CN111598500B - Production material management system based on micro-service architecture - Google Patents

Abstract

The invention discloses a production material management system based on a micro-service architecture, which belongs to the technical field of biological asset management and comprises the following components: the infrastructure end is used for constructing an infrastructure cloud platform and is used for counting and storing the information and the number of production materials of each inventory point under the micro-service architecture; the basic application platform end is used for monitoring the stock quantity of each stock point under the micro-service architecture in real time, and simultaneously generating corresponding forms and the like from the stock quantity of each stock point and sending the forms and the like to related staff; the application server mainly comprises inventory management of production materials, and material allocation among all inventory points is realized; the basic application platform end comprises a monitoring module and an operation and maintenance module; the application server comprises an inventory management module and a material allocation module; the invention has the effects of timely and fast allocating spare parts among different stock points, activating backlog stock and improving stock turnover rate of each stock point.

Description

Production material management system based on micro-service architecture

Technical Field

The invention relates to the technical field of biological asset management, in particular to a production material management system based on a micro-service architecture.

Background

At present, with the continuous promotion of the reform of an electric power system, the status and the effect of the operation efficiency and the benefit of the asset are increasingly outstanding, an asset value evaluation mechanism of each region is established, the asset benefit level of each region is scientifically evaluated, the excitation and the restraint effects of budget management can be fully exerted, the accurate allocation of resources is promoted, and the return on investment level is improved.

However, the inventor finds that in the research and development process, informationized practices of large internet enterprises, large enterprise and foreign large enterprises prove that: based on the traditional centralized IT architecture and application mode, the explosion type business growth cannot be dealt with. The application architecture for flexibly and agilely coping with service changes has become a trend, and the micro-service architecture system has become an important direction for informatization transformation of large enterprises.

Micro-service architecture is a new technology for deploying applications and services in the cloud. The micro-service may run in a "self-program" and communicate with the HTTP API through a "lightweight device". The key is that the service can run in its own program. By this we can distinguish service disclosures from micro-service frameworks. In service disclosure, many services may be limited by internal independent processes. If any one of the services needs to add a certain function, the process must be narrowed. In a micro-service architecture, only the required functionality needs to be added to a particular service, without affecting the overall process architecture.

The existing production materials management of the nuclear power plant generally uses COMIS to manage equipment accounts, spare parts and tools, uses an IPM outline platform to manage maintenance outline, and uses a DAMI program database to manage maintenance program. The original systems are scattered and independent, the data and information which are actually related to each other are respectively processed among a plurality of mutually independent platforms, the situation of contradiction between the data and the information is easy to generate, the inventory management of the formed biological assets is not clear and convenient enough, the stock backlog or the stock shortage in each place is easy to be caused, and the turnover rate of the stock is low.

Disclosure of Invention

The invention aims to provide a production material management system based on a micro-service architecture, which achieves the timely and rapid allocation of spare parts among different stock points, namely activates backlog stock and improves stock turnover rate of each stock point.

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

A microservice architecture-based production materials management system, comprising: the infrastructure end builds an infrastructure cloud platform, provides server computing resources and database resources, and is used for counting and storing information and numbers of production materials of all inventory points under the micro-service architecture; the basic application platform end is used for monitoring the stock quantity of each stock point under the micro-service architecture in real time, and simultaneously generating corresponding forms and the like from the stock quantity of each stock point and sending the forms and the like to related staff; the application server mainly comprises inventory management of production materials, and material allocation among all inventory points is realized; the basic application platform end comprises a monitoring module and an operation and maintenance module; the monitoring module is used for monitoring the in-out inventory quantity and the inventory quantity of each inventory point under the micro-service architecture in real time and transmitting the detected inventory quantity to an infrastructure end; the operation and maintenance module is used for creating information of the inventory of each inventory point under the micro-service architecture, packaging and arranging the inventory information to form a sharing platform for visualization, realizing interconnection and intercommunication of inventory data, communicating a database with an application server, and displaying the inventory data in different forms, different latitudes and different visual angles, so that related personnel can accurately grasp the inventory quantity of the whole company; the application server comprises an inventory management module and a material allocation module; the inventory management module is connected with the monitoring module and the operation and maintenance module, and is used for calculating the inventory quantity required to be supplemented for the inventory points with insufficient inventory according to the overstock and the deficiency conditions of the inventory points, calculating the inventory quantity required to be dispatched for the inventory points with insufficient inventory, and calculating the inventory point with the closest stock accumulation distance to the inventory points required to be supplemented according to the positions of the inventory points; the material allocation module is used for contacting corresponding inventory points according to the inventory quantity and the accurate inventory position required to be allocated by the inventory management module, so that the inventory points of the goods are packed in advance, and meanwhile, the nearest carrier is contacted, and the good loading time and the good transport time are determined.

By adopting the scheme, the real-time recording of the stock in and out quantity and the current stock quantity of each stock point under the micro-service architecture is realized by the infrastructure side, the monitoring module monitors the stock quantity of each stock point in real time, judges whether the stock of each stock point is backlog or insufficient, the operation and maintenance module is used for creating the information of the stock of each stock point under the micro-service architecture, packaging and arranging the stock information to form a visual sharing platform, realizing interconnection and intercommunication of the stock data, communicating the database and the application service side, displaying the stock data in different forms, different latitudes and different angles, accurately grasping the stock quantity of all companies, calculating the stock quantity required to be supplemented for the stock point according to the backlog and the insufficient condition of each stock point, calculating the stock quantity required to be supplemented for the stock point according to the position of each stock point under the micro-service architecture, and calculating the closest stock point required to be supplemented for the stock point, and ensuring that the stock management module is in advance in contact with the stock point required to be matched with the stock point according to the position of the stock point, thereby reducing the time required for the stock point, and the time required for the stock point is reduced, and the allocation and the time required for the stock is reduced.

The invention is further provided with: the infrastructure side comprises a server, a database and an input module; the input module is used for inputting various information of the materials into the server; the server generates an original bill of materials according to the related information of the commodities, simultaneously records the in-out number of the materials in real time, generates an in-out bill and a real-time bill of materials, records the materials newly put in storage and the materials in the original inventory, and generates a new and old material comparison table; the database is used for storing the most original bill of materials, the in-out bill, the inventory list and the new and old bill of materials which are produced by the server.

By adopting the scheme, the input module is used for inputting various information of the materials into the server, such as names, numbers, bar codes and the like of production materials into the server, the server generates an original bill of materials according to related information of commodities, simultaneously records the number of in-out warehouse of the materials in real time and generates an in-out warehouse bill and a real-time inventory bill, records the materials newly put in warehouse and the materials in original warehouse and generates a new and old material comparison table, and the database is used for storing the most original bill of materials, in-out warehouse bill, inventory bill and new and old material comparison table produced by the server, so that the destination of the materials has historical traceability, and timely calling of a basic application platform end and an application service end can be realized.

The invention is further provided with: the monitoring module comprises a monitoring unit and a judging unit; the monitoring unit is used for detecting the inventory information of each inventory point under the micro-service architecture in real time, counting the ex-warehouse quantity and the in-warehouse quantity, counting the ex-warehouse quantity, the in-warehouse quantity and the current inventory quantity of the ex-warehouse materials, and sending the detected data information to the operation and maintenance module and the server; the judging unit is used for judging whether the stock of each stock point under the micro-service architecture is backlog or insufficient, setting a backlog threshold value and a stock shortage threshold value for each stock point under the micro-service architecture, comparing the stock quantity with the backlog threshold value and the stock shortage threshold value in a specific time, when the stock quantity is larger than the backlog threshold value, indicating that the stock of the stock point under the micro-service architecture is backlog, and if the stock quantity is smaller than the stock shortage threshold value, indicating that the stock of the stock point under the micro-service architecture is insufficient.

By adopting the scheme, the monitoring unit is used for detecting the inventory information of each inventory point under the micro-service architecture in real time, counting the inventory quantity and the inventory quantity, counting the inventory quantity, the inventory quantity and the current inventory quantity of the inventory materials, and the judging unit compares the inventory quantity of each inventory point with the backlog threshold value and the inventory shortage threshold value under the micro-service architecture, when the inventory quantity is larger than the backlog threshold value in a specific time, the inventory backlog of the inventory point under the micro-service architecture is indicated, production materials are required to be allocated outwards in time, and when the inventory quantity is smaller than the inventory shortage threshold value, the inventory shortage of the inventory point under the micro-service architecture is indicated, and production materials are required to be supplemented in time, so that whether the inventory points are backlog or are insufficient can be judged in the first time, the timely and rapid allocation of the production materials among different inventory points in the whole country can be realized, the backlog inventory can be activated, and the emergency maintenance requirements can be met.

The invention is further provided with: the monitoring module further comprises a checking unit, the checking unit can check the warehouse-in quantity and the warehouse-out quantity of the production materials at the inventory point under the micro-service architecture with the most original bill of materials in the server one by one, scan the bar codes of the production materials, and check the names and the numbers of the production materials and the bar codes of the production materials in the server one by one.

By adopting the scheme, the checking unit checks the names and numbers of the production materials and the bar codes with the bar codes, the names and the numbers of the production materials in the server one by one, checks and combs the inventory data, realizes one account of inventory through the comb of the existing inventory data, and lays a foundation for lean inventory management.

The invention is further provided with: the operation and maintenance module comprises a processing unit, a sharing unit and a sending unit; the processing unit is connected with the monitoring unit, the judging unit and the checking unit, and forms a table and a statistical chart after integrating production materials of all inventory points under the micro-service architecture; the sharing unit is used for establishing a visual spare part information sharing platform, internally realizing interconnection and intercommunication of inventory data, externally establishing inventory network information between the inventory data and suppliers through an internet technology, and displaying and integrating inventory amounts of all inventory points in all areas to form a table and a statistical chart and displaying the inventory amounts of the production materials in all areas; and the sending unit sends the integrated table, the statistical chart and the like to corresponding staff.

By adopting the scheme, the processing unit integrates the production materials of all the inventory points under the micro-service architecture to form the table and the statistical diagram, the inventory quantity of all the inventory points can be clearly compared from the statistical diagram, so that a worker can simply and clearly see the current inventory condition of all the inventory points, the inventory quantity of all the inventory points is compared and analyzed, the sharing unit establishes a visual spare part information sharing platform, interconnection and intercommunication of inventory data are realized inside the platform, the production materials of all the areas of the inventory quantities of all the inventory points are displayed to form the table and the statistical diagram, the inventory quantity of the production materials of all the areas is displayed, the platform visualization effect is strong, better operation experience is realized, the data display can be realized in different forms, different latitudes and different perspectives, the table and the statistical diagram are formed after the integration of the production materials of all the inventory points are displayed, and the inventory quantity of the production materials of all the areas is displayed at the same time, so that the worker can clearly compare the inventory quantities of all the inventory points.

The invention is further provided with: the application server also comprises a material demand planning module, wherein the material demand planning module counts the production material consumption condition of the inventory point under the micro-service architecture in the near-period time in real time, and predicts the material consumption in the next period of time according to the consumption condition in the near-period time.

By adopting the scheme, the material consumption in a period of time is estimated according to the consumption condition of the near period of time, meanwhile, the material to be supplemented or the material to be backlogged in a specific period of time is calculated according to the current stock quantity, and meanwhile, the backlogged material quantity or the material to be supplemented is fed back to the material allocation module, so that the material allocation module can allocate and supplement the material of the stock point in time, the stock point is prevented from being short of the material or the stock of the whole company, and related personnel can accurately grasp the stock quantity of the whole company, thereby providing basis for decision analysis.

The invention is further provided with: the application server side further comprises a spare part joint storage module, the spare part joint storage module is connected with the sharing unit and used for communicating with the material suppliers in the sharing unit and communicating with a spare part database of the suppliers, so that the current stock quantity, the current production quantity and the like of the suppliers can be clearly known, the stock quantity of each stock point under the micro-service architecture is summarized, and the suppliers are ordered in time by combining the predicted demand quantity in the material demand planning module.

By adopting the scheme, the method is communicated with the spare part database of the supplier, the current stock quantity and the production quantity of the supplier can be clearly known, the stock quantity of each stock point under the micro-service architecture is summarized, the supplier is ordered in time according to the predicted demand quantity in the material demand planning module, the shortage of the stock quantity of the supplier caused by the insufficient stock quantity of the supplier is prevented, related personnel can accurately grasp the stock quantity of the whole company and the stock data of the supplier, the basis is provided for decision analysis, the stock information network between the suppliers is opened, the supplier warehouse is used for my purposes, the stock quantity of the company can be reduced, the management cost can be reduced, and the timely supply of spare parts is ensured while the stock is reduced.

The invention is further provided with: the application server also comprises a performance tracking module and a provider evaluation module; the tracking module is used for counting whether each supplier can deliver goods on time or not and detecting the quality of materials; and the supplier evaluation module is used for comprehensively evaluating the suppliers according to whether the delivery of the suppliers is on time, the delivery delay time, the quality of the supplied goods and materials and the like.

By adopting the scheme, the supplier evaluation module carries out comprehensive evaluation on the suppliers according to the fact that whether the suppliers can hold the delivery of the quantity according to the time specified by the contract, the performance efficiency of the suppliers is improved, a long-term relation is established, and the suppliers are evaluated to be four grades of good, good and medium according to the fact that whether the delivery of the suppliers is on time, the delivery delay time, the quality of the supplied goods and the like, so that the operators can preferentially select good-quality suppliers when carrying out the replenishment, and the good-quality suppliers supply goods first.

In summary, the invention has the following beneficial effects:

1. The method comprises the steps that a basic application platform end comprises a monitoring module and an operation and maintenance module, an application service end comprises an inventory management module and a material allocation module, the inventory management module is connected with the monitoring module and the operation and maintenance module, the inventory management module calculates the inventory quantity required to be supplemented for inventory-deficient inventory points according to the backlog and deficiency conditions of all the inventory points, calculates the inventory quantity required to be allocated for inventory-deficient inventory points, and calculates the inventory point of the material backlog closest to the inventory point required to be supplemented according to the position of all the inventory points; the material allocation module is used for acquiring an inventory amount required to be allocated according to the inventory management module and an accurate inventory position, contacting the inventory position with corresponding inventory points to enable the inventory points of the goods to be packed in advance, contacting a transportation company with the nearest distance, determining good shipment time and transportation time, recording the inventory amount of each inventory point under a micro service architecture in real time by an infrastructure end, monitoring the inventory amount of each inventory point in real time by the monitoring module, judging whether the inventory of each inventory point is backlog or insufficient, packaging and arranging the inventory information to form a sharing platform for visualization, realizing interconnection of inventory data, communicating the database with the application service end, displaying the inventory data in different forms, different latitudes and different angles, enabling related personnel to accurately grasp the inventory amount of the whole company, calculating the inventory required to the insufficient inventory point according to the condition of each inventory point, supplementing the inventory amount required to the inventory point, determining the required inventory amount of each inventory point with the nearest distance between the transportation point, and the nearest distance between the inventory point and the transportation service end, and the nearest distance between the inventory point required to be packed with the transportation point according to the optimal inventory point, thereby improving the material allocation efficiency, reducing the backlog or insufficient inventory of materials at the inventory point under the micro-service architecture, and improving the turnover rate of the materials;

2. the checking unit is arranged on the monitoring module, and can check the warehousing quantity and the ex-warehouse quantity of the production materials at the inventory point under the micro-service architecture with the most original bill of materials in the server one by one, scan the bar codes of the production materials, check the names, the numbers and the bar codes of the production materials with the bar codes, the names and the numbers of the production materials in the server one by one, check and comb the inventory data, realize an inventory by combing the existing inventory data, and lay a foundation for lean inventory management;

3. The application server side further comprises a spare part joint storage module which is connected with the sharing unit and used for communicating with the stock suppliers in the sharing unit, communicating with the spare part database of the suppliers, so that the current stock quantity and the production quantity of the suppliers can be clearly known, the stock quantity of all stock points under the micro-service architecture can be summarized, the estimated demand quantity in the stock demand planning module is combined, the suppliers are ordered in time, communicating with the spare part database of the suppliers, the current stock quantity and the production quantity of the suppliers can be clearly known, the estimated demand quantity in the stock demand planning module is combined, the suppliers are ordered in time, the stock quantity of the suppliers is prevented from being insufficient, the stock quantity of the suppliers is enabled to be short, related personnel can accurately grasp the stock quantity of all companies and the stock data of the suppliers, the basis is provided for decision analysis, the stock information network between the suppliers is opened, the suppliers are used for the purposes of saving the stock quantity of the suppliers, the stock quantity of the suppliers can be reduced, the stock quantity of the suppliers can be timely, the stock quantity of the suppliers can be reduced, the stock cost of the suppliers can be timely managed, and the stock cost of the suppliers can be reduced.

Drawings

FIG. 1 is a system diagram of an embodiment;

Fig. 2 is a block diagram of a base application platform side and an application server side.

In the figure, 1, an infrastructure side; 11. a server; 12. a database; 13. an input module; 2. a base application platform end; 21. a monitoring module; 211. a monitoring unit; 212. a judging unit; 213. a collation unit; 22. an operation and maintenance module; 221. a processing unit; 222. a sharing unit; 223. a transmitting unit; 3. an application server; 31. an inventory management module; 32. a material allocation module; 33. a material demand planning module; 34. the spare part joint storage module; 35. a performance tracking module; 36. and a supplier evaluation module.

Detailed Description

A production material management system based on a micro-service architecture comprises three layers, namely an infrastructure end 1, a basic application platform end 2 and an application service end 3 from bottom to top, referring to fig. 1. Infrastructure side 1, infrastructure side 1 builds an infrastructure cloud platform, providing server 11 computing resources and database 12 resources for counting and storing information and numbers of production materials of each inventory point under the micro-service architecture. The basic application platform end 2 is used for monitoring the stock quantity of each stock point under the micro-service architecture in real time, and simultaneously generating a corresponding table and the like from the stock quantity of each stock point and sending the table and the like to related staff. The application server 3, the application server 3 mainly comprises inventory management of production materials, and material allocation among various inventory points is realized, so that backlog or inventory shortage of the materials at the inventory points is reduced, and the turnover rate of the materials is improved.

Referring to fig. 1, the infrastructure side 1 includes a server 11, a database 12, and an input module 13. The input module 13, the input module 13 is used for inputting various information of the materials into the server 11, such as names, numbers, bar codes and the like of the production materials into the server 11. The server 11 generates an original bill of materials according to the related information of the commodity, simultaneously records the in-out number of the materials in real time, generates an in-out bill and a real-time bill of materials, records the materials newly put in storage and the materials in the original inventory, and generates a new and old material comparison table. The database 12, the database 12 is used for storing the most original bill of materials, in-out bill of materials, inventory bill of materials and new and old comparison table produced by the server 11, so as to facilitate the timely calling of the basic application platform end 2 and the application server end 3.

Referring to fig. 1 and 2, the basic application platform end 2 includes a monitoring module 21 and an operation and maintenance module 22, where the monitoring module 21 is configured to monitor in-and-out inventory amounts and inventory amounts of various inventory points under the micro-service architecture in real time, and send the detected inventory amounts to the server 11; the operation and maintenance module 22 is used for creating information of the inventory of each inventory point under the micro-service architecture, packaging and arranging the inventory information to form a visual sharing platform, realizing interconnection and intercommunication of inventory data, communicating the database 12 with the application server 3, and displaying the inventory data in different forms, different latitudes and different viewing angles, so that related personnel can accurately grasp the inventory quantity of the whole company.

Referring to fig. 1 and 2, the monitoring module 21 includes a monitoring unit 211, a judging unit 212, and a collation unit 213. The monitoring unit 211 is configured to detect inventory information of each inventory point under the micro-service architecture in real time, count the ex-warehouse quantity and the in-warehouse quantity, count the ex-warehouse quantity, the in-warehouse quantity and the current inventory quantity of the ex-warehouse materials, and send the detected data information to the operation and maintenance module 22 and the server 11; the judging unit 212 is used for judging whether the stock of each stock point under the micro-service architecture is backlog or insufficient, the judging unit 212 sets a backlog threshold value and a stock shortage threshold value for each stock point under the micro-service architecture, when the stock quantity is larger than the backlog threshold value in a specific time, the stock backlog of the stock point under the micro-service architecture is indicated, production materials are required to be allocated outwards in time, when the stock quantity is smaller than the stock shortage threshold value, the stock shortage of the stock point under the micro-service architecture is indicated, the production materials are required to be supplemented in time, so that whether the stock points are backlog or insufficient can be judged in the first time, the timely and quick allocation of the production materials among different stock points in the whole country can be realized, the backlog stock can be activated, and the emergency overhaul requirement is met. The checking unit 213, the checking unit 213 can check the warehouse-in quantity and warehouse-out quantity of the inventory point production materials under the micro-service architecture with the most original bill of materials in the server 11 one by one, scan the bar code of the production materials, check the name, number and bar code of the production materials with the bar code, name and number of the production materials in the server 11 one by one, check and comb the inventory data, realize an inventory account by combing the existing inventory data, and lay a foundation for lean inventory management.

Referring to fig. 1 and 2, the operation and maintenance module 22 includes a processing unit 221, a sharing unit 222, and a transmitting unit 223. The processing unit 221 is connected with the monitoring unit 211, the judging unit 212 and the checking unit 213, and forms a table and a statistical chart after integrating the production materials of each inventory point under the micro-service architecture, and can clearly compare the inventory quantity of each inventory point from the statistical chart, so that a worker can simply and clearly see the current inventory condition of each inventory point, and compare and analyze the inventory quantity of each inventory point. The sharing unit 222, the sharing unit 222 establishes a visual spare part information sharing platform, the interconnection and intercommunication of inventory data is realized inside, the inventory network information between the outside and suppliers is constructed through the internet technology, the platform has a strong visual effect, has better operation experience, and can perform data display in different forms, different latitudes and different visual angles, and is used for displaying the inventory quantity of each inventory point in each region to integrate the production materials to form a table and a statistical chart, and meanwhile, the inventory quantity of the production materials in each region is displayed. And the sending unit 223 sends the integrated table, the statistical chart and the like to corresponding staff, so that the staff can check the stock quantity of each stock point in time, and the staff can access the table and the statistical chart through a mobile phone, a computer, a pad, a hundred-degree network disk and the like. In addition, the processing unit 221 integrates the table and the statistical chart into a two-dimensional code, and a worker can access the table information and the statistical chart information by scanning the two-dimensional code through a mobile phone WeChat, so that the worker can check the stock condition of each stock point at any time.

Referring to fig. 2, the application server 3 includes an inventory management module 31, a material allocation module 32, a material demand planning module 33, and a spare part joint storage module 34. The inventory management module 31 is connected with the monitoring module 21 and the operation and maintenance module 22, the inventory management module 31 calculates the inventory quantity required to be supplemented for the inventory points with insufficient inventory according to the overstock and the deficiency conditions of the inventory points, calculates the inventory quantity required to be dispatched for the inventory points with insufficient inventory, and calculates the inventory point with the closest stock point distance to the inventory points required to be supplemented with the materials according to the positions of the inventory points, so that the production materials can be timely dispatched in the shortest time and the shortest distance, thereby saving the freight cost and the time. The material allocation module 32, the material allocation module 32 contacts with the corresponding stock points according to the stock quantity and the accurate stock position required to be allocated by the stock management module 31, so that the stock points of the goods are packed in advance, and meanwhile, the nearest transport company is contacted, and the good loading time and the transport time are determined, so that the material allocation efficiency is improved.

Referring to fig. 2, the material demand planning module 33 counts the production material usage of the inventory point under the micro-service architecture in real time in the near time, predicts the material usage in the next time according to the usage in the near time, calculates the material to be supplemented or backlogged in the next specific time according to the current stock, and feeds back the backlogged material or the material to be supplemented to the material allocation module 32, so that the material allocation module 32 can allocate and supplement the material of the inventory point in time, prevent the inventory point from being in shortage or stock, enable related personnel to grasp the stock of the whole company accurately, and provide basis for decision analysis. The spare part combined storage module 34 is connected with the sharing unit 222, and is used for communicating with the material suppliers in the sharing unit 222, communicating with the spare part database 12 of the suppliers, so that the current stock quantity, the production quantity and the like of the suppliers can be clearly known, the stock quantity of each stock point under the micro-service architecture can be summarized, the suppliers are timely ordered according to the predicted demand quantity in the material demand planning module 33, the shortage of the stock quantity caused by the shortage of the stock quantity of the suppliers is prevented, related personnel can accurately grasp the stock quantity of the whole company and the stock data of the suppliers, basis is provided for decision analysis, the stock information network between the suppliers is opened, the suppliers' stores are used for my purposes, the stock quantity of the company can be reduced, the management cost can be reduced, and the timely supply of the spare parts can be ensured while the stock is reduced.

Referring to fig. 2, the application server 3 further includes a performance tracking module 35 and a vendor evaluation module 36. The performance tracking module 35 counts whether each provider can deliver goods on time, detects the quality of the materials, monitors whether the provider can guarantee the delivery of the quality according to the time specified by the contract, improves the performance efficiency of the provider, and establishes a long-term relationship. The supplier evaluation module 36, the supplier evaluation module 36 carries out a comprehensive evaluation on the suppliers according to whether the suppliers are on time, the delivery delay time, the quality of the supplied goods and materials and the like, and evaluates that the suppliers are four grades of good, good and medium, so that the staff can select good-quality suppliers preferentially when carrying out replenishment, and the good-quality suppliers supply goods first.

The server 11 can record the in-out inventory and the current inventory of each inventory point under the micro-service architecture in real time, store the information of each inventory point in the database 12, the monitoring module 21 monitors the inventory of each inventory point in real time, judges whether the materials of each inventory point are backlog or insufficient, the material management module calculates the materials required to be supplemented and the materials required to be externally adjusted of each inventory point according to the inventory condition of each inventory point, and the material allocation module 32 preferentially allocates the spare parts between the inventory points timely and quickly according to the materials required to be allocated by the material management module, activates backlog inventory, and meanwhile, shares the data with suppliers, and preferentially orders suppliers with good reputation and standard quality.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (4)

1. A production material management system based on a micro-service architecture is characterized in that: comprising the following steps:

the system comprises an infrastructure end (1), wherein the infrastructure end (1) builds an infrastructure cloud platform, provides computing resources of a server (11) and resources of a database (12), and is used for counting and storing information and the number of production materials of all inventory points under a micro-service architecture;

the basic application platform end (2), the basic application platform end (2) is used for monitoring the stock quantity of each stock point under the micro-service architecture in real time, and meanwhile, generating a corresponding form by the stock quantity of each stock point and sending the form to related staff;

The application server (3), the application server (3) comprises inventory management of production materials, and is used for realizing material allocation among various inventory points;

the basic application platform end (2) comprises a monitoring module (21) and an operation and maintenance module (22);

the monitoring module (21) is used for monitoring the in-out stock quantity and the stock quantity of each stock point under the micro-service architecture in real time and transmitting the detected stock quantity to the infrastructure end (1);

the operation and maintenance module (22) is used for creating information of the inventory of each inventory point under the micro-service architecture, packaging and arranging the inventory information to form a sharing platform for visualization, realizing interconnection and intercommunication of inventory data, communicating the database (12) with the application server (3), and displaying the inventory data in different forms, different latitudes and different viewing angles, so that related personnel can accurately grasp the inventory quantity of the whole company;

The monitoring module (21) comprises a monitoring unit (211), a judging unit (212) and a checking unit (213);

The monitoring unit (211) is used for detecting inventory information of all inventory points under the micro-service architecture in real time, counting the ex-warehouse quantity and the in-warehouse quantity, counting the ex-warehouse quantity, the in-warehouse quantity and the current inventory quantity of the ex-warehouse materials, and sending the detected data information to the operation and maintenance module (22) and the server (11);

The judging unit (212) is used for judging whether the stock of each stock point under the micro-service architecture is backlog or insufficient, setting a backlog threshold value and a stock shortage threshold value for each stock point under the micro-service architecture, comparing the stock quantity with the backlog threshold value and the stock shortage threshold value in a specific time, when the stock quantity is larger than the backlog threshold value, indicating that the stock of the stock point under the micro-service architecture is backlog, and if the stock quantity is smaller than the stock shortage threshold value, indicating that the stock of the stock point under the micro-service architecture is insufficient;

the checking unit (213) is used for checking the warehouse-in quantity and the warehouse-out quantity of the inventory point production materials under the micro-service architecture with the most original bill of materials in the server (11), scanning the bar codes of the production materials, and checking the names, the numbers and the bar codes of the production materials with the bar codes, the names and the numbers of the production materials in the server (11) one by one;

the operation and maintenance module (22) comprises a processing unit (221), a sharing unit (222) and a sending unit (223);

the processing unit (221) is connected with the monitoring unit (211), the judging unit (212) and the checking unit (213) and is used for integrating production materials of all inventory points under the micro-service architecture to form a table and a statistical chart;

The sharing unit (222) establishes a visual spare part information sharing platform, interconnection and intercommunication of inventory data are realized inside, inventory network information between the outside and suppliers is established through an internet technology, and the visual spare part information sharing platform is used for displaying and integrating inventory amounts of all the inventory points in all the areas to form a table and a statistical chart, and meanwhile, inventory amounts of the production materials in all the areas are displayed;

the sending unit (223) is used for sending the integrated form and the statistical graph to the corresponding staff;

The application server (3) comprises an inventory management module (31) and a material allocation module (32);

The inventory management module (31) is connected with the monitoring module (21) and the operation and maintenance module (22), and the inventory management module (31) is used for calculating the inventory quantity required to be supplemented for the inventory points with insufficient inventory according to the backlog and the deficiency conditions of all the inventory points, calculating the inventory quantity required to be dispatched for the inventory points with insufficient inventory pressure, and calculating the inventory point of the stock backlog closest to the inventory points required to be supplemented according to the positions of all the inventory points;

The material allocation module (32) is used for contacting corresponding inventory points according to the inventory quantity required to be allocated by the inventory management module (31) and the accurate inventory position, so that the inventory points of the goods are packed in advance, and meanwhile, the transportation company with the nearest distance is contacted, and the good loading time and the transportation time are determined;

The application server (3) further comprises a spare part joint storage module (34), the spare part joint storage module (34) is connected with the sharing unit (222) and is used for communicating with a material provider in the sharing unit (222), communicating with a spare part database (12) of the provider, so that the current inventory and the current production of the provider can be clearly known, the inventory of each inventory point under the micro-service architecture can be summarized, and the supplier can be ordered in time by combining the estimated demand in the material demand planning module (33).

2. The microservice architecture-based production material management system of claim 1 wherein:

the infrastructure end (1) comprises a server (11), a database (12) and an input module (13);

The input module (13) is used for inputting various information of the materials into the server (11);

The server (11) is used for generating an original bill of materials according to the related information of the commodities, simultaneously recording the in-out number of the materials in real time, generating an in-out bill and a real-time bill of materials, recording the materials newly put in storage and the materials in the original inventory, and generating a new and old material comparison table;

The database (12) is used for storing the most original bill of materials, the in-out bill of materials, the inventory of materials and the new and old comparison table produced by the server (11).

3. The microservice architecture-based production material management system of claim 1 wherein: the application server (3) further comprises a material demand planning module (33), wherein the material demand planning module (33) is used for counting the production material consumption condition of the inventory point under the micro-service architecture in the near-period time in real time and estimating the material consumption in the next period of time according to the consumption condition in the near-period time.

4. The microservice architecture-based production material management system of claim 1 wherein:

The application server (3) further comprises a performance tracking module (35) and a provider evaluation module (36);

The tracking module (35) is used for counting whether each supplier can deliver goods on time and detecting the quality of materials;

the supplier evaluation module (36) is used for comprehensively evaluating the suppliers according to whether the delivery of the suppliers is on time, the delivery delay time and the quality of the supplied goods and materials.