眼科光学仪器计量校准装置:眼底相机的研制

L. Duan, Xiuyu Li, Wenli Liu, Zhixiong Hu, Baoyu Hong
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引用次数: 0

摘要

本文设计了一种新型光学计量校准装置,可用于眼科光学仪器眼底相机的计量校准。眼底相机以其精度高、结构简单、操作方便等优点被广泛应用于眼底疾病的诊断领域。我们设计的模型眼,包括人眼的角膜、晶状体等主要屈光部位,可以测试眼底相机的多个关键参数,如分辨率、视场、屈光度等。设计了一种微米级精度的分辨率检测板,并采用镀膜技术对其进行了加工。采用3D打印技术设计并加工了模型眼的机械结构,包括测试视场的循环结构。此外,还开发了不同的屈光度来模拟近视和远视。测试结果表明,所设计的模型眼可用于眼底相机的计量校准,具有精度高、集成度高、稳定性强、适用性强等优点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of metrology and calibration device for ophthalmic optical instruments: fundus cameras
In this article, a novel optical metrology and calibration device is designed, which can be used for the metrology and calibration of ophthalmic optical instrument - fundus cameras. Fundus camera is widely used in the field of diagnosing fundus diseases due to its high accuracy, simple structure and easy operation. The model eye we designed, including the cornea, lens and other major refractive parts of human eye can test multiple key parameters of fundus cameras, such as resolution, field of view, diopter and so on. A resolution board with micron-level precision for the detection of resolution is designed and processed by coating technology. The mechanical structures of the model eye including the cyclic structure for testing the field of view are designed and processed by 3D printing technology. In addition, different diopters have been developed for simulating nearsightedness and farsightedness. Testing results show that the model eye we designed can be used for metrology and calibration of fundus cameras, and has the advantages of high accuracy, high integration, strong stability and applicability.
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