Design and Study of Master-Slave Fast Online Monitoring System Based on the PC MUC

Long He

doi:10.4028/www.scientific.net/AMR.898.783

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 898Design and Study of Master-Slave Fast Online...

Design and Study of Master-Slave Fast Online Monitoring System Based on the PC MUC

Abstract:

Based on the independent variables normalized mathematical thought and the combination of PC communication technology, this paper designs master-slave fast online monitoring system, the system includes computer control system, PC single chip communication system and intelligent robot system. In order to verify the validity and reliability of the system, the system is applied the online monitoring experiment of GMAW welding droplet spray process, to detect the shoot down process parameters. Finally, we get the heat flux density with the change curve of distance and voltage current, to provide a reliable experimental data for the design of intelligent automation welding process.

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Periodical:

Advanced Materials Research (Volume 898)

Pages:

783-786

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.898.783

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Online since:

February 2014

Authors:

Long He*

Keywords:

GMAW, Heat Flux, Independent Variables, Intelligent Control, Normalization, PC

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* - Corresponding Author

References

[1] Liu Yanqiang, Huang Shuai, Ma Qiuxia. Design of DCS control system based on industrial Ethernet EtherCAT [J]. Automation manufacturing technology, 2010, 32 (11): 21-23.

Google Scholar

[2] Jiang Hongyu. Design of the large aircraft structure process for automated assembly [J]. Aeronautical manufacturing technology, 2011(14): 52-54.

Google Scholar

[3] Bu Yong, Xu Guokang, Xiao Qingdong. Automatic precision drilling technology of aircraft structures [J]. Aeronautical manufacturing technology, 2012(24): 6-63.

Google Scholar

[4] Liu Chuhui, Yao Baoguo, Ke Yinglin. Research on industrial robot cutting off-line programming [J]. Journal of Zhejiang University (Engineering and Technology Edition), 2010, 44 (3): 426-431.

Google Scholar

[5] Bi Shusheng, Zong Guanghua, Liang Jie. The robot technology and aviation manufacturing industry [J]. Robots technology and its application, 2011(3): 25-31.

Google Scholar

[6] Deng Feng. The standard joint robot system for the automatic drilling of aircraft cargo door structure [J]. Aeronautical manufacturing technology, 2010(19): 32-35.

Google Scholar

[7] K. Kadota, Y. Hirata. Numerical model of metal transfer using an electrically conductive liquid [J]. Welding in the world, 2011(55): 50-55.

DOI: 10.1007/bf03321320

Google Scholar

[8] Chen Maoai, Wu Chuansong, Lian Rong. Numerical analysis of GMAW welding dynamic process [J]. Journal of metal, 2011, 40 (11): 1227-1232.

Google Scholar

[9] Liang Jie, Bi Shusheng. Effect of hole perform installation device on the robot performance [J]. Journal of Chinese Journal of mechanical engineering, 2010, 46(21): 13-17.

Google Scholar

[10] Yuan Hongxuan. The aircraft structure parts connecting hole manufacturing technology [J]. Aeronautical manufacturing technology, 2011 (1): 96-99.

Google Scholar