DE10228402A1 - Sheet material for imprinting with information, e.g. for production of digital water-marks, has a coating with magnetic particles in fine pores containing a liquid binder which can be hardened to fix the particles - Google Patents

Abstract

Sheet material (1) with a coating (3) comprising fine pores (2) containing floating electrically- and/or magnetically-activatable particles (4), in which the particles (4) are surrounded by a curable binder (5) which is liquid in the non-operative state and is used for fixing the particles (4). An independent claim is also included for a method for putting information (9) onto this material (1) by exposing the particles (4) to an electrical or magnetic field (10) corresponding to the required information pattern, orienting the particles according to the field and fixing them by hardening the liquid binder as required.

Description

The invention relates to a sheet material with the features according to the preamble of claim 1 and a Method for applying information to a sheet material with the features according to the preamble of claim 10.

They are coated sheet materials with a backing layer known for example from paper or a plastic film, at those that can be activated electrically and / or magnetically in a coating Particles are provided. The particles are fine, for example cavities the coating is floating and can be by a suitable method to apply information to an electrical or magnetic Field are exposed. The field will be a desired one Information patterns are formed, with the particles correspondingly align the field. The desired information is included stored in the form of the aligned particles in the sheet material. The appropriate information can be read using suitable reading methods can be read out and, if necessary, also by applying a according to the modified field, the orientation of the particles can be changed. Accordingly, the information applied first can optionally deleted or be changed. The disadvantage here is the lack of security against unintentional or unauthorized change a previously applied information.

The invention is based on the object flat To develop sheet material in such a way that a permanent storage of information is possible.

The invention lies further the task of providing a method by means of which information is stored on sheet material and optionally permanently can be secured.

These tasks are done through a sheet material with the features of claim 1 and a method with the features of claim 10 solved.

According to the invention, a flat sheet material with a fine voids having proposed coating, being electrical in the fine cavities and / or magnetically activatable particles are floating and in the area of the particles there is essentially one at rest liquid, Binder that can be hardened in a targeted manner is provided for fixing the particles. In the liquid state of rest of the binder, the particles are floating in the cavities versatile. To apply information to the above Sheet material can the particles according to a desired information pattern exposed to an electrical or magnetic image and accordingly the field. This information is provided by suitable For example, electronic reading methods can be read out. Furthermore, the Information changed if necessary or be deleted. Provided a permanent, unchangeable Information storage on the sheet material is desired, if necessary the liquid Binder for fixing the particles can be cured in a targeted manner. The curing can either be with the entire sheet material or only in Partial areas of the information provided. Through the curing of the binder becomes the previously floating particles their freedom of movement is taken and theirs evoked when the information is applied Orientation set. This orientation and therefore the information itself is essentially irreversible. A change the information content can no longer or at most not freely available technological effort changed become.

The sheet material mentioned and the mentioned method is particularly for the production of so-called digital watermark. This makes it easy Security measures, for example for accompanying documents of goods as protection against product and brand piracy allows. In an inexpensive solution can be done using the digital watermark on the accompanying documents a product encodes, labels, monitors and authenticates become. The storage of an electronic watermark by Alignment of the particles by applying an electrical or magnetic field can be on the entire path of the product be gradually continued from production to sale, after graduation everyone Intermediate step a corresponding part of the digital watermark forgery-proof can be set.

The digital watermarks can be alphanumeric, encrypted, graphic or other data that is invisible or visible embedded in other visible data on the sheet material. For example, there are minor changes from Visible graphic information pixel values possible can not be perceived by the human eye, the but can be recognized by means of suitable reading methods. In addition to the The accompanying documents described also result in possible applications for any other security-related documents, such as customs or securities, Ballot papers in electoral procedures or the like. Away from security technology is a simple and inexpensive solution to prevent accidental deletion or modification of a given information given.

In an advantageous development, the cavities in the sheet material are designed as microcapsules, the binder being contained in the microcapsules. The microcapsules in connection with the corresponding coating can be produced in a simple manner on a large scale, which leads to an inexpensive sheet material. The microcap You can also perform a multiple function from your chosen filling. For example, so-called copy sets are also possible in conjunction with appropriate color formers and line developers. Instead of the microcapsules, it can also be expedient to form cavities in a crystalline structure of the coating.

In an advantageous training is the microcapsule with the binder and at least one particle filled. Without additional The binder, which is liquid at rest, can first be used as an aid ensure floating, free mobility of the particles. To optionally caused curing the binder is the corresponding particle of this microcapsule firmly from the hardened Binder enclosed and an undesirable realignment of the particle reliable avoided. In a practical variant is the curable Contain binders in a capsule wall of the microcapsule and this Variant enables one additional fill the microcapsule with other substances, such as. B. a color former for a carbon copy. Through a reliable and at high speed economical fixation of an applied Information is a hardening of the Binder provided by radiation. A practical variant is a hardening by means of UV (ultraviolet) radiation, the components of Binder in particular monomers, prepolymers and a photoinitiator turned out to be appropriate to have. Irradiation by means of UV light leads to disintegration Photoinitiators in highly reactive radicals. The energy gained this radical is transmitted on monomers and prepolymers and triggers a sudden chain reaction in them out. Monomers and prepolymers polymerize and form a dry, hard binder while largely avoiding solvent vapors or undesirable Penetration of binder components in the carrier layer of the sheet material.

In an expedient variant, the Binder by applying electron beams and as a suitable The binder is a mixture of monomers and prepolymers pointed out, no photoinitiators are necessary. The Irradiation using high-energy electron radiation, in which highly accelerated electrons hit the initially liquid binder, leads to a sudden polymerization. In another expedient variant is a hardening by means of Infrared radiation provided. A suitable binder has an alkyd resin / oil varnish mixture dissolved in mineral oil is advantageous as constituents on. Quartz emitters have proven to be useful as the radiation source, that emit energy in the range of 1000 to 35,000 nm wavelength. Thereby reliable curing of the binder can be achieved with little technology. It can also be curing the binder can be very useful in terms of drying, the binder being supplied by heat curable is. Hard resins in particular are constituents of the binder provided that are dissolved in low-boiling mineral oils. The one with the desired one Sheet material provided with information and intended for fixation passes through a drying oven that holds the air surrounding the sheet material for example 160 ° C up to 200 ° C heated. The mineral oil contained in the binder evaporates very quickly, what initially leads to plasticization of the non-evaporating hard resins. A final Cooling eventually leads to an at least approximately complete dehydration and thus curing the Binder.

Embodiments of the invention are described below with reference to the drawing. Show it:

1 a schematic representation of a cross section through a sheet material according to the invention with microcapsules filled with a binder;

2 a variant of the arrangement 1 with the binder in the capsule walls and filled with color former;

3 in a schematic representation an arrangement for storing information on a sheet material according to the 1 or 2 ;

4 an arrangement for fixing the after 3 information applied in the sheet material by means of radiation;

5 a variant of the arrangement 4 with a heating device for curing the binder in the microcapsules.

1 shows a sheet material in a schematic sectional view 1 , which is an example of a carrier layer 12 made of paper 11 with a coating 3 includes. Instead of paper 11 a plastic film or the like can also be provided. The coating 3 comprises a coating material 13 in which fine voids 2 in the form of microcapsules 6 are stored. Instead of the microcapsules 6 can also have fine voids 2 by forming a crystalline structure in the coating 3 be educated.

The microcapsules 6 are with a binder 5 and with at least one magnetically activatable particle 4 filled with the binder 5 in the initial or original state, which is referred to below as the idle state, is essentially liquid. Here are the particles 4 inside the microcapsules 6 in the liquid binder 5 floating with any random orientation. Instead of the magnetically activated particles 4 electrically activatable particles can also be provided.

At the in 2 shown variant of the arrangement 1 is the binder 5 in a capsule wall 7 of the microcapsules 6 contain. Here are the microcapsules 6 next to the particles 4 with another liquid 24 filled. The liquid 24 can be, for example, a color former for a so-called carbon copy. It is provided that the microcapsules 6 burst under the pressure of a ballpoint pen, for example, and the released, initially colorless color former in conjunction with a color developer leads to a visible shot. The exemplary embodiment is identical in the remaining features and reference numerals 2 with the after 1 match.

3 shows in a schematic arrangement shown a device for applying information 9 on the flat sheet material 1 to 1 or 2 , The sheet material 1 is from one around an axis of rotation 15 stored role 14 deducted and in the direction of an arrow 21 along a pad 16 guided.

At its the role 14 opposite end is the sheet material 1 partially shown in perspective, accordingly the surface of the sheet material 1 in an area with the coating 3 ( 1 and 2 ) and a free area 20 is divided. The sheet material 1 can also cover the entire surface 3 be provided.

When guiding the sheet material 1 along the pad 16 the magnetic extinguishing head is first guided past 17 to demagnetize any unwanted premagnetization of the particles 4 ( 1 and 2 ). In the direction of the arrow 21 indicated relative movement is then sequentially a magnetic write head 18 and a magnetic control read head 19 arranged. The magnetic erase, write and control heads 17 . 18 . 19 are transverse to the direction of movement of the sheet material 1 arranged and span the sheet material 1 across its entire width.

As an example of a filed information 9 in the area of the coating 3 the letter A is indicated and by means of the magnetic writing head 18 through precise alignment of the floating particles 4 in the microcapsules 6 ( 1 and 2 ) in the coating 3 generated. To align the particles 4 is by means of the print head 18 a magnetic field 10 generated in which the premagnetized particles 4 Align along the field lines.

For storing information 9 in the sheet material 1 can pre-magnetized particles 4 in the microcapsules 6 ( 1 and 2 ) can be provided, which are aligned in the magnetic field. It can also be expedient to provide ferromagnetic or thermomagnetic materials for the magnetically activatable particles, no premagnetization being provided or any premagnetization possibly present using the extinguishing head 17 is deleted and causing magnetization and alignment of the particles 4 through the magnetic field 10 in the area of the magnetic print head 18 he follows. Furthermore, the particles can be provided 4 as electrically activated particles 4 to train, for example by means of an electrostatic write head 18 an electrostatic field 10 is generated in which the particles 4 to generate the information 9 align.

The information 9 is in the in 3 shown state by reorienting the particles 4 can be changed, overwritten or deleted. The information 9 can be visually visible or, for example, as an analog or digital watermark invisible in the sheet material 1 be filed, with legibility of the information 9 is given by suitable magnetic or electrical readers.

4 shows one of the in 3 shown device switchable device for permanently fixing a to the sheet material 1 applied information 9 , For this purpose, the sheet material is provided 1 in the direction of the arrow 21 along a pad 16 respectively. In the area of the pad 16 is a source of radiation 22 provided by means of which the sheet material 1 accordingly by the arrow 8th indicated can be irradiated. The binder 5 in the sheet material 1 after the 1 or 2 is curable by the radiation. In the hardened state of the binder 5 are the particles 4 in their, by means of the device 3 applied orientation fixed unchangeable. The information applied 9 is therefore unchangeable or cannot be deleted in the irradiated area. The coating 3 can be completely or only in individual areas by means of the radiation 8th be fixed. If the sheet material is run through several times 1 through the in 4 shown device can also sequentially several sub-areas with information 9 be fixed. The radiation source 22 generates ultraviolet radiation in the exemplary embodiment shown. To do this, the binder 5 in the sheet material 1 after the 1 and 2 as constituents monomers, prepolymers and a photoinitiator. The radiation source 22 can also generate electron beams using the binder 5 comprises monomers and prepolymers as constituents. In an alternative embodiment, the radiation source generates 22 In infrared rays. The sheet material 1 after the 1 or 2 expediently has a thermoreactive binder 5 whose components comprise an alkyd resin-oil varnish mixture dissolved in mineral oil. The named variants of the binder 5 can be supplemented with other components if necessary. At the in 5 shown variant of the arrangement 4 is in the area of the pad 16 a heater 23 provided by means of which the sheet material 1 for fixing the binder 5 ( 1 and 2 ) or the particle 4 can be heated. The binder 5 is by supplying heat by means of the heater 23 curable. The binder has components 5 expedient hard resins, which in low-boiling mineral oil len are solved. The binder 5 may have other components if necessary.

Claims (12)

Flat sheet material ( 1 ) with a fine voids ( 2 ) coating ( 3 ), where in the fine cavities ( 2 ) electrically and / or magnetically activatable particles ( 4 ) are floating, characterized in that in the area of the particles ( 4 ) a liquid which is essentially liquid at rest to fix the particles ( 4 ) hardenable binder ( 5 ) is provided. Sheet material according to claim 1, characterized in that the cavities ( 2 ) as microcapsules ( 6 ) are formed, the binder ( 5 ) in the microcapsules ( 6 ) is included. Sheet material according to claim 2, characterized in that the microcapsules ( 6 ) with the binder ( 5 ) and at least one particle ( 4 ) are filled. Sheet material according to claim 2, characterized in that the binder ( 5 ) in a capsule wall ( 7 ) the microcapsule ( 6 ) is included. Sheet material according to one of claims 1 to 4, characterized in that the binder ( 5 ) by means of radiation ( 8th ) is curable. Sheet material according to claim (5), characterized in that the binder ( 5 ) can be cured by means of UV radiation and has in particular monomers, prepolymers and a photoinitiator as constituents. Sheet material according to claim 5, characterized in that the binder ( 5 ) can be hardened by supplying electron beams and in particular has monomers and prepolymers as constituents. Sheet material according to claim 5, characterized in that the binder ( 5 ) is thermoreactive and curable by means of infrared radiation, the binder ( 5 ) has, in particular, an alkyd resin / oil varnish mixture dissolved in mineral oil as constituents. Sheet material according to one of claims 1 to 4, characterized in that the binder ( 5 ) can be hardened by the application of heat, the binder ( 5 ) has hard resins dissolved as constituents, especially in low-boiling mineral oils. Procedure for applying information ( 9 ) on a flat sheet material ( 1 ) with a fine voids ( 2 ) coating ( 3 ), where in the fine cavities ( 2 ) electrically and / or magnetically activatable particles ( 4 ) are floating, in which the particles ( 4 ) according to a desired information pattern an electrical or magnetic field ( 10 ) exposed and according to the field ( 10 ), characterized in that, if necessary, a in the area of the particles ( 4 ) provided, at rest essentially liquid binder for fixing the particles ( 4 ) is specifically cured. A method according to claim 10, characterized in that the curing by irradiation ( 8th ) he follows. A method according to claim 11, characterized in that the curing by heat he follows.