EP1946937A1 - Support d'enregistrement composite et son procédé de fabrication - Google Patents

Support d'enregistrement composite et son procédé de fabrication Download PDF

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Publication number
EP1946937A1
EP1946937A1 EP08007574A EP08007574A EP1946937A1 EP 1946937 A1 EP1946937 A1 EP 1946937A1 EP 08007574 A EP08007574 A EP 08007574A EP 08007574 A EP08007574 A EP 08007574A EP 1946937 A1 EP1946937 A1 EP 1946937A1
Authority
EP
European Patent Office
Prior art keywords
recording medium
ink
recording
composite
parts
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Withdrawn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
EP08007574A
Other languages
German (de)
English (en)
Inventor
Hiroyuki Onishi
Masaya Sibatani
Masahiro Hanmura
Hidemasa Kanada
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.)
Seiko Epson Corp
Original Assignee
Seiko Epson Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Seiko Epson Corp filed Critical Seiko Epson Corp
Publication of EP1946937A1 publication Critical patent/EP1946937A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G7/00Selection of materials for use in image-receiving members, i.e. for reversal by physical contact; Manufacture thereof
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J11/00Devices or arrangements  of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
    • B41J11/008Controlling printhead for accurately positioning print image on printing material, e.g. with the intention to control the width of margins
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J11/00Devices or arrangements  of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
    • B41J11/36Blanking or long feeds; Feeding to a particular line, e.g. by rotation of platen or feed roller
    • B41J11/42Controlling printing material conveyance for accurate alignment of the printing material with the printhead; Print registering
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41MPRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
    • B41M5/00Duplicating or marking methods; Sheet materials for use therein
    • B41M5/50Recording sheets characterised by the coating used to improve ink, dye or pigment receptivity, e.g. for ink-jet or thermal dye transfer recording
    • B41M5/502Recording sheets characterised by the coating used to improve ink, dye or pigment receptivity, e.g. for ink-jet or thermal dye transfer recording characterised by structural details, e.g. multilayer materials
    • B41M5/506Intermediate layers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41MPRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
    • B41M5/00Duplicating or marking methods; Sheet materials for use therein
    • B41M5/50Recording sheets characterised by the coating used to improve ink, dye or pigment receptivity, e.g. for ink-jet or thermal dye transfer recording
    • B41M5/52Macromolecular coatings
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G5/00Recording members for original recording by exposure, e.g. to light, to heat, to electrons; Manufacture thereof; Selection of materials therefor

Definitions

  • the present invention relates to a composite recording medium wherein two or more types of parts having different surface properties are integrated, a manufacturing method therefor, and a set of two or more types of recording mediums having different surface properties.
  • the present invention relates to a composite recording medium wherein two or more parts having different surface properties are integrated, capable of most effectively obtaining ink images having desired image quality, and exhibiting outstanding productivity in terms of obtaining images with a plurality of image qualities at one time, a manufacturing method and recording method therefor, recordings wherein ink images are recorded using the same, a recording medium set containing the same, and a recording medium set comprising two or more types of recording mediums having different surface properties.
  • the present invention also relates to a dot recording apparatus suitable for those composite recording mediums.
  • the surface for forming images is of even quality, and it is necessary to do re-recording in cases where the image quality of the recorded image obtained does not match the preference of the image producer, or in cases where it is desired to use another recording medium and compare the quality of the recorded images.
  • the use of such recording mediums has proven ineffective in obtaining recorded images exhibiting the desired image quality, it being necessary, for example, to make repeated trial printings until the quality of the recorded image obtained corresponds to personal preference.
  • an object of the present invention is to provide a recording medium wherewith the problems noted above can be resolved and recorded images having the desired image quality can be obtained most effectively.
  • Another object of the present invention is to provide a recording medium exhibiting outstanding productivity in that an image having a plurality of image qualities can be obtained in one operation.
  • Yet another object of the present invention is to provide a recording medium for use in making trial printings.
  • Yet another object of the present invention is to provide a set of recording mediums wherewith trial printings can be made.
  • Yet another object of the present invention is to provide a recording medium wherewith it is possible to make trial printings with one sheet of recording paper.
  • Yet another object of the present invention is to provide a dot recording apparatus and dot recording method suitable for the print processing of these recording mediums, and a computer readable recording medium whereon is recorded a program for executing that dot recording method in a print processing apparatus.
  • the present invention which is based on those research findings, provides a composite recording medium that is characterized by having two or more types of parts exhibiting different surface properties integrated therein.
  • different surface properties is meant that the surface properties differ in outward appearance. Even if the surface (uppermost face) is uniformly smooth, the surface properties are considered to be different if there is the appearance of difference due to the effects of an internal layer therein. More specifically, in the case of a recording medium wherein a resin coating layer is formed having two or more types of face properties on a substrate, and an ink accepting layer is formed as a surface layer (uppermost layer) on that resin coating layer, the surface properties are considered to differ if the parts noted appear to differ, in terms of external appearance, due to the face properties of that resin coating layer, even though the surface be uniformly smooth.
  • dot recording is performed on a composite recording medium by pre-recording, for each of two or more types of parts configuring the composite recording medium wherein two or more types of parts having different surface properties are integrated, a color compensation table for converting prescribed image data to image data suitable for dot recording processing wherein color separation is performed for each element color, parameters for defining the operation of head drive means for performing drive control for a dot recording head provided with dot recording element for recording dots on the composite recording medium, parameters for defining the operation of primary scanning drive means for performing primary scanning, relatively driving the dot recording head and the composite recording medium, and parameters for defining the operation of secondary scanning drive means for performing secondary scanning, relatively driving the dot recording head and the composite recording medium each time the primary scanning ends; converting, for each of the two or more types of parts, the image data, referencing the corresponding color compensation table; and controlling the operation of the primary scanning drive means, the head drive means, and the secondary scanning drive means, referencing the parameters.
  • dot recording element a component for recording dots, such as an ink nozzle in an ink jet printer. Accordingly, besides the piezo jet scheme wherein the capacity of a pressurized chamber is changed by the volumetric change in a piezoelectric element and ink droplets are blown out, this may also be a bubble jet scheme wherein droplets of ink loaded inside a pressurized chamber are blown out when vapor is suddenly generated by the application of heat.
  • the present invention further provides a computer readable recording medium on which procedures for effecting the dot recording method noted above are written by a program.
  • a computer readable recording medium is meant something whereon a program or the like is recorded by some physical means or other, capable of implementing the desired functions in a print processing apparatus. Accordingly, it may be anything that downloads to the print processing apparatus by some means or other and effects the desired functions.
  • Examples include not only transportable recording media such as an optical disk (CD-ROM, DVD-ROM, DVD-RAM, DVD-R, PD disk, MD disk, and MO disk, etc.), but also flexible disks (FD) or internal memory devices such as a RAM or ROM inside a computer, or an external memory device such as a hard disk. Also included are paper whereon bar code is recorded, and cards in which holes are punched according to a code system.
  • transportable recording media such as an optical disk (CD-ROM, DVD-ROM, DVD-RAM, DVD-R, PD disk, MD disk, and MO disk, etc.
  • FD flexible disks
  • internal memory devices such as a RAM or ROM inside a computer
  • an external memory device such as a hard disk.
  • paper whereon bar code is recorded and cards in which holes are punched according to a code system.
  • Fig. 1 is a section of the first embodiment aspect of the composite recording medium of the present invention.
  • the composite recording medium 100 in the first embodiment aspect is configured of a substrate 101, a transparent ink accepting layer 103 deployed on the substrate 101 over an intervening resin coating layer 102, and a resin coating layer 104 deployed on the back surface (the face on the opposite side from the ink accepting layer 103) of the substrate 101.
  • the resin coating layer 102 on the substrate 101 comprises two or more types of parts having differing face properties.
  • the composite recording medium 100 of this embodiment aspect has two or more parts having different surface properties integrated therein.
  • the face properties of the resin coating layer 102 do not appear in Fig. 1 , but when represented by a plan (i.e. the plan of the composite recording medium 100 from which the ink accepting layer 103 has been omitted), those face properties do appear.
  • the two or more parts having the different surface properties use may be made of two or more parts having different glossiness, or two or more parts having different smoothness, or two or more parts differing in both glossiness and smoothness. More specifically, the two or more types of parts may be two or more types of parts selected from a group made up of glossy tone parts, semi-glossy tone parts, matte tone parts, and silk-weave tone parts. Among these parts, moreover, one or more can have a plurality of recording areas divided according to the strength or weakness of the light reflectance thereof.
  • the substrate 101 used in this embodiment aspect there is no particular limitation, and commonly used paper can be employed, but it is preferable that this be smooth, high-density stencil paper such as is used as the substrate (supporting body) for photographs.
  • polyolefin resins used for thermally melting extrusion coatings are preferable, with polyethylene resins being particularly preferable.
  • the method for forming the resin coating layers 102 and 104 on both sides of the substrate 101 may be, besides the thermally melting extrusion coating method alluded to above, a method whereby a latex capable of forming a film is coated. It is possible, for example, to coat the substrate 101 with a latex having a low minimum film-forming temperature (MFT) and then heating to a temperature that is equal to or higher than that minimum film-forming temperature (cf. Japanese Patent Application Laid-Open No. H11-188966/1999 ).
  • MFT low minimum film-forming temperature
  • the ink accepting layer 103 used in this embodiment aspect is a layer for reproducing color images and photographic images and the like at high quality. Any of the materials known in the prior art can be used as the material for forming this ink accepting layer 103. More specifically, it is preferable that the ink accepting layer contain an ink absorbing pigment, an ink fixing agent, and a binder, but also containing, as necessary, various types of additives such as dye fixing agents (water resistance enhancing agents), fluorescent brightening agents, surfactants, antifoaming agents, pH adjusting agents, anti-molding agents, UV absorbers, and anti-oxidants.
  • dye fixing agents water resistance enhancing agents
  • fluorescent brightening agents surfactants
  • antifoaming agents surfactants
  • antifoaming agents surfactants
  • UV absorbers and anti-oxidants
  • the ink accepting layer 103 is formed by dissolving or dispersing the binder noted above in a suitable solvent, adding thereto the ink fixing agent, adding the various additives noted above as necessary, then coating the resulting coating liquid onto the resin coating layer 102 by a known coating method such as roller coating, spray coating, rod bar coating, or air knife coating, and causing that to dry.
  • the composite recording medium 100 in the first embodiment aspect can be fabricated, for example, by forming the resin coating layers 102 and 104 on the substrate 101 and on the back side thereof, then imparting two or more types of face properties to the resin coating layer 102 by rolling, next forming the ink accepting layer 103 on the resin coating layer 102 after the face properties have been imparted thereto, and thus imparting two or more types of surface properties.
  • the roller used here may be a rotogravure roller, for example, which can be used to emboss the resin coating layer 102 and thereby to impart two or more types of face properties thereto.
  • Fig. 2 is a section of the second embodiment aspect of the composite recording medium of the present invention.
  • the composite recording medium 200 in the second embodiment aspect is configured from a substrate 201, an ink accepting layer 202 deployed on that substrate 201, and a glossy layer 203 deployed on that ink accepting layer 202.
  • the glossy layer 203 comprises two or more types of parts having differing surface properties.
  • the composite recording medium 200 in this embodiment aspect has two or more parts exhibiting different surface properties integrated therein.
  • the form of the two or more parts having differing surface properties is the same as in the first embodiment aspect described earlier.
  • the glossy layer 203 used in this embodiment aspect be configured from a white pigment and a binder.
  • This white pigment may be, for example, an inorganic pigment such as light calcium carbonate, heavy calcium carbonate, magnesium carbonate, kaolin, talc, calcium sulfate, barium sulfate, titanium dioxide, zinc oxide, zinc sulfide, zinc carbonate, satin white, aluminum silicate, diatomaceous earth, calcium silicate, magnesium silicate, synthetic amorphous silica, colloidal silica, alumina, colloidal alumina, false boehmite, aluminum hydroxide, lithopone, zeolite, hydrated halloysite, and magnesium hydroxide, or an organic pigment such as a styrene plastic pigment, acrylic styrene pigment, polyethylene, micro-capsule, ureic resin, or melamine resin. Of these, synthetic amorphous silica and the like are to be preferred.
  • the binder may be, for example, an oxidized starch, etherized starch, phosphate esterized starch or other starch derivative, carboxymethyl cellulose, hydroxyethyl cellulose, or other cellulose derivative, casein, gelatin, soy protein, polyvinyl alcohol, or derivative thereof, polyvinyl alcohol or silanol denatured product, carboxylated product, cationated product, or other of various derivatives thereof, polyvinyl pyrrolidone, anhydrous maleic acid resin, styrene butadiene copolymer, methyl methacrylate butadiene copolymer, or other conjugated diene copolymer latex, polymer or copolymer of acrylic acid ester and methacrylic acid ester or other acrylic polymer latex, ethylene vinyl acetate copolymer or other vinyl polymer latex, or functional group denatured polymer latex resulting from treating these various kinds of polymers with a monomer containing a carboxy group or
  • the glossy layer 203 noted earlier can also contain various additives for the purpose of improving the properties of the composite recording medium 300.
  • additives include anti-oxidants, UV absorbents, fluorescent brightening agents, water resistance enhancing agents, anti-fading agents, and anti-static agents, etc.
  • the glossy layer 203 can be formed by coating a coating liquid prepared by dissolving or dispersing the components forming that glossy layer 203 in water or a suitable solvent onto the ink accepting layer 3 using any of various types of apparatuses including, for example, a blade coater, roll coater, bar coater, rod blade coater, curtain coater, short dwell coater, or size press, etc. Further, in order to enhance smoothness, calender processing may be performed using a machine calender, TG calender, super calender, or soft calender, etc.
  • the coating weight of the coating liquid noted above should here be 5 to 40 g/m 2 , and preferably 10 to 30 g/m 2 .
  • the glossy layer 203 is not particularly limited in terms of its glossiness or thickness, etc., so long as the two or more types of parts having different surface properties are integrated therein.
  • Stencil paper is used for the substrate 201 used in this embodiment aspect. It is to be preferred that this stencil paper be made from a pulp raw material consisting mainly of natural cellulose fiber, for example.
  • the pulp raw material may be NBKP, LBKP, NBSP, LBSP, GP, TMP, or old paper or the like. It is possible to use mixtures of these materials mixed in proportions suitable for multiple purposes.
  • the thickness of the substrate 201 may be suitably determined, but should in general be 50 to 500 ⁇ m and preferably 100 to 300 ⁇ m or so.
  • composition of the ink accepting layer 202 used in this embodiment aspect is the same as the composition of the ink accepting layer 103 used in the first embodiment aspect.
  • the composite recording medium 200 of the second embodiment aspect can be fabricated, for example, by forming the ink accepting layer on the substrate, then forming the glossy layer on that ink accepting layer, and next imparting two or more types of surface properties to the glossy layer using a film.
  • the film used here may be a polyethylene terephthalate (PET) film or the like, for example.
  • PET polyethylene terephthalate
  • On this film is provided a transfer form for the desired surface quality (surface property) to be imparted to the glossy layer 203.
  • surface quality surface property
  • two or more types of surface properties can be imparted.
  • the film provided with the transfer form is superimposed on the glossy layer 203, embosses it, and is then peeled away from that glossy layer 203.
  • Fig. 3 is a plan of the third embodiment aspect of the composite recording medium of the present invention.
  • Fig. 4 is a section at the A-A line in Fig. 3 .
  • the composite recording medium 300 in this embodiment aspect is configured with recording medium pieces (hereinafter called simply medium pieces) having a glossy tone part 310, semi-glossy tone part 311, matte tone part 312, and silk-weave tone part 313 respectively integrated on the surface thereof.
  • Those medium pieces as diagrammed in Fig. 4 , are respectively configured of a substrate 301, an ink accepting layer 302 deployed on that substrate 301, and a glossy layer 303 deployed on that ink accepting layer 301.
  • the substrate 301, ink accepting layer 302, and glossy layer 303 used in the composite recording medium 300 of this embodiment aspect are the same, respectively, as those used in the second embodiment aspect.
  • the composite recording medium 300 in the third embodiment aspect can be fabricated as follows, for example. That is, stencil paper made using pulp raw material is used for the substrate 301. On the surface of this substrate 301, a coating liquid prepared by dissolving or dispersing the components forming the ink accepting layer 301 in water or a suitable solvent is coated on by a coating method and dried to form the ink accepting layer 301. Next, on the surface of that ink accepting layer 302, a coating liquid prepared by dissolving or dispersing the components forming the glossy layer 303 in water or a suitable solvent is coated, dried, and subjected to a calender treatment as necessary, to provide the glossy layer 303 and obtain recording medium pieces.
  • Fig. 6 is a plan of the fourth embodiment aspect of the composite recording medium of the present invention.
  • Fig. 7 is a section at the B-B line in Fig. 6 .
  • the composite recording medium 400 of this embodiment aspect is configured, as diagrammed in Fig. 7 , of a supporting body 1, an adhesive layer 5 deployed on that supporting body 1, and four recording medium pieces (hereinafter called merely medium pieces) having different surface properties deployed on that adhesive layer 5.
  • the medium pieces are each configured of a base material 2, a porous ink accepting layer 3 for absorbing and fixing the ink, deployed on that base material 2, and a glossy layer 4 deployed on that ink accepting layer 3.
  • the composite recording medium 400 of this embodiment aspect has a glossy tone part 41 and a silk-weave tone part 42 integrated and deployed on the surface thereof.
  • These two parts 41 and 42 are parts that express the surface properties of the glossy layer 4 of each medium piece.
  • the glossy tone part 41 is made by, for the glossy layer 4, forming a smooth surface layer having the property of strong light reflectance, while the silk-weave tone part 42 is made by, for the glossy layer 4, imparting silkiness to the smooth surface layer that made the glossy tone part 41, and thereby forming a layer having the property of low light reflectance.
  • the glossy tone part 41 is divided into a recording area 41a and a recording area 41b.
  • the silk-weave tone part 42 is further divided into a recording area 42a and a recording area 42b by the light reflectance strength or weakness.
  • the glossy layer 4 base material 2, and ink accepting layer 3 used in the medium piece A having the recording area 41a, the glossy layer 203, base material, and ink accepting layer used in the second embodiment aspect described earlier are respectively employed in this embodiment aspect.
  • the medium piece A having the recording area 41a is fabricated as follows, for example. That is, stencil paper made using pulp raw material is used for the base material 2. On the surface of this base material 2 is coated a coating liquid prepared by dissolving or dispersing the components forming that ink accepting layer 3 in water or a suitable solvent, using a coating method, and drying that to deploy the ink accepting layer 3. Next, on the surface of that ink accepting layer 3, a coating liquid prepared by dissolving or dispersing the components forming that glossy layer 4 in water or a suitable solvent is coated on, dried, and subjected to a calender treatment, as necessary, to provide the glossy layer 4. Thus the medium piece A having the recording area 41a is fabricated.
  • the light reflectance of the glossy layer 4 is different than in the medium piece A having the recording area 41a.
  • the light reflectance of the glossy layer 4 in this medium piece B may be higher or lower than that of the glossy layer 4 in the medium piece A, just so long as the light reflectance is different.
  • the glossy layer 4 of the medium piece B is formed by selecting, from among the components listed for forming the glossy layer 4 of the medium piece A, components that differ from the components forming the glossy layer 4 of that medium piece A.
  • the medium piece C having the recording area 42a is a piece wherein the glossy layer 4 thereof has a silk-weave tone pattern.
  • This medium piece C is formed by imparting an irregular silk-weave pattern to the smooth glossy layer 4 having glossiness, fabricated in the same way as the medium piece A having the recording area 41a, using a roller, for example, wherein irregularities have been provided, while applying pressure.
  • the medium piece D having the recording area 42b is a piece wherein the glossy layer 4 thereof has a silk-weave tone pattern that differs from that of the glossy layer 4 of the medium piece C.
  • This medium piece D is formed by imparting an irregular silk-weave pattern to the smooth glossy layer 4 having glossiness, fabricated in the same way as the medium piece A having the recording area 41a, using a roller, for example, wherein irregularities have been provided, while applying pressure.
  • the formation of the silk-weave shape by the irregular roller is performed by altering the size of the lattice pattern on the irregular roller, making the pressure applied to the medium piece by the irregular roller stronger or weaker than when fabricating the medium piece C described earlier.
  • the silk-weave pattern obtained is not particularly limited so long as it differs (in terms of the surface properties being different) from the silk-weave pattern exhibited by the glossy layer 4 of the medium piece C.
  • the composite recording medium 400 in this embodiment aspect can be fabricated by applying prefabricated medium pieces, respectively, at prescribed positions on the supporting body 1 using an adhesive. When that is done, the medium pieces and the supporting body 1 are securely bonded, the medium pieces are securely bonded to each other, and the thickness of the composite recording medium 400 obtained appears to be uniform.
  • photographic print paper or a base material having a resin coating layer such as is used in the first embodiment aspect described earlier or the like may be used, and there is no particular limitation on the material used for that supporting body 1 so long as it does not interfere with the recording of images.
  • the thickness of the supporting body 1 is determined appropriately within such range as will not impair the effectiveness of the present invention.
  • the adhesive noted above after the supporting body 1 and the base material 2 side of the mediums noted above are laminated together, is dried to form the adhesive layer 5.
  • the quantity of this adhesive used is just enough so that the supporting body 1 and the mediums will adhere and not peel away.
  • the composite recording mediums of the present invention are used in the following way, for example. That is, when the composite recording medium 400 of the fourth embodiment aspect is used, as diagrammed in Fig. 10 , by recording the same image (a star shape is used as an example in Fig. 10 ) a plural number of times, a recording wherein the same image is recorded a plurality of times is obtained. After that, the surface property is selected wherein is formed an ink image having the desired surface property, from that recording, and the ink image is recorded on a recording medium the entire surface of which has the same surface property as that selected surface property. In this manner, images having the desired image quality and recordings containing those images can be obtained most effectively. Needless to say, furthermore, the images obtained here are vivid, high-resolution images.
  • Fig. 12 is a section representing the fifth embodiment aspect of the composite recording medium of the present invention.
  • Fig. 13 is a plan as viewed from the peel-away base material side of the composite recording medium diagrammed in Fig. 12 .
  • the composite recording medium 600 in this embodiment aspect is a pressure sensitive adhesive seal for ink jet recording configured of a print base material 601 whereon is formed an ink accepting layer, a pressure sensitive adhesive layer 602, and a peel-away base material 603, wherein two or more types of parts having differing surface properties are integrated.
  • the two or more types of parts having differing surface properties appear on the surface of the ink accepting layer in the print base material 601.
  • the morphology thereof is not particularly limited. Such as are seen in the embodiment aspects described earlier can be employed as appropriate.
  • text or images are formed by printing on the surface of the print base material with an ink jet printing apparatus (printer), the peel-away paper is then peeled away, and the adhesive surface is applied to the item on which the application is to be made.
  • a print base material half cut line 604 is made beforehand in a prescribed shape on the print base material 601, and this portion is peeled away from the peel-away paper for use.
  • the print base material half cut line 604 is such that a cut is made only in the pressure sensitive adhesive layer 602 and print base material 601 of the pressure sensitive adhesive paper, and the peel-away paper 603 is not cut. With this method, only the shape of the label or seal is peeled away and used.
  • the composite recording medium 600 (pressure sensitive adhesive seals) of this embodiment aspect can be easily and accurately applied at prescribed positions, without wrinkles developing, by preferably being used in small seal applications such as home video tape seals, business card size seals, CD-R seals, postcard size seals, and sets of multiple seals measuring 1 to 2 cm x 1 to 2 cm.
  • the print base material 601 have easy removal means (half cut line 605 having a thickness less than that of the peel-away base material, or non-continuous half cut lines 605, for example) for multiple seals, and that the configuration be made such that the easy removal means are formed at positions corresponding to the outer peripheral vicinity of those seals (cf. Japanese Patent Application Laid-Open No. H11-7246/1999 ).
  • the various print base materials used in the embodiment aspects described earlier can be used, for example.
  • the pressure sensitive adhesive layer 603 and the peel-away base material 604 also, that which is used in ordinary adhesive seals can be used without any particular limitation applying. If an image is formed on such a composite recording medium 600 as in this fifth embodiment aspect, it can be used as a photographic seal wherein the same image having multiple types of surface properties is formed. It is possible, for example, to use this as a seal whereon is formed an image like a photograph such as that diagrammed in Fig. 13 .
  • the composite recording mediums of the present invention are preferably used as trial recording mediums for recording ink images of desired image quality. Also, by providing a recording medium set containing pluralities of the composite recording mediums of the present invention and recording mediums wherein the overall surface exhibits a surface property that is the same as one surface property of the plurality of surface properties exhibited by that composite recording medium, respectively, so that those recording mediums contain all of the types of that plurality of surface properties, ink images having desired image quality can be obtained most effectively and enhanced utility is also realized.
  • the composite recording mediums of the present invention are preferably used as mediums for ink jet recording.
  • the composite recording mediums of the present invention in addition, can be used as mediums for bubble jet recording, mediums for recording by a writing instrument such as a pen, and as mediums for recording by various other types of printing schemes that use liquid ink.
  • the composite recording mediums of the present invention can be used as recording mediums whereon toner is heated and fixed in an electronic photographic recording scheme such as is used in a copier or printer, or as recording mediums used for labels provided with an adhesive layer.
  • the ink accepting layer 103 in place of the ink accepting layer 103, it is possible to use a layer provided with a gap containing organic particles to which are bonded an organic cationic polymer (cf. Japanese Patent Application Laid-Open No. H11-58942/1999 ), or a layer obtained by using inorganic particles, a water soluble resin, and a prescribed crosslinking agent, crosslinking that water soluble resin while a constant drying rate is indicated, and effecting hardening (cf. Japanese Patent Application Laid-Open No. H11-115308/1999 ), etc. It is also possible to change to a layer for accepting ink described in Japanese Patent Application Laid-Open Nos. H10-81064/1998 , No.
  • surface properties can be imparted using a roller.
  • a roller There are methods, for example, wherewith surface properties are imparted by passing the recording medium between a metal roller and a nip roller.
  • the recording medium may have no glossy layer deployed, so that the ink accepting layer is the outermost layer, in which case the ink accepting layer, instead of the glossy layer, will become the layer having two or more kinds of parts exhibiting different surface properties.
  • the recording area having the glossy tone part and the silk-weave tone part, respectively can be made one division only, or three or more divisions, or, alternatively, the number of recording areas in both parts can be made different and not only the same.
  • a lattice-form irregular silk-weave pattern like that diagrammed in Fig. 6
  • a flat-weave irregular silk-weave pattern or circular irregular silk-weave pattern can be used.
  • composite recording mediums are indicated wherein four parts having different surface properties are integrated, but the number of these parts is not limited, and that number may be two or three, or five or more. Nor is there any particular limitation on the position or size of the parts.
  • the configuration otherwise can be modified as appropriate.
  • the composite recording medium of the present invention can be fabricated by simultaneously using multiple rollers to impart two or more types of surface properties to manufacturing raw material of large width, and then cutting out each recording medium separately.
  • the multiple rollers three connected rollers can be used, for example, as diagrammed in Fig. 8 .
  • Fig. 9 is diagrammed a condition wherein the three rollers diagrammed in Fig. 8 have been used simultaneously to impart two or more types of surface properties, respectively, to the manufacturing raw material.
  • the recording medium set of the present invention comprises two or more types of recording medium having differing surface properties.
  • the recording medium set of the present invention may be especially suitably used as a trial recording medium set.
  • a preferred embodiment aspect of the recording medium set 500 of the present invention, as diagrammed in Fig. 11 is a set of a plural number of recording mediums 501 wherein each medium, respectively, exhibits different surface properties.
  • FIG. 15 One example of a composite recording medium wherein two or more types of parts having differing surface properties are integrated is diagrammed in Fig. 15 .
  • the composite recording medium 700 diagrammed in Fig. 15 is configured by a glossy tone part 71 and a silk-weave tone part 72.
  • the glossy tone part 71 for example, can be used as an image printing area and the silk-weave tone part 72 can be used as a text printing area.
  • recording paper can be provided wherewith the printing application in each printing area is conformed with.
  • Fig. 16 is a block diagram of the configuration of a print processing apparatus (dot recording apparatus) of the present invention.
  • the print processing apparatus is configured such that it comprises a scanner 10, a computer terminal 20, and a color printer 30.
  • the computer terminal 20 comprises a color display 40.
  • the scanner 10 reads color image data from original color copy, and sends primary color image data consisting of the three colors R (red), G (green), and B (blue) to the computer terminal 20.
  • an application program 21, video driver 22, and printer driver 23 run under an operating system.
  • the print driver 23 takes image data from the application program 21 and performs image processing to convert those data into signals that are printable by a color printer 30, that is, into binary-converted signals Y (yellow), M (magenta), C (cyan), and K (black).
  • a color display 40 displays images indicating how that image processing is proceeding based on instructions from the video driver 22.
  • the video driver 22 also controls operating screens for the application program 21.
  • the printer driver 23 comprises a rasterizer 24, color correction module 25, halftone module 26, and color correction table 27.
  • the rasterizer 24 converts the image data handled by the application program 21 to color information in dot units.
  • the color correction module 25 references the color correction table 27, subjects the image data (RGB 256 tone data) converted to dot units to color correction according to the characteristics of the colors produced by the color printer 30, converting those data to YMCK image data.
  • the color correction table 27 is read by the printer driver 23 from the color printer 30 when the computer terminal 20 is started up.
  • Fig. 25 also represents a recording mode table wherein are registered color correspond tables and recording modes for various types of composite recording medium.
  • a type 1 composite recording medium comprises two types of printing areas, namely a glossy tone part and a silk-weave tone part, for each of which are registered, respectively, a color correction table, range (coordinate data representing printing area positions on the composite recording medium), number of nozzles used N, and secondary scan feed amount L, etc.
  • the number of nozzles used N and the secondary scan feed amount L are recording mode parameters used when printing images or text in the respective printing areas.
  • the recording mode parameters in addition to the number of nozzles used N and the secondary scan feed amount L, also include such parameters as nozzle pitch k and number of scan repetitions s, but these are not described further in the interest of expedience.
  • a type 2 composite recording medium is configured of three types of printing area, namely a glossy tone part, a semiglossy tone part, and a silk-weave tone part.
  • the glossy tone part can be used as a printing area for images of high image quality
  • the semiglossy tone part as a printing area for images of low image quality
  • the silk-weave tone part as a text printing area, for example.
  • For these printing areas are registered resolution levels, color correction tables, ranges, number of nozzles used N, and secondary scan feed amount L, etc.
  • the color correction module 25 When the user inputs a type for the composite recording medium 700 following directions displayed on the screen of the color display 40, the color correction module 25 references the corresponding look-up table from the color correction table 27 and performs color correction.
  • the type of the composite recording medium 700 is type 1, wherefore the user operates the computer terminal 20 to indicate that the type is type 1.
  • the color correction module 25 determines the positions of the glossy tone part and silk-weave tone part from the coordinate data for each printing area registered in the recording mode table, performs color correction for the glossy tone part referencing LUT1, and performs color correction for the silk-weave tone part referencing LUT2.
  • the halftone module 26 performs halftone processing that expresses density in some area by the presence or absence of ink in dot units from image data after they have been color corrected. For the halftone processing there are dithering and error dispersion, etc.
  • the printer driver 23 sends the YMCK binary-converted image data to the color printer 30. Also included in those image data are text data that are binary-converted by the absence or presence of dots.
  • the color printer 30 prints the prescribed text and images, etc., on the composite recording medium 700 on the basis of the image data supplied from the printer driver 23.
  • color image data are input from the scanner 10, but color image data may also be input from a digital still camera or video camera, etc.
  • printer driver 23 operating on computer terminal 20 converts via application program 21 the color image data of RGC fetched from scanner 10 to a printable image data, in short, a multivalued image data of YMCK at color printer 30, and supplies the multivalued image data to color printer 30.
  • color printer 30 it is possible to embed a function which corresponds to printer driver 23 in color printer 30 so that the color image data fetched from scanner 10 is provided with the preferable image processings in the color printer 30 such as color conversion, color amendment, and half tone processing, etc., and the multivalued image data of YMCK is gained.
  • the image processing in color printer 30 can be performed by software but it is also can be performed by providing an exclusive hardware.
  • Fig. 17 is a simplified configurational diagram of a printer engine unit in the color printer 30.
  • the color printer 30 comprises a mechanism for conveying the composite recording medium 700 by a paper feed motor 51, a mechanism for causing a carriage 60 to move back and forth in the direction of the shaft of a platen 52 by a carriage motor 53, a mechanism for driving a print head 63 mounted on the carriage 60 and controlling ink ejection and dot recording, and a control circuit 81 for controlling the operations of the paper feed motor 51, carriage motor 53, and print head 63.
  • the print head 63 position information is sent to the control circuit 81.
  • the control circuit 81 comprises a non-volatile memory 82 that stores the recording mode table described earlier, and controls the operations of the print head 63, paper feed motor 51, and carriage motor 53 while referencing that recording mode table. (A more detailed description is given further below.)
  • the recording mode table is read out from the non-volatile memory 82 by the printer driver 23 when the computer terminal 20 is started up. Some of the data in the recording mode table are used as the color correction table 27 in the color correction processing for the image data read in from the scanner 10.
  • An operating panel 83 is connected to the control circuit 81.
  • a rewritable non-volatile memory such, for example, as an EEPROM (electronically erasable and programmable read only memory) or UV-EPROM (ultraviolet erasable programmable read only memory) can be used.
  • EEPROM electronically erasable and programmable read only memory
  • UV-EPROM ultraviolet erasable programmable read only memory
  • the carriage 60 is capable of having mounted therein a black ink cartridge 61 and a color ink cartridge 62 containing ink of the three colors cyan, magenta, and yellow.
  • a black ink cartridge 61 and a color ink cartridge 62 containing ink of the three colors cyan, magenta, and yellow.
  • To the print head 63 in the lower part of the carriage 60 are attached a total of four ink ejecting heads 64 to 67, and in the bottom of the carriage 60 are erected induction lines for inducting ink from ink tanks to these heads for the several colors.
  • the black ink cartridge 61 and the color ink cartridge 62 are mounted in the carriage from the top, the induction lines are inserted into connection holes provided in the cartridges, making it possible for ink to be supplied from the ink cartridges to the ink ejecting heads 64 to 67.
  • the ink ejection mechanism in the ink ejection head 64 is next described.
  • Fig. 18 when the ink cartridge 61 is mounted at the induction hole 66, ink inside the ink cartridge 61 is sucked out through the induction line 66, by means of capillary action, and delivered to the ink ejection head 64 of the print head 63 deployed in the lower part of the carriage 60.
  • a plural number of nozzles 90 is provided in the ink ejection head 64, and a piezoelectric element 80 that is one type of electrostriction element is deployed for each nozzle 90.
  • Fig. 20 and Fig. 21 are sections of the ink ejection head 64.
  • the piezoelectric element 80 is an electromechanical conversion element, wherein a crystal structure is distorted by the application of a voltage, that converts electrical energy to mechanical energy.
  • Fig. 20 represents a condition wherein no voltage is being applied across the electrodes provided at both ends of the piezoelectric element 80. When a voltage is applied across these electrodes, as diagrammed in Fig. 21 , the piezoelectric element 80 expands for the time that the voltage is applied, causing one side wall of a pressurized chamber (cavity) 68 to be deformed.
  • cavity pressurized chamber
  • the volume of the pressurized chamber 68 contracts in response to the expansion of the piezoelectric element 80, whereupon ink corresponding in volume to the amount of that contraction becomes an ink droplet 69 which is ejected at high speed from the tip of the nozzle 90.
  • Dot recording is performed by this ink droplet 69 impacting the composite recording medium 700 that is conveyed by the platen 52.
  • the description given here relates to the configuration of the ink ejection head 64, but the ink ejection heads 65 to 67 have the same configuration.
  • the color printer 30 while turning the platen 52 by the paper feed motor 51 to convey the composite recording medium 700, causes the carriage 60 to move back and forth by the carriage motor 53, simultaneously drives the ink ejection heads 64 to 67 provided in the print head 63 to eject the ink of each color, and forms text and images, etc., in multiple colors, on the composite recording medium 700.
  • Fig. 22 is an explanatory diagram representing an array of ink jet nozzles in the ink ejection heads 64 to 67.
  • the ink ejection head 64 is deployed a nozzle array for ejecting black ink.
  • the ink ejection heads 65 to 67 are deployed nozzle arrays for ejecting, respectively, cyan, magenta, and yellow ink.
  • the positions of these four nozzle array groups are mutually coincidental in the secondary scanning direction.
  • the four nozzle array groups each comprise a plural number of nozzles 90 arranged in a staggered formation with a constant nozzle pitch k in the secondary scanning direction.
  • Fig. 23 represents an array of a plurality of dots formed by one nozzle array.
  • drive signals are supplied to the piezoelectric elements 80 in the nozzles so that the plural number of dots recorded by one nozzle array line up in roughly a straight line in the secondary scanning direction.
  • Fig. 22 for example, in the case where the nozzle array is arrayed in a staggered formation, the case is considered where dots are recorded as the ink ejection head 61 is scanned in the rightward direction, in the figure.
  • the leading nozzle groups 91 and 93 are sent a drive signal at a timing that is faster by d/v (seconds) than the timing wherewith the drive signal is sent to the following nozzle groups 92 and 94.
  • d (in inches) is the pitch between two nozzle groups in the ink ejection head 61
  • v (in inches/second) is the scanning speed of the ink ejection head 61.
  • the multiple nozzles provided in the ink ejection heads 64 to 67 are not limited to being always all used. Depending on the recording mode, there are also cases where only a portion thereof is used.
  • Fig. 24 is a functional block diagram for a configuration relating to drive control corresponding to a recording mode.
  • a recording mode setting unit 31 recording mode table 32, raster data storage unit 33, drive unit controller 34, primary scan drive unit 35, secondary scan drive unit 36, print head drive unit 37, print head 63, and composite recording medium 700.
  • the recording mode table 32 is the recording mode table diagrammed in Fig. 25 , which is stored in the non-volatile memory 82. In this same table are registered the recording mode parameters and color correction tables for each of the printing areas configuring the composite recording medium, etc.
  • the recording mode setting unit 31, raster data storage unit 33, and drive unit controller 34 are implemented by circuitry inside the control circuit 81.
  • the primary scan drive unit 35 is implemented by the carriage 60 feed mechanism that includes the carriage motor 53, while the secondary scan drive unit 36 is implemented by the recording medium 700 feed mechanism that includes the paper feed motor 51.
  • the print head drive unit 37 is implemented by a circuit that includes the piezoelectric elements 80 for the nozzles 90.
  • the recording mode setting unit 31 distinguishes the type of the composite recording medium 700 from the image data header, and fetches the corresponding recording mode parameters from the recording mode table 32.
  • the recording mode parameters include such parameters as are required for dot recording, such as the ranges of the print areas, the number of nozzles used N, and the secondary scan feed amount L.
  • the number of nozzles used is N1 and the secondary scan feed amount is L1 for the glossy tone part configuring the composite recording medium 700
  • the number of nozzles used is N2 and the secondary scan feed amount is L2 for the silk-weave tone part.
  • the recording mode parameters such as the number of nozzles used N and the secondary scan feed amount L differ for each printing area. Therefore the recording mode setting unit 31, based on the print head 63 position information sent from the position detection sensor 57, determines whether the printing area that will be the object of dot recording in the next primary scan is a glossy tone part or a silk-weave tone part.
  • the recording mode setting unit 31 sends the number of nozzles used N1 and secondary scan feed amount L1 as recording mode parameters to the raster data storage unit 33 and the drive unit controller 34.
  • the recording mode setting unit 31 sends the number of nozzles used N2 and the secondary scan feed amount L2 as recording mode parameters to the raster data storage unit 33 and the drive unit controller 34. The sending of these recording mode parameters is done prior to the previous scan.
  • the raster data storage unit 33 based on the recording mode parameters sent from the recording mode setting unit 31, stores image data in a buffer memory (not shown). Meanwhile, the drive unit controller 34, in response to the recording mode parameters sent from the recording mode setting unit 31, controls the primary scan drive unit 35, secondary scan drive unit 36, and print head drive unit 37.
  • Fig. 26 is an explanatory diagram for the recording mode parameters.
  • one example of secondary scan feed in the case where four nozzles are used is represented in order to simplify the explanation.
  • the solid line circles containing numerals indicate the positions in the secondary scanning direction of the four nozzles 90 after each secondary scan feed.
  • the numerals 0 to 3 inside the circles are nozzle numbers.
  • the four nozzle positions are fed in the secondary scan direction every time one primary scan ends. In actuality, however, the feed in the secondary scanning direction is implemented by conveying the composite recording medium 700 with the paper feed motor 51.
  • the secondary scan feed amount L is the constant value of 2 dots.
  • the positions of the four nozzles 90 shift by 2 dots at a time in the secondary scanning direction every time the secondary scan is effected.
  • the nozzle pitch k is 3 dots
  • the number of nozzles used N is 4.
  • the number of nozzles used is the number of nozzles actually used of the plurality of nozzles mounted.
  • the number of scan repetitions s means that dots are recorded intermittently every s-1 dots in one primary scan. Accordingly, the number of scan repetitions s is also equal to the number of nozzles used for recording all the dots on one raster.
  • the offset F is a value that, having arbitrarily established the periodic position of the first nozzle where a secondary scan feed is not effected (a position recurring every 4 dots in Fig. 26 ) as a reference position at offset 0, indicates by how many dots the position of the nozzle after a secondary scan feed is removed from that reference position in the secondary scanning direction.
  • the description given in the foregoing is for the printing processing of a composite recording medium wherein, in terms of printing area, two or more types of parts having different surface properties are integrated.
  • a composite recording medium wherein, in terms of printing area, two or more types of parts exhibiting different glossiness and/or different smoothness are integrated may be used.
  • the two or more types of parts moreover, may be two or more types of parts selected from a group made up of glossy tone parts, semiglossy tone parts, matte tone parts, and silk-weave tone parts. Of those two or more types of parts, furthermore, one or more of those parts may have multiple recording areas distinguished by the strength or weakness of the light reflectance exhibited thereby.
  • the composite recording medium used in the dot recording processing in the present invention may have an ink accepting layer.
  • the composite recording medium may be one comprising a base material, a resin coating layer made up of two or more types of parts having different face properties, and an ink accepting layer deployed with that resin coating layer intervening.
  • the composite recording medium may be one comprising a base material, an ink accepting layer deployed on that base material, and two or more types of parts having different surface properties deployed on that ink accepting layer.
  • the composite recording medium may be one comprising a printing base material whereon is formed an ink accepting layer made up of two or more types of parts having different surface properties, and a pressure sensitive adhesive layer and peel-away base material deployed on the face on the opposite side from the ink accepting layer in that printing base material.
  • composite recording medium used in the present invention include machine glazed paper, greeting cards (post cards) and the like in which two or more types of parts having different surface properties are integrated.
  • the present invention can also be applied to printing that represents multiple gradations by representing one pixel with a plurality of dots. It can also be applied in a drum scan printer. With a drum scan printer, however, the direction in which the drum turns will be the primary scanning direction, and the direction in which the carriage travels will be the secondary scanning direction.
  • the present invention can be applied not only to ink jet printers, but more generally in dot recording apparatuses that make recordings on the surface of a composite recording medium using recording heads having plural dot recording element arrays.
  • the functions implemented in hardware may be implemented instead in software, and, conversely, some of the functions implemented by software may be implemented instead in hardware.
  • the functions implemented with the control circuit 81 of the color printer 30 may be configured so that they are performed by the computer terminal 20. In that case, programs such as the printer driver 23 will implement functions equivalent to those implemented by the control circuit 81.
  • composite recording mediums are provided wherewith it is possible most effectively to obtain recorded images having the desired image quality.
  • composite recording mediums are provided that afford outstanding productivity in that images having multiple image qualities can be obtained at one time.
  • a recording method and manufacturing method for composite recording mediums wherewith recorded images having the desired image quality are obtained most effectively are provided.
  • recordings having recorded images exhibiting the desired image quality are provided.
  • a recording medium set is provided wherewith recorded images can most effectively be obtained which exhibit the desired image quality.
  • color correction processing and dot recording processing can be implemented that are suitable, respectively, to two or more types of parts configuring a composite recording medium, wherefore high-image-quality dot recording processing can be effected without dramatically lowering the dot recording processing speed in the composite recording medium overall.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Ink Jet (AREA)
  • Ink Jet Recording Methods And Recording Media Thereof (AREA)
  • Paper (AREA)
  • Duplication Or Marking (AREA)
  • Thermal Transfer Or Thermal Recording In General (AREA)
EP08007574A 1999-11-12 2000-11-13 Support d'enregistrement composite et son procédé de fabrication Withdrawn EP1946937A1 (fr)

Applications Claiming Priority (5)

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JP32335699 1999-11-12
JP2000276063 2000-09-12
JP2000336688 2000-11-02
JP2000344380A JP4019625B2 (ja) 1999-11-12 2000-11-10 複合記録媒体及びその製造方法、並びにドット記録装置及びドット記録方法
EP00124756A EP1099563B1 (fr) 1999-11-12 2000-11-13 Matériau d'enregistrement composite et son procédé de fabrication, ensemble de matériaux d'enregistrement et procédé d'enregistrement

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EP08007574A Withdrawn EP1946937A1 (fr) 1999-11-12 2000-11-13 Support d'enregistrement composite et son procédé de fabrication
EP08007575A Withdrawn EP1953000A1 (fr) 1999-11-12 2000-11-13 Support d'enregistrement composite et son procédé de fabrication, ensemble de support d'enregistrement, appareil d'enregistrement de points et procédé d'enregistrement de points

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7528988B2 (en) 2003-03-20 2009-05-05 Fuji Xerox Co., Ltd Image processing system and method

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JP4019625B2 (ja) 2007-12-12
EP1099563B1 (fr) 2009-09-30
DE60043045D1 (de) 2009-11-12
EP1099563A3 (fr) 2004-12-08
ATE444181T1 (de) 2009-10-15
JP2002200837A (ja) 2002-07-16
EP1099563A2 (fr) 2001-05-16
EP1953000A1 (fr) 2008-08-06

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