CN103366209B - Bill structure with multiple anti-counterfeit marks and recognition method of bill structure - Google Patents

Abstract

The invention relates to a bill structure with multiple anti-counterfeit marks and a recognition method of the bill structure. The bill structure is characterized in that a printing carrier and code sections printed respectively by using magnetic resonance radio-frequency recognition ink, near-infrared non-absorbent ink and colorless near-infrared absorbent ink are in an interlaminar superimposed structure; the code sections printed by using the near-infrared non-absorbent ink and the magnetic resonance radio-frequency recognition ink generate a two-dimension code; the code sections printed by using the colorless near-infrared absorbent ink and the magnetic resonance radio-frequency recognition ink generate a two-dimension code; and layer structures of the anti-counterfeit marks are interlaminar structures which are generated by combining the two-dimension codes and interlaminar structures which are generated by all code section ink layers and the printing carrier. The recognition method comprises the steps: a two-dimension code recognizer is used for recognizing the visible spectrum two-dimension code which is generated by combining the code sections printed by using the magnetic resonance radio-frequency recognition ink and the near-infrared non-absorbent ink and the near-infrared band two-dimension code which is generated by combining the code sections printed by using the magnetic resonance radio-frequency recognition ink and the colorless near-infrared absorbent ink; and data obtained by recognition is compared with data in a system so as to judge whether a bill is true.

Description

There are bill structure and the recognition methodss of multiple anti-counterfeit label

Technical field

The present invention relates to a kind of field of anti-counterfeit technology, particularly to a kind of bill structure with multiple anti-counterfeit label and recognition methodss.

Background technology

CN200910119007.4 discloses near-infrared absorption anti-counterfeiting method, and its purpose is to provide to distinguish one-dimension code, Quick Response Code and digital code information by special invisible bar code identification pen in the presence of high-energy ray, thus judging true and false, reaches false proof purpose.This technical scheme：Including near infrared absorption anti-counterfeiting ink and special invisible bar code identification pen, with this near infrared absorption anti-counterfeiting ink printing one-dimension code, Quick Response Code and digital code information, above-mentioned one-dimension code, Quick Response Code and digital code information are distinguished in the presence of high-energy ray by special invisible bar code identification pen.User selects one-dimension code, Quick Response Code and digital code information as needed, reaches false proof uniqueness, and difficult using the one-dimension code of near infrared absorption anti-counterfeiting ink printing, Quick Response Code and digital hide information decoding, anatomy, imitation difficulty is high.Its weak point：The numeric data code that near infrared absorption anti-counterfeiting ink is printed still can be replicated under high magnified glass, and data safety can not be protected.

CN201120079652.0 discloses a kind of anti-fake mark, and its purpose is to provide outward appearance common it is very difficult to be noticeable, and has good disguise, and has the confidentiality of height;Can not be copied by counterfeiter, and not interfere with the anti-fake mark of invisible two-dimensional codes recognition.This technical scheme:Including invisible two-dimensional codes and covering one layer infrared non-absorbing ink on invisible two-dimensional codes.Its weak point is:Although this anti-fake mark compensate for individually using near infrared absorption ink printing invisible two-dimensional codes to there is a problem of cloning risk to a certain extent, still suffer from installing near-infrared filter disc clone data code risk additional by magnifier.

Content of the invention

It is an object of the invention to provide the code section partial obscuration that the code section that the near-infrared non-absorbing ink in a kind of anti-fake mark is printed is printed near infrared absorption ink is imitated effectively to prevent counterfeiter from scratching figure；Pass through the identification of Quick Response Code and the application of magnetic resonance radio frequency technology of identification that could identify under two different-wavebands during recognition, make that bill has triple false proof effects and three kinds of counterfeit protection measures condition each other, so that imitated person is had no way of doing it and have the bill structure of multiple anti-counterfeit label.It is a further object of the present invention to provide a kind of during recognition by two different-wavebands under just can carry out Quick Response Code identification and apply magnetic resonance radio frequency technology of identification and the recognition methodss that make bill have multiple anti-counterfeit label bill structure that is triple false proof and conditioning each other.

The technical solution of the present invention is the described bill structure with multiple anti-counterfeit label, including：Printing carrier, described printing carrier refers to for the direct object printing bar code symbol, and it is characterized in that：Described printing carrier is printed magnetic resonance radio frequency and is identified that the part code section of ink, described printing carrier print the part code section of near-infrared non-absorbing ink, described printing carrier prints the part code section of colourless near infrared absorption ink；Described printing carrier is interlayer iterative structure with the graphic layer structure of described each code section ink layer；

Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；

Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints code another Quick Response Code of section combination producing that magnetic resonance radio frequency identifies ink；

The graphic layer structure of anti-fake mark is the interlayer structure of above-mentioned each Quick Response Code generation and the interlayer structure of each code section ink layer and printing carrier generation.

As preferred：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier is printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer iterative structure.

As preferred：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier is printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer parallel construction.

As preferred：Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints magnetic resonance radio frequency and identifies that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer iterative structure.

As preferred：Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier is printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer parallel construction.

As preferred：It is interlayer parallel construction that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

As preferred：The part code section that the part code section that the colourless near infrared absorption ink of described printing carrier interlayer parallel construction is printed is printed with printing carrier near infrared absorption ink is partly covered mutually.

As preferred：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer iterative structure that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

As preferred：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer parallel construction that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

Another technical solution of the present invention is the described recognition methodss with multiple anti-counterfeit label bill structure, and it is characterized in that, comprises the following steps：

(1) printing carrier is printed magnetic resonance radio frequency and is identified that the code section of ink and the code section of printing carrier printing near-infrared non-absorbing ink are combined into the Quick Response Code of visible light wave range, and is identified by Quick Response Code evaluator；

(2), after being identified by, continue identification printing carrier printing magnetic resonance radio frequency identification ink code section and printing carrier is printed colourless near infrared absorption ink code section and is combined near infrared band identification Quick Response Code, be identified by near-infrared Quick Response Code evaluator；

(3) carry out magnetic resonance radio frequency identification；

(4) above-mentioned three identifications obtain two groups of data and one group of magnetic resonance radio frequency data, compare with system and can determine that papers.

Compared with prior art, it is an advantage of the invention that in anti-fake mark, code section printed by near-infrared non-absorbing ink and near infrared absorption ink is printed code section coverage part and can effectively prevent the stingy figure of counterfeiter imitated.Pass through just to carry out the identification of Quick Response Code and the application of magnetic resonance radio frequency technology of identification under two different-wavebands during recognition, so that bill is had triple false proof and condition each other, so that imitated person is had no way of doing it.

Brief description

Fig. 1 is that in anti-fake mark of the present invention, code section printed by near-infrared non-absorbing ink and magnetic resonance radio frequency identifies the schematic diagram of ink printing code section generation visible light wave range Quick Response Code.

Fig. 2 is that in anti-fake mark of the present invention, near-infrared Quick Response Code evaluator identifies that magnetic resonance radio frequency identifies that ink is printed code section and printed, near infrared absorption ink, the schematic diagram that code section generates near infrared band Quick Response Code.

Fig. 3 is the Quick Response Code schematic diagram of anti-fake mark of the present invention in press near-infrared non-absorbing ink printing zone.

Fig. 4 is the Quick Response Code schematic diagram of anti-fake mark of the present invention in press near infrared absorption ink printing zone.

Fig. 5 is the Quick Response Code schematic diagram of anti-fake mark of the present invention in press magnetic resonance ink printing zone.

Fig. 6 is that in press black region identifies three kinds of ink printing identification to anti-fake mark of the present invention

Printing area outline drawing.

Specific embodiment

The present invention is further detailed in conjunction with the accompanying drawings below：

Refer to shown in Fig. 1 to Fig. 6, this printing carrier is printed magnetic resonance radio frequency and identified that the part code section of ink, this printing carrier print the part code section of near-infrared non-absorbing ink, this printing carrier prints the part code section of colourless near infrared absorption ink；This printing carrier is interlayer iterative structure with the graphic layer structure of this each code section ink layer；

This printing carrier prints the part code section of near-infrared non-absorbing ink and this printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；

This printing carrier prints the part code section of colourless near infrared absorption ink and this printing carrier prints code another Quick Response Code of section combination producing that magnetic resonance radio frequency identifies ink；

The graphic layer structure of anti-fake mark is the interlayer structure of above-mentioned each Quick Response Code generation and the interlayer structure of each code section ink layer and printing carrier generation.

This printing carrier comprises and is not limited to：The bill made of paper such as art paper, no carbon paper, heat-sensitive paper, dry carbon paper.

Refer to shown in Fig. 1, the part code section that this printing carrier printing near-infrared non-absorbing ink is printed and this printing carrier are printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink printing is interlayer iterative structure.Or, the part code section that this printing carrier printing near-infrared non-absorbing ink is printed is printed magnetic resonance radio frequency with this printing carrier and is identified that the graphic layer structure of the code section combination producing Quick Response Code of ink printing is interlayer parallel construction.

Refer to shown in Fig. 2, the part code section that the colourless near infrared absorption ink of this printing carrier printing is printed and this printing carrier are printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink printing is interlayer iterative structure.Or, the part code section that the colourless near infrared absorption ink of this printing carrier printing is printed is printed magnetic resonance radio frequency with this printing carrier and is identified that the graphic layer structure of the code section combination producing Quick Response Code of ink printing is interlayer parallel construction.Or, it is interlayer parallel construction that this printing carrier prints the part code section of colourless near infrared absorption ink printing and the graphic layer structure of the part code section of this printing carrier printing near infrared absorption ink printing.

Refer to shown in Fig. 3, this printing carrier prints the part code section of near-infrared non-absorbing ink printing and this printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies that ink is printed；The part code section that this printing carrier prints colourless near infrared absorption ink printing prints, with this printing carrier, the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies that ink is printed；It is interlayer iterative structure that this printing carrier prints the part code section of colourless near infrared absorption ink printing and the graphic layer structure of the part code section of this printing carrier printing near infrared absorption ink printing.

Refer to shown in Fig. 3, this printing carrier prints the part code section of near-infrared non-absorbing ink printing and this printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies that ink is printed；The part code section that this printing carrier prints colourless near infrared absorption ink printing prints, with this printing carrier, the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies that ink is printed；It is interlayer parallel construction that this printing carrier prints the part code section of colourless near infrared absorption ink printing and the graphic layer structure of the part code section of this printing carrier printing near infrared absorption ink printing.

Refer to shown in Fig. 4, it is interlayer parallel construction that this printing carrier prints the part code section of colourless near infrared absorption ink printing and the graphic layer structure of the part code section of this printing carrier printing near infrared absorption ink printing.

Refer to shown in Fig. 4, the part code section that the part code section of the colourless near infrared absorption ink printing of this interlayer parallel construction is printed with printing carrier near infrared absorption ink is partly covered mutually.

Refer to shown in Fig. 6, this has the recognition methodss of multiple anti-counterfeit label bill structure, including：

(1) printing carrier is printed magnetic resonance radio frequency and is identified that the code section of ink and the code section of printing carrier printing near-infrared non-absorbing ink are combined into the Quick Response Code of visible light wave range, and is identified by Quick Response Code evaluator；

(2), after being identified by, continue identification printing carrier printing magnetic resonance radio frequency identification ink code section and printing carrier is printed colourless near infrared absorption ink code section and is combined near infrared band identification Quick Response Code, be identified by near-infrared Quick Response Code evaluator；

(3) carry out magnetic resonance radio frequency identification；

(4) above-mentioned three identifications obtain two groups of data and one group of magnetic resonance radio frequency data, compare with system and can determine that papers.

The foregoing is only presently preferred embodiments of the present invention, all impartial changes done according to scope of the invention as claimed and modification, all should belong to the covering scope of the claims in the present invention.

Claims (12)

1. a kind of bill structure with multiple anti-counterfeit label, including：Printing carrier, described printing carrier refer to for the direct object printing bar code symbol it is characterised in that：Described printing carrier is printed magnetic resonance radio frequency and is identified that the part code section of ink, described printing carrier print the part code section of near-infrared non-absorbing ink, described printing carrier prints the part code section of colourless near infrared absorption ink；Described printing carrier is interlayer iterative structure with the graphic layer structure of described each code section ink layer；

Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；

Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints code another Quick Response Code of section combination producing that magnetic resonance radio frequency identifies ink；

The graphic layer structure of anti-fake mark is the interlayer structure of above-mentioned each Quick Response Code generation and the interlayer structure of each code section ink layer and printing carrier generation；Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier is printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer iterative structure；

Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints magnetic resonance radio frequency and identifies that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer iterative structure.

2. there is the bill structure of multiple anti-counterfeit label according to claim 1 it is characterised in that：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer iterative structure that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

3. there is the bill structure of multiple anti-counterfeit label according to claim 1 it is characterised in that：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer parallel construction that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

4. a kind of bill structure with multiple anti-counterfeit label, including：Printing carrier, described printing carrier refer to for the direct object printing bar code symbol it is characterised in that：Described printing carrier is printed magnetic resonance radio frequency and is identified that the part code section of ink, described printing carrier print the part code section of near-infrared non-absorbing ink, described printing carrier prints the part code section of colourless near infrared absorption ink；Described printing carrier is interlayer iterative structure with the graphic layer structure of described each code section ink layer；

Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；

Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints code another Quick Response Code of section combination producing that magnetic resonance radio frequency identifies ink；

The graphic layer structure of anti-fake mark is the interlayer structure of above-mentioned each Quick Response Code generation and the interlayer structure of each code section ink layer and printing carrier generation；Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier is printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer parallel construction；

Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier is printed magnetic resonance radio frequency and identified that the graphic layer structure of the code section combination producing Quick Response Code of ink is interlayer parallel construction.

5. there is the bill structure of multiple anti-counterfeit label according to claim 4 it is characterised in that：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer iterative structure that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

6. there is the bill structure of multiple anti-counterfeit label according to claim 4 it is characterised in that：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer parallel construction that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

7. a kind of bill structure with multiple anti-counterfeit label, including：Printing carrier, described printing carrier refer to for the direct object printing bar code symbol it is characterised in that：Described printing carrier is printed magnetic resonance radio frequency and is identified that the part code section of ink, described printing carrier print the part code section of near-infrared non-absorbing ink, described printing carrier prints the part code section of colourless near infrared absorption ink；Described printing carrier is interlayer iterative structure with the graphic layer structure of described each code section ink layer；

Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；

Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints code another Quick Response Code of section combination producing that magnetic resonance radio frequency identifies ink；

The graphic layer structure of anti-fake mark is the interlayer structure of above-mentioned each Quick Response Code generation and the interlayer structure of each code section ink layer and printing carrier generation；It is interlayer parallel construction that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink；The part code section that the colourless part code section of near infrared absorption ink printing of described printing carrier interlayer parallel construction is printed with the near infrared absorption ink of printing carrier is partly covered mutually.

8. there is the bill structure of multiple anti-counterfeit label according to claim 7 it is characterised in that：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer iterative structure that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

9. there is the bill structure of multiple anti-counterfeit label according to claim 7 it is characterised in that：Described printing carrier prints the part code section of near-infrared non-absorbing ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；Described printing carrier prints the part code section of colourless near infrared absorption ink and described printing carrier prints the code section combination producing Quick Response Code that magnetic resonance radio frequency identifies ink；It is interlayer parallel construction that described printing carrier prints the part code section of colourless near infrared absorption ink and the graphic layer structure of the part code section of described printing carrier printing near infrared absorption ink.

10. a kind of recognition methodss according to claim 1 with multiple anti-counterfeit label bill structure are it is characterised in that comprise the following steps：

(1) printing carrier is printed magnetic resonance radio frequency and is identified that the code section of ink and the code section of printing carrier printing near-infrared non-absorbing ink are combined into the Quick Response Code of visible light wave range, and is identified by Quick Response Code evaluator；

(2), after being identified by, continue identification printing carrier printing magnetic resonance radio frequency identification ink code section and printing carrier is printed colourless near infrared absorption ink code section and is combined near infrared band identification Quick Response Code, be identified by near-infrared Quick Response Code evaluator；

(3) carry out magnetic resonance radio frequency identification；

(4) above-mentioned three identifications obtain two groups of data and one group of magnetic resonance radio frequency data, compare with system and can determine that papers.

A kind of 11. recognition methodss according to claim 4 with multiple anti-counterfeit label bill structure are it is characterised in that comprise the following steps：

(1) printing carrier is printed magnetic resonance radio frequency and is identified that the code section of ink and the code section of printing carrier printing near-infrared non-absorbing ink are combined into the Quick Response Code of visible light wave range, and is identified by Quick Response Code evaluator；

(2), after being identified by, continue identification printing carrier printing magnetic resonance radio frequency identification ink code section and printing carrier is printed colourless near infrared absorption ink code section and is combined near infrared band identification Quick Response Code, be identified by near-infrared Quick Response Code evaluator；

(3) carry out magnetic resonance radio frequency identification；

(4) above-mentioned three identifications obtain two groups of data and one group of magnetic resonance radio frequency data, compare with system and can determine that papers.

A kind of 12. recognition methodss according to claim 7 with multiple anti-counterfeit label bill structure are it is characterised in that comprise the following steps：

(1) printing carrier is printed magnetic resonance radio frequency and is identified that the code section of ink and the code section of printing carrier printing near-infrared non-absorbing ink are combined into the Quick Response Code of visible light wave range, and is identified by Quick Response Code evaluator；

(2), after being identified by, continue identification printing carrier printing magnetic resonance radio frequency identification ink code section and printing carrier is printed colourless near infrared absorption ink code section and is combined near infrared band identification Quick Response Code, be identified by near-infrared Quick Response Code evaluator；

(3) carry out magnetic resonance radio frequency identification；

(4) above-mentioned three identifications obtain two groups of data and one group of magnetic resonance radio frequency data, compare with system and can determine that papers.