CN112150075A

CN112150075A - Container and material management system

Info

Publication number: CN112150075A
Application number: CN202011057450.6A
Authority: CN
Inventors: 付国宝; 须佳薇; 赵仁宏; 武虎东; 刘桂林
Original assignee: Cosco Shipping Technology Co Ltd
Current assignee: Cosco Shipping Technology Co Ltd
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2020-12-29

Abstract

The invention discloses a container and material management system, which comprises: basic data management module, work order management module, business management module, box dispatching management module and system management module. The management system is based on a micro-service technology architecture and containerized management, and is integrally deployed on an enterprise private cloud based on a Docker container technology, a PC end technology framework is based on the package of a Spring + Mybatis lightweight J2EE architecture, a front end interface layer adopts a contact technology, and an ant design UI framework is used; the back end adopts a micro-service architecture, RPC communication and Zookeeper as a registration center, and Redis cache service is used. The system saves 30% of daily manual account-setting workload of the business department, the material department and the financial department on average. Through stream approval on an information line and at a mobile app end in the system, the original paper cross-connect receipt signing flow is gradually replaced, paperless office work is realized, information flow of each information system of a company is enhanced through system construction, and data instantaneity is improved.

Description

Container and material management system

Technical Field

The invention relates to the field of office automation, in particular to a container and a material management system.

Background

At present, due to the fact that various production and manufacturing enterprises have various material types, high daily warehouse entry and exit frequency and large receipt receiving and sending quantity, material management data cannot be obtained timely, data are disordered and the like; meanwhile, service handover is disordered due to the reasons of non-uniform material codes, poor accuracy of manual document data and the like. In order to solve the problems, a part of enterprises introduce a standardized material management system of an external IT manufacturer to manage production materials, but due to the fact that the management modes of the enterprises are different, the material characteristics are different and the like, and the standardized system is wide in coverage in design and not strong in pertinence to a specific industry, the standardized material management system cannot be matched with the actual management requirements of the production and manufacturing enterprises to a high degree, and new problems that part of functions of the standardized system are redundant, the operation and maintenance cost of the system is high, operators generate a large amount of study cost and the like are caused.

For container manufacturing enterprises, material management is a core component of enterprise production and manufacturing management, and in consideration of actual business characteristics of the container manufacturing enterprises, a refined, efficient, practical, safe and easily-extensible material management system for the container manufacturing enterprises is lacked in the industry. The research is started from an actual operation scene, the requirements of front-line operators, the management requirements and related upstream and downstream resources are highly integrated, and a set of information system meeting the management requirements of the materials of each level of a container manufacturing enterprise is designed and realized.

Disclosure of Invention

The invention aims to provide a container and material management system according to the defects of the prior art, and the system integrates various information by adopting an informatization means, so that the aim of improving the management efficiency is fulfilled.

The purpose of the invention is realized by the following technical scheme:

a container and materials management system, comprising:

container and material management system, its characterized in that includes:

the basic data management module comprises a data dictionary, a basic information module and a code management module

The work order management module is used for managing a container receiving list, and the container receiving list records service data such as a container manufacturing factory, a container number section, a container type, a container quantity, an offline plan and the like;

the business management module is used for calculating various service fees, wherein the fees comprise box inspection fees, trailer fees, barge fees, stockpiling fees and the like;

the container transferring management module is used for recording the relevant processes of container taking from a storage yard or container factory transporting containers from the storage yard to a client-specified storage yard and wharf, issuing transportation instructions to various suppliers, recording the change of the relevant address position and the time of a single container, and maintaining the transportation mode, the supplier, the expense subject and the amount of money in the transportation process of each course;

the system management module comprises a role management unit, an employee management unit, a department management unit, a molecular company management unit and a bottom layer tool unit;

and (3) managing the purchase order: the inquiry is issued through the PC end, the purchase part adds an order after the offer of the supplier is confirmed, and the material part can be informed to put the material in storage through the order number in time after the approval.

The mobile app approval module is used for mobile approval, inquiry issuing, tender approval and examination and approval and ex-warehouse approval of special materials;

the mobile app goods receiving and registering module is used for a supplier to carry a warehousing invoice to transport materials to a factory, a consignee checks the materials with the supplier by scanning a bar code on the invoice through the mobile app, after the materials are checked to be correct, the materials are confirmed in batches on the mobile app, material labels and labels are printed on site, the information of the materials which are registered in the warehouse is submitted to a back-end system in real time to form an account book, and after the account book records are summarized, the purchasing operation is carried out to confirm the goods;

the mobile app code scanning and ex-warehouse module is used for performing ex-warehouse and scheduling production on the materials after the materials part receives the production instruction of the technical part on the mobile app, and scanning the two-dimensional codes on the materials to confirm that the corresponding materials are ex-warehouse;

the mobile app material inventory inquiry module can be used for inquiring the material inventory through the mobile app by a user, so that a production part can know the existing inventory condition before material purchasing application so as to determine whether purchasing is needed or not;

and after the enterprise sends inquiry at the PC end, the supplier receives related invited quotations at the mobile app, the material quotation is carried out by clicking the mobile quotation message, and meanwhile, the system supports mobile quotation consultation.

The invention has the further improvement that the management system is based on micro-service technology architecture and containerized management, is integrally deployed on enterprise private cloud based on Docker container technology, the PC end technology framework is based on the package of Spring + Mybatis lightweight J2EE architecture, the front end interface layer adopts the act technology and uses an ant design UI framework; the back end adopts a micro-service architecture, RPC communication, Zookeeper is used as a registration center, Redis cache service, a Nacos configuration center and application Tomcat are used as a system application server and are deployed in a Linux operating system. The mobile terminal infrastructure adopts an MVVM design mode. Android communicates with a network by adopting http, and meanwhile, the function-rich code loaded by the Glide picture frame is simple. And processing the two-dimensional code and the bar code by adopting a ZXing technology. The Android and the IOS use Netty to interact with the server side in a unified mode, and the IOS adopts an AFM network architecture. By means of advanced technology and combination of advanced production management concept of production and manufacturing industry, a digital management and control platform of production equipment of container manufacturing enterprises is constructed

The invention has the advantages that:

(1) and 30% of the daily manual account book workload of the business department, the material department and the financial department is averagely saved.

(2) The management efficiency of the management department is improved by 30 percent, and the communication cost between the management department and the front line is reduced.

(3) By means of the mobile bar code technology, the material receiving is completed within 15 seconds.

(4) The production data are accurately recorded, a basis is provided for calculating the material yield, and the material yield is displayed to a background management department in real time through an information system.

(5) Through the dynamic management of the box pipe, the dynamic full coverage of the box pipe after the new box is off line is realized, the current state of the container can be accurately positioned in real time, the container transportation path can be clearly set through a box pipe transportation instruction, the cost generation engine is matched, the automatic generation of the box pipe cost is realized, the workload of workers is reduced to a great extent, the operation efficiency is improved, and the data accuracy is improved.

(6) The bar code label printing is used for material management, material specifications and parameters are scientifically and effectively registered and managed, meanwhile, the mobile app code scanning is adopted for managing in and out, material production and consumption data are accurately recorded in real time, the acquisition capacity of an enterprise for first-line production information is improved, the convenient material inventory checking function is provided, and the latest inventory condition of materials is updated in real time.

(7) Through stream approval on an information line and at a mobile app end in the system, the original paper cross-connect receipt signing flow is gradually replaced, paperless office work is realized, information flow of each information system of a company is enhanced through system construction, and data instantaneity is improved.

Drawings

FIG. 1 is a diagram of the construction of a container and material management system;

fig. 2 is a business flow chart during the operation of the container and material management system.

Detailed Description

The features of the present invention and other related features are described in further detail below by way of example in conjunction with the following drawings to facilitate understanding by those skilled in the art:

example (b): as shown in fig. 1 and 2, an embodiment of the present invention includes a container and material management system, which is based on a micro-service technology architecture and containerized management, and is integrally deployed on an enterprise private cloud based on a Docker container technology, a PC-side technology framework is based on the encapsulation of a Spring + Mybatis lightweight J2EE architecture, a front-end interface layer adopts a act technology, and an ant design UI framework is used; the back end adopts a micro-service architecture, RPC communication, Zookeeper is used as a registration center, Redis cache service, a Nacos configuration center and application Tomcat are used as a system application server and are deployed in a Linux operating system. The mobile terminal infrastructure adopts an MVVM design mode. Android communicates with a network by adopting http, and meanwhile, the function-rich code loaded by the Glide picture frame is simple. And processing the two-dimensional code and the bar code by adopting a ZXing technology. The Android and the IOS use Netty to interact with the server side in a unified mode, and the IOS adopts an AFM network architecture. The production equipment digital management and control platform of the container manufacturing enterprise is constructed by combining advanced technology and advanced production management concept of the production and manufacturing industry. The timeliness, consistency and accuracy of information acquisition are improved in an informatization mode.

The software product mainly comprises the following modules:

the basic data management module: the basic data management module provides a system administrator or related personnel to encode some data and does not need to change the data frequently, and the data is defined and maintained throughout the whole system. The basic data management module mainly comprises a data dictionary, a basic information module, a code management module and the like, and is the basis of the whole system.

The work order management module: in the whole container management process, the new container is taken off line as the primary link, and the container receiving list is the main data carrier for taking off the new container. The user can track the offline container in time through the systematic management of the abutting box list. A complete container receiving list records the service data of container manufacturing factories, container number sections, box types, box quantity, offline plans and the like. The box receiving work is used as a previous process node of the box stacking work, and a data base is laid for the subsequent work.

A business management module: the method is used for generating various service fees, and rate data is also not required to be separated except for service data. The rate is a very important component when Shanghai atlantoau enters into business agreements with various suppliers or customers. The cost generated by the main service mainly comprises box checking cost, trailer cost, barge cost, stockpiling cost and the like. The signed charging mode is also various, such as single-box calculation, trunk calculation and the like. The detailed and comprehensive rate book function is beneficial to accurate calculation and timely calculation of the cost.

A box-adjusting management module: the user can record the related process of directly carrying the containers from the storage yard by the client or transporting the containers from the storage yard to the designated storage yard and wharf by the container factory through the container transferring management module, issue transportation instructions to various suppliers, record the change of the related address position and the time of a single container, and maintain the transportation mode, the supplier, the expense subject and the amount of money in the transportation process of each course. And after the delivery of the box is finished, the box delivery completion dynamic state is sent to the client, and a box delivery invoice is issued according to a contract or single-ticket box delivery instruction.

The box pipe dynamic management module: in the process of stacking, turning and discharging containers after the containers are off-line, a plurality of service key points exist, the time, the associated party, the place, the associated rate and the like of each key point need to be dynamically recorded through a container pipe, and the state of the containers can be dynamically positioned to be used for issuing a related inventory and a container delivery state report.

A system management module: the system management is a basic management module of the system and comprises a role management unit, an employee management unit, a department management unit, a molecular company management unit and a bottom layer tool unit;

the mobile app code scanning and ex-warehouse module is used for performing ex-warehouse and production scheduling on the materials after the materials receive production instructions (with definite work orders) of the technical department on the mobile app, and scanning the two-dimensional codes on the materials to confirm that the corresponding materials are ex-warehouse;

As shown in fig. 2, as a core content of a manufacturing enterprise, production and material management not only is a survival foundation of the enterprise, but also is related to a plurality of key business links of the enterprise, such as sales, procurement, and production. In the material management work of container manufacturing enterprises, how to efficiently carry out the material management work, simultaneously supply the materials required by production in due time, avoid stopping work and waiting materials, and is a continuous and optimizable management process, so the material management level of the container manufacturing enterprises is improved by an informatization means. And (4) registering through receiving: after a supplier conveys materials to a factory, a receiver checks the materials on site, checks the materials with a delivery bill provided by the supplier, and registers information of the materials and prints and pastes material labels on site through mobile application APP software in handheld equipment. And all the registered material information is submitted to a back-end material management system to form a standing book. After the standing book records are gathered, the purchase operation is confirmed. And (4) discharging from the warehouse by scanning the code: the material portion carries out the warehouse-out and production scheduling after receiving the production instruction of the technical portion, and confirms to carry out the corresponding warehouse-out of the material through the two-dimensional code of the material. Carry out material stock inquiry through removing the end, make the production department can know the current stock condition before the material purchase applies for to whether decide to need to purchase. And (3) managing the purchase order: the inquiry is issued through the PC end, the purchase part adds an order after the offer of the supplier is confirmed, and the material part can be informed to put the material in storage through the order number in time after the approval. Therefore, it is very important to construct an accurate, efficient, practical, safe and easily-expandable container material management system.

In the aspect of material management, a material business process is combed into 4 stages of purchase order management, material inventory inquiry, receiving registration and code scanning ex-warehouse. The enterprise manages dynamic management through the case, the dynamic full coverage of the case pipe after the container is taken off line is realized, the current state of the container can be accurately positioned in real time, the automatic generation of the case pipe cost is realized through the cost generation engine, the workload of workers is greatly reduced, the operation efficiency is improved, the data accuracy is improved, meanwhile, through the EDI data interface platform, data exchange synchronization is carried out with enterprises such as ports, shipping companies, container stations, trailer companies and the like which are related to the upstream and downstream of the industry, one-stop service is realized, and the service level is improved. The business management system of the container manufacturing enterprise carries out material management by printing bar code labels by using a mobile technology, scientifically and effectively registers and manages material specifications and parameters, carries out warehousing and ex-warehousing by moving and scanning codes, accurately records material production and consumption data in real time, improves the acquisition capacity of the enterprise to production information of one line, provides convenient material inventory and counting functions, updates the latest inventory condition of materials in real time, and gradually replaces the original paper cross-connect list signing process by examining and approving on an information transfer mobile line in the system to realize paperless office. The construction of the system strengthens the information circulation of each information system of a company, improves the real-time performance of data, records production data through an informatization means, provides a basis for scientifically and accurately calculating the material yield, and displays the material yield to a back-end management department through the information system in real time.

The function brief introduction of each module is as follows:

1. basic data

Basic data management provides a system administrator or related personnel to encode some data and define and maintain the data throughout the system without frequent changes. The basic data module mainly comprises modules such as a data dictionary, basic information, code management and the like, and is the basis of the whole system.

2. Business management

Maintenance work is done from the supplier or customer perspective for various types of rate books, such as: yard rate book, box-check rate book, trailer company rate book. The rate book mainly comprises basic information of a supplier or a client, rate currency, a rate validity period, rate detail information rate version and the like. In order to facilitate accurate rate positioning during charge generation, the rate book also has a version control mechanism.

3. Work order management

In the whole container management process, the new container is taken off line as the primary link, and the container receiving list is the main data carrier for taking off the new container. The user can track the offline container in time through the systematic management of the abutting box list. A complete container receiving list records the service data of container manufacturing factories, container number sections, box types, box quantity, offline plans and the like. The box receiving work is used as a previous process node of the box stacking work, and a data base is laid for the subsequent work.

4. Operation management

The user can record the related process of directly carrying the containers from the storage yard by the client or transporting the containers from the storage yard to the designated storage yard and wharf by the container factory through the container transferring management module, issue transportation instructions to various suppliers, record the change of the related address position and the time of a single container, and maintain the transportation mode, the supplier, the expense subject and the amount of money in the transportation process of each course. And after the delivery of the box is finished, the box delivery completion dynamic state is sent to the client, and a box delivery invoice is issued according to a contract or single-ticket box delivery instruction.

5. Dynamic state of box pipe

In the process of stacking, turning and discharging containers after the containers are off-line, a plurality of service key points exist, the time, the associated party, the place, the associated rate and the like of each key point need to be dynamically recorded through a container pipe, and the state of the containers can be dynamically positioned to be used for issuing a related inventory and a container delivery state report.

6. Management of due fees

The charged fee after the new box is off-line mainly occurs in the following two aspects: firstly, the external/protocol storage yard storage process mainly comprises storage cost, entrance and exit cost, labeling cost, special painting cost and other maintenance cost, and the repair cost is not considered at all. The stockpiling fee is usually calculated according to quantity, and the dry price of the package, free stockpiling and the like are considered. And secondly, the transportation process of the external supplier mainly comprises trailer cost, barge cost, shipping cost, port impurity cost and the like, and the system automatically generates corresponding payable cost.

7. Price inquiry management

The purchase department creates a material inquiry project, the related leaders issue the inquiry project on line after examination and approval, and suppliers can quote the issued project on a PC (personal computer) end and a mobile APP (application). After the price is reported, the purchasing part negotiates and awards the price to confirm that the purchasing process is finished.

8. Procurement management

And generating an order for the purchase item subjected to the awarded mark, examining and approving the purchase item by a corresponding leader after the order is generated, automatically generating a purchase contract after the examination and approval are completed, and delivering the purchase item by a supplier aiming at the order after the contract takes effect.

9. Warehousing management

After the supplier delivers the materials to the factory, the consignee checks the materials on site, checks the materials with the invoice provided by the supplier, and prints and pastes a material label on site through the mobile application APP software in the handheld device. And all the registered material information is submitted to a back-end material management system to form a standing book. After the standing book records are gathered, the purchase operation is confirmed.

10. Warehouse-out management

When the warehouse needs to be taken out of the warehouse, through the mobile application APP software in the handheld device, the work order message issued by the pushing of the corresponding material part is clicked, and the material warehousing bar code is scanned to correspondingly take out of the warehouse through entering the corresponding work order.

11. Sending ERP

And synchronizing the material warehouse-in and warehouse-out records in the material management system to the ERP system in an interface mode for monthly accounting basis.

12. Statistical report

And customizing a related business report according to the actual business of the box factory and the management needs of the company.

The software PC end framework is packaged based on a Spring + Mybatis lightweight J2EE framework, a front end interface layer adopts a act technology, and an ant design UI framework is used; the back end adopts a micro-service architecture, RPC communication is adopted, Zookeeper is used as a registration center, Redis cache service and Nacos configuration center are used, a Docker container technology is introduced, and Tomcat is used as a system application server and deployed on Linux.

The mobile terminal infrastructure adopts an MVVM design mode, which is an event-driven programming mode for simplifying a user interface. Android communicates with a network by adopting http, and meanwhile, the function-rich code loaded by the Glide picture frame is simple. And processing the two-dimensional code and the bar code by adopting a ZXing technology. Androdi and IOS interact with a server side by uniformly using Netty, and the IOS adopts an AFM network architecture.

The framework is based on the packaging of spring + mybatis lightweight J2EE framework, uses the currently popular B/S structure, and is divided into three layers:

front end interface layer: according to the WEB front end of the data interaction standard required by the ant design or the front end of the anti design UI development framework, a user can operate only by a common WEB browser.

An application server layer: by adopting the technology mature in the industry, the application Tomcat7 is used as a system application server and is deployed on Linux to provide packaged application service support for a function module layer.

Database access layer: mybatis has a Session mechanism and a second level cache in the aspect of tuning and optimizing, and meanwhile, SQL can be optimally designed. The method can perfectly support large database systems such as Oracle, MySQL, SQL Server and the like.

Spring is a lightweight controlled inversion (IoC) and cut-out (AOP) oriented container frame. It has the following characteristics:

lightweight-Spring is lightweight in both size and overhead.

Controlled inversion-Spring promotes loose coupling by a technique called controlled inversion (IoC).

The profile-oriented Spring provides rich support for profile-oriented programming, and allows cohesive development of business logic and system-level services (such as transaction management) of separated applications.

Docker is an open source application container engine, so that developers can package their applications and dependency packages into a portable container, and then distribute the container to any popular Linux machine, and also realize virtualization. The containers are completely using sandbox mechanism, and have no borrowing port

RPC (remote Procedure Call) -remote Call Procedure, a protocol that requests services from a remote computer program over a network without knowledge of the underlying network technology. The RPC protocol assumes the existence of some transport protocol, such as TCP or UDP, for carrying information data between communication procedures. In the OSI network communication model, RPC spans the transport and application layers. RPC makes it easier to develop applications including network distributed multiprogrammers.

RPC employs a client/server model. The requesting program is a client and the service providing program is a server. First, the client calling process sends a calling message with process parameters to the service process and then waits for a response message. On the server side, the process remains in a sleep state until the call information arrives. When a calling message arrives, the server obtains the process parameters, calculates the result, sends the reply message, then waits for the next calling message, and finally, the client calls the process to receive the reply message, obtain the process result, and then calls execution to continue.

K8s is a brand new distributed architecture leading solution based on container technology. Kubernetes (k8s) is the Google open-sourced container cluster management system (Google interior: Borg). On the basis of the Docker technology, a series of complete functions such as deployment and operation, resource scheduling, service discovery, dynamic scaling and the like are provided for containerized application, and convenience in large-scale container cluster management is improved.

The K8s is a complete distributed system support platform, and has complete cluster management capability, multi-level security protection and admission mechanism, multi-tenant application support capability, transparent service registration and discovery mechanism, built-in intelligent load balancer, strong fault discovery and self-repair capability, service rolling upgrade and online capacity expansion capability, expandable resource automatic scheduling mechanism and multi-granularity resource quota management capability. Meanwhile, K8ss provides a perfect management tool, and covers all links including development, deployment test and operation and maintenance monitoring.

Nacos is a service infrastructure that builds up modern application architectures (e.g., microservice paradigm, cloud-native paradigm) centered around "services". And the system supports DNS-based and RPC-based service discovery (which can be used as a registration center of springclosed), dynamic configuration service (which can be used as a configuration center) and dynamic DNS service. Efforts are made to help discover, configure and manage microservices. A set of simple and easy-to-use feature sets is provided, and dynamic service discovery, service configuration management, service and flow management are facilitated. The microservice platform is more agile and easy to build, deliver and manage.

A Data Transfer Object (DTO), a software application that is designed to Transfer Data between modes. Often the data transfer objective is for a data access object to retrieve data from a database. The difference between a data transfer object and a data interaction object or data access object is that the data (access and accessor) has no action other than storing and retrieving.

MyBatis is an excellent persistent layer framework that supports customized SQL, stored procedures, and advanced mapping. MyBatis avoids almost all JDBC code and manual setting of parameters and acquisition of result sets. MyBatis can use simple XML or annotations to configure and map native information, mapping interfaces and Java's POJOs (Plain Old Java Objects) to records in the database.

Web2.0 is a generic term for a new class of Internet applications relative to Web1.0. Web2.0 focuses more on the interaction of users, and a new generation of Internet mode is realized by using new theories and technologies such as xml and ajax. Better interaction mode and user experience can be provided for users.

By using the reverse proxy server, the request can be uniformly forwarded to a plurality of application servers, or the cached data can be directly returned to the client, so that the access speed can be increased to a certain extent by the acceleration mode, and the purpose of load balancing is achieved. By using the reverse proxy, the load balancing and the caching technology of the proxy server can be combined together, the beneficial performance and stability are provided, and the effective guarantee that the 7 x 24 service can be provided is provided.

The above embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A container and material management system, comprising:

2. The container and material management system of claim 1, wherein the management system is based on micro-service technology architecture and containerized management, and is integrally deployed on an enterprise private cloud based on Docker container technology, the PC-side technology framework is based on the encapsulation of Spring + Mybatis lightweight J2EE architecture, the front-end interface layer adopts a act technology and uses an ant design UI framework; the back end adopts a micro-service architecture, RPC communication, Zookeeper is used as a registration center, Redis cache service, a Nacos configuration center and application Tomcat are used as a system application server and are deployed in a Linux operating system. The mobile terminal infrastructure adopts an MVVM design mode. Android communicates with a network by adopting http, and meanwhile, the function-rich code loaded by the Glide picture frame is simple. And processing the two-dimensional code and the bar code by adopting a ZXing technology. The Android and the IOS use Netty to interact with the server side in a unified mode, and the IOS adopts an AFM network architecture. The production equipment digital management and control platform of the container manufacturing enterprise is constructed by combining advanced technology and advanced production management concept of the production and manufacturing industry.