摘要
针对离轴三反相机光学系统对机身结构的要求,采用碳纤维复合材料制备关键部件,设计了合适的相机机身结构。设计的离轴三反相机采用的复合材料占整机重量的32%。机身结构为非对称形,光学系统中主、次镜间距为850mm,反射镜接口定位精度要求间隔为0.005mm、偏心为0.005mm、倾斜为5″。通过有限元软件对设计结果进行分析、优化和检验,完成了机身结构的优化设计。计算结果表明,该机身结构具有较好的刚度、较轻的重量,能够满足光学设计对间隔,偏心和倾斜的要求。对总装完成的相机进行了力学环境试验和热真空试验,结果证明了该相机机身结构在力、热等环境条件下稳定性良好,其一阶谐振频率在120Hz以上,相机调制传递函数在0.2以上,满足离轴三反空间相机各反射镜对空间位置精度和稳定性的要求。
Abstract: For demands of optical systems in a offaxis threemirror camera on the opticalmechanical structure, an appropriate opticalmechanical structure was designed by taking Carbon Fiber Composite (CFC) as the key components of the camera. The weight of CFC in designed camera makes up 32% that of the total system. Furthermore, this opticalmechanical structure is asymmetric, the system spacing in the primary, secondary mirror is 850 mm, and the mirror positioning accuracy demands its interval, eccentric and tilt to be 0. 005 ram, 0. 005 ram, and 5", respectively. The Finite Element method was used to analyze and optimize the design, results show that the opticalmechanical struc ture has better stiffness, lighter weight, and can meet the requirements of optical system for inter vals, eccentrics and tilts. A mechanics environmental test and a thermal vacuum test were performed, and results demonstrate that the opticalmechanical structure in the camera has excellent stability in mechanics, thermal and other environmental conditions, its first order harmonic frequencies are above 120 Hz, and the modulation transfer function is more than 0.2. These results prove that the proposedstructure can provide reasonable spatial location and stability for the reflective mirrors in offaxis threemirror cameras.
出处
《光学精密工程》
EI
CAS
CSCD
北大核心
2012年第3期571-578,共8页
Optics and Precision Engineering
基金
中国科学院"优秀博士学位论文
院长奖获得者科研启动专项基金"资助项目
关键词
空间遥感相机
碳纤维复合材料
机身结构
有限元分析
Carbon fibers
Environmental testing
Finite element method
Mirrors
Optical systems
Remote sensing
Space optics
Vacuum technology
