CN110580026A - intelligent manufacturing MES system - Google Patents
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- CN110580026A CN110580026A CN201910882197.9A CN201910882197A CN110580026A CN 110580026 A CN110580026 A CN 110580026A CN 201910882197 A CN201910882197 A CN 201910882197A CN 110580026 A CN110580026 A CN 110580026A
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- 238000004519 manufacturing process Methods 0.000 title claims abstract description 223
- 238000000034 method Methods 0.000 claims abstract description 179
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- 238000007689 inspection Methods 0.000 claims abstract description 107
- 230000002159 abnormal effect Effects 0.000 claims abstract description 62
- 238000012544 monitoring process Methods 0.000 claims abstract description 17
- 238000004806 packaging method and process Methods 0.000 claims abstract description 12
- 238000007726 management method Methods 0.000 claims description 181
- 238000012423 maintenance Methods 0.000 claims description 61
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- 230000007547 defect Effects 0.000 claims description 29
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
- G05B19/41865—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM] characterised by job scheduling, process planning, material flow
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/30—Nc systems
- G05B2219/32—Operator till task planning
- G05B2219/32252—Scheduling production, machining, job shop
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P80/00—Climate change mitigation technologies for sector-wide applications
- Y02P80/10—Efficient use of energy, e.g. using compressed air or pressurized fluid as energy carrier
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/80—Management or planning
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- Automation & Control Theory (AREA)
- Management, Administration, Business Operations System, And Electronic Commerce (AREA)
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Abstract
The invention discloses an intelligent manufacturing MES system, which comprises a basic modeling module, a plan scheduling module, an integrated production module, a logistics management module, a quality management module, an energy management module, an equipment management module, a central control center management module and an abnormal Andon module, wherein the basic modeling module is used for establishing a basic model; the basic modeling module is used for completing establishment of factory layout, establishment of product information and establishment of external resources; the plan scheduling module is used for establishing a production order, preparing and distributing materials in a warehouse, scheduling work orders, executing production, inspecting, packaging, producing and warehousing; the comprehensive production module is used for managing the whole production business process; the logistics management module is used for managing a production receiving management process and a production warehousing management process; and the quality management module is used for maintaining the inspection objects of the purchasing department, the workshop department and the selling department. The invention provides a perfect intelligent manufacturing MES system, thereby realizing intelligent manufacturing full-flow monitoring.
Description
Technical Field
the invention relates to an intelligent manufacturing MES system.
background
Manufacturing Execution System (MES) was proposed by AMR corporation of america in the early 90 s, and aims to enhance the execution function of MRP plan, and to connect MRP plan with workshop job site control through an execution system. The field control comprises a PLC program controller, a data acquisition unit, bar codes, various metering and detecting instruments, a manipulator and the like. The MES system provides the necessary interfaces to establish a partnership with the manufacturer that provides the production field control facility. However, the MES systems of the prior art are not perfect and only a certain part of the production process will be described.
Disclosure of Invention
the invention aims to overcome the defects of the prior art and provide an intelligent manufacturing MES system.
the purpose of the invention is realized by the following technical scheme: an intelligent manufacturing MES system comprises a basic modeling module, a plan scheduling module, a comprehensive production module, a logistics management module, a quality management module, an energy management module, an equipment management module, a central control center management module and an abnormal Andon module; wherein:
the basic modeling module is used for completing establishment of factory layout, establishment of product information and establishment of external resources;
the plan scheduling module is used for establishing a production order, preparing and distributing materials in a warehouse, scheduling work orders, executing production, inspecting, packaging, producing and warehousing;
the comprehensive production module is used for managing the whole production business process;
the logistics management module is used for managing a production receiving management process and a production warehousing management process;
The quality management module is used for maintaining the inspection objects of the purchasing department, the workshop department and the selling department and judging the inspection of the inspection department and the quality control department;
the energy management module is used for monitoring and analyzing the energy consumption and the environmental protection of a factory;
the equipment management module is used for comprehensively managing basic data, spare parts, equipment overhaul and maintenance cost of the equipment by adopting an equipment point inspection regular repair strategy and an overhaul cost control system; covering the whole life cycle of the equipment from installation and debugging to production operation and maintenance;
the central control center management module collects and transmits data information of equipment running state, plan execution state, process machining state, yield and efficiency acquired and transmitted by each acquisition point in real time based on a visual platform to form a monitoring management working platform which integrates a data acquisition management center, a system instruction management center, a data control management center, an equipment video signal management center and an equipment abnormity alarm center;
The abnormal Andon module is used for directly transmitting abnormal calling information including production shortage, equipment failure and production abnormality to designated personnel, and the calling process including time nodes is automatically recorded.
further, the base modeling module includes:
the factory modeling unit is used for establishing a plurality of factories, and each factory establishes a plurality of warehouses; the factory carries out independent planning according to the material planning attribute definition, the material demand condition, the warehouse level and the work in process condition, and the independent planning comprises factory maintenance, workshop maintenance, production line maintenance, work station maintenance, warehouse maintenance, personnel maintenance and personnel scheduling;
The material information unit is used for classifying materials and preparing for query analysis and financial accounting;
the product structure unit is used for describing the composition relation of product materials and the quantity requirement of lower-layer materials and is the basis for producing the material;
a process flow unit, wherein the process corresponds to a certain process procedure on the business and is defined as a node on a process line to be controlled; the method comprises the following steps of standard procedures, process flow grouping, product process flow and process route version management;
And the external resource unit comprises supplier management and customer management.
further, the plan scheduling module includes:
the production order maintenance unit is used for maintaining the production order; the production order places production tasks to a production workshop and requires the production workshop to execute, and the workshop organizes production and material utilization according to the production orders and feeds back the production and material utilization in real time according to completion conditions;
The production order bill of material maintenance unit is used for maintaining a bill of material required to be received by the production order;
the production order process route maintenance module is used for setting production line types for each procedure of a product, and automatically corresponding to default production line types to arrange production when a work order is issued;
the work order scheduling unit is used for scheduling and scheduling the issued production orders in combination with the production work order process;
The work order confirming and scheduling unit is used for confirming the work orders, canceling the work orders which are not issued, locking or canceling the work orders in a locking state, deleting the work orders and adjusting the planned construction period and the order number of the work orders;
The work order bill of material unit is used for generating a work order bill of material by combining the public order and the production order bill of material; the work order bill of materials is used for guiding a subsequent warehouse to prepare and deliver materials;
the work order issuing unit is used for confirming after checking that the process tools, the processes and the materials are sleeved;
the work order changing unit is used for changing the planned starting date, the planned completion date and the quantity of the work orders and can also split the work orders;
the work order suspending unit is used for suspending the work order state in the work order production process when the BOM information of the product production needs to be changed, the supply route is adjusted, the setting is modified and other business adjustments are needed; the system is also used for canceling the pause state of the work order after the adjustment is finished and recovering the production process of the corresponding work order;
The work order closing unit is used for closing the work order after the judgment is finished; the completion judgment includes: the work order input quantity is more than or equal to the work order planning quantity, and the work order complaint quantity is the finished quantity, the scrappage quantity and the separation work order quantity.
Further, the integrated production module comprises:
The product serial number management unit is used for managing the product serial number; the product serial number is maintained according to a work order or generated according to a rule; when the production is put into, checking whether the input of the work order is correct or not through the relationship between the product serial number maintained in advance and the work order;
the feeding scanning unit is used for scanning bar codes of materials and parts to be fed at one time; after scanning the work order bar code or the material label, automatically taking out the information of the processed products and the quantity; the system also comprises batch management materials and single piece management materials;
the work order feedback unit is used for performing completion feedback after the working procedure is completed, and comprises working procedure error prevention, binding personnel and bad information;
the process transfer unit is used for recording the handover between the previous process and the next process, and comprises process moving-in and process moving-out;
the rework management unit is used for the production processing of batch unqualified products, wherein the rework bill of materials is the product and the materials required to be consumed in the rework process;
the system comprises a remanufacturing management unit, a material returning and material supplementing unit and a material supplementing unit, wherein the remanufacturing management unit is used for appointing a work order of a product before remanufacturing, comparing the work order BOM of the product before remanufacturing with a standard BOM of the product after remanufacturing, reserving a shared material, generating a BOM of the work order after remanufacturing, forming a list of materials to be returned and materials to be supplemented, and then executing the operations of material returning and material supplementing;
the disassembly management unit is used for specifying a work order of a product before disassembly and generating a bill of materials to be disassembled according to the work order BOM of the product before disassembly;
The material returning and supplementing management unit is used for performing material supplementing or material receiving application according to the reworking work order, the remanufacturing work order and the disassembling work order BOM;
The scrap management unit is used for reporting a scrap notice for products which cannot be reworked, remodeled or disassembled;
The packaging operation unit is used for generating an outer packaging label according to rules for printing;
a finished warehousing notification unit for opening finished warehousing orders according to the work orders and scanning, handling production and warehousing;
and the personnel management module is used for registering the personnel work number during work order feedback and recording the actual performance condition of the personnel.
further, the logistics management module comprises:
the bar code rule maintenance unit is used for maintaining and managing the material bar code, the production process bar code and the product bar code;
The bar code label printing unit is used for generating a bar code style by combining services according to a defined bar code rule and printing a bar code;
The purchasing and warehousing unit is used for completing purchasing and warehousing operation;
The production and batching unit is used for preparing materials and uniformly distributing according to the production order after the production order is issued;
the production warehousing unit is used for opening a production warehousing bill according to the production order and the work order, handling the production warehousing after scanning, and feeding back the completion progress of the update order in real time;
The selling and ex-warehouse unit is used for acquiring selling and ex-warehouse actual results after the selling and ex-warehouse operation is finished;
the inventory report query unit comprises inventory monthly report query, inventory standing account query, current inventory query, inventory incoming and outgoing document bar code query and inventory turnover rate query.
Further, the quality management module comprises:
the inspection type maintenance unit is used for maintaining categories needing inspection in the operation process, including feeding inspection, first piece inspection, process inspection and finished product inspection;
the inspection project unit is used for maintaining important and universal quality characteristics of enterprises, factories and warehouses and formulating information of control modes, sampling modes and inspection contents; also used for maintaining the statistical analysis of the inspection standard and the inspection item;
the inspection standard unit is used for maintaining the inspection standard of a certain type of specific object, including the quality characteristic of the inspection and the qualification judgment, and is the standard for judging whether the specific object is qualified in the inspection process;
the feeding inspection unit comprises a feeding inspection reporting process, an inspection result registration process, a receiving judgment process and a subsequent logistics processing process;
the first inspection unit comprises inspection of the first or several first products processed at the beginning or after the process is changed for each shift; the change comprises the change of personnel, the replacement of materials and tools, the adjustment of a machine tool and the replacement and grinding of a tool cutter;
the production process inspection unit is used for recording the inspection process in detail in the modes of execution process audit, procedure operation inspection, consignee confirmation inspection and product standard according to the quality control standard in the manufacturing process specified by the quality; the method comprises the business processes of procedure inspection reporting, grade inspection result and unqualified judgment, subsequent maintenance and logistics processing;
the product completion inspection unit comprises a product inspection report, a grade inspection result, a receiving judgment and a subsequent logistics processing business process;
and the quality statistical report unit comprises quality statistical reports of the feeding inspection qualified rate, the product inspection qualified rate, an inspection qualified rate trend chart and the disqualification rate.
Further, the energy management module comprises:
The energy consumption monitoring unit is used for acquiring, monitoring and metering real-time online data of energy sources including electricity, water and oil, and storing and processing the acquired energy source data;
the environment-friendly monitoring unit is used for detecting the wastewater, waste gas and environmental data of a workshop; the environmental data comprises temperature, humidity, noise and sewage treatment;
The energy consumption analysis unit is used for analyzing the energy consumption of the regional object/the state object; the method comprises the steps of regional/state object energy consumption query, query time selection, same proportion/ring proportion, unit area/per capita, and display of an energy consumption pie chart of each energy consumption proportion.
Further, the device management module includes:
the equipment standing book unit is used for establishing an equipment standing book, recording and providing equipment information, reflecting the history of primary maintenance of basic parameters of the equipment, providing necessary information for daily maintenance and management of the equipment, and analyzing the output level, the cracking trend and the service life of the equipment according to the online running condition of the equipment and the equipment standing book; the method comprises the steps of equipment basic information, equipment technical specifications, equipment rating, equipment overhaul history, equipment defect records, equipment outage and restoration, equipment transaction, equipment spare parts and equipment ledger inquiry;
the equipment maintenance unit is used for managing equipment defects which influence normal use and production and influence safe operation when the equipment is abnormal in operation; the method comprises the steps of completing closed-loop management of defect registration, defect diagnosis, defect elimination and acceptance and providing defect statistical analysis;
the equipment analysis report unit is used for realizing defect statistics, maintenance tool summarization and equipment running state statistics of a monthly table and equipment utilization rate;
And the tool and die management unit is used for realizing tool and die class management, tool and die ledger management, tool and die field registration management, tool and die return registration management, tool and die maintenance management, tool and die allocation management and tool and die scrapping management.
further, the central control center management module comprises:
the center control center billboard management unit is used for transmitting information contents of scheduling information, equipment state data and processing parameters to a center control center manager in real time through the billboard, assisting the manager to execute progress and equipment state information of a control plan in real time and providing necessary data support for field management decisions;
the system comprises an abnormity early warning center management unit, a monitoring center management unit and a monitoring center management unit, wherein the abnormity early warning center management unit is used for realizing workshop production abnormity real-time early warning management including abnormal event information dynamic acquisition, real-time transmission, rapid processing and comprehensive query analysis, and the dynamic acquisition of the production abnormity event information and the transmission of acousto-optic information to a manager through a hollow signboard, an alarm and a mobile terminal are completed at proper time;
and the report management unit comprises a raw material receiving report, a yield report, a quality report, a production report, an equipment daily report and a quality daily report.
further, the abnormal Andon module comprises:
The Andon type setting unit is used for classifying the field abnormal conditions and establishing respective independent response mechanisms;
the Andon call management unit is used for triggering an abnormal Andon signal according to an abnormal type by an employee when the site is suddenly abnormal, and sending abnormal information to a preset treating person in a mode of transmitting the Andon signal to a billboard and a mobile phone APP
The Andon response management unit is used for finishing the response of the Andon abnormal call at the first time; when the Andon signal is overdue and not responded, the Andon abnormal information and overdue and not responded information are automatically sent to corresponding supervision and management personnel according to an abnormal handling mechanism;
The system comprises an Andon handling management unit, a supervision and management unit and a processing unit, wherein the Andon handling management unit is used for finishing judgment and handling of an abnormal condition within preset time after receiving and responding to an Andon abnormal call, and automatically sending information to supervision and management personnel according to an abnormal handling mechanism when the Andon abnormal handling exceeds a preset time or the handling personnel judges the time in advance in order to avoid the phenomenon that the abnormal handling is too long and causes great influence on the production order;
the device comprises an Andon exception handling result confirmation unit, a production recovery unit and a production recovery unit, wherein the Andon exception handling result confirmation unit is used for carrying out production recovery after the Andon exception handling is finished and the handling result is confirmed; the collection comprises an Andon calling number, calling personnel information and an abnormal type. Exception handling information, time consuming and consumable usage information.
the invention has the beneficial effects that:
The intelligent manufacturing MES system provided by the invention comprises a basic modeling module, a planning and scheduling module, a comprehensive production module, a logistics management module, a quality management module, an energy management module, an equipment management module, a central control center management module and an abnormal Andon module, and the MES system is limited and protected from the whole process, so that the intelligent manufacturing whole-process monitoring is realized. In addition, the invention discloses a plurality of embodiments of the invention and specific implementation modes of the modules.
Drawings
FIG. 1 is a block diagram of the system of the present invention.
Detailed Description
the technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
in the description of the present invention, it should be noted that directions or positional relationships indicated by "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like are directions or positional relationships described based on the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.
referring to fig. 1, fig. 1 shows an intelligent manufacturing MES system according to an exemplary embodiment, which includes a basic modeling module, a planning and scheduling module, an integrated production module, a logistics management module, a quality management module, an energy management module, an equipment management module, a central control center management module, and an abnormal Andon module; wherein:
the basic modeling module is used for completing establishment of factory layout, establishment of product information and establishment of external resources;
the plan scheduling module is used for establishing a production order, preparing and distributing materials in a warehouse, scheduling work orders, executing production, inspecting, packaging, producing and warehousing;
the comprehensive production module is used for managing the whole production business process;
the logistics management module is used for managing a production receiving management process and a production warehousing management process;
the quality management module is used for maintaining the inspection objects of the purchasing department, the workshop department and the selling department and judging the inspection of the inspection department and the quality control department;
the energy management module is used for monitoring and analyzing the energy consumption and the environmental protection of a factory;
the equipment management module is used for comprehensively managing basic data, spare parts, equipment overhaul and maintenance cost of the equipment by adopting an equipment point inspection regular repair strategy and an overhaul cost control system; covering the whole life cycle of the equipment from installation and debugging to production operation and maintenance;
The central control center management module collects and transmits data information of equipment running state, plan execution state, process machining state, yield and efficiency acquired and transmitted by each acquisition point in real time based on a visual platform to form a monitoring management working platform which integrates a data acquisition management center, a system instruction management center, a data control management center, an equipment video signal management center and an equipment abnormity alarm center;
The abnormal Andon module is used for directly transmitting abnormal calling information including production shortage, equipment failure and production abnormality to designated personnel, and the calling process including time nodes is automatically recorded.
in an exemplary embodiment, the base modeling module includes:
the factory modeling unit is used for establishing a plurality of factories, and each factory establishes a plurality of warehouses; the factory carries out independent planning according to material planning attribute definition, material demand condition, warehouse level and work in process condition, and the independent planning comprises factory maintenance, workshop maintenance, production line maintenance, work station maintenance, warehouse maintenance, personnel maintenance and personnel scheduling.
wherein, the production workshop is the main body for executing the production task.
the production line is organized according to the object principle to finish a production organization form of the product process, namely, various devices and workers required by the production of certain products (parts and components) are equipped according to the product specialization principle to complete all the manufacturing work of the certain products (parts and components).
the work station is composed of one or more production personnel and one or more machines with the same function, and the whole workshop can be used as one work station, and different machine types are arranged in the workshop. It is an important unit for work order scheduling and planning scheduling.
The station is the most basic production unit in the production process, and personnel, equipment and raw material tools are arranged on the station for production and assembly.
The repository maintains a logical repository for adding, modifying, deleting repositories, including the actual physical repository as well as the needs to be set for accounting processing. Warehouse settings are the basis for physical management, inventory accounting.
The personnel maintenance is as follows: and (4) managing a list of personnel, such as production personnel, workshop master, technicians, technologies, inspection personnel and the like.
And the material information unit is used for classifying the materials and preparing for query analysis and financial accounting.
The material is a general term of articles used, consumed, circulated or produced in the production and operation process of enterprises and comprises finished products, semi-finished products and raw materials.
and the product structure unit is used for describing the composition relation of the product materials and the quantity requirement of the lower-layer materials and is the basis for producing the material.
the product structure unit also includes alternative product structures, such as product structures for rework.
a process flow unit, wherein the process corresponds to a certain process procedure on the business and is defined as a node on a process line to be controlled; the method comprises the steps of standard procedures, process flow grouping, product process flow and process route version management.
The process corresponds to a certain process segment in business, and is independent of the physical production layout. The process attributes include information of the process to be received and work contents required to be done, such as detection, packaging, feeding and the like, and a corresponding relation between the process and the collected resources needs to be established.
the process flow groups are used for maintaining standard process flows, such as normal production process flows, rework process flows and trial-manufacture process flows.
For the product process flows, the corresponding relation between the process route and the working procedures needs to be established for each product process flow, the sequence of each working procedure in the process line is set, and the working procedure attributes can be adjusted or reset according to the needs. And product operation instruction books and drawing files are added to the product process flow.
the process route supports management of multiple versions, and each version is controlled through the validity period. The start-stop management of each version of the process route is supported, and the start-up of the process route can support the examination and approval of the workflow.
and the external resource unit comprises supplier management and customer management.
in one exemplary embodiment, the plan scheduling module includes:
the production order maintenance unit is used for maintaining the production order; the production order places production tasks to a production workshop and requires the production workshop to execute, and the workshop organizes production and material utilization according to the production orders and feeds back the production and material utilization in real time according to completion conditions;
the production order bill of material maintenance unit is used for maintaining a bill of material required to be received by the production order;
The production order process route maintenance module is used for setting production line types for each procedure of a product, and automatically corresponding to default production line types to arrange production when a work order is issued; information of corresponding processing equipment and required tools and dies of a production order procedure is supported, and corresponding resources are prepared in advance in the production process;
the work order scheduling unit is used for scheduling and scheduling the issued production orders in combination with the production work order process; particularly, each work station needs to process work orders every day; the method comprises the steps of production order, product information, scheduling quantity, work stations and production lines;
the work order confirming and scheduling unit is used for confirming the work orders, canceling the work orders which are not issued, locking or canceling the work orders in a locking state, deleting the work orders and adjusting the planned construction period and the order number of the work orders;
the work order bill of material unit is used for generating a work order bill of material by combining the public order and the production order bill of material; the work order bill of materials is used for guiding a subsequent warehouse to prepare and deliver materials;
the work order issuing unit is used for confirming after checking that the process tools, the processes and the materials are sleeved;
wherein, the work order is switched to the state to be issued, which represents that the work order is ready for production and can be produced at any time. Before a work order can be placed, a process route must be established for the work order.
the work order changing unit is used for changing the planned starting date, the planned completion date and the quantity of the work orders and can also split the work orders;
the work order suspending unit is used for suspending the work order state in the work order production process when the BOM information of the product production needs to be changed, the supply route is adjusted, the setting is modified and other business adjustments are needed; the system is also used for canceling the pause state of the work order after the adjustment is finished and recovering the production process of the corresponding work order;
The work order closing unit is used for closing the work order after the judgment is finished; the completion judgment includes: the work order input quantity is more than or equal to the work order planning quantity, and the work order complaint quantity is the finished quantity, the scrappage quantity and the separation work order quantity.
in an exemplary embodiment, the integrated production module includes:
the product serial number management unit is used for managing the product serial number; the product serial number is maintained according to a work order or generated according to a rule; when the production is put into, checking whether the input of the work order is correct or not through the relationship between the product serial number maintained in advance and the work order;
The feeding scanning unit is used for scanning bar codes of materials and parts to be fed at one time; after scanning the work order bar code or the material label, automatically taking out the information of the processed products and the quantity; the system also comprises batch management materials and single piece management materials; the method specifically comprises a batch control material and a single control material.
the work order feedback unit is used for performing completion feedback after the working procedure is completed, and comprises working procedure error prevention, binding personnel and bad information;
wherein, the process mistake proofing indicates: after the work order is input, whether the working procedure is produced according to the process flow or not can be controlled in the feedback process; carrying out secondary rechecking on the binding condition of the material in the subsequent process of the feeding process;
Binding personnel means: when the work order is fed back, the station information is recorded, meanwhile, the station binds with the processing personnel, and the work order and the processing personnel are automatically bound, so that the performance statistics of the personnel per month is facilitated;
the bad information means: and recording the qualified quantity, the unqualified quantity and the unqualified classification through the work order. Unqualified reasons, unqualified phenomena and other important information.
the process transfer unit is used for recording the handover between the previous process and the next process, and comprises process moving-in and process moving-out; the business is the transfer between the upper and lower procedures in the process route.
The rework management unit is used for the production processing of batch unqualified products, wherein the rework bill of materials is the product and the materials required to be consumed in the rework process;
the system comprises a remanufacturing management unit, a material returning and material supplementing unit and a material supplementing unit, wherein the remanufacturing management unit is used for appointing a work order of a product before remanufacturing, comparing the work order BOM of the product before remanufacturing with a standard BOM of the product after remanufacturing, reserving a shared material, generating a BOM of the work order after remanufacturing, forming a list of materials to be returned and materials to be supplemented, and then executing the operations of material returning and material supplementing;
when the remaking process is processed, the bar code of the serial number of the scanned product is associated with a new work order after remaking, and if material changing occurs, the single-piece serial number or batch code of the material changing needs to be scanned or input. And (5) feeding back a reforming work order after the reforming process is finished, and handling, packaging, inspecting and warehousing the reformed product.
the disassembly management unit is used for specifying a work order of a product before disassembly and generating a bill of materials to be disassembled according to the work order BOM of the product before disassembly; and feeding back a disassembly work order after the disassembly process is finished, and handling returned parts after the disassembly and the contact.
The material returning and supplementing management unit is used for performing material supplementing or material receiving application according to the reworking work order, the remanufacturing work order and the disassembling work order BOM;
the scrap management unit is used for reporting a scrap notice for products which cannot be reworked, remodeled or disassembled;
the packaging operation unit is used for generating an outer packaging label according to rules for printing;
a finished warehousing notification unit for opening finished warehousing orders according to the work orders and scanning, handling production and warehousing;
and the personnel management module is used for registering the personnel work number during work order feedback and recording the actual performance condition of the personnel.
and in an exemplary embodiment, the logistics management module comprises:
The bar code rule maintenance unit is used for maintaining and managing the material bar code, the production process bar code and the product bar code; including material bar codes, production process bar codes, and product bar codes.
Material bar code: for different materials, there may be a single package for the major part or multiple packages may be required, with some arrangements possibly resulting in large and small packages. Therefore, the bar code of the material needs to be specified according to different situations, and the corresponding relation needs to be strictly recorded for the situations of large and small packages.
the bar code in the production process: in the material production process, the condition that the bar code can be circulated along with the part is easy to manage, and normal circulation scanning is controlled; in addition, the bar code can not be always on the part in the production process, such as a small part, or the like, or needs to be ground, polished and painted, and the bar code can be controlled by the transfer tray bar code, the dispatching list bar code, the process transfer card bar code and other modes in a matched mode.
Product bar code: similar to the bar code of the material, the bar code of the product supports the bar code management of a single product, and also supports the bar code management of a package and a tray. Therefore, the bar codes of the products are formulated according to different conditions, and the corresponding relation needs to be strictly recorded for the conditions of large and small packages.
the bar code label printing unit is used for generating a bar code style by combining services according to a defined bar code rule and printing a bar code;
the purchasing and warehousing unit is used for completing purchasing and warehousing operation;
the production and batching unit is used for preparing materials and uniformly distributing according to the production order after the production order is issued;
the production warehousing unit is used for opening a production warehousing bill according to the production order and the work order, handling the production warehousing after scanning, and feeding back the completion progress of the update order in real time;
The selling and ex-warehouse unit is used for acquiring selling and ex-warehouse actual results after the selling and ex-warehouse operation is finished;
the inventory report query unit comprises inventory monthly report query, inventory standing account query, current inventory query, inventory incoming and outgoing document bar code query and inventory turnover rate query.
In an exemplary embodiment, the quality management module includes:
the inspection type maintenance unit is used for maintaining categories needing inspection in the operation process, including feeding inspection, first piece inspection, process inspection and finished product inspection;
the inspection project unit is used for maintaining important and universal quality characteristics of enterprises, factories and warehouses and formulating information of control modes, sampling modes and inspection contents; also used for maintaining the statistical analysis of the inspection standard and the inspection item;
the inspection standard unit is used for maintaining the inspection standard of a certain type of specific object, including the quality characteristic of the inspection and the qualification judgment, and is the standard for judging whether the specific object is qualified in the inspection process;
The feeding inspection unit comprises a feeding inspection reporting process, an inspection result registration process, a receiving judgment process and a subsequent logistics processing process;
the first inspection unit comprises inspection of the first or several first products processed at the beginning or after the process is changed for each shift; the change comprises the change of personnel, the replacement of materials and tools, the adjustment of a machine tool and the replacement and grinding of a tool cutter;
the production process inspection unit is used for recording the inspection process in detail in the modes of execution process audit, procedure operation inspection, consignee confirmation inspection and product standard according to the quality control standard in the manufacturing process specified by the quality; the method comprises the business processes of procedure inspection reporting, grade inspection result and unqualified judgment, subsequent maintenance and logistics processing;
the product completion inspection unit comprises a product inspection report, a grade inspection result, a receiving judgment and a subsequent logistics processing business process;
and the quality statistical report unit comprises quality statistical reports of the feeding inspection qualified rate, the product inspection qualified rate, an inspection qualified rate trend chart and the disqualification rate.
In an exemplary embodiment, the energy management module includes:
the energy consumption monitoring unit is used for acquiring, monitoring and metering real-time online data of energy sources including electricity, water and oil, and storing and processing the acquired energy source data;
the environment-friendly monitoring unit is used for detecting the wastewater, waste gas and environmental data of a workshop; the environmental data comprises temperature, humidity, noise and sewage treatment;
the energy consumption analysis unit is used for analyzing the energy consumption of the regional object/the state object; the method comprises the steps of regional/state object energy consumption query, query time selection, same proportion/ring proportion, unit area/per capita, and display of an energy consumption pie chart of each energy consumption proportion.
in an exemplary embodiment, the device management module includes:
the equipment standing book unit is used for establishing an equipment standing book, recording and providing equipment information, reflecting the history of primary maintenance of basic parameters of the equipment, providing necessary information for daily maintenance and management of the equipment, and analyzing the output level, the cracking trend and the service life of the equipment according to the online running condition of the equipment and the equipment standing book; the method comprises the steps of equipment basic information, equipment technical specifications, equipment rating, equipment overhaul history, equipment defect records, equipment outage and restoration, equipment transaction, equipment spare parts and equipment ledger inquiry;
The equipment maintenance unit is used for managing equipment defects which influence normal use and production and influence safe operation when the equipment is abnormal in operation; including performing closed-loop management of defect registration, defect diagnosis, defect elimination, defect acceptance elimination, and providing statistical analysis of defects.
the defect type supports different processing flows for different types, and simultaneously supports statistics for different types. The defect phenomenon is a defect phenomenon common to maintenance equipment. The defect hang-up reason is a defect hang-up reason common to maintenance. The defect processing flow comprises the following steps: initiating, scheduling, processing (hanging and returning), material picking, acceptance checking and the like. Scheduled maintenance schedules and preventative schedules.
the equipment analysis report unit is used for realizing defect statistics, maintenance tool summarization and equipment running state statistics of a monthly table and equipment utilization rate;
and the tool and die management unit is used for realizing tool and die class management, tool and die ledger management, tool and die field registration management, tool and die return registration management, tool and die maintenance management, tool and die allocation management and tool and die scrapping management.
the tool and the die generally refer to various tool tools existing in enterprises. The tool and the die are classified and classified for the requirements of functioning and management.
the tool and die ledger is used for establishing basic information of the tool and die. Only the tool and the die defined in the tool and die ledger can be referred to in the subsequent tool and die management functions.
In an exemplary embodiment, the central control center management module includes:
the central control center billboard management unit is used for transmitting information contents of scheduling information, equipment state data and processing parameters to central control center managers in real time through billboards (LED billboards and LCD smart televisions), assisting the managers in executing progress of control plans and equipment state information in real time and providing necessary data support for field management decisions;
the production line equipment state board comprises a general process flow board, a production progress board and a production line equipment state board.
The system comprises an abnormity early warning center management unit, a monitoring center management unit and a monitoring center management unit, wherein the abnormity early warning center management unit is used for realizing workshop production abnormity real-time early warning management including abnormal event information dynamic acquisition, real-time transmission, rapid processing and comprehensive query analysis, and the dynamic acquisition of the production abnormity event information and the transmission of acousto-optic information to a manager through a hollow signboard, an alarm and a mobile terminal are completed at proper time;
The report management unit comprises a raw material receiving report, a yield report, a quality report, a production report, an equipment daily report and a quality daily report;
the method comprises the steps of tracing the bar codes of the incoming and outgoing warehouse lists, tracking the progress of production orders and daily reporting of equipment.
In an exemplary embodiment, the abnormal Andon module includes:
and the Andon type setting unit is used for classifying the field abnormal conditions and establishing respective independent response mechanisms.
The main content is roughly as follows: the method comprises the following steps of exception type, signal propagation mode, treating person, response time efficiency, treating time efficiency and supervising person.
the system comprises an Andon call management unit, a processing unit and a processing unit, wherein the Andon call management unit is used for triggering an abnormal Andon signal according to abnormal types (such as production line inter-lifting, equipment abnormity and quality abnormity) by staff when the site is suddenly abnormal, and transmitting abnormal information to a preset processing staff in a mode of transmitting the Andon signal to a signboard and a mobile phone APP;
the Andon response management unit is used for finishing the response of the Andon abnormal call at the first time; when the Andon signal is overdue and not responded, the Andon abnormal information and overdue and not responded information are automatically sent to corresponding supervision and management personnel according to an abnormal handling mechanism;
The system comprises an Andon handling management unit, a supervision and management unit and a processing unit, wherein the Andon handling management unit is used for finishing judgment and handling of an abnormal condition within preset time after receiving and responding to an Andon abnormal call, and automatically sending information to supervision and management personnel according to an abnormal handling mechanism when the Andon abnormal handling exceeds a preset time or the handling personnel judges the time in advance in order to avoid the phenomenon that the abnormal handling is too long and causes great influence on the production order;
the device comprises an Andon exception handling result confirmation unit, a production recovery unit and a production recovery unit, wherein the Andon exception handling result confirmation unit is used for carrying out production recovery after the Andon exception handling is finished and the handling result is confirmed; the collection comprises an Andon calling number, calling personnel information and an abnormal type. Exception handling information, time consuming and consumable usage information.
it is to be understood that the above-described embodiments are illustrative only and not restrictive of the broad invention, and that various other modifications and changes in light thereof will be suggested to persons skilled in the art based upon the above teachings. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of the invention may be made without departing from the spirit or scope of the invention.
Claims (10)
1. an intelligent manufacturing MES system, comprising: the system comprises a basic modeling module, a plan scheduling module, a comprehensive production module, a logistics management module, a quality management module, an energy management module, an equipment management module, a central control center management module and an abnormal Andon module; wherein:
the basic modeling module is used for completing establishment of factory layout, establishment of product information and establishment of external resources;
the plan scheduling module is used for establishing a production order, preparing and distributing materials in a warehouse, scheduling work orders, executing production, inspecting, packaging, producing and warehousing;
the comprehensive production module is used for managing the whole production business process;
the logistics management module is used for managing a production receiving management process and a production warehousing management process;
the quality management module is used for maintaining the inspection objects of the purchasing department, the workshop department and the selling department and judging the inspection of the inspection department and the quality control department;
the energy management module is used for monitoring and analyzing the energy consumption and the environmental protection of a factory;
the equipment management module is used for comprehensively managing basic data, spare parts, equipment overhaul and maintenance cost of the equipment by adopting an equipment point inspection regular repair strategy and an overhaul cost control system; covering the whole life cycle of the equipment from installation and debugging to production operation and maintenance;
The central control center management module collects and transmits data information of equipment running state, plan execution state, process machining state, yield and efficiency acquired and transmitted by each acquisition point in real time based on a visual platform to form a monitoring management working platform which integrates a data acquisition management center, a system instruction management center, a data control management center, an equipment video signal management center and an equipment abnormity alarm center;
The abnormal Andon module is used for directly transmitting abnormal calling information including production shortage, equipment failure and production abnormality to designated personnel, and the calling process including time nodes is automatically recorded.
2. the intelligent manufacturing MES system of claim 1, wherein: the base modeling module includes:
The factory modeling unit is used for establishing a plurality of factories, and each factory establishes a plurality of warehouses; the factory carries out independent planning according to the material planning attribute definition, the material demand condition, the warehouse level and the work in process condition, and the independent planning comprises factory maintenance, workshop maintenance, production line maintenance, work station maintenance, warehouse maintenance, personnel maintenance and personnel scheduling;
the material information unit is used for classifying materials and preparing for query analysis and financial accounting;
the product structure unit is used for describing the composition relation of product materials and the quantity requirement of lower-layer materials and is the basis for producing the material;
a process flow unit, wherein the process corresponds to a certain process procedure on the business and is defined as a node on a process line to be controlled; the method comprises the following steps of standard procedures, process flow grouping, product process flow and process route version management;
and the external resource unit comprises supplier management and customer management.
3. The intelligent manufacturing MES system of claim 1, wherein: the plan scheduling module includes:
the production order maintenance unit is used for maintaining the production order; the production order places production tasks to a production workshop and requires the production workshop to execute, and the workshop organizes production and material utilization according to the production orders and feeds back the production and material utilization in real time according to completion conditions;
the production order bill of material maintenance unit is used for maintaining a bill of material required to be received by the production order;
the production order process route maintenance module is used for setting production line types for each procedure of a product, and automatically corresponding to default production line types to arrange production when a work order is issued;
the work order scheduling unit is used for scheduling and scheduling the issued production orders in combination with the production work order process;
the work order confirming and scheduling unit is used for confirming the work orders, canceling the work orders which are not issued, locking or canceling the work orders in a locking state, deleting the work orders and adjusting the planned construction period and the order number of the work orders;
The work order bill of material unit is used for generating a work order bill of material by combining the public order and the production order bill of material; the work order bill of materials is used for guiding a subsequent warehouse to prepare and deliver materials;
the work order issuing unit is used for confirming after checking that the process tools, the processes and the materials are sleeved;
the work order changing unit is used for changing the planned starting date, the planned completion date and the quantity of the work orders and can also split the work orders;
The work order suspending unit is used for suspending the work order state in the work order production process when the BOM information of the product production needs to be changed, the supply route is adjusted, the setting is modified and other business adjustments are needed; the system is also used for canceling the pause state of the work order after the adjustment is finished and recovering the production process of the corresponding work order;
the work order closing unit is used for closing the work order after the judgment is finished; the completion judgment includes: the work order input quantity is more than or equal to the work order planning quantity, and the work order complaint quantity is the finished quantity, the scrappage quantity and the separation work order quantity.
4. the intelligent manufacturing MES system of claim 1, wherein: the integrated production module comprises:
the product serial number management unit is used for managing the product serial number; the product serial number is maintained according to a work order or generated according to a rule; when the production is put into, checking whether the input of the work order is correct or not through the relationship between the product serial number maintained in advance and the work order;
the feeding scanning unit is used for scanning bar codes of materials and parts to be fed at one time; after scanning the work order bar code or the material label, automatically taking out the information of the processed products and the quantity; the system also comprises batch management materials and single piece management materials;
the work order feedback unit is used for performing completion feedback after the working procedure is completed, and comprises working procedure error prevention, binding personnel and bad information;
The process transfer unit is used for recording the handover between the previous process and the next process, and comprises process moving-in and process moving-out;
the rework management unit is used for the production processing of batch unqualified products, wherein the rework bill of materials is the product and the materials required to be consumed in the rework process;
the system comprises a remanufacturing management unit, a material returning and material supplementing unit and a material supplementing unit, wherein the remanufacturing management unit is used for appointing a work order of a product before remanufacturing, comparing the work order BOM of the product before remanufacturing with a standard BOM of the product after remanufacturing, reserving a shared material, generating a BOM of the work order after remanufacturing, forming a list of materials to be returned and materials to be supplemented, and then executing the operations of material returning and material supplementing;
The disassembly management unit is used for specifying a work order of a product before disassembly and generating a bill of materials to be disassembled according to the work order BOM of the product before disassembly;
The material returning and supplementing management unit is used for performing material supplementing or material receiving application according to the reworking work order, the remanufacturing work order and the disassembling work order BOM;
The scrap management unit is used for reporting a scrap notice for products which cannot be reworked, remodeled or disassembled;
the packaging operation unit is used for generating an outer packaging label according to rules for printing;
a finished warehousing notification unit for opening finished warehousing orders according to the work orders and scanning, handling production and warehousing;
and the personnel management module is used for registering the personnel work number during work order feedback and recording the actual performance condition of the personnel.
5. the intelligent manufacturing MES system of claim 1, wherein: the logistics management module comprises:
The bar code rule maintenance unit is used for maintaining and managing the material bar code, the production process bar code and the product bar code;
the bar code label printing unit is used for generating a bar code style by combining services according to a defined bar code rule and printing a bar code;
The purchasing and warehousing unit is used for completing purchasing and warehousing operation;
The production and batching unit is used for preparing materials and uniformly distributing according to the production order after the production order is issued;
the production warehousing unit is used for opening a production warehousing bill according to the production order and the work order, handling the production warehousing after scanning, and feeding back the completion progress of the update order in real time;
the selling and ex-warehouse unit is used for acquiring selling and ex-warehouse actual results after the selling and ex-warehouse operation is finished;
the inventory report query unit comprises inventory monthly report query, inventory standing account query, current inventory query, inventory incoming and outgoing document bar code query and inventory turnover rate query.
6. The intelligent manufacturing MES system of claim 1, wherein: the quality management module comprises:
the inspection type maintenance unit is used for maintaining categories needing inspection in the operation process, including feeding inspection, first piece inspection, process inspection and finished product inspection;
The inspection project unit is used for maintaining important and universal quality characteristics of enterprises, factories and warehouses and formulating information of control modes, sampling modes and inspection contents; also used for maintaining the statistical analysis of the inspection standard and the inspection item;
the inspection standard unit is used for maintaining the inspection standard of a certain type of specific object, including the quality characteristic of the inspection and the qualification judgment, and is the standard for judging whether the specific object is qualified in the inspection process;
the feeding inspection unit comprises a feeding inspection reporting process, an inspection result registration process, a receiving judgment process and a subsequent logistics processing process;
the first inspection unit comprises inspection of the first or several first products processed at the beginning or after the process is changed for each shift; the change comprises the change of personnel, the replacement of materials and tools, the adjustment of a machine tool and the replacement and grinding of a tool cutter;
the production process inspection unit is used for recording the inspection process in detail in the modes of execution process audit, procedure operation inspection, consignee confirmation inspection and product standard according to the quality control standard in the manufacturing process specified by the quality; the method comprises the business processes of procedure inspection reporting, grade inspection result and unqualified judgment, subsequent maintenance and logistics processing;
the product completion inspection unit comprises a product inspection report, a grade inspection result, a receiving judgment and a subsequent logistics processing business process;
and the quality statistical report unit comprises quality statistical reports of the feeding inspection qualified rate, the product inspection qualified rate, an inspection qualified rate trend chart and the disqualification rate.
7. the intelligent manufacturing MES system of claim 1, wherein: the energy management module comprises:
the energy consumption monitoring unit is used for acquiring, monitoring and metering real-time online data of energy sources including electricity, water and oil, and storing and processing the acquired energy source data;
The environment-friendly monitoring unit is used for detecting the wastewater, waste gas and environmental data of a workshop; the environmental data comprises temperature, humidity, noise and sewage treatment;
the energy consumption analysis unit is used for analyzing the energy consumption of the regional object/the state object; the method comprises the steps of regional/state object energy consumption query, query time selection, same proportion/ring proportion, unit area/per capita, and display of an energy consumption pie chart of each energy consumption proportion.
8. the intelligent manufacturing MES system of claim 1, wherein: the device management module comprises:
the equipment standing book unit is used for establishing an equipment standing book, recording and providing equipment information, reflecting the history of primary maintenance of basic parameters of the equipment, providing necessary information for daily maintenance and management of the equipment, and analyzing the output level, the cracking trend and the service life of the equipment according to the online running condition of the equipment and the equipment standing book; the method comprises the steps of equipment basic information, equipment technical specifications, equipment rating, equipment overhaul history, equipment defect records, equipment outage and restoration, equipment transaction, equipment spare parts and equipment ledger inquiry;
the equipment maintenance unit is used for managing equipment defects which influence normal use and production and influence safe operation when the equipment is abnormal in operation; the method comprises the steps of completing closed-loop management of defect registration, defect diagnosis, defect elimination and acceptance and providing defect statistical analysis;
the equipment analysis report unit is used for realizing defect statistics, maintenance tool summarization and equipment running state statistics of a monthly table and equipment utilization rate;
and the tool and die management unit is used for realizing tool and die class management, tool and die ledger management, tool and die field registration management, tool and die return registration management, tool and die maintenance management, tool and die allocation management and tool and die scrapping management.
9. the intelligent manufacturing MES system of claim 1, wherein: the central control center management module comprises:
The center control center billboard management unit is used for transmitting information contents of scheduling information, equipment state data and processing parameters to a center control center manager in real time through the billboard, assisting the manager to execute progress and equipment state information of a control plan in real time and providing necessary data support for field management decisions;
the system comprises an abnormity early warning center management unit, a monitoring center management unit and a monitoring center management unit, wherein the abnormity early warning center management unit is used for realizing workshop production abnormity real-time early warning management including abnormal event information dynamic acquisition, real-time transmission, rapid processing and comprehensive query analysis, and the dynamic acquisition of the production abnormity event information and the transmission of acousto-optic information to a manager through a hollow signboard, an alarm and a mobile terminal are completed at proper time;
And the report management unit comprises a raw material receiving report, a yield report, a quality report, a production report, an equipment daily report and a quality daily report.
10. the intelligent manufacturing MES system of claim 1, wherein: the abnormal Andon module comprises:
The Andon type setting unit is used for classifying the field abnormal conditions and establishing respective independent response mechanisms;
the Andon call management unit is used for triggering an abnormal Andon signal according to an abnormal type by an employee when the site is suddenly abnormal, and sending abnormal information to a preset treating person in a mode of transmitting the Andon signal to a billboard and a mobile phone APP
the Andon response management unit is used for finishing the response of the Andon abnormal call at the first time; when the Andon signal is overdue and not responded, the Andon abnormal information and overdue and not responded information are automatically sent to corresponding supervision and management personnel according to an abnormal handling mechanism;
the system comprises an Andon handling management unit, a supervision and management unit and a processing unit, wherein the Andon handling management unit is used for finishing judgment and handling of an abnormal condition within preset time after receiving and responding to an Andon abnormal call, and automatically sending information to supervision and management personnel according to an abnormal handling mechanism when the Andon abnormal handling exceeds a preset time or the handling personnel judges the time in advance in order to avoid the phenomenon that the abnormal handling is too long and causes great influence on the production order;
the device comprises an Andon exception handling result confirmation unit, a production recovery unit and a production recovery unit, wherein the Andon exception handling result confirmation unit is used for carrying out production recovery after the Andon exception handling is finished and the handling result is confirmed; the collection comprises an Andon calling number, calling personnel information and an abnormal type. Exception handling information, time consuming and consumable usage information.
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