Patent Grant
6888095
This invention relates to laser coding, particularly of edible materials.
Laser coding is well known; see, for example, U.S. Pat. No. 5,733,793, U.S. Pat. No. 4,906,813 and also U.S. Pat. No. 5,340,628 which seeks to contain the particles produced by ablation. These methods present a variety of problems, including difficulties in maintenance, line down-time, taint, as well as the need for extraction. More generally, the apparatus and problems of printing, i.e. ribbons, inks, solvents, maintenance, unreliability, etc., are particularly undesirable where sensitive products like foods and pharmaceuticals are packaged.
Various proposals have been made, in order to achieve effective printing without ablation, and without applying ink at the point of coding, but rather by causing a change of colour in the substrate on which the printing is to appear. Various pigments have been proposed, which can be used to mark a substrate on the application of laser energy. Some of these proposals may be found in, for example, WO-A-00/43456, JP-A-11001065, EP-A-0522370, EP-A-0797511, U.S. Pat. No. 5,053,440, U.S. Pat. No. 5,350,792 (a plastic moulding composition comprising a polyoxymethylene and animal charcoal), U.S. Pat. No. 5,928,780, U.S. Pat. No. 6,017,972 and U.S. Pat. No. 6,019,831.
On-line coding methods commonly used for the pharmaceutical, foods and confectionery industries are inkjet and thermal transfer (including hot stamping).
The present invention is based on the utility of particular materials which can undergo a colour change on the application of laser energy, and the realisation that these include edible materials which can therefore be used to mark materials intended for consumption.
According to this invention, a method for marking an object, wherein the object comprises a material including a functional group and a metal compound or acid that causes an elimination reaction on irradiation with a laser, to form a reaction product of contrasting colour, which comprises directing a laser beam on to the areas of the object to be marked.
Depending on the nature of the components that are used, and the reaction product, they may be physiologically acceptable. This means that the invention can be used in the making of foodstuffs and pharmaceutical products such as tablets and pills.
The method of the present invention overcomes the problems associated with printing, as described above. It allows significant cost savings for most normal production lines, and the opportunity to improve on the quality of the coding produced on foodstuffs and other products. Further advantages of the invention are that it can be highly reliable, involves low maintenance costs, and avoids solvents, emissions, debris and extraction. The invention provides on-line, non-contact coding, with reduced line down-time. The method of the invention can be used to replace all current coding systems, at the highest line speeds. There is no need for the purchase or stocking of materials associated with printing, and yet the quality of print can be improved. Adhesion problems and smudging can be avoided. There is no need to pierce wrapping film. Further, it is possible to code in damp conditions.
In accordance with the invention, suitable additives are provided in a coating on a solid substrate, e.g. foodstuff, including confectionery, or pharmaceutical dosage units such as a tablet or pill. Such coatings are known, and may simply be modified according to the invention by inclusion of materials which react with each other, essentially to form a dye or chromophore in situ. The product is intended for consumption or (if pharmaceutical) oral administration, in which case the additive(s) and any reaction product are edible.
In one embodiment of this invention, the additives are a polyhydroxy compound and a dehydrating agent. The latter is typically a metal salt of the type that, as is known, can be used to remove OH groups (which for the purposes of this specification are functional groups) from sugars, e.g. sucrose, starches, modified starches, cellulose, modified celluloses, etc. Examples of suitable metal salts are alkali metal, alkaline earth metal, iron oxide/salts and organometallics. Thus, for example, when heated by the application of laser energy, sucrose in the presence of MgO or FeO etc. will char. Other examples of materials that will give a colour change by dehydration (elimination of water) in the presence of a metal salt include:
Suitable metal salts for this purpose include:
In a further embodiment of the invention, the elimination reaction may comprise dehalogenation, dehydrohalogenation or deacetylation, in which case the relevant functional group is a halogen atom or carboxyl group. Examples of additives for this purpose are vinyl polymers, typically in the present of a metal salt. Suitable polymers include:
Suitable metal compounds for this purpose include:
Yet another embodiment of the invention uses additives that undergo deetherification. Thus, for example, ethyl cellulose and a metal salt will give a colour on irradiation.
The examples given above are primarily of metal salt-induced elimination. A further embodiment of the invention is acid or base-induced dehydration/dehalogenatior/dehydrohalogenatior/deacetylatiorideetherification. Thus, for example, a colour is generated using p-toluenesulphonic acid with PVOH (polyvinyl alcohol).
Based on this information, other suitable materials will be known, or can be readily chosen or tested for their suitability, by those of ordinary skill in the art.
A particular advantage of the invention is that the object to be marked may be pre-wrapped, provided that the wrapping is transparent to the applied energy; in other words, film-wrapped tablets or other such products can be printed by means of the present invention. Many commonly available wrapping films have been found to be transparent to IR laser energy, including PE, PP, PET, PVC, cellulose and cellulose acetate.
As indicated above, the or each additive may be responsive to UV or IR radiation, and any suitable materials may be used, provided that they can produce a colour change. The change may be due to the material undergoing chemical or physical change as a result of the absorption of laser energy, or as a result of that energy being converted to thermal energy. Thus, for example, polyvinyl alcohol is known as a coating ingredient; if a dehydrating agent such as p-toluenesulphonic acid is included in the coating, the application of energy can lead to conjugation and a colour change. Further examples of suitable materials include carbohydrates that can be caramelised, and a combination of ethylcellulose with calcium hydroxide. Preferably, the additive or an existing component will strongly absorb the radiation.
The space allocated on a package for the batch code, sell-by date, etc. is usually a small patch printed in a light colour to give good contrast to the (normally) black print. Using the system of the invention, this may be a white or lightly-coloured patch, which is printed with a laser-sensitive ink. On exposure to a threshold dose of laser energy, the ink changes colour to give the code. The patch may be printed down by a known printing technique, e.g. by flexo or gravure, as the packaging is made.
The object to be marked may be formulated with the additional components that allow marking. In a preferred embodiment, these components are formulated and used to coat a substrate. For application to the substrate, the material or materials used in this invention may be formulated in an aqueous or non-aqueous system, as a solution or dispersion. For coating on pills, the transparency of the coating is not usually a consideration, but the use of a solution of components may be preferred, in order to provide a clear coating on certain substrates. Since it may determine the clarity of the marking that can be achieved, coating may be done more than once, if desired.
The amounts of the components that are used in the invention can readily be chosen by one of ordinary skill, having regard to the intended use. For example, a coating composition may comprise 0.1 to 20% w/v of each component.
It has been demonstrated that, in accordance with the invention, single or multiple layers of water-based edible laser-scribable coatings can be applied to unpolished or polished tablets by a conventional tablet coating process. On top of the coating, a layer of the camauba wax can be applied by a conventional coating process without any difficulty.
Tablets coated with three or more layers of the water-based edible coatings are markable with CO2 laser and afford good quality grey/green laser marking. The coatings are laser-markable through the layer of carnauba wax.
Typically, the necessary energy will be a laser beam. For example, a print engine for an IR coding system comprises a robust, low-power CO2 laser, e.g. operating at about 10,600 nm. The laser can operate in either the dot matrix mode or continuous-wave, scribing mode. In this latter mode, improved quality of print can be obtained. Because of the low output of the laser, highly reliable, approaching maintenance-free, operation is offered. The system can operate in a scribe mode, and coding onto moving lines at up to 200 m/min is possible. For higher speeds than this, dot matrix printing is suitable.
The system can be used for coding through packing film, or coding into film laminates. A low-power laser ensures that puncturing does not occur.
The following Examples illustrate the invention.
Materials etc are shown in the following Table. Those of Examples 9 to 12 are particularly suitable for use as an edible composition.
In each case, a lacquer was mixed, coated and dried before marking with a CO2 laser, using a beam of 0.3 mm diameter and scan speed of 1000 mms−1. Vinnol is a vinyl chloride/acetate copolymer supplied by Stort Chemicals. Vycar is a copolymer of vinyl chloride and an acrylic acid supplied by Goodrich.
100 g sodium carboxymethylcellulose was added portionwise to 2000 g water, with stirring. Once the addition was complete, stirring was continued until complete dissolution of the polymer was achieved.
100 g MgCl2.6H2O was added portionwise to the polymer solution. After the addition was complete, the mixture was stirred for approx. 10 min, to give a coating solution. 2 kg tablets were charged into a coating pan. The coating pan containing the tablets was rotated at constant speed, and then the tablets were warmed up to 50° C. using a hot air dryer.
For a first coating layer, 10 ml of the coating solution was added and the coating pan was allowed to rotate at constant speed and ambient temperature for approximately 10-15 minutes. The coated tablets were warmed to approximately 50° C. with a hot air dryer whilst the pan was rotated at constant speed. A 200 g sample of the coated tablet was taken. Using two more 10 ml volumes of the coating solution, the coating procedure was repeated twice.
Laser marking of the coated tablets was investigated using a 10 W Alltec CS smart carbon dioxide laser. Parameters used for the marking of the tablets are presented below:
A reasonable dark greylgreen image was obtained.
The procedure of Example 13 was repeated, except that the tablet was polished, i.e. a final coat of wax was applied by the addition of 805 mg of a 50% ethanolic solution of camauba wax to the coating pan. Again, a reasonable dark grey/green image was obtained. The same result was obtained if the tablet was polished underneath, i.e. if the coating of laser-sensitive material was on top of a coating of carnauba wax.
The procedure of Example 13 was repeated, but using a solution obtained from 30 g sodium carboxymethylcellulose, 30 g MgCl2. 6H2O and 400 g water. A good grey/green image was obtained, with or without polishing (as described in Example 14).
The procedure of Example 13 was repeated, but using a coating solution obtained by adding 750 g Vinnol 14/36 portionwise to 1500 g 2-butanone (MEK) with stirring, until the addition is complete, followed by stirring until dissolution of the polymer is complete, followed by the addition of 150 g zinc oxide portionwise with stirring, and for 30 minutes after addition is complete, to disperse the zinc oxide uniformly. Laser marking gave a dark black image.
| Number | Date | Country | Kind |
|---|---|---|---|
| 01049592 | Feb 2001 | GB | national |
| 01149772 | Jun 2001 | GB | national |
This application is a National Stage Application of International Application Number PCT/GB02/00862, published, pursuant to PCT Article 21(2).
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCTGB02/00862 | 2/27/2002 | WO | 00 | 2/10/2003 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO0206820 | 9/6/2002 | WO | A |
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