CN111598500A - 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 building an infrastructure cloud platform and is used for counting and storing the information and the number of the production materials of each inventory point under the micro-service architecture; the basic application platform end is used for monitoring the stock of each stock point under the micro-service architecture in real time, and meanwhile, the stock of each stock point is generated into a corresponding table and the like to be sent to related workers; the application server mainly comprises inventory management of production materials and realizes material allocation among inventory points; 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 the 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 innovation of the power system, the status and the effect of the asset operation efficiency and the benefit are increasingly outstanding, an asset value evaluation mechanism of each area is established, the asset benefit level of each area is scientifically evaluated, the incentive and the constraint action of budget management can be fully exerted, the accurate allocation of resources is promoted, and the investment return level is improved.

However, the inventor finds that the informatization practice of large internet enterprises, large central enterprises and large foreign enterprises proves that: based on the traditional centralized IT architecture and application mode, the explosive business growth cannot be dealt with. An application architecture for flexibly and agilely coping with business changes gradually becomes a trend, and a micro-service architecture system becomes an important direction for informatization transformation of large enterprises.

The microservice architecture is a new technology for deploying applications and services in the cloud. The microservice may run in its own program and communicate with the HTTP-type API through the lightweight device. The key is that the service can run in its own program. By this we can distinguish service disclosure from micro-service architecture. In service publishing, many services may be restricted by internal independent processes. If any of the services requires some functionality to be added, the process must be narrowed. In the micro-service architecture, only the required functions need to be added in a specific certain service, and the architecture of the whole process is not influenced.

Production materials management of existing nuclear power plants typically uses COMIS to manage equipment ledgers, spare parts and tools, IPM schema platforms to manage maintenance schemas, and DAMI program databases to manage maintenance procedures. The original systems are dispersed and independent, and data and information which are actually correlated are respectively processed among a plurality of mutually independent platforms, so that the condition of data and information contradiction is easy to generate, the stock management of the biological assets is not clear and convenient enough, the stock overstock or the stock shortage of each place is easy to cause, and the turnover rate of the stock is lower.

Disclosure of Invention

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

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

a production material management system based on a micro-service architecture comprises: the system comprises an infrastructure end and a micro service architecture, wherein the infrastructure end builds an infrastructure cloud platform, provides server computing resources and database resources, and is used for counting and storing 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 of each stock point under the micro-service architecture in real time, and meanwhile, the stock of each stock point is generated into a corresponding table and the like to be sent to related workers; the application server mainly comprises inventory management of production materials and realizes material allocation among inventory points; the basic application platform end comprises a monitoring module and an operation and maintenance module; the monitoring module is used for monitoring the warehouse entry and exit quantity and the stock quantity of each stock point under the micro-service architecture in real time and sending the detected stock quantity to the infrastructure side; the operation and maintenance module is used for creating inventory information of each inventory point under the micro-service architecture, packaging and sorting the inventory information to form a visual sharing platform, realizing interconnection and intercommunication of inventory data, communicating the database with the application server, and displaying the inventory data in different forms, different latitudes and different visual angles, so that related personnel can accurately master the inventory 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 the inventory management module calculates inventory quantity which needs to be supplemented for the inventory points with insufficient inventory according to the overstock and shortage conditions of the inventory points, calculates inventory quantity which needs to be dispatched for the inventory points with the overstock, and calculates inventory points of the overstock of the materials which are closest to the inventory points with the materials needing to be supplemented according to the positions of the inventory points; and the material allocation module is in contact with the corresponding stock points according to the stock required to be allocated by the stock management module and the accurate stock position, so that the stock points of the shipment are packaged in advance, and meanwhile, the transport company with the closest distance is contacted to determine the good loading time and the good transport time.

By adopting the scheme, the infrastructure end records the inventory in and out amount and the current inventory of each inventory point under the micro-service architecture in real time, the monitoring module monitors the inventory of each inventory point in real time and judges whether the material of each inventory point is overstocked or insufficient, the operation and maintenance module is used for creating the inventory information of each inventory point under the micro-service architecture and packaging and arranging the inventory information to form a visual sharing platform to realize interconnection and intercommunication of inventory data, the database is communicated with the application server end and display of the inventory data can be carried out in different forms, different latitudes and different visual angles, so that related personnel can accurately grasp the inventory of the whole company, the inventory management module of the material management module calculates the inventory needed to be supplemented for the inventory points with insufficient inventory and the inventory points with the inventory overstock of the inventory pressure according to the overstock and the insufficient condition of each inventory point, meanwhile, according to the position of each inventory point, an inventory point of material backlog which is closest to the inventory point needing to be supplemented with materials is calculated, product materials can be allocated in time in the shortest time and the shortest distance, the freight charge and the time are saved, a material allocation module is in contact with the corresponding inventory point according to the inventory amount needing to be allocated by an inventory management module and the accurate inventory position, the delivered inventory point is packaged in advance, and meanwhile, a transport company closest to the distance is contacted to determine the good loading time and the good transport time, so that the material allocation efficiency is improved, the material backlog or insufficient inventory of the inventory point under the micro-service architecture is reduced, and the material turnover rate is improved.

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

By adopting the scheme, the input module is used for inputting various information of materials into the server, such as the names, the numbers, the bar codes and the like of the produced materials into the server, the server generates an original material list of the materials according to related information of commodities, simultaneously records the number of the materials entering and leaving the warehouse in real time, generates an entering and leaving warehouse list and a real-time inventory list, records the newly-put materials and the materials in the original inventory and generates a new and old material comparison table, and the database is used for storing the most original material list, the entering and leaving warehouse list, the inventory and the new and old material comparison table produced by the server, so that the directions and the like of the materials have history traceability, and the basic application platform end and the application server end can be called in time.

The invention is further configured to: 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 framework is overstocked or insufficient, the judging unit sets an overstock threshold and an insufficient stock threshold for each stock point under the micro-service framework, the stock is compared with the overstock threshold and the insufficient stock threshold within a specific time, when the stock is greater than the overstock threshold, the overstock of the stock point under the micro-service framework is indicated, production materials need to be allocated outwards in time, and when the stock is less than the insufficient stock threshold, the insufficient stock of the stock point under the micro-service framework is indicated.

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 ex-warehouse quantity and the in-warehouse quantity, counting the ex-warehouse quantity, the in-warehouse quantity and the current inventory quantity of the materials, the judging unit compares the inventory quantity of each inventory point with the overstock threshold value and the insufficient inventory threshold value under the micro-service architecture, when the inventory quantity is greater than the overstock threshold value in a specific time, the inventory overstock of the inventory point under the micro-service architecture is indicated, the materials to be produced need to be allocated outwards in time, when the inventory quantity is less than the insufficient inventory threshold value, the inventory point under the micro-service architecture is indicated, the materials to be produced need to be supplemented in time, so that the overstock or insufficiency of each inventory point can be judged at the first time, and the materials to be allocated rapidly and timely among different inventory points in the whole country can be realized, the overstock inventory can be activated, and the emergency overhaul requirement is met.

The invention is further configured to: the monitoring module further comprises a checking unit, and the checking unit can check the warehousing quantity and the ex-warehousing quantity of the produced materials of the inventory point under the micro-service architecture with the most original material list in the server one by one, scan the bar codes of the produced materials, and check the names, the serial numbers and the bar codes of the produced materials with the bar codes, the names and the serial numbers of the produced materials in the server one by one.

By adopting the scheme, the checking unit checks the name, the serial number and the bar code of the produced material with the bar code, the name and the serial number of the produced material in the server one by one, checks and combs inventory data, realizes one account of inventory through combing the existing inventory data, and lays a foundation for lean inventory management.

The invention is further configured to: 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 integrates production materials of each inventory point under the micro-service architecture to form a table and a statistical chart; the sharing unit is used for establishing a visual spare part information sharing platform, realizing interconnection and intercommunication of inventory data inside the sharing unit, and integrating the inventory of each area of the inventory of each inventory point through the inventory network information between the external Internet technology construction and a supplier to form a table and a statistical chart and display the inventory of the production of each area; and the transmitting unit is used for transmitting the integrated table, statistical chart and the like to corresponding workers.

By adopting the scheme, the processing unit integrates the produced materials of each inventory point under the micro-service architecture to form a table and a statistical chart, the inventory of each inventory point can be clearly compared 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 of each inventory point, the sharing unit establishes a visual spare part information sharing platform, the interconnection and intercommunication of inventory data are realized inside the visual spare part information sharing platform, the visual spare part information sharing platform is used for displaying the integrated produced materials of each area of the inventory of each inventory point to form the table and the statistical chart and displaying the inventory of the produced materials of each area, the visual effect of the platform is strong, better operation experience is achieved, the data display can be carried out in different forms, different latitudes and different visual angles, and the visual angle is used for displaying the integrated produced materials of each area of the inventory of each inventory point to form the table and the statistical chart, meanwhile, the inventory of the production materials in each region is displayed, so that the staff can clearly compare the inventory of each inventory point.

The invention is further configured to: the application server side further comprises a material demand planning module, and the material demand planning module is used for counting the production material consumption condition of the inventory point under the micro-service framework in the near period of time in real time and estimating the material consumption in the next period of time according to the consumption condition in the near period of time.

By adopting the scheme, the material usage in the next period of time is estimated according to the usage situation of the near period of time, simultaneously, the material to be supplemented or the overstocked material in the next specific time is calculated according to the current stock, and the overstocked material or the overstocked 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 showing material shortage or material overstocking, related personnel can accurately grasp the stock of the whole company, and a basis is provided for decision analysis.

The invention is further configured to: the application server side further comprises a spare part combined storage module, the spare part combined storage module is connected with the sharing unit and is used for being communicated with a material supplier in the sharing unit and a spare part database of the supplier, the current stock quantity and the current production quantity of the supplier can be clearly known, the stock quantities of all stock points under the micro-service architecture are collected, and the supplier is ordered in time by combining the estimated demand quantity in the material demand planning module.

By adopting the scheme, the system is communicated with the spare part database of the supplier, the current stock and the current production of the supplier can be clearly known, the stock of each stock point under the micro-service architecture is gathered, the estimated demand in the material demand planning module is combined, the supplier is ordered in time, the shortage of the stock of the supplier is prevented, the stock of the whole company and the stock data of the supplier can be accurately grasped by related personnel, the basis is provided for decision analysis, the stock information network between the supplier is opened, the stock of the supplier is used by the supplier, the stock quantity of the company is reduced, the management cost is reduced, and the timely supply of spare parts is guaranteed while the stock is reduced.

The invention is further configured to: the application server also comprises a performance tracking module and a supplier evaluation module; the fulfillment tracking module is used for counting whether each supplier can deliver goods on time and detecting the quality of the goods and materials; the supplier evaluation module performs comprehensive evaluation on the supplier according to the on-time delivery, the delay time of delivery, the quality of supplied goods and materials and the like of the supplier.

By adopting the scheme, the supplier can be supervised according to whether the supplier can deliver the guaranteed amount of the time guarantee value specified by the contract or not, the performance efficiency of the supplier is improved, and a long-term relation is established.

In conclusion, the invention has the following beneficial effects:

1. the basic application platform end comprises a monitoring module and an operation and maintenance module, the application server 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, and the inventory management module calculates the inventory required to be supplemented for the inventory points with insufficient inventory according to the overstock and the shortage of each inventory point, calculates the inventory required to be allocated for the inventory points with the overstock, and calculates the inventory point of the material overstock closest to the inventory point required to be supplemented according to the position of each inventory point; the material allocation module is connected with corresponding stock points according to the stock amount and accurate stock position required to be allocated by the stock management module, so that the stock points of shipment are packed in advance, meanwhile, a transport company with the closest distance is connected, the good loading time and the good transporting time are determined, the base facility end records the stock in-and-out amount and the current stock amount of each stock point under the micro-service architecture in real time, the monitoring module monitors the stock amount of each stock point in real time and judges whether the material of each stock point is overstocked or insufficient, the operation and maintenance module is used for creating the stock information of each stock point under the micro-service architecture and packing and arranging the stock information to form a sharing platform for visualization, the interconnection of the stock data is realized, the database is communicated with the application server end, and the stock data can be displayed in different forms, different latitudes and different visual angles, so that related personnel can accurately grasp the stock of the whole company, the stock management module of the material management module calculates the stock required to be supplemented for the stock points with insufficient stock according to the overstock and the insufficient condition of each stock point, calculates the stock required to be dispatched for the stock points with overstock, and simultaneously calculates the stock point of the material overstock closest to the stock points with the overstock required to be supplemented according to the position of each stock point, and can dispatch the product materials in time in the shortest time and the shortest distance, thereby saving the freight and the time, the material dispatching module links the stock required to be dispatched according to the stock management module and the accurate stock position with the corresponding stock points, packages the stock points of the shipment in advance, and simultaneously links the transportation company closest to the distance to determine the good loading time and the good transportation time, thereby improving the efficiency of the material dispatching, thereby reducing the backlog or insufficient inventory of the materials of the inventory point under the micro-service architecture and improving the turnover rate of the materials;

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

3. the application server also comprises a spare part combined storage module which is connected with the sharing unit and is used for communicating with a material supplier in the sharing unit and communicating with a spare part database of the supplier, so that the current stock quantity, the current production quantity and the like of the supplier can be clearly known, the stock quantities of all stock points under the micro-service architecture are collected, the estimated demand quantity in the material demand planning module is combined to order the supplier in time, the spare part database of the supplier is communicated, the current stock quantity, the current production quantity and the like of the supplier can be clearly known, the stock quantities of all stock points under the micro-service architecture are collected, the estimated demand quantity in the material demand planning module is combined to order the supplier in time, the shortage of the quantity of the supplier due to insufficient quantity of the goods is prevented, and related personnel can accurately grasp the stock quantity of the whole company and the stock data of the supplier, the method provides a basis for decision analysis, opens up an inventory information network between suppliers, and makes the supplier storeroom be used by the supplier, so that the inventory stock quantity of the company can be reduced, the management cost can be reduced, and the timely supply of spare parts is guaranteed while the inventory is reduced.

Drawings

FIG. 1 is a system diagram of an embodiment;

fig. 2 is a block diagram of the basic application platform side and the application server side.

In the figure, 1, infrastructure end; 11. a server; 12. a database; 13. an input module; 2. a basic application platform end; 21. a monitoring module; 211. a monitoring unit; 212. a judgment 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. a spare part combined storage module; 35. a fulfillment tracking module; 36. a supplier evaluation module.

Detailed Description

A production material management system based on a micro-service architecture is shown in figure 1 and comprises three layers from bottom to top, namely an infrastructure end 1, a basic application platform end 2 and an application service end 3. The infrastructure end 1, the infrastructure end 1 builds an infrastructure cloud platform, provides computing resources of the server 11 and resources of the database 12, and is used for counting and storing information and number of production materials of each inventory point under the micro-service architecture. And the basic application platform end 2 is used for monitoring the inventory of each inventory point under the micro service architecture in real time, and meanwhile, generating a corresponding table and the like by the inventory of each inventory point and sending the table to related workers. The application server 3 and the application server 3 mainly comprise inventory management of production materials, and material allocation among the inventory points is realized, so that the material backlog or insufficient inventory of the inventory points is reduced, and the material turnover rate is improved.

Referring to fig. 1, the infrastructure terminal 1 includes a server 11, a database 12, and an input module 13. And the input module 13, the input module 13 is used for inputting various items of information of the materials into the server 11, such as names, numbers, bar codes and the like of the produced materials into the server 11. The server 11 generates an original material list of the materials according to the related information of the commodities, simultaneously records the number of the materials entering and exiting the warehouse in real time, generates an entering and exiting warehouse list and a real-time inventory list, records the materials newly entering the warehouse and the materials in the original inventory and generates a new and old material comparison table. And the database 12 is used for storing the most original bill of materials, the in-out inventory, the inventory and the new and old material 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 fig. 2, the basic application platform 2 includes a monitoring module 21 and an operation and maintenance module 22, where the monitoring module 21 is configured to monitor the in-out quantity and the inventory quantity of each inventory point in the micro service architecture in real time, and send the detected inventory quantity to the server 11; the operation and maintenance module 22 is used for creating inventory information of each inventory point under the micro-service architecture, packaging and sorting 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 master the inventory 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 collating 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 material, 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 overstocked or insufficient, the judging unit 212 sets an overstock threshold and an insufficient stock threshold for each stock point under the micro-service architecture, when the stock is greater than the overstock threshold in a specific time, the overstock of the stock point under the micro-service architecture is shown, production materials need to be allocated outwards in time, when the stock is less than the insufficient stock threshold, the insufficient stock of the stock point under the micro-service architecture is shown, and the production materials need to be supplemented in time, so that the overstocked or insufficient stock points can be judged at the first time, the timely and rapid allocation of the production materials among different stock points in the whole country can be realized, the overstocked stock can be activated, and the emergency overhaul requirement can be met. The checking unit 213, the checking unit 213 can check the warehousing quantity and the ex-warehousing quantity of the production materials of the inventory point under the micro-service architecture with the most original material list in the server 11 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 11 one by one, check and comb the inventory data, realize an inventory account through 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 sending unit 223. The processing unit 221 is connected to the monitoring unit 211, the determining unit 212, and the checking unit 213, and integrates the production materials of each inventory point under the microservice architecture to form a table and a statistical chart, so that the inventory of each inventory point can be clearly compared from the statistical chart, and thus, a worker can simply and clearly see the current inventory condition of each inventory point and compare and analyze the inventory of each inventory point. The sharing unit 222 establishes a visual spare part information sharing platform, interconnection and intercommunication of inventory data are realized inside the platform, inventory network information between the platform and suppliers is built externally through the internet technology, the platform is strong in visual effect and good in operation experience, data display can be carried out in different forms, different latitudes and different visual angles, and the platform is used for integrating the inventory of each inventory point and the production materials in each area to form a table and a statistical chart and displaying the inventory of the production materials in each area. And the sending unit 223 is used for sending the integrated table, statistical chart and the like to corresponding staff, so that the staff can check the inventory of each inventory point in time, and the staff can access the table and the statistical chart through a mobile phone, a computer, a pad, a Baidu 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 mobile phone WeChat, so that the worker can check the inventory condition of each inventory 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 which needs to be supplemented to the inventory points with insufficient inventory according to the overstock and the shortage of each inventory point, calculates the inventory quantity which needs to be dispatched from the inventory points with overstock, and calculates the inventory point of the inventory pressure of the goods and materials which is closest to the inventory point which needs to be supplemented with the goods and materials according to the position of each inventory point, so that the goods and materials can be dispatched in time in the shortest time and the shortest distance, and the operation cost and the time are saved. The material allocation module 32, according to the inventory amount to be allocated by the inventory management module 31 and the accurate inventory position, contacts the corresponding inventory point, so that the inventory point of the shipment is packed in advance, and simultaneously contacts the nearest transportation company to determine the good loading time and the good transportation time, thereby improving the efficiency of material allocation.

Referring to fig. 2, the material demand planning module 33, the real-time statistics of the material usage at the stock point under the micro-service architecture in the near time period, and according to the usage at the near time period, the material usage at the next time period is estimated, and according to the current stock, the material or the overstocked material to be supplemented at the next specific time period is calculated, and the overstocked material or the material to be supplemented is fed back to the material allocation module 32, so that the material allocation module 32 can allocate and supplement the material at the stock point in time, and prevent the stock point from having material shortage or material overstocked, so that the related personnel can accurately grasp the stock of the whole company, and provide basis for decision analysis. The spare part storage module 34, the spare part storage module 34 is connected to the sharing unit 222 for communicating with the material supplier in the sharing unit 222, and is communicated with the spare part database 12 of the supplier, so that the current stock quantity and the current production quantity of the supplier can be clearly known, the inventory of each inventory point under the micro-service architecture is gathered, and the estimated demand in the material demand planning module 33 is combined to order the suppliers in time, so that the shortage of the inventory of the suppliers due to insufficient inventory is prevented, relevant personnel can accurately grasp the inventory of the whole company and the inventory data of the suppliers, a basis is provided for decision analysis, an inventory information network between the relevant personnel and the suppliers is opened, the warehouse of the suppliers is used by the personnel, the inventory stock quantity of the companies can be reduced, the management cost can be reduced, and the timely supply of spare parts is guaranteed while the inventory is reduced.

Referring to fig. 2, the application server 3 further includes a performance tracking module 35 and a supplier evaluation module 36. The fulfillment tracking module 35 counts whether each supplier can deliver goods on time, detects the quality of materials, supervises delivery according to whether the supplier can guarantee the goods according to the time stipulated by the contract, improves the fulfillment efficiency of the suppliers, and establishes a long-term relationship. The supplier evaluation module 36 performs a comprehensive evaluation on the supplier according to whether the delivery of the supplier is on time, the length of the delivery delay time, the quality of the goods and materials, and the like, and evaluates that the supplier is in four grades of excellent, good and medium-poor, so that the worker can preferentially select a good-quality supplier when supplementing goods, and the good-quality supplier supplies goods first.

The server 11 can record the in-out quantity and the current stock quantity of each stock point under the micro-service architecture in real time, and store the information of each stock point in the database 12, the monitoring module 21 monitors the stock quantity of each stock point in real time, and judges whether the material of each stock point is overstock or insufficient, the material management module calculates the material quantity needed to be supplemented and the material quantity needed to be adjusted outside for each stock point according to the stock condition of the stock point, and the material allocation module 32 allocates the material quantity needed to be allocated by the material management module in time and quickly to spare parts among the stock points preferentially, activates overstock stock, shares the overstock stock with the data of suppliers, and orders the suppliers with good reputation and quality reaching the standard preferentially.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. A production material management system based on a micro-service architecture is characterized in that: the method comprises 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 number of production materials of each inventory point under a micro-service architecture;

the basic application platform end (2) is used for monitoring the inventory of each inventory point under the micro service architecture in real time, and meanwhile, the inventory of each inventory point is generated into a corresponding table and the like to be sent to relevant workers;

the application server (3), the application server (3) mainly includes the stock management of the production material, realize the material deployment among every stock point;

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

the monitoring module (21), the monitoring module (21) is used for monitoring the warehouse entry and exit amount and the stock amount of each stock point under the microservice architecture in real time, and sending the detected stock amount to the infrastructure terminal (1);

the operation and maintenance module (22) is used for creating inventory information of each inventory point under the micro-service architecture, packaging and sorting 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 master the inventory of the whole company;

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

the inventory management module (31), the inventory management module (31) connects the monitoring module (21) and the operation and maintenance module (22), the inventory management module (31) calculates the inventory quantity that needs to be supplemented for the inventory points with insufficient inventory according to the backlog and shortage of each inventory point, calculates the inventory quantity that needs to be dispatched for the inventory points with insufficient inventory pressure, and calculates the inventory point of the material backlog closest to the inventory point needing to be supplemented with the material according to the position of each inventory point;

and the material allocation module (32) is used for contacting the corresponding stock points according to the stock amount required to be allocated by the stock management module (31) and the accurate stock position, so that the stock points for delivery are packaged in advance, and meanwhile, the transport company with the closest distance is contacted to determine the good loading time and the good transportation time.

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), the input module (13) is used for inputting every item of information of the supplies into the server (11);

the server (11), the server (11) generates an original material list of the goods according to the relevant information of the commodities, simultaneously records the number of the goods in and out of the warehouse in real time, generates an in and out warehouse list and a real-time inventory list, records the goods in the new warehouse and the goods in the original warehouse and generates a new and old goods comparison table;

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

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

the monitoring module (21) comprises a monitoring unit (211) and a judging unit (212);

the monitoring unit (211) 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 (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 overstock or insufficient, the judging unit (212) sets an overstock threshold value and an insufficient stock threshold value for each stock point under the micro-service architecture, the stock is compared with the overstock threshold value and the insufficient stock threshold value within specific time, when the stock is larger than the overstock threshold value, the stock overstock of the stock point under the micro-service architecture is indicated, production materials need to be allocated outwards in time, and when the stock is smaller than the insufficient stock threshold value, the insufficient stock of the stock point under the micro-service architecture is indicated.

4. The microservice-architecture-based production material management system of claim 1, wherein: the monitoring module (21) further comprises a checking unit (213), and the checking unit (213) can check the warehousing quantity and the ex-warehousing quantity of the produced materials of the inventory point under the micro-service architecture with the most original bill of materials in the server (11) one by one, scan the bar codes of the produced materials, and check the names, the serial numbers and the bar codes of the produced materials with the bar codes, the names and the serial numbers of the produced materials in the server (11) one by one.

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

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

the processing unit (221), the processing unit (221) connects 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;

the sharing unit (222) is used for establishing a visual spare part information sharing platform, realizing interconnection and intercommunication of inventory data inside the platform, establishing inventory network information between suppliers and the outside of the platform through the Internet technology, and is used for displaying inventory of each area of the inventory of each inventory point, integrating the production materials of each area to form a table and a statistical chart and displaying the inventory of the production materials of each area;

and the transmitting unit (223) is used for transmitting the integrated table, statistical chart and the like to the corresponding staff.

6. 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) counts the production material consumption condition of the inventory point under the micro-service architecture in the near period of time in real time, and estimates the material consumption in the next period of time according to the consumption condition in the near period of time.

7. The microservice-architecture-based production material management system of claim 5, wherein: the application server (3) further comprises a spare part combined storage module (34), wherein the spare part combined storage module (34) is connected with the sharing unit (222) and is used for being communicated with a material supplier in the sharing unit (222) and a spare part database (12) of the supplier, so that the current inventory quantity, the current production quantity and the like of the supplier can be clearly known, the inventory quantities of all inventory points under the micro-service architecture are collected, and the estimated demand quantity in the material demand planning module (33) is combined to order the supplier in time.

8. 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 supplier evaluation module (36);

the fulfillment tracking module (35), the fulfillment tracking module (35) counts whether each supplier can deliver goods on time, and detects the quality of materials;

the supplier evaluation module (36), the supplier evaluation module (36) carries out a comprehensive evaluation to the supplier according to the delivery punctuality of the supplier, the length of the delivery delay time, the quality of the supplied goods and materials and the like.

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