The compliant microgrippers are directly contacted with the gripper in the microoperation field and during microassembly.And as the end microactuator in the micro?operation and micro?assembly system,it plays an important role in realizing micro?operation and micro?assembly tasks.A flexible microgripper mechanism based on straight circular flexure hinge and reed isosceles trapezoidal flexure hinge was studied in this paper.The displacement amplification and parallel displacement of gripper displacement were realized by piezoelectric ceramic driving.The mechanical pseudo?rigid body model of the flexible microgripper was established, and the kinematics model was established by using the pseudo?rigid body model method.Furthermore, the displacement amplification factor was calculated, and the relationship among the input force, input displacement and output displacement was obtained.The finite element method was used to simulate and verify the model.The results show that the prediction of theoretical values is consistent with the simulation results.