Achieve flexible automation with our professional Multi-Position Setting Mechanism drawing. In modern manufacturing, a single machine often needs to process various product sizes or perform different operations at specific intervals. This technical CAD resource provides a blueprint for mechanisms capable of locking into multiple predefined locations with high repeatability. By downloading this file from MechStream, you gain access to designs ranging from manual detent pins to servo-driven multi-stop linear actuators, ensuring your system can adapt to diverse task requirements without manual recalibration.

The design featured in this package focuses on Positive Locking and Repeatability. The drawing includes detailed layouts for notched rails, rotary index plates, and “shot-pin” actuators. A critical challenge in multi-positioning is ensuring that the mechanism doesn’t just “arrive” at a location but “locks” into it to resist process forces. By utilizing this blueprint, you can implement a design that uses tapered pins or V-notches to “settle” the carriage into the exact same coordinate every time, compensating for any small tolerances in the primary drive system.

Our technical documentation prioritizes versatility and ease of changeover. The assembly is designed for modularity, allowing you to add or remove position “stops” as your production needs evolve. Whether you are building a multi-tool turret, a height-adjustable conveyor bridge, or a 4-position sorting gate, this drawing provides the exact geometric tolerances, sensor feedback paths, and wear-resistant material specs required for a professional-grade installation.

Ключевые особенности:

  • High-Repeatability Stop Points: Engineered with tapered registration features to achieve sub-millimeter positioning accuracy across all settings.
  • Rapid Changeover Design: Includes blueprints for “quick-release” handles or automated pneumatic pins for near-instant transitions between positions.
  • Binary or Incremental Logic: Detailed layouts for systems that use multiple limit switches to identify and verify the current active position.
  • Torsion-Resistant Locking: Features oversized locking pins designed to handle high lateral or rotary forces without shifting.
  • Modular Stop Rails: Provides a T-slot or hole-pattern framework that allows for the infinite field-adjustment of stop locations.