FR2988509A1 - Method for printing data on plastic card by film, involves coding data present on film, and partitioning data into parts during printing step, where each part is printed on medium after medium is moved with respect to film - Google Patents

Abstract

The method involves coding data present on a film (F) during printing of data, where the data is visible on the film when the data is printed on a medium. The data is partitioned into parts during printing step, where each part is printed on a medium (C) after the medium is moved with respect to the film according to a longitudinal axis (AX) of the medium. The printing of the data is realized by transfer of heat from the film toward the plastic card. Independent claims are also included for the following: (1) a device for printing data on a medium by a film (2) a computer program product comprising instructions for implementing a method for printing data on a medium by a film (3) a computer readable storage unit for storing a computer program comprising a set of instructions to implement a method for printing data on a medium by a film.

Description

The present invention relates to a method of printing a data on a support using a film, the data being visible on the film once it has been printed on the support. One of the best known methods for printing data on a support using a film is a method based on heat transfer. The printing principle is as follows: a film (also called ribbon) passes between a heating print head and the medium to be printed. The film is usually black but can also be other colors such as gold, silver, white, etc. On heat, the ink is transferred to the support on which it solidifies. The film can only be used once and the data printed on the medium is visible on the used negative film. Fig. 1 represents an illustration of a printing process according to the state of the art. According to this illustration a data "Mr. Yvan Dupond, 123 456 789" is to be printed on a support C. This data is printed according to the principle above. The support C, once printed, is shown on the left of FIG. 1 while the used film on which the printed data is visible is shown on the right of FIG. 1. The problem solved by the present invention is that when this method is used to print confidential data, such as the name of a holder and the credit card number, these confidential data are visible and readable on the film which has been used for printing. One of the solutions for maintaining the confidentiality of these data is that during printing, the used film is deteriorated. Another solution is to transfer the remaining ink on the film on another medium so that the data are no longer visible on the used film.

Another solution, usually used for large printing entities, is to set up a binding procedure to ensure the traceability of the used film from the printing unit to a destruction unit. These solutions are unsuitable when the printing unit is more modest and the financial cost of these units is a paramount criterion.

For this purpose, the present invention relates to a method for printing a data on a support using a film, the data being visible on the film once it has been printed on the support, characterized in that it comprises a printing step at the end of which the data on the film is encoded.

The invention therefore consists in coding the data on the film so as to maintain its confidential nature. According to one embodiment, during the printing step, the data is partitioned into several parts and each part is printed on the support after moving the support relative to the film along at least one axis of this support. The number of parts, their definition as well as the displacements are process parameters which are chosen so as to obtain a compromise between printing duration and level of confidentiality which corresponds to the need. Indeed, it may be useful to have a high level of confidentiality, which implies a large number of parts and / or complicated displacements of the support after each printing of a part, which will induce an increase significant amount of printing time. In contrast, when the printing time will be a predominant criterion, little part and little displacement will be chosen. This will result in a lower level of confidentiality and faster printing.

The characteristics of the invention mentioned above, as well as others, will emerge more clearly on reading the following description of an exemplary embodiment, said description being given in relation to the attached drawings, among which: FIG. . 1 is an illustration of a printing method according to the state of the art. Fig. 2 shows an embodiment of the method according to the present invention. Fig. 3 represents an exemplary embodiment of the method according to the present invention. FIG. 4 shows another embodiment of the method according to the present invention. Fig. 5 shows an architecture of a device which implements the method according to the present invention. In general, the printing method is implemented by a device 30 included in a printer. The method makes it possible to print a data on a support using a film. The data being visible on the film once it has been printed on the support, the method is characterized in that it comprises a printing step at the end of which the data present on the film is coded.

Fig. 2 shows an embodiment of the method according to the present invention. The data to be printed is "Mr. Yvan Dupond, 123 456 789". According to one embodiment of the method, during the printing step, the data is partitioned into several parts, here four: "Yvan 456" for the first, "Mr 123" for the second, "ond" for the third and "Dup 789" for the fourth. The number and the choice of the elements of each of these parts are parameters chosen by the operator. Here, the choice of the parts implies that the displacement of the support C will be realized, during the printing only along the longitudinal axis AX of the support C. Thus, during the step of printing this data, the support It is positioned for the first part to be printed. For this purpose, the print head is raised, the support is positioned correctly in front of the head and the "Yvan 456" part is printed. The film F advances along the axis AX, the support C is positioned so that the second part is printed, in this case "Mr 123" and so on. It is understood through this example that the support C is moved after the printing of each part and that the film F advances after the printing of each part so that a strip of unworn film is present by screw to the print head for printing the next part. The support C, once printed, is shown on the left of FIG. 2 while the used film F is shown on the right of this figure. As can be seen, the data on the used film F is coded by the method in contrast to the conventional printing method (FIG 1). However, this coding is not of a high level of confidentiality and it is quite easy to find the original data. Fig. 3 represents an exemplary embodiment of the method according to the present invention. The data to be printed is always "Mr. Yvan Dupond, 123 456 789". According to this exemplary embodiment of the method, during the printing step, the data is partitioned into several parts, here seven, and the displacement of the support C is performed according to the numbers 1 to 7. Each movement therefore has a component along the longitudinal axis AX and / or along an axis perpendicular to this longitudinal axis.

As can be seen, the data on the used film F (right side of Fig. 3) is this time coded with a relatively high level of confidentiality because it is difficult to find the number and the name of the holder. Through these coding examples, it is understood that the coding can bring very high levels of confidentiality, for example by considering a part by character to be printed and / or by multiplying the displacements of the support C with respect to the print head. and to the film F so as to scramble the order of these characters on the used film F. According to one variant, more than one film is used for printing the data.

In this case, the data present on each of these films is coded according to a principle similar to that described in relation to FIGS. 2-3. Fig. 4 is an illustration of this embodiment of the method. According to this embodiment, two films F1 and F2 are used to print the data "Mr. Yvan Dupond, 123 456 789" on the support C. The data is partitioned into seven parts. Printing can be done with a single printhead or with two printheads. In the case of a single head, it is necessary to correctly position both the support C and the film F 1 or F 2 vis-à-vis the print head.

According to the example of FIG. 3, three parts of the data are printed from the film F1 and four from the film F2 according to a set of respective successive displacements 1,2,3 and 1,2,3,4. This embodiment is particularly effective in terms of confidentiality because the printed data is accessible only from the two films F1 and F2 used and this data is encoded on each of these films. In FIG. 5 is an example of an architecture of a device 500 implementing the method of FIG. 1. The device comprises, connected by a communication bus 501, very limited hardware resources in terms of capabilities which are: a processor, microprocessor or microcontroller 502; a random access memory RAM (Random Access Memory in English or Random Access Memory in French) 503; a memory 504 of type ROM (Read Only Memory in English or Memory to Read Only in French) or still flash or rewritable but remanent (such as in a USB key). The microcontroller 502 is capable of executing instructions loaded into the RAM 503 from the memory 504. When the device 500 is turned on, the microcontroller 502 is able to read instructions from RAM 503 and execute them. These instructions form a computer program which causes the microcontroller 502 to implement all or some of the methods described above in relation to FIGS. 2-4. The means 502, 503 and 504 cooperate with each other to form means for partitioning the data into a series of parts, to print these parts successively, and to move the film after the printing of each part, coding the data on a single part. film being then obtained by moving the support relative to the film. All or part of the methods described above in relation to FIGS. 2-4 can be implemented in software form by executing a set of instructions by a programmable machine, such as a DSP (Digital Signal Processor in English) or a microcontroller, such as the microcontroller 502, or be implemented in hardware form by a machine or a dedicated component, such as an FPGA (Field Programmable Gate Array) or an ASIC (Application-Specific Integrated Circuit) in English or Integrated Circuit specific to an Application in French). The printing process is preferably carried out on a support in the form of a plastic card. Preferably the printing of the data is performed by thermal transfer of the film to the plastic card

Claims (8)

CLAIMS1) A method of printing a data on a support using a film, the data being visible on the film once it has been printed on the support, characterized in that it comprises a step after which the data on the film is coded. 2) The method of claim 1, wherein during the printing step, the data is partitioned into several parts and each part is printed on the support after moving the support relative to the film along at least one axis. this support. 3) Method according to one of the preceding claims, wherein the support is a plastic card. 4) Method according to claim 3, wherein the printing of the data is carried out by thermal transfer of the film to the plastic card. 5) Device for printing a data on a support using a film, the data being visible on the film once it has been printed on the support, characterized in that it comprises means For printing purposes, the data on the film is coded after the data is printed on the medium. 6) Device according to claim 5, wherein said means are provided for partitioning the data into a series of parts, to print successively these parts, and to move the film after the printing of each part, the coding of the data on the film being then obtained by moving the support relative to the film. 7) Computer program product, characterized in that it comprises instructions for implementing, by a device according to one of claims 5 or 6, the method according to one of claims 1 to 4 when said program is executed by a device processor. 10 8) Computer-readable storage means, characterized in that they store a computer program comprising instructions for implementing, by a suitable device, the method according to one of claims 1 to 4, when said program is executed by a processor of the device according to claim 6.