Maximize your workshop efficiency by choosing to download our professional General Turning And Milling Composite Machine Tool drawing. In the modern manufacturing landscape, the ability to perform complex turning and milling operations on a single platform is the key to reducing setup times and eliminating cumulative errors. This technical drawing provides a comprehensive mechanical blueprint of a high-performance “turn-mill” center, detailing the integration of a high-precision spindle with a versatile B-axis milling head or live-tooling turret. It is an essential asset for designers and factory managers looking to implement high-throughput, one-hit machining strategies.

By utilizing this detailed CAD resource, mechanical engineers can analyze the sophisticated kinematics required to synchronize rotational and linear axes. The drawing offers deep insights into the structural rigidity needed to handle both the high-speed rotation of turning and the varying torque loads of milling. Whether you are producing complex aerospace components, medical implants, or intricate automotive parts, these schematics provide the exact dimensions for tool interference envelopes, sub-spindle alignment, and Y-axis travel limits. Accessing this verified design ensures your team has the foundational data to optimize tool paths and maximize the versatility of composite machining technology.

Principais recursos:

  • Integrated B-Axis Spindle: Detailed schematics for a tilting milling head that allows for full 5-axis simultaneous machining or multi-angle drilling and tapping.
  • Dual-Spindle Synchronization: Structural insights into the main and sub-spindle alignment, enabling seamless “part hand-offs” for complete 6-sided machining.
  • High-Torque Live Tooling: Specifications for the turret drive system that powers rotating tools, maintaining high precision during off-center milling operations.
  • Heavy-Duty Orthogonal Y-Axis: A robust slide design that provides extended lateral travel for milling flat surfaces and pockets on cylindrical workpieces.
  • Enhanced Thermal Stability: Architectural details for cooling jackets and symmetry-based frame design to counteract heat generation from high-speed spindle rotation.