NL1001577C2 - Paper, provided with controlled, variable concentrations, security elements and method for the manufacture thereof. - Google Patents

Description

Title: Paper, provided with controlled, variable concentrations of security elements and method for the manufacture thereof.

The invention relates to a paper type, more in particular a security paper, for example a paper type for banknotes, checks, visas, passports, credit cards and the like.

As is known per se, such papers are secured by means of security elements.

These elements can for example consist of shiny, fluorescent, luminous, metal, magnetic, thermo-chrome, photochromic and rainbow-colored fibers, sequins or 10 strips.

FR-A-2,425,937 describes a fiber structure, provided with metal fibers and a method for the manufacture thereof.

These metal fibers are controllably incorporated into the coherent structure, i.e. in confined places and at certain concentrations, either on the surface or in the thickness of the structure, for example in the form of strips. The application of strips to the surface is accomplished by applying a secondary reservoir above the wet part of the paper machine, which contains a dispersion of metal particles and extends over a part of the width of the paper. Thus, the final paper contains a tape in which the fibers are randomly distributed, since an aqueous suspension of metal particles is deposited, the fiber concentration in the tape having a constant average value.

These fibers can be included in the thickness of the structure. If one wishes to apply the fibers in the thickness of the structure, a dispersion is formed, in the manner of papermaking, which contains cellulose fibers and metal fibers in the desired concentration, after which this fiber sheet is covered with sheets which do not contain metal fibers. This connection 1001577 2 can take place either on a machine with a series of flat tables, or outside the paper machine by gluing together.

Such a sheet is called a "laminated" sheet 5 because it is composed of a series of layers. In addition, the fiber concentration is either zero, in those places where the metal fiber-containing layer is not present, or constant in that place where the fiber-containing layer is present. If one detects the fibers with the aid of a detection device, it will give a signal equal to 0 (the fiber concentration is zero) or a signal equal to 1 (the average fiber concentration is C.) A counterfeiter will therefore test fibers at a certain place where this deposit may be either constant or arbitrary At places where the deposit will be 0, the detection device will indicate a 0 signal At places where the deposit has taken place the detection device will indicate a 1- whether the fiber depot is constant or random, since the fiber concentration eventually has a constant average value, z elfs in the case of a random fiber deposit.

Thus, a detection device will not be able to indicate whether papers are authentic or counterfeit.

In addition, the method of manufacturing such a sheet is expensive as it requires a series of steps or a series of flat tables on the paper machine. Finally, such a method does not provide the possibility of manufacturing a sheet on a paper machine with a so-called "round shape".

US-A-59,281 discloses a papermaking process comprising adding powder or metal additives to the pulp. This method mainly consists in the arbitrary addition of metal elements, for example with the aid of a perforated cylinder, which contains perforated elements which fall under the influence of gravity on the sheet of paper during its formation.

1001577 3

GB-A-696,673 describes a method and an apparatus for casting elements, for example metal powder, just prior to the formation of the paper sheet.

The elements can be inserted in the form of pointed lines or lines running along a sinusoidal or cycloidal curve. The device for depositing the elements can be controlled by means of beta rays, however the concentrations are arbitrary.

The object of the invention is in a simple manner to produce a sheet in the form of a fiber structure, which contains special safety elements which are arranged in the interior of the thickness of the fiber structure.

By fiber structure is meant any structure obtained by a papermaking method, starting from an aqueous composition of cellulose fibers, other starting materials and any other additive used in the paper industry.

Another object of the invention is to provide a sheet in the form of a fibrous structure which allows for differing variations of the recognition signals.

The invention provides for this purpose a paper which is provided with safety elements in the form of particles, characterized in that the paper is composed of at least one layer, the particles being applied in the thickness of the layer with certain variable concentrations of C , over the entire surface or in strips.

The sheet consists of a single layer. In addition, the particles have an arbitrary shape, such as, for example, the shape of fibers, spangles, strips, for example of metal fibers.

Preferably, the particles are arranged in separate regions Di, D2, D3, Dn, while the average particle concentration C1, C2, C3, Cn is determined in each region.

The areas Dj., D2, D3, Dn are mutually spaced, this distance being determined.

The average concentrations of C 1, C 2, C 3, C n are distributed according to a curve, for example according to a sinusoid. The security elements output detectable physical signals 1001577 4, for example optical, magnetic or electrical signals.

According to the invention, the security elements can have an average concentration of Ci in one region, C2 in another region and C3 in yet another region, such that Ci <C2 <C3. The signal is therefore obscured and unveiled upon reading.

The invention also relates to a method for manufacturing such a sheet.

WO 94/11577 (ΤΌΜΒΑ) discloses a method of applying bounded areas in paper consisting of preventing the drying of the paper in one or more places of the cloth of the machine during the formation of a sheet of paper on the machine and depositing in these places a special composition containing fibers which are different from other fibers deposited on the cloth.

In order to prevent the drying of paper, namely to prevent the deposition of fibers, a tube is used, which is provided with a lip which rests against the cloth of the round shape, the tube being provided with a part that delivers the particular composition to the area called "bare". In this way, a paper is obtained which contains transparent parts, which parts, however, have all other physical properties which are the same as those of the paper.

US-A-4,437,935 (CRANE) discloses a method that provides the ability to apply security elements to the surface of the paper. This method consists of applying security elements to a water-dispersible belt, placing the belt in a certain position on the surface of the sheet of paper and dispersing the belt. The tape can also be inserted into the interior of the paper. However, this method does not intend to change the concentration of security elements 35 because, on the contrary, it provides the possibility of producing a paper provided with security elements in exact locations in all directions.

1001577 5

The method according to the invention consists in depositing or applying particles when a part of the paper layer is formed on the cloth, preferably when the layer is half-formed. The safety elements 5 are introduced by means of a fluid, the flow of which is regulated.

According to the invention, the particles are applied by feeding them with the aid of an apparatus, for example a rigid or flexible tube, which does not touch the grating of the paper machine.

In the following, exemplary embodiments of the invention will be further elucidated with reference to the drawing in order to explain how the invention can be put into practice. In the drawing: Fig. 1 shows an exploded view of a sheet manufactured according to FR-A-2,425,937; FIG. 2 - an exploded view of a sheet made in accordance with US-A-4,437,953; fig. 3 - a view of a sheet manufactured according to the invention; FIG. 4 - a section along line A-A of the sheet of FIG. 3; FIG. 5 - the shape of the signal delivered to a detection device; Fig. 6 - a view of the device used for manufacturing the sheet according to Fig. 3; and Fig. 7 - a perspective view of another embodiment of the sheet-making device according to the invention.

The sheet 1, shown in Fig. 1, is composed of three layers. The outer layers 2 and 3 consist, for example, of fibrous structures, which are obtained on a flat table or round shape starting from an aqueous suspension of cellulose fibers, optionally mixed with synthetic fibers, other materials and additives known to the person skilled in the art.

The interleaf 4 is a fibrous structure obtained from an aqueous suspension containing 1001577 6 cellulose fibers, security elements, optionally synthetic fibers and other additives. The security elements consist in particular of metal or magnetic fibers. Because they are introduced into an aqueous suspension, they are distributed randomly. In addition, the final sheet is composed of three layers.

Fig. 2 shows a sheet 6 consisting of two layers 7 and 8. Between these layers a water-soluble strip 9, which contains safety elements, which are separated from each other, is applied during the manufacture in the manner of papermaking. . These safety elements are spaced at equal distances. Their concentration is constant.

Fig. 3 shows a sheet 11 according to the invention.

The sheet 11 according to the invention contains security elements 12 in the form of particles. Particles means any element of any shape, for example fibers with a length of several tenths of a millimeter, spangles or strips. These safety elements can be metal or magnetic. The special elements 12 are arranged in the interior of the thickness of the sheet 11, as shown in Fig. 4. Preferably, the elements 12 are located substantially in the middle of the thickness e of the sheet 11.

According to the invention, the sheet 11 consists of one layer and the particles 12 are arranged in such a way that the concentration thereof is variable, but determined. Certain variable concentrations are understood to mean that at a given location on the sheet the concentration C of the particles 12 is regulated.

Thus, with reference to Fig. 3, in the region Di the particle concentration is Ci, in the region D2 it is C2, in the region D3 it is C3 and in the region Dn the particle concentration is Cn ·

The concentration of C 1, C 2, C 3, C n can be controlled in such a way that these concentrations increase and then decrease.

1001577 7

One then obtains, for example:

Ci <C2 <C3 C3> C4> Cg etc.

The signals emitted by the particles therefore follow the same modifications. If the concentrations C proceed along a sinusoidal curve, the transmitted signals will have a sinusoidal curve. It is understood that the concentrations C can be controlled in such a way that the emitted signals have the desired form.

Fig. 5 shows a sinusoidal signal S obtained from metal fibers, the concentrations of which first increase and then decrease. Depending on the average distance d between the different regions Di, D2, D3, Dn, the pulse distance of the signal curve S15 can be set.

Fig. 6 shows a device by means of which the method of applying the particles can be realized. A paper machine, with a round shape, is shown, but the same method can of course be applied to a flat table.

The round-shaped machine, represented by reference numeral 13, consists of a cylinder 14, which is formed by a cloth which may be provided with means for forming a watermark in the paper. The cylinder 14 rotates in an aqueous solution of cellulose fibers, optionally synthetic fibers and other known additives. The fibers deposit on the cylinder 14 to form a paper layer 15.

According to the invention, a flexible or rigid tube 16 is applied, the end 17 of which is placed precisely at the place where the layer 15 starts to form. Particles are supplied via the tube 16, the flow rate of which is regulated such that the concentration of the particles reaching the end 17 of the tube 16 is regulated. Preferably, the particles are deposited where the paper layer is half-formed.

The particle flow rate is controlled, for example, by means of a valve 18. As the flow rate is greater or less 100 1 577 8, the particles deposit in a higher or lower concentration. The particles can be supplied by means of a fluid, such as compressed air or water.

When the particles have been deposited in the semi-formed or forming layer, the formation of the paper layer continues due to the fact that the cylinder 14 rotates and the layer is taken over with a pick-up cloth, which is indicated by the reference numeral 19 and subsequently to be fed to a dryer or other paper layer after-treatment device.

A series of tubes 16a, 16b, 16c can be provided, the ends of which are located in the vicinity of the cloth of the cylinder, as shown in Fig. 7.

The ends 17a, 17b, 17c of the tubes are placed above the cloth of the cylinder without touching it.

The distance between the ends 17a, 17b, 17c of the tubes and the surface of the fabric 14 is adjusted such that the particles enter the interior of the forming layer 15.

Different particle flow rates can be applied in the tubes. The tubes can also be spaced at different distances to vary the particle concentrations and the location of the regions D1, D2, D3 relative to each other.

1001577

Claims (10)

1. Paper sheet, provided with safety elements in the form of particles, characterized in that the paper sheet consists of at least one layer, the particles (12) being applied in the thickness of the layer at certain concentrations, which are variable depending on the place on the sheet where they are applied. Paper sheet according to claim 1, characterized in that the particles (12) are arranged in certain separate areas Dj, D2, D3, Dn, the average concentration being C1 # C2, C3, Cn of the particles in each region are determined and are variable depending on the region. Paper sheet according to claim 2, characterized in that the regions D1 # D2, D3, Dn are spaced from one another, the mutual distance d being determined. Paper sheet according to any one of the preceding claims, characterized in that the particles in the regions Dx, D2, D3, Dn are arranged along parallel strips, which strips extend in axial direction over the entire surface of the paper sheet (11). Paper sheet according to any one of the preceding claims, characterized in that the average concentrations of Cx, C2, C3, Cn are distributed along a curve, for example a sinusoid. Paper sheet according to any one of the preceding claims, characterized in that the security elements emit physically detectable signals, for example optical, magnetic or electrical signals. Paper sheet according to any one of the preceding claims, characterized in that the security elements consist of metal fibers. A method of manufacturing a paper sheet according to any one of the preceding claims, comprising forming a layer (15) on a cloth (14) of the machine in a paper machine, starting from an aqueous suspension containing at least cellulose fibers, followed by drying 1001577 (thereof, characterized in that safety elements (12) are applied when a part of the layer (15) is formed on the cloth. Method according to claim 8, characterized in that the safety elements (12) are applied when the layer (15) is half-formed. Method according to claim 8 or 9, characterized in that the safety elements (12) are supplied by means of a fluid, the flow of which is regulated. 1001577