法国专利FR3049216A1 METHOD OF PROTECTING PRINTED DATA

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专利摘要:
The invention relates to a method for protecting (400) data printed on a transfer film of a thermal transfer printer for a plastic card having a print head, the protection method (400) comprising: - a first step printing (402) during which the transfer film and the plastic card advance simultaneously on a print length L0 under the print head and during which the print head heats up according to the text to be printed, a rewinding step (404) during which the transfer film is rewound on a rewinding length L0 +/- d different from the printing length Lo, and during which the plastic card is brought back upstream of the print head, - a subsequent printing step (408) in which the transfer film and the plastic card are simultaneously advancing to another print length under the print head and during printing. wherein the print head heats according to the text to be printed, and an ejection step (410) during which the plastic card is expelled from the printer.
公开号:FR3049216A1
申请号:FR1652622
申请日:2016-03-25
公开日:2017-09-29
发明作者:Didier Godard
申请人:Evolis SA；
IPC主号:

专利说明:

The present invention relates to a method of protecting printed data, as well as to a printer implementing such a method.
A thermal transfer printer, and more particularly a thermal transfer plastic card printer, comprises: a supply system that makes it possible to supply the printer with a blank plastic card, this supply system can be a system for board-to-board or multi-board tank with card separation system, - an ejection system that ejects each plastic card from the printer after printing, and - between the supply system and the ejection system, a print module for printing on the plastic card.
The printing module comprises: - a supply roller on which is wound a transfer film carrying a layer of ink to be deposited, - a recovery roller on which the transfer film is wound after the coating layer. ink was applied to the plastic card, - a print head between the supply roll and the recovery roll, and - a counter-roller disposed against the print head.
The transfer film is positioned between the plastic card and the print head.
When a plastic card is to be printed, the transfer film and the plastic card to be printed are synchronized with respect to the print head so that said plastic card and a blank area of the transfer film are simultaneously at the same level. of the print head. The synchronization is effected for example by means of position sensors which detect inter alia the front edge of the plastic card when the plastic card is moving towards the print head.
During printing, the print head heats the transfer film according to the characters to be printed, which results in transfer of the ink from the transfer film to the plastic card. As printing progresses, the plastic card and the transfer film advance simultaneously beneath the print head to print the plastic card and the transfer film is progressively wound on the recovery roller.
Characters that have been printed on the plastic card are then in negative on the transfer film. By recovering the transfer film wound on the recovery roll, it is then possible to retrieve the data that has been printed, which is unsatisfactory from the point of view of confidentiality.
An object of the present invention is to provide a method of protection that protects the data on the transfer film after printing. For this purpose, there is provided a method of protecting the data printed on a transfer film of a thermal transfer printer for a plastic card comprising a print head, the protection method comprising: a first printing step at during which the transfer film and the plastic card advance simultaneously on a printing length Lo under the print head and during which the print head heats according to the text to be printed, - a step of rewinding during of which the transfer film is rewound to a rewinding length Lo +/- d different from the printing length L0, and during which the plastic card is brought back upstream of the print head, - a subsequent step d in which the transfer film and the plastic card advance simultaneously to another print length under the print head and during which the print head heats up according to the text to be printed, and - an ejection step during which the plastic card is expelled from the printer.
Advantageously, the protection method comprises a looping step during which the subsequent printing step loops on the rewinding step.
Advantageously, the protection method comprises between the rewinding step and the subsequent printing step, a formatting step during which, if the rewinding length is less than the previous printing length, the part of the text origin that extends at the end of the text to a length equal to the difference between the print length and the rewind length is removed, and if the rewind length is greater than the print length, the original text that extends at the beginning of the text to a length equal to the difference between the rewind length and the print length is deleted.
Advantageously, the first printing step is accompanied by a substep of counting during which the number of pulses generated during the first printing is counted, and during which a number of pulses corresponding to the rewinding length is calculated, and the rewinding step is accompanied by a substep of counting during which the number of pulses generated during rewinding is counted and during which the rewinding stops when said number of pulses has reached the number of pulses corresponding to the previously calculated rewind length. The invention also provides a thermal transfer printer comprising: - a supply system for feeding the printer with a plastic card, - a supply roll on which is wound a transfer film carrying a layer of ink depositing, - a recovery roller on which the transfer film is wound after the ink layer has been applied to a plastic card, - a print head between the supply roller and the recovery roller, an ejection system making it possible to eject the plastic card from the printer after printing and a processor arranged to: control the simultaneous advance over a printing length Lo of the transfer film and the plastic card under the print head and the heating of the print head according to the text to be printed, - order the rewinding of the transfer film to a rewinding length L 0 +/- d different from the printing length Lo, and the return of the plastic card upstream of the print head, - controlling the simultaneous advance, on another printing length, of the transfer film and of the plastic card under the print head and the heating of the print head according to the text to be printed, and - to control the advance of the plastic card to the ejection system. Advantageously, the processor is arranged to, if the rewinding length is less than the previous print length, delete the portion of the original text that extends to the end of the text over a length equal to the difference between the length the rewinding length, and if the rewind length is greater than the print length, remove the portion of the original text that extends to the beginning of the text to a length equal to the difference between the rewinding length and the print length.
The characteristics of the invention mentioned above, as well as others, will appear more clearly on reading the following description of an exemplary embodiment, said description being made in connection with the attached drawings, among which: FIG. . 1 is a schematic representation of a printer according to the invention, FIG. 2 shows an architecture of a control unit of the printer according to the invention, FIG. 3 is a representation of printed elements when printing a plastic card, and FIG. 4 shows an algorithm of a protection method according to the invention.
Fig. 1 shows a printer 100 which prints by thermal transfer on a plastic card 10. The printer 100 comprises: a supply system 102 which makes it possible to feed the printer 100 with a blank plastic card, this supply system 102 may be a card-to-board or a multi-card system provided with a card separation system, an ejection system 104 which allows each plastic card 10 to be ejected from the printer 100 after printing. and - between the supply system 102 and the ejection system 104, a printing module 106 for printing the plastic card 10.
The supply system 102 and the ejection system 104 are not described further, since all known types of systems using motorized drive rollers can be used.
The printing module 106 comprises: - a supply roll 108 on which is wound a transfer film 12 carrying a layer of ink to be deposited, - a recovery roller 110 on which the transfer film 12 is wound after that the ink layer has been applied to the plastic card 10, - a print head 112 between the supply roll 108 and the recovery roll 110, and - a counter roll 114 arranged against the print head 112 to pressurize the plastic card 10 against the print head 112.
The transfer film 12 is positioned between the plastic card 10 and the print head 112.
The general operating principle of the printer 100 is identical to the operating principle of a printer of the state of the art. A plastic card 10 is picked up by the supply system 102 and driven to the print head 112, which heats the transfer film 12 according to the data to be printed, and then when the data is printed on the plastic card 10, the card plastic 10 is supported by the ejection system 104 which ejects the plastic card from the printer 100. The plastic card 10 and the transfer film 12 both move in the same printing direction 250.
Conventionally, when the plastic card 10 is to be printed, it is synchronized with respect to the print head 112, with a zone of the transfer film 12 which is blank, that is to say which has not yet passed under the print head 112. The drive of the transfer film 12 during the printing is carried out by a motor which is equipped with the recovery roller 110 and which drives said recovery roller 110 in a winding direction 14 transfer film 10 on the recovery roller 110.
In the context of the invention, the printer 100 also comprises a rewinding motor 150 which is provided to drive the supply roll 108 in a winding direction 16 of the transfer film 10 on the supply roll 108. The transfer film 12 is then driven in the reverse direction to the printing direction 250. The rewinding motor 150 acts here via a belt 154 installed between the shaft of the rewinding motor 150 and the shaft. The printer 100 also includes an angular encoder 152 mounted on the supply roll 108 and that counts the number of degrees that the supply roll 108 rotates during printing. This angular encoder 152 may take various forms such as, for example, a set of fixed teeth or holes on the supply roll 108 and disposed on the periphery of a circle coaxial with the axis of rotation of the supply roll 108, and an optical sensor that counts the number of teeth or holes passing in front of it during printing. This angular encoder 152 may also be a magnetic encoder. The angular encoder 152 conventionally delivers information relating to the number of pulses generated during the rotation, the pulses are generated by magnetic or optical elements as described above. The printer 100 also comprises displacement means 160 for moving the plastic card 10 relative to the print head 112, from upstream to downstream (printing direction 250) and vice versa. The displacement means 160 here take the form of rollers which bear against the upper face and the lower face of the plastic card 10 and which comprise a motor designed to drive the rollers in one direction or the other. Thus, depending on the direction of rotation of the rollers, the plastic card 10 moves from the supply system 102 to the ejection system 104 (printing direction 250) or vice versa. These or some of these rollers may be part of the supply system 102 and the ejection system 104 depending on their positions relative to the print head 112.
Fig. 2 shows a control unit 200 of the printer 100. The control unit 200 comprises, connected by a communication bus 202: a processor 204 or CPU ("Central Processing Unit" in English), a RAM RAM 206 ( "Random Access Memory" in English), a ROM ROM 208 ("Read Only Memory" in English), at least one communication interface 210 of the type Input / Output, allowing the control unit 200 to communicate with the different engines, the print head 112 and the various sensors of the printer 100, and possibly a storage unit 212 such as a hard disk or a storage medium reader, such as an SD card reader ("Secure Digital "in English).
The processor 204 is capable of executing instructions loaded into the RAM 206 from the ROM 208, an external memory (not shown), a storage medium (such as an SD card), or a communication network. When the printer 100 is turned on, the processor 204 is able to read instructions from RAM 206 and execute them. These instructions form a computer program causing the processor 204 to implement all or part of the algorithms and steps described below.
All or part of the algorithms and steps described below can be implemented in software form by executing a set of instructions by a programmable machine, for example a DSP ("Digital Signal Processor") or a microcontroller, or be implemented in hardware form by a machine or a dedicated component, for example an FPGA ("Field-Programmable Gate Array" in English) or an ASIC ("Application-Specific Integrated Circuit" in English).
Fig. 3 shows examples of prints that are made during the printing of a plastic card 10 by the printer 100.
The elements bearing the references 302a-c represent the plastic card 10 on which the text to be printed is printed at different stages of printing.
The elements bearing the references 304a-c represent the transfer film 12 with the part of the ink which has disappeared as a result of the printing.
The elements bearing the references 306b-c show the transfer film 12 on which one of the prints was fictitiously shifted transversely with respect to the printing direction 250 to facilitate the understanding of the invention.
When the plastic card 10 passes under the print head 112, it is printed (302a) a first time with the data transmitted by the processor 204 to the print head 112. In the example, the data is the text " 1234 5678 9012 3456 ". At the same time, the ink corresponding to the text is removed from the transfer film 12 and the text appears negative (304a). Following this first printing, the text appears in clear on the transfer film 12 on line 308a.
After the first printing, the plastic card 10 is repositioned upstream of the print head 112 by the displacement means 160 by moving in a reverse direction 350 to the printing direction 250. In the same way, the film of transfer 12 is rewound in the reverse direction 350 on the supply roll 108 by the rewinding motor 150. The rewinding is performed with an offset di in one direction or the other with respect to the reverse direction 350 (here the offset is in the direction of the printing direction 250, i.e., the transfer film 12 has been rewound less than was necessary to make the first print). The same plastic card 10 is then synchronized with respect to the print head 112 for a new printing of the same text or part of the same text. The printing, in the printing direction 250, of the new line of text is made on the plastic card 10, and the new line of text is superimposed on the line of text already printed on the plastic card 10 (302b) .
Line 308b represents the line of ink which has disappeared from the transfer film 12 during printing, it appears in negative.
Without the dummy offset applied between the lines 308a and 308b, the lines 308a-b are superimposed on a line 310b which represents what actually appears on the transfer film 12 which is then illegible.
According to a particular embodiment, to avoid consuming the portion of the transfer film 12 at the end of the text, the characters (here 5 and 6) which are offset are deleted by the processor 204, here over a length corresponding to the offset di . In addition, such deletion reinforces the illegibility of the text, especially the end of the text.
Following the second printing, the plastic card 10 is repositioned upstream of the print head 112 by the displacement means 160 by moving in a reverse direction 350 to the printing direction 250. In the same manner, the film of transfer 12 is rewound in the reverse direction 350 on the supply roll 108 by the rewinding motor 150. The rewinding is performed with an offset d2 in one direction or the other relative to the reverse direction 350 (here the offset is in the direction of the reverse direction 350, that is, the transfer film 12 has been rewound more than was necessary to make the second print). The same plastic card 10 is then synchronized with respect to the print head 112 for a new printing of the same text or part of the same text. The printing, in the printing direction 250, of the new line of text is made on the plastic card 10, the new line of text is superimposed on the line of text already printed on the plastic card 10 (302c).
Line 308c represents the line of ink that has disappeared from the transfer film 12 during printing, it appears in negative.
Without the dummy offset applied between the lines 310b and 308c, the lines 310b and 308c are superimposed on a line 310c which represents what actually appears on the transfer film 12 which is then even more illegible.
In this case, also, the characters (here 1 and 2) which are shifted below the beginning of the text can be deleted by the processor 204, here over a length corresponding to the shift d2, in order to reinforce the illegibility of the text , especially from the beginning of the text.
In the exemplary embodiment presented here, there are two shifts di and d2, but there could be more, even if at least one offset printing is sufficient, a larger number makes the text more unreadable.
In the same way, here there is an offset di in one direction followed by a shift d2 in the other direction, but they can all be in the same direction.
The value of each offset di, d2 must be small enough to prevent too much of the text from being readable. For example, in the case of line 310b, the shift di is of the order of two characters which retains the readability of the first two characters. Each offset is preferably between the width of 0.5 characters and the width of 2.5 characters, which corresponds substantially to a width of between 1.5 and 7.5 mm for characters with a height of 3 mm. and 3 mm spacing such as OCR font A Extended size 14. Of course depending on the size of the characters, a different offset can be used.
In the same way, each shift di, d2 may be a predefined value at construction, or a value generated by processor 204 at each print as a function of the height of the characters or any other variables. In general, each length is obtained after a certain number of motor pulses which make it possible to obtain this length. The displacement length due to a pulse of a motor is known by construction, and depends among others on the motor, the gears between the motor and the roller, and the diameter of the roller which drives the plastic card 10 or the film transfer 12.
To best position the transfer film 12, it is preferable to take into account the diameter of the transfer film 12 on the supply roll 108. Thus, during the different printing of the text, the processor 204 receives information from the angular encoder 152, this information, which conventionally corresponds to a number of pulses, represents the number of degrees that the supply roll 108 performs during the printing. The processor 204 can then calculate the ratio between the number of pulses No and the length Lo of the transfer film 12 having been unwound in order to print the text the first time, this ratio makes it possible to take into account the diameter of the transfer film 12 on the supply roll 108 since the number of pulses for a length varies according to said diameter. The length Lo is preferably greater than or equal to the length of the text to be printed, in particular the length Lo is sufficient to pass at least the entire plastic card 10 under the print head 112.
The processor 204 can then determine the numbers of pulses
N corresponding to the lengths of the shifts di and d2 which are respectively dx * -2- and
AT
The processor 204 then controls the rewinding motor 150 so as to rewind the transfer film 12 while counting the number of pulses generated by the angular encoder 152 and stops the rewinding motor 150 when the
N number of pulses thus counted is equal, as the case may be, to N0-dx * - or
AT
Preferably, to facilitate the rewinding of the transfer film 12, the print head 112 is raised and therefore spaced from the plastic card 10 before rewinding and is lowered at the end of rewinding. To do this, the printer 100 has an elevator 170 to which the print head 112 is attached and which is arranged to raise and lower the print head 112. The elevator 170 controlled by the processor 204 can take various forms such as for example a motor with a cam, an electromagnet ....
To avoid that the rotation of the supply roll 108 during printing generates forces on the rewinding motor 150, it is preferable to set up a disengagement between the rewinding motor 150 and the supply roll 108. The clutch is arranged to transmit a force of the rewinding motor 150 to the supply roll 108 and to prevent the transmission of forces from the supply roll 108 to the rewinding motor 150. This clutch can be electric and controlled by the processor 204. or be mechanical type clutch spring.
Fig. 4 shows an algorithm of a protection method 400 of the data printed by the printer 100, the protection method 400 comprises: a first printing step 402 during which the processor 204 controls the simultaneous advance, on a printing length L0, transfer film 12 and plastic card 10 under the print head 112 and heating the print head 112 according to the text to be printed, - a rewinding step 404 in which the processor 204 controls the rewinding of the transfer film 12 to a rewinding length L0 +/- d different from the printing length L0, and the return of the plastic card 10 upstream of the printing head 112, and - a subsequent printing step 408 during which the processor 204 controls the simultaneous advance, on another print length, of the transfer film 12 and the plastic card 10 under the print head 112 and the heating age of the print head 112 according to the text to be printed. The advance of the transfer film 12 during the first printing step 402 and the subsequent printing step 408 is performed by the engine associated with the recovery roller 110 which is controlled by the processor 204. In the same way , the simultaneous advance of the plastic card 10 during the first printing step 402 and the subsequent printing step 408 is performed by the motor of the moving means 160 which is controlled by the processor 204.
The rewinding of the transfer film 12 is carried out by the rewinding motor 150 which is controlled by the processor 204. In the same way, the return of the plastic card 10 during the rewinding step 404 is carried out by the engine of the means displacement 160 which is controlled by the processor 204.
Such a method makes it possible to shift the text which is in negative on the transfer film 12 to each printing so that the same text is superimposed at least twice in an offset manner along the printing direction 250.
Following the subsequent printing step 408, the process can be continued by an ejection step 410 in which the processor 204 controls the advance of the plastic card 10 to the ejection system 104 where the card plastic 10 is expelled from the printer 100.
As described above, following the subsequent print step 408, the process may loop (412) on the rewind step 404 to perform a further subsequent print step 408 with a different offset. The number of loops 412 can be parameterized in the processor 204, for example according to a degree of confidentiality to be achieved.
In the case of the card 302b, the rewinding length is equal to L0-di and the other print length is at least equal to L0-di. This length varies in particular depending on whether the last two characters are retained or removed, and that another subsequent print is made or that the plastic card 10 is ejected. In general, the other print length varies depending on the offset applied, whether the plastic card 10 is ejected or not. As for
Lo, the other print length is preferably sufficient to pass at least the entire plastic card 10 under the printhead 11.
The rewinding length will be determined by the processor 204 so that there is a superimposition of the prints on the transfer film 12. In the case of the card 302c, the transfer film 12 has been rewound with a length L0 relative to at its previous position (302b). The new other print length also depends on this new rewind length and the ejection or not of the plastic card 10.
As described above, it is possible to change the text between two prints. In general, when the shift di is in the direction of the printing direction 250, the processor 204 deletes the portion of the text that extends at the end of the text over a length equal to the offset di, and when the offset d2 is in the opposite direction of the print direction 250, the processor 204 deletes the portion of the text that extends to the beginning of the text over a length equal to the offset d2.
The protection method 400 then comprises between the rewinding step 404 and the subsequent printing step 408, a formatting step 406 during which, if the rewinding length is less than the previous printing length, the processor 204 deletes the portion of the original text that extends at the end of the text to a length equal to the difference between the print length and the rewind length, and if the rewind length is greater than the length of the rewind In printing, the processor 204 deletes the portion of the original text that extends to the beginning of the text to a length equal to the difference between the rewind length and the print length, the text thus modified constitutes the text subsequently printed. . This formatting step applies before each print according to the offset applied and the different offsets previously applied.
As described above in order to take into account the diameter of the transfer film 12 on the supply roll 108, the first printing step 402 is accompanied by a substep of counting during which the processor 204 : - counts the number of pulses generated by the angle encoder 152 during the first printing, and - calculates the number of pulses corresponding to the rewinding length, that is to say to the length of printing with the shift
The rewinding step 404 is then accompanied by a substep of counting during which the processor 204 counts the number of pulses generated by the angular encoder 152 during rewinding and stops the rewinding when said number of pulses has reached the number of pulses corresponding to the previously calculated rewind length.
In the same way, for the other steps, the processor 204 takes these values into account in order to calculate the number of pulses to be counted to obtain the desired length.
As stated above, between each printing step and each rewinding step, the protection method 400 includes a raising step in which the processor 204 controls the lifting of the print head 112, and between each step rewinding and each printing step, the protection method 400 includes a lowering step in which the processor 204 controls the lowering of the print head 112.
Before the first printing step 402, the protection method 400 conventionally comprises a supply step in which the processor 204 controls the supply system 102 to supply the print module 106 with a plastic card 10 to print .
Although the invention has been more particularly presented in the case where the ink of the transfer film is totally transferred during heating of the print head, it also applies in the case of sublimation printing, where the amount of ink in the transfer film that is transferred depends on the temperature of the print head.

权利要求:
Claims (6)
[1" id="c-fr-0001]
1) Method of protecting (400) data printed on a transfer film (12) of a thermal transfer printer (100) for a plastic card (10) having a print head (112), the printing method protection device (400) comprising: - a first printing step (402) during which the transfer film (12) and the plastic card (10) advance simultaneously on a printing length L0 under the print head ( 112) and during which the print head (112) heats according to the text to be printed, - a rewinding step (404) during which the transfer film (12) is rewound to a rewinding length Lo + / d different from the printing length Lo, and during which the plastic card (10) is brought upstream of the print head (112), - a subsequent printing step (408) in which the transfer film (12) and the plastic card (10) advance simultaneously on another print length below the print head (112) and during which the print head (112) heats up according to the text to be printed, and - an ejection step (410) in which the plastic card (10) is expelled from the printer (100).
[0002]
2) protection method (400) according to claim 1, characterized in that it comprises a looping step (412) during which the subsequent printing step (408) loop on the rewinding step (404) ).
[0003]
3) A method of protection (400) according to one of claims 1 or 2, characterized in that it comprises between the rewinding step (404) and the subsequent printing step (408), a formatting step (406) during which, if the rewinding length is less than the previous print length, the portion of the original text that extends at the end of the text over a length equal to the difference between the length of the text the rewinding length is removed, and if the rewind length is greater than the print length, the original text portion that extends to the beginning of the text over a length equal to the difference between the length rewinding and the print length is removed.
[0004]
4) protection method (400) according to one of claims 1 to 3, characterized in that the first printing step (402) is accompanied by a substep counting during which the number No pulses generated during the first printing is counted, and during which a number of pulses corresponding to the rewinding length is calculated, and in that the rewinding step (404) is accompanied by a sub-step. counting step in which the number of pulses generated during rewinding is counted and during which rewinding stops when said number of pulses has reached the number of pulses corresponding to the previously calculated rewind length.
[0005]
5) thermal transfer printer (100) comprising: - a supply system (102) for feeding the printer (100) with a plastic card (10), - a supply roll (108) on which is coiled a transfer film (12) carrying a layer of ink to be deposited, - a recovery roller (110) on which the transfer film (12) is wound after the ink layer has been applied to a card plastic (10), - a printhead (112) between the supply roller (108) and the recovery roller (110), - an ejection system (104) for ejecting the plastic card (10). ) of the printer (100) after printing and - a processor (204) arranged to: - control the simultaneous advance, over a printing length Lo, of the transfer film (12) and the plastic card (10) under the print head (112) and the heating of the print head (112) according to the text to be printed, - controlling the rewinding of the transfer film (12) to a rewinding length Lo +/- d different from the printing length Lo, and the return of the plastic card (10) upstream of the printing head (112), - Controlling the simultaneous advance, on another printing length, of the transfer film (12) and the plastic card (10) under the print head (112) and the heating of the print head (112). ) according to the text to be printed, and - control the advance of the plastic card (10) to the ejection system (104).
[0006]
6) Printer (100) according to claim 5, characterized in that the processor (204) is arranged to, if the rewinding length is less than the previous print length, delete the part of the original text that s' extends at the end of the text to a length equal to the difference between the print length and the rewind length, and for, if the rewind length is greater than the print length, delete the original text portion which extends to the beginning of the text over a length equal to the difference between the rewind length and the print length.

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同族专利:

公开号 | 公开日

CN109153268B|2020-07-10|

WO2017162601A1|2017-09-28|

EP3433104A1|2019-01-30|

US20190084322A1|2019-03-21|

CN109153268A|2019-01-04|

US10427429B2|2019-10-01|

FR3049216B1|2018-04-20|

EP3433104B1|2020-03-18|

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法律状态:
2017-03-30| PLFP| Fee payment|Year of fee payment: 2 |

2017-09-29| PLSC| Search report ready|Effective date: 20170929 |

2018-03-29| PLFP| Fee payment|Year of fee payment: 3 |

2020-03-25| PLFP| Fee payment|Year of fee payment: 5 |

2021-03-26| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

申请号 | 申请日 | 专利标题

FR1652622A|FR3049216B1|2016-03-25|2016-03-25|METHOD OF PROTECTING PRINTED DATA|

FR1652622|2016-03-25|FR1652622A| FR3049216B1|2016-03-25|2016-03-25|METHOD OF PROTECTING PRINTED DATA|

US16/087,726| US10427429B2|2016-03-25|2017-03-20|Method for protecting printed data|

CN201780026017.6A| CN109153268B|2016-03-25|2017-03-20|Method for protecting print data|

EP17712461.7A| EP3433104B1|2016-03-25|2017-03-20|Method for protecting printed data|

PCT/EP2017/056588| WO2017162601A1|2016-03-25|2017-03-20|Method for protecting printed data|

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