RU2222655C1 - Paper protected against forgery - Google Patents

Abstract

FIELD: paper designed for provision of identification of authenticity of documents, bank notes, bonds, tickets, cards and other kinds of securities or business papers. SUBSTANCE: at least two chemical reagents are introduced in the paper, each providing for progress of the color reaction of this chemical reagent, and an indicator of authenticity at a rate not coinciding with the rate of progress of the color reaction of each of the rest chemical reagents with this indicator of authenticity. The color at least of one of the products of reaction of each chemical reagent with the indicator of authenticity differs from the color at least of one of the products of reaction of each of the rest chemical reagents with this indicator of authenticity. EFFECT: enhanced efficiency of protection of printed documents against forgery due to difficulty of decoding and reproduction of the paper composition. 14 cl, 4 ex

Description

 The invention relates to valuable types of paper and can be used to ensure the authenticity of documents, in particular banknotes, bonds, checks, tickets, cards and other types of securities or business papers.

 Known paper is described in patent RU 2108422 C1, 04/10/1998, D 21 H 27/00, which contains two chemical reagents, each of which provides a color reaction at a temperature that does not coincide with the temperature of the color reaction, another chemical reagent wherein the color of the reaction product of each chemical reagent is different from the color of the reaction product of another chemical reagent.

 The disadvantage of the described analogue is the high complexity of the manufacture of paper, involving the introduction of color-forming reagents in the paper with the help of melted microcapsules.

 The closest analogue for the device is the paper described in patent FR 2694772, 02/18/1994, D 21 H 21/46, which includes a chemical reagent that provides a color reaction with an indicator of authenticity.

 The main disadvantage of the prototype is the insufficiently high efficiency of protection against fakes due to the relatively simple analysis and decryption of the composition of both the chemical reagent and the authenticity indicator.

 Thus, the problem to which the invention is directed is to create paper that facilitates proof of authenticity or makes it difficult to counterfeit printed documents.

 The technical result achieved by the implementation of the invention is to increase the efficiency of authentication and increase the reliability of protection of printed documents from counterfeiting due to the difficulty of decoding and reproducing the composition of the paper.

 Counterfeit paper contains at least two chemical reagents, each of which is made in such a way that ensures the color reaction of this chemical reagent with an authenticity indicator at a rate that does not match the color reaction rate of each of the other chemical reagents with this indicator of authenticity. Moreover, the color of at least one of the reaction products of each chemical reagent with an authenticity indicator differs from the color of at least one of the reaction products of each of the other chemical reagents with this authenticity indicator.

 In addition, in the particular case of the invention, the concentration of at least one of the chemical reagents can be within such limits that the color reaction of the specified chemical reagent with the authenticity indicator occurs at a predetermined speed.

 In addition, in the particular case of the invention, at least one of the chemicals can be incorporated into the paper web.

 In addition, in the particular case of the invention, at least one of the chemical reagents can be introduced into the paper web by impregnating the paper web with a solution of the specified chemical reagent.

 In addition, in the particular case of the invention, at least one of the chemical reagents can be incorporated into the paper by impregnating the paper web with a solution of the corresponding primary reagent and then treating the impregnated paper web with a precipitant.

 In addition, in the particular case of the invention, at least one of the chemical reagents can be introduced into the paper by mixing the pulp with the specified chemical reagent.

 In addition, in the particular case of the invention, at least one of the chemical reagents can be introduced into the paper by mixing the pulp with a solution of the corresponding primary reagent and subsequent processing of the resulting mixture with a precipitant.

 In addition, in the particular case of the invention, at least one of the chemical reagents may be a colorless compound of color-forming groups of chemical elements.

 In addition, in the particular case of the invention, the final reaction products of at least one of the chemicals with an indicator of authenticity may be colorless.

 In addition, in the particular case of the invention, at least one of the chemical reagents may be a metal compound.

 In addition, in the particular case of the invention, the solution of one of the chemical reagents may be an aqueous solution of potassium rhodanide, the solution of the other reagent may be a yellow blood salt, the precipitant may be polyhexamethylene guanidine, and the indicator of authenticity may be an aqueous solution of ferric ferric nitrate, acidified with nitric acid.

 In addition, in the particular case of the invention, the solution of one of the chemical reagents may be an alcohol solution of orthocresolphthalein, the solution of the other reagent may be ferrous sulfate, the precipitant may be an aqueous solution of acidic sodium phosphoric acid, and the authenticity indicator may be alkaline. solution of yellow blood salt.

 In addition, in the particular case of the invention, the solution of one of the chemical reagents may be an alkaline solution of orthocresolphthalein, the solutions of the other reagents may be an aqueous solution of diethylaniline and zinc sulfate, the precipitant may be an aqueous solution of acidic sodium phosphoric acid, and the authenticity indicator may represent an alkaline solution of sodium nitrate.

 In addition, in the particular case of the invention, one of the chemicals may be iron sulfate, the other may be acid phosphoric acid sodium, and the authenticity indicator may be sodium azide solution.

 Below are examples of carrying out the invention, while the flow rate of each of the color-forming reagents was 0.1-0.2% by weight of paper.

Example 1. The paper pulp or paper was treated with an aqueous solution of a mixture of potassium thiocyanate (KCNS) and yellow blood salt (K ₄ [Fe (CN) ₆ ]), followed by precipitation of the indicated reagents with polyhexamethylene guanidine.

As an indicator of authenticity, 5% aqueous ferric nitrate III [Fe (NO ₃ ) ₃ ], acidified (pH 1-2) with nitric acid (oxidizing agent) was used. As a result, there was a color change in the processed areas of the paper from light tan to black within 20-30 seconds. The color change time depends on the concentration of nitric acid.

Example 2. The paper was sequentially treated with an alcohol solution of orthocresolphthalein and iron sulfate II (FeSO ₄ ), and then iron salts were converted into a water-insoluble form with an aqueous solution of acidic sodium phosphoric acid.

 A 5% alkaline solution of yellow blood salt was used as an indicator of authenticity. As a result, the color of the processed areas of the paper changed from red to blue within one minute. The reaction rate depends on the concentration of alkali in the indicator or acid salt in the reagent.

Example 3. The pulp or paper was sequentially treated with an acidified aqueous solution of iron sulfate III (Fe ₂ (SO ₄ ) ₃ and an aqueous solution of acidic sodium phosphoric acid. A 5% alkaline solution of sodium azide (NaN ₃ ) was used as an indicator of authenticity. there was a color change of the processed sections of paper from brown to light yellow in 30 seconds, followed by bleaching for approximately 2-3 minutes, the time of the color change is determined by the concentration of alkali in the indicator or acid salt in the reagent.

Example 4. The pulp or paper was sequentially treated with an alkaline solution of orthocresolphthalein, an aqueous solution of diethylaniline and zinc sulfate. To neutralize the alkali, the deposition and depreciation of orthocresolphthalein, as well as to precipitate zinc sulfate, they were treated with an aqueous solution of sodium phosphoric acid (NaH ₂ PO ₄ ).

A 5% alkaline solution of sodium nitrate (NaNO ₂ ) was used as an indicator of authenticity. As a result, there was a change in color of the processed sections of paper from violet-red to bright yellow-green within one minute. The reaction rate is determined by the concentration of alkali in the indicator or acid salt in the reagent.

 Thus, the use of these reagents, or other reagents corresponding to the claims, allows you to protect the paper from counterfeiting by simple and affordable methods to identify paper or a document printed on it, for example, when determining the authenticity of a document or a manufacturer of a paper web.

 Authentication is as follows.

 An authenticity indicator of the appropriate composition is applied to a paper or document made on paper containing color-forming reagents. As a result of chemical reactions, the color of the surface of the paper changes in a predetermined manner. At the same time, identification is carried out both by color change, for example, by color transition, and by the speed of color change, under the influence of the indicator.

 If only intermediate reaction products are colored and the final reaction products are colorless, the effect of the indicator on the paper leaves no noticeable marks, as a result of which the appearance of the document indicator does not change.

Claims (14)

1. Paper, protected from falsification, containing at least two chemical reagents, each of which is made in such a way that ensures the color reaction of this chemical reagent with an authenticity indicator at a speed that does not match the color reaction rate of each of the other chemical reagents with this indicator of authenticity, while the color of at least one of the reaction products of each chemical reagent with an indicator of authenticity is different from the color of at least one of the products the reactions of each of the other chemicals with this indicator of authenticity. 2. The paper according to claim 1, in which the concentration of at least one of the chemical reagents is in such a range that provides a color reaction of the specified chemical reagent with an authenticity indicator at a predetermined speed. 3. The paper according to claim 1 or 2, in which at least one of the chemical reagents introduced into the composition of the paper web. 4. The paper according to claim 3, in which at least one of the chemical reagents is introduced into the composition of the paper web by impregnating the paper web with a solution of the specified chemical reagent. 5. The paper according to claim 1 or 2, in which at least one of the chemical reagents is introduced into the paper by impregnating the paper web with a solution of the corresponding primary reagent and then treating the impregnated paper web with a precipitant. 6. The paper according to claim 1 or 2, in which at least one of the chemical reagents is introduced into the paper by mixing the pulp with the specified chemical reagent. 7. The paper according to claim 6, in which at least one of the chemical reagents is introduced into the paper by mixing the paper pulp with a solution of the corresponding primary reagent and subsequent processing of the resulting mixture with a precipitant. 8. Paper according to any one of claims 1 to 7, in which at least one of the chemical reagents is a colorless compound of color-forming groups of chemical elements. 9. The paper according to any one of claims 1 to 8, in which the final reaction products of at least one of the chemicals with an indicator of authenticity are colorless. 10. Paper according to any one of claims 1 to 9, in which at least one of the chemical reagents is a metal compound. 11. The paper according to claim 5 or 7, in which the solution of one of the chemical reagents is an aqueous solution of potassium thiocyanate, the solution of the other reagent is a yellow blood salt, the precipitant is polyhexamethylene guanidine, and the indicator of authenticity is an aqueous solution of ferric nitric acid acidified with nitric acid. 12. The paper according to claim 5 or 7, in which the solution of one of the chemical reagents is an alcohol solution of orthocresolphthalein, the solution of the other reagent is ferrous sulfate, the precipitant is an aqueous solution of acidic phosphoric acid sodium, and the authenticity indicator is an alkaline solution of yellow blood salt . 13. The paper according to claim 5 or 7, in which the solution of one of the chemical reagents is an alkaline solution of orthocresolphthalein, the solutions of the other reagents are an aqueous solution of diethylaniline and zinc sulfate, the precipitant is an aqueous solution of acidic sodium phosphoric acid, and the authenticity indicator is an alkaline solution sodium nitrate. 14. The paper according to claim 1, in which one of the chemical reagents is ferrous sulfate, the other reagent is sodium hydrogen phosphate, and the authenticity indicator is a sodium azide solution.