STEMM Institute Press
Science, Technology, Engineering, Management and Medicine
Construction of Intelligent Perception Network Based on Rocket Assembly Workshop
DOI: https://doi.org/10.62517/jike.202404209
Author(s)
Li Niu*, Wei Fan, Dingxian Shen, Bing Guo, Qiang Li, Qinglong Meng
Affiliation(s)
Tianjin Long March Launch Vehicle Manufacturing Co., Ltd., Tianjin, China *Corresponding Author.
Abstract
The rocket assembly is a crucial link in the rocket production process. With the increase of national space missions, how to quickly adapt to the high-density launch stage and improve the efficiency and quality assurance of the assembly workshop has become an urgent problem to be solved. Aiming at the problems of the low production efficiency caused by low information level of production site and the low intelligent degree of material management and distribution, an intelligent perception network based on the rocket assembly workshop is proposed in this paper. This intelligent perception network is equipped with functionalities such as intelligent perception, adaptive adjustment, data communication, remote monitoring, and management. It is designed to not only increase the intelligence level of assembly workshops but also effectively address the issue of low production efficiency.
Keywords
Rocket Assembly; Intelligent Perception Network; Production Control; System Integration; Digitalization
References
[1] Li Jing. Gu Songfen: Thinking on the Structure and Material Selection of National Large Aircraft. Advanced Materials Industry, 2007, (10): 6-8. [2] Liu Qiang. Intelligent Technology in Aerospace Manufacturing. Maschinen Markt, 2020, (16): 8-9. [3] Lu Jiahui. Research on Intelligent Perception and Production Scheduling of Discrete Workshop under Manufacturing Internet of Things. Jiangnan University, 2021. [4] Huang Shaohua, Guo Yu, Zha Shanshan, Fang Weiguang, Wang Falin. Review on Internet-of-manufacturing-things and key technologies for discrete workshop. Computer Integrated Manufacturing Systems, 2019, 25 (02): 284-302. [5] Chen Zhihua, Chen Hong, Gong Dongsheng, et al. Preliminary Exploration and Practice on Construction Scheme of Intelligent Digital Production Workshop for Carrier Rocket. Aerospace Manufacturing Technology, 2023, (01): 73-79. [6] Liu Fuqiang, Wu Yong, Li Yushan, et al. Research and application of MES in the rocket final assembly workshop. Quality and Reliability, 2019, (06): 52-55. [7] Yu Zikai, Yu Wenkai, Pan Mingmin, et al. Technologies and Applications of Digital Flexible Mobile Assembly Production Line for Launch Vehicles. Aerospace Shanghai (Chinese&English), 2023, 40(S1): 246-251. [8] Luan Enjie, Wang Kunsheng, Hu Liangyuan, et al. Thesis on Improving China's Aerospace Equipments Manufacturing Capacities. Strategic Study of CAE, 2016, 18 (04): 83-89. [9] He Jianli, Gao Jiashuang. Applications of Intelligent Manufacturing to Large Aerospace Components. Aerospace Shanghai (Chinese & English), 2021, 38 (03): 147-156. DOI: 10.19328/j.cnki.2096-8655.2021.03.016. [10] Gu Wei, Liu Gang. Digital Design and Management Mode of Manned Spacecraft. Aerospace Manufacturing Technology, 2013, (01): 59-63. [11] Zhong Zhihua, Zang Jiyuan, Yan Jianlin, et al. Intelligent Manufacturing Promotes the Comprehensive Upgrading and Innovative Growth of China’s Manufacturing Industry. Strategic Study of CAE, 2020, 22 (06): 136-142.
Copyright @ 2020-2035 STEMM Institute Press All Rights Reserved