comprises providing air flow through the openings in the metal shield directed toward the printing plate or sleeve. - View Dependent Claims (12, 13, 14)
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15. A method of laser engraving a printing plate or a printing sleeve, the method comprising:
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emitting from a laser source an incident laser beam with sufficient power output to directly engrave an elastomeric printing plate or sleeve positioned on an imaging drum of a drum imager or on a flat bed of a flatbed imager, the drum or sleeve of the drum imager being rotatable around a longitudinal axis, and having a longitudinal direction defined by the axis of rotation and a transverse direction defined along the circumference of the drum, the flatbed imager having a longitudinal direction and a transverse direction perpendicular to the longitudinal direction, the plate or sleeve having an outer surface and an elastomeric body; splitting the laser beam by one or more beam splitters to create a first plurality of split beams; simultaneously modulating the plurality of split beams using a plurality of acousto-optic deflectors to create a plurality of modulated beams, including creating a first plurality of modulated beams from a first split beam and a second plurality of modulated beams from a second split beam, each respective acousto-optic deflector controlled according to a respective portion of imaging data; and simultaneously focusing the plurality of modulated beams to create a plurality of focused modulated beams, the focused modulated beams focused at a plurality of depths from the outer surface of the printing plate or sleeve, including a first plurality of focused modulated beams created from the first plurality of modulated beams and having a first focal depth and a second plurality of focused modulated beams created from the second plurality of modulated beams and having a second focal depth different than the first focal depth, wherein the first plurality of modulated beams comprises a different number than the second plurality of modulated beams; wherein each focused modulated beam has a focal spot with a focal size, and at least two respective focal spots of two respective focused modulated beams are at different locations on the outer surface of the printing plate or sleeve and are focused at different respective depth levels in the body of the printing plate or sleeve, such that the outer surface of the printing plate or sleeve is simultaneously engraved by the plurality of modulated beams of different respective focal spot sizes on the outer surface; and wherein the focused modulated beams build a row along the longitudinal direction of the printing plate or sleeve. - View Dependent Claims (16, 17, 18)
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19. A method of laser engraving a printing plate or a printing sleeve, the method comprising:
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emitting from a laser source an incident laser beam with sufficient power output to directly engrave an elastomeric printing plate or sleeve positioned on an imaging drum of a drum imager or on a flat bed of a flatbed imager, the drum or sleeve of the drum imager being rotatable around a longitudinal axis, and having a longitudinal direction defined by the axis of rotation and a transverse direction defined along the circumference of the drum, the flatbed imager having a longitudinal direction and a transverse direction perpendicular to the longitudinal direction, the plate or sleeve having an outer surface and an elastomeric body; splitting the laser beam by one or more beam splitters to create a plurality of split beams; simultaneously modulating the plurality of split beams using a plurality of optical-beam modulators to create one or more modulated beams from each split beam, each respective optical-beam modulator controlled according to a respective portion of imaging data; and simultaneously focusing the one or more modulated beams with one or more focusing lenses to create one or more focused modulated beams, the focused modulated beams focused at a plurality of depths from the outer surface of the printing sleeve, the focused modulated beams defining a row along the longitudinal direction of the printing plate or sleeve; each focused modulated beam having a focal spot with a focal size, wherein at least two respective focal spots of two respective focused modulated beams are at different locations on the outer surface of the printing plate or sleeve and are focused at different respective depth levels in the body of the printing plate or sleeve, such that the outer surface of the printing plate or sleeve is simultaneously engraved by the plurality of modulated beams of different respective focal spot sizes on the outer surface; the one or more focusing lenses spaced from the printing plate or sleeve by a space separated by a metal shield, the metal shield having openings to allow the focused modulated beams to propagate onto the printing plate or sleeve and to allow air to move therethrough, the metal shield having a curvature having a normal vector toward the printing plate or sleeve, such that the metal shield, the printing plate or sleeve, and a space between the metal shield and the printing plate or sleeve define a Venturi nozzle; generating ablated material from the printing plate or sleeve during the laser engraving; and extracting air from the space between the metal shield and the printing plate sleeve into an exhaust unit, causing an exhaust air stream to pass through the Venturi nozzle at a velocity sufficient to cause a Venturi effect to enhance air movement through the openings in the metal shield and into the Venturi nozzle.
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Specification