FAST反射面单元在索网变位中的碰撞分析

doi:10.19665/j.issn1001-2400.2019.05.021

Abstract

Abstract:

As the supporting structure of the active reflector of the Five-hundred-meter Aperture Spherical radio Telescope, the cable-net is connected with reflector elements through special mechanisms, to change its shape and form in paraboloid or sphere by active control actuators. In this process, reflector elements should adapt to shapes of the cable-net and avoid collisions. In order to provide complement protection for the operation of shape-changing, we obtain the basic principle and criterion of collision analysis of reflector elements. The structural relationship between cable-net and reflector elements enables the collision analysis to be transformed into the stress analysis of the corresponding cables. Through the stress calculation of the corresponding cables under a certain condition, the collision problem of reflector elements is analyzed. A basic criterion is given to show whether collision happens or not during normal shape-changing of the cable-net. Based on the analysis, a method is presented to analyze collisions of reflector elements by calculating the stress change of cables, and the analytical example and result are given. In some sense, the rationality of shape-changing of the cable-net and reflector under normal conditions is explained.

Key words: five-hundred-meter aperture spherical radio telescope, radio telescopes, antenna reflectors, reflector elements, collision analysis

CLC Number:

TU311

LI Jianling,PENG Bo,LI Hui,LI Qingwei,SHEN Yuzhou,JIANG Peng,LUO Bin. Analysis of collisions of reflector elements of the FAST active reflector[J].Journal of Xidian University, 2019, 46(5): 148-154.

Figures/Tables 8

References 17

[1]	NAN R D . Five Hundred Meter Aperture Spherical Radio Telescope(FAST)[J]. Science in China: Series G: Physics Astronomy, 2006,49(2):129-148.
[2]	NAN R D, LI D, JIN C J , et al. The Five-hundred-meter Aperture Spherical Radio Telescope(FAST) Project[J]. International Journal of Modern Physics D. 2011,20(6):989-1024.
[3]	NAN R D, PENG B, ZHU W B , et al. The FAST Project in China[C]// ASP Conference Series:213-Bioastronomy. San Francisco:ASP, 2000: 523-528.
[4]	仇原鹰, 陈杰, 段宝岩 , 等. 大型射电望远镜悬挂馈源结构的非线性力学分析[J]. 西安电子科技大学学报, 2000,27(4):452-455.
	QIU Yuanying, CHEN Jie, DUAN Baoyan , et al. Nonlinear Mechanics Analysis of the Suspended Feed Structure of the Largest Radio Telescope[J]. Journal of Xidian University, 2000,27(4):452-455.
[5]	QIU Y H . A Novel Design for a Giant Arecibo-type spherical Radio Telescopes with an Active Main Reflector[J]. Monthly Notices of the Royal Astronomical Society, 1998,301(3):827-830.
[6]	NAN R D, REN G X, ZHU W B , et al. Adaptive Cable-mesh Reflector for the FAST[J]. Acta Astronomica Sinica, 2003,44(Suppl):13-18.
[7]	PENG B, NAN R D . Modeling FAST, the World's Largest Single Dish[J]. The Radio Science Bulletin, 2002(300):12-21.
[8]	PENG B, JIN C J, WANG Q M , et al. Preparatory Study for Constructing FAST, the World's Largest Single Dish[J]. Proceedings of the IEEE, 2009,97(8):1391-1402.
[9]	JIANG P, YUE Y L, GAN H Q, et al. Commissioning Progress of the FAST[J]. Science China(Physics, Mechanics &Astronomy), 2019, 62(5): 959502-1-959502-22.
[10]	LU J G, PENG B, LIU K , et al. Study of Three Rotating Radio Transients with FAST[J]. Science China(Physics, Mechanics & Astronomy), 2019, 62(5): 959503-1-959503-7.
[11]	YU Y Z, PENG B, LIU K+ , et al. FAST Ultra-wideband Observation of Abnormal Emission-shift Events of PSR B0919+06[J]. Science China(Physics, Mechanics & Astronomy), 2019, 62(5): 959504-1-959504-6.
[12]	LU J G, PENG B, XU R X , et al. The Radiation Structure of PSR B2016+28 Observed with FAST[J]. Science China: Physics, Mechanics and Astronomy, 2019, 62(5): 959505-1-959505-14.
[13]	JIANG P, NAN R D, QIAN L , et al. Studying Solutions for the Fatigue of the FAST Cable-net Structure Caused by the Process of Changing Shape[J]. Research in Astronomy and Astrophysics, 2015,15(10):1758-1772.
[14]	南仁东, 张海燕, 张莹 , 等. FAST工程建设进展[J]. 天文学报, 2016,57(6):623-630.
	NAN Rendong, ZHANG Haiyan, ZHANG Ying , et al. FAST Construction Progress[J]. Acta Astronomica Sinica, 2016,57(6):623-630.
[15]	李庆伟, 姜鹏, 南仁东 . 500 m口径射电望远镜索网与面板单元自适应连接机构设计分析[J]. 机械工程学报, 2017,53(7):62-68.
	LI Qingwei, JIANG Peng, NAN Rendong . Design and Analysis of the Adaptive Connecting Mechanism between the Cable-net and Panel of Five-hundred-meter Aperture Spherical Radio Telescope[J]. Journal of Mechanical Engineering, 2017,53(7):62-68.
[16]	罗斌, 郭正兴, 王凯 , 等. 基于初始基准态的FAST反射面索网结构性能优化分析研究[J]. 土木工程学报, 2015,48(12):12-22.
	LUO Bin, GUO Zhengxing, WANG Kai , et al. Performance Optimization Analysis of FAST Reflector Supported Cable-net Based on Initial Baseline State[J]. China Civil Engineering Journal, 2015,48(12):12-22.
[17]	姜鹏, 朱万旭, 刘飞 , 等. FAST索网疲劳评估及高疲劳性能钢索研制[J]. 工程力学, 2015,32(9):243-249.
	JIANG Peng, ZHU Wanxu, LIU Fei , et al. Fatigue Proformance Evaluation of FAST Cable-net Structures and Development of a New Type of Steel Cable System with High Fatigue Resistance[J]. Engineering Mechanics, 2015,32(9):243-249.

Analysis of collisions of reflector elements of the FAST active reflector

RichHTML

PDF (PC)

Like

Knowledge

Abstract

Cite this article

share this article

Figures/Tables 8

References 17

Related Articles 4

Metrics

Comments

Recommended 10

[1]	LI Lin,XU Yalan. Analysis of dynamic characteristics of random FG-CNTRC structures [J]. Journal of Xidian University, 2019, 46(6): 140-146.
[2]	CHEN Yongqin;XU Yalan. Dynamic characteristics analysis for the random FGM beam [J]. J4, 2015, 42(6): 99-105.
[3]	LUO Wei-ting;CHEN Jian-jun;LIU De-ping. Method for dealing with the stochastic structure based on full-probability [J]. J4, 2006, 33(1): 93-97.
[4]	CHEN Jian-jun;WANG Xiao-bing. Analysis of the dynamic characteristic for the intelligent plate with random parameters [J]. J4, 2004, 31(5): 661-665.