瞳距

该机械结构包括垂直调节、瞳距调节以及旋转调节等机构，实现了显示器的灵活移动。

In order to move the display flexibly , the mechanical structure is dominated by the vertical adjusting mechanism , pupil distance adjusting mechanism , the rotating mechanism . Pupil distance adjustment mechanism can achieve the 37 mm course and 4 mm fine-tuning .

瞳距仪检测标准不确定度

The Standard Uncertainty of Verification for Pupil Distance Meter

方法用钢板尺和HERTEL三棱镜式眼球突出计，对开封市5～17岁在校学生共2600例，进行了瞳距、眶距与眼球突出度的测量，并按年龄、性别作统计对比分析。

Methods Steel ruler and prism exophthalmometer were used for the measurement of pupillary distance , orbital distance and exophthalmos degree of 5 to 17 year old children in Kaifeng city . Compared analysis was done according to matched age and sex .

基于Pro/E的弱视仪瞳距齿轮调节机构的实现

Amblyopia Pro / E-based Regulatory Agencies to Achieve Centrometer Gear

改良的瞳距测量法导航卫星双向伪距时间同步

IMPROVED INTERPUPILLARY DISTANCE MEASUREMENT Two Ways Pseudo Range Time Synchronization for Navigation Satellite Clock

改良的瞳距测量法

Improved interpupillary distance measurement

目的比较米制直尺、电脑验光机与瞳距仪测量双眼瞳距的差异。

Objective To investigate difference of metric ruler , videorefactor and pupillometer in measuring pupillary distance ( PD ) .

瞳距测量是验配眼镜的过程中必不可少的一个步骤，是验配合格眼镜的重要前提。

Pupil Distance measurement is an essential step in the process of fitting glasses and an important prerequisite for choosing an appropriate glasses .

结论5～17岁儿童少年的瞳距、眶距、眼球突出度随年龄增长而增加。

Mm . Conclusion The pupillary distance , orbital distance and exophthalmometer in 5 to 17 year old children increase with the growth of age .