Cyclic voltammetry, amperometry, and square wave voltammetry were used in this research to discuss the electrochemical mechanism might exist between electrodeposited copper electrodes and polyamines, such as putrescine, cadaverine, spermine, and spermidine. Continuous flow of polyamine solution was injected and detected by dual electrode in flow injection analysis system for assuring how the current response on electrodeposited electrode was produced by polyamines, it shows that cupric ion dissolves from the electrodeposited copper electrode surface when detecting polyamines while using upstream electrode to perform anodic detection and downstream electrode for cathodic electrodeposition. Then, after immersing copper oxides in polyamine solution, cupric ion was found by square wave voltammetry. It can be concluded that the anodic current response produced by polyamines on the electrodeposited copper electrode is produced by the oxidization of Cu(0) to regenerate the passive oxide layer dissolved by polyamines passing through the electrode surface. After the detection mechanism was certified, the optimization of flow injection(FIA) system was done and it show that the best conditions are 0.25 V as detection voltage, 0.1 M pH 10 phosphate buffer as carrier solution, 0.5 ml/min as flow rate and the sample loop is 50μl. The detection limit of putrescine, cadaverine, spermine, and spermidine were 23.50 μM,32.58 μM - 1mM; 381.6 μM, 529.1 μM - 10mM; 456.0 nM, 0.6323μM - 100μM, 337.7 nM, 0.4682μM - 100 μM, respectively, the RSD of sequential detection were all below 5%, and the common interference in human body can be avoided.