Integrated, in-line bumping and exposure system
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0853539
(2004-05-25)
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발명자
/ 주소 |
- Donahue, Joseph P.
- Shaver, Norman L.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
3 |
초록
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An integrated, in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer. A linear illumination source or sources are for bumping the photosensitive material with a band of illumination to consume dissolved oxygen within the photosensitive layer. A ras
An integrated, in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer. A linear illumination source or sources are for bumping the photosensitive material with a band of illumination to consume dissolved oxygen within the photosensitive layer. A raster scan optical assembly or an illuminated and re-imaged spatial light modulator array exposes the photosensitive material with a rasterized beam or beams or an array of modulated electromagnetic radiation located downstream of the bumping illumination. A conveyance mechanism is configured to provide relative continuous motion between one or more substrates and the bands of illumination to continuously bump and pattern one portion of the plate or plates while the other portion of the plate or plates is bumped in anticipation of patterning.
대표청구항
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1. An integrated, in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer, the system comprising:a linear illumination source for bumping the photosensitive material with a band of illumination to consume any dissolved oxygen within the photosensitiv
1. An integrated, in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer, the system comprising:a linear illumination source for bumping the photosensitive material with a band of illumination to consume any dissolved oxygen within the photosensitive layer; an exposure module for exposing the photosensitive material with electromagnetic radiation located directly downstream of the band of bumping illumination; and a conveyance mechanism configured to provide relative motion between the plate and the band of illumination and the electromagnetic radiation to continuously bump one portion of the plate and image the bumped portion of the plate while another portion of the plate is being bumped. 2. The system of claim 1 in which the illumination source is a source of ultraviolet, visible, or infrared radiation having a wavelength of between 200 nm and 1100 nm.3. The system of claim 2 in which the illumination source includes an ultraviolet, visible, or infrared emitting lamp or an array of lamps at a focal point of a concave reflector.4. The system of claim 3 further including a shutter assembly for selectively blocking the output of the lamp.5. The system of claim 1 in which the raster scan optical assembly is optically responsive to an ultraviolet, visible, or infrared laser.6. The system of claim 1 in which the conveyance mechanism includes a platen which moves the plate under the linear illumination source and the exposure module.7. The system of claim 2 in which the illumination source includes an LED array.8. The system of claim 7 in which the rows of LEDs are staggered.9. The system of claim 7 in which the illumination source includes a diffusing mechanism.10. The system of claim 9 in which the diffusing mechanism is a lenticular lens for spatially integrating the fluence of the array.11. The system of claim 9 in which the lenticular lens is oriented to have a minimum of optical power in the direction of relative motion.12. The system of claim 1 in which the conveyance mechanism operates at a continuous speed.13. The system of claim 1 in which the conveyance mechanism operates at a speed sufficient to effect exposing within 10-100 seconds of bumping for each portion of the plate.14. The system of claim 1 in which the conveyance mechanism operates at a speed sufficient to effect exposing no sooner than within 2-20 seconds of bumping for each portion of the plate.15. The system of claim 1 in which the width of the illumination beam is greater than or equal to the width of scan lines provided by the exposure module.16. The system of claim 1 in which the exposure module includes a raster scan optical assembly.17. The system of claim 1 in which the exposure module includes a spatial light modulator.18. A method of enhancing the exposure of photosensitive material, the method comprising:providing a band of illumination sufficient to consume any dissolved oxygen within the photosensitive material; providing electromagnetic radiation directly downstream of the band of bump illumination to image the material; providing relative motion between the material and the band of bumping illumination and the electromagnetic radiation; and bumping one portion of the plate with the band of bumping illumination and imaging the bumped portion with the electromagnetic radiation while bumping another portion of the plate with the band of bumping illumination. 19. The method of claim 18 in which the band of illumination is ultraviolet, visible, or infrared radiation having a wave length of between 200 nm and 1100 nm.20. The method of claim 18 in which the band of illumination originates from an ultraviolet, visible, or infrared emitting lamp at a focal point of a concave reflector.21. The method of claim 20 further including a shutter assembly for selectively blocking the output of the lamp.22. The method of claim 18 in which the band of illumination originates from an LED array.23. The method of claim 22 in which the rows of LEDs are staggered.24. The method of claim 22 further including diffusing the LED illumination.25. The method of claim 22 in which a lenticular lens is used to spatially integrate the fluence of the LED array.26. The method of claim 22 in which a scattering optical diffuser is used to spatially integrate the fluence of the LED array.27. The method of claim 25 in which the lenticular lens is oriented to have a minimum of optical power in the direction of relative motion.28. The method of claim 18 in which the relative motion is at a continuous speed.29. The method of claim 18 in which relative motion is at a speed sufficient to effect exposing within 10-100 seconds of bumping for each portion of the plate.30. The method of claim 18 in which the relative motion is at a speed sufficient to effect exposing no sooner than 2-20 seconds of bumping for each portion of the plate.31. A method of enhancing the exposure of photosensitive material on a printing plate or other substrate, the method comprising:bumping one portion of the plate with a band of bumping illumination sufficient to consume any dissolved oxygen within the photosensitive material; imaging the bumped portion with electromagnetic radiation; and bumping another portion of the plate with the band of bumping illumination in a continuous process so that bumping of one portion of the plate occurs simultaneously while another portion of the plate is being imaged. 32. An integrated, in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer, the system comprising:a linear illumination source including a linear lamp producing ultraviolet, visible, or infrared radiation having a wavelength of between 200 nm and 1100 nm for bumping the photosensitive material with a band of illumination to consume any dissolved oxygen within the photosensitive layer; a raster scan optical assembly or a spatial light modulator based exposure module for exposing the photosensitive material with a rasterized beam or beams or a spatially modulated array of electromagnetic radiation located directly downstream of the band of bumping illumination; and a conveyance mechanism configured to provide relative motion between the plate and the band of illumination and the rasterized beam or beams or a spatially modulated array of electromagnetic radiation to continuously bump one portion of the plate and image the bumped portion of the plate while another portion of the plate is being simultaneously bumped. 33. An integrated, in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer, the system comprising:an LED array with rows of staggered LEDs and a diffusing mechanism for bumping the photosensitive material with a band of illumination to consume any dissolved oxygen within the photosensitive layer; a raster scan optical assembly or a spatial light modulator based exposure module for exposing the photosensitive material with a rasterized beam or beams or a spatially modulated array of electromagnetic radiation located directly downstream of the band of bumping illumination; and a conveyance mechanism configured to provide relative motion between the plate and the band of illumination and the rasterized beam or beams or a spatially modulated array of electromagnetic radiation to continuously bump one portion of the plate and image the bumped portion of the plate while another portion of the plate is being bumped. 34. An integrated, in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer, the system comprising:a linear illumination source for bumping the photosensitive material with a band of illumination to consume any dissolved oxygen within the photosensitive layer; a raster scan optical assembly or a spatial light modulator based exposure module for exposing the photosensitive material with a rasterized beam or beams or a spatially modulated array of electromagnetic radiation directly downstream of the band of bumping illumination; and a conveyance mechanism operating at a continuous speed and configured to provide relative continuous motion between the plate and the band of illumination and the rasterized beam or beams or a spatially modulated array of electromagnetic radiation to continuously bump one portion of the plate and image the bumped portion of the plate while another portion of the plate is simultaneously being bumped. 35. A method of enhancing exposure of photosensitive material on a printing plate or other substrate, the method comprising:bumping a first portion of the plate with a band of primary bumping illumination sufficient to consume any dissolved oxygen within the photosensitive material; bumping said first portion of the plate with a band of secondary bumping illumination sufficient to consume any oxygen re-diffused within the photosensitive material after the primary bump; and imaging said first portion to expose it. 36. The method of claim 35 further including bumping a second portion of the plate with the band of primary bumping illumination while first portion of the plate is subjected to said secondary bump and imaging.37. The method of claim 35 in which the time between imaging and the primary bump is greater than the time between imaging and the secondary bump.38. The method of claim 37 in which the time between the primary bump and the secondary bump is greater than 5 seconds.39. The method of claim 35 in which the primary and the secondary bump illumination are produced by the same illumination source.40. An in-line bumping and exposure system for printing plates or other substrates having a photosensitive layer, the system comprising:a source of primary bumping radiation for bumping the photosensitive material to consume any dissolved oxygen within the photosensitive layer; a source of secondary bumping radiation for bumping the photosensitive material to consume any oxygen re-diffused within the photosensitive material; a source for exposing the photosensitive material; and a mechanism for providing relate motion between a plate and the source of primary bumping radiation, the source of secondary bumping radiation, and the exposure source. 41. The method of claim 40 in which the source of primary bumping radiation and the source of secondary bumping radiation is an LED array.42. The method of claim 41 in which the optical power of the primary bumping radiation is greater than the optical power of secondary bumping radiation.43. The system of claim 40 in which the source of primary bumping radiation and the source of secondary bumping radiation is an ultraviolet, visible, or infrared emitting lamp.44. The system of claim 43 in which the optical power of the primary bumping radiation is greater than the optical power of the secondary bumping radiation.45. The system of claim 43 in which the optical power of the primary bumping radiation is less than or equal to the optical power of the secondary bumping radiation.46. The system of claim 40 in which the source of primary bumping radiation and the source of secondary bumping radiation is an ultraviolet, visible, or infrared emitting laser.47. The system of claim 46 in which the optical power of the primary bumping radiation is greater than the optical power of the secondary bumping radiation.48. The system of claim 46 in which the optical power of the primary bumping radiation is less than or equal to the optical power of the secondary bumping radiation.49. The system of claim 40 in which the source of primary bumping radiation is an ultraviolet, visible, or infrared emitting lamp and the source of secondary bumping radiation is an ultraviolet, visible, or infrared emitting laser.50. The system of claim 49 in which the optical power of the primary bumping radiation is greater than the optical power of the secondary bumping radiation.51. The system of claim 46 in which the optical power of the primary bumping radiation is less than or equal to the optical power of the secondary bumping radiation.
이 특허에 인용된 특허 (3)
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Mueller Gregory E. ; Whittle Daniel John, Apparatus and method for the enhanced imagewise exposure of a photosensitive material.
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Powers John W. ; Choate Daniel G. ; Raby Ronald L., Plate exposing apparatus and method.
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Zertani Rudolf (Mainz DEX) Haberhauer Helmuth (Taunusstein DEX) Kraemer Norbert (Heidenrod DEX), Preexposure device for printing forms to be imagewise exposed.
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Murphy, Karol; Panek, Peter, LED lamp with sensing capabilities.
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Cronk, Michael Kent; Stephens, Owen Boyd, Light emitting diode illumination system.
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Roberts, David H.; Markhart, Gary T., Method of pre-exposing relief image printing plate.
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