CN109272065B - Two-dimensional code manufacturing method and system - Google Patents

Abstract

The invention relates to a two-dimensional code manufacturing method and a system thereof, wherein the method comprises the steps of obtaining two-dimensional code order data; generating a characteristic field to be compared according to the two-dimension code order data; judging whether the characteristic fields to be compared are repeated with the characteristic fields stored in the database or not; if not, archiving the two-dimension code order data to generate a standard two-dimension code, and archiving the standard two-dimension code; carrying out batch production of the standard two-dimensional code to form a two-dimensional code to be delivered out of a factory; detecting the two-dimension code to be delivered from a factory when the standard two-dimension code is produced in batches; and acquiring the two-dimension code to be delivered meeting the requirements to form the two-dimension code to be delivered. The invention realizes the whole automatic production and comparison process, ensures that the mass-produced two-dimensional codes really realize one object-one code without the conditions of repeated codes, wrong codes and missing codes, realizes the accurate identification of the two-dimensional codes with the wrong codes, the missing codes and the repeated codes in the manufacturing process of the two-dimensional codes, and has high production efficiency.

Description

Two-dimensional code manufacturing method and system

Technical Field

The invention relates to a two-dimensional code, in particular to a two-dimensional code manufacturing method and a system thereof.

Background

The two-dimensional bar code/two-dimensional code (2-dimensional bar code) records data symbol information by using black and white alternate graphs which are distributed on a plane (two-dimensional direction) according to a certain rule by using a certain specific geometric figure; the concept of '0' and '1' bit stream which forms the internal logic base of computer is skillfully utilized in coding, a plurality of geometric shapes corresponding to binary system are used for representing literal numerical information, and the information is automatically read by an image input device or an optoelectronic scanning device so as to realize the automatic processing of the information: it has some commonality of barcode technology: each code system has its specific character set; each character occupies a certain width; has certain checking function and the like. Meanwhile, the method also has the function of automatically identifying information of different rows and processing the graph rotation change points.

At present, with the increasing demand of network payment and the application of everywhere visible two-dimensional code payment, the demand of one object and one code is very common, and one object and one code means that one merchant or one article corresponds to one two-dimensional code. If the two-dimensional code is printed wrongly, the most serious result is that the money is received wrongly, or the money is sent to other merchants, or the price and the identity of the article are wrong, so that the benefits of the merchants are greatly influenced. At present, a flat plate inkjet printer or an inkjet printer is generally adopted for manufacturing two-dimensional codes in large batch, and dozens of meters of two-dimensional codes can be printed in one minute or more. When the mass production is carried out, no way is available for identifying which two-dimensional code has errors through human eyes, and if each two-dimensional code is manually scanned, the production efficiency is very low.

Therefore, it is necessary to design a method for accurately identifying a two-dimensional code with wrong codes, missing codes and repeated codes in the manufacturing process of the two-dimensional code, and the production efficiency is high.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a two-dimensional code manufacturing method and a system thereof.

In order to achieve the purpose, the invention adopts the following technical scheme: the two-dimensional code manufacturing method comprises the following steps:

acquiring two-dimension code order data;

generating a characteristic field to be compared according to the two-dimension code order data;

judging whether the characteristic fields to be compared are repeated with the characteristic fields stored in the database or not;

if not, archiving the two-dimension code order data to generate a standard two-dimension code, and archiving the standard two-dimension code;

carrying out batch production of the standard two-dimensional code to form a two-dimensional code to be delivered out of a factory;

detecting the two-dimension code to be delivered from a factory when the standard two-dimension code is produced in batches;

and acquiring the two-dimension code to be delivered meeting the requirements to form the two-dimension code to be delivered.

The further technical scheme is as follows: the judging whether the characteristic fields to be compared are repeated with the characteristic fields stored in the database comprises the following steps:

acquiring the ID number of the characteristic field to be compared;

searching in a database by using the ID number of the characteristic field to be compared;

judging whether an ID number which is repeated with the ID number of the characteristic field to be compared is searched in a database or not;

if so, repeating the characteristic field to be compared with the characteristic field stored in the database;

if not, the characteristic field to be compared is not repeated with the characteristic field stored in the database.

The further technical scheme is as follows: detect when standard two-dimensional code carries out batch production and wait to leave factory two-dimensional code, include:

scanning a two-dimension code to be delivered from a factory;

comparing the two-dimensional code to be delivered with the standard two-dimensional code stored in the database;

judging whether a manufacturing error condition occurs according to the comparison result;

if not, entering the judgment to judge whether the code is missing or not;

if yes, carrying out corresponding processing according to the category to which the making error condition belongs, and entering the judgment of whether the code leakage occurs or not;

judging whether the code is missing or not;

if so, adding the missing code condition into an error missing code table, and returning to the batch production of the standard two-dimensional code to form the two-dimensional code to be delivered out of the factory;

and if not, entering the two-dimension code to be delivered meeting the acquisition requirement to form the two-dimension code to be delivered.

The further technical scheme is as follows: the corresponding processing is carried out according to the category to which the manufacturing error condition belongs, and the two-dimensional code to be delivered from the factory is detected when the standard two-dimensional code is produced in batch, and the method comprises the following steps:

judging whether the category to which the error condition belongs is an error code category or not;

if so, suspending the batch production of the standard two-dimensional codes, detecting materials, adding the error code condition to an error-missing code table, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered out of the factory;

and if not, suspending the batch production of the standard two-dimensional code, detecting the material, and returning to the batch production of the standard two-dimensional code to form the two-dimensional code to be delivered.

The invention also provides a two-dimensional code making system, comprising:

the data acquisition unit is used for acquiring two-dimensional code order data;

the field generating unit is used for generating a characteristic field to be compared according to the two-dimensional code order data;

the judging unit is used for judging whether the characteristic fields to be compared are repeated with the characteristic fields stored in the database or not;

the archiving unit is used for archiving the two-dimension code order data to generate a standard two-dimension code if the two-dimension code order data is not stored, and archiving the standard two-dimension code;

the production unit is used for carrying out batch production on the standard two-dimensional codes so as to form two-dimensional codes to be delivered out of a factory;

the detection unit is used for detecting the two-dimensional code to be delivered from the factory when the standard two-dimensional code is produced in batches;

and the factory two-dimensional code acquisition unit is used for acquiring the to-be-factory two-dimensional code meeting the requirements to form the factory two-dimensional code.

The further technical scheme is as follows: the judging unit includes:

the ID acquisition subunit is used for acquiring the ID number of the characteristic field to be compared;

the searching subunit is used for searching in the database by using the ID number of the characteristic field to be compared;

the ID comparison subunit is used for judging whether an ID number which is repeated with the ID number of the characteristic field to be compared is searched in the database; if so, repeating the characteristic field to be compared with the two-dimensional code stored in the database; if not, the characteristic field to be compared is not repeated with the two-dimensional code stored in the database.

The further technical scheme is as follows: the detection unit includes:

the scanning subunit is used for scanning the two-dimensional code to be delivered from the factory;

the two-dimension code comparison subunit is used for comparing the two-dimension code to be delivered from the factory with the standard two-dimension code stored in the database;

the result judging subunit is used for judging whether a manufacturing error condition occurs according to the comparison result;

the processing subunit is configured to, if yes, perform corresponding processing according to a category to which the manufacturing error condition belongs, and enter the judgment to determine whether a missing code occurs;

a missing code type judgment subunit, configured to judge whether a missing code occurs;

and the missing code processing subunit is used for adding the missing code condition into the wrong missing code table if the missing code condition is met, and returning to the batch production of the standard two-dimensional codes so as to form the two-dimensional codes to be delivered out of the factory.

The further technical scheme is as follows: the processing subunit includes:

the error code judging module is used for judging whether the category to which the error condition belongs is the error code category or not;

the error code processing module is used for pausing the batch production of the standard two-dimensional codes if the error codes are generated, detecting materials, adding the error code condition into the error-missing code table, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered out of the factory;

and the repeated code module is used for suspending the batch production of the standard two-dimensional codes if the standard two-dimensional codes are not produced, detecting materials, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered from the factory.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the characteristic fields to be compared are generated according to the order data of the two-dimensional codes, the characteristic fields to be compared are compared before production, when the two-dimensional codes to be delivered out of a factory are subjected to automatic detection of missing codes, wrong codes and repeated codes, and corresponding processing is carried out according to the detection result, so that the whole automatic production and comparison process is realized, the two-dimensional codes produced in batches are ensured to truly realize one-object-one-code without repeated codes, wrong codes and missing codes, the two-dimensional codes with wrong codes, missing codes and repeated codes can be accurately identified in the production process of the two-dimensional codes, and the production efficiency is high.

The invention is further described below with reference to the accompanying drawings and specific embodiments.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart of a two-dimensional code manufacturing method according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a two-dimensional code manufacturing method according to an embodiment of the present invention;

fig. 3 is a schematic sub-flow chart of a two-dimensional code manufacturing method according to an embodiment of the present invention;

fig. 4 is a schematic sub-flow chart of a two-dimensional code manufacturing method according to an embodiment of the present invention;

fig. 5 is a schematic block diagram of a two-dimensional code production system according to an embodiment of the present invention;

fig. 6 is a schematic block diagram of a judging unit of a two-dimensional code making system according to an embodiment of the present invention;

fig. 7 is a schematic block diagram of a detection unit of a two-dimensional code production system according to an embodiment of the present invention;

fig. 8 is a schematic block diagram of a processing subunit of a two-dimensional code production system according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1, fig. 1 is a schematic flow chart of a two-dimensional code manufacturing method according to an embodiment of the present invention. The two-dimensional code manufacturing method is applied to a server. The server can be one server in a distributed service platform, a two-dimensional code manufacturing platform is deployed in the server, the two-dimensional code manufacturing platform receives order data input by a two-dimensional code manufacturing APP from a user terminal, the two-dimensional code is produced according to the order data, and the missing code, the wrong code and the repeated code conditions of the two-dimensional code are detected in real time in the production process.

Fig. 1 is a schematic flow chart of a two-dimensional code manufacturing method according to an embodiment of the present invention. As shown in fig. 1, the method includes the following steps S110 to S170.

And S110, acquiring two-dimension code order data.

In the present embodiment, the two-dimensional code order data includes a supplier code, a customer code, and a user's requirement, such as a pattern requirement for the two-dimensional code. Specifically, two-dimensional code order data is input from a user terminal.

And S120, generating a to-be-compared characteristic field according to the two-dimension code order data.

In this embodiment, the to-be-compared feature field refers to a field formed by two-dimensional code order data according to a coding rule, and the field has feature data representing the two-dimensional code order data.

S130, judging whether the characteristic fields to be compared are repeated with the characteristic fields stored in the database.

Specifically, whether preset verification requirements exist or not and whether the verification requirements are repeated with historical data or not are determined, each time a new two-dimensional code order requirement is received, the characteristic field to be compared is compared with the original two-dimensional code in the database, and after the repeated data do not exist, the characteristic field to be compared is formally stored in the database.

In one embodiment, as shown in fig. 2, the step S130 may include steps S131 to S135.

S131, obtaining the ID number of the characteristic field to be compared.

Each two-dimensional code to be compared has a unique ID number to represent the identity of the two-dimensional code, and the two-dimensional code to be compared plays a role in marking.

And S132, searching in a database by using the ID number of the characteristic field to be compared.

S133, judging whether an ID number which is repeated with the ID number of the characteristic field to be compared is searched in the database;

s134, if yes, repeating the characteristic field to be compared with the characteristic field stored in the database;

and S135, if not, the to-be-compared characteristic field is not repeated with the characteristic field stored in the database.

And searching in the database by using the ID number, and if the consistent ID number is searched, indicating that the two-dimensional code is produced in the previous producing country and can be directly generated in batches.

And S140, if not, archiving the two-dimension code order data to generate a standard two-dimension code, and archiving the standard two-dimension code.

And S150, carrying out batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered out of the factory.

The two-dimension code to be delivered out of the factory refers to a two-dimension code formed after standard two-dimension codes are produced in batches.

In this embodiment, a production device is specifically used for batch generation of the standard two-dimensional codes, and the production device is an apparatus for printing the two-dimensional codes, such as an inkjet printer or an inkjet printer.

And S160, detecting the two-dimension code to be delivered from the factory when the standard two-dimension code is produced in batch.

In this embodiment, specifically, the scanning device is on a production line, and the scanning device includes a high-speed scanner, and after scanning the two-dimensional code to be shipped from a factory at a high speed, the two-dimensional code is distinguished and compared with the standard two-dimensional code stored in the database, so as to perform full-automatic detection, which does not need manual operation, and can improve production efficiency.

In one embodiment, as shown in fig. 3, the step S160 may include steps S161 to S164.

And S161, scanning the two-dimension code to be delivered.

In particular to a scanning gun for scanning the two-dimension code to be delivered from a factory.

And S162, comparing the two-dimension code to be delivered with the standard two-dimension code stored in the database.

Specifically, the two-dimension code pattern of the two-dimension code to be delivered is compared with the two-dimension code pattern of the stored standard two-dimension code, if the two-dimension code patterns are consistent, the situation of making errors is determined to be absent, and if the two-dimension code patterns are inconsistent, the situation of making errors is determined to be present.

And S163, judging whether a manufacturing error condition occurs according to the comparison result.

The making error condition comprises the conditions of error codes, missing codes and repeated codes. Specifically, under the condition that two-dimension code patterns are inconsistent, if a two-dimension code pattern of a two-dimension code to be delivered from a factory and a two-dimension code pattern of a standard two-dimension code have local errors, the error condition is made to be an error code category; if the two-dimensional code pattern of the two-dimensional code to be delivered from the factory is completely different from the two-dimensional code pattern of the standard two-dimensional code, the error condition is a missing code category; and if the two-dimensional code patterns of the two-dimensional code to be delivered from the factory are completely different from the two-dimensional code patterns of the standard two-dimensional code and the counted number does not accord with the set number, the error condition is the missing code category.

If not, entering the S165;

s164, if yes, performing corresponding processing according to the category to which the manufacturing error condition belongs, and entering the S165;

s165, judging whether the code missing occurs or not;

s166, if yes, adding the missing code condition into an error missing code table, and returning to the S150;

if not, the process proceeds to S170.

In one embodiment, as shown in fig. 4, the step S164 may include steps S1641 to S1645.

S1641, judging whether the category to which the error making condition belongs is an error code category or not;

s1642, if yes, the batch production of the standard two-dimensional codes is suspended, materials are detected, the error code condition is added to an error-leakage code table, and the S150 is returned;

s1643, if not, suspending the batch production of the standard two-dimensional code, detecting the material, and returning to the S150.

When the error codes appear, the production end is informed to pause, the materials are detected, the error and leakage code table is automatically generated, the production is resumed after the batch production is finished, and the process is circulated until the error-free production of all the two-dimensional codes of the batch is finished; when the coincident code appears, the production end is informed to pause, and the material is detected; and (4) finishing the batch production, comparing the batch production with the standard two-dimensional codes, and judging whether the standard two-dimensional codes which are not compared exist, namely missing codes. If yes, automatically adding the two-dimensional code to the wrong and missed code table, and then reproducing, and repeating the steps until all the two-dimensional codes of the batch are produced without errors.

Specifically, a number can be set according to the size of the order number, and when the number is compared in production, a notice is sent to count the number of the two-dimensional codes and arrange the next procedure.

And S170, acquiring the two-dimension code to be delivered meeting the requirements to form the two-dimension code to be delivered.

In this embodiment, the factory two-dimensional code refers to a group of two-dimensional codes without duplication codes, omission codes and error codes. When the two-dimension codes to be delivered from the factory are produced, batch production can be carried out for many times until a batch of two-dimension codes to be delivered from the factory, which meet requirements, are produced.

In another embodiment, the method further includes:

and when the factory-leaving two-dimensional code leaves the factory, scanning the factory-leaving two-dimensional code to determine whether the factory-leaving two-dimensional code is wrong.

Specifically, a handheld client device is employed, the handheld client device is on a hand of a quality inspector, and the handheld client device includes a handheld scanning gun. The method is used for performing spot check on the quality inspectors before leaving factories, so that the wrong two-dimensional codes are ensured not to flow to customers, and the benefits of the customers and vast users are prevented from being damaged.

In an embodiment, the step S130 further includes:

and S180, if so, independently listing repeated two-dimensional code order data, and performing invalidation treatment according to requirements.

So as to eliminate repeated two-dimension codes.

According to the two-dimensional code manufacturing method, the characteristic fields to be compared are generated according to the two-dimensional code order data, the characteristic fields to be compared are compared and stored before production, automatic detection of missing codes, wrong codes and repeated codes is carried out on the two-dimensional codes to be delivered out of a factory during batch production, corresponding processing is carried out according to detection results, the whole automatic production and comparison process is achieved, the fact that the two-dimensional codes produced in batch really achieve one-object-one codes is guaranteed, the situations of repeated codes, wrong codes and missing codes do not exist, the two-dimensional codes with the wrong codes, the missing codes and the repeated codes can be accurately identified in the two-dimensional code manufacturing process, and production efficiency is high.

Fig. 5 is a schematic block diagram of a two-dimensional code production system 300 according to an embodiment of the present invention. As shown in fig. 5, the present invention further provides a two-dimensional code making system 300 corresponding to the above two-dimensional code making method. The two-dimensional code production system 300 includes a unit for performing the above-described two-dimensional code production method,

specifically, referring to fig. 5, the two-dimensional code production system 300 includes:

a data obtaining unit 301, configured to obtain two-dimensional code order data.

And a field generating unit 302, configured to generate a to-be-compared feature field according to the two-dimensional code order data.

The judging unit 303 is configured to judge whether the feature field to be compared is repeated with the feature field stored in the database.

And the archiving unit 304 is configured to archive the two-dimensional code order data to generate a standard two-dimensional code if the two-dimensional code order data is not stored, and archive the standard two-dimensional code.

And the production unit 305 is used for performing batch production of the standard two-dimensional code to form a two-dimensional code to be delivered from a factory.

The detecting unit 306 is configured to detect the two-dimensional code to be shipped out when the standard two-dimensional code is produced in batch.

And a factory two-dimensional code obtaining unit 307, configured to obtain the two-dimensional code to be factory, which meets the requirement, and form a factory two-dimensional code.

In an embodiment, as shown in fig. 6, the determining unit 303 includes:

an ID obtaining subunit 3031, configured to obtain an ID number of the feature field to be compared;

a search subunit 3032, configured to search in the database by using the ID number of the feature field to be compared;

an ID comparison sub-unit 3033, configured to determine whether an ID number that is identical to the ID number of the feature field to be compared is searched in the database; if so, repeating the characteristic field to be compared with the characteristic field stored in the database; if not, the characteristic field to be compared is not repeated with the characteristic field stored in the database.

In an embodiment, as shown in fig. 7, the detecting unit 306 includes:

the scanning subunit 3061 is used for scanning the two-dimensional code to be delivered from the factory;

the two-dimension code comparison subunit 3062 is used for comparing the two-dimension code to be delivered from the factory with the standard two-dimension code stored in the database;

a result determination subunit 3063, configured to determine whether a manufacturing error occurs according to the comparison result;

the processing subunit 3064 is configured to, if yes, perform corresponding processing according to the category to which the manufacturing error condition belongs, and enter the determination of whether a missing code occurs;

a missing code type determination subunit 3065, configured to determine whether a missing code occurs;

and the missing code processing subunit 3066 is configured to add the missing code condition to the wrong missing code table if the missing code condition is positive, and return to the batch production of the standard two-dimensional code to form the two-dimensional code to be delivered from the factory.

In one embodiment, the processing subunit 3064 includes:

the error code judging module 30641, configured to judge whether the category to which the error condition belongs is an error code category;

the error code processing module 30642 is configured to suspend batch production of the standard two-dimensional codes, detect a material, add an error code condition to the error-missing code table, and return to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be shipped out;

and the re-code module 30643 is used for suspending the batch production of the standard two-dimensional codes if the standard two-dimensional codes are not produced, detecting the materials, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered from the factory.

In another embodiment, the system further comprises:

and the confirming unit is used for scanning and confirming whether the two-dimensional code leaving the factory is wrong or not when the two-dimensional code leaving the factory leaves the factory.

In another embodiment, the system further comprises:

and the invalidation processing unit is used for separately listing repeated two-dimensional code order data if the order data is positive and carrying out invalidation processing according to the requirement.

It should be noted that, as can be clearly understood by those skilled in the art, the specific implementation processes of the two-dimensional code making system 300 and each unit may refer to the corresponding descriptions in the foregoing method embodiments, and for convenience and brevity of description, no further description is provided herein.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. The two-dimensional code manufacturing method is characterized by comprising the following steps:

acquiring two-dimension code order data;

generating a characteristic field to be compared according to the two-dimension code order data;

judging whether the characteristic fields to be compared are repeated with the characteristic fields stored in the database or not;

if not, archiving the two-dimension code order data to generate a standard two-dimension code, and archiving the standard two-dimension code;

carrying out batch production of the standard two-dimensional code to form a two-dimensional code to be delivered out of a factory;

detecting the two-dimension code to be delivered from a factory when the standard two-dimension code is produced in batches;

acquiring a two-dimension code to be delivered meeting requirements to form a delivery two-dimension code;

detect when standard two-dimensional code carries out batch production and wait to leave factory two-dimensional code, include:

scanning a two-dimension code to be delivered from a factory;

comparing the two-dimensional code to be delivered with the standard two-dimensional code stored in the database;

judging whether a manufacturing error condition occurs according to the comparison result;

if not, judging whether the code is missing or not;

if yes, carrying out corresponding processing according to the category to which the making error condition belongs, and entering the judgment of whether the code leakage occurs or not;

judging whether the code is missing or not;

if so, adding the missing code condition into an error missing code table, and returning to the batch production of the standard two-dimensional code to form the two-dimensional code to be delivered out of the factory;

if not, entering the two-dimension code to be delivered meeting the acquisition requirement to form a delivery two-dimension code;

the making error condition comprises the conditions of error codes, missing codes and repeated codes; specifically, under the condition that two-dimension code patterns are inconsistent, if a two-dimension code pattern of a two-dimension code to be delivered from a factory and a two-dimension code pattern of a standard two-dimension code have local errors, the error condition is made to be an error code category; if the two-dimensional code pattern of the two-dimensional code to be delivered from the factory is completely different from the two-dimensional code pattern of the standard two-dimensional code, the error condition is a missing code category; if the two-dimensional code patterns of the two-dimensional code to be delivered from the factory are completely different from the two-dimensional code patterns of the standard two-dimensional code and the counted number does not accord with the set number, the error condition is a missing code category;

the corresponding processing is carried out according to the category to which the manufacturing error condition belongs, and the two-dimensional code to be delivered from the factory is detected when the standard two-dimensional code is produced in batch, and the method comprises the following steps:

judging whether the category to which the error condition belongs is an error code category or not;

if so, suspending the batch production of the standard two-dimensional codes, detecting materials, adding the error code condition to an error-missing code table, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered out of the factory;

and if not, suspending the batch production of the standard two-dimensional code, detecting the material, and returning to the batch production of the standard two-dimensional code to form the two-dimensional code to be delivered.

2. The method of claim 1, wherein the determining whether the feature field to be compared is repeated with the feature field stored in the database comprises:

acquiring the ID number of the characteristic field to be compared;

searching in a database by using the ID number of the characteristic field to be compared;

judging whether an ID number which is repeated with the ID number of the characteristic field to be compared is searched in a database or not;

if so, repeating the characteristic field to be compared with the characteristic field stored in the database;

if not, the characteristic field to be compared is not repeated with the characteristic field stored in the database.

3. Two-dimensional code system of making, its characterized in that includes:

the data acquisition unit is used for acquiring two-dimensional code order data;

the field generating unit is used for generating a characteristic field to be compared according to the two-dimensional code order data;

the judging unit is used for judging whether the characteristic fields to be compared are repeated with the characteristic fields stored in the database or not;

the archiving unit is used for archiving the two-dimension code order data to generate a standard two-dimension code if the two-dimension code order data is not stored, and archiving the standard two-dimension code;

the production unit is used for carrying out batch production on the standard two-dimensional codes so as to form two-dimensional codes to be delivered out of a factory;

the detection unit is used for detecting the two-dimensional code to be delivered from the factory when the standard two-dimensional code is produced in batches;

the factory two-dimensional code acquisition unit is used for acquiring the to-be-factory two-dimensional code meeting the requirements to form a factory two-dimensional code;

the detection unit includes:

the scanning subunit is used for scanning the two-dimensional code to be delivered from the factory;

the two-dimension code comparison subunit is used for comparing the two-dimension code to be delivered from the factory with the standard two-dimension code stored in the database;

the result judging subunit is used for judging whether a manufacturing error condition occurs according to the comparison result;

the processing subunit is configured to, if yes, perform corresponding processing according to a category to which the manufacturing error condition belongs, and enter the judgment to determine whether a missing code occurs;

a missing code type judgment subunit, configured to judge whether a missing code occurs;

the missing code processing subunit is used for adding the missing code condition into the wrong missing code table if the missing code condition is met, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered out of the factory;

the processing subunit includes:

the error code judging module is used for judging whether the category to which the error condition belongs is the error code category or not;

the error code processing module is used for pausing the batch production of the standard two-dimensional codes if the error codes are generated, detecting materials, adding the error code condition into the error-missing code table, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered out of the factory;

the repeated code module is used for pausing the batch production of the standard two-dimensional codes if the standard two-dimensional codes are not produced, detecting materials, and returning to the batch production of the standard two-dimensional codes to form the two-dimensional codes to be delivered out of the factory;

the making error condition comprises the conditions of error codes, missing codes and repeated codes; specifically, under the condition that two-dimension code patterns are inconsistent, if a two-dimension code pattern of a two-dimension code to be delivered from a factory and a two-dimension code pattern of a standard two-dimension code have local errors, the error condition is made to be an error code category; if the two-dimensional code pattern of the two-dimensional code to be delivered from the factory is completely different from the two-dimensional code pattern of the standard two-dimensional code, the error condition is a missing code category; and if the two-dimensional code patterns of the two-dimensional code to be delivered from the factory are completely different from the two-dimensional code patterns of the standard two-dimensional code and the counted number does not accord with the set number, the error condition is the missing code category.

4. The two-dimensional code production system according to claim 3, wherein the judging unit includes:

the ID acquisition subunit is used for acquiring the ID number of the characteristic field to be compared;

the searching subunit is used for searching in the database by using the ID number of the characteristic field to be compared;

the ID comparison subunit is used for judging whether an ID number which is repeated with the ID number of the characteristic field to be compared is searched in the database; if so, repeating the characteristic field to be compared with the characteristic field stored in the database; if not, the characteristic field to be compared is not repeated with the characteristic field stored in the database.

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