为了实现成像角膜曲率计沿光轴方向的精确对准，提高角膜曲率的测量精度，设计了一种高精度成像角膜曲率测量系统。对该系统的成像光源、成像光学系统、干涉测量系统等进行研究。通过LED阵列均匀照射靶环形成光源；成像物镜采用双远心镜头，使景深变大，有利于对准测量，同时保证成像物镜的放大率不会受景深的影响；引用低相干干涉测量技术，利用低相干干涉信号定位角膜顶点和测量光源的位置，利用光栅尺监测扫描反射镜的位置，实现了角膜顶点到测量光源距离的精确测量。最后，分析了该系统成像物镜放大率的稳定性和角膜曲率测量误差，在理论基础上，做出了实验样机，用所设计的样机对标准角膜模拟眼进行测试，系统精度达到±0.02 mm，基本满足角膜曲率的测量要求。

To achieve accurate alignment of the imaging keratometer along the optical axis and improve the measurement accuracy of corneal curvature, we design a high precision imaging corneal curvature measurement system. The imaging light source, imaging optical system and interferometry system of the measurement system are studied. A light source is formed using uniform irradiation of the target ring with an LED array; The imaging objective lens adopts a double telephoto lens to enlarge the depth of its field, which is conducive to the measurement of alignment. Meanwhile, the magnification of the imaging objective lens are not affected by the depth of field. By using low coherent interferometry, the distance between the corneal vertex and the measured light source is accurately measured using a grating ruler to monitor the position of the scanning mirror. In this paper, the stability of the imaging objective magnification and the error of the corneal curvature measurement of the system are analyzed, and an experimental prototype is made based on the theory. The designed prototype is used to test the standard corneal simulators and the measurement accuracy of the system is up to ±0.02 mm, which basically meets the requirements of corneal curvature measurement.