The present invention relates to a method for manufacturing a data carrier, and to a processing apparatus with which a data carrier can be manufactured.
A “data carrier” as intended by the invention is understood to be, inter alia, a bank card, in particular a credit card, an identification card, an advantage card and/or an admission ticket, with all these cards having in common that they are capable of storing data. Basic information on the nature, construction and possible applications of data carriers is found in the book “Handbuch der Chipkarten” (“Smart Card Handbook”) (Rankl/Effing, 5th edition).
In the prior art there are known a multiplicity of manufacturing methods for portable data carriers. Said methods relate to different embodiments and possible designs for data carriers, in particular chip cards.
WO 2013/041808 A1 relates to a method for coloring an edge of a stack comprising a multiplicity of data carriers. In said method, a color layer is applied to a data carrier's circumferential card by means of a powder coating device and thereupon dried by means of a heating device.
U.S. Pat. No. 5,888,624 discloses a device by means of which a colored lacquer can be applied to a data carrier's circumferential card. The data carriers can be lacquered individually or in stacked form. Thereupon the data carriers are likewise dried.
Said methods are disadvantageous in that they are relatively elaborate to integrate into a card manufacturing process. For it is always necessary that a punched-out and/or injection-molded data carrier is removed from the fabrication process individually or in stacked form after manufacture and is furnished with a color layer in a further fabrication station.
Further, it is known, as an alternative to merely coloring a data carrier's edge or rim, to laminate the data carrier from a multiplicity of foils, with the individual foils of the foil stack being configured in the desired edge color. This method has the disadvantage of increasing the storage costs in a card manufacturing facility, since a multiplicity of foils in different colors must be held in stock. Further, colored foils are not advantageous upon subsequent printing because they must first be decolorized before printing in order to achieve an optimal printing result. Further, occasional cases are known in which the coloring materials employed in the colored foils have an adverse effect on the data transfer rates of contactless data carriers.
The invention is based on the object of providing a data-carrier manufacturing method and processing apparatus that solves the known problems from the prior art and is suitable for providing a simple possibility for applying color to a circumferential edge of a data carrier.
This object is achieved by a data-carrier manufacturing method according to independent claim 1 and by a processing apparatus according to independent claim 7. Preferred embodiments of the data-carrier manufacturing method according to the invention and of the processing apparatus according to the invention result from the subclaims.
The invention is based on the idea of simplifying the application of color to the circumferential edge of a data carrier such that the application of color can be effected in one step with the punching of the data carrier out of the data-carrier sheet.
Accordingly, a data-carrier manufacturing method according to the invention comprises forming a data-carrier sheet, with the dimensions of the data-carrier sheet being greater in at least one dimension than a data carrier to be manufactured, punching the data carrier out of the data-carrier sheet by means of a punching device having a male punching unit (swage) and a female punching unit (die), with the female punching unit bearing a color applying device which interacts with the male punching unit such that an application of color to a data-carrier edge of the punched data carrier is effected upon punching out the data carrier and/or upon discharging the data carrier from the female punching unit.
A punching device is understood to be any kind of device that is suitable for punching a data carrier out of a data-carrier sheet. The punching-out operation is described in the book “Vom Plastik zur Chipkarte” (“From Plastic to a Chip Card”) (Carl Hanser Verlag; Yahya Haghiri, Thomas Tarantino, 1999, chapter 3.1.1). Further shearing and punching methods according to DIN 8588 are described in the book “Dubbel—Taschenbuch für den Maschinenbauer” (“Dubbel—Mechanical Engineering Pocketbook”) (21st edition, Springer-Verlag) in chapter S.4.5.
Instead of the term “punching”, terms like cutting, shear cutting, knife-edge cutting, pinch cutting, splitting, tearing and/or breaking can also be alternatively employed. However, the terms “shear cutting” and “punching” suitably render the operation according to the invention by which at least one individual data carrier is detached from a data-carrier sheet.
With the method according to the invention it is especially advantageously possible to furnish the circumferential data-carrier edge of the freshly punched data carrier with color directly upon the working step of punching out the data carrier and/or upon discharging the data carrier from the female punching unit. This advantageously makes it unnecessary to transfer the data carrier to a separate work station in which an application of color is effected. With the method according to the invention the necessary step of discharging the punched data carrier from the female punching unit can be advantageously utilized for furnishing the circumferential edge with color. This makes it possible to do without employing previously colored foils upon forming the data-carrier sheet when said foils mainly serve the purpose of the data carrier's circumferential edge being colored. Therefore, the elaborate step of decolorizing the data carrier's upper side before printing is no longer required. Further, particularly upon processing a data carrier with a contactless interface, the data-transfer properties of the data carrier are retained, since the data transfer rate of the contactless interface can be reduced upon coloring the foils. Further, coloring the data-carrier edge makes it possible to do without holding in stock a multiplicity of differently colored data-carrier foils, thereby reducing storage costs.
According to one embodiment, applying the color is effected by means of one or more nozzles, impregnated brushes, jet nozzles and/or sponges. In this manner it is possible to ensure a clean and uniform application of color to the data-carrier edge. Further, the employment of said devices enables a fast color change, so that it is especially advantageously possible to produce data carriers in the “lot size of one” without having to plan for long change-over times.
By means of the color applying device it is further possible that the application of color is effected along the circumferential direction of the data-carrier card in sections, wherein a different application of color can be effected in every section. In this manner it is advantageously possible to also apply different color patterns on the circumferential data-carrier edge. For example, there might be applied the colors of the data-carrier issuing company (Corporate Identity) and/or the national colors of the country from which the data carrier stems.
According to a further preferred embodiment, the color applying device is provided in the female punching unit. The color applying device can be provided immediately downstream of a cutting edge of the female punching unit, so that the application of color can be effected directly after cutting. Alternatively, the color applying device can be provided in the discharge region of the data carriers from the female punching unit. The color applying device is to be arranged in the female punching unit such that a neat and uniform application of color can be guaranteed.
The data-carrier sheet out of which the data carriers are punched can be so dimensioned that a multiplicity of data carriers can be punched out thereof.
The advantages of the invention are apparent not only in a method according to the invention, but also in a processing apparatus according to the invention comprising a male punching unit and a female punching unit, with the male and female punching units being configured for punching a data carrier out of a data-carrier sheet, with the female punching unit bearing a color applying device for applying color to an edge, in particular to a circumferential edge, of a data carrier.
With the processing apparatus according to the invention it is especially advantageously possible to apply color to a circumferential edge of a data carrier. The processing apparatus according to the invention makes it possible in a simple manner to utilize the already necessary discharging of the data carriers from the female punching unit for furnishing the data carrier's circumferential edge with color during said discharging.
According to a preferred embodiment, the color applying device is arranged in the female punching unit such that the punched-out data carrier is furnished with color by means of the color applying device upon discharging the data carrier from the processing apparatus, in particular upon discharging the data carrier from the female punching unit. In this manner a seamless integration of the color applying step into the punching operation is possible. Transferring the punched data carrier to an additional color applying station is therefore unnecessary, thereby considerably shortening the manufacture time of the data carriers and ensuring a reliable application of color.
The color applying device can be configured such that a change of the color to be applied is possible without stopping the punching device, in particular between the punching out of two data carriers.
Additionally, there can be provided downstream of the female punching unit a cleaning device which, after the applying of the color to the circumferential edge, frees the two large surfaces of the data carrier from the color that might be applied to the large areas.
Hereinafter the invention will be described with reference to
Upon punching the data carrier 4 out of the data-carrier sheet 2 the male punching unit 1 is moved in the direction of the female punching unit 3, the data carrier 4 is punched out and ejected from the female punching unit 3. Alternatively, the male 1 and female 3 punching units can be moved toward each other, or the female punching unit 3 can be moved in the direction of the male punching unit 1.
When an application of color to the edge 12 of the data carrier 4 is to be effected, the data carrier 4 is introduced in the prior art into a downstream station in which an individual data carrier 4 and/or a multiplicity of stacked data carriers 4 are coated with a color.
In the data-carrier manufacturing method according to the invention or the processing apparatus according to the invention, the coating of the data carrier 4 is effected in the female punching unit 3, as shown in
The application of color in the color applying device 5 can be effected by means of one or a multiplicity of nozzles, impregnated brushes, jet nozzles and/or sponges. Downstream of the color applying device 5 there may be a color drying device 14 and/or a UV curing device 14 for curing the color.
According to one embodiment, the application of color can be effected with the color applying device 6 in the circumferential direction along the data-carrier edge 12 in sections. The individual sections can respectively have a different color.
The color applying device 5, 6 can be so designed that it is capable of applying different colors to the edge 12 of the data carrier 4 in the circumferential direction. In this manner the data carrier can be furnished with different colors in the circumferential direction according to the wishes of the orderer/customer.
The color applying device 5, 6 can further bear a color changing device which enables a quick change of the colors. In this manner it is already possible at the “lot size of one” upon manufacture of data carriers 4 to carry out quick color changes between two consecutive data carriers 4.
Additionally or alternatively to the color changing device, there can be provided a data-carrier cleaning device which is arranged in the processing apparatus 10 and/or behind the processing apparatus 10. The data-carrier cleaning apparatus can be integrated e.g. into the color drying device 14. With the data-carrier cleaning device any excess color occurring on the two large surfaces of the data carrier 4 can be removed.
In the subsequent step S2 the data carrier 4 is punched out of the data-carrier sheet 2 by means of a punching device 1, 3 having a male punching unit 1 and a female punching unit 3. While the data carrier 4 is being urged through the female punching unit 3 due to the feed of the male punching unit 1, color is applied to a circumferential edge 12 of the data carrier 4 with a color applying device 5, 6 in a next step S3. The color applying device 5, 6 is part of the female punching unit 3. Due to the punched data carrier 4 being pushed through the female punching unit 3 at a defined feed speed, it is possible to guarantee a uniform application of color with the color applying device 5, 6 to the data carrier 4.
1 Male punching unit
2 Data-carrier sheet
3 Female punching unit
4 Data carrier
5, 6 Color applying device
8 Cutting edge of female punching unit
9 Cutting edge of male punching unit
10 Processing apparatus
12 Data-carrier edge
14 Color drying device, UV curing device
S1-S3 Method steps
Number | Date | Country | Kind |
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10 2014 007 930.9 | May 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/000995 | 5/12/2015 | WO | 00 |