锻压技术

基于产品系列型谱的锻造自动化生产制造系统设计方法

英文标题：Design method on automated production and manufacturing system of forging based on product series spectrum

作者：张南刘庆生曾琦董旭刚潘成海

分类号：TG316

出版年,卷(期):页码：2020,45(12):130-135

摘要：

以霍尔方法论为架构，阐述了基于产品系列型谱的锻造自动化生产制造系统设计中的规划、组织与管理过程。从时间维的角度，按照时间节点总结了不同工作阶段应实施的具体内容；从逻辑维的角度，介绍了解决工程问题的逻辑思维流程与步骤；从知识维的角度，列举了设计实施中所需的专业知识。同时，在霍尔三维结构的基础上，分析筛选出系统设计实施过程中的6个重点：产品分析、工艺设计、设备选型、布置规划、控制系统设计和系统仿真，并结合某锻造自动化生产线说明了具体实施方法。最后，根据设计实施过程中的实际情况，提出了多产品共线生产的锻造自动化生产线中的关键问题，并提供了解决方案，介绍了方案的优势，对生产制造系统的规划设计具有一定的指导意义。

Based on the Hall methodology, the planning, organization and management process in the design of automated production and manufacturing system of forging based on product series spectrum were expounded, and the specific contents implemented in different working stages according to time nodes from the perspective of time dimension were summarized. Then, the logical thinking process and steps for solving engineering problems from the perspective of logic dimension were introduced, and from the perspective of knowledge dimension, the professional knowledge required in design and implementation was listed. At the same time, on the basis of the Hall 3D structure, the six key points in the system design and implementation process were analyzed and selected as product analysis, process design, equipment selection, layout planning, control system design and system simulation respectively, and the specific implementation method was illustrated in combination with an automation production line of forging. Finally, according to the actual situation in the design and implementation process, the key problems in the automation production line of forging for multi-product collinear production were put forward, the solutions were provided, and the advantages of the solutions were introduced. The study has certain guiding significance for the planning and design of production and manufacturing system.

基金项目：

工业强基工程（TC180A3Y1/18）

张南（1995-），男，硕士研究生 E-mail：zh_nan95@outlookcom 通讯作者：刘庆生（1979-），男，硕士，研究员 E-mail：13701091564@163com

参考文献：

［1］Zhou J, Li P G, Zhou Y H， et al. Toward newgeneration intelligent manufacturing
［J］. Engineering Journal, 2018, 4(1):11-20.

［2］朱毅麟. 型谱是产品实现“三化”的指南
［J］. 航天标准化, 2005, (6):11-12.

Zhu Y L. Type spectrum is the guide for product realization of ‘three modernizations’
［J］. Aerospace Standardization, 2005，(6):11-12.

［3］乔非, 沈荣芳,吴启. 系统理论、系统方法、系统工程-发展与展望
［J］.系统工程，1996,14(5): 7-12.

Qiao F, Shen R F, Wu Q. System theory, system method, system engineeringdevelopment and prospect
［J］. Systems Engineering, 1996,14(5) : 7-12.

［4］常绍舜. 系统工程和系统工程方法
［J］.系统工程学报, 2016，24（4）：11-14.

Chang S S. Systems engineering and systems engineering methods
［J］. Systems Engineering, 2016，24（4）：11-14.

［5］李金海. 基于霍尔三维结构的项目管理集成化研究
［J］.河北工业大学学报, 2008,37(4):25-27.

Li J H. Research on integration of project management based on Hall 3D structure
［J］. Journal of Hebei University of Technology, 2008,37(4):25-27.

［6］闫怀志. 网络空间安全系统科学与工程
［M］.北京：科学出版社,2019.

Yan H Z. Cyberspace Security System Science and Engineering
［M］.Beijing: China Science Publishing & Media Ltd.,2019.

［7］高俊. 6082铝合金热成形行为及其在汽车转向节高温精密锻造的应用
［D］. 长春：吉林大学, 2020.

Gao J. Hot Forming Behavior of 6082 Aluminum Alloy and Its Application in High Temperature Precision Forging of Automobile Steering Knuckle
［D］.Changchun：Jilin University,2020.

［8］李忠民, 卢喜,刘雨耕.热模锻压力机
［M］.北京：机械工业出版社,1990.

Li Z M, Lu X, Liu Y G. Hot Die Forging Press
［M］.Beijing: China Machine Press,1990.

［9］林宝君. 连杆裂解半自动生产线自动化系统的控制技术研究
［D］. 长春：吉林大学, 2009.

Lin B J. Research on Control Technology of Automatic System of Connectingrod Fracture Splitting Semiautomation Line
［D］. Changchun：Jilin University,2009.

［10］丁军. 富士迈公司的改善体系建立与OEE的应用研究
［D］.上海：上海交通大学,2008.

Ding J. Create Improvement System and Apply OEE in FITI
［D］.Shanghai: Shanghai Jiao Tong University,2018.

［11］顾惠红，周炳海. 基于精益生产方式的快速换模实践研究
［J］. 精密制造与自动化，2019， (1):15-18.

Gu H H, Zhou B H. Research on the practice of rapid die change based on lean production
［J］. Precise Manufacturing & Automation，2019，(1):15-18.

［12］唐启成，周炳海. 基于快速换模技术的冲压设备利用率改善
［J］. 精密制造与自动化，2019，(4):60-62.

Tang Q C, Zhou B H. Improvement of stamping equipment utilization based on rapid die change technology
［J］. Precise Manufacturing & Automation，2019，(4):60-62.

［13］曾琦. 曲轴智能锻造系统及锻件质量控制研究
［D］. 北京：北京科技大学, 2018.

Zeng Q. Study on Intelligent Forging System and Quality Control of Crankshaft
［D］.Beijing：University of Science and Technology Beijing,2018.

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