Transactions of Materials and Heat Treatment

Title：Analysis system and energy consumption collection for high-power forging equipment

Authors： Xu Xie He Fei Zhou Yulong Tong Yifei

Unit： 1.Mechanical Engineering College Nanjing University of Science and Technology 2. Jiangsu Institute China Academy of Machinery Science & Technology Co. Ltd.

KeyWords： forging equipment energy consumption collection high-power forging data monitoring data analysis data verification

ClassificationCode：TG316

year,vol(issue):pagenumber：2019,44(10):109-116

Abstract：

In order to realize the real-time remote collection of energy consumption data for high-power forging equipment and provide a more sufficient basis for energy saving and consumption reduction of forging production, the analysis system and energy consumption collection of high-power forging equipment were researched. For the high-power forging equipment, based on the field bus and industrial Ethernet technology principles, a four-tier technology architecture of energy consumption centralized monitoring system was constructed including data collection, communication network, data management and data analysis layers. Considering the forging environment，a method for energy consumption collection of high-power forging equipment and an energy consumption collection and analysis system based on B/S architecture were designed, and the data collection，monitoring and analysis were achieved. Finally, the theoretical calculation of the collected energy consumption data and the comparison of the system results were compared to verify the accuracy of the energy consumption data and the practicability of the system implementation.

Funds：

国家自然科学基金资助项目（51575280）；工信部2017年智能制造综合标准化与新模式项目

作者简介：徐协（1993-），男，硕士研究生 E-mail：782404298@qq.com 通讯作者:何非（1982-），男，博士，讲师 E-mail: hefei_njust@163.com

Reference：

［1］周端阳.锻造车间的能耗现状及其节能途径
［J］.能源,1987，(4):23-24.

Zhou D Y. Energy consumption status of forging workshop and its energy saving approach
［J］. Energy,1987，(4):23-24.

［2］江明明.面向锻造生产的节能调度研究
［D］.南京：南京理工大学,2017.

Jiang M M. Research on Energy Saving Dispatching for Forging Production
［D］. Nanjing: Nanjing University of Science and Technology,2017.

［3］杨潆奎.锻造液压机组计算机控制系统开发
［D］.合肥：华中科技大学,2009.

Yang Y K. Development of Computer Control System for Forging Hydraulic Unit
［D］. Hefei: Huazhong University of Science and Technology,2009.

［4］李建军,黄茂林,彭谦之,等.锻造技术的发展现状及趋势
［J］.热处理技术与装备,2015,36(3):57-62.

Li J J，Huang M L，Peng Q Z，et al. Development status and trends of forging technology
［J］. Heat Treatment Technology and Equipment,2015,36(3):57-62.

［5］酆亚楠,孙勇,苏畅,等.离散锻造企业数据采集系统的实施与应用
［J］.锻压技术，2018，43（5）:162-166.

Feng Y N，Sun Y，Su C，et al. Implementation and application of data collection system for discrete forging company
［J］. Forging & Stamping Technology，2018，43（5）:162-166.

［6］王宇翔.快速锻造监控系统设计与实现
［D］.成都：电子科技大学,2013.

Wang Y X. Design and Implementation of Rapid Forging Monitoring System
［D］.Chengdu: University of Electronic Science and Technology,2013.

［7］Reinsch S，Mussig B，Schmidt B, et al. Advanced manufacturing system for forging products
［J］. Journal of Materials Processing Technology，2003， 138（1-3）：16-21.

［8］杨昀,卢家鑫.离散型制造企业数据采集系统设计及实施
［J］.机电工程技术,2017,46(7):29-31.

Yang Y，Lu J X. Design and implementation of data acquisition system for discrete manufacturing enterprises
［J］. Mechanical & Electrical Engineering Technology,2017,46(7):29-31.

［9］Yong S,Dai H P, Li G Y,et al. A new mode of forging by using intelligent manufacturing
［A］. Proceedings of 2016 International Conference on Sustainable Energy, Environment and Information Engineering (SEEIE 2016)
［C］.Science and Engineering Research Center,2016.

［10］魏丽,窦照亮.锻造车间节能减排措施浅谈
［J］.科技风,2012，(3):111.

Wei L，Dou Z L. Discussion on energy saving and emission reduction measures in forging workshop
［J］. Technology Wind,2012，(3):111.

［11］韩木林,吴顺达.锻造行业节能减排技术措施及发展方向研究
［J］.锻压装备与制造技术,2010,45(5):15-20.

Han M L，Wu S D. Developing trend and technical methods for energy saving and emission reduction in forging industry
［J］. China Metalforming Equipment & Manufacturing Technology,2010,45(5):15-20.

［12］Jin X. Research and design of education and teaching resource management system based on ASP.NET technology
［A］. Proceedings of 2018 3rd International Conference on Education & amp(EDUER 2018)
［C］. Institute of Management Science and Industrial Engineering: Computer Science and Electronic Technology International Society, 2018.

［13］陈继文,李鑫,李丽,等.基于ARM的电梯能耗远程监测系统
［J］.自动化与仪表，2018,33(2):94-98.

Chen J W，Li X，Li L，et al. Elevator energy consumption remote monitoring system based on ARM
［J］. Automation &

Instrumentation，2018,33(2):94-98.

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