锻压技术

基于OPC UA的典型塑性成形机床设备模型的研究与应用

英文标题：Research and application on typical plastic forming machine equipment model based on OPC UA

作者：孙勇黄达力王麟琨凌云汉刘波

分类号：TP23

出版年,卷(期):页码：2020,45(6):122-129

摘要：

针对当前国内缺少对塑性成形机床的信息模型研究的现状，以典型锻造车间的塑性成形机床为研究对象，提出一种塑性成形机床的信息模型建模方案。在确定好建模方法后，结合OPC UA信息模型的概念以及设备的物理模型，将设备的数据类型分为共有设备类型和私有设备类型，对这两种数据类型分别进行定义与建模，然后对信息模型进行实例化描述。最后根据实际工厂情况，提出了该信息模型在车间的不同布置方式与应用方法，从而实现设备与管理层系统的数据通讯，达到设备与设备、设备与系统的互联互通。为OPC UA在锻造行业的应用进行了探索与研究。

In view of the lack of current research on the information model of plastic forming machine in China, for the plastic forming machine in the typical forging workshop, the modeling scheme of the information model for the plastic forming machine was proposed. Then, after determining the modeling method, combining the concept of OPC UA information model and the physical model of equipment, the data type of equipment was divided into common equipment type and private equipment type. Furthermore, the two data types were defined and modeled respectively, and the information model was descripted by example. Finally, according to the actual factory situation, the different layout methods and application methods of the information model in the workshop were proposed to achieve data communication between the equipment and the management system and reach the interconnection of equipment and equipment, and equipment and system. Thus, the application of OPC UA in the forging industry was explored and researched.

基金项目：

科技重大专项（2018ZX04044-001）；泉城“5150”引才倍增计划创新人才（团队）

孙勇（1971-），男，博士，研究员 E-mail：sun_yong_89@163.com

参考文献：

［1］张兆坤,邵珠峰,王立平,等.数字化车间信息模型及其建模与标准化
［J］.清华大学学报：自然科学版,2017,57(2):128-133，140.

Zhang Z K，Shao Z F，Wang L P,et al. Digital workshop information model and its modeling and standardization
［J］. Journal of Tsinghua University：Science and Technology, 2017,57 (2): 128-133，140.

［2］GB/T 33863.3—2017，OPC统一架构第3部分：地址空间模型
［S］.

GB/T 33863.3—2017, OPC Unified Architecture—Part 3: Address Space Model
［S］.

［3］GB/T 33863.5—2017，OPC统一架构第5部分：信息模型
［S］.

GB/T 33863.5—2017, OPC Unified Architecture—Part 5: Information Model
［S］.

［4］王麟琨,赵艳领,闫晓风.数字化车间制造装备信息集成通用解决方案研究
［J］.中国仪器仪表,2017，(3):21-25.

Wang L K,Zhao Y L,Yan X F.Research on general solution of digital workshop manufacturing equipment information integration
［J］ .China Instruments, 2017，(3): 21-25.

［5］贝加莱工业自动化（中国）有限公司. OPC UA-智能制造的数据基础
［J］.智慧工厂,2017, (11):40-41,45.

B&R Industrial Automation GmbH. OPC UA-data base for intelligent manufacturing
［J］.Smart Factory, 2017, (11):40-41,45.

［6］李锋,张坤,原丽娜.基于OPC UA的纺织智能染整车间信息模型研究与实现
［J］.纺织学报,2020,41(2):149-154.

Li F,Zhang K,Yuan L N. Research and implementation of information model for intelligent textile dyeing and finishing workshop based on OPC UA
［J］.Journal of Textile Research, 2020,41 (2): 149-154.

［7］王立平,张兆坤,邵珠峰,等.机床制造加工数字化车间信息模型及其应用研究
［J］.机械工程学报,2019,55(9):154-165.

Wang L P,Zhang Z K,Shao Z F,et al. Research on digital workshop information model of machine tool manufacturing and its application
［J］.Journal of Mechanical Engineering, 2019,55 (9): 154-165.

［8］张策. 面向制造物联网的OPC UA信息模型研究与实现
［D］.武汉：华中科技大学,2016.

Zhang C. Research and Implementation of OPC UA Information Model for Manufacturing Internet of Things
［D］.Wuhan：Huazhong University of Science and Technology, 2016.

［9］IEC 61158-6-20-2014, Industrial communication networks—Fieldbus specifications
［S］.

［10］IEEE 802.3—2016，IEEE Standard for Ethernet
［S］.

［11］王松. 面向PLC的OPC UA网关协议兼容性测试系统设计与实现
［D］. 重庆：重庆邮电大学,2018.

Wang S.Design and Implementation of PLC-oriented OPC UA Gateway Protocol Compatibility Test System
［D］. Chongqing：Chongqing University of Posts and Telecommunications, 2018.

［12］徐兵兵. 基于OPC UA的数据采集与监控系统关键模块的设计与实现
［D］. 西安：西安电子科技大学,2017.

Xu B B.Design and Implementation of Key Modules of Data Acquisition and Monitoring System Based on OPC UA
［D］. Xi′an：Xidian University, 2017.

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