Abstract We use the CFDRC software to do the research about the reciprocating mechanism to drive the flow in the micro-channel. The main idea of the thesis is to use the asymmetric obstacle which controls the directions of the flow and the volume flow rate. The design can be taken as a mechanics valveless micro-pump driven by a piezo film. We discuss different sizes which are the angles and the different positions of the obstacle and operated parameters which are the working frequencies and the amplitudes of the piezo in the micro-pump. After analyzing the results, there are some conclusions. The larger angles of the obstacle, the less volume flow rate. However, the volume flow rate may be negative in some cases. We can change different the working frequencies and the amplitudes of the piezo to control the directions of the flow and the volume flow rate. In a word, the results can provide the appropriate designs to promote the working efficiency of the micro-pump and it can also apply to biologic medical aspect and other driven applications.