The purpose of fire safety equipment maintenance is to ensure that in emergencies all the necessary equipment is in good working order so that damage can be kept to a minimum. Current inspection procedures follow the regulations outlined in relevant laws, which require access to the relevant documents and diagrams. However, most of these files are in paper format, which causes inconvenience during the inspection process, thereby wasting both time and labor. To solve the above problems and to help inspectors obtain the information they need as efficiently as possible, this study uses the building information model (BIM) to build the components of fire safety equipment while simultaneously inputting data related to the components’ life cycle into the Revit 3D model using the COBie Toolkit. The data are further organized into a cloud database to enable augmented reality processes such as visual simulation and the use of mobile devices in future inspections. This eliminates the limitations of paper-based documents. In terms of system development and case verification, this study used augmented reality technology to present visual simulation of the equipment. The selected case studies demonstrate that BIM ensures the integrity, accessibility, and efficacy of data, while the augmented reality technology combines data with physical objects to provide information immediately in a visible and convenient manner. The developed model therefore is an effective tool that efficiently meets the requirements of fire safety equipment maintenance inspections.