NL1006151C2 - Forming wire for making paper with watermark - Google Patents

Abstract

A forming wire (1) used for making paper provided with a distinctive watermark pattern (2), comprises a gas-permeable material with the watermark pattern applied onto it. Some of the openings (4) in the wire are filled or covered with a water-resistant resilient material. A method for making the above paper using this wire is also claimed.

Description

Short Title: Watermark Strainer and Method of Manufacturing a Watermark Strainer

The invention relates to a watermark screen for the production of paper which is provided with a watermark with a specific pattern, which watermark screen consists of a mesh-shaped material on which the pattern of the watermark is applied. The invention also relates to a method for manufacturing such a watermark screen.

Such watermark sieves are generally known and consist of copper mesh on which thin copper threads are embroidered. When paper is scooped, a thinner deposition of paper fibers from the very dilute aqueous paper suspension is obtained at these threads and less paper dust remains at the area of the pattern applied to the mesh cloth than elsewhere, so that the paper reproduces the cartridge applied to the watermark strainer. This reproduction is called watermark or line watermark. For example, watermarks are often applied to handmade paper, which is used for eg certificates, the watermark giving the paper a certain exclusivity.

A drawback of the known watermark sieves is that it is very laborious to embroider the copper wires on the copper mesh. This cannot be automated and must be done manually. Watermark sieves are therefore very expensive, so that paper that has been watermarked in this way is also expensive. Since the application of the threads is very laborious, the patterns to be applied as watermarks should preferably not be complex.

The object of the invention is a watermark screen which is simple and inexpensive to manufacture and with which complex patterns can be applied as a watermark in paper. 35

This object of the invention is achieved by a water-sieve of the type described in the preamble, wherein the mesh openings at the location of the cartridge are filled or covered with a plastic-curing water-resistant material.

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This measure ensures that the pattern no longer has to be embroidered on the gauze cloth by labor-intensive operations, but can be applied in a factory manner. As a result, much more complex patterns can be applied relatively quickly. With such a watermark sieve it is possible to scoop paper on a large scale with very complex watermark patterns at relatively low cost. Since the patterns of the watermark can be made very complex with such a watermark screen, the exclusivity value that the watermark can give to the paper is further increased.

In a preferred embodiment of the invention, the water-resistant material consists of a plastic. Plastics 20 are easy to apply, adhere well to the gauze and are water resistant.

The plastic from which the pattern is manufactured preferably consists of a photopolymer, which has been applied to the mesh material by photopolymerization. This makes it easy to apply the pattern, even when it is very complex.

The mesh-shaped material preferably consists of a plastic mesh or screen mesh, such as is used for screens for doors or windows, for example. This screen mesh is water resistant and sturdy enough to scoop paper and is widely available at low prices.

The object of the invention is also achieved with a method for manufacturing a watermark sieve, in which the openings in the mesh material are filled or covered with a plastic hardening water resistant at the location where the pattern is to be applied. 1 3 dig material, for example plastic. Very different shapes can be obtained with plastics, and complex patterns can be described with, if desired, different line widths, which is much more difficult if the pattern is applied by embroidering copper wire on the mesh cloth.

In a preferred embodiment of the method according to the invention, a thin layer of photosensitive monomers is placed on the mesh material, after which an exposure mask is placed above the mesh material and the layer of monomers, in which exposure mask a translucent pattern is arranged which corresponds to with the pattern to be applied to the watermark screen, after which the watermark screen is locally exposed via the exposure mask so that a photopolymerization process takes place at the location where the light falls in the monomer layer, after which the unexposed parts of the monomer layer are removed , for example using a solvent.

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In another possible method according to the invention, two components of a thermosetting plastic are combined with a mold on the mesh cloth at the location where the pattern is to be applied. After assembly, the components harden and thus form the pattern. This method is very simple and can be realized with cheap materials.

The invention will be further elucidated with reference to the drawing. Herein shows:

Figure 1: Watermark screen according to the invention;

Figure 2: Watermark screen under a photosensitive monomer layer and exposure mask; 35 Figure 3: As figure 2 after exposure.

Figure 1 shows a slightly enlarged part of a watermark screen 1 according to the invention, on which a cartridge 2 of a photopolymer is applied. The watermark screen 1 consists of 100 6 1 5 1 4 of a mesh material or mesh cloth formed of threads 3 running in two perpendicular directions and between which a large number of very small mesh openings 4 of approximately 0.5 x 0 , 5 mm or less 5 are limited. The pattern 2 is applied by locally covering a series of mesh openings 4 with a photopolymeric plastic. When paper is scooped from an aqueous paper suspension, thinner deposition of paper fibers from the aqueous paper dust suspension will be obtained at the pattern 2. This results in a variation in the fiber concentration in the scooped paper, which results in a tint difference with transmitted light. This shade difference is referred to as a watermark.

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Figure 2 shows a greatly enlarged cross-section of a watermark screen 1 on which a layer 5 of photosensitive monomers has been applied. Above the layer 5 is placed an exposure mask 6 consisting of a plate 7, in which openings 8 are arranged. These openings 8 describe the pattern to be applied to the watermark screen 1. Above the exposure mask 6, a light source 9 is placed which can emit UV light with a wavelength which causes polymerization in the photosensitive monomer.

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Figure 3 shows the situation when the light source 9 emits light and illuminates parts of the monomer material via the openings 8 in the exposure mask 6. Where the monomeric material is exposed, it polymerizes and cures, adhering to the mesh cloth. After the exposure, the exposure mask 6 is removed and the unexposed parts 10 of the monomer layer are removed. The polymerized parts 11 remain on the gauze of the watermark sieve 1 and form the desired pattern there.

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Claims (7)

1. Watermark screen for producing paper provided with a watermark with a specific pattern, which watermark screen consists of a mesh-shaped material on which the pattern of the watermark is applied, characterized in that the mesh openings are filled at the location of the pattern or covered with a plastic curing water resistant material. 2. Watermark screen according to claim 1, characterized in that the water-resistant material consists of a plastic. Watermark screen according to claim 2, characterized in that the water-resistant material consists of a photopolymer which has been applied to the mesh material by photopolymerization. Watermark screen according to one of the preceding claims, characterized in that the mesh-shaped material consists of a plastic mesh or screen mesh. 5. Method for manufacturing a watermark screen for the production of paper provided with a watermark with a specific pattern, which watermark screen 25 consists of a gauze-shaped material on which the pattern is applied, characterized in that at the location where the pattern is to be the openings in the mesh material are filled or covered with a water-resistant material, for example plastic. 30 6. Method according to claim 5, characterized in that a thin layer of photosensitive monomers is applied to the mesh-shaped material, after which an exposure mask is placed above the layer of monomers, in which exposure mask a light-transmitting pattern corresponding to the one on the watermark screen to be applied 100 6 1 5 1, after which the watermark screen is exposed locally via the exposure mask so that a photopolymerization process takes place at the location where the light falls on the monomer layer, after which the unexposed parts are treated with the aid of a solvent. 7. Method as claimed in claim 5, characterized in that two components of a thermosetting plastic are combined with the aid of a mold on the gauze cloth at the location where the pattern is to be applied. 100 6 1 5 1