Optical imaging head having a multiple writing bean source
First Claim
Patent Images
1. An optical imaging head for transferring an image onto a printing plate mounted on a drum surface of an internal drum platesetter or an external drum platesetter, the optical imaging head comprising:
- a line illumination module for generating a substantially uniform line of radiation, said line illumination module comprises a bar of laser diodes, a fast axis collimating lens for evenly dispersing radiation in a fast axis direction, and a slow axis collimating lens for evenly dispersing the radiation in a slow axis direction;
a grating light valve, forming an object plane, which receives the line of radiation from the line illumination module and generates diffractive orders of modulated radiation, said grating light valve comprising (i) an addressable diffraction grating formed of moving parts on the surface of a silicon chip, and (ii) pixels of dual-supported parallel ribbons formed of silicon nitride and coated with a reflective aluminum top layer;
a first lens group for receiving the modulated radiation and for adjusting image magnification independent of image focus;
a second lens group for receiving and passing the magnification-adjusted modulated radiation from the first lens group to the printing plate, said second lens group adjusting image focus independent of image magnification; and
a stop, placed between the first and second lens groups, having a single aperture for (i) passing zero order diffractive magnification-adjusted modulated radiation to the printing plate mounted on the drum surface of the internal drum platesetter or the external drum platesetter, and (ii) blocking non-zero order diffractive magnification-adjusted modulated radiation from incidence with the printing plate mounted on the drum surface of the internal drum platesetter or the external drum platesetter.
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Abstract
A method for transferring an image to a medium includes: generating a substantially uniform line of radiation; producing diffractive light from the uniform line of radiation; passing zero order diffractive light to the medium in a telecentric fashion while blocking non-zero order diffractive light; adjusting image magnification on the medium independent of image focus in response to the zero order diffractive light; and adjusting image focus on the medium independent of image magnification in response to the zero order magnification-adjusted diffractive light. An optical imaging head for transferring an image onto a medium via the above method includes: a line illumination module for generating a substantially uniform line of radiation; a grating light valve which receives the line of radiation and generates diffractive orders of modulated radiation; a first lens group for adjusting image magnification independent of image focus; a second lens group for passing radiation to the medium in a telecentric fashion, the second lens group adjusting image focus independent of image magnification; and a stop, placed between the first and second lens groups, having a single aperture for passing zero order radiation and blocking non-zero order radiation.
81 Citations
15 Claims
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1. An optical imaging head for transferring an image onto a printing plate mounted on a drum surface of an internal drum platesetter or an external drum platesetter, the optical imaging head comprising:
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a line illumination module for generating a substantially uniform line of radiation, said line illumination module comprises a bar of laser diodes, a fast axis collimating lens for evenly dispersing radiation in a fast axis direction, and a slow axis collimating lens for evenly dispersing the radiation in a slow axis direction;
a grating light valve, forming an object plane, which receives the line of radiation from the line illumination module and generates diffractive orders of modulated radiation, said grating light valve comprising (i) an addressable diffraction grating formed of moving parts on the surface of a silicon chip, and (ii) pixels of dual-supported parallel ribbons formed of silicon nitride and coated with a reflective aluminum top layer;
a first lens group for receiving the modulated radiation and for adjusting image magnification independent of image focus;
a second lens group for receiving and passing the magnification-adjusted modulated radiation from the first lens group to the printing plate, said second lens group adjusting image focus independent of image magnification; and
a stop, placed between the first and second lens groups, having a single aperture for (i) passing zero order diffractive magnification-adjusted modulated radiation to the printing plate mounted on the drum surface of the internal drum platesetter or the external drum platesetter, and (ii) blocking non-zero order diffractive magnification-adjusted modulated radiation from incidence with the printing plate mounted on the drum surface of the internal drum platesetter or the external drum platesetter. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for transferring an image to a printing plate on an internal drum platesetter or an external drum platesetter, the method comprising:
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generating a substantially uniform line of radiation in a line illumination module comprising a bar of laser diodes, a fast axis collimating lens for evenly dispersing radiation in a axis direction;
producing diffractive light from the uniform line of radiation using a grating light valve comprising (i) an addressable diffraction grating formed of moving parts on the surface of a silicon chip, and (ii) pixels of dual-supported parallel ribbons formed of silicon nitride and coated with a reflective aluminum top layer;
passing zero order said diffractive light to the printing plate while blocking non-zero order said diffractive light from incidence with the printing plate;
adjusting image magnification on the printing plate independent of image focus in response to the zero order said diffractive light; and
adjusting image focus on the printing plate independent of image magnification in response to the zero order magnification-adjusted diffractive light. - View Dependent Claims (9, 10, 11)
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12. An optical imaging head for use on a printing press to transfer an image directly onto a plate cylinder of the printing press, the optical imaging head comprising:
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a line illumination module for generating a substantially uniform line of radiation, said line illumination module comprises a bar of laser diodes, a fast axis collimating lens for evenly dispersing radiation in a fast axis direction, and a slow axis collimating lens for evenly dispersing the radiation in a slow axis direction;
a grating light valve, forming an object plane, which receives the line of radiation from the line illumination module and generates diffractive orders of modulated radiation, said grating light valve comprising (i) an addressable diffraction grating formed of moving parts on the surface of a silicon chip, and (ii) pixels of dual-supported parallel ribbons formed of silicon nitride and coated with a reflective aluminum top layer;
a first lens group for receiving the modulated radiation and for adjusting image magnification independent of image focus;
a second lens group for receiving and passing the magnification-adjusted modulated radiation from the first lens group to the medium in a telecentric fashion, said second lens group adjusting image focus independent of image magnification; and
a stop, placed between the first and second lens groups, having a single aperture for (i) passing zero order diffractive magnification-adjusted modulated radiation to the plate cylinder of the printing press, and (ii) blocking non-zero order diffractive magnification-adjusted modulated radiation from incidence with the plate cylinder of the printing press. - View Dependent Claims (13)
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14. A method for transferring an image directly onto a plate cylinder of a printing press, the method comprising:
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generating a substantially uniform line of radiation in a line illumination module comprising a bar of laser diodes, a fast axis collimating lens for evenly dispersing radiation in a fast a direction, and a slow axis colimating lens for evenly dispersing the radiation in a slow axis direction;
producing diffractive light from the uniform line of radiation using a grating light valve comprising (i) an addressable diffraction grating formed of moving parts on the surface of a silicon chip, and (ii) pixels of dual-supported parallel ribbons formed of silicon nitride and coated with a reflective aluminum top layer;
passing zero order said diffractive light to the plate cylinder while blocking non-zero order said diffractive light from incidence with the plate cylinder;
adjusting image magnification on the plate cylinder independent of image focus in response to the zero order said diffractive light; and
adjusting image focus on the plate cylinder independent of image magnification in response to the zero order magnification-adjusted diffractive light. - View Dependent Claims (15)
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Specification
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Current AssigneeAgfa Corporation (Agfa-Gevaert N.V.)
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Original AssigneeAgfa Corporation (Agfa-Gevaert N.V.)
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InventorsReznichenko, Yakov, Kelley, Henry A.
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Primary Examiner(s)CHANG, AUDREY Y
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Application NumberUS09/420,276Time in Patent Office568 DaysField of Search359/558, 359/562, 359/565, 359/566, 359/245, 359/246, 359/279, 359/251, 359/252, 359/223, 359/224, 359/231, 359/230, 359/291, 359/900, 355/71, 347/135, 347/255US Class Current359/566CPC Class CodesG02B 13/02 Telephoto objectives, i.e. ...G02B 13/22 Telecentric objectives or l...G02B 26/0808 by means of one or more dif...G02B 26/106 having diffraction gratings...
