KNUTH DL E HEAVY 800/3000 HORIZONTAL MACHINING CENTER

KNUTH DL E HEAVY 800/3000 KNUTH DL E HEAVY 800/3000 HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
KNUTH
Model
DL E HEAVY 800/3000
Year of Manufacture
-
Category
MANUAL LATHES

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Technical Description

The KNUTH DL E Heavy 800/3000 Horizontal Machining Center is designed for heavy-duty precision machining with a maximum spindle turning diameter of 63 inches and turning length of up to 118 inches, accommodating large and complex workpieces. It features a single main spindle driven by a powerful 29.5 HP motor, enabling high torque and robust cutting performance. The machine supports up to two simultaneous cutting tools, increasing productivity and versatility in machining tasks. Its Z-axis travel of 110 inches provides substantial vertical reach, supporting a wide range of machining operations. This horizontal machining center is engineered for stability and precision in heavy-duty applications, suitable for both roughing and finishing processes. The combination of high spindle power, significant axis travel, and dual-tool capability makes it ideal for industries requiring large-scale component machining such as aerospace, heavy equipment, and automotive sectors. The robust construction and advanced spindle configuration enhance cutting efficiency and tool life, while the extended travel capabilities facilitate complex part handling and multi-step machining in a single setup. Overall, the KNUTH DL E Heavy 800/3000 offers a balanced solution for high-torque, large-format horizontal machining with a focus on precision and durability.

Technical Attributes

Max Swing
31.50 ''
Distance Between Centers
118.10 ''
Z-Axis Travel
110.00 ''
Spindle Power
29.50 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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