Development of measuring instrument of optical axis parallelism for strong laser and infrared sensor
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摘要:研制了一种可在野外使用的光轴平行性测量仪器,该仪器利用热靶技术进行106 μm 谱段到3~5 μm、8~12 μm红外谱段的转换,实现了对光电跟踪测量设备25 MW强 发射器光轴与红外传感器光轴间的平行性误差测量。仪器的设计主体采用完全对称的结构和积木式的组装方式,保证了仪器在野外恶劣环境下保持测量精度不变。通过巧妙地利用电磁开关控制,实现了仪器靶面的远距离控制转换。装调工艺和检测措施确保了仪器的测量精度,并通过各种环境试验验证了仪器的可靠性。对仪器精度和环境适应性测试表明,该仪器测量精度达到10″,并可在-30 ℃~+60 ℃的条件下,保持精度≤10″。Abstract:A measuring instrument for optical axis parallelism was developed. By transfering laser region of 106 μm to infrared region of 3~5 μm and 8~12 μm with a heat target technique, the parallel error of optical axis between strong laser emitter and infrared sensor of a photoelectric tracking equipment was measured successfully. The structure of measuring instrument was designed as absolutely symmetrical and toy brick assembly shapes to maintain the measuring precision under the abominable conditions. Then, an ingenious electromagnetic switch was used to control and convert target surface for long distance and new assembly techniques and several check steps were taken to improve the measuring precision. Finally various environment tests were carried out to validate the reliability of measuring instrument. Experiment results show that the accuracy of the measuring instrument can reach up to 10″, also can maintain its accuracy ≤10″ under temperature of -30 ℃~+60 ℃.
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