FR2596881A1 - REPRODUCTION SHEET SENSITIVE TO LIGHT AND PRESSURE - Google Patents

Abstract

THE INVENTION CONCERNS A REPRODUCTION SHEET 1 SENSITIVE TO LIGHT AND TO PRESSURE. THE PROBLEM TO BE SOLVED CONSISTS OF CREATING A SHEET THAT DOES NOT USE ULTRA-VIOLET RAYS. SHEET 1 IS CHARACTERIZED IN THAT IT INCLUDES A CARRIER ELEMENT 1A COATED WITH MICROCAPSULES 2 ENCLOSING A FIRST COMPONENT, INTERNAL, WHICH CHANGES COLOR WHEN IT REACTS WITH A SECOND INTERNAL OR EXTERIOR COMPONENT, A THIRD MICROCAPSULES MODIFYING COMPONENT WHEN IT IS EXPOSED TO VISIBLE OR INFRARED RAYS. THE INVENTION IS APPLICABLE IN PARTICULAR TO THE REPRODUCTION OF THE ORIGINALS.

Description

"Reproductive leaf sensitive to light and pressure"

  The subject of the invention is a light and pressure sensitive reproduction sheet capable of reproducing an image in

  using visible light or in5 frarouge light.

  A light and pressure sensitive sheet capable of reproducing an image using ultraviolet light

  has been proposed as described in the U.S. Patent. n 4.440.846.

  However, ultraviolet rays are harmful to the human body, so that when using such a light and pressure sensitive reproduction sheet, it is necessary to use a complicated device which is

  able to prevent leakage of ultraviolet rays.

  Accordingly, it is an object of the invention to provide a improved light and pressure sensitive reproduction sheet by not requiring a complicated device for

  prevent leakage of ultraviolet light.

  To this end, the invention relates to a light-sensitive and pressure-sensitive reproduction sheet, characterized in that it comprises a sheet-like carrier member and microcapsules coated on a surface of the carrier member. these microcapsules enclosing a first inner component which changes color when it reacts with an inner or outer second component, a third component modifying the mechanical strength of the microcapsules when it is exposed

  visible or infrared light rays.

  According to one embodiment of the invention, the second component is coated on a surface of the carrier member and reacts with the first component to change the color of the surface of the carrier member, the microcapsules enclosing a third component. 2nd component sensitive to visible or infrared light to modify the mechanical resistance

microcapsules.

  With the first embodiment, only portions of the microcapsules exposed to visible or infrared light undergo a change in their mechanical strength at break. In other words, the mechanical strength of microcapsules exposed to light increases or decreases. Accordingly, if the copy sheet is passed between pressure application rolls, only the microcapsules whose mechanical strength has not been increased or decreased are broken off, so that the component which they contained 30 flowing outside. The component that has passed reacts with another component to change color. More precisely, a desired color is obtained, which forms an image in

  color corresponding to an original.

  In the second embodiment, in a manner different from that which occurs in the first embodiment, a first component which has elapsed from the broken microcapsules reacts with a second deposited component.

  coated on the carrier, to obtain a color that is in agreement with the exposed image.

  The invention is described in more detail below with reference to exemplary embodiments shown in the accompanying drawings, in which: FIG. 1 is an enlarged partial sectional view showing a first embodiment of the invention; FIG. 2 is a schematic view showing an exposure step; - fig. 3 is a schematic view showing a step of rupture of the microcapsules; - fig. 4 is an enlarged partial sectional view showing a second exemplary embodiment of the invention;

  - fig. 5 is a schematic view showing a step of breaking the microcapsules.

  As shown in FIG. 1, a series of spherical microcapsules 2 are juxtaposed on the surface of a carrier member formed of paper. Each capsule 2 comprises a hollow spherical shell 2a and a liquid component 2b enclosed within this capsule. The liquid component 2b contains a pre-dyeing slider that reacts with a color former to develop a color, and a photocurable substance that hardens when

  it is exposed to infrared rays.

  As the dye precursor, a triallylmethane component, a bisphenyl methane compound, a xanthene compound, a thiazine compound, a spiropyran compound, and mixtures thereof may be used. The color former acts to cause the dye precursor to develop a particular color. Clay, organic acids, acidic polymer, metal salts, aromatic carboxylic acids, and mixtures of these products can be used as the chromogenic material. As the photohardenable substance, a light-curable resin comprising the unsaturated compounds of the ethylene type, trimethylalpropane, for example an acrylate prepolymer or a similar product can be used. These compounds are used in combination with a photopolymerization initiator which is used to initiate polymerization of the resin under the action of infrared rays. They may include organic or inorganic peracidic compounds such as diacyl peroxide, kentone peroxide, aryl peroxide, aryl hydroperoxide, sulfuryl peroxide, peroxydicarbonate, and the like. The microcapsules can be prepared by well known techniques such as a core cell formation method

  and an interface polymerization method.

  The capsules internally contain the dye precursor and the photohardenable substance.

  A binder, a filler, a viscosity control agent or the like is added to the microcapsules and the resulting mixture is coated onto the carrier member

  with a coating cylinder, a sprayer or a scraper.

  Any image can be reproduced on the reproduction sheet 1 by operating next

  a method as shown in FIG. 2.

  Thus, when infrared radiation is projected onto the copy sheet 1 through an original 10 and from an infrared light source, not shown, the interior of the microcapsules 2 of the reproduction sheet 1 is cured by the rays. infra-red tra25 pouring portions other than the opaque portions 10a, such as the color parts of the manuscript. The mechanical strength of these cured portions increases. Of the microcapsules 2, those designated as sl are not exposed to infrared rays and therefore are not cured. On the other hand, microcapsules

  They are hardened by infrared rays.

  Then, as shown in FIG. 3, the reproduction sheet 1 and a development sheet 16 coated with the chromogenic material 14 are arranged one on the other and passed between cylinders 18, so as to break the uncured microcapsules sl. On the other hand, the cured microcapsules h1 are not broken by the rolls 18 because their mechanical strength has been increased by curing.

  On the other hand, the microcapsules contain a dye precursor which reacts with the chromogenic material carried by the developing sheet 16. As a result, the parts of this sheet coinciding with the parts of the reproduction sheet 1 o the microcapsules have been broken are colored and thus fix the image of the original 10 on the development sheet 16.

  A second embodiment of the invention will be described with reference to FIG. 4 and in fig. 5, among which FIG. 4 is an enlarged sectional view showing a portion of a light and pressure sensitive reproduction sheet. More specifically, the surface of a carrier element 20a made of paper is coated with a layer of chromogenic material 22. Microcapsules 24 are coated on the chromogenic material layer 22. As the microcapsule 2 of the embodiment example previous, each microcapsule 24 has an outer shell 24a and a liquid component 24b contained within this shell. The liquid component 24b consists of a dyeing precursor which reacts with the chromogenic material to develop a color as well as a photocurable substance which hardens under the action of

infrared rays.

  Exactly like the reproduction sheet 1 described above, the reproduction sheet 20 can reproduce an image in the same way as that shown in FIG. 2. As shown in fig. 5, the capsules are then broken by the cylinders 26. The hardened microcapsules h20 are not broken because their mechanical strength has been increased by internal hardening as they pass between the cylinders 26. On the other hand, the microcapsules s20, which are not exposed to light and therefore not hardened, are broken so that their inner component leaks to the outside. Since each microcapsule encloses an inner dye precursor that reacts with the color material 22 carried by the carrier member 20a to develop a color, the unexposed portions of the color take on a color. These

  parts reproduce the image of the original on the reproduction sheet 20.

  Although in the examples of

  The preceding color schemes are developed by the reaction between the dye precursor and the chromogenic material, when a first component of each microcapsule contains a bleaching agent having a redox action or a bleaching agent such as a sensitivity reducing agent. which separates the dye precursor from the color former, and if a second component contains a dye which is discolored by the first component, it is possible to produce an image of the original by varying the hue, clarity and

saturation by discoloration.

  Instead of forming the image by passing infrared light through the original

  above, images can be formed on the reproduction sheets 1 and 20 by projecting directly onto them a visible or infrared laser beam.

  Since the light and pressure sensitive reproduction sheet according to the invention is constructed as above, the desired image can be formed by exposure to light without the use of ultraviolet rays. For this reason, when using the light and pressure sensitive reproduction sheet according to the invention, it is not necessary to use a device

  complicated to prevent ultraviolet ray leakage.

Claims (11)

  Light-and pressure-sensitive reproduction sheet (1, 20), characterized in that it comprises a sheet-like carrier (la, 20a) and microcapsules (2, 24) coated on a surface of the carrier member, said mi crocapsules enclosing a first component, interior, which changes color when it reacts with a second inner or outer component, a third component modifying the mechanical strength of the microcapsules when exposed to light rays visible or infrared. 2. The reproduction sheet according to claim 1, characterized in that each of the microcapsules (2) comprises a hollow outer shell (2a) and the first component   is comprised of a dye precursor which reacts with a color former to develop a color, and a photocurable material which cures under the action of infrared rays.   A copy sheet according to claim 2, characterized in that the dyeing precursor is selected from the group consisting of a triallylmethane component, a bisphenylmethane compound, a xanthene compound, a thiamine compound, a spiropyran compound and mixtures of these products.   4. The reproduction sheet as claimed in claim 2, characterized in that said chromogenic material is chosen from the group comprising clay, organic acids, an acidic polymer, metal salts,   aromatic carboxylic acids and mixtures thereof.   The copying film according to claim 2, characterized in that the photo-curable substance is a polymerizable resin, which substance comprises a polymerising agent consisting of an organic or inorganic peroxide, with a polymerization initiator consisting of a peroxide organic or inorganic.   The reproduction sheet according to claim 1, characterized in that the first component is a bleaching agent and the second component is a separate dyeing agent.   a dyeing precursor and a color former by the bleaching agent.   7. A reproduction sheet according to claim 1, characterized in that the first component is a bleaching agent having an oxidation-reduction action and the second component is a dye which is bleached by the bleaching agent.   A copy sheet according to claim 1, characterized in that the second component is coated on a surface of the carrier member (20a) and reacts with the first component to change the color of the surface of the carrier. carrier element, the microcapsules (24) enclosing a third component sensitive to visible light or   infrared to change the mechanical strength of microcapsules.   9. The reproduction sheet according to claim 8, characterized in that the microcapsules (24) are deposited in coating on the second component deposited on the element carrier (20a).   10. The reproduction sheet according to claim 9, characterized in that the second component comprises a chromogenic material.   11. The reproduction sheet according to claim 8, characterized in that each microcapsule (24) comprises a hollow outer shell (24a) and a liquid component (24b) enclosed inside, this liquid component containing a dye precursor which develops a color by reacting with a   chromogenic material, and a photocurable substance which cures under the action of infrared rays.