CN107831750B - IMES intelligent manufacturing execution system - Google Patents

Abstract

The IMES intelligent manufacturing execution system is characterized by comprising a basic data module, a production planning module, a production scheduling module, a quality management module, a manufacturing resource management module, an employee management module, a warehouse management module, a comprehensive report module, a system management module and a mobile terminal system. The invention has the advantages that: the problem that a defect ring is formed between two layers of an MRP and a DCS due to the information island existing in MES is solved; the new module is developed based on the user requirement, and can be used by a plurality of departments at the same time, so that the contradiction that different departments use different information systems is solved, and the working efficiency is improved; the data monitoring of the factory flow is realized, and the management layer can quickly make decisions aiming at the problems.

Description

IMES intelligent manufacturing execution system

Technical Field

The invention relates to an IMES intelligent manufacturing execution system, which is a production informatization management system facing a workshop execution layer of a manufacturing enterprise, optimizes the whole production activity of completing a product from an order by transmitting information, and aims at improving the production and management benefits of the whole enterprise by taking the production and the manufacture as the core.

Background

Starting from the last half of the 70 s of the 20 th century, single function MES systems have emerged that address individual problems. At that time, the work of the ERP layer (called MRP) and DCS layer was performed separately, thus creating two problems: one is an island of information (Island of Information) between the lateral systems; secondly, a defect ring or a link (Missing Ring or Link) is formed between the MRP layer, the MRPII layer and the DCS layer; in the mid-80 s, in order to solve these two problems, an MES prototype, i.e., a conventional MES (T-MES), was generated; in the 90 s, the MES appears as an Integrated system of the whole factory production site, called Integrated MES (I-MES), and in the middle of the 90 s, the thought of MES standardization, function modularization and modularization is also provided, and at this time, a plurality of MES software realizes the modularization.

The developed country is in the stage of industry 3.0 to 4.0, while most of the manufacturing industry in China stays between 2.0 and 3.0, and the problems of high infrastructure cost, low production efficiency, low automation degree, multiple faults, high maintenance cost and the like exist; meanwhile, the Chinese MES market is still in a starting stage, although certain effects are achieved in the industries of metallurgy, petrifaction, automobiles, tobacco and the like, MES products are not fully known in more industries, most of the current popular in the market are customized projects, and reproducible and expandable products with low generality are lacked.

Disclosure of Invention

The invention aims to provide an IMES intelligent manufacturing execution system, so that manufacturing enterprises become presenters and executors of production management ideas in the aspects of manufacturing resource integration, production progress management, quality, equipment and personnel performance management and control and the like, and the problem that an information island and a defect ring is formed between two layers of MRP and DCS in the existing MES is solved.

The technical scheme of the invention is as follows: the IMES intelligent manufacturing execution system is characterized by comprising a basic data module, a production planning module, a production scheduling module, a quality management module, a manufacturing resource management module, an employee management module, a warehouse management module, a comprehensive report module, a system management module and a mobile terminal system, wherein the basic data module is the basis of an MES system, and all other modules depend on the basic data module; the production planning module performs planning on the overall aspect of the enterprise production operation system, namely an entrance of the MES system, can be connected with other systems, and transmits information to the production scheduling module after planning; the production scheduling module is responsible for the establishment of a workshop operation plan, and starts to execute after the production planning module and transmits information to the mobile terminal system; the quality management module 4 performs quality control on workshop operation, and data are transmitted to the module after the mobile terminal equipment performs quality inspection; the manufacturing resource module depends on the basic data module, so that the normal operation of the equipment is ensured, and the equipment is properly maintained; the staff management module records the skill qualification of staff and inquires checked staff, and the data is derived from the mobile terminal system and the basic data module and can be used for selecting staff by the production scheduling module; the warehouse management module records information such as warehouse-in and warehouse-out operations and inventory in the working process, and when the mobile terminal equipment performs the warehouse-in and warehouse-out operations, the module can synchronize data in real time; the comprehensive report module displays the data of the production plan, the production schedule, the quality management and the mobile terminal system in a form of a chart; the system management module manages user rights and checks system logs, and all employees logging in the MES system are required to set rights; the mobile terminal system collects the data of factory work progress, warehouse-in/warehouse-out information, quality inspection and the like and transmits the detailed information to the PC terminal system for recording and analysis.

The invention has the advantages that: the problem that a defect ring is formed between two layers of an MRP and a DCS due to the information island existing in MES is solved; the new module is developed based on the user requirement, and can be used by a plurality of departments at the same time, so that the contradiction that different departments use different information systems is solved, and the working efficiency is improved; the data monitoring of the factory flow is realized, and the management layer can quickly make decisions aiming at the problems.

Drawings

FIG. 1 is a block diagram of the overall construction of the system of the present invention;

FIG. 2 is a block diagram of the production planning module of the present invention;

FIG. 3 is a block diagram of the basic data module of the present invention;

FIG. 4 is a block diagram of the production scheduling module of the present invention;

FIG. 5 is a block diagram of the quality management module of the present invention;

FIG. 6 is a block diagram of a manufacturing resource management module of the present invention;

FIG. 7 is a block diagram of the configuration of the employee management module of the present invention;

FIG. 8 is a block diagram of the warehouse management module of the present invention;

FIG. 9 is a block diagram of the composition of the integrated reporting module of the present invention;

FIG. 10 is a block diagram of the system management module of the present invention;

FIG. 11 is a block diagram of the mobile end system of the present invention;

FIG. 12 is a block diagram of the construction of the shift table of the present invention;

FIG. 13 is a block diagram showing the construction of a custodian workstation of the present invention;

FIG. 14 is a block diagram of the construction of a quality inspector workbench of the present invention;

fig. 15 is a general workflow diagram of the present invention.

Fig. 16 is a flow chart of the overall implementation of the invention.

Detailed Description

Referring to fig. 1-16, the IMES intelligent manufacturing execution system of the present invention includes a basic data module 1, a production planning module 2, a production scheduling module 3, a quality management module 4, a manufacturing resource management module 5, an employee management module 6, a warehouse management module 7, a comprehensive report module 8, and a system management module 9, which can interface ERP (enterprise resource planning) and PMC (production and material control). Mobile-end system 10 is also provided. The modules in the system form a complete computer program which runs on a computer network system comprising a plurality of computer terminals and servers. The construction and flow of the system of the present invention is described in detail below.

Basic data module 1: public data management 11, manufacturing resource management 12, material data management 13, product data management 14, process data management 15. Wherein:

public data management 11 includes exchange rate maintenance, metering maintenance, unit conversion, holiday maintenance, work calendar generation, code category, code definition, vendor information maintenance, encoding rule maintenance, business parameter maintenance, business rule maintenance.

The public data management module 11 manages staff work holiday arrangement, all code definition and category information used in maintenance system, all supplier information in centralized management system, rules to be followed by codes in maintenance system, centralized management of control parameters of each business function, maintenance business rules, and what operation is executed when the business parameters in the definition system meet what condition. Is the basis of all other modules.

Manufacturing resource management 12 includes organizational structure management, personnel maintenance, asset maintenance, warehouse maintenance, and inventory maintenance. The manufacturing resource management module 12 manages various resources in the manufacturing run and their capability data, including organization structure, organization structure information, personnel information, asset information, warehouse information, library position information. Acting on all other modules.

The material data management 13 includes material data maintenance, centralized management of material data, and standard definition of raw materials, auxiliary materials, intermediate products, finished products and packaging materials related to production, so as to realize the sharing of material data by purchasing, stock, selling, designing and producing businesses. The module needs to be maintained in advance and acts on modules such as basic data, production planning, production scheduling, quality management, warehouse management and the like.

The product data maintenance (management) 14 includes product model maintenance and product structure data maintenance. The product data management module 14 manages product structure composition data, namely bill of materials (BOM), which describes the total, sub-package, assembly, component, part of the product up to the structural relationship of the raw materials and the required quantity. The module needs to be maintained in advance and acts on modules such as basic data, production planning, production scheduling, quality management, warehouse management and the like.

Process route maintenance (management) 15 includes process data maintenance, process route maintenance (fig. 2).

The process data management module 15 manages process route and component unit process data of the process route in the material processing and component assembly operation sequence. Directly acts on the production planning module.

Production planning module 2: production order design 21, production order tracking 22. Wherein: the production order design 21 includes product order maintenance, semi-product order maintenance, and planned order maintenance; the production order tracking 22 includes order inventory management, order bill of materials management (e.g., FIG. 3). Wherein:

the production order design module 21 processes the production order placed or newly added to the system, and converts the requirements of the production order into specific manufacturing contents, including a process route, a production BOM, and the like, according to the requirements of the product data, the material data, and the process data. And carrying out material data management, product data management and process data management, and transmitting information to a production order tracking and production scheduling module.

The production order tracking module 22 tracks the whole process from the start of receiving the production order to the completion of production, collects data such as planning, dispatching, execution and the like of the production order, updates the production order state, and sends out warning information for the out-of-date order. And receiving information of the production order design module.

The production scheduling module 3 is used for job plan scheduling, and includes job plan management 31 and job plan tracking 32 (see fig. 4). Wherein:

the work plan management module 31 performs work plan creation of a workshop based on the production capacity of the workshop and constraints of lots, facilities, personnel, and the like. And transmitting the information to a work plan tracking and mobile terminal module.

The job plan tracking module 32 tracks the actual execution of the job. Information of the job plan management module is accepted.

The quality management module 4 includes: a basic data management module 41, an incoming material quality inspection management module 42, a quality inspection management module 43 and a quality judgment and treatment module 44. Wherein: the basic data management module 41 comprises inspection template setting, quality inspection project maintenance, defect code maintenance, working procedure and defect maintenance; the incoming material quality inspection management module 42 comprises an incoming material quality inspection manifest, an incoming material inspection plan and actual results; the quality inspection management module 43 includes quality inspection plans and actual results; the quality determination and handling module 44 includes quality determination and handling (e.g., fig. 5). Wherein:

the basic data management module 41 provides basic data configuration functions related to quality inspection, mainly including maintenance of inspection items, sampling schemes, inspection methods, decision criteria, and the like. The information is transmitted to the incoming material quality inspection management module, the quality inspection management module and the quality judgment and treatment module.

The incoming quality inspection management module 42 maintains a factory incoming record and detailed information of incoming inspection. The information is received from the mobile terminal module.

The quality inspection management module 43 arranges quality inspection tasks in the production process of the product, and selects all materials as objects of quality inspection or samples and inspects part of the materials. The information is received from the mobile terminal module.

Quality determination and handling module 44 maintains quality determination results for online quality inspection. The information receiving self-moving end module is easier to locate the problems in quality inspection compared with the quality inspection management module.

The manufacturing resource management module 5 is used for equipment monitoring, and comprises an equipment operation record module 51, a fault code maintenance module 52, an equipment fault knowledge base maintenance module 53 and an equipment fault maintenance module 54 (as shown in fig. 6). Wherein: the equipment monitoring module 51 maintains information of maintenance equipment.

The employee management module 6 is used for employee management and includes an employee skill/qualification maintenance module 61 and an employee check-in query module 62 (see fig. 7). Wherein the employee management module 61 records the qualification/skill level of the employee and queries the employee's check-in record.

The warehouse management module 7 includes: inventory query module 71, warehouse entry query module 72, warehouse exit query module 73, and in-transit query module 74 (see fig. 8). Wherein the warehouse management module 71 manages inventory, ex-warehouse, warehouse entry, in-transit records and details. And the information synchronous mobile terminal module.

The comprehensive report module 8 includes: an equipment report module 81, a quality report module 82, a yield report module 83, and an operating condition module 84. Wherein: the equipment report module 81 comprises equipment fault statistics and equipment shutdown conditions; the quality report module 82 contains the production yield and is presented in the form of a chart; the yield report module 83 records the factory yield condition (yield report); the run status module 84 aggregates order progress, attendance, inventory, defects, order details and is presented in a chart form (as in fig. 9).

The system management module 9 includes: a user authority setting module 91 and a system log module 92. The user authority setting module 91 performs role setting according to the authority and performs role allocation to the staff. The registration of the MES system and the mobile terminal equipment is limited by the module. The system log module 92 records a user login log, a user operation log, a system version log, and a handheld two-dimensional code generation. When a problem occurs in the system, errors can be quickly located by looking at the log (see fig. 10).

The mobile-end system 10 includes: a shift workbench 101, a custodian workbench 102, a quality inspector workbench 103, an order query 104, my advice 105 (see fig. 11).

The staff workstation 101 manages staff check-in, staff tab, job creation, job issuing, job inquiry. Information is received from the production planning and production scheduling module and transferred to the production planning, production scheduling, quality inspector table and custodian table module (see fig. 12).

Custodian workstation 102: raw material warehouse entry, normal warehouse entry, material returning warehouse entry, scrapped warehouse entry, defective warehouse entry, allocation warehouse entry, material receiving warehouse entry, allocation warehouse entry, backflushing warehouse entry, inventory inquiry, direct sending, inventory checking, warehouse moving and unpacking, and the related data is transmitted to the warehouse management of a PC (fig. 13).

Quality inspector workstation 103: and (5) performing quality inspection on materials, semi-finished products, finished products and the like, and recording inspection results. The data is passed to quality management at the PC side (fig. 14).

The order query module 104 screens for order details.

The my advice module 105 user makes advice.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail as follows:

basic data module 1: the module is used for realizing establishment of a factory model, control of data rules and sources, and standardization and digital processing of all information in enterprise production management activities, and is the basis of the whole MES system.

Production planning module 2: the arrangement and the delivery of the production task to a workshop are realized; generating and delivering a workshop plan to a team production work order; the collection of finishing data of different batches of team work orders is realized; the on-site execution is visualized, in particular the number of work-in-process. The production planning module 2 may interface with the ERP system to make the site execution visible.

Production scheduling module 3: and decomposing and scheduling the weekly plan to the daily plan, and managing and controlling the production sequence and the state of the daily plan. The system has flexibility and can be configured for different factories.

Quality management module 4: the quality standard management of the process is mainly embodied in the MES system management as the requirement and management of production equipment, environment, production conditions and the like, and is generally provided in a process parameter mode when in specific configuration, and the source is the process standard of the technical department. The system can be provided with a target value, an upper and lower alarm limit value, a control upper and lower limit value, a control target value, a scrapped upper and lower limit value and the like; the method realizes effective monitoring of the production process standard execution condition of each business part and monitors the quality condition of products. And analyzing the quality data through a data statistics analysis system, and feeding back an analysis result and a quality trend to a technical process management department and an equipment metering management department.

And more quality inspection modes can be provided, so that the multi-requirement of users can be met.

Manufacturing resource module 5: the equipment fault information is maintained, and the problem can be solved quickly when the equipment is in fault.

Employee management module 6: from the production management point of view, inquiry of personnel basic information and personnel post information is provided, and on the basis of statistics tracking, statistics inquiry facing personnel is provided, so that performance assessment is supported.

Warehouse management module 7: in the actual production operation process of enterprises, the business modes of the stored material types, the distribution quantity, the residual quantity, the returned goods and the like have important significance for error prevention and fool prevention in the production process.

In addition to the basic function, in-transit queries are added, and the quantity loss caused by uncertain factors can be recorded.

Comprehensive report module 8: and carrying out statistical process control on production equipment, materials and production operation, and carrying out statistics and analysis on real-time data. Through comprehensive analysis of a large amount of data, the whole production operation condition can be effectively evaluated, and a powerful means is provided for optimizing production organization, improving product quality, improving equipment guarantee capability and reducing production cost.

System management module 9: and operating the user permission and checking the system log.

The mobile terminal system 10 realizes the data acquisition of the field management service. Wherein:

airliner table operation 101: the staff attendance at each day is responsible for roll-call sign-in and sign-up actions; the airlines create, place and query production jobs to people or work units for production orders that have been placed.

Custodian workstation operations 102: carrying out warehouse-in and warehouse-out operation on products of operators; the warehouse manager performs static inventory of the warehouse aiming at the inventory information of the system, and performs freezing operation on the warehouse during inventory operation, and forbids the warehouse-in and warehouse-out operation; the administrator performs mobile operation on different warehouse positions of the products aiming at the warehouse; the function is utilized in the direct handover process outside the warehouse for operators in different procedures, so that the circulation of on-site procedures does not need to carry out warehouse-in and warehouse-out operation; the custodian can realize the inquiry of the position and the quantity of the existing products by utilizing the function; the custodian performs the splitting and merging operations for products requiring less than full package specifications or for less than full packages during the inventory process.

Quality inspector workstation operation 103: checking the raw materials purchased directly and the materials processed by the outsourcing; the method comprises the steps of carrying out finish inspection or spot inspection on products to be put in storage in a certain time period in the production process; performing finish inspection, head piece inspection and spot check before handover on different production procedures; the quality inspector inspects products flowing into the market before warehousing; and the quality inspector performs waste judgment, repair, yield acceptance or storage (tray) confirmation operation on unqualified products.

The technical environment of the invention is as follows: jdk technical development project basic operation environment, a data structure server stored in Redis memory, a database required by Mysql system operation, a tomcat system operation container, a FastDFS lightweight distributed file system and a zookeeper distributed application coordination service.

Workflow of the present invention (as in fig. 15 and 16): starting order placing by a customer, placing a production plan to an IMES system of the invention through an ERP system and a PMC, maintaining required public data, manufacturing resources, material data, product data and process data in a basic data module 1 by the IMES system, placing the plan to a production scheduling module 3 in a production planning module 2, placing tasks to various business parts by the cooperation of the production scheduling module and a class workbench in a mobile terminal module 10, decomposing the plan to a class by the business parts, starting working by the class, performing quality inspection by a quality inspection workbench after the working process or completion, and transmitting the inspection result to a quality management module 4 for analysis and recording; the custodian carries out the operation of going out/putting in storage after the working process or finishing through the custodian workbench, and transmits the data to the warehouse management module 7; when accidents such as equipment faults occur in the working process, processing such as shutdown maintenance and the like is carried out according to the manufacturing resource module 5, and recording is carried out in an equipment report in the comprehensive report module 8; the comprehensive report module 8 integrates the data of the production plan, the production schedule and the mobile terminal, displays the data in the form of a chart, and the management layer monitors the production state in real time through the comprehensive report, the production plan, the production schedule and the warehouse management and makes decisions in time. The staff management module 6 inquires staff skills and check-in conditions, and the system management module 9 manages login authority of each staff and checks system logs, so that the staff management module can quickly locate when a system has a problem.

Claims (8)

1. An IMES intelligent manufacturing execution system is characterized by comprising a basic data module (1), a production planning module (2), a production scheduling module (3), a quality management module (4), a manufacturing resource module (5), an employee management module (6), a warehouse management module (7), a comprehensive report module (8), a system management module (9) and a mobile terminal system (10) which is equipped, wherein the basic data module (1) is the basis of an MES system, and all other modules depend on the basic data module (1); the production planning module (2) performs planning on the overall aspect of the enterprise production operation system to be an entrance of the MES system, can be connected with other systems, and transmits information to the production scheduling module after planning; the production scheduling module (3) is responsible for planning workshop operation, and starts to execute after the production scheduling module and transmits information to the mobile terminal system; the quality management module (4) is used for quality control of workshop operation, and data are transmitted to the module after the mobile terminal equipment performs quality inspection; the manufacturing resource module (5) depends on the basic data module, so that the normal operation of the equipment is ensured, and the equipment is properly maintained; the staff management module (6) records the skill qualification of staff and inquires checked staff, and the data is derived from the mobile terminal system and the basic data module and can be used for selecting staff by the production scheduling module; the warehouse management module (7) records information such as warehouse-in and warehouse-out operations and inventory in the working process, and when the mobile terminal equipment performs the warehouse-in and warehouse-out operations, the module can synchronize data in real time; the comprehensive report module (8) displays the production plan, production scheduling, quality management and data of the mobile terminal system in a form of a chart; the system management module (9) manages user rights and checks system logs, and all staff logging in the MES system are required to set rights; the mobile terminal system (10) collects the data such as the work progress of the factory, the out/in-warehouse information, the quality inspection and the like and transmits the detailed information to the PC terminal system for recording and analysis;

the basic data module (1) comprises: the system comprises a public data management module (11), a manufacturing resource management module (12), a material data management module (13), a product data management module (14) and a process data management module (15);

the public data management module (11) comprises exchange rate maintenance, metering maintenance, unit conversion, holiday maintenance, working calendar generation, code category, code definition, supplier information maintenance, coding rule maintenance, business parameter maintenance and business rule maintenance;

the manufacturing resource management module (12) comprises organization structure management, personnel maintenance, asset maintenance, warehouse maintenance and library position maintenance;

the material data management module (13) comprises material data maintenance;

the product data management module (14) comprises product model maintenance and product structure data maintenance;

the process data management module (15) comprises process data maintenance and process route maintenance.

2. The IMES intelligent manufacturing execution system according to claim 1, wherein the production planning module (2) comprises: a production order design module (21), a production order tracking module (22), wherein: the production order design module (21) comprises finished product order maintenance, semi-finished product order maintenance and planned order maintenance; the production order tracking module (22) comprises order list management and order bill of materials management;

the production scheduling module (3) is used for scheduling the operation plan and comprises an operation plan management module (31) and an operation plan tracking module (32).

3. The IMES intelligent manufacturing execution system according to claim 1, wherein the quality management module (4) comprises: the system comprises a basic data management module (41), an incoming material quality inspection management module (42), a quality inspection management module (43) and a quality judgment and treatment module (44).

4. The IMES intelligent manufacturing execution system according to claim 3, wherein the basic data management module (41) comprises an inspection template setting module, a quality inspection project maintenance module, a defect code maintenance module, a process and defect maintenance module; the incoming material quality inspection management module (42) comprises an incoming material quality inspection arrival manifest module, an incoming material inspection plan and actual performance module; the quality inspection management module (43) comprises a quality inspection plan and actual performance module; the quality determination and handling module (44) includes a quality determination and handling module.

5. The IMES intelligent manufacturing execution system according to claim 1, wherein the manufacturing resource module (5) is used for equipment monitoring and comprises an equipment operation recording module (51), a fault code maintenance module (52), an equipment fault knowledge base maintenance module (53) and an equipment fault maintenance module (54).

6. The IMES intelligent manufacturing execution system according to claim 1, characterized in that the staff management module (6) is for staff management, comprising a staff skill/qualification module (61) and a staff check-in query module (62).

7. The IMES intelligent manufacturing execution system according to claim 1, characterized in that the warehouse management module (7) comprises: an inventory query module (71), a warehouse-in query module (72), a warehouse-out query module (73) and an on-the-way query module (74).

8. The IMES intelligent manufacturing execution system according to claim 1, wherein the integrated reporting module (8) comprises: the device report module (81), the quality report module (82), the yield report module (83) and the running condition module (84); wherein: the equipment report module (81) comprises equipment fault statistics and equipment shutdown conditions; the quality report module (82) comprises a production qualification rate; the yield report module (83) comprises a yield report; the operating condition module (84) includes an operating condition;

the system management module (9) comprises: a user authority setting module (91) and a system log module (92); the user authority setting module (91) comprises role setting and user authentication setting; the system log module (92) comprises a user login log, a user operation log, a system version log and a handheld two-dimensional code generation;

the mobile terminal system (10) includes: a class workbench (101), a custodian workbench (102), a quality inspector workbench (103), an order inquiry module (104) and a my advice module (105); wherein:

the class workbench (101) comprises: the system comprises an employee sign-in module, an employee tab module, a job inquiry module, a job creation module and a job issuing module;

the custodian workstation (102) includes: a raw material warehouse-in module (ERP), a normal warehouse-in module, a material returning warehouse-in module, a scrapped warehouse-in module, a defective warehouse-in module, a transfer warehouse-in module, a material receiving warehouse-out module, a transfer warehouse-out module, a recoil warehouse-in module, a stock inquiry module, a direct sending module, a checking module, a warehouse-moving module and an unpacking module;

the quality inspector workstation (103) comprises: the system comprises an incoming material inspection module, a process inspection module, a finished product inspection module and a consignment inspection module.