Use BIM technology to review the information of various professional drawings, check and fill in the gaps, and improve the quality of construction drawings.
The BIM information model is constructed based on the main construction drawings to facilitate the output of data information and the formation of digital control of various specialties.
Through the BIM information model, the clear height, parking spaces and other analyses are carried out, and the collision check and comprehensive optimization of the building body are carried out.
In the process of establishing the model, on the basis of taking into account the cost, aesthetics and practicality of the owner, the spatial analysis and special optimization of various specialties such as building structure, mechanical and electrical, and pipeline were carried out.
Use BIM technology to visualize the project, save time, issue positioning drawings and models such as three-dimensional views and horizontal sections, and simulate project difficulties and processes as needed, so as to facilitate the formulation of construction plans and measures in advance and standardize and guide construction.
Combine the building model with the actual building construction to efficiently adjust and deal with the building construction problems. The 3D scanning and inspection technology is used to compare the construction site and the model at different nodes to further assist and improve the quality of the project.
Construct a BIM information model based on interior finishings construction drawings to facilitate data output and establish digital control across various disciplines.
Integrate the BIM model for interior finishings with the main building BIM model for collision detection and comprehensive pipe coordination. On the optimized BIM model, generate pre-fabricated penetrations for structural beams.
Through BIM modeling and optimization, identify the most optimal standard nodes, and extract standard quantities from these nodes for budget estimation. Assemble these standard nodes into standard room types. Develop a Revit family library to enhance convenience for future work.
During the model development, perform space analysis and specialized optimization for the interior finishings, mechanical and electrical systems, and piping, aligning with the owner's requirements and balancing cost, aesthetics, and practicality.
Create simulations of real-world effects and output VR effect animations to provide clients with an immersive sensory experience, increasing customer satisfaction and ensuring "what you see is what you get.
Capabilities:
Generate oblique photogrammetry models of project sites, 1:500 digital topographic maps, 5x5 meter earthwork grid maps, and comparative earthwork calculations.Benefits:
-Collect 3D data models of the original terrain, providing a faster and more intuitive understanding of the project area and its surroundings.
-Assist designers in quickly, accurately, and efficiently completing various earthwork balance comparison plans.
-Use the topographic model to directly obtain elevations, height differences, and cut-and-fill volumes at different locations, facilitating simulation and analysis.
1.BIM Modeling, Net Height Analysis, and Visual Walkthrough.
2.Acquisition of 3D Spatial Information of Existing Buildings.
3.Reverse Engineering of Existing Building's 3D Models and 2D Drawings.
4.Achieving Data Sharing for Facilitated Communication and Reporting.
5.Archiving of Original Building Data.
1. Employ 3D laser scanning technology to conduct point cloud scanning of the building structure to verify if the structural elevations comply with the design specifications.
2. Integrate the on-site point cloud model with the BIM model for comparison, check the dimensions and positions of pre-reserved holes, inspect for any missing or incorrectly positioned holes, and generate an inspection report.
3. Perform point cloud scanning on installed mechanical and electrical (M&E) pipelines, use the point cloud model to compare with the pipe coordination drawings and BIM model, to verify if the M&E pipelines are constructed as per the drawings and if the clearance height under the pipes meets the design requirements.
Underground Pipeline Scanning