Design of main support of off-axis space remote sensor

[1] [1] ZHANG K K, RUAN N J, FU D Y. Analysis and consideration of development of overseas space off -axis TMA system camera ［J］. Spacecraft Recovery & Remote Sensing, 2008,29(3):63-70. (in Chinese)

[2] [2] O’BRIEN T P,ATWOOD B. Adjustable truss for support, optical alignment, and athermalization of a Schmidt camera ［J］. SPIE, 2003,4841:403-410.

[3] [3] STANLEY S. SMELTZER III. Development of bonded joint technology for a rigidizable-inflatable deployable truss ［J］. SPIE, 2003,6222:1-11.

[4] [4] ZHANG L, JIA X ZH. Design and optimization of trussed supporting structure for off-axis three-mirror reflective space camera ［J］. Opt. Precision Eng., 2009，17(3):603-608. (in Chinese)

[5] [5] FAN B, WANG Y. Research on truss structure of foreign remote sensing camera with long focal length and high resolution［J］. Spacecraft Recovery & Remote Sensing, 2008,29(2):35-41. (in Chinese)

[6] [6] LI W, LIU H W, GUO Q F. Combined supporting structure of thin wall joint cylinder and supporting bar between primary mirror and second mirror in space camera ［J］. Opt. Precision Eng., 2010，18(12):2633-2641. (in Chinese)

[7] [7] ZHANG L, JIN G. Design and test of supporting truss for light space remote sensor ［J］. Opt. Precision Eng., 2010,18(5):1099-1104. (in Chinese)

[8] [8] ZHANG L, JIN G. Structure design and modes analysis for the truss of light high resolution space camera［J］. Chin. J. Space Sci., 2008,28(3):260-263. (in Chinese)

[9] [9] YANG J S. Model correlation analysis of frame structure of a space camera［J］. Comp. Simul, 2006,23(1):274-276. (in Chinese)

[10] [10] LIN Z W, LIU Y Q, LIANG Y. Application of carbon fibre reinforced composite to space optical structure［J］. Opt. Precision Eng., 2007,15(8):1181-1185. (in Chinese)

[11] [11] LI W, LIU H W. Structure stability of precision component made of carbon fiber composite in space optical remote sensor［J］. Opt. Precision Eng., 2008,16(11):2173-2179. (in Chinese)

[12] [12] WANG Y X, WANG B, REN J Y. Improvement of carbon fiber support structure and topology optimization design for space camera［J］. Infrared and Laser Engineering,2009,38(4):702-704. (in Chinese)

CLP Journals

[1] MEI Gui, ZHAI Yan, QU He-meng, PU Qian-shuai. Stress-free alignment of off-axis three-mirror system[J]. Optics and Precision Engineering, 2015, 23(12): 3414

[2] GUAN Yingjun, XU Hong, LI Zhilai, GAO Xijun, YANG Liwei. Design of Truss Support Structure for Large Off-axis Space Camera[J]. Opto-Electronic Engineering, 2014, 41(12): 7

[3] Wang Kejun, Xuan Ming, Dong Jihong, Li Wei, Zhang Huanhuan. Design method of reflector component structure of space remote sensor[J]. Infrared and Laser Engineering, 2016, 45(11): 1113001

[4] Li Haixing, Ding Yalin, Zhang Hongwen. Support System Study of Rectangular Mirror[J]. Acta Optica Sinica, 2015, 35(5): 523002

[5] Ma Cong, Li Wei, Zhang Yuanqing, Li Xiaobo, An Mingxin. Design of support structure for deep space detection remote sensing camera[J]. Infrared and Laser Engineering, 2018, 47(6): 618004

[6] WANG Shu-xin, LI Jing-lin, QI Guang, LI Li-fu, CHEN Chang-zheng. Protecting device for explosive bolt in space camera[J]. Optics and Precision Engineering, 2014, 22(12): 3318

[7] MEI Gui, ZHAI Yan, MIAO Jian-yu, PU Qian-shuai. Design and alignment of support structure for off-axis multi-mirror system[J]. Optics and Precision Engineering, 2015, 23(8): 2280

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XIN Hong-wei, GUAN Ying-jun, CHAI Fang-mao. Design of main support of off-axis space remote sensor[J]. Optics and Precision Engineering, 2012, 20(6): 1257

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Paper Information

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Received: Jan. 29, 2012

Accepted: --

Published Online: Jun. 25, 2012

The Author Email: XIN Hong-wei (xinhwciomp@sina.com)

DOI:10.3788/ope.20122006.1257

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology