KNUTH SERVOTURN 410 NC HORIZONTAL MACHINING CENTER

Equipment Overview
Share Link- OEM
- KNUTH
- Model
- SERVOTURN 410 NC
- Year of Manufacture
- -
- Category
- HORIZONTAL MACHINING CENTERS
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A+Technical Description
The KNUTH SERVOTURN 410 NC is a compact horizontal machining center engineered for precision turning and milling operations. Featuring a maximum turning diameter capacity of 16.000 inches, this machine is designed to handle medium-sized workpieces with efficiency. The machine is equipped with a single main spindle operating at 2,000 RPM with 5.00 HP output, providing consistent torque for heavy-duty cutting operations. The dual spindle configuration (both rated at 2,000 RPM with 5.00 HP each) enables flexibility for complex multi-operation workflows, though only one spindle operates as the primary turning station. A key feature is the capability to simultaneously engage two cutting tools, allowing for optimized chip-to-chip times and reduced cycle times on intricate geometries. The Z-axis travel of 5.000 inches provides adequate stroke length for standard turning operations and axial positioning adjustments. The horizontal spindle orientation facilitates efficient chip evacuation and enables gravitational assistance during the machining process. This machine combines CNC automation with robust construction, making it suitable for job shops and small-to-medium manufacturing facilities requiring versatile turning and facing capabilities. The SERVOTURN 410 NC is particularly well-suited for producing components requiring multi-axis positioning, complex contours, and repeated precision manufacturing with minimal operator intervention.
Technical Attributes
- Max Spindle Speed
- 2,000.00
- Z-Axis Travel
- 5.00 ''
- Spindle Power
- 5.00 HP
Data Accuracy and Verification
Specifications and technical details are compiled from manufacturer documentation, historical records, and third-party industry sources. While care is taken to ensure accuracy, this information is provided for reference purposes only and may contain errors or omissions. Users should independently verify all details before relying on them.
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