Inventor Modelling

Elegance Facade Designs employs cutting-edge technology in the form of Inventor Modelling to bring your architectural ideas to life. Our skilled team utilizes 3D modeling techniques to create realistic representations of façade elements. This process not only enhances visualization but also aids in identifying potential design challenges and optimizing the overall structure for superior performance and aesthetics.

Transforming Facade Design: Harnessing Inventor for Enhanced Project Efficiency

Autodesk Inventor stands out as the preferred tool for facade designers, offering capabilities to render designs, simulate models, and generate fabrication drawings for intricate facade designs.

Our team possesses both the experience and certification for the process of modelling facade designs using Autodesk Inventor. With a collaborative workflow, we seamlessly guide your product from inception to fabrication, eliminating missteps to save costs and enhance productivity.

Deliverables:
  • 3D Models (.iam, .ipt)
  • Flat patterns and manufacturing drawings (DXF, DWG)
  • Assembly models (.iam, STEP)
  • Parametric 3D model files (.ipt, .iam)
  • 2D drawings for construction documentation (DWG, PDF)
  • Design workflows with iLogic rule files and templates
  • Simulation reports in PDF or other formats
  • BOMs for cost estimation and procurement planning (Excel, CSV)
  • Collaboration using industry-standard exchange formats (SAT, STEP)
  • Renderings and visualizations (JPEG, PNG, MP4)
3D Modeling:
  • Detailed modelling of architectural and structural components.
  • Precise representation of intricate designs for facades and claddings.
  • Efficient creation of complex geometries.
Sheet Metal Design:
  • Crafting accurate sheet metal components for claddings and roofing.
  • Unfolding complex shapes into manufacturable flat patterns.
  • Integrating parametric features for flexible design iterations.
Assembly Design:
  • Seamless assembly of various building systems and components.
  • Simulation of the interaction between different elements.
  • Detecting and resolving clashes within assemblies.
Parametric Modeling:
  • Creating designs that dynamically adapt to changing parameters.
  • Efficiently handling design modifications and updates.
  • Enhancing flexibility and scalability in project development.
Drafting and Documentation:
  • Generation of detailed 2D drawings for construction documentation.
  • Accurate representation of dimensions, annotations, and symbols.
  • Automatic updates of drawings based on model changes.
Customization with iLogic:
  • Automation of repetitive tasks for increased efficiency.
  • Customization of design workflows to match specific project needs.
  • Creation of rules and parameters to drive design logic.
Simulation and Analysis:
  • Stress and strain analysis for structural components.
  • Simulation of assembly processes for manufacturing.
  • Validation of designs to ensure they meet safety and performance standards.
Bill of Materials (BOM):
  • Efficient generation of comprehensive BOMs for cost estimation.
  • Accurate tracking of materials and components in the project.
  • Integration with other project management tools.
Interoperability:
  • Seamless collaboration with other Autodesk and third-party software.
  • Integration with analysis tools, enhancing design validation.
  • Efficient data exchange with structural and MEP systems in the AEC workflow.
Visualization and Rendering:
  • Realistic visualizations of architectural designs for client presentations.
  • High-quality renderings for marketing materials and proposals.
  • Enhancing communication of design intent with stakeholders.
Benefits for Clients:
  • Streamlined project execution
  • Adaptability to changing needs
  • Flexibility to evolve with changing requirements
  • Enhanced collaboration and communication
  • Visualization of the project before construction
  • Empowerment to make informed decisions
  • Receive optimized designs
  • Cost-effectiveness
  • Timely delivery
  • Precision and efficiency in the design process