基于虚拟样机的液压支架运动仿真与分析

doi:10.3981/j.issn.1000-7857.2014.21.006

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摘要运用三维建模软件Pro/E 对液压支架进行实体建模，并将其导入多体动力学软件ADAMS 中。运用ADAMS 软件对液压支架进行动力学仿真，获得了液压支架的动态特性。对液压支架升降过程中四连杆机构运动、顶梁端点的运动轨迹、顶梁位移与顶板力的关系等进行分析，验证了设计的合理性。通过模拟液压支架的整个运动过程，检验了液压支架动力学模型的性能。液压支架虚拟样机的建立可以缩短其设计周期并提高设计质量，有助于液压支架的优化设计。

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	刘雨博
	李自强
	白雪

关键词 ：液压支架, 虚拟样机, 三维建模, 运动仿真

Abstract：This paper shows the importance of the performance of the hydraulic support and the characteristics of the virtual prototype technology. Using the three-dimensional modeling software Pro/E, the solid modeling of the hydraulic support is made and is imported into the multi-body dynamics software ADAMS. Dynamic simulations with the ADAMS software of the hydraulic support are carried out to obtain the dynamic characteristics of the hydraulic support. The movement of the four bar linkage and the track of the top beam end and the relationship between the top beam displacement and the roof force during the raising and falling periods of the hydraulic support are obtained and verified. The performance of the dynamic model of the hydraulic support is evaluated through the simulation of the whole motion process of the hydraulic support. The establishment of a digitized prototype for the hydraulic support may reduce the design cycle time as well as improve the design quality, which is helpful for the optimization design of the hydraulic support.

Key words： hydraulic support virtual prototype three-dimensional modeling movement simulation

收稿日期: 2014-04-15

ZTFLH:

TD355

基金资助:国家“十二五”科技支撑计划项目（2013BAH12F01）

作者简介: 刘雨博，副教授，研究方向为数字制造技术与信息化、先进制造系统与技术，电子信箱：lzq531784337@163.com

引用本文:

刘雨博, 李自强, 白雪. 基于虚拟样机的液压支架运动仿真与分析[J]. 科技导报, 2014, 32(21): 43-46.
LIU Yubo, LI Ziqiang, BAI Xue. Movement Simulation and Analysis of Hydraulic Support Based on Virtual Prototyping Technology. journal1, 2014, 32(21): 43-46.

链接本文:

http://www.kjdb.org/CN/10.3981/j.issn.1000-7857.2014.21.006 或 http://www.kjdb.org/CN/Y2014/V32/I21/43

[1] 王国法. 煤炭综合机械化开采技术与装备发展[J]. 煤炭科学技术, 2013, 41(9): 44-48.Wang Guofa. Development of fully-mechanized coal mining technology and equipment[J]. Coal Science and Technology, 2013, 41(9): 44-48.
[2] 张友军. 国内外选煤技术与装备的现状及发展趋势[J]. 选煤技术, 2011(1): 70-72. Zhang Youjun. The present situation and future development of the world coal preparation technology and equipment[J]. Coal Preparation Technology, 2011(1): 70-72.
[3] 王国法. 液压支架技术[M]. 北京: 煤炭工业出版社, 1999. Wang Guofa. Powered support technology[M]. Beijing: China Coal Industry Publishing House, 1999.
[4] 王国法.“十二五”煤矿开采装备技术的发展展望[J]. 煤矿开采, 2011, 16(3): 19-24. Wang Guofa. Prospect of coalmining equipment development in 12th five-year plan of china[J]. Coalmining Technology, 2011, 16(3): 19-24.
[5] 王国法. 液压支架技术体系研究与实践[J]. 煤炭学报, 2010, 35(11): 1903-1908. Wang Guofa. Study and practices on technical system of hydraulic powered supports[J]. Journal of China Coal, 2010, 35(11): 1903-1908.
[6] 田大丰, 张强, 杨文懋. 基于虚拟样机的薄煤层液压支架的动力学分析与仿真[J]. 矿山机械, 2010, 38(11): 15-17. Tian Dafeng, Zhang Qiang, Yang Wenmao. Dynamic analysis and simulation of hydraulic supports on thin coal seams based on virtual prototyping technology[J]. Mining & Processing Equipment, 2010, 38 (11): 15-17.
[7] 曹必德, 秦东晨, 倪和平, 等. 液压支架四连杆机构仿真优化[J]. 煤矿机电, 2006(5): 24-28. Cao Bide, Qin Dongchen, Ni Heping, et al. Simulation and optimization of four-bar linkage of hydraulic support[J]. Colliery Mechanical & Electrical Technology, 2006(5): 24-28.
[8] 臧峰, 赵啦啦, 王忠宾, 等. 基于Pro/E的液压支架三维建模与运动仿真[J]. 煤矿机械, 2007, 28(5): 64-66. Zang Feng, Zhao Lala, Wang Zhongbin, et al. Three-dimension model and dynamic simulation of hydraulic support based on Pro/E[J]. Coal Mine Machinery, 2007, 28(5): 64-66.
[9] 王国法, 徐亚军, 孙守山. 液压支架三维建模及其运动仿真[J]. 煤炭科学技术, 2003, 31(1): 42-45. Wang Guofa, Xu Yajun, Sun Shoushan. 3D modeling of hydraulic powered support and dynamic simulation[J]. Coal Science and Technology, 2003, 31(1): 42-45.
[10] 李国峰, 李景辉, 朱庆波, 等. 基于Pro/E液压支架梁的设计及运动仿真[J]. 煤矿机械, 2011, 32(2): 8-9. Li Guofeng, Li Jinghui, Zhu Qingbo, et al. Design and simulation of hydraulic support beam's based on Pro/E[J]. Coal Mine Machinery, 2011, 32(2): 8-9.
[11] 马艾青, 韩文娟, 李石妍, 等. 基于Pro/E的液压支架工作过程的运动仿真[J]. 煤矿机械, 2011, 32(1): 59-61. Ma Aiqing, Han Wenjuan, Li Shiyan, et al. Motion simulation for working process of hydraulic support with Pro/E[J]. Coal Mine Machinery, 2011, 32(1): 59-61.
[12] 温建民, 于广滨, 左晓英. Pro/E野火中文版产品设计应用范例[M]. 北京: 清华大学出版社, 2006: 102-280. Wen Jianmin, Yu Guangbin, Zuo Xiaoying. Pro/E wildfire Chinese version product design application example[M]. Beijing: Tsinghua University Press, 2006: 102-280.
[13] 郑晓雯, 郑东杰, 李锦彪, 等. 基于Pro/E与ADAMS的液压支架运动仿真与分析[J]. 煤炭机械, 2011(6): 237-239. Zheng Xiaowen, Zheng Dongjie, Li Jinbiao, et al. Movement simulation and analysis of hydraulic support based on Pro/E and ADAMS[J]. Coal Mine Machinery, 2011, 32(6): 237-239.
[14] 韩文东. 基于Pro/E和ADAMS的薄煤层液压支架建模与仿真[J]. 中国新技术新产品, 2010(5): 143-144. Han Wendong. Model and dynamic simulation of thin coal hydraulic support based on Pro/E and ADAMS[J]. China New Technologies and Products, 2010(5): 143-144.
[15] Wang G. New development of longwall mining equipment based on automation and intelligent technology for thin seam coal[J]. Coal Science & Engineering (China), 2013, 19(1): 97-103.