Study of the calculation method for accurately adjusting laser-range-finder′s three-optic-axes to parallel to each other

ZHANG Chu; ZHOU Bing; SHEN Xue-ju; DUAN Xiao-feng

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Study of the calculation method for accurately adjusting laser-range-finder′s three-optic-axes to parallel to each other

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- Study of the calculation method for accurately adjusting laser-range-finder′s three-optic-axes to parallel to each other
- Optics and Precision Engineering Vol. 10, Issue 6, Pages: 650-654(2002)
- 作者机构：
  
  军械工程学院,河北石家庄,050003
- 作者简介：
- 基金信息：
- DOI：
  CLC： TH761.2
- Received：10 July 2002，
  
  Revised：17 October 2002，
  
  Published Online：15 December 2002，
  
  Published：15 December 2002
- 稿件说明：
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张雏, 周冰, 沈学举, 段晓峰. 精确校正激光测距仪三光轴平行的理论计算方法研究[J]. 光学精密工程, 2002,(6): 650-654

ZHANG Chu, ZHOU Bing, SHEN Xue-ju, DUAN Xiao-feng. Study of the calculation method for accurately adjusting laser-range-finder′s three-optic-axes to parallel to each other[J]. Editorial Office of Optics and Precision Engineering, 2002,(6): 650-654
张雏, 周冰, 沈学举, 段晓峰. 精确校正激光测距仪三光轴平行的理论计算方法研究[J]. 光学精密工程, 2002,(6): 650-654 DOI：

ZHANG Chu, ZHOU Bing, SHEN Xue-ju, DUAN Xiao-feng. Study of the calculation method for accurately adjusting laser-range-finder′s three-optic-axes to parallel to each other[J]. Editorial Office of Optics and Precision Engineering, 2002,(6): 650-654 DOI：

摘要

利用光学系统中的偏心环(框)结构精确校正光轴平行

是激光测距仪准确可靠测量目标距离的重要保障.由于这种光轴校正训练难以在实物上开展

所以本文以激光测距仪瞄准物镜具有偏心物镜框、环这种常见的双偏心结构为例

研究了精确校正瞄准与激光发射两光轴平行的仿真模拟所需的理论计算公式.具体研究内容有:一是证明两光轴平行度误差量可以借助平行光管和黑相纸测量出来;二是在已知光轴平行度误差量和瞄准物镜焦距情况下

给出校正光轴平行时计算瞄准物镜主点径向位移量的公式;最后

结合实际操作情况(利用拨转偏心物镜框、环实现物镜主点径向移动)

在已知光轴平行度误差量和校正前偏心物镜框、环最薄点位置情况下

研究出精确校正光轴平行所需的确定偏心物镜框、环最薄点新位置的理论计算公式.

Abstract

For laser range-finders to measure target′s distance accurately and creditably it is important that three-optic-axes are accurately adjusted to be parallel to each other with eccentric object-glass-frame and rings. Because the exercises of optic-axes-adjustment cannot be done with real laser range-finders

the formulate used to imitate real optic-axes-adjustemnt are worked out by using an example in which the object-glass of laser range-finger has an eccentric object-glass-frame and ring to adjust aiming and laser-shooting axes to parallel. First

it is proved that the error of optic-axes-parallelism can be measured with a collimator and a black-photograph. Second

the formulae are given

which are used to calculate the radial displacement of an object-glass' principal point

when aiming and laser-shooting axes are accurately adjusted to parallel with the known error of optic-axes-parallelism and focal distance of object-glass. Finally

knowing the error of optic-axes-parallelism and thinnest-position of eccentric object-glass-frame and ring before optic-axes-adjustment

the formulae are analyzed to give the new thinnest-position of eccentric object-glass-frame and ring for accurately adjusting optic-axes to parallel each other. According to the real handling of optic-axes-adjustment

the principle point of object-glass is moved by rotating eccentric object-glass-frame and ring.

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references

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