Improving the structure design of the passing/driving beam baffle of a headlamp.

In response to the increasing competition and rapid advancements in the automotive industry, manufacturers have designed more intricate structures to circumvent patent disputes. However, this approach has simultaneously resulted in extended development cycles, increased manufacturing costs, and prolonged production times. Consequently, reducing development cycles and cutting costs have become key objectives for leading automobile manufacturers. This study focuses on projector headlamp modules available on the market, aiming to address the complexity of the passing/driving beam baffle structure. Given the challenges posed by the intricate design, the study seeks to simplify the baffle structure while ensuring full compliance with ECE-R112 regulatory standards. Throughout the design process, careful attention must be paid to subsequent manufacturing challenges, particularly those involving complex curved surfaces and polygonal shapes, which contribute to processing difficulties, thereby extending development timelines and elevating costs. The research results indicate that the improved baffle structure is more streamlined and has successfully passed the verification of the ECE-R112 regulation. The passing beam's light intensity below the cut-off line shows significant improvement compared to the original baffle, with increases at various test points as follows: 8.53% at 50V (the point of maximum intensity), 7.58% at 75R, 3.68% at 50R, and 6.06% in Zone IV. For driving beam testing, the overall light intensity at the regulatory verification points increased by approximately 14% to 17% compared to the pre-improvement performance.