NL9201435A - CODE CARD AND METHOD FOR MANUFACTURING SUCH CODE CARDS - Google Patents

Description

Code card and method of manufacturing such code cards.

The invention relates to a code card of the type mentioned in the preamble of claim 1 and to a method according to the preamble of claim 3.

Such code cards are used on the one hand as a replacement for cash, for example as so-called tax cards for telephone calls without cash, on the other hand as an identifier, for example as a personal identification card for access control systems.

A code card of the type mentioned in the preamble of claim 1 is known from CH-PS 635 949. Machine-readable, optically coded information is then provided in the form of a phase bending grid formed by an embossing process. Invalidation of individual parts of the phase diffraction grating is done by supplying thermal energy. The code card consists of several layers, which requires a complicated manufacturing process.

It is also known (EP-A1 0 401 466) to press such phase bending grids into a layer assembly and to punch parts from this layer assembly which are pasted as security features on documents, such as proofs of identity or means of payment. With such layer compositions, visible features are in the foreground. An invalidation by supplying thermal energy is not provided here, since destruction of parts of the phase bending grid would not be consistent with the purpose of serving as a security feature.

The record carrier for code cards of the type described in CH-PS 635 949 is relatively thick in order to achieve adequate stability of such code cards. Polyvinyl chloride (PVC) is generally used as the material. Pressing structures into such thick PVC layers requires a relatively long period of time because of the heating and cooling. Code cards of the kind described in CH-PS 635 949 have long been a mass product. This has long required a need to reduce manufacturing costs.

The object of the invention is to provide code cards whose manufacturing costs have been considerably reduced. In addition, the possibility should be provided to waive the use of PVC which poses problems with the disposal of invalidated cards.

This object is achieved according to the invention by the features of claim 1. A method of manufacturing such code cards is given in claim 5. Favorable embodiments are apparent from the dependent claims.

An exemplary embodiment of the invention will be explained in more detail below with reference to the drawing. Herein: - Fig. 1 shows a code card, - Fig. 2 shows the layer structure of an information carrier strip, - Fig. 3 shows a semi-finished product from which information carrier strips can be manufactured by dividing, and - Fig. 4 shows an information distribution in the information carrier strip.

Fig. 1 shows a code card 1, which consists of a base card 2 and an information carrier strip 4 connected thereto by means of an adhesive layer 3. The information carrier strip 4 is either directly on the flat surface of the base card 2 or in an in this surface present groove of suitable width and depth glued.

Fig. 2 shows a cross-section through an information carrier strip 4. This consists of a covering layer 5, a thermoplastic first lacquer layer 6, a reflection layer 7 and a second lacquer layer 8. Bending structures 9 are pressed into the surface of the lacquer layer 6 facing the reflection layer 7, forming zones with optically coded, machine-readable information, for example, diffraction gratings, holograms and so on. The side of the lacquer layer 8 facing away from the bending structures 9 is that surface of the information carrier strip, which comes to lie on the surface of the base card 2 during the gluing process. The individual layers advantageously have the following layer thickness:

Coating 5 1 to 12 μ

Paint layer 6 1 to 2 μ

Reflection layer 7 300 to 400 A.

Paint layer 8 1 to 2 μ

The coating 5 can advantageously be a thermally stable lacquer, namely a lacquer with a high softening point. The softening point should be about 20 ° C higher than the softening point of the varnish layer 6. This is achieved with the subsequent use of the code card 1, when information that is invalidated in a device by applying thermal energy through a so-called erase head changed, the side of the surface of the information carrier strip 4 facing the erase head does not tend to stick to the erase head. This increases reliability.

The top layer 5 should be as good as possible scratch-resistant and the lacquer to be used for the manufacture of the top layer should be chosen accordingly. As shown here, the covering layer 5 is advantageously already a component of the information carrier strip 4, but it can also be applied as a separate layer in a pass subsequent to the transfer (gluing) of the information carrier strip 4 to the base card 2 and can in this case also cover the entire code card 1, therefore the information carrier strip 4 and the part of the base card 2 which is not covered by this.

The lacquer layer 6 may, for example, be an acrylic polymer lacquer, which is chosen in such a way that the mechanical stresses induced by pressing the bending structures 9 are released upon heating to 70 ° -120 ° C while destroying the bending structures 9. The reflection layer 7 can consist of, for example, aluminum, but many other materials, for example of EP-A1-0 401 466, can also be used.

The production of the layer assembly with the bending structures 9 is done in an analogous manner to the method described in EP-A1-0 401 466. It is advantageous to start from a film consisting of polyester, available as a roll, for example, and to coat it successively in a continuous process with the covering layer 5, the lacquer layer 6 and the reflection layer 7 and then applying the bending structures 9 by pressing. . This embossing or embossing can be carried out, for example, by using a press cylinder bearing a negative of the embossing of the bending structures 9 with a rotation method. The lacquer layer 8 is then applied. In this way, a semi-finished product 10 shown in Fig. 3 is obtained, which can advantageously be divided into separate self-supporting information carrier strips 4 by transverse division. The bending structures 9 are advantageously present continuously along the entire length of the semi-finished product 10, so that the location of the separation points is not critical when later separating into separate information carrier strips 4. This makes a significant contribution to reducing manufacturing costs.

It may be advantageous to omit the covering layer 5 in the manufacture of the semi-finished product 10 and to apply the covering layer 5 instead of applying the information carrier strip 4 to the finished code card 1 instead. The entire surface of the code card 1 can thus be protected with a scratch-resistant lacquer, which is particularly advantageous if the code card 1 is to be aesthetically pleasing in design by printing logos or images.

Since the foil serving as a carrier is pulled away again after gluing, it can advantageously be provided on the side to be coated with, for example, a waxy separating layer.

It is advantageous to already provide the semi-finished product 10 with an adhesive layer 3 required for later gluing to the base card 2 (fig. 1). Depending on the production facility available, it may also be advantageous to apply the adhesive layer 3. at that location of the surface of the base card 2, on which an information carrier strip 4 is to be affixed.

Fig. 4 shows the location of different information zones in an information carrier strip 4. A first zone 11 contains, for example, a general coding, with which the validity range for a special telephone company is established in the case of tax cards for making calls without cash, while in the case of an access right card the object is marked.

In order to reduce the number of variants to be manufactured, it is advantageous if general coding patterns are included in the zone 11, whereby the coding can be changed by deleting individual parts of the zone 11, so that an object-specific code is created. In order to avoid counterfeiting, an additional control coding can be generated thereby securing the coding against later changes.

A second zone 12 consists of separate, sub-ranges 13 which are mutually advantageous. For tax cards, these sub-ranges 13 may represent the separate monetary units, which are subsequently invalidated by the supply of thermal energy. In identification cards, the subranges 13 can form separate code parts, which are changed by supplying thermal energy, so that the actual coding of the card, namely, for example, the recording of personal data, can be performed by deleting individual subranges 13.

The code cards 1 according to the invention have the special feature that their production produces considerably less costs than the production of code cards according to the prior art. Because the bending structures 9 are not pressed into the map material itself, it is no longer necessary to use PVC. This gives the freedom to use other material that can be processed in an environmentally friendly manner.

Claims (9)

Code card with machine-readable, optically coded information, which is in the form of bending structures pressed in thermoplastic material and which can be changed by heating, characterized in that the code card (1) consists of a base card (2) and at least one self-supporting information carrier strip (4) which is connected to the base card (2) by means of an adhesive layer (3), each information carrier strip (4) consisting of a covering layer (5), a first lacquer layer (6), a reflection layer (7) and a second lacquer layer (8), wherein the reflection layer (7) and the adjoining surfaces of the two lacquer layers (6, 8) bear the pressed-in bending structures (9). Code card according to claim 1, characterized in that the covering layer (5) of each information carrier strip (4) consists of a lacquer, the softening point of which is approximately 20 ° C higher than that of the first lacquer layer (6). Code card according to claim 1 or 2, characterized in that the information carrier strip (4) is located in a groove arranged in the surface of the base card (2). Code card according to any one of claims 1 to 3, characterized in that the cover layer (5) covers the entire surface of the base card (2) carrying the information carrier strip (4). Method for manufacturing code cards according to any one of claims 1 to 4, characterized in that a semi-finished product (10) with zones (11, 12) is produced with optically coded, machine-readable information, which shows the layer sequence of the first lacquer layer (6), reflecting layer (7) and second lacquer layer (8), this semi-finished product (10) being divided into separate self-supporting information carrier strips (4) and these information carrier strips (4) being adhered to the surface of base cards (2) . Method according to claim 5, characterized in that the adhesive layer (3) is applied to the surface of the base card (2) before information carrier strips (4) are applied to the surface of the base card (2). Method according to claim 5, characterized in that the adhesive layer (3) is applied to the semi-finished product (10) after the application of the first lacquer layer (6), the reflection layer (7) and the second lacquer layer (8). Method according to claims 6 or 7, characterized in that the top layer (5) is applied during the manufacture of the semi-finished product (10) before the first lacquer layer (6) is applied. Method according to claims 6 or 7, characterized in that the covering layer (5) is applied after the transfer of the information carrier strip (4).