锻压技术

铝型材生产过程的自动化改造

英文标题：Automation transformation on aluminum profile production process

作者：高盛沄姜开宇白景方

单位：大连理工大学

分类号：TP23；TH128

出版年,卷(期):页码：2023,48(9):149-155

摘要：

现阶段我国铝型材生产企业普遍存在着工作环境差、生产效率低、安全隐患多等问题。为了提高铝型材挤压生产效率、降低企业人工成本，对中小型铝型材企业的铝型材挤压成形生产过程的实际工艺流程进行了分析。结合企业现状与现有技术设计了坐标式机械臂、拉伸矫直定位机构、定尺锯切上料机构、自动装框与隔条定位机构以代替人工操作，并对生产线的相关机构进行了调整与优化。结果表明，重新设计优化后的生产线在不大幅度改变现有生产布局的前提下减少人工6名，保证生产过程的稳定性和可靠性，且提高了生产效率。利用Adams对主要功能模块进行运动学仿真验证,在理论层面对机械结构的合理性进行了验证。

At the present stage, there are common problems such as poor working environment, low production efficiency and many safety hazards in aluminum profile production enterprises in China. Therefore, in order to improve the extrusion production efficiency of aluminum profile and reduce the labor cost of enterprise, the actual process flow of aluminum profile extrusion forming production process for small and medium-sized aluminum profile enterprise was analyzed. Then, compared with the current situation of enterprise and the existing technology, the coordinate mechanical arm, positioning mechanism for stretching and straightening, feeding mechanism for fixed-length sawing, positioning mechanism for automatic framing and spacer were designed to replace the manual operation, and the relevant mechanisms of the production line were adjusted and optimized. The results show that the redesigned and optimized production line reduces six labor without greatly changing the existing production layout, ensuring the stability and reliability of the production process, and improving the production efficiency. The kinematics simulation of the main functional modules is verified by Adams, and the rationality of the mechanical structure is verified at the theoretical level.

基金项目：

营口市软科学研究计划（2021JH2/0100004）

作者简介：高盛沄（1998-），男，硕士研究生 E-mail：gsy18018923070@163.com 通信作者：姜开宇（1971-），男，博士，副教授 E-mail：jiangky@dlut.edu.cn

参考文献：

[1]曹伟.我国工业铝型材生产的现状及发展趋势[J].世界有色金属,2021，(3):1-2.

Cao W. Current situation and development trend of China′s industrial aluminum profile production [J]. World Nonferrous Metals, 2021，(3): 1-2.

[2]杨东艳,张燕斌,刘畅. 我国铝型材的未来发展[A].2016中国铝加工产业技术创新交流大会[C]. 霍林郭勒,2016.

Yang D Y, Zhang Y B, Liu C. Future development of aluminum profiles in China [A]. Proceedings of 2016 China Aluminum Processing Industry Technology Innovation Exchange Conference[C]. Holingol, 2016.

[3]赵紫阳. 铝型材立式喷涂线上下料辅助系统设计及关键技术研究[D]. 福州：福州大学,2018.

Zhao Z Y. Research on Design and Key Technology of Blanking Auxiliary System for Aluminum Profile Vertical Spraying Line [D]. Fuzhou：Fuzhou University, 2018.

[4]何海岗,杨银初,王志艺,等.铝型材包装机构和包装工艺的研究[J].机电工程技术，2022,51（8）：135-140.

He H G, Yang Y C, Wang Z Y, et al. Research on aluminum profile packaging mechanism and packaging process [J]. Electromechanical Engineering Technology, 2022, 51(8): 135-140.

[5]范冬. 铝型材自动堆垛包装生产线的研发[D]. 福州：福州大学,2018.

Fan D. Research and Development of Automatic Stacking and Packaging Production Line for Aluminum Profiles [D]. Fuzhou: Fuzhou University, 2018.

[6]马玉婷. 铝型材自动化立体仓库仿真系统的研究[D]. 长沙：中南大学,2012.

Ma Y T. Research on Simulation System of Aluminum Profile Automated Warehouse [D]. Changsha: Central South University, 2012.

[7]曹辉. 铝型材自动化立体仓库优化调度算法的研究[D].长沙：中南大学,2012.

Cao H. Research on Optimal Scheduling Algorithm of Aluminum Profile Automated Warehouse [D]. Changsha: Central South University, 2012.

[8]Li S T, Zhou X G, Li X X. Installation and debugging of pneumatic sorting station in flexible automatic production line [A]. 2021 3rd International Conference on Electronic Engineering and Informatics (EEI 2021) [C]. Dali, 2021.

[9]Pan R R, Li G Q. Intelligent recognition of automatic production line of metal sodium rod [A]. Lecture Notes in Electrical Engineering, Advanced Manufacturing and Automation XI[C]. Changzhou, 2018.

[10]Xu Q Q, Zhu X F, Wu F. Autonomous steel casting recognition and positioning on the unmanned automatic production line based on binocular vision [A]. Proceedings of SPIEThe International Society for Optical Engineering [C]. London, 2019.

[11]Ma D B, Qu M F. Research on online monitoring method of automatic production line based on industrial internet of things [A]. 2020 IEEE International Conference on Industrial Application of Artificial Intelligence [C]. Bangkok, 2020.

[12]何向问.智能化在铝加工中的现状及展望[J].有色金属加工,2020,49(3):1-5.

He X W. Current situation and prospect of intelligence in aluminum processing [J]. Nonferrous Metal Processing, 2020, 49(3): 1-5.

[13]王子舒.铁路道岔钢轨锻造生产线自动化方案设计[J].锻压技术,2022,47(6):67-74.

Wang Z S. Automation scheme design of railway turnout and rail forging production line [J]. Forging & Stamping Technology, 2022, 47(6): 67-74.

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