O-phthalaladehyde is a disinfectant used in the clinic for semi-critical medical equipment with an initial concentration of 0.55%. It will decay with the number of uses and storage time and is detected by chemical strips nowadays. However, the detection results of chemical test strips based on a semi-quantitative way decreased willingness to use test strips due to the low accuracy, expensive and complicated operation steps of this method, and reduced the efficiency of disinfectant control. We developed a Sequential Injection system with a compact fluorescence detector to determine whether o-phthalaldehyde is used as a disinfectant in the clinic. Automated procedures include multi-channel valve and syringe pump control and the use of automatic systems for mixing and dilution procedures to improve errors caused by manual chemical experiments, thereby improving detection accuracy, repeatability, and reproducibility and the self-made compact fluorescence detector integrated with the self-made flow system, optical detection electronic circuit, and 3D printed detection cell into a system. The pilot research used a fluorescence detection instrument (FP-1520) to complete the 30-fold pre-diluted 0.25%~0.55% Cidex OPA(Johnson Johnson ,USA) determination. It proved this system has a fine linear correlation (R square≧0.99 ), repeatability (RSD<±5%), and reproducibility (RSD<±5%). To miniaturize the volume of the fluorescence detection instrument and optimize detection performance. Therefore, we developed a self-made simplified fluorescence detector to replace the instrument, which still maintained had a good linear correlation (R square≒0.965) and repeatability (RSD<±5%) while achieving well detection sensitivity, fine signal-to-noise ratio, miniaturized volume, low instrument cost, which can be applied to determine the concentration of 30-fold pre-diluted clinical ortho-phthalaldehyde disinfectant.