CN111461602A

CN111461602A - Barcode generation system and method of spunlace nonwoven product based on cloud server

Info

Publication number: CN111461602A
Application number: CN202010241557.XA
Authority: CN
Inventors: 史成玉; 杜敏; 王晶; 朱波; 于宽; 马振武; 史可; 李博
Original assignee: Jinan Yongxin New Material Technology Co ltd
Current assignee: Jinan Yongxin New Material Technology Co ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2020-07-28

Abstract

The invention discloses a barcode generation system and a barcode generation method of a spunlace non-woven product based on a cloud server, wherein the barcode generation system comprises the following steps: the ERP server receives input product contract and product order information; the ERP server uploads the received product contract and product order information to the cloud server; the MES scheduling server issues a scheduling instruction to the production line according to the product contract and the product order information stored in the cloud server; when the product is off-line in production, the bar code server generates a unique bar code of the product under the same order number according to the product contract and the product order information stored in the cloud server and the actual product specification and parameters in the MES production scheduling server; the bar code server prints and outputs the unique bar code; the bar code printed and output is pasted on a corresponding product; and the bar code server stores the unique bar code and the product contract as well as the one-to-one corresponding relation between the product order information and the product specification and parameters to the cloud server.

Description

Barcode generation system and method of spunlace nonwoven product based on cloud server

Technical Field

The disclosure relates to the technical field of spunlace nonwoven, in particular to a barcode generation system and method of a spunlace nonwoven product based on a cloud server.

Background

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

The inventor finds that management is a big problem in the spunlace non-woven field, the product is large in variety and specification, high in production speed and large in yield, and product tracing, statistics and analysis are all difficult problems in the field.

Traditional single bar code server does not share data with other servers, only possesses the function of generating bar code information and giving product identity, and because of the product diversification in the field of spunlace non-woven fabrics, customers are various, and single bar code server can not satisfy the accurate management of producing off-line products.

Disclosure of Invention

To address the deficiencies of the prior art, the present disclosure provides a cloud server based bar code generation system and method for spunlace nonwoven products; the cloud server is used as a core, and product information records in the bar code server are effectively utilized, so that the full-process management of the spunlace non-woven fabric from production offline to slitting to packaging to warehousing and then to ex-warehouse is realized.

In a first aspect, the present disclosure provides a cloud server-based barcode generation system for spunlace nonwoven products;

a cloud server based barcode generation system for spunlace nonwoven products comprising: a cloud server;

the cloud server is respectively connected with the ERP server, the MES scheduling server, an upper computer of the automatic packaging machine and the bar code server;

the ERP server receives input product contract and product order information;

the ERP server uploads the received product contract and product order information to the cloud server;

the MES scheduling server issues a scheduling instruction to the production line according to the product contract and the product order information stored in the cloud server;

when the product is off-line in production, the bar code server generates a unique bar code of the product under the same order number according to the product contract and the product order information stored in the cloud server and the actual product specification and parameters in the MES production scheduling server;

the bar code server prints and outputs the unique bar code; the bar code printed and output is pasted on a corresponding product; and the bar code server stores the unique bar code and the product contract as well as the one-to-one corresponding relation between the product order information and the product specification and parameters to the cloud server.

In a second aspect, the present disclosure provides a method of barcode generation for cloud server-based spunlace nonwoven products;

the barcode generation method of the spunlace nonwoven product based on the cloud server comprises the following steps:

the ERP server receives input product contract and product order information;

Compared with the prior art, the beneficial effect of this disclosure is:

the latest bar code technology is combined with the computer technology and the internet technology, and the functions of product traceability and information management can be realized by generating and acquiring production data, transmitting network data and carrying out unified management and analysis on the data, so that the management efficiency of an enterprise is improved, and a powerful basic data support is provided for the development of the enterprise.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

FIG. 1 is a flow chart of the method of the first embodiment.

Detailed Description

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

In a first embodiment, the present embodiment provides a barcode generation system for a cloud server-based spunlace nonwoven product;

as shown in fig. 1, a barcode generation system for cloud server based spunlace nonwoven products comprises: a cloud server;

the ERP server receives input product contract and product order information;

Preferably, the barcode generation system of the spunlace nonwoven product based on the cloud server further comprises:

a scanning terminal connected with an upper computer of the automatic packaging machine scans the bar codes pasted on the products to be packaged; transmitting the bar code obtained by scanning to an upper computer of an automatic packaging machine;

the upper computer of the automatic packaging machine uploads the obtained bar code to the cloud server, and downloads the packaging specification requirement in the product contract corresponding to the bar code from the cloud server;

and the upper computer of the automatic packaging machine gives an order to the packaging robot according to the packaging specification requirement in the product contract corresponding to the bar code, and automatically packages the product.

the scanning terminal connected with the sales terminal scans the bar code pasted on the product to be sold; transmitting the scanned bar code to a sales terminal;

and the sales terminal uploads the acquired sales records of the products corresponding to the bar codes to the cloud server, and the cloud server stores the bar codes and the sales records of the products corresponding to the bar codes into the ERP system.

the scanning terminal connected with the production scheduling terminal scans the bar code pasted on the product to be scheduled; transmitting the bar code obtained by scanning to a production scheduling terminal;

and the production scheduling terminal uploads the obtained production scheduling records of the products corresponding to the bar codes to the cloud server, and the cloud server stores the bar codes and the production scheduling records of the products corresponding to the bar codes into the ERP system.

the scanning terminal connected with the production recording terminal scans the bar code pasted on the product to be recorded; transmitting the bar code obtained by scanning to a production recording terminal;

and the production record terminal uploads the obtained production records of the products corresponding to the bar codes to the cloud server, and the cloud server stores the bar codes and the production records of the products corresponding to the bar codes into the ERP system.

the scanning terminal connected with the warehouse-in and warehouse-out terminal scans the bar codes pasted on the products to be warehoused and warehoused; the bar code obtained by scanning is transmitted to a warehousing terminal;

the in-out terminal uploads the in-out record of the product corresponding to the obtained bar code to the cloud server together, and the cloud server stores the bar code and the production record of the product corresponding to the bar code into the ERP system;

mastering and managing the warehousing, storage position and ex-warehouse conditions of the goods through the real-time change of data in the ERP server; and the warehouse space is effectively utilized by combining the first-in first-out management rule of the goods.

the MES production scheduling server sends an in-out warehouse record query instruction of a product under a certain bar code to the cloud server, the cloud server sends the in-out warehouse record query instruction to the ERP server, the ERP server queries a corresponding in-out warehouse record according to the bar code and feeds the in-out warehouse record back to the MES production scheduling server through the cloud server; and the MES scheduling server adjusts the number of produced products, the specifications of the produced products and the number of warehoused products in real time according to the warehouse-in and warehouse-out records.

the MES scheduling server sends the number of the bar codes printed by the bar code server under the current order number to the cloud server, and accumulates and calculates the number of the products generated by the current order;

and the cloud server feeds back the number of the products generated by the current order to the MES scheduling server, and the MES scheduling server checks and subtracts the residual number of the order according to the number of the products generated by the current order and dynamically adjusts the scheduling state.

Further, when the production personnel scan the first bar code by holding the scanning terminal, the bar code server extracts the production parameters of the spunlace nonwoven product corresponding to the first bar code from the bar code database and outputs the production parameters.

It should be understood that the production scheduling terminal is a smartphone or a PC terminal used by a production scheduling staff.

It should be understood that the sales terminal is a smartphone or PC terminal used by the sales staff.

Scheduling list table: the table mainly records production scheduling list information, which mainly comprises product information, process information, packaging schemes and other necessary data in the production process;

a slitting bar code table which mainly records data information of the products of the cropping which are divided into small discs;

a packaging bar code table, which mainly records the data information of the product after packaging according to the packaging scheme;

the table mainly records data information such as the number of an in-out warehouse list, the number of bar codes, the number of in-out warehouses, the number of warehouses, customers, the time of in-out warehouses and the like;

inventory information table: the table primarily records product inventory information in the warehouse.

The cloud server mainly makes connections among all systems through, realizes conversion and transmission of data among all subsystems written in different languages, and performs unified planning, sorting, storage and analysis on the converted and transmitted data.

Firstly, each subsystem (bar code, ERP, mobile office and the like) puts forward the requirement of acquiring data from other systems;

secondly, opening a database view or writing a data interface by each subsystem according to the data requirements of other systems, transmitting the required data to a cloud server, and uniformly managing the received data by the platform;

and finally, each subsystem develops a corresponding interface, acquires required data from the cloud server for the system to operate and use, and meanwhile, the cloud server realizes the data sorting and analysis and provides accurate and effective data guarantee for the development of enterprises.

The cloud server utilizes wso2 (which provides various infrastructures, technical frameworks and related tools related to SOA, process servers, appserver and the like, and is Apache 2.0 open source protocol, is commercially friendly and also opens a convenient door for learners). The wso2 provides a full set of SOA related technologies, and can be used after opening a box, and documents are complete and include docs, Quick Start, install guide and the like). The data in the barcode server is shared through the cloud server, so that other subsystems can fully utilize product data information in the barcode server, and meanwhile, the barcode server can also directly utilize data shared by other subsystems through the cloud server.

The cloud server is used as a core, data interaction between the bar code server and an ERP system (basic data such as contract and order product information exist in the ERP system) can be realized, the bar code server can directly acquire the order and the basic information of the product in the ERP system, so that a bar code is generated in the bar code server, the workload of manually inputting data in the bar code system is reduced, and meanwhile, the ERP server can acquire the product in-out warehouse information in the bar code server to realize in-out warehouse management of the product.

The spunlace nonwoven fabric is produced and off-line, after slitting, bar codes need to be attached to each small disc, before improvement, information needing to generate the bar codes needs to be manually input by referring to an ERP system, a cloud server is used as a data medium, and a bar code server can directly acquire data information in the ERP to generate printed bar codes, so that manual input is avoided, mistakes are easily made, and the workload is reduced.

The products need to be scanned and stored in a warehouse after being packaged, the barcode server has no function of warehouse management, and code scanning and storing information can be directly uploaded to an ERP system due to the existence of the cloud server, so that management of the products in and out of the warehouse is realized.

The cloud server is used as a core, data interaction between the MES scheduling server and the bar code server can be realized, the MES scheduling server can acquire product information generated and code-scanned in the bar code server and put in storage, and the production process can be controlled (the number of produced products, the specifications of the produced products and the number of products put in storage), so that the function of adjusting the scheduling plan pair is achieved.

The cloud server is used as a core, data interaction between the bar code server and the upper computer of the automatic packaging machine can be realized, and the upper computer of the automatic packaging machine can make a stacking and packaging scheme by acquiring the product specification of the production offline product in the bar code server.

The barcode generation process is as follows:

1. the sales service personnel inputs the basic information (customer, name, raw material ratio, breadth, etc.) of the product into the ERP server

2. The MES scheduling server sends a scheduling instruction by acquiring basic data in the ERP server;

3. when the product is off-line in production, the bar code server acquires basic information in the ERP server and actual product specifications and parameters in the MES production scheduling server through the cloud server to generate a corresponding bar code;

the management of the bar code is as follows:

products which are produced off-line need to be stacked, packaged and put in storage

1. After the product is cut, the cutting bar code generated by pasting on each small coil cloth is obtained by the upper computer of the automatic packaging machine through scanning the bar code information by the handheld terminal, and the upper computer of the automatic packaging machine issues an instruction to the palletizing robot and palletizes the goods according to different specifications.

On the premise of being based on a cloud server, the automatic packaging of the product is realized by effectively utilizing the slitting bar codes;

2. when the product is off-line in production, the number of the products produced by the order is calculated in an accumulated mode according to the number of the generated bar codes in the bar code server, the information is fed back to the MES production scheduling server, the residual number of the order can be reduced, and the automatic production scheduling function is realized;

3. when packaged products are delivered to a warehouse, scanning codes of products delivered to the warehouse through a scanning terminal, uploading the information to an ERP server through a cloud server, and business personnel can master and manage the delivery conditions of the goods in the warehouse, the storage position and the delivery condition through real-time change of data in the ERP server; the warehouse space is effectively utilized by combining the management rule of first-in first-out of goods, which is also a beneficial characteristic of a bar code server and a management method based on a cloud server;

the products produced in the spunlace nonwoven industry are diversified, and the main product information comprises: data such as customer, proportion, gram weight, breadth, coil diameter, moisture regain, packaging specification, team group, date, moisture regain and the like;

the generation of the bar code is not limited to endowing the product with an identity by pasting the bar code;

the system is mainly characterized in that a single bar code system is combined with an MES scheduling server, an upper computer of an automatic packaging machine and an ERP server to realize the integral function;

the database of each subsystem is combined in a view and interface mode through the cloud server, so that the effective application of each system data is realized;

the bar code server can acquire basic data of product customers and the like in the ERP server, so that repeated construction of the basic data in a bar code system is reduced, and the condition that basic information of a plurality of systems is not uniform is avoided;

secondly, the bar code server can acquire data in an MES scheduling server database, and acquire product specification data of each online monitoring device according to the current production condition of a workshop; the bar code server can refer to the number of bar codes generated by the system, feed back the completion progress of the current order of the MES scheduling server, make corresponding scheduling change and realize the function of automatic scheduling;

the bar code server is combined with an upper computer of the automatic packaging machine, data such as the diameter, the width and the packaging specification of the product are transmitted to the upper computer of the automatic packaging machine, and the upper computer of the automatic packaging machine can issue a corresponding packaging instruction to the palletizing robot through the packaging information acquired by the bar code server;

and fourthly, the bar code server is combined with the handheld terminal, the storage position and the ex-warehouse condition of the goods are determined by scanning the goods into and out of the warehouse, and the information is fed back to a warehousing module in the ERP server, so that warehousing in and out of the warehouse is realized.

Secondly, the embodiment provides a barcode generation method of a spunlace nonwoven product based on a cloud server;

the ERP server receives input product contract and product order information;

Preferably, the barcode generation method of the spunlace nonwoven product based on the cloud server further comprises:

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. Cloud server-based bar code generation system for spunlace nonwoven products, which is characterized by comprising the following steps: a cloud server;

the ERP server receives input product contract and product order information;

2. The system of claim 1, further comprising:

3. The system of claim 1, further comprising:

4. The system of claim 1, further comprising:

5. The system of claim 1, further comprising:

6. The system of claim 1, further comprising:

7. The system of claim 1, further comprising:

8. The system of claim 1, further comprising:

9. The bar code generation method of the spunlace non-woven product based on the cloud server is characterized by comprising the following steps:

the ERP server receives input product contract and product order information;

10. The method of claim 9, further comprising: