KNUTH SINUS PLUS 400/1500 HORIZONTAL MACHINING CENTER

KNUTH SINUS PLUS 400/1500 KNUTH SINUS PLUS 400/1500 HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
KNUTH
Model
SINUS PLUS 400/1500
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

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Technical Description

The KNUTH Sinus Plus 400/1500 Horizontal Machining Center is a precision lathe engineered for robust performance and versatility. It features a single main spindle with a maximum turning diameter of 30.000 inches and a maximum turning length of 59.000 inches, suitable for handling medium to large workpieces. The spindle delivers up to 1,600 RPM and has a power rating of 12.10 HP, providing ample torque for demanding machining operations. The machine supports two simultaneous cutting tools, enhancing productivity and enabling complex machining tasks. The Z-axis travel measures 6.000 inches, allowing precise longitudinal movements during cutting. Constructed on a heavy, one-piece cast bed, the lathe ensures stability and vibration damping, critical for accuracy and surface finish quality. The spindle bore diameter and mounting conform to industry standards (e.g., D1-8 mount, 5 MT taper), facilitating compatibility with various tooling. Additional features include hardened guideways for durability, manual multi-disc clutch for reliable power transmission, and optional accessories such as a removable bed bridge for large-diameter part machining. The unit is equipped with a 3-axis position indicator and integrated spindle speed display for operator convenience and precision control. These specifications position the KNUTH Sinus Plus 400/1500 as a versatile machine suitable for precision turning, heavy-duty applications, and complex machining processes within industrial environments.

Technical Attributes

X-Axis Travel
6.00 ''
Max Spindle Speed
1,600.00
Spindle Power
12.10 HP
Z-Axis Travel
6.00 ''

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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