BE1019219A3 - DEGRADABLE PAYMENT, PROOF OR PROMOTIONAL. - Google Patents

Abstract

This invention relates to a means of payment, proof or promotion, such as a token, a token, a card, a voucher, a ticket, a wristband or a badge, mainly consisting of a biopolymer or of a mixture of two or more different biopolymers, preferably from a blend of at least one natural biopolymer, such as a starch or cellulose-based biopolymer, and at least one synthetic biopolymer, such as a polylactic acid-based biopolymer. Such a product is readily biodegradable in natural conditions and sufficiently durable for the intended use.

Description

DEGRADABLE PAYMENT, PROOF OR PROMOTIONAL

This invention relates to a payment, proof or promotional means. This term must be interpreted broadly in the context of this patent application. Among other things, this means any element - such as a token, a token, a card, a voucher, a ticket, a wristband or a badge and the like - that has been implemented in such a way and / or bears such signs or data that it can be used and is recognizable - as a means of payment with a certain monetary value, such as, for example, plastic tokens that can be purchased in advance with which drinks can be purchased during an event, or - as evidence that the holder is entitled to a certain product or a certain has made certain payments or is a member of a certain organization, such as an admission ticket, a card with which prepaid goods can be collected, a proof of payment, a customer card, a membership card, or as proof of delivery and / or deposit, such as from a vehicle in a parking garage, from luggage in a luggage storage facility or from clothing in a cloakroom, whether or not provided with a sign identification of the good and / or the place of storage, or - as a means of proof to identify a person, an animal or a product, such as, for example, proof of identity or a product card or label with product details that relate, for example, to the price , the origin, destination or quality (s) of a certain product, or as a promotional tool, such as any information carrier for creating publicity, such as an advertising brochure or flyer.

The above list illustrates the broad field of application of the present invention, but is of course not to be considered as limitative. Of course, multiple functions can also be combined in the same product. For example, a payment method or a means of proof can also contain a brand name, a logo or a promotional message.

Such means of payment, means of proof and promotional means are well known. They are usually designed as a strip, a band, a leaf-shaped element or a rectangular or disc-shaped element with a relatively small thickness that is made from an inexpensive material, such as plastic, or paper or cardboard on which a plastic cover has been applied. The necessary information is printed on this carrier or made visible in the surface by relief.

Generally, the use of this type of payment, proof or promotional means is limited in time. These means of payment often refer to a use limited to the purchase of specific products (eg drinks) during a certain event and / or within a specific zone, such as during a music festival or a sports event or within the walls of an amusement park . In many cases, means of proof, such as a wristband, an admission ticket or a parking ticket, are also provided for single use. The same naturally also applies to promotional means.

At the end of the event or outside the user zone, the payment or evidence that has become worthless is thrown away in nature or ends up in the filling. Promotional means are also often thrown away. The plastics pollute the environment or burden the environment in waste processing.

It is an object of this invention to overcome this drawback.

This object is achieved by producing such a payment proof or promotional means from a biopolymer or from a mixture of two or more different biopolymers.

A biopolymer is a plastic that is mainly made from raw materials that occur in nature. They are also called "bioplastics." Almost all biopolymers degrade in nature or are compostable in industrial composting plants. They come from nature and are broken down naturally. This is how a cycle is formed and we speak of renewable resources.

The raw material used can be an agricultural agricultural product, such as potatoes, corn, rice, wheat or wood. Often residual and secondary flows are also used. For example, process water from the paper industry, residual flows from the food industry or by-products from sugar cane production. The natural source is therefore a form of biomass.

The biomass must be converted into polymers or monomers before the basic material, the granulate grain, can be made from it. There are all kinds of well-known physical, chemical and / or biotechnological conversion processes for this. The type of raw material and the conversion process determine which type of plastic is obtained and what its specific characteristics are.

In addition to the biopolymers that are directly extracted from biomass (wood, rice, maize, wheat, potatoes) and that are based, for example, on starch or cellulose, there are also biopolymers that are produced directly by bacteria, yeasts or plants (PHA). Both types of biopolymers are considered "natural biopolymers" in the context of this patent application.

Furthermore, there are also biopolymers that are not directly extracted from biomass. An important type is based on lactic acid and is called "Poly Lactic Acid" (abbreviated as PLA) or polylactic acid. Polylactic acid is formed by chemical synthesis. In particular, it is polymerized from the monomeric lactic acid, which is produced by fermentation of sugar carbohydrates. Polylactic acid is produced from, for example, sugar cane. It is biodegradable in industrial composting installations. These biopolymers are therefore also produced from natural renewable raw materials, but a chemical treatment is required to form the biopolymer. Their production is harmless to the environment. We call these biopolymers here "synthetic biopolymers".

In addition, there are also petroleum-based synthetic biopolymers (compostable polyesters), which are also biodegradable and / or compostable. Since petroleum is not a renewable raw material, it is disputed whether they can be included in the biopolymers. In the context of this patent application, however, biodegradability is the decisive feature so that these polymers are also considered here as synthetic biopolymers.

The processing of biopolymers into semi-finished products (for example a granulate) or end products takes place in the same way as with conventional plastics, and the same or comparable production techniques are used, such as injection molding, (blow) extrusion and thermoforming.

Depending on the requirements that are set for the (end) product and the process-technical processing, materials are combined and, among other things, additives, fillers or additives are added. For example, it may be necessary to add substances that increase the mechanical strength. For example, fibers can be added. Fabrics or products that change the appearance of the product, such as colorants, can also be added. The added colorants are preferably "bio-colorants". Of course, the above list is not exhaustive.

Furthermore, for the scope of this invention, it is also important that products made from biopolymers are non-toxic and can be printed well via the generally used printing techniques.

In a preferred embodiment, the payment, proof or promotional means consists essentially of a mixture of at least one natural biopolymer and at least one synthetic biopolymer.

Natural biopolymers have the property of being biodegradable very quickly. The biodegradation process starts as soon as CO2, water, bacteria and sunlight are present. For the scope of this invention, it is desirable that the payment, proof, or promotional means not begin to biodegrade biologically under the influence of accidental environmental conditions at a time when it should still be able to be used. The speed at which biodegradation takes place is therefore somewhat limited for a number of applications, but this should not be at the expense of the extent to which the product is biodegradable. In other words, the complete biodegradability must remain guaranteed.

This problem is solved by using a blend of a natural biopolymer and a synthetic biopolymer. Synthetic biopolymers have the property that they are very slowly biodegradable in natural conditions or can only be biodegradable in industrial composting plants. A product that consists almost entirely (100%) of synthetic biopolymer, in other words, would not be biodegradable or very slowly if it ends up in nature.

With a mixture of a rapidly degrading natural biopolymer and a more difficult biodegradable synthetic biopolymer, a product can be obtained whose biodegradability lies between the two extremes. Since the mixing ratio determines the interruption speed, the mixing ratio can be determined in function of the desired interruption speed. Of course, one must take into account the duration of use and the circumstances in which the product will be used. When determining the mixing ratio, the total cost price must also not be forgotten. Natural biopolymers will, after all, usually be cheaper than synthetic biopolymers.

The blend preferably comprises, as a synthetic biopolymer, a synthetic biopolymer based on a polylactic acid (PLA) or on a compostable polyester. A known polylactic acid is, for example, the product Ingeo 3051D.

In a more preferred embodiment, the blend comprises a natural starch or cellulose-based biopolymer.

The said mixture preferably comprises at least 10% by weight (% by weight) of natural biopolymer. It is best to take at least 30% by weight of natural biopolymer. For most applications, an amount of natural biopolymer between 50% and 90% by weight is indicated. In a highly preferred embodiment, the mixture is provided with between 60% and 80% by weight of natural bio-polymer, with between 65% and 75% by weight. % is the most preferred. About 70 wt. Natural biopolymer is ideal for the field of application of this invention, in particular for obtaining a proof of payment or promotion that on the one hand is sufficiently durable but on the other hand still biodegrades fairly quickly when it enters nature.

The payment, proof or promotional means can be implemented as a hard and relatively thin element, preferably in the form of a ticket or a disk, such as a disk-shaped payment coin or token. It is preferably provided on at least one side with information signs which are arranged in or on the material and / or comprises an electronic data carrier. This information may, for example, relate to the value of the payment means, may identify a product, person or animal or may be of a publicity nature. The information can be in the form of numbers or characters or in the form of a code. This can be, for example, a color code, a bar code, or a QR code. The information may be printed on it or applied to the plastic material in any other way, for example by relief.

The information can also be stored in electronic form on an electronic data carrier, such as a chip (for example an RFID chip) that forms part of the payment, proof or promotional means. Reading the information is of course done with known reading equipment.

A biodegradable chip according to the present invention is produced, for example, by applying an injection molding process in a mold at a processing temperature between 130 ° C and 170 ° C, using as raw material a granulate that is approximately 70 wt. % starch-based biopolymer made from potato starch from the potato processing industry, and about 30 wt. % polylactic acid.

A granulate with the above composition is for example the product Solanyl C 1201 (from the company Rodenburg Biopolymers B.V) with a density of approximately 1.3 g / cm 3 and a melting point of approximately 130 ° C to 140 ° C. During manufacture, the biopolymer is conditioned to a moisture content where the melting behavior and flow properties of the product are adapted to the injection molding process to be used.

A bio-dye compatible with this can be added to this granulate, for example a masterbatch based on carrier systems and pigment choices that meet the compostability standard EN 13432.

Claims (9)

Payment, proof or promotional means, characterized in that it mainly consists of a biopolymer or a mixture of two or more different biopolymers. Payment, proof or promotional means according to claim 1, characterized in that it consists essentially of a mixture of at least one natural biopolymer and at least one synthetic biopolymer. Payment, proof or promotional means according to claim 1 or 2, characterized in that the mixture comprises a synthetic biopolymer based on polylactic acid (PLA) or on a compostable polyester. Payment, proof or promotional means according to one of the preceding claims, characterized in that the mixture comprises a natural starch or cellulose-based biopolymer. Payment, proof or promotional means according to one of claims 2 to 4, characterized in that the mixture comprises at least 10% by weight of natural biopolymer. Payment, proof or promotional means according to one of claims 2 to 4, characterized in that the mixture comprises between 50% by weight and 90% by weight of natural biopolymer. Payment, proof or promotional means according to one of claims 2 to 4, characterized in that the mixture is between 60% by weight and 80% by weight, preferably between 65% by weight. % and 75 wt. %, and most preferably about 70% by weight of natural biopolymer. Payment, proof or promotional means according to one of the preceding claims, characterized in that it is designed as a hard and relatively thin element, preferably in the form of a ticket or a disc. Payment, proof or promotional means as claimed in any of the foregoing claims, characterized in that it is provided on at least one side with information by means of signs that are arranged in or on the material and / or that it comprises an electronic data carrier.