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红外反射式光学系统光机结构设计与分析
引用本文:付家鑫,韩旭,付跃刚,张玉石,郭晟男. 红外反射式光学系统光机结构设计与分析[J]. 计算机辅助工程, 2013, 22(Z1): 270-273
作者姓名:付家鑫  韩旭  付跃刚  张玉石  郭晟男
作者单位:长春理工大学 光电测控与光信息传输教育部重点实验室;长春理工大学 光电测控与光信息传输教育部重点实验室;长春理工大学 光电测控与光信息传输教育部重点实验室;长春理工大学 光电测控与光信息传输教育部重点实验室;长春理工大学 光电测控与光信息传输教育部重点实验室
摘    要:为实现红外双波段共孔径光学系统,设计出一种采用大孔径、无焦反射式光学系统,并详细介绍该系统结构.中波和长波MTF值在25线对下均大于0.3.考虑到该光学系统野外使用时复杂的运输环境,利用有限元法对简化后的卡塞格林式望远系统进行低阶振动特性和模态特性分析.通过比较2种材料的模态分析计算结果,最终选取铝合金为金属材料,保证1阶固有频率大于50 Hz,满足野外运输条件,说明该系统结构合理可行.

关 键 词:卡塞格林系统结构; 双波段; 共孔径; 模态分析; Patran; MSC Nastran
收稿时间:2013-04-18

Structure design and analysis of infrared reflection optical system
FU Jiaxin,HAN Xu,FU Yuegang,ZHANG Yushi and GUO Shengnan. Structure design and analysis of infrared reflection optical system[J]. Computer Aided Engineering, 2013, 22(Z1): 270-273
Authors:FU Jiaxin  HAN Xu  FU Yuegang  ZHANG Yushi  GUO Shengnan
Affiliation:Key Laboratory of Education Ministry with Photoelectrical Measurement And Control And Optical Information, Transmission Changchun University of Science and Technology;Key Laboratory of Education Ministry with Photoelectrical Measurement And Control And Optical Information, Transmission Changchun University of Science and Technology;Key Laboratory of Education Ministry with Photoelectrical Measurement And Control And Optical Information, Transmission Changchun University of Science and Technology;Key Laboratory of Education Ministry with Photoelectrical Measurement And Control And Optical Information, Transmission Changchun University of Science and Technology;Key Laboratory of Education Ministry with Photoelectrical Measurement And Control And Optical Information, Transmission Changchun University of Science and Technology
Abstract:To achieve an infrared optical systems with dual band common aperture, a reflective afocal optical system with large aperture is designed and the system structure is described in detail. MTF values of Mid wave and long wave are bigger than 0.3 under 25 line pairs. Considering the complex transportation environment of the optical system in the field, the characteristics of lower order vibration and mode of the simplified Cassegrain telescope system are analyzed using finite element analysis. By comparing the modal analysis results of two materials, aluminum alloy is eventually selected as metal material, and the first order natural frequency is greater than 50 Hz. The result meets the field transportation conditions. The system structure is rational and feasible.
Keywords:
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