Cataract accounts for over 51% of blindness worldwide, prevailing in 20 million people in 2010 according to WHO statistics. In recent years, studies have shown that the main chemical components of Dendrobium nobile are polysaccharides, alkaloids, phenolic compounds etc., having effects in regulating immunity, lowering blood sugar, anti-oxidative stress, along with other pharmacological effects. In this study, Dendrobium nobile ethanol extracts (DEE) were used to alleviate the oxidative damages caused by ultraviolet B to the lens and examined whether they could effectively alleviate cataract formation. Mice were divided into six groups, including: (1) control group (Blank), (2) UVB damage group, (3) low dosage DEE group (20 mg/Kg), (4) medium dosage DEE group (50 mg/Kg), (5) high dosage DEE group (100 mg/Kg), and (6) high dosage DEE control group (B+100 mg/Kg). The results showed that in the optical test, the UVB-damaged mouse lens had the lowest transmittance illumination, with lens fiber disorganized and extensive apoptosis in the lens epithelial cells. In immunohistochemical staining and western blot analysis, heat shock proteins (HSPs) were activated in the damage group, in contrast to the lower status when Dendrobium nobile Lindl. ethanol extracts were given. Furthermore, serum lipid peroxidation was effectively inhibited and glutathione content was increased, suggesting DEE may alleviate cataract formation through antioxidant effects.