CN113128635A - Method and system for inspecting textile shipment - Google Patents

Abstract

The invention discloses a method and a system for inspecting textile shipment, wherein the method comprises the following steps: compressing each quality inspection parameter of the textile and inputting the compressed quality inspection parameter into a two-dimensional code generator to generate a two-dimensional code label; spraying and printing the two-dimensional code label on the textile; scanning a two-dimensional code label, and extracting data recorded in the two-dimensional code label; and matching the data extracted from the two-dimension code label with the standard data stored in the database, and sending an unqualified signal when the matching is unqualified. The system comprises: the device comprises a compression module, a two-dimensional code generator, a spraying device, a two-dimensional code reading device and a matching module. The quality inspection parameters of the textiles are compressed and recorded in the two-dimensional code by taking the two-dimensional code label as a recording carrier, the quality inspection parameters of the textiles are obtained by scanning the two-dimensional code, and the quality inspection parameters are matched with standard data, so that the unqualified textiles are efficiently identified. The invention is mainly used in the field of textile inspection.

Description

Method and system for inspecting textile shipment

Technical Field

The invention relates to the technical field of textile detection, in particular to a method and a system for detecting the delivery of textiles.

Background

The textile comprises related products such as fiber, yarn, fabric, clothing, non-woven fabric and the like, and the products need to be inspected and delivered after production is completed.

In the existing mode, related index parameters are printed in files, then the files are checked one by an inspector, and delivery is performed only after the check is completed. However, this method of checking one by the inspector is not only troublesome but also has a low accuracy. Moreover, the types of products are different, the name lists to be inspected are also different, inspectors need to search different inspection standards to inspect the products, and the overall efficiency is low.

Disclosure of Invention

The present invention is directed to a method and system for inspecting the shipment of textiles to address one or more of the problems of the prior art, and to provide at least one useful alternative or creation.

The solution of the invention for solving the technical problem is as follows: there is provided a method of inspecting a shipment of textiles, comprising:

step 1, compressing each quality inspection parameter of the textile and inputting the compressed quality inspection parameter into a two-dimensional code generator to generate a two-dimensional code label;

step 2, spraying and printing the two-dimensional code label on the textile;

step 3, scanning the two-dimension code label and extracting data recorded in the two-dimension code label;

and 4, matching the data extracted from the two-dimensional code label with standard data stored in a database, and sending an unqualified signal when the matching is unqualified.

Further, in step 1, compressing each quality inspection parameter of the textile and inputting the compressed quality inspection parameter into a two-dimensional code generator to generate a two-dimensional code label, specifically comprising: compressing each quality inspection parameter of the textile by a Hash algorithm to obtain corresponding quality inspection parameter block data; inputting all quality inspection parameter block data into a two-dimensional code generator to generate a two-dimensional code label;

in step 3, scanning the two-dimensional code label, and extracting the data recorded in the two-dimensional code label specifically includes: scanning a two-dimensional code label, and extracting quality inspection parameter block data recorded in the two-dimensional code label;

in step 4, data comparison is carried out on the standard block data and the quality inspection parameter block data, when the quality inspection parameter block data contains data of non-standard block data, the matching is considered to be unqualified, and an unqualified signal is sent out;

the standard block data refers to data obtained by compressing preset standard data through a hash algorithm.

Further, the hash algorithm is SHA256 algorithm.

In another aspect, an inspection system for shipment of textiles is provided, comprising: the device comprises a compression module, a two-dimensional code generator, a spraying device, a two-dimensional code reading device and a matching module;

the compression module is to: compressing each quality inspection parameter of the input textile, and transmitting the compression result to a two-dimensional code generator;

the two-dimensional code generator is used for: generating a two-dimensional code label from the compression result;

the spraying device is used for spraying and printing the two-dimensional code label on the textile;

the two-dimensional code reading device is used for: scanning a two-dimensional code label, and extracting data recorded in the two-dimensional code label;

the matching module is used for: and matching the data extracted from the two-dimension code label with the standard data stored in the database, and sending an unqualified signal when the matching is unqualified.

Further, the compression module includes: the system comprises an input unit, a hash algorithm unit and an output unit;

the input unit is used for receiving each quality inspection parameter of the textile and inputting the quality inspection parameters into the Hash algorithm unit in sequence;

the Hash algorithm unit is used for converting each received quality inspection parameter into corresponding quality inspection parameter block data;

the output unit is used for collecting all quality inspection parameter block data and outputting and transmitting the two-dimensional code generator;

the two-dimensional code reading device is used for: scanning a two-dimensional code label, and extracting quality inspection parameter block data recorded in the two-dimensional code label;

the matching module is used for: comparing the standard block data with the quality inspection parameter block data, and when the quality inspection parameter block data contains data of non-standard block data, determining that the matching is unqualified and sending an unqualified signal;

the standard block data refers to data obtained by compressing preset standard data through a hash algorithm.

Further, the hash algorithm of the hash algorithm unit is SHA256 algorithm.

The invention has the beneficial effects that: the method provided by the invention has the advantages that the two-dimensional code label is used as a recording carrier, the quality inspection parameters of the textile are compressed and recorded in the two-dimensional code, the quality inspection parameters of the textile are obtained by scanning the two-dimensional code, and the quality inspection parameters are matched with standard data, so that the unqualified textile is efficiently identified. The quality of the delivered textiles can be detected by quality inspection personnel conveniently and rapidly.

Meanwhile, the invention also provides an inspection system for executing the method, and the inspection system is used for executing the method, so that the inspection system also has the beneficial effects of the method, and the description is not repeated here.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures are only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from them without inventive effort.

FIG. 1 is a flow chart of the steps of a method of inspecting a shipment of a textile;

FIG. 2 is a schematic representation of the connection of the inspection system for the shipment of textiles.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other.

Example 1, referring to fig. 1, a method of inspecting a textile shipment, comprising:

step 1, compressing each quality inspection parameter of the textile and inputting the compressed quality inspection parameter into a two-dimensional code generator to generate a two-dimensional code label;

step 2, spraying and printing the two-dimensional code label on the textile;

step 3, scanning the two-dimension code label and extracting data recorded in the two-dimension code label;

and 4, matching the data extracted from the two-dimensional code label with standard data stored in a database, and sending an unqualified signal when the matching is unqualified.

The object of the inspection method of the present application is to record each quality detection parameter in a two-dimensional code label by using the two-dimensional code as a record carrier for each quality detection parameter of the textile. By jet printing the two-dimensional code label into the textile. When the textile is shipped, the two-dimension code label is scanned, and the data recorded in the two-dimension code label is extracted. Thereby obtaining each quality detection parameter recorded in the two-dimensional code label. Each quality detection parameter is matched with the pre-stored standard data, and when the quality detection parameter is not matched with the pre-stored standard data, the quality problem exists in the textile, and a non-qualified signal is sent out to remind quality inspection personnel to pay attention.

The invention takes the two-dimensional code label as a record carrier, compresses and records the quality inspection parameters of the textile in the two-dimensional code, obtains the quality inspection parameters of the textile by scanning the two-dimensional code, and matches the quality inspection parameters with the standard data, thereby efficiently identifying the unqualified textile. The quality of the delivered textiles can be detected by quality inspection personnel conveniently and rapidly.

Because the quality inspection parameters of the textile are many, if each quality inspection parameter of the textile is compressed according to the existing compression technology, the situation that a single two-dimensional code label cannot be completely accommodated due to overlarge data also exists. For this reason, it is necessary to seek a method that can facilitate efficient compression and recording of each quality detection parameter in a single two-dimensional code standard.

Based on the above consideration, in some preferred embodiments, in step 1, each quality inspection parameter of the textile is compressed and then input into the two-dimensional code generator, so as to generate the two-dimensional code label, which specifically includes: compressing each quality inspection parameter of the textile by a Hash algorithm to obtain corresponding quality inspection parameter block data; inputting all quality inspection parameter block data into a two-dimensional code generator to generate a two-dimensional code label; in step 3, scanning the two-dimensional code label, and extracting the data recorded in the two-dimensional code label specifically includes: scanning a two-dimensional code label, and extracting quality inspection parameter block data recorded in the two-dimensional code label; in step 4, data comparison is carried out on the standard block data and the quality inspection parameter block data, when the quality inspection parameter block data contains data of non-standard block data, the matching is considered to be unqualified, and an unqualified signal is sent out; the standard block data refers to data obtained by compressing preset standard data through a hash algorithm.

In these embodiments, in step 1, each quality inspection parameter of the textile is compressed by a hash algorithm, and each quality inspection parameter of the textile is digest-compressed by using the compression method of the hash algorithm, so as to obtain quality inspection parameter block data, where the data volume of the quality inspection parameter block data is 64B to 256B according to the difference of the hash algorithm. The amount of data is determined by a hash algorithm. In some embodiments, the hashing algorithm employed is the SHA256 algorithm. Each quality check parameter is digest compressed by SHA256 algorithm, which can compress each quality check parameter to 256B of data volume. The data capacity of the existing two-dimensional code label is about 10KB, so that after the two-dimensional code label is compressed by a Hash algorithm, about 40 quality inspection parameters can be accommodated in one two-dimensional code label, and the data requirement of most textiles can be met. In step 3, in the two-dimensional code label, the extracted data is quality inspection parameter block data. In step 4, the quality check parameter block data is matched as needed. Moreover, due to the particularity of the hash algorithm, how to decompress the quality inspection parameter block data according to the existing decompression mode will consume a lot of time, thereby slowing down the overall inspection speed. Therefore, in step 4, in order to match the quality inspection parameter block data more quickly, the standard data needs to be compressed by the same hash algorithm, and the obtained standard block data based on the hash algorithm is compared with the quality inspection parameter block data. And when the quality inspection parameter block data has data which is not the standard block data, the quality inspection parameter block data is considered to be unqualified in matching, and an unqualified signal is sent out.

Each quality inspection parameter is compressed through a Hash algorithm, standard data are compressed through the same Hash algorithm, and the standard block data and the quality inspection parameter block data are compared, so that the matching speed is improved, and the inspection efficiency of unqualified textiles is improved.

Referring to fig. 2, the present embodiment also provides an inspection system for the shipment of textiles, comprising: the device comprises a compression module, a two-dimensional code generator, a spraying device, a two-dimensional code reading device and a matching module;

the compression module is to: compressing each quality inspection parameter of the input textile, and transmitting the compression result to a two-dimensional code generator;

the two-dimensional code generator is used for: generating a two-dimensional code label from the compression result;

the spraying device is used for spraying and printing the two-dimensional code label on the textile;

the two-dimensional code reading device is used for: scanning a two-dimensional code label, and extracting data recorded in the two-dimensional code label;

the matching module is used for: and matching the data extracted from the two-dimension code label with the standard data stored in the database, and sending an unqualified signal when the matching is unqualified.

In some preferred embodiments, the compression module comprises: input unit, hash algorithm unit and output unit

The input unit is used for receiving each quality inspection parameter of the textile and inputting the quality inspection parameters into the Hash algorithm unit in sequence;

the Hash algorithm unit is used for converting each received quality inspection parameter into corresponding quality inspection parameter block data;

the output unit is used for collecting all quality inspection parameter block data and outputting and transmitting the two-dimensional code generator;

the two-dimensional code reading device is used for: scanning a two-dimensional code label, and extracting quality inspection parameter block data recorded in the two-dimensional code label;

the matching module is used for: comparing the standard block data with the quality inspection parameter block data, and when the quality inspection parameter block data contains data of non-standard block data, determining that the matching is unqualified and sending an unqualified signal;

the standard block data refers to data obtained by compressing preset standard data through a hash algorithm.

In some preferred embodiments, the hash algorithm of the hash algorithm unit is SHA256 algorithm.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the invention and its scope is defined by the claims appended hereto.

Claims (6)

1. A method of inspecting a shipment of a textile, comprising:

step 1, compressing each quality inspection parameter of the textile and inputting the compressed quality inspection parameter into a two-dimensional code generator to generate a two-dimensional code label;

step 2, spraying and printing the two-dimensional code label on the textile;

step 3, scanning the two-dimension code label and extracting data recorded in the two-dimension code label;

and 4, matching the data extracted from the two-dimensional code label with standard data stored in a database, and sending an unqualified signal when the matching is unqualified.

2. A method of inspecting the shipment of a textile product according to claim 1,

in step 1, compressing each quality inspection parameter of the textile and inputting the compressed quality inspection parameter into a two-dimensional code generator to generate a two-dimensional code label, specifically comprising: compressing each quality inspection parameter of the textile by a Hash algorithm to obtain corresponding quality inspection parameter block data; inputting all quality inspection parameter block data into a two-dimensional code generator to generate a two-dimensional code label;

in step 3, scanning the two-dimensional code label, and extracting the data recorded in the two-dimensional code label specifically includes: scanning a two-dimensional code label, and extracting quality inspection parameter block data recorded in the two-dimensional code label;

in step 4, data comparison is carried out on the standard block data and the quality inspection parameter block data, when the quality inspection parameter block data contains data of non-standard block data, the matching is considered to be unqualified, and an unqualified signal is sent out;

the standard block data refers to data obtained by compressing preset standard data through a hash algorithm.

3. The method of claim 1, wherein the hashing algorithm is SHA256 algorithm.

4. An inspection system for the shipment of textiles, comprising: the method comprises the following steps: the device comprises a compression module, a two-dimensional code generator, a spraying device, a two-dimensional code reading device and a matching module;

the compression module is to: compressing each quality inspection parameter of the input textile, and transmitting the compression result to a two-dimensional code generator;

the two-dimensional code generator is used for: generating a two-dimensional code label from the compression result;

the spraying device is used for spraying and printing the two-dimensional code label on the textile;

the two-dimensional code reading device is used for: scanning a two-dimensional code label, and extracting data recorded in the two-dimensional code label;

the matching module is used for: and matching the data extracted from the two-dimension code label with the standard data stored in the database, and sending an unqualified signal when the matching is unqualified.

5. A system for inspecting the shipment of textiles as recited in claim 4, wherein: the compression module includes: the system comprises an input unit, a hash algorithm unit and an output unit;

the input unit is used for receiving each quality inspection parameter of the textile and inputting the quality inspection parameters into the Hash algorithm unit in sequence;

the Hash algorithm unit is used for converting each received quality inspection parameter into corresponding quality inspection parameter block data;

the output unit is used for collecting all quality inspection parameter block data and outputting and transmitting the two-dimensional code generator;

the two-dimensional code reading device is used for: scanning a two-dimensional code label, and extracting quality inspection parameter block data recorded in the two-dimensional code label;

the matching module is used for: comparing the standard block data with the quality inspection parameter block data, and when the quality inspection parameter block data contains data of non-standard block data, determining that the matching is unqualified and sending an unqualified signal;

the standard block data refers to data obtained by compressing preset standard data through a hash algorithm.

6. A system for inspecting the shipment of textiles as recited in claim 5, wherein: the hash algorithm of the hash algorithm unit is SHA256 algorithm.

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