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航空学报 2013

面向飞机表面喷涂的多层次控制程序结构

DOI: 10.7527/S1000-6893.2013.0153, PP. 928-935

王朝晖,陈恳,吴聊,缪东晶

Keywords: 喷涂机器人,轨迹规划,离线编程,分布式,控制程序结构

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Abstract:

为实现飞机外表面的机器人自动化喷涂,根据飞机外表面的几何特征,提出了飞机表面喷涂轨迹的规划方案和自动化喷涂作业的定位方法。根据该方法制订了多层次的喷涂控制程序结构,包括主逻辑层、控制程序层、辅助功能层3个层次。主逻辑层负责整个程序体系运行的调度,即调用控制程序层和辅助功能层中的功能模块;控制程序层包含飞机表面的分区及相应的喷涂控制程序模块;辅助功能层包括喷涂工艺参数、运动参数、系统默认参数等内容。为快速生成多层次喷涂程序体系,提出了面向飞机外表面喷涂的离线编程技术方案。以飞机模型表面喷涂为例,验证了方法的有效性和可维护性。

References

[1]	Flightglobal Achievement. Robotic finishing of the F-22 will ensure low observability. (2010-02-16)[2012-05-10].
[2]	1997%20-%200951.html.
[3]	Ryew S W, Baik S H, Ryu S W, etal. Inpipe inspection robot system with active steering mechanism. IEEE In-ternational Conference on Intelligent Robots and Systems. Takamatsu, Japan, IEEE,2000,1652-1657.
[4]	Systems and Material Research Corporation. Robotic Coating Thickness Measurement System.(2010-01-16)[2012-05-09]. https://www.fob.gov/index?&s=opportunity&mode=form&id=cbccb7c5c25116be0cebb4ddd92b30d7&tab=document&tabmode=form&tabid=63e998f4f73b9a33aa2524b777539256&subtab=core&subtabmode=list.
[5]	ZHOU L, CAI J D, QIAN W, etal. Simple and Conven-ient Teaching of Welding Torch Orientations for Arc Welding Robot. JOURNAL OF MECHANICAL ENGINEERING, 2010, 46(8): 73-77.(in chinese)
[6]	周律, 蔡锦达, 钱炜等. 弧焊机器人焊枪姿态简便示教. 机械工程学报, 2010,46(8): 3-77.
[7]	FANG D D, DENG S H, LIAO H L. Robotic Off-line Programming in Thermal Spraying. Software Guide, 2007, 13: 26-28.(in chinese)
[8]	方丹丹, 邓思豪, 廖汉林. 热喷涂机器人离线编程. 软件导刊, 2007, 13:26-28.
[9]	CHEN S G, LIU Z, LIANG S F, etal. Design of Inte-grated Platform for Spraying Robot Autonomous Pro-gramming. Industrial Control Computer, 2010, 23(6):45-46.(in chinese)
[10]	陈圣国, 刘治, 梁少芳等. 喷涂机器人自主编程综合平台的设计. 工业控制计算机, 2010, 23(6):45-46.
[11]	XIA W, WANG K R, LIAO X P, etal. Research on ap-plication and algorithm for interpolation points posture in virtual demonstration system of painting robot. Modern Manufacturing Engineering, 2009, 10:11-16.(in chinese)
[12]	夏薇, 王科荣, 廖小平等. 喷漆机器人虚拟示教系统中喷枪轨迹插补点位姿的算法及应用研究. 现代制造工程, 2009, 10:11-16.
[13]	WANG G L, CHEN K, CHEN Y, etal. Film thickness distribution model with variable parameters for air spray gun. Journal of Jilin University(Engineering and Technology Edition), 2012,42(1): 188-192. (in chinese)
[14]	王国磊, 陈恳, 陈雁等. 变参数下的空气喷枪涂层厚度分布建模. 吉林大学学报(工学版), 2012,42(1): 188-192.
[15]	CHEN Y, YAN H, WANG L Q, etal. Coating uniformity with a uniform robotic spray gun velocity. Journal of Tsinghua University(Science and Technology), 2010, 50(8): 1210-1218. (in chinese)
[16]	陈雁, 颜华, 王力强等. 机器人均匀喷涂涂层均匀性分析. 清华大学学报(自然科学版), 2010, 50(8): 1210-1218.
[17]	CHEN Y, CHEN K, SHAO J, etal. Redundant-robot-based painting system for variable cross-section S-shape pipe. Proceedings of the 2009 ASME/IFToMM International Conference on Reconfigurable Mechanisms and Robots, London, United kingdom, 2009:743-749.
[18]	ZHU X X. Free curve and surface modeling technology. Beijing: Science Press, 2000:32-42. (in chinese)
[19]	朱心雄. 自由曲线曲面造型技术. 北京: 科学出版社, 2000:32-42.
[20]	HUO W. Robot dynamics and control. Beijing: Higher Education Press, 2005: 16-31. (in chinese)
[21]	霍伟. 机器人动力学与控制. 北京: 高等教育出版社,2005:16-31.
[22]	FANG S L, WU S Y, LI Q. Rapid NC programming sys-tem for variant parts. Computer Integrated Manufacturing Systems, 2006, 12(10):1657-1661. (in chinese)
[23]	方水良, 武胜勇, 李强. 变型零件数控程序快速生成系统研究. 计算机集成制造系统, 2006, 12(10):1657-1661.
[24]	WANG B, YUAN X S, ZHANG W M, etal. Design of Circular Interpolation Program for Numerical Control Machine Tool Based on PIC Microcontroller. MACHINE TOOL ＆ HYDRAULICS, 2011, 39(18): 94-96. (in chinese)
[25]	王滨, 袁训山, 张文明等. 基于PIC单片机的数控机床圆弧插补程序设计. 机床与液压, 2011, 39(18): 94-96.
[26]	WANG J Q, PAN W Q, ZHANG M H. Study on the macro of automatically tool-change of the open- archi-tecture CNC lathe based on Mach3. Manufacturing Au-tomation, 2012, 5: 63-65. (in chinese)
[27]	王建强，潘王琴，张棉好. 基于Mach3的开放式数控车床系统换刀宏程序开发. 制造业自动化, 2012, 5: 63-65.

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