Building Information Modeling
The digital design team mainly analyzes, adjusts, and optimizes the design and grid scheme of high-end space irregular curtain wall projects, providing a comprehensive service platform for the entire project process. Gradually expanding and deepening application scenarios, exploring the application of building curtain walls throughout their entire lifecycle, and providing technical services for engineering.
Digital Design Team
BIM implementation requirements run through the entire process of curtain wall design, processing, construction, and operation and maintenance, playing a substantive and positive role in promoting each link, providing clear benefits for the smooth implementation of the project, and significantly improving the overall quality of the project, becoming a benchmark for BIM implementation in the field of building curtain walls in China.
项目案例
The implementation of BIM projects requires deep depth and multiple links (throughout the entire process of curtain wall projects), involving multiple professional directions (curtain wall scheme design, part processing, factory pre assembly, on-site construction, post delivery operation and maintenance, etc.). This requires not only the application points at the forefront of the curtain wall project lifecycle, such as shape analysis, optimization, collision verification, scheme fitting, processing and construction data extraction, but also the implementation of on-site construction management monitoring, control of key and difficult construction processes, addition of operation and maintenance information after project delivery, and operability of viewing.
Project Presentation
1. Wuhan Optics Valley Tennis Center
Optimize the position of the hyperbolic aluminum plate shape and glass shape on the panel, use genetic optimization algorithm to calculate the optimal solution for synthesizing hyperbolic aluminum plate into a single curved aluminum plate, reduce the difficulty of processing and construction, shorten the material delivery cycle, and lower the project cost.
Using Rhino in conjunction with Grasshopper plugin's parametric design function for conventional aluminum plate feeding to improve drawing efficiency.
2. Hainan Haihua Island Cultural and Entertainment City
Complete all BIM design work including scheme verification, collision detection, LOD400 model deepening, processing data output, and construction data output for four individual buildings including KTV, concert hall, cinema, and opera house. The use of BIM parametric design technology efficiently optimizes the quadrilateral shaped aluminum panels on the roof, as well as the arrangement of aluminum panel keels and their supporting points on the upright locking edges. In the collision detection stage, the BIM technology of reverse modeling was used to inspect and guide the adjustment of the on-site steel structure construction, clearing obstacles for the smooth installation of glass panels in the future.
3. Hainan Haihua Island Art Museum
The entire art museum is transformed from contour lines and laid out to form a straight surface, with severe distortion resembling a blooming flower. Through BIM methods, the corresponding angles of each side of each panel are matched with nodes at different angles to obtain the frame and edge protection template that should be used for each side. This further guides the ordering, processing, and framing work, while controlling the installation position of the curtain wall main keel to ensure the accuracy and appearance of the curtain wall installation.
4. Shanghai 2-3
Detailed modeling was conducted on the complex conventional and irregular unit panels in the Shanghai 2-3 project, including process holes and positioning holes, and corresponding drawings were generated and provided to designers. The models were used for pre assembly to detect panel assembly problems in advance, providing strong support for deepening design. At the same time, during the later stage of construction, provide the coordinates of the installation points for the panels based on the civil engineering model and the panel model.
5. Wuhan Smart Ecological City
Wuhan Smart City consists of 5 tower buildings and a connecting grassy slope. Among them, the 5 tower buildings are shaped like shells. Through skin optimization, the overall direction of the skin is adapted to the node structure of the design scheme. The advantages and disadvantages of extreme situations are analyzed for different parts, problems are discovered in a timely manner, installation requirements are solved, and installation positioning point coordinates are provided. Subsequently, in order to adapt to changes in the civil engineering model, the model is adjusted according to the actual situation on site.
6. Australia 308
The 308 project mainly consists of an aluminum curtain wall with two types of ribbons and a W-shaped glass unit panel in the middle. The aluminum curtain wall is made into small units for hanging, and the W-shaped panel is composed of 4 to 6 pieces of glass to form the shape of type W. We use CATIA to model the overall model, Rhino to model the ribbons individually, and then use the model to extract materials from the profiles and assist in the design of the plan.
