WO2011081561A1 - Counterfeit-proof paper with watermarks, and mesh for manufacturing same - Google Patents

Abstract

The invention relates to the manufacture of paper with watermarks for use in the production of banknotes and value documents that require enhanced protection against forgery. The counterfeit-proof paper contains watermarks with a multi-tone effect, comprising pale and dark elements perceived as a raster image when viewed by transmitted light, wherein the pale elements are characterized by a lower weight per surface unit of the paper than the dark elements. The total surface area of the pale elements of the watermark having an optical density less than that of the paper represents at least 1% of the overall surface area of the paper, and the depth of the pale elements of the watermark does not exceed 70% of the depth of the paper. The mesh for manufacturing the paper comprises masks for forming the watermark, which are in the form of solid members arranged between the perforated sections of the mesh. At least one mask is provided with micro-openings having a diameter not exceeding 0.25 mm, wherein the total surface area of the micro-openings does not exceed 15% of the overall surface area of a mask. The invention increases the strength of the paper while maintaining good tone rendering of the image.

Description

 PAPER-PROTECTED PAPER CONTAINING WATER SIGNS AND GRID FOR ITS MANUFACTURE

Technical field

 The invention relates to the pulp and paper industry, in particular, to the production of paper with a watermark with a multi-tone effect, used for the manufacture of banknotes and valuable documents requiring increased protection against falsification.

State of the art

Typically, halftone watermarks are obtained by molding a wet paper web on a grid with an embossed embossed image of the watermark. During the molding process, cellulose fibers accumulate mainly in deepened areas and are scattered in the convex sections of the relief image, which makes it possible to obtain areas of high and low fiber density on paper after drying that correspond to dark and light watermark elements. The required gradation of optical densities is achieved due to the fact that the light elements of the watermark have a lower 10 000681

2 optical density, and dark elements, on the contrary, have a higher optical density compared to the optical density of paper.

 The main disadvantage of such watermarks is the presence on the paper of protruding sections corresponding to the dark elements of the watermark, which create problems when cutting, stapling and printing paper.

 Known mesh for forming paper with a watermark on which the necessary image elements are made using threads, the surface of which is treated with resin to increase wear resistance. The watermark on paper made using this mesh consists of recessed elements with a lower optical density than paper density (JP6-287883 A, 10/11/1994).

 The disadvantage of this mesh and watermarked paper made using it is the inability to obtain a watermark with a multi-tone effect.

Closest to the claimed technical solution is paper having a watermark with a multi-tone effect, which when viewed in transmitted light consists of light and dark elements, perceived as a bitmap image, and light elements are characterized by less weight per unit area of paper than dark elements, and the points of the bitmap image have amplitude or frequency modulation. For the manufacture of this paper, a mesh is proposed, equipped with masks for forming a watermark, which are solid elements located between the perforated sections of the mesh (US 6991846 B2, 01/31/2006).

The paper described in US Pat. related to stapling, cutting and sealing of paper. A good gradation of tones in this case is achieved by reproducing the light and dark elements of the watermark in the form of a variable raster structure, which, when viewed with a naked eye, is perceived as grayscale image with gradation of tones from the optical density of the paper to the optical density of the raster.

 The main disadvantage of this technical solution is the presence on paper of areas with low optical density, characterized by a significant depth of light elements of the watermark. When reproducing complex graphic images there can be many such areas, and they can occupy a sufficiently large area from the total area of the paper. The paper in these areas is thinning, which reduces its strength and increases the likelihood of destruction.

It is known that the depth of the light elements of a watermark on paper can be controlled to some extent by changing the thickness of the masks forming the watermark. In addition, when designing a watermark, you can adjust its image in high light. However, the first method is not sufficiently effective, and the second is reflected in the gradient of the transmission of tones of the image of the watermark. Disclosure of invention

 The objective of the present invention is to increase the strength of the paper while maintaining a good gradation of the tones of the image by changing the permeability of the grid sections responsible for the formation of light watermark elements on paper.

 This technical result is protected from counterfeit paper containing watermarks with a multi-tone effect, having light and dark elements that are visually perceived in transmitted light as a raster image, and light elements are characterized by less weight per unit area of paper than dark elements in which the total area light watermark elements, the optical density of which is less than the optical density of the paper, is at least 1% of the total paper area, and the depth of the light watermark elements does not exceed 70% of the paper thickness.

In addition, bitmap images may consist of arbitrary shape bitmap elements that can be made partially in the form of lines with different angles of inclination.

 The result is also achieved by the fact that the mesh for the manufacture of counterfeit paper contains masks for forming a watermark, which are solid elements located between the perforated sections of the mesh, while at least one mask has micro holes with a diameter of not more than 0.25 mm, and the total area of microholes is no more than 15% of the total area of the mask.

Watermarked paper is cast on a round-mesh paper machine using cotton pulp milled to the required parameters as the main raw material. Moreover, in addition to the watermark, perceived as a variable raster structure, the paper can also have other watermarks obtained using currently known technologies, for example, a watermark obtained by embossed mesh, a filigree watermark, etc. These watermarks can be combined with each other, as well as with a watermark obtained using a variable raster structures, in any technologically acceptable combinations.

 The grid for making paper, in accordance with the invention, contains masks for forming a watermark, which are solid elements made of metal, plastic, etc., located between the perforated sections of the grid. The total number of masks is determined by the image of the watermark and, in the simplest case, at least one mask can be present on the grid to form the watermark.

Raster images are obtained on masks, forming a watermark with a multi-tone effect on paper. Moreover, raster images can consist of many holes, the diameter and location of which varies depending on the image of the watermark. For making holes, for example, drilling, chemical etching, etc. can be used. In addition to amplitude and frequency modulation, mask raster images can be obtained by any of the currently known rasterization methods and can consist of arbitrary raster elements one

8 forms made at least partially in the form of lines with different angles of inclination.

 In the process of forming a paper web, the permeability of the mesh in the places of the holes changes in proportion to their diameter, number and location on the masks. At the same time, a watermark image is formed on paper, consisting of a combination of dark and light elements with a raster dot size of usually not less than 0.3 mm, since it is difficult to reproduce a watermark image on paper with smaller raster dots due to their insufficient contrast.

In order to adjust the depth of the light elements of the watermark on paper, at least in some masks, microholes with a diameter of not more than 0.25 mm are made. Due to their small size, these micro-holes are not perceived on the paper as a raster structure, but they can increase the permeability of the mesh and, accordingly, reduce the depth of the light elements of the watermark. The total area of microholes should be no more than 15% of the total area of the mask, since with a further increase in this indicator there is a decrease in contrast and a deterioration in the gradation of tones of the watermark image.

 For the manufacture of micro-holes, you can use any currently known equipment, the technical characteristics of which allow the specified operation. For example, for this purpose, a device for flashing micro-holes in metal and plastic plates, arranged on the basis of the LTI-136 laser, is used.

 The limitation of the diameter and total area of the microholes is caused by a significant increase in the permeability of the masks. In each case, the diameter of the micro-holes, as well as their number and location on the masks is consistent with the actual image of the resulting watermark. Moreover, the main criterion is to reduce the depth of the light elements of the watermark to technologically acceptable values not exceeding 70% of the original thickness of the paper, with the total area of the light elements of the watermark not less than 1% of the total area of the paper.

On the other hand, with an increase in the total area of light watermark elements, a significant weakening of the paper strength in the watermark sections due to their thinning, when the depth of the light elements reaches 80-90% of the original paper thickness. This weakening is expressed in the formation on the paper during its physical and mechanical tests (resistance to eight-fold crushing, the number of double bends, etc.) holes, tears and cracks, which is extremely undesirable when using paper as the basis for banknotes. To maintain good indicators of paper strength, it is advisable to reduce the depth of the light elements of the watermark, at least in areas occupying at least 1% of the total paper area, to a value not exceeding 70% of the original paper thickness, which is achieved through the use of masks with micro holes in accordance with the invention.

Brief Description of the Drawings

The invention is as follows. The implementation of the invention is explained using figures 1-3. In FIG. 1 shows a drawing of a watermark, in FIG. 2 is a grid (1) with a mask (2) corresponding to a watermark pattern, in FIG. 3 - a fragment of the mask with raster holes (3) and with micro-holes (4). 2010/000681

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The best example of carrying out the invention

At least one mask 2 (figure 2), which is a plate made of a soldered, welded or connected to the grid in some other way, is fixed on the grid 1 (figure 2) of the round-mesh paper machine, in accordance with the watermark pattern metal, plastic or other material. A negative image made on the mask 2 with the help of raster holes 3 allows you to get a watermark on paper, perceived in the form of a raster structure.

 In the process of forming the paper web, the deposition of paper pulp on the grid 1 changes in proportion to the diameter, number and location of the raster holes 3 on the mask 2 (Fig. 3), which leads to the formation of dark image elements on paper whose optical density corresponds to the optical density of the paper. These dark elements are well perceived in transmitted light due to the contrast with light watermark elements, the optical density of which is less than the optical density of the paper.

In accordance with the objective of the invention, on the mask 2 (figure 2), in addition to the raster holes 3, there are micro-holes 4 (FIG. 3), the arrangement of which is consistent with the location of the light elements of the watermark having a total area of more than 2% of the total area of the paper.

 The result is an improvement in the permeability of mesh 1 in areas of the watermark with the lowest optical density (that is, in the light of the image), and, as a result, a decrease in the depth of the light elements of the watermark in these areas, which increases the strength of the paper while maintaining a good gradation of image tones watermark.

Industrial applicability

 Thus, the inventive paper with a watermark with a multi-tone effect, in comparison with the closest analogue, is characterized by higher strength properties and good quality of watermark reproduction. This is achieved through the use in its manufacture of a mesh containing at least one mask for the formation of a watermark, the permeability of which is regulated using microholes.

Claims

Claim

1. Tamper-resistant paper containing watermarks with a multi-tone effect, having light and dark elements that are visually perceived in transmitted light as a raster image, and light elements are characterized by a lower weight per unit area of paper than dark elements, characterized in that the total the area of the light elements of the watermark, the optical density of which is less than the optical density of the paper, is at least 1% of the total area of the paper, and the depth of the light elements of the watermark does not exceed 70% o t of paper thickness.

2. Protected from counterfeit paper according to claim 1, characterized in that the raster images consist of raster elements of arbitrary shape.

3. Tamper-resistant paper according to claim 2, characterized in that

arbitrary raster elements are partially made in the form of lines with different angles of inclination.

4. Mesh for the manufacture of tamper-resistant paper, characterized according to any one of paragraphs 1 to 3, containing masks for forming a watermark, which are solid elements located between the perforated sections of the mesh, characterized in that at least one mask is made micro-holes with a diameter of not more than 0.25 mm, and the total area of micro-holes is not more than 15% of the total area of the mask.