Technical Description
The invention introduces a novel method for achieving precision guidance through a double parallelogram flexure mechanism operating in a vertical plane. By optimizing the geometry of the beam pairs and accounting for the weights of the associated masses, this method effectively minimizes parasitic errors, ensuring accurate displacement control even when subjected to transverse forces.
Problems Addressed
- Unsuitability Designs for Vertical Use
- Parasitic Motion in Vertical Plane
- Inefficient Geometry Optimization
- Misalignment in Precision Applications
- Dynamic and Static Deflection Errors
- Axial Forces Impacting Deformation
- Lack of Iterative Correction Mechanism
Tech Features
- Frictionless Precision Guidance in Vertical Plane
- Double Parallelogram Flexure Mechanism
- Optimization of Beam Geometry
- Iterative Error Minimization
- Load Balancing for Precision
- Application of Transverse Forces
- Dynamic and Static Deflection Compatibility
- Error Analysis Framework
Target Audience
- Precision Instrumentation Manufacturers
- Aerospace and Defense Sectors
- Medical Equipment Manufacturers
- Semiconductor and Microelectronics Industries
- Robotics and Automation Industries
- Research and Development
Tech ID: P18-1274 TRL 3 Patent Status: Granted Available For Exclusive and Non-exclusive License
