Optimize your specialized stamping workflows with our professional technical documentation for the Inverted Die Creo. In an inverted die configuration, the traditional relationship between the punch and die is flipped: the die is mounted on the upper ram while the punch remains stationary on the lower bolster. This setup is highly advantageous for preventing “slug pulling” and ensuring that delicate parts remain flat and undistorted during ejection. This drawing package, modeled natively in PTC Creo, leverages high-level assembly constraints to ensure that every clearance and alignment pin is perfectly synchronized for this unique mechanical path.

The provided dessin package includes the full parametric feature tree, allowing you to easily adjust the design for different tonnage requirements or material types. By examining the integrated knockout systems and the specialized spring-loaded stripper plates detailed in these blueprints, engineers can master the gravity-defying ejection physics required for inverted tooling. We offer these high-fidelity CAD resources for free to help tool and die designers tackle complex manufacturing challenges with the precision of Creo’s skeleton modeling and top-down design methodology.

Our files are optimized for immediate use in professional engineering environments, enabling you to perform detailed motion analysis and interference checks. This ensures that the upper die components and the lower stationary punches interact flawlessly without the risk of tool collision. Download this essential resource today to add a sophisticated inverted stamping solution to your industrial tool library.

Caractéristiques principales :

  • Inverted Kinetic Architecture: Engineered for “punch-down, die-up” operations to maximize part flatness and scrap control.
  • Creo Parametric Framework: Built with robust constraints, making it easy to scale the assembly while maintaining critical clearances.
  • Advanced Knockout System: Detailed schematics for mechanical or pneumatic knockouts designed to eject parts from the upper die.
  • Rigid Pillar Alignment: Features high-tolerance guide posts to maintain absolute concentricity between the moving upper die and stationary lower punch.
  • Optimized Slug Management: Designed to allow scrap to fall away freely, reducing the risk of tool damage or part contamination.