RU2610397C1 - Device for production of paper with transparent areas and paper produced using device - Google Patents

Abstract

FIELD: textile; paper.

SUBSTANCE: device contains a grid for the printing cylinder or dandy roll of papermaking machines equipped with the filigrees with holes. The said holes have 0.2-0.3 mm diameter. The holes evenly distributed throughout all filigree area with the spacing of 0.2-2.5 mm. There are subgrid components secured on the flipside of the grid symmetrically to the location of filigrees, performed in the form of metal or plastic grids with 0.4-0.95 mm meshes. The paper obtained using the said device is also declared.

EFFECT: invention allows producing the paper with transparent areas, which is characterised by high transparency in these areas and their enhanced thickness uniformity.

5 cl

Description

The invention relates to the pulp and paper industry, in particular to the production of security paper with transparent areas. Paper can be used to make banknotes, checks, certificates, bills, passports, identification cards, gas coupons, tickets for entertainment events and other documents requiring protection from counterfeiting.

A sheet is known with a protective feature visible in transmitted light (EP 0388090, 03/09/1990), in which the protective feature is located on a portion of the sheet with uniform transparency, the transparency of which is higher than that of the rest of the sheet. The sheet is made so that the mass per unit area of the sheet in the area with uniform transparency is less than the mass per unit area of the rest of the sheet, which is achieved through the use of watermarking technology.

A known method of manufacturing paper, which contains at least one section, the thickness of which is less than the thickness of the paper. The paper consists of a first layer, which is formed on the grid of the first wet part of the paper machine, and a second layer, which is formed on the grid of the second wet part of the paper machine. One of these layers has several local sections of smaller thickness obtained by embossing the mesh (US 6402888, June 11, 2002).

Known forming mesh for the manufacture of a fibrous layer, which contains at least one subgrid element, forming on the grid a region of reduced dehydration, into which, in the process of forming the fibrous layer, an element of a given thickness is introduced, for example, a security thread (RU 2439234, 01/10/2012).

A mesh of a round-mesh paper machine is known, having filigree elements fixed to the grid, made in the form of various figures, moreover, through the holes or slots with a transverse size of less than 500 microns are made in the body of the filigree element, providing zones with increased water loss. The paper is formed on a grid to obtain a filigree watermark having an additional image (RU 2306374, 09/20/2007).

There is a method in which for the manufacture of a sheet of paper containing at least one section with a smaller thickness relative to the thickness of the rest of the sheet, flexible elements fixed on the grid are used, the water loss of which is regulated by a combination of open and closed sections. These flexible elements, in fact, are similar to watertight elements (filigree) and are fixed on the grid of a plate cylinder or eguger together with filigree and on the same side as filigree (EP 0549384, 06/30/1993).

Indeed, the thickness of the paper in the area of transparent areas can be changed by changing the thickness of the filigree or by forming in their body holes of a round, linear or other structure located at a certain interval relative to each other. However, in order to sufficiently reduce the thickness of the paper, it is required to form said openings with a width of about 0.1 mm, which leads to a number of problems. In particular, the cutting time on a single filigree laser machine is significantly increased. For example, when forming in the body of a filigree consisting of a metal plate 0.35 mm thick and 20 mm in diameter, holes 0.1 mm in diameter with a pitch between holes 0.2 mm, the cutting time is more than 30 minutes. When attaching filigree with such characteristics to the grid by resistance welding or soldering, a significant part of the holes are blocked, which leads to the formation of holes or deterioration of the uniformity of transparent sections during paper casting on a paper machine. In addition, with an increase in the area of transparent areas, the heterogeneity of the paper thickness within the transparent area increases, which leads to difficulties in further sealing of these areas.

The objective and technical result of the proposed invention is to create a device that allows you to reduce the thickness of the paper in the areas of filigree while increasing the transparency of these areas and maintaining high uniformity of paper in the transparent area.

The technical result is achieved by the described device for the manufacture of paper with transparent sections, which contains a grid for a plate cylinder or an eguter of paper machines equipped with filigree with holes, while the aforementioned holes with a size of 0.2-0.3 mm are evenly distributed over the entire area of the filigree with 0.2-2.5 mm pitch, on the reverse side of the grid, subgrid elements made in the form of metal or plastic grids with mesh sizes from 0.4 to 0.98 mm are fixed symmetrically to the arrangement of filigree.

In the particular case of the claimed device may have the shape and size of the subgrid elements corresponding to the shape and size of the filigree.

In the particular case of the claimed device has a different shape and size of the mesh elements than the shapes and sizes of filigree.

The linear dimensions of the subgrid elements, in particular, may be 10-50% higher than the linear dimensions of filigree.

The technical result is also achieved by the claimed paper having transparent sections formed due to a local change in the thickness of the paper when it is cast on a paper machine, said transparent sections of paper having a surface area of at least 1.0 cm ² , and the heterogeneity of the paper thickness in the region of the transparent section is not exceeds 5%, while the paper is made on a machine that is equipped with a device described above.

The term "heterogeneity of the paper thickness in the region of transparent areas" in the invention refers to the difference between the minimum and maximum values of the paper thickness in the region of transparent areas, expressed as a percentage of the maximum value of the paper thickness.

The filigree of the claimed device is made of metal or plastic, their water permeability is regulated using round, linear or other holes. The holes have a size of 0.2-0.3 mm and are evenly distributed over the entire area of the filigree in increments of 0.2-2.5 mm or, more preferably, in increments of 0.2-0.6 mm. They are obtained in the body of a filigree by drilling or using a laser. The thickness of the filigree is preferably from 0.1 mm to 0.6 mm. Finished filigree with permeability-regulating holes are fixed in certain positions on the grid of a plate cylinder or an egulator by soldering or resistance welding.

As subgrid elements, metal or plastic grids with a mesh size of 0.14 mm to 0.98 mm are used, while they can be single or double. Grid elements can be plain and twill weave, twisted, triple, etc. The mentioned elements can be used both individually and as a folder from several folded together. In the invention, these elements made of tin-phosphorous bronze can be used.

Grid elements are fixed on the reverse side of the grid of the plate cylinder symmetrically to the location of the filigree by contact welding, soldering or adhesive bonding. In each case, the linear dimensions of the mesh elements should be selected individually based on the characteristics of the mesh elements and the specified transparency of the paper in the transparent window area.

The device according to the invention is used for the manufacture of paper with transparent sections located at certain positions on the sheet. Paper can be produced on a flat-mesh paper machine using an eguter with filigree and subgrid elements. However, it is most preferable to use the inventive device on a round-mesh paper machine with at least two plate cylinders. In this case, filigree and subgrid elements are fixed on the grid of one of the plate cylinders. The resulting paper with transparent areas can be printed by applying a composition that improves transparency. For example, for this purpose, you can use a composition based on epoxy, melamine, melamine formaldehyde resins. Produced paper may contain a filler (blank form, titanium dioxide, etc.). The filler content in the paper should not exceed 3% or, more preferably, should not exceed 1.5%.

The invention is illustrated by the following example.

On specified sections of the mesh of the plate cylinder (mesh No. 32), metal plates with a diameter of 2 cm and a thickness of 0.5 mm were fixed as filigree by contact welding. Through-holes with a diameter of 0.25 mm and a pitch between holes of 0.6 mm were previously formed on these plates with a laser. On the reverse side of the mesh of the plate cylinder, symmetrical to the location of the filigree, the mesh elements were fixed by contact welding, as the fragments of the mesh No. 16, 20 and 28 cut to a given size were used. The shape and size of these fragments completely corresponded to the filigree.

For comparison, at least one filigree without a subgrid element was left on the grid. In addition, metal plates with a diameter of 2 cm and a thickness of 0.5 mm were fixed as filigree on the grid of the plate cylinder by filigree welding, having previously formed through holes with a laser diameter of 0.1 mm and a spacing of 0.2 mm between the holes on these plates.

Using the resulting device on a round-mesh paper machine in a known manner, paper was cast with transparent windows weighing 90 g / m ² . The process of preparing paper pulp, ebb and processing of paper web was carried out in accordance with the traditional technology for the production of banknote paper.

The resulting paper was tested, determining the thickness and transparency in the field and transparent areas. Transparency was evaluated based on a measurement of the optical density of the paper using an X-Rite transparency densitometer. In this case, a decrease in optical density corresponded to an increase in paper transparency. The thickness of the paper in the field and transparent areas was measured using a universal thickness gauge FRANK Prufgerate GmbH with a measuring area of 5 mm.

The tests showed that the device, mounted on the reverse side of the grid of the plate cylinder symmetrically to the filigree of the subgrid elements, made it possible to produce paper having a transparency in specified areas 10-15% higher than without using the claimed device. It should also be noted that the use of grids with different characteristics as subgrid elements allows you to vary the manufacturing technology while maintaining the quality of transparent sections of paper. The use of the claimed device allows you to get paper with high uniformity in thickness. The maximum heterogeneity of the paper thickness in the region of transparent areas prepared according to the invention did not exceed 3-5%. The heterogeneity of the paper thickness in the region of transparent areas during its manufacture on a plate cylinder equipped with a fixture of the prototype (mesh with filigree) was 6-10%.

The technical result of the claimed device is due to the fact that on the grid, along with filigree with adjustable permeability, there are subgrid elements that are symmetrical to the filigree on the back of the grid. The subgrid elements made and placed in the declared manner allow additional control of the water loss in the filigree areas.

Thus, the claimed invention allows to obtain paper with transparent areas, which compared with the prototype is characterized by high transparency and increased uniformity in thickness.

Claims (5)

1. Device for the manufacture of paper with transparent sections, containing a grid for a plate cylinder or an egutter of paper machines equipped with filigree with holes, characterized in that the said holes with a size of 0.2-0.3 mm are evenly spaced over the entire area of the filigree in increments 0.2-2.5 mm, while on the reverse side of the grid, subgrid elements made in the form of metal or plastic grids with a mesh size of 0.4 to 0.98 mm are fixed symmetrically to the location of the filigree. 2. The device according to claim 1, characterized in that the shape and size of the subgrid elements have the shape and size of filigree. 3. The device according to claim 1, characterized in that the shape and size of the subgrid elements are other than the shape and size of the filigree. 4. The device according to claim 3, characterized in that the linear dimensions of the subgrid elements are 10-50% larger than the linear dimensions of the filigree. 5. Paper having transparent sections formed by local variation in the thickness of the paper when it is cast on a paper machine equipped with the device described in paragraph 1, while the transparent sections of the paper have a surface area of at least 1.0 cm ² and a thickness heterogeneity paper in the transparent area does not exceed 5%.