CH694188A5 - biod'gradable card. - Google Patents

Description

       

  



   The present invention relates to the field of cards, in particular credit cards, identification cards, smart cards, multimedia cards or "contactless" cards with or without magnetic strip.



   Today, many human activities are characterized by the use of such cards. As an example, we can cite plastic money, the use of which is more and more frequent.



   The cards of the prior art are made from plastic, for example polyvinyl chloride (PVC) or resin formed from a mixture of a copolymer of styrene and acrylonitrile with a copolymer of butadiene and acrylonitrile (ABS).



   However, all of these materials have the drawback of not being able to degrade quickly. This problem is all the more important by the fact that a large part of the cards has only a relatively limited lifespan, this results in a production of considerable waste which increases the pollution of our planet.



   Although there are recycling methods for prior art cards, these are however expensive and often complicated to implement. Furthermore, when a recycling is carried out, it is a question of providing a system for recovering used cards, which does not happen without difficulties.



   The cards of the state of the art can also have the disadvantage of releasing chlorine during their degradation or during their recycling.



   The present invention offers the great advantage of remedying the aforementioned problems by producing a card on the basis of a new biodegradable material. According to a preferred embodiment of the invention, the card degrades by microbiological process, for example according to a process similar to that which occurs in a compost.



   A particularly advantageous embodiment of the invention is characterized by the use of a mixture of vegetable fibers and of glue in the form of granules. In addition to the fact that the card thus obtained can be discarded without causing unnecessary waste or easily recycled, it is possible to give it sufficient rigidity to allow its introduction into slots of devices such as cash dispensers or control devices.



   The card is also insensitive to cold, heat, humidity and waterproof.



     Among the naturally renewable vegetable fibers which can be used in the present invention, mention may be made of Chinese reed fibers, the latter having the advantage of being able to be cultivated in large quantities in temperate regions such as in Europe.



   Preferably, fibers are used, the length of which will be relatively small, which ensures good homogeneity of the mixture forming the card while giving the latter sufficient flexibility. The homogeneity of the mixture comprising the fibers results in an optimal life of the card.



   The card according to the invention can of course be printed. It can also include an electronic component, an EAN code or any other additions similar to those of the prior art.



   Briefly summarized, with the exception of its biodegradable properties, the card according to the invention has an aspect similar to those of the state of the art.



   Another advantage, the card can be produced with already existing machines.



   The fields of application of the invention are multiple, the list below is not exhaustive: - access and identification - health - insurance - additional services - pay-TV - telecommunications - telephony - public or private transport - banks - shops



   In the following text, we will describe some examples of how a card according to the invention can be made.



   In general, the process is carried out according to the following stages: Preparation of the fibers, production of granules and production of the card itself. Fiber preparation



   This step can be done using a worm screw, according to the hammer system or by traditional grinding.



   The length of the fibers will be determined according to the use of the card.



   Preferably, the fibers undergo a preliminary dusting and drying, with hot air for example. Manufacturing the granule mixture



   Once prepared, the fibers are mixed with the new biodegradable material based on glue and plasticizer.



   The glue and the plasticizer are also biodegradable. For example, the adhesive may be based on unplasticized cellulose acetate and the plasticizer based on triacetin, the percentage of the mixture between these two components being determined according to the use of the card.



   In the fiber / glue / plasticizer mixture, the proportion of fibers will be determined according to the use of the card. The higher the proportion of fibers, the better the homogeneity and rigidity of the finished product. The mixture thus obtained also becomes waterproof.



   Premium quality granules are obtained by using a cube press. Note that this method is particularly suitable for relatively high industrial production. Map creation



   For a similar realization to plastic or thick cardboard, the laminating method of the granules can be applied in order to obtain plates of standard dimensions suitable for use on machines of the offset, flexography or typography type for their impression. The format, thickness and smooth appearance obtained by rolling allow a first quality impression. This process applies particularly well in the case of production of cards in large quantities.



   A pressure process can also be envisaged.



     The injection process turns out to be particularly recommended for the present invention, and this for both production in large and in small quantities. A state-of-the-art machine injects the granules into a mold designed to produce two pairs of raw cards according to defined standards and dimensions, a high temperature not to be exceeded, or possibly for a few seconds, in order to preserve the qualities of the biodegradable base material.



   On the same production line, if necessary, the machine integrates the electronic component almost simultaneously by molding. Biodegradable labels, printed and precut to the required standards and dimensions, are finally heat-sealed on one or both of the card surfaces.



   The methods for producing the stickers can be very similar to those used in the prior art, in particular in the graphic arts industry. With the injection process described above, the stickers are pre-printed either from traditional printing machines, or from digital or digital printing machines according to methods commonly used in those of the prior art. The stickers are then cut with a cookie cutter according to methods commonly used in the prior art to be finally placed in loaders in order to be heat-sealed on the plates of the injection chain. Note that at this stage, the cards are already molded to their final dimensions, no additional cutting is therefore necessary.



   The programming methods for electronic components and or magnetic tapes, as well as their implantation methods, are identical to those of the prior art.



   It goes without saying that the invention is not limited to the embodiments of the card described above. Any process allowing a biodegradable card to be obtained can be envisaged.



   Finally, note that the invention can be applied to cards of any size.


    

Claims (5)

1. Card, such as smart card, credit card or multimedia card, characterized in that it is made of biodegradable material. 2. Card according to claim 1, characterized in that it is biodegradable by microbiological process. 3. Card according to one of the preceding claims, characterized in that it comprises a mixture of natural vegetable fibers and glue. 4.  Method for manufacturing a card according to one of the preceding claims, characterized in that plant fibers prepared by mechanical grinding are taken, according to the hammer system or with an endless screw, said fibers being mixed with a glue to form a homogeneous mixture which is reduced in the form of granules, the said granules serving as material for forming the raw plate of the card. 5. Method according to the preceding claim, characterized in that the homogeneous mixture of granules is injected or laminated to form the raw plate of the card, an electronic component is optionally integrated into the raw card.