This paper proposes an innovative droplet generator with a special designed cyclical valve to form a powder additive manufacturing system. The design of the proposed droplet valve is provided for the powder coagulation ball of about 1μm~500μm, The micro droplet generator had been developed by combining a common continuous type liquid pump, nozzle and a proposed liquid droplet control value. By using the droplets control valve mounted on the head of the nozzle, the specified diameter of the generated droplet is restricted in about 0.1mm. In this study, different shapes of droplet control valves were designed assisted by the analysis and simulation of Fluent. Fluent is one of the useful fluid dynamics analysis software provided by ANSYS. For simulating the dynamic moving processes of the control valve, the function modules of multiphase flow model and moving mesh analysis module have been selected to analyze the flow phenomenon of the droplet. The interaction between water and air was also simulated and demonstrated by multiphase flow simulation. Thus the spraying route of the water column and generated droplet could be simulated. The geometry and dimension of the shape design of control valve is one of the focus of the study, The current parameters were concluded after systemized evaluation by using Fluent simulation. After several flow analysis and experimental testing, this study has designed a water droplets control valve that can effectively produce tiny droplets from water column. The successful powder coagulated experimental models have demonstrated the accepted function results of the proposed method and droplet control device. The simulation and actual experimental results by means of the vision observation of high speed camera show that the designed control module can cyclically provide the consistent amount of liquid droplets to from a 3D powder model. The prototype of the 3D hydrogel powder additive manufacturing machine has also been built to demonstrate the results. All the results could be references to biomedical or 3D printing technology.