In this study,a three-dimensional (3D) in-situ laser machining system integrating laser measurement and machining was built using a 3D galvanometer scanner equipped with a side-axis industrial camera.A line structured light measurement model based on a galvanometer scanner was proposed to obtain the 3D information of the workpiece.A height calibration method was proposed to further ensure measurement accuracy,so as to achieve accurate laser focusing.In-situ machining software was developed to realize time-saving and labor-saving 3D laser processing.The feasibility and practicability of this in-situ laser machining system were verified using specific cases.In comparison with the conventional line structured light measurement method,the proposed methods do not require light plane calibration,and do not need additional motion axes for 3D reconstruction;thus they provide technical and cost advantages.The insitu laser machining system realizes a simple operation process by integrating measurement and machining,which greatly reduces labor and time costs.