Technical Description
This invention relates to an advanced analytical experimental method for designing high precision machine tools by modelling kinematics, static, dynamic, and thermal behaviours of machinal assemblies. The method enables achieving or exceeding performance standards through data-driven optimization, simulation, and structural corrections applied to grinding, milling, turning, and drilling machines.
Problems Addressed
- Excessive Tolerance Margins
- Insufficient Spindle Stiffness
- Poor Volumetric Accuracy
- Thermal Drift Instability
- Unoptimized Bearing Span
- Inaccurate Dynamic Prediction
Tech Features
- Optimized Tolerance Control
- Enhanced Spindle Rigidity
- Advanced Kinematic Modeling
- Efficient Thermal Simulation
- Improved Dynamic Analysis
- Optimized Cooling Design
Target Audience
- CNC Machine Manufacturers
- Automotive Component Machining Firms
- Aerospace Machining & Tooling Sector
- Industrial Robotics & Automation Companies
- Research & Development
Tech ID: P18-1729 TRL 6 Patent Status: Granted Available For Exclusive and Non-exclusive License
