BE1011403A3 - SECURITY PAPER OPAQUE, authenticated BY TEAR, GAME TICKETS MADE FROM SCRATCH PAPER SAID AND MANUFACTURING METHOD THEREOF. - Google Patents

Abstract

The present invention relates to fibrous writing and / or printing, security supports (e.g. paper). In particular, the invention relates to an opaque security paper, authenticated by tearing, non-delaminable, tamper-proof, economical and printable, characterized in that it is constituted in particular by one and the same fibrous mattress, homogeneous in particular in its thickness and obtained from a single fibrous jet, and in that it comprises, in its thickness, at least one substantially median slice (2) of color (C2) and at least one external slice (3,4) white or of color (C1, C3) different and / or less dark than that (C2) of the middle section (2). Preferably C1 and C3 = discolored C2 and C2 = dark color. The invention also relates to the process for obtaining said paper and the articles produced from said paper (e.g. scratch-off game ticket).

Description

       

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   OPAQUE SECURITY PAPER, AUTHENTICABLE BY TEAR, SCRAPER GAME TICKETS MADE FROM SAID PAPER AND MANUFACTURING METHOD THEREOF
The field of the present invention is that of fibrous writing and / or printing media, called security, in particular paper. These fibrous supports or security paper are useful for the production of security documents such as admission or travel tickets, checks, legal or official documents, credit documents, insurance certificates, show, train, plane or the like, or even scratch-off game or lottery tickets, also known as instant lottery tickets.



   More specifically, the invention relates to fibrous supports such as tamper-proof security papers because they can be authenticated by a tear revealing a multicolored sandwich structure. This authentication and anti-counterfeiting method is used in ticketing, where important values may be at stake.



   The present invention also relates to fibrous supports, in particular security papers which are suitable for writing and printing and which can be used to make scratch-off game tickets, the printed and masked information of which must not be revealable by transvision and which also make it possible to avoid another type of delamination fraud.



   Direct authentication by tearing of a sheet of fibrous support, for example of paper, makes it possible to reveal a multicolored sandwich structure with colored interior and two exterior slices white, clear or of different colors. This characteristic structure makes it possible to certify with certainty the good origin of certain titles, sometimes of very high value, such as transport tickets, show tickets or the like. Insofar as this technique of authentication by tearing is fast and secure, it is perfectly competitive compared to other known systems such as watermarking, which has existed for a very long time, or even the introduction of fibers or threads. of security.

   Some of these known systems, (including fluorescent or phosphorescent dots or fibers), have the disadvantage of requiring a revealing device for authentication. A typical example of such a device is the UV lamp.
It follows that the fibrous supports or opaque security papers and of multicolored sandwich structure conferring them authenticity by tearing should not have difficulty in carving out a place of choice, in particular in the falsifiable transport ticket and ticketing applications.

   as far as can

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 be removed a major defect consisting in the delaminable nature of fibrous supports or tear-off authenticated papers, existing at present This crippling defect is linked to the structure and the manufacturing method of these known fibrous supports or security papers.



   A first type of structure is thus known in which three layers of paper are assembled to each other by lamination, the center layer being colored and the outer layers being white.



   The second type of known structure is formed by a sheet of colored paper, which is treated by coating on at least one of its faces using a white or opacifying coating composition.



  The coating of colored supports in the field of security papers was disclosed a very long time ago, even if the aim then sought and displayed was not to provide papers which can be authenticated by tearing. Is that how the American patent? 1,417,820 describes a process for making a paper which cannot be forged by coating the two sides of a black paper with an opaque coating material sensitive to the solvents contained in the ink erasers which can be used for falsification. So here we are in the presence of a structure
 EMI2.1
 sandwich of the light coating color type, black paper or dark color, the light color coating coating.



  Also known in the field of security papers, that disclosed by British Patent No. 1,435,686, which is designed to resist attempts at surface abrasion fraud in order to eliminate printing and writing ink. . This security paper comprises a paper base sheet, coated with an opaque coating sensitive to abrasion and consisting of a non-metallic pigment (clay or Tri02) dispersed in a binder (synthetic polymer = vinyl / acrylic-styrene / acrylic copolymer -styreneJbutadiene or natural polymer-cellulose-amidoncasein). The paper base sheet has a color which contrasts with that of the coating so as to be able to reveal the traces of abrasion of the upper layer by transvision.

   This patent does not teach a sandwich structure light or white color different or darker color clear or white.



   The coating of colored paper with an opacifying or white composition is also used in the field of security papers dedicated to a particular destination, which is the production of instant lottery tickets or any other similar like scratch tickets. Such articles contain printed, hidden information which can be, on the one hand, a number, a

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 symbol, a message possibly giving rise to a gain, and on the other hand, a security number making it possible to prevent counterfeits.

   The masking of this information conventionally is obtained by means of a removable, opaque layer comprising, for example, a metallic pigment (aluminum) dispersed in a binder formed by a rubber latex or other hydrocarbon polymers (see layer 28 of the ticket lottery, described in US Patent 4,726,608). In addition to this opaque layer, the ticket comprises, as a coating for a paper substrate 18, from top to bottom, a non-stick layer 26, made of polyamide, a protective layer 25 of maleic vinyl acetate copolymer, the printed characters 24, a layer of primer in amorphous silica + maleated vinyl acetate polymer + n-propyl acetate solvent and finally an aluminum sheet 20 attached to the paper substrate 18.



   In an attempt to eliminate the drawbacks linked to the presence of aluminum foil in this type of scratch-off game ticket, European patent N 0 428 489 proposes the use of coated paper for the manufacture of such articles. The security paper disclosed by this patent comprises a basic paper substrate, with a grammage of the order of 225 g / m2, colored with carbon black, so as to be completely opaque and coated using 'a composition comprising pigments such as clay or titanium dioxide, latex or starch. The sides of the coated paper thus obtained are white, smooth and uniform, therefore printable. These papers are presented as being non-delaminable.

   To manufacture an instant lottery ticket, it is planned to carry out the printing on the faces of the coating of coating then to carry out a final coating using colored and scratchable conventional latex. This patent therefore discloses a sandwich structure: white coating coating / black opaque paper substrate / white coating coating.



   European patent application NO 668 092 discloses an invention relating to papers for instant lottery tickets (scratch), which recommend bringing opacity to the paper not via the base paper substrate as proposed in European patent NO 428 489, but by means of an opaque coating coating applied to said paper base substrate and comprising a pigment of the carbon black type dispersed in a binder of the latex type of styrene / butadiene copolymer.

   This opaque layer is moreover coated with an upper printing layer, obtained from a composition comprising styrene / butadiene latex, CaCO and microspheres of styrene-acrylic polymer. FR-A-2 192 211 discloses a process for coloring or dyeing absorbent paper with a rough surface, with a thickness of dye layer as small as possible but nevertheless making it possible to obtain a uniform shade from the optical point of view

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 Once colored on one side, the paper can be coated with a layer of thermosetting synthetic resin.



  To obtain this uniformity of coloring in spite of the uneven relief of the surface of the absorbent paper considered, this method provides for subjecting the face of the paper to be colored to a dyeing operation by magnetic calendaring or with magnetic rollers, aiming to deposit the dye in all hollow and pores, and a printing operation by gravure printing in hollow or typoflexographic printing aimed at ensuring the coloring of the bumps and the reliefs.



  According to the teaching of this request, only one side of the paper is colored.



  The paper obtained by this process is not homogeneous in its thickness since it has a layer of dye on the surface which, although being as small as possible, does exist and confers heterogeneity on the paper in its thickness.



  Furthermore, this colored absorbent paper is not obtained from one and the same fibrous mattress of initial color C2 then discolored then or colored differently at least partially on at least one of its faces to form at least one white outer edge. or of color Cl-C3 (different and / or less dark than the initial color C2) FR-A-537 357 relates to improvements in the manufacture of colored cardboard and paper More specifically, this French patent discloses laminates comprising a cardboard base layer, on one or both sides of which is pasted a layer of paper, the surface of which is colored using means formed by color reservoirs 10 and by an apparatus 11 intended to regulate the layers of color According to a variant,

   the cardboard can be colored directly on one of its faces with one or more layers of color.



  Again it is not disputable that this laminate is not homogeneous in its thickness since it comprises one or more layers of well-individualized color and possibly a layer of paper in addition to the base layer of cardboard.



  Furthermore, it is clear that the known colored laminate is not obtained by discoloration or transcoloration of a fibrous continuum of given initial color.



  German patent DE 67 632 C relates to a process for coloring a face of paper designed so as to avoid migration of the dye from one face to the other of the paper substrate in question, in order to be able to color the two faces independently one from the other According to this process, the strip of paper is passed between a heating drying cylinder referenced X and a coloring cylinder reference B.

   The heat provided by the drying cylinder X allows the dye to dry quickly and thus fix it on the surface of the paper.

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 This process, as well as the colored paper which it makes it possible to obtain, does not have the following two characteristics: uniformity in thickness (layer of dye on the surface) and obtaining by bleaching or transcoloring on at least one of the faces of a given initial color.



   It emerges from this review of the prior art that the known security papers, which can be authenticated by tearing and / or which are sufficiently opaque to be able to be used as supports for instant lottery tickets or scratch-off game tickets (absence of transfer), are the more often multilayer fibrous supports obtained by the coating technique.



   However, it is known that this technique is relatively expensive in particular because of the fact that it is necessary to carry it out most of the time outside the conventional circuit of the paper machine. Clearly, this affects the productivity and profitability of the papermaking process. Furthermore, bedding is an operation which can be very easily reproduced with artisanal means. This only increases the risk of counterfeiting.



   In addition, it is clear that the coating does not provide a really satisfactory solution, as regards the problem of delamination. The persistence, in the coated structures, of this problem inherent at the origin in the multi-lamellar structures, is underlined in the European patent application N 0 668 092 page 2 lines 29-30.



   In this state of the facts, one of the essential objectives of the present invention is to provide a fibrous support, in particular, a security paper, authenticated by tearing and capable of constituting an opaque substrate suitable for the production of a game ticket. removable, which overcomes the disadvantages of coated security papers according to the prior art.



   Another essential objective of the invention is that this security paper meets the following specifications: - authenticated by tearing, - non-delaminable, - tamper-proof, - completely opaque so as not to be subject to fraud by transfer in the tickets of scratch game, - economical, - offering good printability and writing qualities, - not easily reproducible by hand.

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   Another essential objective of the present invention is to provide a process for obtaining a fibrous support, in particular a security paper, which can be authenticated by tearing, is non-delaminable and completely opaque, said process having to be easy to carry out. in use and economical, due to its perfect integration into conventional paper manufacturing lines.



   Another essential objective of the present invention is to provide a security paper which can be authenticated by tearing, consisting of the fibrous support mentioned above in the objectives of the invention.



   Another essential objective of the present invention is to provide a scratch-off game ticket made from the above-mentioned fibrous support.



   Having set these objectives, the Applicant has had the merit of highlighting, after numerous researches and experiments, that it is necessary to provide an opaque fibrous support, in particular in paper, formed by a single homogeneous fibrous network. , initially colored and subsequently transformed at the level of these two external faces over a certain thickness, by discoloration and / or
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 transcoloration, so as to obtain a sandwich structure of the type: MC /! Cje / TM & MCC OM <& COM / eM / -C / OW // naM COM / CM / -C = or from C / i M / MC // e / neM OMC / tC CX / C / TtC Mo /! VS/ ! 6 CM <COM / CM C OM C, with in the case where CI = C2 = C3 a light or dark color gradient from outside to inside.



   It follows that the subject of the present invention is an opaque fibrous support 1, in particular paper, characterized in that it is obtained from a single and same fibrous mattress: - 7 homogeneous, in particular in its thickness; - 7 produced from a single fibrous jet; - 7 and initially of color (C), then discolored or colored differently, at least partially on at least one of its faces, to form at least one external slice (3,4) white or of color (Cj, C3), different and / or less dark than the initial color (cl).



   Such a fibrous support, in particular a security paper, has the advantage of being non-delaminable, of being completely opaque, inexpensive and easily obtainable in a paper machine, without substantial modifications of the latter.
In addition, its industrial character somewhat limits the risks of counterfeiting according to an artisanal mode.

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   According to a variant, the fibrous support is obtained from a single fibrous mat:
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 o homogeneous, especially in its thickness; produced from a single fibrous jet; and initially of color (C), then discolored or colored differently, at least partially on at least one of its faces, to form, on the one hand, at least one outer edge (3,4) white or of color (C C3 ), different and / or less dark than the initial color (C2) and on the other hand, at least one substantially median slice (2) of color (C).



   Insofar as one targets fibrous supports, in particular security papers which can be authenticated by tearing, it follows that the preferred but nonlimiting embodiment of the invention corresponds to a fibrous support comprising a substantially median colored edge, adjoining by each of its faces to a white outer slice or of a different color and / or less dark than the middle slice, the two outer slices being of the same color or not.



   We will have recognized a multicolored structure, for example bicolour, of
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 sandwich type coM / ur C / coM / cur C / neck / Mr Cj with C, identical or different to Cg and C2 identical or different to Ci and C3, with the condition that, if Cz = Clou C3 then Clou C3 is more clear that C2.



   This opaque, non-delaminable structure perfectly meets the specifications mentioned above.



   The structure in a homogeneous and coherent fibrous network of the support according to the invention is linked to its formation in a single fibrous jet on the paper machine.



   The attached single figure shows a cross-sectional view of such a support according to the preferred embodiment of the invention, purely by way of non-limiting example.



   This figure shows a support 1 formed of a single fibrous network of thickness e comprising in its thickness a middle section 2 of color C, said section 2 forming a fibrous structural continuum with the two outer sections 3 and 4 of color Ci and Ce respectively In this example Ci, C2 and C3 correspond to the same basic color knowing that Ci and C3 are clearly lighter than C2, so much so that they are close to white

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 Such an opaque two-color structure, not de) aminab) e is imprinted with a tamper-evident recognition mark, corresponding to the color C2 of the middle edge 2, which makes it perfectly authenticable by tearing.



   According to a variant of the fibrous security support according to the invention, this is characterized in that it is obtained from a fibrous mattress initially colored, then discolored at least partially on at least one of its two faces, preferably the two, to form, the two external sections 3 and 4 located on either side of the colored middle section 2.



   This variant corresponds to the sandwich structure: very light white or brown, very dark brown, dark brown, shown in the single appended figure and described above. In this variant, the exterior / interior color contrast is obtained by means of a bleaching agent absorbed by the faces of the fibrous support considered, over a variable thickness as a function of the penetrability of said agent inside the support.



   According to another variant, corresponding to the case where C2 is different from CI and / or C3, the fibrous support is obtained from a fibrous mat initially colored and then colored differently at least partially on at least one of these two faces, preferably both, to form the two outer sections 3,4 located on either side of the colored middle section 2.



   In the first case, the coloring agent reacts with the bleaching agent while in the second case, it reacts with a transcoloration agent transforming C2 into C, and C3 in the surface layers of the fibrous support 1.



   The existence of these two structural variants (among others) for the support according to the invention, entails constitutional particularities. This is how the fibrous support is characterized in that it comprises at least one coloring agent and optionally at least one discoloration agent and / or at least one transcoloration agent, which have not reacted but are capable of reacting with the coloring agent in the outer slices.



   Advantageously, the couple of coloring agent / bleaching agent and / or transcoloration is chosen from the following group:

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 <tb>
 <tb> Agent <SEP> from <SEP> coloring <SEP> Agent <SEP> from <SEP> discoloration <SEP> and / or <SEP> from
 <tb> transcoloration
 <tb> oxide Metallic <SEP> <SEP> reducer
 <tb> salt Metallic <SEP> <SEP> sequestrant
 <tb> flag <SEP> colored <SEP> from <SEP> pH <SEP> middle <SEP> to <SEP> pH <SEP> chosen
 <tb> flag <SEP> colored Redox <SEP> <SEP> middle <SEP> to <SEP> potential <SEP> Redox <SEP> chosen
 <tb> colorantagent <SEP> from <SEP> degradation-of <SEP> dye
 <tb> and <SEP> their <SEP> mixtures
 <tb>
 
Oxides or metallic colored salts, such as iron or manganese salts, can be discolored by reducing agents or by sequestrants,

   such as for example EDTA or mono-potassium phosphate.



   Without being limiting, other examples of coloring agent / bleaching agent couple can be cited, e. g.



   - metal oxide / reducing agent = copper or cobalt oxide / bisulfite in an acid medium, - metal salt / sequestering agent = iron or vanadium salt / ascorbic acid.



   The colored pH indicators which can be used as coloring agent are easily discolored, by making a liquid medium of pH penetrate the faces of the fibrous mat so that it brings the indicator back in a colorless form or in a different color. Thus, for example, the phenolphthalein initially introduced into the paper pulp is brought to a basic pH which results in a pink coloration of the latter. A subsequent surface coating of the fibrous mat with an acid brings the phenolphthalein in a colorless form, corresponding to an acid pH.



  As another example of a pH indicator capable of being used as a coloring agent, mention may be made of phenol red, bromocresol purple or bromophenol blue.



   The colored redox indicators work on the same principle as the pH indicators mentioned above, with the difference of course that the key parameter is not the pH, but the redox potential. As an example of a coloring agent / discoloration or transcoloration agent combination, mention may be made of methylene blue or neutral red in combination with bleach.
Dyes constitute another class of suitable coloring agents in accordance with the invention. They may especially be dyes

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 likely to be broken down by oxidizing reagents, such as bleach or else sulfites, bisulfites, acids, bases ...



  By way of illustration, mention may be made, as an example, of the dyes with the chemical structure of triphenyl methane such as the BLUE DUASYN FOR INKS BJT from the company HOESCHT. This coloring agent can be combined with bleaching agents formed by bleach and / or a weak base, or alternatively by sodium sulfite.



  As another example of dye forming part of the fibrous support according to the invention and capable of reacting with degrading agents causing a change in color, mention may be made of cresol red associated with bleach in the bleaching bath. / transcoloration.



   To illustrate the alternative embodiment according to which the fibrous support comprises at least one coloring agent and at least one transcoloration agent, the following examples will be mentioned: * YELLOW LEVACELL 3 GX from the company BAYER in combination with a basic solution.



   * SAFRANE 0 with a bleach solution.



   In addition to the chemical means of discoloration and transcoloration, it is possible to have recourse, in addition to or in substitution for the latter, to physical means having the same effects. It can be for example: - actinic radiation such as UV and / or infrared - heat, - electron bombardment, - exposure to a laser beam, - ultrasonic treatments or in the microwave - etc.



   The fibrous security support according to the invention can also be defined through its particular physical characteristics. Thus, advantageously, its grammage is greater than or equal to 80 g / m2, preferably between 100 and 400 g / m2 and, more preferably still between 120 and 300 g / m2.



  The grammage of the paper is an important parameter with regard to the penetrability of bleaching agents. It is important, in fact, that these penetrate inside the fibrous support over a thickness sufficient for the change in color to be apparent, but it is obvious that this penetration must not be too great so as to preserve a slice median dark colored or colored

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 differently, which is of significant thickness to allow authentication by tearing.



   This control of the penetration of bleaching agents can also be obtained by varying the rate of refining of the fibers constituting the support and therefore its porosity as well as the bonding, that is to say its aptitude for subsequent rewetting with the solution. discoloration / transcoloration.



  Preferably, the rate of refining of the fibrous support will be between 15 and 550 SR (SHOPPER RIEGLER), and more preferably still between 30 and 450 SR. It goes without saying that the value of the refining will also depend on the grammage of the paper. Those skilled in the art are perfectly capable of determining the appropriate values of these two parameters linked to one another.



  As regards bonding, the agent used can be a conventional rosin adhesive, an alkyl dimer ketene or any other product making it possible to achieve a conventional value for this parameter, between 15 and 30 g / m2 in COBB value, and more particularly from 16 to 20 g / m2.



   In the context of the description of the process, we will come back to another important factor with regard to the penetrability, namely the viscosity of the liquid containing the bleaching / transcoloring agents.



   In any case, these parameters can vary enormously depending on the grammage of the fibrous support considered. Indeed, the problem of penetration of bleaching / transcoloring agents is different for a light weight, less than 120 g / m2 and for a heavier weight, above 200 g / m2. It is very rare in the latter case that, even without special precautions at the level of the support, the bleaching / transcoloring solution penetrates to the heart of the sheet and discolours or changes the color of the paper over its total thickness.



   According to a preferred arrangement of the invention, one chooses to produce a paper or a fibrous support with colored interior and with enhanced opacity, using an intense coloring agent capable of forming a dark color (eg brown or brown. manganese).



   In accordance with the invention, the fibrous security support considered can have any fibrous composition either purely cellulosic or partly synthetic.



  Typically, suitable cellulosic fibers may be hardwood fibers, softwood fibers, or mixtures thereof.
Regarding synthetic fibers. it may, for example, be polyester, polyamide or polyolefin fibers

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 In practice, the rate of synthetic fibers relative to the total dry weight of cellulosic + synthetic fibers is of the order of 10 to 30% by weight and preferably 15%
Advantageously, the fibrous support according to the invention may comprise conventional additives for stationery, namely: - mineral or organic fillers of the kaolin, calcium carbonate, talc, etc. type.



   - various resins or resistance agents, in particular to bring about wet strength properties, - binders of the starch or carboxymethyl cellulose type to improve the mechanical characteristics of the papers, - shading dyes, - neutral, acidic or basic bonding (alumina sulfate for acidic bonding or pH adjustment - etc. n can also be envisaged, in accordance with the invention, to incorporate additional authentication agents inside the fibrous support.

     n can be, for example, safety threads, boards and colored fibers, or not, fluorescent or not, as well as agents permitting infalsification, namely for example dyes insoluble in water but organosoluble, in the pigmented state, so as to preserve the writings or the printed indications carried on these fibrous supports, with respect to attempts at falsification, using erasers comprising organic solvents.



   Ultimately, numerous additives can be included in the fibrous support according to the invention, provided that they are not degradable by the bleaching and transcoloration means, which must penetrate inside said fibrous support.



   According to another of these aspects, the present invention also relates to a process for obtaining a fibrous support, in particular of paper, constituted in particular by one and the same fibrous mat, homogeneous in particular in its thickness, opaque and comprising, in its thickness, at least one (preferably one) substantially median colored slice and at least one (preferably two) white outer slice or of a different color and / or less dark than the median slice, characterized in that it consists essentially, - 1 - to prepare a fibrous pulp-preferably a paper pulp, by incorporating at least one coloring agent,

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   - 2 - to put this paste in the form of a support constituted by a single and same fibrous sheet, produced by monojet,

     - 3 - at least partially removing the water present in the sheet support, - 4 - bleaching and / or transcolouring at least one outer edge of the sheet support before, during or after the removal of water.



   Such a method is one of those making it possible to obtain the fibrous support constituting the first object of the present invention described above.



   According to a preferred embodiment of the method, the targeted fibrous support (eg paper) has a substantially median colored slice and, on either side of it, an outer white slice or of a different color and / or less dark than the middle edge. These two outer sections are identical or different colors. According to the preferred mode, bleaching and / or transcoloration is carried out using chemical and / or physical means.



   Such a fibrous support corresponds to the preferred embodiment of the product according to the invention as described above and shown in the attached single figure.



   Step 1 of preparing the fibrous pulp corresponds to a relatively conventional operation in the field of stationery. In a paper machine, this operation occurs at the head box or during the preparation of the pulp for the pulper. In this case, it is simply a matter of adding at least one coloring agent to the paste and of producing a homogeneous mixture.



   Stage 2 is carried out by means of the head box die of the paper machine which makes it possible to produce a fibrous mattress containing the coloring agent as a single jet, this mattress then being conveyed to the draining modules. , pressing, then drying the paper machine.



   These three modules are intended to satisfy step 3 of eliminating the water present in the sheet support.



   In the case where we are dealing with a bleaching and / or a chemical bleaching, in accordance with a preferred embodiment of the process according to the invention, step 4 is carried out by application of a bath of bleaching and / or transcolouring agent, using a device preferably provided in the paper machine More preferably, this coating device is a traditional size press or size press, or even a blade metering size press )), or a gate-roll Such a size press is usually located after the pre-drying

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In the less advantageous hypothesis where the coating of the discoloration or transcoloration bath is carried out, on leaving the paper machine, it is possible to envisage either the use of on-line coating means, such as e.

   g metal blade or air knife devices, ie traditional printing techniques.



  It should be noted that any suitable means for penetrating a bleaching / coloring solution into the fibrous support, can be substituted for the conventional means mentioned above.



   It goes without saying that the concentrations of bleaching / coloring agent used in the coating baths are determined as a function of the quantity of coloring agent contained in the fibrous support and as a function of the stoichiometry of the corresponding reaction. These operating methods are perfectly within the reach of those skilled in the art.



   As regards the nature of the coloring agents as well as the bleaching / coloring agents, reference will be made to the description and definitions given in this connection above, in the part of the present description relating to the fibrous supports taken as such.



   As already mentioned before, the penetrability of the bleaching or coloring agent inside the fibrous support is a fundamental feature of the process according to the invention. The parameters making it possible to exercise control over this point are, on the one hand, the grammage, the rate of refining and the bonding of the fibrous support and, on the other hand, the viscosity of the coating bath.



  Thus, the viscosity of the bleaching / coloring solution is adjusted by playing with the dry matter and / or by using film-forming binders (starch, cellulose, etc.). This viscosity adjustment is made as a function of the nature of the bleaching / coloring agent, as well as according to its reactivity.



   It goes without saying that the parameters acting on the penetrability of the bleaching / coloring agent are interdependent. Thus, the lower the grammage of the fibrous support, the higher the viscosity of the coating bath.



   In practice, it may be indicated, by way of example: - that for a grammage of 120 gSm2, the viscosity of the bath is advantageously greater than or equal to 100 mPa. s, - and that for a grammage of 150 g / m2, the viscosity is advantageously greater than or equal to 80 mPa. s, - and that for a grammage of 200 g / m2, the viscosity of the bath is advantageously greater than 30-50 mPa. s.

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   By way of example of a water-soluble binder, mention may, for example, be made of carboxymethylcellulose, starch, polyvinyl alcohol which are natural binders, used more favorably, without excluding synthetic binders such as acrylic latexes or styrene-butadienes.



   Advantageously, for step 4, use is made, in the case of discoloration / transcoloration by chemical means, of a couple of coloring agent / bleaching agent and / or transcoloration chosen from the following group:
 EMI15.1
 
 <tb>
 <tb> Agent <SEP> from <SEP> coloring <SEP> Agent <SEP> from <SEP> discoloration <SEP> and / or <SEP> from
 <tb> transcoloration
 <tb> oxide Metallic <SEP> <SEP> reducer
 <tb> salt Metallic <SEP> <SEP> sequestrant
 <tb> flag <SEP> colored <SEP> from <SEP> pH <SEP> middle <SEP> to <SEP> pH <SEP> chosen
 <tb> flag <SEP> colored <SEP> of 0 <SEP> do-reduction <SEP> middle <SEP> to <SEP> potential <SEP> Redox <SEP> chosen
 <tb> dye <SEP> agent <SEP> from <SEP> degradation <SEP> from <SEP> dye
 <tb> and <SEP> their <SEP> mixtures
 <tb>
 
In accordance with a preferred method of the method according to the invention:

   - the bleaching / transcoloring agent is a chemical means, - the fibrous support is paper made using a paper machine, - and for carrying out step 4, the bleaching agent is applied / coloring in and / or out of the paper machine, on at least one of the external faces of the sheet, preferably using at least one of the following means: size press, rewetting system or sleeping.



   The present invention also relates to the use of the fibrous support as defined above and as obtained by the method, for the production of tear-off security paper as well as scratch-off game tickets or instant tickets lottery.



   The present invention thus relates to a security paper which can be authenticated by tearing, characterized in that it is in particular constituted by the fibrous support as defined above and / or obtained by implementing the method as defined above.



   Finally, the present invention relates to a scratch-off game ticket characterized in that it is in particular constituted by the fibrous support as defined above, and / or obtained by implementing the method as defined above.

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   The fibrous support according to the invention appears as being able to be a security paper which can be authenticated by tearing, opaque, non-delaminable, at low cost price, and perfectly suited for applications of tamper-proof documents, and which can be authenticated by tearing, as well as for application of scratch-off scratch-off game tickets.



   The various examples below will shed some light on the invention but are in no way limiting.



   EXAMPLES: EXAMPLE 1 A colored indicator: phenolphthalein solubilized in a hydro-alcoholic medium is introduced at a rate of 2% relative to the dry pulp in a mixer in a paper pulp composed for 50% hardwood and 50% softwood, refined at 30 SR and brought to a pH of 11, it develops an intense pink color. A colored support paper of 250 g / m2 is produced on the paper machine.



  With a size press, a solution of dilute sulfuric acid is coated so as to drop the pH of the paper surface and at the same time destroy the pink-red color of the support; the final paper obtained is white on the outside and pink in the center.



  The paper can be authenticated by tearing.



  The resumption of bath with the gluing machine is 30% by weight relative to the colored support paper.



  EXAMPLE 2 An authentic ticket is produced by introducing into the paper pulp BLEU DUASYN dye FOR BJT INKS from the company HOECHST at a rate of 0.2% by weight relative to the dry pulp, the pH of the pulp is adjusted to 4 with acid.



  The blue paper thus produced with a grammage of 300 g / m2 arrives at the size press of the paper machine where the following bath is applied at a rate of 20% weight gain relative to the paper: Starch 15% by dry weight relative to in the coating bath, bleach at 12: 15% by weight in the state compared to the coating bath After drying the paper is white on its external parts and blue inside the tear allows direct visual authentication.



  In addition, paper with this specific dye can be authenticated at a second level. a line of felt erase ink or the application of a basic solution on the colored internal part allows a discoloration of this part.

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  EXAMPLE 3 An unforgeable ticket is obtained by coating on the blue paper support of Example 2, with a bath containing 10% of sodium sulfite with respect to the bath, replacing the bleach. The same end product is produced.



  EXAMPLE 4 A colored paper of 200 glum2 serving as support is produced on a paper machine using the YELLOW LEVACELL 3 GX dye from the company BAYER, the yellow paper thus produced is coated with a size press with a dilute solution of caustic soda developing a red color on the surface of the paper; the coloring of the inside of the sheet remaining yellow, the paper can be authenticated by tearing.



  The paper thus colored however has the drawback of not being easily usable in various applications by printers.



  EXAMPLE 5 A support paper of 250 g / m2 containing manganese oxide at a rate of 3% relative to the dry pulp is strongly colored in brown.



  This support is coated with a size press with a weakly acidic solution of formamidinesulfinic acid (at a rate of 5% relative to the coating bath) and of a carboxymethylcellulose of high viscosity (at a rate of 0.7% by dry weight relative to the coating bath) serving as a binder to the bath.



  The resumption of bath with the gluing machine is 30% by weight relative to the support paper.



  The final paper is white on its surfaces and colored brown in the center.



  Such a paper has a greatly improved opacity, it is notably impossible, even under strong lighting, to read inscriptions marked on the back of the paper, while a paper of equivalent grammage does not have this ability.



   This white product is printable and can therefore be used as backing paper for instant lottery tickets without the need to laminate with aluminum foil to avoid transvision.


    

Claims (12)

 CLAIMS: 1-Opaque fibrous support (1), in particular paper, characterized in that it is obtained from one and the same fibrous mattress: -) homogeneous, in particular in its thickness; produced from a single fibrous jet; and initially of color (C2), then discolored or differently colored, at least partially on at least one of its faces, to form at least one outer edge (3,4) white or of color (Cl, C3), different and / or less dark than the initial color (C2).  2-fibrous support according to claim 1, characterized in that it is obtained from a single fibrous mat: homogeneous, especially in its thickness; produced from a single fibrous jet; and initially colored (C2), then discolored or colored differently, at least partially on at least one of its faces, to form, on the one hand, at least one outer edge (3,4) white or colored (CI, C.), different and / or less dark than the initial color (C2) and on the other hand, at least one substantially median slice (2) of color (C2).  - 3 - at least partially eliminating the water present in the support-sheet, -4 - bleaching and / or transcoloring at least one outer edge (3, 4) of the sheet support before, during or after the elimination of water.  3-fibrous support according to claim 1 or claim 2, characterized in that it comprises a section (2) substantially median colored, in the initial color (C2) and adjoining by each of its faces to an external section (3, 4) white or of a different and / or less dark color (CI, C3), the color (C2) of the middle section (2), the colors (Ct) and (C3), respectively of the two outer sections (3) and (4) located on either side of the middle section (2) being identical or different.  4-fibrous support according to claim 1 or 2, characterized in that it comprises at least one coloring agent and optionally at least one discoloration agent and / or at least one transcoloration agent, which has not reacted but is capable of react with the coloring agent in the outer slices.  5-fibrous support according to claim 4, characterized in that the couple coloring agent / bleaching agent and / or transcoloration is chosen from the following group:  <Desc / Clms Page number 19>    EMI19.1   <tb> <tb> Agent <SEP> of <SEP> coloring <SEP> Agent <SEP> of <SEP> discoloration <SEP> and / or <SEP> of <tb> transcoloration <tb> metallic <SEP> oxide <SEP> reducing agent <tb> metallic <SEP> salt <SEP> sequestering <tb> colored <SEP> indicator <SEP> from <SEP> pH <SEP> medium <SEP> to <SEP> pH <SEP> chosen <tb> colored <SEP> indicator <SEP> of oxide-reduction <SEP> medium <SEP> to <SEP> potential <SEP> Redox <SEP> chosen <tb> dye <SEP> <SEP> agent of <SEP> degradation <SEP> of <SEP> dye <tb> and <SEP> their <SEP> mixtures <tb> 6-fibrous support according to any one of claims 1 to 5,  characterized in that its grammage is greater than or equal to 80 g / m2, preferably between 100 and 400 g / m2, and even more preferably between 120 and 300 g / m2.  7-Process for obtaining a fibrous support (1), in particular of paper, constituted in particular by one and the same fibrous mat, homogeneous in particular in its thickness, opaque and comprising, in its thickness, at least one (preferably a) substantially median slice (2) colored in an initial color (C2) and at least one (preferably two) external slice (3,4) white or of color (CI, C3) different and / or less dark than the slice median (2), characterized in that it consists essentially, - 1 - in preparing a fibrous pulp - preferably a paper pulp, by incorporating at least one coloring agent, - 2 - in putting this pulp in the form of '' a support consisting of a single fibrous sheet, produced by monojet,  8-A method according to claim 7, characterized in that the targeted fibrous support (eg paper) has a slice (2) substantially median in color (2) and, on either side thereof, an outer slice (3,4) white or of a color (CI, C3) different and / or less dark than the middle section (2), the colors (CI'C3) of these two external sections (3,4) being identical or different.  9-A method according to claim 8, characterized in that in the case of discoloration / transcoloration by chemical means, using a couple of coloring agent / bleaching agent and / or transcoloration chosen from the following group.  <Desc / Clms Page number 20>    EMI20.1   <tb> <tb> Agent <SEP> of <SEP> coloring <SEP> Agent <SEP> of <SEP> discoloration <SEP> and / or <SEP> of <tb> transcoloration <tb> metallic <SEP> oxide <SEP> reducing agent <tb> metallic <SEP> salt <SEP> sequestering <tb> colored <SEP> indicator <SEP> from <SEP> pH <SEP> rnilieu <SEP> to <SEP> pH <SEP> chosen <tb> colored <SEP> indicator <SEP> of redox <SEP> medium <SEP> to <SEP> potential <SEP> Redox <SEP> chosen <tb> co-agent <SEP> of <SEP> degradation <SEP> of the dye <SEP> <tb> and <SEP> their <SEP> mixtures <tb> 10 - Process according to (any of claims 7 to 9, characterized in that the bleaching agent is a chemical means, in that the fibrous support is paper made using a paper machine,  and in that the bleaching agent is applied in and / or out of the paper machine on at least one of the external faces of the sheet, preferably using at least one of the following means : sizing press, rewetting system or coating system.  11-Security paper which can be authenticated by tearing, characterized in that it is in particular constituted by the fibrous support according to any one of Claims 1 to 6 and / or obtained by implementing the method according to any one of Claims 7 to 10.  12-Scratching game ticket, characterized in that it is in particular constituted by the fibrous support according to any one of claims 1 to 6, and / or obtained by implementing the method according to any one of claims 7 to 10.