充分利用BIM技术与工程实际紧密结合,通过引进、消化BIM技术并进行施工过程模拟,以及实际应用,开展以下技术研究:内支撑后拆:运用三维建模技术,模拟基坑后支撑内拆的整个施工过程,通过对于内支撑梁有碰撞的结构柱、结构梁、墙等的位置进行优化调整以及施工流程的指导;物流及现场管理:运用BIM模型对项目的铝模板的排布/接口进行优化设计、钢结构的用量加工、砌块的阶段用量及排布等进行模拟,编制出符合现场情况的物流计划,使现场“零堆场”的情况得以实现;质量管控:电子挂牌技术有效与实际检测数据进行挂接,通过将数据在模型上,为后续专业分包的作业提供作业依据;进度与成本管控:通过“4D”起步软件编制出进度计划,并通过软件能更好的管控进度计划与资源排布,合理安排施工。 Make full use of BIM technology and engineering practice closely, through the introduction and digestion of BIM technology and construction process simulation, as well as practical applications, carry out the following technical research: internal support after the demolition: the use of three-dimensional modeling technology, simulation of the pit after the demolition of the support Throughout the construction process, optimization and adjustment of structural columns, structural beams, walls, etc., with respect to the internal support beam, and guidance for the construction process; logistics and site management: the use of BIM models for the layout/interface of the aluminum template for the project Optimize the design, the amount of steel structure processing, the stage of the amount and layout of the block, etc. to simulate, to prepare a logistics plan that meets the site conditions, so that the scene “zero yard” can be achieved; quality control: electronic tag technology Effectively link with actual test data, and provide data for the follow-up professional subcontracting operations by providing data on the model; progress and cost control: Through the “4D” starter software to prepare a schedule, and through the software can be more Good control of schedule and resource allocation, and reasonable arrangements for construction.