KNUTH SERVOTURN 410/1000 HORIZONTAL MACHINING CENTER

Equipment Overview
Share Link- OEM
- KNUTH
- Model
- SERVOTURN 410/1000
- Year of Manufacture
- -
- Category
- HORIZONTAL MACHINING CENTERS
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A+Technical Description
The KNUTH SERVOTURN 410/1000 Horizontal Machining Center is a precision-engineered CNC machine designed for high-efficiency horizontal machining operations. Featuring a robust main spindle with a maximum turning diameter of 16.000" and a turning length of 41.000", this machine is well-suited for large and complex workpieces. The single main spindle operates at up to 3,000 RPM, delivering 7.40 HP for consistent cutting performance and reliability. The system supports simultaneous use of two cutting tools, enhancing productivity and reducing cycle times. The Z-axis travel of 4.000" provides precise control for intricate machining tasks, ensuring accuracy and repeatability. The machine’s horizontal spindle orientation allows for efficient chip evacuation and improved access to the workpiece, making it ideal for a wide range of milling, drilling, and boring applications. Its rigid construction and advanced CNC controls ensure stable operation, high dimensional accuracy, and excellent surface finish. The SERVOTURN 410/1000 is engineered for versatility, supporting both high-volume production and demanding job-shop environments. With its compact footprint and user-friendly interface, this machining center offers a balance of performance, precision, and ease of use, making it a reliable choice for manufacturers seeking efficient and accurate horizontal machining solutions.
Technical Attributes
- X-Axis Travel
- 4.00 ''
- Z-Axis Travel
- 4.00 ''
- Max Spindle Speed
- 3,000.00
- Spindle Power
- 7.40 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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