Method for the production of a multi-layer plastic identity card

Abstract

A method for the production of a multi-layer identity card of plastic. The card to be produced comprises at least one card core layer printed on at least one side and on the printed side of the card core layer, a covering layer is applied.

Description

STATEMENT OF FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a method for the production of a multi-layer identity card of plastic.

2. Description of the Related Art

The invention relates to a method for the production of a Multi-layer identity card of plastic. Such identity cards are widely employed as check or bank cards or as an authorization means for access to mobile radio communication systems. They comprise at least one card core layer, which is printed on at least one side and a covering layer applied to the printed the side of the card core layer. These card layers are joined together in a laminating process.

The covering layer, which is usually made transparent, has an adhesive coating thereon adhering to the printed card core layer, and serves inter alia for protecting the print and also as a means bearing additional information, which for instance is applied in the thermotransfer printing method.

For the card layers—both the card core layers and also the covering layers—various different materials come into question: for instance polyvinyl chloride (PVC), polycarbonate (PC), acrylonitrile-butadiene-styrene (ABS), polyethylene terephthalate (PET, PETG and PETF). The selection of the materials and accordingly of the card structure is dependent on different factors. These factors are for instance: the desired mechanical properties of the identity card to be manufactured, its behavior at high and low temperatures, the question of printability, the question of laser inscription and furthermore economic and ecological determinants.

Dependent on which card structure is selected, different laminating parameters (temperature, pressure and time) are predicative. Same are dependent more especially on which material is utilized for the card core layers.

It is known to apply an adhesive coating (adhesive promoter, adhesive primer) on the card core layer prior to printing, which is to ensure improved adhesion of the printing ink, i.e. printing takes place on an adhesive coated card core layer and not directly on the card core layer. This procedure—printing on an adhesive coated card core layer—is more particularly necessary in the case of so-called digital printing on plastic foils. In the case of digital printing the printing image to be applied to the plastic foil to be printed is temporarily held, that is to say with the aid of selective electrostatic charges, on the printing roller. This digital printing method, which is for example employed in lasers printers, has now only been employed for a short time so far for printing plastic foils for the manufacture of identity cards. The printing inks and printing parameters applicable here are different to those in printing methods (offset litho and screen printing) employed so far in a classical manner, in the range in question, the necessity of printing on an adhesive coated card core layer being the reason.

In the case of lamination of a multi-layer identity card formed in this fashion there is the following problem in the case of relatively high lamination temperatures (over 124° C.): above a certain lamination temperature there is an undesired displacement (shift or drift) of the adhesive coatings including the printed layer sandwiched between them in relation to the covering layer and the: card core layer. Adhesive coatings customarily employed form a sort of lubricating film between the card core layer and the covering layer. This phenomenon is to be attributed to the rheological properties of the materials utilized.

BRIEF SUMMARY OF THE INVENTION

One object of the invention is to manufacture a multi-layer identity card of the type initially mentioned in such a manner that the above mentioned displacement does not take place.

In accordance with the invention adhesive coatings are employed, which contain at least one additive, which increases friction between the covering layer and the card core layer so that the formation of a lubricant film is prevented. As additives silica (SiO 2 ), silicates and calcium carbonate (CaCO 3 ) have proved to be particularly effective. The flow behavior of the adhesive coating may in this manner be favorable influenced during further use under pressure and as a raised temperature in lamination.

The adhesive coatings themselves are preferably in the form of a thermoplastic adhesive as for example on the basis of polyamides, polyesters, or polyurethanes or the copolymers thereof In this respect in one embodiment only silica or only silicate or only calcium carbonate as an additive is mixed with the adhesive formulations. In an alternative embodiment there is a provision such that a mixture of two or more additives is incorporated in the adhesive formulations. The surfaces of the additives employed may furthermore be chemically modified so that for instance embedding of the additives in the material of the adhesive coating is improved. Thus for instance in the case of the use of silica (SiO 2 ) as an additive silica with different silane coatings is employed. The silica may be in the form of naturally occurring silica such as sand, quartz or quartzite or synthetic silica.

As a silicate talcum is preferably employed. As calcium carbonate naturally occurring calcium carbonates, such as chalk or limestone or synthetically precipitated calcium carbonates come into question.

The percentage by weight of the additives in the adhesive coating amounts to at least 0.1% and at the most 60%.

The additives employed possess a comparatively large surface area related to their weight. The mobility of the chain molecules of the adhesive coating is reduced by the additives. Furthermore, there is an addition of polymer segments of the adhesive coating on the surface of the additives so that furthermore adjacent polymer segments of the adhesive coating are limited in their mobility. All in all it is possible to say that owing to the presence of the additives the theology of the adhesive coating is so altered as regards the lamination parameters that the viscosity of the adhesive coating is increased so that it is favorable as regards the present application.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates the card layers to be laminated in an exploded view between the lamination platens of a laminating press.

FIG. 2 illustrates, on a larger scale, a part with the covering layer and the card core layer.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 the card layers, shown at a distance apart from each other, will be seen between the platens 2 of a laminating press. The card structure comprises two card core layers 1 A and 1 A*, which are respectively printed on one side, and two adhesive coated covering layers 1 B and 1 B*, which have the printed card core 1 between them in a sandwich array. The interface (between the covering layer and the card core layer) which is critical for the problem with which the invention is concerned is this case therefore present twice over.

For the manufacture of the card body laminated in accordance with the invention it is preferred to employ the so-called multiple impression system—as distinguished from individual card production—so that the output rate is much greater than with individual card production. In the case of multiple impression manufacture for each card layer use is made of multiple impression sheets (printed card core sheets and adhesive coated covering layer sheets) each having a plurality of individual elements for the production of a plurality of laminated card core bodies. For this purpose the printed card core layer sheets possess a plurality of identical printed images. After lamination the individual card bodies are produced by being stamped out of the sheet. Both in individual card manufacture and also in multiple impression manufacture the layers or, respectively, sheets must be laid in register on top of each other before lamination. For the novel method it is a matter of indifference whether production is performed using the individual card method, the multiple impression method.

In FIG. 2 the section A of FIG. 1 will be seen on a larger scale. The reader will see the adhesive coating 1 B 0 on the covering layer 1 B, the adhesive coating 1 A 0 and also the printing ink layer 1 AI on the card core layer 1 A. The additives Z are present in the adhesive coating layers 1 B 0 and 1 A 0 to prevent a lubricating film being formed during lamination between the covering layers 1 B 0 and the card core layer 1 A.

The thickness of the ink layer 1 A 01 is for example between 2 μm and 4 μm. The thickness of the covering layer 1 B—without an adhesive coating 1 B 0 —will amount, for example, to between 40 μm and 50 μm. The thickness of the adhesive coating 1 B 0 on the covering layer 1 B will preferably amount to between approximately 0.1 and 20 μm. The thickness of the adhesive coating 1 A 0 on the card core layer 1 A will preferably amount to approximately 0.1 and 10 μm. The thickness of the adhesive card core layer 1 A itself amounts to approximately 300 μm.

The course of the method for the production of the multi-layer identity card is as follows: In a first step the unprinted card core layer 1 A is prepared. Then in a second step the adhesive coating 1 with the additives Z is applied all over the area of the card core layer 1 A. In this case the adhesive coating 1 A 0 is preferably distributed in a liquid form by means of rollers evenly to the card core layer 1 A. After drying and curing of the adhesive coating 1 A then in a third step printing of such adhesive coated card core layer 1 A takes place using digital printing. Following this in a fourth step the covering layer 1 B is prepared, on which as well an adhesive coating 1 B 0 with additives Z is located. In this case for the production of such adhesive coated covering layer 1 B the adhesive coating 1 B 0 is preferably applied in a liquid form by means of rollers evenly on the covering layer 1 B and then dried and caused to cure. In fifth step the card layers 1 B, 1 A 1 B* and 1 A* are placed in register on top of one another and finally, in the last step, placed in a laminating press, where they are connected together under pressure and under the action of heat.

Instead of using an adhesive coated covering it is possible to also apply only an adhesive coating with additives Z in a separate step on the printed card core layer and then on it a covering without any adhesive coating to be applied. In this case as well the application of the adhesive coating is preferably in a liquid form (for example in the form of a solvent containing adhesive formulation or as an aqueous dispersion) using rollers on the printed card core layer.

Claims

1. A method for the production of a multi-layer identity card of plastic, the card to be produced comprising at least one card core layer (1) printed on at least one side and on the printed side of the card core layer (1A) a covering layer (1B) is applied, comprising the following method steps:a) preparing the unprinted card core layer (1A), b) application of an adhesive coating (1A0) on the card core layer (1A) c) printing on the adhesive coating of the core layer (1A) d) preparing a covering layer (1B) on which an adhesive coating (1B0) is located, e) superposition of the card layers (1A and 1B) in register, f) placing the card layers (1A and 1B) in a register in a lamination press, where the card layers (1A and 1B) are joined together under pressure and under the action of heat, characterized in that adhesive coatings (1A0 and 1B0) are used, which possesses at least one additive (Z) increasing the friction between the covering layer (1B) and the printed card core (1A).

2. A method for the production of a multi-layer identity card of plastic, the card to be produced comprising at least one card core layer (1) printed on at least one side and on the printed side of the card core layer (1A) a covering layer (1B) is applied, comprising the following method steps:g) preparing the unprinted card core layer (1A), h) application of an adhesive coating (1A0) on the card core layer (1A) i) printing on the adhesive coating of the core layer (1A), j) application of a second adhesive coating (1B0) on the printed card layer (1A), k) preparing a covering layer (1B), l) superposition of the card layers (1A and 1B) in register, m) placing the card layers (1A and 1B) in register in a lamination press, where the card layers (1A and 1B) are joined together under pressure and under the action of heat), characterized in that adhesive coatings (1A0 and 1B0) are used, which possesses at least one additive (Z) increasing the friction between the covering layer (1B) and the printed card core (1A).

3. The method as set forth in claim 1 or in claim 2, characterized in that the adhesive coatings (1A0 and 1B0) have silica (SiO2) as an additive (Z).

4. The method as set forth in any one of the preceding claims, characterized in that the adhesive coatings (1A0 and 1B0) have silicate as an additive (Z).

5. The method as set forth in any one of the preceding claims, characterized in that the adhesive coatings (1A0 and 1B0) have calcium carbonate as an additive (Z).

6. The method as set forth in any one of the preceding claims, characterized in that the percentage by weight of the additives (Z) in the adhesive coating (1B0 and 1B0*) amounts to between 0.1% and 60%.