How to ensure structural stability and compliance when designing steel structure platforms? 1. Structural stability guarantee: According to mechanical specifications: Determine the steel specifications (I-beam/channel steel models) and spacing between crossbeams based on actual loads (including dynamic loads) to ensure sufficient strength of load-bearing components and reserve a safety factor of 1.2 times; Strengthening connection and support: The columns are fixed to the ground with embedded parts or high-strength expansion bolts, and the beams and columns are connected by welding and bolts to avoid loosening; Slant support and diagonal bracing can be added to the high-rise platform to enhance the ability to resist lateral displacement; Control load distribution: Clearly define the storage area for goods, avoid local concentration and overweight, and use anti slip and anti deformation materials (such as corrugated steel plates) for platform plates to prevent goods from sliding or plate deformation. 2. Compliance assurance: Adhere to design standards: Design in accordance with the "Acceptance Standards for Construction Quality of Steel Structures" (GB 50205) and the "Code for Design of Steel Structure Platforms" (GB 51022), ensuring that structural parameters meet national requirements; Satisfy safety protection: A guardrail with a height of ≥ 1.2 meters should be installed at the edge of the platform (with a horizontal bar in the middle), protective doors should be installed at entrances and exits, and handrails should be installed on stairs/ladders; Reserve fire exits, lighting, and fire protection facilities in accordance with fire safety regulations; Environmental adaptation requirements: Galvanizing and anti-corrosion paint treatment should be carried out in humid/acidic/alkaline environments, and high-temperature resistant steel should be selected for high-temperature environments to ensure that the structure is suitable for the usage scenario and avoid safety hazards caused by material mismatch.
