EP0724967A1 - Assemblage d'impression par contact des caractères effaçables, appareil de reproduction et procédé de reproduction et procédé de production de l'assemblage - Google Patents

Assemblage d'impression par contact des caractères effaçables, appareil de reproduction et procédé de reproduction et procédé de production de l'assemblage Download PDF

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Publication number
EP0724967A1
EP0724967A1 EP96101264A EP96101264A EP0724967A1 EP 0724967 A1 EP0724967 A1 EP 0724967A1 EP 96101264 A EP96101264 A EP 96101264A EP 96101264 A EP96101264 A EP 96101264A EP 0724967 A1 EP0724967 A1 EP 0724967A1
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EP
European Patent Office
Prior art keywords
image
printing
contact
erasable
support surface
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP96101264A
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German (de)
English (en)
Inventor
Isaac A. Ragy
Kendig W. Martin
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Goss International LLC
Original Assignee
Rockwell International Corp
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Filing date
Publication date
Application filed by Rockwell International Corp filed Critical Rockwell International Corp
Publication of EP0724967A1 publication Critical patent/EP0724967A1/fr
Withdrawn legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41CPROCESSES FOR THE MANUFACTURE OR REPRODUCTION OF PRINTING SURFACES
    • B41C1/00Forme preparation
    • B41C1/10Forme preparation for lithographic printing; Master sheets for transferring a lithographic image to the forme
    • B41C1/1008Forme preparation for lithographic printing; Master sheets for transferring a lithographic image to the forme by removal or destruction of lithographic material on the lithographic support, e.g. by laser or spark ablation; by the use of materials rendered soluble or insoluble by heat exposure, e.g. by heat produced from a light to heat transforming system; by on-the-press exposure or on-the-press development, e.g. by the fountain of photolithographic materials
    • B41C1/1033Forme preparation for lithographic printing; Master sheets for transferring a lithographic image to the forme by removal or destruction of lithographic material on the lithographic support, e.g. by laser or spark ablation; by the use of materials rendered soluble or insoluble by heat exposure, e.g. by heat produced from a light to heat transforming system; by on-the-press exposure or on-the-press development, e.g. by the fountain of photolithographic materials by laser or spark ablation

Definitions

  • This invention relates generally to contact printing and more specifically to apparatus and methods relating to erasable contact printing.
  • the images on the plates are formed off the press and must be delivered to the press, and the used plates need to be collected and moved away from the press to a remote recycling location. At the recycling location, the impurities are removed, and the plates are melted down and reused.
  • the mounting of the plates to the plate cylinder results in the creation of gaps at the edges of the plate and inertial anomalies which create plate cylinder and roller vibrations that can detract from the quality of the printing.
  • a printing assembly comprising an erasable printing member with means for supporting an erasable contact printable image for contact printing copies of the image, means engageable with the erasable printing member for relatively moving the erasable printing member into contact printing engagement with a medium onto which the image is to be printed and means mounted in relatively fixed relationship with respect to the moving means for thermally erasing the contact printable image to enable a new contact printable image to be carried by the erasable printing member for contact printing of the new contact printable image.
  • the printing assembly includes means for applying the new contact printable image to the printing member while the erasable printing member is engaged with the relatively moving means.
  • the printing assembly includes at least one of means for (a) combustion heating, (b) microwave heating, (c) laser heating, (d) UV radiation heating, (e) infrared radiation heating and (f) other radiant heating.
  • the printing member includes an image support surface for supporting an image forming substance in which the contact printable image is formed.
  • the image support surface is preferably made of a material that is structurally sound at temperatures higher than at least one of (a) the decomposition temperature and (b) the vaporization temperature range, of the image forming substance.
  • the image forming substance is a photopolymer imaging substance and the image support surface is made of at least one of (a) ceramic, (b) a composite of metal and ceramic, (c) a metal, (d) a metal alloy and (e) other material with at least one of (1) a melting temperature range, (2) a vaporization temperature range, and (3) decomposition temperature range greater than that of a substance from which the contact printable image is formed.
  • the principal object of the invention is also partly achieved by providing a reusable printing apparatus, comprising a body for carrying an erasable image support surface adapted for support of a coating of contact printing image forming substance having preselected thermal characteristics and material at the erasable image support surface with thermal characteristics relative to the preselected thermal characteristics of the contact printing image forming substance sufficient to maintain structural integrity of the image support surface during application of sufficient heat energy to remove enough of the image forming substance from the erasable image support surface to enable support by the erasable image support surface of a new coating of contact image printing forming substance for formation of a new image.
  • the material at the image support surface of the reusable printing apparatus is made at least partly of one of (a) ceramic, (b) a composite of metal and ceramic and (c) other material with at least one of (1) a melting temperature range, (2) a vaporization temperature range and (3) decomposition temperature range greater than that of the contact printing image forming substance.
  • the image support surface is preferably adapted to have a roughness on the order of fifty micro-inch Ra.
  • the image support surface material is hydrophilic and the image forming substance is a hydrophobic coating of one of (a) a photosensitive material for forming an image by means of a photoprocess, (b) an erodible material formable into an image by means of an ablative process and (c) a photopolymer substance.
  • the material at the image support surface has a melting temperature range that is higher than at least one of (a) the decomposition temperature range and (b) the vaporization temperature range of the image forming substance.
  • the body of the reusable printing apparatus includes a substrate made of matter different than the material at the image support surface to support the material at the image support surface and having a thermal conductivity less than that of the material at the image support surface.
  • the substrate is made of one of (a) aluminum oxide and (b) chromium oxide.
  • the reusable printing apparatus includes an image forming substance heat facilitating catalyst mixed in with the material at the erasable image support surface.
  • the catalyst preferably includes at least one of the metals Pt, Pd, Ir and Ni and the like or oxides of Ce or Ru and the like for enhancing at least one of (a) oxidation and (b) volatilization of organic compounds.
  • the object of the invention is further achieved by providing a method of contact printing with a printing press, comprising the steps of (1) forming a contact printable image on a printing member, (2) using the printing member to contact print a copy of the printable image and (3) thermally erasing the contact printable image from the printing member while the printing member remains attached to the printing press to enable formation of a new contact printable image on the printing member.
  • the step of forming the contact printable image includes the steps of (1) preforming an erasable image support surface on the printing member, (2) applying a photoimagable substance as a thin film to the image support and (3) selectively removing parts of the photoimagable substance from the image support surface to form the image.
  • the method step of preforming an image support surface preferably includes the steps of (1) preforming a hydrophilic support surface on the printing member and (2) applying the photoimaging material as a thin film of hydrophobic photoimaging material to the image support surface.
  • the step of coating the printing member with a material preferably includes at least one of (a) a ceramic material (b) a composite of ceramic and metal (c) a metal (d) a metal allay and (e) other material with at least one of (1) a melting temperature range, (2) vaporization temperature range and (3) decomposition temperature range greater than that of the photoimagable substance.
  • the photoimagable substance of the contact printing method has (a) an oxidation onset temperature point (b) a decomposition onset temperature point and (c) a volatilization temperature point, and removal is performed by raising the temperature of the photoimagable substance at least above one of these temperature points (a), (b) and (c).
  • the objective of the invention is also obtained in part by providing a method of making a reusable contact printing apparatus, comprising the steps of (1) forming a support body with a substrate surface adapted to support a reusable image support material and (2) securing erasable image support material to the substrate surface to provide an image support surface for successive support of new coatings of image forming substance with preselected thermal characteristics and in which contact printing images are formable, said erasable image support material having thermal characteristics relative to the preselected thermal characteristics of the image forming substance to maintain structural integrity of the erasable image support material during application of sufficient heat energy to remove enough of the image forming substance from the image support surface to enable support of a new coating of image forming substance for formation of a new image.
  • the step of securing the erasable image support material to the substrate surface is performed by at least one of the steps of (a) spraying a coating of image support material onto the substrate surface, (b) thermal spraying the erasable image support material at temperatures near the melting point temperature of the image support material, (c) spraying the erasable image support material onto the substrate surface at speeds on the order of the speed of sound and (d) spraying the image support material onto the substrate together with a high velocity oxygen fuel. Roughening the substrate surface enhances adhesion of the image support material to the substrate surface.
  • the step of securing erasable image support material is performed by coating the substrate surface with the erasable image support material to a thickness on the order of 0.1 mils.
  • the erasable image support material is at least one of (a) ceramic (b) composite of ceramic and metal (c) metal (d) a metal alloy and (e) other material with at least one of (1) a melting temperature range, (2) vaporization temperature range and (3) decomposition temperature range greater than that of a substance from which the contact printable image is formed.
  • the step of forming the body is performed by forming the body with a substrate surface made of material different than the erasable image support material, and the body is preferably made of a material having a thermal conductivity less than that of the image support material.
  • the preferred embodiment of the thermally erasable contact printing assembly 20 is seen to include three unique elements: a thermally erasable contact printing apparatus, or printing member 22; a thermally erasable contact printable image forming mechanism, or image forming mechanism, 23 and a thermal erasing mechanism 26.
  • Ink contained in an ink reservoir 28 is conveyed via an inking train 30 to the surface 24 of the thermally erasable contact printing member 22.
  • dampening solution in a dampening solution reservoir 32 is conveyed via a dampening train 34 of rollers to the surface 24 of the thermally erasable contact printing member 22.
  • a thermally erasable contact printable image is formed on the surface 24 by means of which the ink delivered to the surface 24 is selectively held to portions of the surface 24 to form the desired image.
  • the ink forming the image is then transferred to a blanket cylinder 36.
  • the blanket cylinder 36 in turn, transfers the ink in the form of the image to one side of a web 38 paper.
  • the advantageous features of the invention are employed to their optimum extent when used with a high volume, high speed, continuous web rotary press, such as used to print newspaper and the like, the invention is capable of being employed in connection with other types of printing presses.
  • the blanket cylinder 36' is exchanged for an idler roller and the blanket cylinder thermally erasable image printing system 20' is eliminated.
  • the features of the invention can also be successfully employed in a nonrotary press as well as a noncontinuous web press.
  • the thermally erasable contact printing member 22 is in the form of a printing cylinder as schematically illustrated in Fig. 1. and shown in some greater detail and described with reference to Figs. 4A, 4B and 4C, which replaces a conventional plate cylinder adapted to carry removable printing plates as discussed above.
  • the process for forming a thermally erasable image in accordance with the present invention can be use in association with removable printing plates, such as a removable printing plate 24' schematically illustrated in Fig. 1, to some advantage.
  • the printing plates are removed from the press and new plates substituted when it is desire to print new images.
  • the new plates have the images formed in advance, and the old plates which are removed are erased while printing commences immediately with the new plates. The erased plates are then recycled by applying new images for printing.
  • thermally erasable printing member is a removable printing plate 24' or the surface 24 of a rotatably mounted, thermally erasable, contact printing cylinder, or other image support member, 22, the important aspect of the invention is that means are provided at the surface for supporting a thermally erasable contact printable image for contact printing multiple copies of the image.
  • a drive mechanism 40 together with a frame 42 holding the various rollers of inking train 30, dampening train 34, thermally erasable contact printing member 22, blanket cylinder 36 and web 38 in relatively fixed cooperative rotary printing engagement provide the means for rotatably moving the thermally erasable contact printing member 22 and surface 24 into contact printing engagement with the blanket cylinder 36, the web 38 or any other medium onto which the image is to be printed or transferred directly.
  • the thermal erasing mechanism 26 is mounted in relatively fixed relationship with respect to the other elements of the thermally erasable contact printing assembly 20, including frame 42 and drive mechanism 40.
  • the thermally erasing of contact printable image to enable a new contact printable image to be carried by the thermally erasable contact printing member 22 for contact printing of a new contact printable image is performed "on press".
  • the thermal erasing mechanism 26 is enabled off press.
  • the thermally erasable contact printable image forming mechanism 23 is also preferably mounted in a substantially fixed relationship relative to the thermally erasable contact printing member 22 and the other elements of the thermally erasable contact printing assembly 20.
  • the thermally erasable contact printing image forming mechanism 23 forms a contact printable image on surface 24 of the thermally erasable contact printing member 22 when the press is stopped. The operation of the press is then recommenced and runs until the desired number of copies of the image have been printed. Then the press is stopped again and the contact printable image on the surface 24 is thermally erased by the thermal erasing mechanism 26. After erasure is completed, a new image is formed on the surface 24 of the thermally erasable contact printing member 22 by the thermally erasable contact printable image forming mechanism 23, and the cycle is repeated.
  • the thermal erasing mechanism 26 applies heat 43 to the contact printable image carried on the surface 24 of the thermally erasable contact printing member 22 by the direct application of flames from a flame output manifold 44.
  • the flame output manifold 44 directs combusting gaseous fuel directly onto the surface 24 to produce heat in sufficient quality at the surface 24 to remove the contact printable image from the printing member 22.
  • the output manifold 44 is fed with combusting fuel from a combustion chamber 46.
  • Combustible fuel such as hydrogen, methane, ethane, butane, propane, acetylene or combinations thereof from fuel supply 48 is fed through a regulator 50 and a fuel inlet valve 52.
  • the fuel inlet valve 52 and the ignitor 54 are controlled by an image erasing controller 56.
  • a safety exhaust valve 58 is provided to limit the maximum pressure within combustion chamber 46.
  • a thermometer 60 is used to sense whether combustion has occurred within combustion chamber 46, and if combustion does not occur within a preselected time following attempt to ignition by ignitor 54, the image erasing controller 56 closes fuel inlet valve 52 and opens safety exhaust valve 58.
  • the image erasing controller 56 causes the drive mechanism 40, to rotate the thermally erasable contact printing member 22 gradually past the flame outlets of the flame outlet manifold 44 until the entire image has been traversed and erased.
  • an alternate form of the thermal erasing mechanism 26, designated 26' is seen to have eliminated the safety exhaust valve 58, the combustion chamber 46, the fuel inlet valve 52, the regulator 50, the fuel supply 48, the thermometer 60, and the ignitor 54 with a single radiation heating source 62 provided with electrical power by a suitable power supply 64.
  • the image erasing controller 56 still controls the drive mechanism 40 to cause the thermally erasable contact printing member 22 to scan the image past a region of radiation which is generated by the radiation heating source 62 and impinges upon a section of the thermally erasable contact printing member 22.
  • the radiation heating source 62 supplying radiant heat 66 to the thermally erasable contact printing member 22 comprises a sufficiently powerful source of one of (a) microwave heating, (b) laser heating, (c) UV radiation heating, (d) infrared radiation heating and (e) other radiate heating.
  • the important aspect is that the degree of heating is sufficient to erase the image on the surface 24 of the thermally erasable contact printing member 22.
  • the image support surface 24 of the thermally erasable contact printing member 22 supports an image forming substance in which the contact printable images are formed by the thermally erasable contact printable image forming mechanism 24.
  • this image support surface 24 is made of a material that is structurally sound at temperatures higher than at least one of (a) decomposition temperature and (b) the vaporization temperature range of the image forming substance.
  • the radiation heating source 62 or the combustion flames 43 of Fig. 2A must heat the surface to at least one of these temperatures.
  • the material of the image support surface 24 is selected to have a decomposition and vaporization temperature range respectively in excess of the impurities and the known environmental pollutants.
  • the radiation heating source 62 or the combustion flames 43 of Fig. 2A must sufficiently raise the temperature above one of the decomposition and vaporization temperature ranges of these impurities and environmental pollutants to insure that the thermally erasable contact printing member 22 is completely erased.
  • the image forming substance 86 is a photopolymer composition such as the photopolymerizable composition described in U.S. Patent 5,254,429 issued October 19, 1993 to Gracia et al ., a diazo-based coating such Standard NegativeTM (supplied by Western Lithotech), the radiation polymerizable composition described in U.S. Patent 5,120,772 issued June 9, 1992 to Walls et al ., the photopolymerizable composition containing poly-butane-diol-diacrylate with a photo initiator and binder described in U.S.
  • a photopolymer composition such as the photopolymerizable composition described in U.S. Patent 5,254,429 issued October 19, 1993 to Gracia et al ., a diazo-based coating such Standard NegativeTM (supplied by Western Lithotech), the radiation polymerizable composition described in U.S. Patent 5,120,772 issued June 9, 1992 to Walls et al ., the photopolymeriz
  • Patent 4,952,482 issued August 28, 1990 to Barton et al . the radiation polymerizable composition containing polyfunctional monofunctional acrylic monomers described in U.S. Patent 4,946,373 issued August 7, 1990 to Walls et al ., the composition described in U.S. Patent 4,851,319 issued July 25, 1989 to Walls et al ., the photopolymerizable composition containing cationically curable epoxides as described in Great Britain Patent 2,137,626 published October 10, 1984 to Dickinson et al . or the like that exists in a liquid state or can be dissolved or suspended in a liquid vehicle for application by roller coating or spray coating of the image support surface 24.
  • the excess solution or suspension of the image-forming substance is collected and may be recycled.
  • the liquid portion of the solution or suspension of the photopolymerizable composition evaporates leaving a photopolymerizable layer of the image-forming substance 86 on the image support surface 24.
  • the thermally erasable contact printable image forming mechanism 23 is said to include a photosensitive image forming substance spray-coater or roller-coater 6668 for applying a thin coat of photosensitive, image-forming substance or solution or suspension thereof from a photosensitive image forming reservoir 70 onto the surface 24 of the thermally erasable contact printing member 22.
  • the photosensitive image forming substance is selectively recycled through employment of an appropriate photosensitive imaging substance recycling system 63.
  • Imagewise irradiation of the image forming photopolymer coating by light of the appropriate wavelength can be provided by a computer-directed laser beam or other state-of-the-art imagers.
  • 4B is then developed by treating with an appropriate developer 51 such as a dilute aqueous solution of sodium carbonate, described in European Patent No. 539,881 A1 of Santos et al . published June 5, 1993, for diazo based embodiments of the imaging substance, or the alkaline developer described in Great Britain Patent No. 2,226,150 published June 20, 1990 to Tidningsplat .
  • the developer may be spray applied to the support surface 24 with the excess collected and recycled by an appropriate developer recycling system 67.
  • a photoimager 72 such as any suitable state of the art computer to plate imager, transposes selected images onto the coat of image forming substance.
  • An image forming controller 74 controls the drive mechanism 40 to coordinate the rotary movement of the thermally erasable contact printing member 22 with the operation of the PIFS sprayer 68 and the photoimager 72.
  • an alternative form of the thermally erasable contact printable image forming mechanism 23' is shown with an image forming substance (IFS) sprayer 78 or roll coater employed for providing a coating of image forming substance on the surface 24 of the thermally erasable contact printing member 22.
  • the IFS sprayer 78 receives quantities of the image forming substance from the erasable image forming substance reservoir 80 and accordingly coats the surface 24 of the printing member 22.
  • An ablative imaging system 76 such as one which employs a carbondioxide laser is used to transpose the selected image of the coat of the image formable substance.
  • the ablative imaging system 76 separates the image formable substance coating into selected image and non-image areas on the printing member 22 to produce the desired thermally erasable image on the surface 24.
  • the thermally erasable contact printing member 22 is shown with an image support surface 82 applied to a substrate body 81 of the printing member prior to receipt of an image forming substance on the surface 24.
  • the image support surface 82 is preferably made of a ceramic mixture, a composite of metal and ceramic, a metal, a metal alloy or other suitable material.
  • One of these selected metal, ceramic or composite materials preferably has a melting temperature range or a vaporization temperature range or decomposition temperature range greater than that of the contact printable image substance 86, Fig. 4B.
  • the cylindrically formed support body 81, Fig. 4A carries the thermally erasable image support surface 82 having a material 84 which has melting temperature of not less than one thousand centigrade degrees and has a thermal conductivity range on the order of 10.0-240 watt/meter/degree Kelvin.
  • the substrate body 81 of the printing member 22 is made of a matter which differs from the ceramic or metallic compound material 84 of the image support surface 82.
  • the substrate 81 which is preferably an aluminum oxide or chromium oxide compound, steel alloy or the like, supports the image support surface material 84 and has a thermal conductivity which is less than that of the material at the image support surface.
  • the substrate surface 90 is a plate which is mountable to a plate cylinder of the printing press.
  • a printing plate 24' as seen in Fig. 1, is placed on the surface 90 of the substrate body 81 in which the image support surface 82 is subsequently coated thereon.
  • the ceramic or metallic compound material 84 at the image support surface 82 is coated on the substrate surface 90 to a thickness on the order of 0.1 mils.
  • the substrate body 81 is selectively made of stainless steel or carbon steel.
  • the thermally erasable contact printing member 22 is shown with an image forming substance 86 coating supported by the image support surface 82.
  • a thin layer coating of the image forming substance 86 is sprayed on the image support surface 82 prior to the formation of the contact printable image.
  • the image support surface 82 is made of a material that is structurally sound at temperatures higher than the decomposition temperature or alternatively, the vaporization temperature range of the image forming substance 86.
  • the hydrophilic image support surface 82 comprising a ceramic, a metal and ceramic composite, a metal, a metal alloy or another material has melting temperature range and a vaporization temperature range which is greater than the hydrophobic contact printable image substance 86.
  • the image forming substance 86 is a photopolymer imaging substance such as described above.
  • the melting temperature range of the material 84 at the image support surface is approximately 500 centigrade degrees higher than the decomposition temperature range or vapor temperature range of the coated image forming substance 86.
  • the printing member 22 is shown after the contact printable image 87 of the image forming substance 86 is formed by the ablative imaging system 76, Fig. 3B, or the photoimager 72, Fig. 3A, on the surface of the image support material 82.
  • the coating of the hydrophobic image forming substance 86, as seen in Fig. 4B, is transformed into the contact printable image 87, Fig. 4C, by the photoimager 72 or the ablative imaging system 76 in the thermally erasable contact image forming mechanism 23.
  • Ink adheres to the hydrophobic contact image forming substance to create and transfer the printable image.
  • the coating of the image forming substance 86 in the preferred embodiment is selectively either a photosensitive material for forming an image by means of a photoprocess, or any other hydrophobic organic film which is formable into an image on the printing member surface 24 through an ablative process or a photopolymer substance.
  • the forming of the contact printable image 87 is accomplished by preforming a hydrophilic and erasable image support surface 82 on the body 81 of the printing member 22.
  • a photoimagable substance 86 as the ones described above is applied as a thin film to the image support surface, as seen in Fig. 4B. Portions of the applied photoimagable substance thin film 86 are selectively removed from the support surface 82 by spraying on or immersing the support surface 82 coated with the thin film 86 in a suitable developer such as an alkaline developer to form the contact printable image 87.
  • the underlying support surface 82 is of a water-loving hydrophilic material and the applied photoimaging forming substance 86 is of a ink-loving and water-resistant hydrophobic material. Removal of the hydrophobic photoimagable forming substance 86 is performed by raising the temperature of the photoimagable substance, as described in Figs. 2A and 2B, above the oxidation onset temperature point, the decomposition onset temperature point or the volatization temperature point of such photoimagable substance.
  • the ceramic, metal or ceramic and metal composite material 84 at the image support surface 82 has thermal characteristics relative to the thermal characteristics of the image substance 86 which are sufficient to maintain the structural integrity of the image support surface during the application of heat energy when removing the image forming substance from the erasable support surface to enable support of a new coating of contact image printing forming substance for formation of a new image.
  • the image support surface 82 and the printing image forming substance 86 are shown on the thermally erasable printing member 22.
  • the image support surface 82 is roughened thereby enabling increased securement of the image forming substance.
  • the image support surface 82 has a coarse and roughened shape to enhance adhesion to the image forming substance 86.
  • the image support surface 82 has a plurality of pores 92 which adhere to the image forming substance 86. Roughening of the image support surface 82 is selectively achieved by etching the ceramic or metallic surface, particle blasting the surface or the rough surface inherently characteristic of the particulate nature of the material.
  • Roughening may alternatively be performed by chemical or electrochemical etching as described in European Patent Publication No. 471,351 A1 of H. Sakaki published February 19, 1992.
  • the image support surface 82 has a roughens factor of approximately fifty micro-inch Ra.
  • the material 84 at the erasable image support surface 82 is mixed with an image forming substance heat facilitating catalyst.
  • the heat facilitating catalyst is preferably a metal such as Pt, Pd, Ir, Ni or the like or oxides of Ce or Ru or the like which is employed for enhancing the oxidation and volatilization or organic compounds.
  • the preferred method of contact printing can be used in various types and sizes of printing presses by (1) forming a contact printable image on a printing member (2) using the printing member to contact print a copy of the printable image and (3) thermally erasing the contact printable image from the printing member while the printing member remains attached to the printing press to enable formation of a new contact printable image on the printing member.
  • the new contact printable image is formed on the printing member 22 while the printing member remains attached to the printing press after the previous contact printable image is erased.
  • the preferred method of contact printing begins at step 100 in which the reusable and erasable image support surface 82 on the body of the thermally erasable printing member 22 is coated with the contact printing image forming substance 86.
  • step 102 the desired image is formed in the coating of the image formable substance 86 through an ablative or photoimaging process as described in Figs. 3A and 3B.
  • the printing press 20 is started in step 104.
  • step 106 the desired number of copies of the image coated on the image support surface 82 by way of the image forming substance 86 is contact printed on the web 38 or other selected medium.
  • the printing press 20 is stopped.
  • the contact printable image 87 is thermally erased by substantially removing all the contact image formable substance 86 from the image support surface 82.
  • the process returns to step 100 in order to begin contact printing of a new contact printable image on to a selected printing medium.
  • the preferred method of making a reusable contact printing apparatus in the present invention is performed by (1) forming a support body with a substrate surface adapted to support a reusable image support material and (2) securing erasable image support material to the substrate surface to provide an image support surface for successive support of new coatings of image forming substance with preselected thermal characteristics in which contact printing images are formable with the erasable image support material having thermal characteristics relative to the preselected thermal characteristics of the image forming substance to maintain structural integrity of the erasable image support material during application of sufficient heat energy to remove enough of the image forming substance from the image support surface to enable support of a new coating of image forming substance for formation of a new image.
  • the erasable image support material 84 is secured to the substrate body 81 by spraying a coating of image support material onto the substrate surface 90.
  • the erasable image support material 82 is selectively secured to the substrate surface 90 by: thermally spraying the erasable image support material at temperatures near the melting point temperature of the image support material; by spraying the erasable image support material onto the substrate surface 90 at speeds on the order of the speed of the sound or by spraying the image support material 82 onto the substrate 81 together with a high velocity oxygen fuel.
  • the substrate support 81 body is formed with a cylindrical surface 90 and the image support material 84 is secured in uniform conformity with the substrate surface to provide a cylindrical erasable image support surface.
  • step 120 the cylindrical support body 81 is formed with a cylindrical surface 90.
  • the erasable image support material 84 is secured in uniform conformity to the substrate surface 90 of the cylindrical support body 81 to provide a cylindrical thermally erasable image support surface 82 in step 122.
  • step 124 the image support material 84 is treated to form a roughened structure 92 at the substrate surface 90 for support of the image forming substance 86.

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  • Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Thermal Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Printing Plates And Materials Therefor (AREA)
  • Manufacture Or Reproduction Of Printing Formes (AREA)
EP96101264A 1995-01-31 1996-01-30 Assemblage d'impression par contact des caractères effaçables, appareil de reproduction et procédé de reproduction et procédé de production de l'assemblage Withdrawn EP0724967A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US382356 1989-07-20
US38235695A 1995-01-31 1995-01-31

Publications (1)

Publication Number Publication Date
EP0724967A1 true EP0724967A1 (fr) 1996-08-07

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EP96101264A Withdrawn EP0724967A1 (fr) 1995-01-31 1996-01-30 Assemblage d'impression par contact des caractères effaçables, appareil de reproduction et procédé de reproduction et procédé de production de l'assemblage

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JP (1) JPH08336943A (fr)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1177914A2 (fr) * 2000-08-04 2002-02-06 Heidelberger Druckmaschinen Aktiengesellschaft Procédé et appareil pour régénérer une plaque d'impression réutilisable
US6610458B2 (en) 2001-07-23 2003-08-26 Kodak Polychrome Graphics Llc Method and system for direct-to-press imaging

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Publication number Priority date Publication date Assignee Title
EP1177914A2 (fr) * 2000-08-04 2002-02-06 Heidelberger Druckmaschinen Aktiengesellschaft Procédé et appareil pour régénérer une plaque d'impression réutilisable
EP1177914A3 (fr) * 2000-08-04 2003-08-20 Heidelberger Druckmaschinen Aktiengesellschaft Procédé et appareil pour régénérer une plaque d'impression réutilisable
US6610458B2 (en) 2001-07-23 2003-08-26 Kodak Polychrome Graphics Llc Method and system for direct-to-press imaging

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