Optimizing machining accuracy requires absolute stability, and this professional Preventing Workpiece From Floating And Positioning assembly is the definitive solution for precision engineering. In many milling and CNC operations, the “lifting” or “floating” effect of a workpiece under clamping pressure can lead to devastating dimensional errors. This high-quality CAD dibujo provides a robust mechanical blueprint designed to counteract these forces, ensuring your workpiece remains flush against the locating surface throughout the entire machining cycle.

By integrating specialized downward-force components, this design eliminates the micro-gaps that typically form during high-pressure clamping. Whether you are designing a custom fixture for automotive parts or high-tolerance aerospace components, this dibujo serves as an essential reference. It utilizes a sophisticated lever or wedge-based geometry to convert horizontal clamping force into a synchronized vertical hold-down movement. Implementing this mechanism reduces scrap rates and significantly improves surface finish quality by dampening vibrations caused by improper seating. Download this comprehensive technical file today to streamline your fixture design process and enhance your shop floor productivity.

Características principales:

  • Precision Downward Pressure: Employs an angled clamping jaw design that actively pulls the workpiece against the base to prevent vertical displacement.
  • Dual-Action Positioning: Simultaneously handles horizontal alignment and vertical stabilization within a single compact footprint.
  • Compatibilidad CAD universal: En dibujo is structured for easy integration into existing fixture assemblies and standard modular tooling systems.
  • Heavy-Duty Durability: Engineered for high-repetition environments, featuring wear-resistant contact points to maintain accuracy over thousands of cycles.
  • Easy Maintenance Design: Simplified component breakdown allows for quick cleaning and replacement of springs or pins, minimizing machine downtime.