In the display industry, micro-LED is one of the potential development technology. Compared with LCD and OLED, LED combines the advantages of both. It has the advantages of self-luminescence, high brightness, short response time and long lifetime, and at the same time achieves high luminous efficiency. With the advancement of technology, LEDs are gradually miniaturized. It is a difficult challenge to maintain a certain yield rate as well as mass-produce them then transferring to the substrate. After the size reduction, sidewall defects effect occurs, resulting in low luminous efficiency of LEDs. Therefore, micro-LEDs have not yet been widely used in the display industry. The purpose of this paper is to reduce the ambient light reflection of LEDs while increasing the external luminous efficiency. The microlens design adopts the method of reflow to process. In the preliminary design, the light intensity distribution of the model is analyzed first, and after the results are verified with the experiment, the secondary optical micro-lens above the model is constructed. After completing the lens construction, use the optical software LightTools® to do ray tracing on the entire model. The simulation results show that the ambient light reflection is reduced and the energy loss is greatly reduced. Finally, the parameters of the secondary optical lens are adjusted, and the simulation of a circle with a radius of 125 microns at 30 microns above the structure can achieve a minimum environmental reflectivity of 5%, and the loss is reduced to 15%.