Through the BIM platform, various operational processes involved in the construction of super high-rise buildings were simulated. Each stage was carefully analyzed, and data was integrated seamlessly within the BIM system. By leveraging the platform’s technical parameterization and visualization capabilities, a comprehensive model was established to monitor safety performance and conduct quality inspections essential for such construction projects. This approach enabled timely identification of safety hazards, thorough analysis, and the development of effective safety measures, ensuring safe, orderly construction while significantly reducing the risk of building safety incidents.
During the design phase of the entire steel formwork support structure, BIM design technology indicators were utilized to establish safety and risk prevention management for the building’s construction scheme. This technical approach is widely regarded as a critical element in construction safety management that cannot be overlooked. It addresses the safety of the entire construction site by laying the foundation for risk prevention and safety management. BIM design technology plays a leading role in analyzing and verifying the construction support structure and data systems across various building types, ensuring the design scheme for support structures is both safe and practical.
Drawing Review Management
By applying BIM technology to drawing reviews, safety issues in architectural design drawings were identified before construction began. This process enhanced the quality and efficiency of design reviews. Early detection of potential problems allowed for proactive solutions addressing safety concerns within the drawings and complex construction elements. As a result, safety risks during construction were minimized, and overall construction quality improved.
Simulation and Optimization of Special Implementation Plans
BIM technology was employed to simulate, analyze, and optimize safety solutions for specialized construction projects. This process clearly communicated the logical sequence of each construction step and process to all stakeholders. It mainly serves to summarize safety measures for on-site workers and provide visual data transparency, thereby enhancing construction safety and reliability.
Visual Disclosure Management with 3D and 4D Technologies
The BIM process technology was used to simulate and visually disclose construction processes for various projects. It clearly illustrated the main construction stages, the logical relationships between each phase, the complex operations across different engineering disciplines, and the workflow of each major construction plan through video simulations. This BIM-based visual learning platform offers intuitive, map-like displays that help reduce difficulties for construction technicians, project managers, and specialists. It ensures that construction personnel understand their tasks effectively while fostering a stronger sense of safety on site.
Hazard Identification and Management
All production elements and construction components on site were integrated into the BIM model of the main building. Using BIM safety analysis software, such as Fuzor, potential hazards within the construction environment were identified, analyzed, and comprehensively assessed. This enabled rapid and accurate detection of risks, supported by detailed data collection and reporting. Safety analysis reports were generated to inform all relevant parties, facilitating proactive hazard management on the site.
Safety Planning and Management
BIM technology was used to precisely locate all areas and elements requiring external horizontal protection. Preemptive safety strategy plans and implementation schemes were designed for critical zones, including tunnel edges, construction safety passage entrances, and external protections during super high-rise building construction. Based on project-specific priorities and safety requirements, a BIM-based safety protection strategy model was developed. This model visualizes safety conditions, optimizes protective measures, collects data, and supports resource planning, enabling refined and effective safety management.
On-Site Safety Education
BIM simulation technology was applied to train fire safety construction workers in evacuation procedures, emergency response, and fire accident handling. This BIM-based teaching method promotes safety management knowledge and operational skills directly related to on-site construction processes. It enhances occupational safety awareness among professional workers. With the rapid evolution of China’s construction industry and the integration of BIM technology, advancing management concepts alongside technical innovations is essential for successful project execution.
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