Download Professional Longitudinal Cutting Structure Technical Drawing

Optimize your continuous production lines with our professional technical documentation for the Longitudinal Cutting Structure. Also known as a “slitter” or “rip-cut” assembly, this structure is designed to divide wide master coils or sheets into precise, narrower strips along the direction of material flow. In high-speed conversion processes, maintaining a perfectly straight cut without edge deformation or “burring” is essential. This drawing package provides the mechanical framework for a rigid, vibration-resistant cutting station that ensures dimensional consistency across the entire width of the material.

The provided dibujo package offers an exhaustive look at the arbor shaft assembly, the precision spacer arrangements, and the tensioning systems required for clean separation. By analyzing the bearing tolerances and the blade-overlap geometry detailed in these blueprints, engineers can minimize “web weave” and ensure that the slit edges are of surgical quality. We offer these high-fidelity CAD resources for free to help manufacturing engineers design and maintain high-performance slitting lines for metal, plastic, or composite materials.

Our files are ready for immediate use in professional 3D engineering environments, allowing your team to simulate the rotational dynamics and material throughput. This ensures that the structure can handle the axial loads generated during the cutting of high-tensile alloys or thick polymers. Download this essential resource today to enhance your material conversion capabilities and achieve industrial-grade slitting precision.

Características principales:

• High-Rigidity Arbor Design: Engineered with oversized shafts to minimize deflection and ensure consistent blade contact across the web.
• Micrometer-Adjustable Spacing: Features a modular spacer and shim system for rapid width changes with sub-millimeter accuracy.
• Anti-Burr Cutting Geometry: Optimized blade-to-anvil or circular-knife interface designed to produce clean, square edges.
• Integrated Edge Trim Management: Detailed schematics for scrap winders or choppers to handle the “selvedge” or edge waste efficiently.
• Dynamic Tension Control: Designed to integrate with load cells and brake systems to maintain constant material pull during the cutting cycle.