CN114021682A

CN114021682A - Composite verification code system with calibration function

Info

Publication number: CN114021682A
Application number: CN202110977789.6A
Authority: CN
Inventors: 江峰
Original assignee: Sichuan Qiantairen Investment Management Co ltd
Current assignee: Sichuan Qiantairen Investment Management Co ltd
Priority date: 2020-09-29
Filing date: 2021-08-24
Publication date: 2022-02-08
Also published as: CN113743555B; CN113743555A; CN113723577A; CN112418372A

Abstract

The invention aims to provide a composite identifying code system with a calibration function, which comprises a server and a composite identifying code arranged on a commodity or a commodity package. The verification code is prevented from being counterfeited in batches, and the defect that the verification code does not have an anti-counterfeiting function is overcome.

Description

Composite verification code system with calibration function

Technical Field

The invention relates to the technical field of anti-counterfeiting.

Background

In the prior art, verification codes are already widely used in the anti-counterfeiting technical field. However, since the authentication code itself cannot realize the encryption function, it can be simply copied in large quantities by printing or a code sprayer. Meanwhile, due to different regulations of the verification code codes, a consumer needs to adopt a plurality of reading input modes when verifying the verification code, the verification complexity causes the verification rate to be very low, and further the traditional verification code verification with low safety is safer.

Disclosure of Invention

The invention aims to provide a composite verification code system with a calibration function, which comprises the following components:

the first scheme is as follows: the system comprises a server and a composite verification code arranged on a commodity or a commodity package;

the composite verification code comprises a verification code A and a verification code B which are associated; the verification code A partially or completely covers the verification code B; removing the covering material covering the verification code B, so that the verification code A is damaged after the verification code B is displayed; the verification code A and the verification code B arranged on the same commodity or commodity package are related verification codes, namely information corresponding to the verification code A and the verification code B is a group of related information; the associated information is stored in a server; the partial area of the verification code A is the same as that of the verification code B;

and binding the associated information corresponding to the verification code A and the verification code B with calibration information, and storing the calibration information in a server.

Scheme II: the system comprises a server and a composite verification code arranged on a commodity or a commodity package;

binding the associated information corresponding to the verification code A and the verification code B with calibration information, and storing the calibration information in a server;

when verifying, one or more of the following three kinds of verification are included:

verification one: the user adopts the verification code A to be verified scanned by the verification code reader, and if the verified verification code A passes verification, the server feeds back calibration information corresponding to the verification code A to the verification code reader held by the user;

and (5) verifying: if the verification code B to be verified scanned by the user by adopting the verification code reader passes verification, the server feeds back calibration information corresponding to the verification code B to the verification code reader held by the user;

and (3) verification: after a user scans a verification code B by adopting a verification code reader for the first time and transmits the verification code B to a server, the server carries out invalidation marking on a verification code A associated with the verification code B; after that, if a user scans the verification code A with the failure mark by using the verification code reader, the server feeds back the information that the verification code A has failed or is forged to the verification code reader held by the user.

The third scheme is as follows: the system comprises a server and calibration equipment with a calibration function; the calibration equipment is a verification code reader and a composite verification code arranged on a commodity or a commodity package;

when the verification code reader with the calibration function calibrates the composite verification code, the verification code A is scanned, and the information of the verification code A and the calibration information are sent to the server; the server binds the associated information corresponding to the verification code A with the calibration information;

And the scheme is as follows: the system comprises a server and calibration equipment with a calibration function; the calibration equipment is provided with a functional module for reading and scanning the verification code by the electronic tag; the electronic tag also comprises a composite verification code arranged on the commodity or the commodity package and an electronic tag bound with a plurality of associated verification codes;

when the calibration equipment calibrates the composite verification code, scanning the electronic tag and then scanning the verification code A; sending the information stored in the electronic tag, the information corresponding to the verification code A and the calibration information to a server; the server binds the information stored in the electronic tag, the associated information corresponding to the verification code A and the calibration information;

And a fifth scheme: the RFID system comprises a server, a plurality of composite verification codes and RFID tags;

the RFID tag has dynamic authentication information; the dynamic verification information is position information generated when the RFID label on the packaging box is scanned; the dynamic position information is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the label is scanned; the dynamic verification information is stored in a server;

a plurality of commodities are contained in a packaging box, an RFID label is arranged on the packaging box, a composite verification code is arranged on each commodity or commodity package in the packaging box, and the RFID label is associated with the composite verification code;

during verification, scanning any verification code by scanning equipment, and reading dynamic verification information of the associated RFID label; the dynamic verification information is used for verifying the position of the commodity.

Scheme six: the system comprises a server, a composite verification code I arranged on a commodity packaging box and a composite verification code II arranged on a commodity or a commodity package;

a plurality of commodities are contained in a packing box, a composite verification code I is arranged on the packing box, a composite verification code II is arranged on each commodity or each commodity package in the packing box, and information corresponding to the composite verification code I and the composite verification code II on each commodity or each commodity package is associated information;

the composite verification code I comprises a verification code IA and a verification code IB which are associated; the verification code IA partially or completely covers the verification code IB; removing the covering material covering the verification code IB, so that the verification code IA is damaged after the verification code IB is displayed; the verification code IA and the verification code IB which are arranged on the same commodity packaging box are associated verification codes, namely information corresponding to the verification code IA and the verification code IB is a group of associated information; the associated information is stored in a server; the partial area of the verification code IA is the same as that of the verification code IB;

the method comprises the steps that associated information corresponding to a verification code IA and a verification code IB is bound with calibration information, and the calibration information is stored in a server;

the composite verification code II comprises a verification code IIA and a verification code IIB which are related; the verification code IA partially or completely covers the verification code IIB; removing the covering substance covering the verification code IIB to enable the verification code IIA to be damaged after the verification code IIB appears; the verification code IIA and the verification code IIB which are arranged on the same commodity packaging box are associated verification codes, namely information corresponding to the verification code IIA and the verification code IIB is a group of associated information; the associated information is stored in a server; the partial area of the verification code IIA is the same as that of the verification code IIB;

the method comprises the steps that associated information corresponding to a verification code IIA and a verification code IIB is bound with calibration information, and the calibration information is stored in a server;

when verifying, one or more of the following six kinds of verification are included:

verification one: a user scans the verification code IB by using scanning equipment, and calibration information corresponding to the verification code IB and current dynamic position information I are sent to a server; if the verification code IB passes the verification, the server feeds back calibration information corresponding to the verification code IB to the user; the dynamic position information I is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the label is scanned;

and (5) verifying: a user scans the verification code IA and sends calibration information corresponding to the verification code IA and current dynamic position information I to a server; if the verification code IA passes the verification, the server feeds back calibration information corresponding to the verification code IA to the user;

and (3) verification: after a user scans a verification code IB for the first time and transmits the verification code IB to a server, the server carries out invalidation marking on the verification code IA related to the verification code IB; after that, if a user scans the verification code IB with the failure mark, the server feeds back the information that the verification code is failed or forged to the user;

and (4) verifying: a user scans a verification code IIA to be verified, and sends calibration information and current dynamic position information corresponding to the verification code IIA to a server; the server matches the current dynamic position information with the dynamic position information I, and if the matching verification of the current dynamic position information and any dynamic position information I is successful and the verification code IIA passes the verification, the server feeds back calibration information corresponding to the verification code IIA to a verification code reader held by a user;

and (5) verifying: a user scans a verification code IIB to be verified, and sends calibration information and current dynamic position information corresponding to the verification code IIB to a server; the server matches the current dynamic position information with the dynamic position information I, and if the matching verification of the current dynamic position information and any dynamic position information I is successful and the verification code IIB passes the verification, the server feeds back calibration information corresponding to the verification code IIB to a verification code reader held by a user;

and (6) verifying: after a user scans the verification code IIB for the first time and transmits the verification code IIB to the server, the server carries out failure marking on the verification code IIA associated with the verification code IIB; after that, if the user scans the verification code IIA with the failure flag, the server feeds back information that the verification code has failed or is forged to the user.

Further, the verification code is an information code which can be scanned and read.

Further, the verification code is a specific graphic code which can be scanned and read by the mobile phone.

Further, the specific graphic code comprises a bar code and a two-dimensional code which can be scanned and read by a mobile phone.

Further, the two-dimensional code comprises a PDF417 stacked two-dimensional code.

Further, the substance covering the verification code B is a coating, and the coating is scraped off, so that the verification code A is damaged after the verification code B is completely displayed.

Further, the verification code A partially covers the verification code B;

the area where the verification code A is located is divided into a public area and an easily damaged area;

the area where the verification code B is located is divided into a public area and a ciphertext area;

the public area of the verification code A is the same as that of the verification code B;

and the vulnerable area of the verification code A covers the ciphertext area of the verification code B.

Further, the verification code A partially covers the verification code B;

the public area of the verification code A and the public area of the verification code B are the same area; the vulnerable area of the verification code A and the ciphertext area of the verification code B are completely overlapped, and the vulnerable area of the verification code A is located above the ciphertext area of the verification code B.

Further, the verification code A and the verification code B are stacked verification codes.

Further, the verification code A and the verification code B adopt a partition composite coding rule to partition and code the common region, the vulnerable region and the ciphertext region, and then are composited into a complete verification code A and a complete verification code B.

Further, the common area shared by the verification code A and the verification code B has server address information, identification code information and other commodity public information.

Further, in the first verification, if the verification code A passes the verification and does not have a failure mark, the verification code reader held by the user prompts the user that the verification code B exists below the verification code A, and the verification code A needs to be scraped off and the verification code B continues to be scanned, so that the verification can be further verified;

in the second verification, if the verification code B passes the verification, a verification code reader held by the user prompts the user that the verification code A above the verification code B is scraped.

Further, in the first verification, if the verification code A passes the verification and has a failure mark, the user is reminded that the commodity is counterfeit, and meanwhile, the system warns that the counterfeit commodity appears;

further, the calibration information is geographical position information or number information preset by the server;

further, the geographical location information is a commodity or a commodity package selling place provided with a composite verification code;

further, the number information is a number of a commodity or a commodity package sales merchant provided with the composite verification code.

Further, the calibration information is number information preset in the calibration equipment; the number information is the number of the commodity or the commodity package sales merchant provided with the composite verification code.

Further, the calibration equipment has a positioning function; and during calibration operation, the dynamic verification information generated by the calibration equipment is geographical position information.

Further, the electronic tag is written with anti-counterfeiting information;

further, the calibration information is geographical positioning information or serial number information obtained when the electronic tag is verified to be true by the calibration device.

Further, the calibration information is geographical position information or number information preset in the electronic tag.

further, the serial number information is a serial number of a commodity or a commodity package sales merchant provided with the composite verification code;

further, the calibration device reads the calibration information in the electronic tag and sends the calibration information to the server.

Furthermore, redundant transitional coding is adopted at the boundary part of the verification code area so as to improve the fault tolerance level of the composite verification code system.

Further, the composite verification code system carries commodity category information; the commodity category information is written at the time of manufacture of the composite authentication code system.

Further, the scanning device scans the verification code A, generates commodity category information and sends the commodity category information to the server, and the server associates the commodity category information with the composite verification code corresponding to the verification code A.

Further, the verification code a does not carry commodity category information.

The technical effect of the invention is undoubted, and the problem that the existing verification code does not have an anti-counterfeiting function is solved. The verification code A and the verification code B are arranged, so that only the verification code A appears when the commodity is in a state for sale. Once the verification code a is scraped, the server performs calibration processing on the associated verification code a as long as the verification code B is scanned. After the system is applied, if a counterfeiter imitates the verification code A in a large quantity, the server can prompt the consumer about the verification code B below for scanning. The counterfeiter heavily imitates the verification code B, and the server can prompt the consumer that the verification code A above the verification code B is scratched off. If the fake producer imitates the verification code A and the verification code B at the same time, once the verification code B is scanned, the verification code B is exposed, the verification code A is damaged, and if the verification code A is scanned, the server can prompt the consumer to make a fake. The scheme prevents the verification codes from being counterfeited in batches and overcomes the defect that the verification codes do not have an anti-counterfeiting function.

Drawings

FIG. 1 is a schematic diagram of a matrix validation code according to an embodiment;

FIG. 2 is a schematic diagram of an embodiment of a ring captcha;

FIG. 3 is a diagram of an embodiment of a stack validation code.

Detailed Description

The present invention is further illustrated by the following examples, but it should not be construed that the scope of the above-described subject matter is limited to the following examples. Various alterations and modifications can be made without departing from the technical idea of the invention, and all changes and modifications made by the ordinary technical knowledge and the conventional means in the field are intended to be included in the scope of the invention.

Example 1:

a composite verification code system with a calibration function comprises a server and a composite verification code arranged on a commodity or a commodity package;

The verification code is an information code which can be scanned and read.

Example 2:

the composite verification code comprises a verification code A and a verification code B which are associated;

as shown in FIGS. 1-3, the verification code A partially covers the verification code B; the area where the verification code A is located is divided into a public area I and an easily damaged area II;

the area where the verification code B is located is divided into a public area I and a ciphertext area III;

the public area I of the verification code A is the same as the public area I of the verification code B, and server address information used for verifying the verification code A and the verification code B is stored; and the vulnerable area of the verification code A covers the ciphertext area of the verification code B. And a substance covering the verification code B is a coating, and a vulnerable area of the verification code A is printed on the coating. And scraping the coating so that the verification code A is damaged after the verification code B is completely displayed.

The verification code A and the verification code B arranged on the same commodity or commodity package are related verification codes, namely information corresponding to the verification code A and the verification code B is a group of related information; the associated information is stored in a server;

verification one: a user scans a verification code A to be verified (a mobile phone with a code scanning function) by using a verification code reader, and if the verification code A passes the verification and is true, the server feeds back calibration information corresponding to the verification code A to the verification code reader held by the user;

and (5) verifying: if the verification code B to be verified scanned by the user by the verification code reader is true through verification, the server feeds back calibration information corresponding to the verification code B to the verification code reader held by the user;

The verification code is an information code which can be scanned and read.

Example 3:

a composite verification code system with a calibration function comprises a server and calibration equipment with the calibration function; the calibration equipment is a verification code reader and a composite verification code arranged on the commodity or the commodity package.

the public area I of the verification code A is the same as the public area I of the verification code B, and server address information used for verifying the verification code A and the verification code B is stored; and the vulnerable area of the verification code A covers the ciphertext area of the verification code B. And a substance covering the verification code B is a coating, and a vulnerable area of the verification code A is printed on the coating. And scraping the coating so that the verification code A is damaged after the verification code B is completely displayed. The verification code A and the verification code B arranged on the same commodity or commodity package are related verification codes, namely the information corresponding to the verification code A and the verification code B is a group of related information; the associated information is stored in a server;

when a verification code reader with a calibration function (a mobile phone with a positioning function and a code scanning function) calibrates the composite verification code, scanning the verification code A, and sending the information of the verification code A and the calibration information to a server; the server binds the associated information corresponding to the verification code A with the calibration information;

The verification code is an information code which can be scanned and read.

Example 4:

a composite verification code system with a calibration function comprises a server and calibration equipment with the calibration function; the calibration equipment is provided with a functional module for reading and scanning the verification code by the electronic tag; the electronic tag also comprises a composite verification code arranged on the commodity or the commodity package and an electronic tag (which can adopt an RFID tag) bound with a plurality of associated verification codes;

the composite verification code comprises a verification code A and a verification code B which are associated; as shown in FIGS. 1-3, the verification code A partially overlaps the verification code B; the area where the verification code A is located is divided into a public area I and an easily damaged area II; the area where the verification code B is located is divided into a public area I and a ciphertext area III; the public area I of the verification code A is the same as the public area I of the verification code B, and server address information used for verifying the verification code A and the verification code B is stored; and the vulnerable area of the verification code A covers the ciphertext area of the verification code B. And a substance covering the verification code B is a coating, and a vulnerable area of the verification code A is printed on the coating. And scraping the coating so that the verification code A is damaged after the verification code B is completely displayed.

when the calibration equipment (a mobile phone with an RFID reading function and a code scanning function) calibrates the composite verification code, scanning the electronic tag, and then scanning the verification code A; sending the information stored in the electronic tag, the information corresponding to the verification code A and the calibration information to a server; the server binds the information stored in the electronic tag, the associated information corresponding to the verification code A and the calibration information;

Example 5:

a composite verification code system with a calibration function comprises a server, a plurality of composite verification codes and RFID labels;

Example 6:

a composite verification code system with a calibration function comprises a server, a composite verification code I arranged on a commodity packaging box, and a composite verification code II arranged on a commodity or a commodity package;

verification one: a user scans the verification code IB by using scanning equipment, and calibration information corresponding to the verification code IB and current dynamic position information I are sent to a server; if the verified verification code IB is verified to be true, the server feeds back calibration information corresponding to the verification code IB to the user; the dynamic position information I is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the label is scanned;

and (5) verifying: a user scans the verification code IA and sends calibration information corresponding to the verification code IA and current dynamic position information I to a server; if the verification code IA passes the verification and is true, the server feeds back calibration information corresponding to the verification code IA to the user;

and (4) verifying: a user scans a verification code IIA to be verified, and sends calibration information and current dynamic position information corresponding to the verification code IIA to a server; the server matches the current dynamic position information with the dynamic position information I, and if the matching verification of the current dynamic position information and any dynamic position information I is successful and the verification code IIA passes the verification and is true, the server feeds back calibration information corresponding to the verification code IIA to a verification code reader held by a user;

and (5) verifying: a user scans a verification code IIB to be verified, and sends calibration information and current dynamic position information corresponding to the verification code IIB to a server; the server matches the current dynamic position information with the dynamic position information I, and if the matching verification of the current dynamic position information and any dynamic position information I is successful and the verification code IIB passes the verification and is true, the server feeds back calibration information corresponding to the verification code IIB to a verification code reader held by a user;

Example 7:

in this embodiment, the verification code is a specific pattern code that can be scanned and read by the mobile phone, as in embodiments 1 to 6.

Example 8:

the present embodiment is mainly the same as embodiment 7, and the specific graphic code includes a barcode and a two-dimensional code that can be scanned and read by a mobile phone.

Example 9:

the embodiment is mainly the same as embodiment 8, and the two-dimensional code includes a PDF417 stacked two-dimensional code.

Example 10:

in this embodiment, the common area of the verification code a and the verification code B is provided with server address information, identification code information and other commodity public information, which is mainly the same as embodiments 1 to 6.

Example 11:

in this embodiment, the verification code a and the verification code B are defined as stacked two-dimensional bar codes, as in embodiments 1 to 6. The vulnerable area of the verification code A is provided with verification information A for verifying the authenticity of the verification code A; and the ciphertext area of the verification code B is provided with verification information B for verifying the authenticity of the verification code B. Further, the verification code a and the verification code B may adopt a partition composite coding rule to partition and code the common region, the vulnerable region and the ciphertext region, and then composite into a complete verification code a and a complete verification code B.

Example 12:

the embodiment is mainly the same as embodiments 1 to 6, further, in the first verification, if the verification code a is true through verification and does not have a failure mark, the verification code reader held by the user prompts the user that the verification code B is still under the verification code a, the verification code a needs to be scraped and the verification code B needs to be continuously scanned, and then the verification can be further verified, so that the consumer is guided to destroy the verification code a, and the information of the scanned verification code B is transmitted to the server;

in the first verification, if the verification code A is true through verification and has a failure mark, the user is reminded that the commodity is fake, and meanwhile, the system gives an early warning on the appearance of the fake commodity.

In the second verification, if the verification code B passes the verification and is true, the verification code A above the verification code B is prompted to the user through a verification code reader held by the user to be scratched off. Therefore, the consumer is reminded that the commodity is possibly counterfeit if the commodity is not the verification code which is scratched off in person.

Example 13:

the embodiment is mainly the same as embodiment 1, and further, the calibration information is geographical location information (a preset sales address) or number information (a physical store number, a network store name, and the like) preset by the server;

the geographical position information is a commodity or a commodity package selling place provided with a composite verification code; the number information is the number of the commodity or the commodity package sales merchant provided with the composite verification code. The consumer receives the information that the place where the consumer bought the commodity is not the preset geographical position, and then judges that the place of sale is in doubt. If the equipment of the consumer has the positioning function, the information obtained by scanning the code is inconsistent with the real-time positioning information, and the suspicion of the selling place can be automatically judged.

Example 14:

the embodiment is mainly the same as embodiments 1 to 6, wherein the calibration information is a server link address, commodity code information, identification code information and other commodity associated information;

the dynamic verification information is geographical position information and is a commodity or commodity package selling place provided with a composite verification code;

the dynamic verification information is serial number information which is serial number of a commodity or a commodity package sales merchant provided with the composite verification code.

Example 15:

the embodiment is mainly the same as embodiments 1 to 6, wherein the calibration device has a positioning function; and during calibration operation, the dynamic verification information generated by the calibration equipment is geographical position information.

Example 16:

the embodiment is mainly the same as embodiment 3 or 4, and further, the calibration information is number information preset in the calibration device; the number information is the number of the commodity or the commodity package sales merchant provided with the composite verification code. Different from the embodiment 5, with the scheme of the embodiment, the calibration information is calibrated by using a legal calibration device sent to a merchant.

Example 17:

the embodiment is mainly the same as embodiment 4, and further the calibration device has a positioning function. The electronic tag is written with anti-counterfeiting information. The calibration information is geographical positioning information or serial number information acquired when the electronic tag is verified to be true by the calibration equipment. During the use, can adopt the scheme of "one thing one code is a core", set up the compound identifying code and the RFID label (write in anti-fake identifying code) of taking the scaling function on commodity (thing) promptly, overcome the problem of the low security of current identifying code itself, in order to effectively solve the anti-fake safety of retail end, and to the accurate location of counterfeit event.

Example 18:

the embodiment is mainly the same as embodiment 3 or 4, and further, the calibration device has a positioning function; and during calibration operation, the dynamic verification information generated by the calibration equipment is geographical position information. Different from the embodiment 5, the calibration information is calibrated by the scanning device with the positioning function of the merchant according to the scheme of the embodiment.

Example 19:

the embodiment is mainly the same as embodiment 3 or 4, and further, the calibration device has a function of binding an online e-commerce name and a store code; and during calibration operation, the calibration information generated by the calibration equipment is the electronic store name and store code information. Different from the embodiment 5, with the scheme of the embodiment, the calibration information is calibrated by the scanning device of the merchant, which is bound with the online e-commerce name and the store code.

Example 20:

the embodiment is mainly the same as embodiment 3 or 4, and further, the calibration information is geographical location information or number information preset in the electronic tag; the geographical position information is a commodity or a commodity package selling place provided with a composite verification code; the serial number information is a serial number of a commodity or a commodity package sales merchant provided with a composite verification code; and the calibration equipment reads the calibration information in the electronic tag and sends the calibration information to the server.

Example 21:

a composite verification code system with a calibration function mainly comprises an embodiment 1-5, wherein redundant transitional coding measures are adopted at junctions of a public area and an easily damaged area and verification code areas of the public area and a ciphertext area, so that the requirement on manufacturing accuracy of the junctions is lowered, and the fault tolerance level of the composite verification code system is improved.

Example 22:

a composite verification code system with a calibration function mainly comprises the following components of embodiments 1-5, wherein the composite verification code system carries commodity category information; the commodity category information is written in when the composite verification code system is manufactured.

Example 23:

a composite verification code system with a calibration function mainly comprises an embodiment 1-5, wherein a scanning device scans a verification code A to generate commodity type information and sends the commodity type information to a server, and the server associates the commodity type information with a composite verification code corresponding to the verification code A.

Example 24:

a composite verification code system with calibration function, the main content of which is shown in embodiment 17, wherein the verification code a does not carry commodity category information.

Example 25:

a verification process of a composite verification code system with a calibration function comprises the following steps:

a composite authentication code system with a set function is provided, and the main content of the system is shown in examples 1-5.

After the composite verification code is arranged on the commodity or the commodity package, the scanning device scans the verification code A, the scanning device generates commodity category information and sends the commodity category information to the server, and the server associates the commodity category information with the composite verification code corresponding to the verification code A.

And the user scans the verification code B, reads the commodity type information, and if the read commodity type information is different from the type of the commodity with the verification code currently set, the commodity is a counterfeit commodity.

Example 26:

When the user scans the verification code B, the commodity category information can be read, and if the read commodity category information is different from the category of the current commodity, the commodity is a counterfeit commodity. When scanning the verification code a, the user cannot read the commodity category information.

Example 27:

a composite authentication code system with a set function is provided, and the main content of the system is shown in example 5.

A plurality of commodities are arranged in a packing box, RFID tags are arranged on the packing box, and each commodity in the packing box is provided with a composite verification code. The information of each composite authentication code is associated with the information of the RFID tag.

After the RFID label is arranged on the commodity packaging box, a user scans the RFID label by using scanning equipment, so that the RFID label generates dynamic verification information, and the dynamic verification information is sent to a server.

The user scans the composite authentication code using a scanning device, and can read the dynamic authentication information. The user can compare whether the read dynamic verification information is the same as the current position information, and if the dynamic verification information is different from the current position information, the commodity is in doubt. The dynamic verification information is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the label is scanned. If a certain merchant in the area of northbound of Chongqing receives a packing box provided with an RFID label, the RFID label is scanned to generate dynamic verification information, the information carries a field of the certain merchant in the area of northbound of Chongqing, and a user scans a verification code associated with the RFID label in the certain merchant in the area of Hechuan Chengdu, so that the position information is different, the position of the commodity is in doubt, and the suspicion of the commodity is indicated.

Example 28:

a composite authentication code system with a set function is provided, and the main content of the system is shown in example 6.

The user scans the verification code IA on the packaging box and sends the information of the current dynamic position I and the information corresponding to the verification code I1 to the server. The server stores the current dynamic position information I. The server verifies the verification code IA, and if the verification fails, the server feeds back information of true and false goods in doubt.

And the user scans the verification code IB on the packing box and sends the information of the current dynamic position I and the information corresponding to the verification code I1 to the server. The server stores the current dynamic position information I. And the server verifies the verification code IB, and after the verification is successful, the server marks the failure of the verification code IA. If the user scans the verification code marked with the failure, the server feeds back the information of the error of the commodity distribution process and the doubt of the truth of the commodity.

After unpacking, a user scans the verification code IIA on the commodity or the commodity package and sends the current dynamic position information and the information corresponding to the verification code IIA to the server. And the user performs true and false verification on the verification code Iii, and judges whether the current dynamic position information is matched with any dynamic position information I, if so, the calibration information corresponding to the verification code IIA is fed back, and otherwise, the information that the truth and the false of the commodity are doubtful is fed back.

And the user scans the verification code IIB on the commodity or the commodity package and sends the current dynamic position information and the information corresponding to the verification code IIB to the server. And the user carries out true and false verification on the verification code IIB and judges whether the current dynamic position information is matched with any dynamic position information I or not, if so, the calibration information corresponding to the verification code IIB is fed back, and otherwise, the information that the truth and the false of the commodity are doubted is fed back.

Example 29:

a composite verification code system with a calibration function mainly comprises embodiments 1-6.

Wherein, the packing box of commodity is provided with compound identifying code, marks as identifying code A, identifying code B respectively.

Composite verification codes are arranged on the 1-level packaging box of the commodity and are respectively marked as verification codes A-1 and B-1;

composite verification codes are arranged on the 2-level packaging boxes of the commodities and are respectively marked as verification codes A-1-1 and B-1-1;

…

the k-level packaging box of the commodity is provided with a composite verification code which is respectively marked as a verification code

The goods or the outer package of the goods are provided with composite verification codes which are respectively marked as verification codes

A plurality of 1-level packing boxes are arranged in one packing box, a plurality of 2-level packing boxes are arranged in 1-level packing box, … is arranged in the 1-level packing box, a plurality of k-level packing boxes are arranged in the 1 k-level 1-level packing box, and a plurality of commodities are arranged in the 1 k-level packing box.

The verification process of the system is as follows:

the dealer orders the manufacturer, and the manufacturer writes the dealer information into the composite verification code, wherein the dealer information comprises dealer codes, positions or other information capable of representing the identity of the dealer.

The manufacturer sets the composite verification code on the outer package of the commodity and the commodity packing box and sends the composite verification code to the dealer.

After the dealer receives the goods, the process management requires that the dealer must scan the validation code a 1.

After the dealer scans the verification code A by using the scanning device, the scanning device generates position information of the dealer and uploads the position information to the server. The server side binds the location information with the verification code A1 and the verification code associated with the verification code A.

The first verification method comprises the following steps:

after the consumer purchases the commodity, if the verification code A is scanned, the verification code B is prompted to be added. And if the verification code B on the packing box is scanned, the server side feeds back the position information of the dealer to the scanning equipment of the consumer. The consumer compares the position information of the dealer with the position information of the actual purchased commodity, and if the position information of the dealer is different from the position information of the actual purchased commodity, the commodity is in doubt. The position information is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the verification code is scanned;

and after the verification code B is scanned and the verification code A appears, judging that the commodity is in doubt.

And a second verification method:

after the consumer purchases the commodity, if the verification code A-1 is scanned, the consumer is prompted to have the verification code B-1. And if B-1 on the packaging box of the 1-level packaging box is scanned, the server side feeds back the position information of the dealer to the scanning equipment of the consumer. The consumer compares the position information of the dealer with the position information of the actual purchased commodity, and if the position information of the dealer is different from the position information of the actual purchased commodity, the commodity is in doubt.

And after the verification code B-1 is scanned and the verification code A-1 appears, judging that the commodity is in doubt.

…

Verification mode k + 1:

when the consumer purchases the commodity, if the verification code is scanned

Prompt for verification code

If scanning on k-level packing boxes

The server side feeds back dealer location information to the scanning device of the customer. The consumer compares the dealer position information with the position information of the actually purchased commodity, and if the dealer position information is different from the actually purchased commodity, the commodity is in doubt.

Verification code

After being scanned, the verification code appears

The commodity is judged to be in doubt.

Verification mode k + 2:

when the consumer purchases the commodity, if the verification code is scanned

Prompt for verification code

If scanning the goods or goods overwrap

The server side feeds back dealer location information to the customer's scanning device. The consumer compares the dealer position information with the position information of the actually purchased commodity, and if the dealer position information is different from the actually purchased commodity, the commodity is in doubt.

Verification code

After being scanned, the verification code appears

The commodity is judged to be in doubt.

Verification mode k + 3:

if a is ever scanned by landing and the other codes are scanned, indicating that the article may be cross-shipped and the dealer should be penalized.

Example 30:

a composite verification code system with a calibration function, whose main content is shown in embodiment 30, is applied to tobacco products.

Example 31:

The composite identifying code system is applied to tobacco commodities.

Wherein, the outer packing box of cigarette is provided with compound identifying code, marks as identifying code A, identifying code B respectively.

The package of each cigarette is provided with a composite verification code which is respectively marked as verification codes A-1 and B-1;

the outer package of each cigarette pack is provided with a composite verification code which is respectively marked as verification codes A-1-1 and B-1-1;

a plurality of cigarettes are arranged in one packing box, and a plurality of packets of cigarettes are arranged in 1 cigarette.

The verification process of the system is as follows:

When the cigarette is delivered to the retail store, the process management requires a to be scanned by landing (or called retailer delivery scan, which requires uploading of location information), indicating that the store has been reached, i.e. that all of the two-dimensional codes are associated with the retail store for sale.

After the dealer scans the verification code A by using the scanning device, the scanning device generates position information of the dealer and uploads the position information to the server. And the server side binds the position information with the verification code A and the verification code related to the verification code A.

The first verification method comprises the following steps:

And a second verification method:

A third verification mode:

after the consumer purchases the commodity, if the verification code A-1-1 is scanned, the consumer is prompted to have the verification code B-1-1. And if the B-1-1 on the k-level packaging box is scanned, the server side feeds back the position information of the dealer to the scanning equipment of the consumer. The consumer compares the position information of the dealer with the position information of the actual purchased commodity, and if the position information of the dealer is different from the position information of the actual purchased commodity, the commodity is in doubt.

And after the verification code B-1-1 is scanned and the verification code A-1-1 appears, judging that the commodity is in doubt.

The verification method is as follows:

Example 32:

a composite verification code system with a calibration function mainly comprises embodiments 1-6. The method for judging whether the verification code passes the verification comprises the following steps: and the server matches the received verification code with a pre-stored verification code, and if the matching is successful, the verification code passes the verification.

Example 33:

a composite verification code system with calibration function is disclosed in example 32. The server matches the received verification code with the information field carried by the pre-stored verification code.

Example 34:

a composite verification code system with calibration function is disclosed in example 32. The server matches a key carried by the received verification code with a key carried by a pre-stored verification code.

Example 35:

the verification code A partially covers the verification code B;

Claims

1. A composite verification code system with a calibration function is characterized by comprising a server and a composite verification code arranged on a commodity or a commodity package;

and binding the associated information corresponding to the verification code A and the verification code B with calibration information, wherein the calibration information is stored in a server.

2. A composite verification code system with a calibration function is characterized by comprising a server and a composite verification code arranged on a commodity or a commodity package;

binding the associated information corresponding to the verification code A and the verification code B with calibration information, wherein the calibration information is stored in a server;

verification one: the user adopts the verification code A to be verified scanned by the verification code reader, and if the verification code A passes verification, the server feeds back calibration information corresponding to the verification code A to the verification code reader held by the user;

and (5) verifying: if the verification code B to be verified scanned by the user by the verification code reader passes verification, the server feeds back calibration information corresponding to the verification code B to the verification code reader held by the user;

3. A composite verification code system with a calibration function is characterized by comprising a server and calibration equipment with the calibration function; the calibration equipment is a verification code reader and a composite verification code arranged on the commodity or the commodity package;

4. A composite verification code system with a calibration function is characterized by comprising a server and calibration equipment with the calibration function; the calibration equipment is provided with a functional module for reading and scanning the verification code by the electronic tag; the electronic tag also comprises a composite verification code arranged on the commodity or the commodity package and an electronic tag bound with a plurality of associated verification codes;

5. A composite verification code system with a calibration function is characterized by comprising a server, a plurality of composite verification codes and RFID labels;

the RFID tag has dynamic authentication information; the dynamic verification information is position information generated when the RFID label on the packing box is scanned; the dynamic position information is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the label is scanned; the dynamic verification information is stored in a server;

a plurality of commodities are contained in a packing box, an RFID label is arranged on the packing box, a composite verification code is arranged on each commodity or commodity package in the packing box, and the RFID label is associated with the composite verification code;

before opening the box of the commodity, the scanning equipment needs to scan the RFID label on the packing box and send verification information and position information to the server; the position information is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the label is scanned;

during verification, the scanning equipment scans any verification code, reads information corresponding to the verification code and sends the information corresponding to the verification code and dynamic verification information to the server; the dynamic verification information is geographical position information, a merchant number or an e-commerce code of the scanning equipment when the verification code is scanned;

and at the server side, after the information corresponding to the verification code is successfully matched and verified with the verification information, matching and verifying the dynamic position information and the position information, and if the information is not matched with the verification information, judging that the position of the commodity is in doubt.

6. A composite verification code system with a calibration function is characterized by comprising a server, a composite verification code I arranged on a commodity packaging box and a composite verification code II arranged on a commodity or a commodity package;

and (3) verification: after a user scans a verification code IB for the first time and transmits the verification code IB to a server, the server carries out invalidation marking on a verification code IA associated with the verification code IB; after that, if a user scans the verification code IB with the failure mark, the server feeds back the information that the verification code is failed or forged to the user;

and (4) verifying: a user scans a verification code IIA to be verified, and calibration information and current dynamic position information corresponding to the verification code IIA are sent to a server; the server matches the current dynamic position information with the dynamic position information I, and if the matching verification of the current dynamic position information and any dynamic position information I is successful and the verification code IIA passes the verification, the server feeds back calibration information corresponding to the verification code IIA to a verification code reader held by a user;

and (5) verifying: a user scans a verification code IIB to be verified, and calibration information and current dynamic position information corresponding to the verification code IIB are sent to a server; the server matches the current dynamic position information with the dynamic position information I, and if the matching verification of the current dynamic position information and any dynamic position information I is successful and the verification code IIB passes the verification, the server feeds back calibration information corresponding to the verification code IIB to a verification code reader held by a user;

7. A composite verification code system with calibration function according to claim 1, 2, 3, 4, 5 or 6, characterized in that said verification code is an information code that can be scanned and read.

8. A composite verification code system with calibration function according to claim 1, 2, 3, 4, 5 or 6, characterized in that said verification code is a specific graphic code that can be scanned and read by mobile phone.

9. The composite verification code system with calibration function as claimed in claim 8, wherein the specific graphic code comprises bar code and two-dimensional code which can be scanned and read by mobile phone.

10. The composite verification code system with calibration function as claimed in claim 8, wherein the two-dimensional code comprises PDF417 stacked two-dimensional code.

11. The composite verification code system with calibration function as claimed in claim 8, wherein the verification code A and the verification code B are stacked verification codes.

12. The composite verification code system with the calibration function as claimed in claim 1, 2, 3, 4, 5 or 6, wherein the covering material on the verification code B is a coating or a covering film, the covering material is printed with all or part of the information of the verification code A, and the covering material is scraped off, so that the verification code A is damaged after the verification code B is completely or partially displayed.

13. The composite verification code system with calibration function as claimed in claim 1, 2, 3, 4, 5 or 6, wherein said verification code A partially covers verification code B;

the area where the verification code A is located is divided into a public area and a vulnerable area located on the covering material, namely the public area and the pattern on the vulnerable area form a complete verification code A;

the region where the verification code B is located is divided into a public region and a ciphertext region located under a covering substance, namely the public region and the graph on the ciphertext region form a complete verification code B;

14. The composite verification code system with the calibration function as claimed in claim 12 or 13, wherein the verification code A and the verification code B adopt a partition composite coding rule to partition and code a common region, a vulnerable region and a ciphertext region, and then are composited into a complete verification code A and a complete verification code B.

15. The composite verification code system with calibration function as claimed in claim 12 or 13, wherein the common area shared by the verification code A and the verification code B has server address information, identification code information and commodity public information.

16. The composite verification code system with calibration function as claimed in claim 1, 2, 3, 4, 5 or 6, wherein said verification code A partially covers verification code B;

17. The composite verification code system with the calibration function as claimed in claim 1, 2, 3, 4, 5 or 6, wherein the interfaces of the verification code areas of the public area, the vulnerable area and the ciphertext area adopt redundant transitional coding, so that the manufacturing process requirement of the composite verification code is reduced, and the fault tolerance level of the composite verification code system is improved.

18. A composite authentication code system with calibration functions according to claim 1, 2, 3, 4, 5 or 6, wherein:

in the first verification, if the verification code A passes the verification and does not have a failure mark, the verification code reader held by the user prompts the user that the verification code B exists below the verification code A, and the verification code A needs to be scraped and the verification code B continues to be scanned, so that the verification can be further verified;

In the third verification step, if the verification code B appears and the verification code A appears, the reader reminds the user that the commodity is counterfeit.

19. A composite authentication code system with calibration functions according to claim 1, 2, 3, 4, 5 or 6, wherein:

if the vulnerable area of the verification code A is not completely scraped, but the code scanning device can already judge that part of the verification code B is exposed, the verification code B is considered to be displayed.

20. The composite verification code system with calibration function as claimed in claim 1, 2, 3, 4, 5 or 6, wherein when the vulnerable area of the verification code A is not completely scraped, after scanning by the code scanning device, if the obtained fields include a part of the fields of the verification code A and a part of the fields of the verification code B, the verification code B is considered to be revealed.

21. The composite verification code system with calibration function as claimed in claim 17, wherein when the reader reminds the user that the commodity is counterfeit, the reader prompts the user that the counterfeit can be reported online.

22. The composite verification code system with the calibration function as claimed in claim 1 or 2, wherein the calibration information is a server link address, commodity code information, identification code information and commodity associated information;

the dynamic verification information is geographical position information and is a commodity or a commodity package selling place provided with a composite verification code;

23. The composite verification code system with calibration function as claimed in claim 3 or 4, wherein the calibration device has a positioning function; and during calibration operation, the dynamic verification information generated by the calibration equipment is geographical position information.

24. The composite verification code system with calibration function as claimed in claim 4, wherein the electronic tag is written with anti-counterfeiting information;

the calibration information is geographical positioning information or serial number information acquired when the electronic tag is verified to be true by the calibration equipment.

25. The composite verification code system with calibration function as claimed in claim 4, wherein the calibration information is geographical location information or number information preset in the electronic tag.

26. The composite verification code system with the calibration function as claimed in claim 4, wherein the geographic location information is a commodity or a commodity package selling place provided with the composite verification code;

the serial number information is a serial number of a commodity or a commodity package sales merchant provided with a composite verification code;

and the calibration equipment reads the calibration information in the electronic tag and sends the calibration information to the server.