The regular inspection of traditional industrial boilers adopts fixed inspection items and processes. When facingboilers with complex structures and different models，there are problems such as uneven allocation of inspection resources andinsufficient depth of inspection for potential high-risk areas. Therefore，a regular inspection strategy for industrial boilersincorporating risk oriented thinking is proposed. This strategy first constructs a multi-level indicator system covering equipmentontology，operation management，and environmental risks，and uses the information entropy method to objectively assignweights to achieve scientific quantification of boiler comprehensive risks. The core lies in developing differentiated inspectionpriorities and methods within the framework of the statutory inspection cycle based on risk assessment results，such as strengthening macroscopic inspection， thickness measurement， and non-destructive testing for high-risk areas， while performing routine inspections for low-risk areas. Experiments show that this strategy can accurately identify and focus on high-risk areas，significantly improving the pertinence and hidden danger detection efficiency of regular inspections，and providing effective technical support for optimizing the legal inspection process.