EGURO NUCPAL-10EX CNC LATHE

EGURO NUCPAL-10EX EGURO NUCPAL-10EX CNC LATHE equipment image

Equipment Overview

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OEM
EGURO
Model
NUCPAL-10EX
Year of Manufacture
-
Category
CNC LATHES

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Technical Description

The FANUC 0i-TD is a compact CNC control system designed for lathe operations, delivering robust turning capabilities with a 12.6 hp power output suitable for precision machining tasks. This controller supports up to four simultaneously controlled axes, with three axes available when a contouring spindle is configured, enabling complex multi-axis turning operations. The system features digital servo axis control with fine acceleration and deceleration capabilities, allowing precise feedrate management from 0 to 254% override settings. With a swing capacity of 13.78 inches, this lathe configuration provides adequate workspace for mid-sized workpieces while maintaining the compact footprint characteristic of FANUC's 0i series architecture. The control system offers rapid traverse rates up to 240 m/min for 1μm increments or 100 m/min for 0.1μm increments, combined with flexible feed options including feed-per-minute and feed-per-revolution modes. The 0i-TD integrates advanced spindle management with speeds controlled via S5-digit output, constant surface speed control, and spindle synchronous capabilities. Programming flexibility includes multiple control paths with simple synchronous and tandem control options through PMC axis control. Standard features encompass linear and circular interpolation, comprehensive interlock functions, and multiple auxiliary function capabilities via M8-digit and B8-digit commands. The system maintains FANUC's reputation for reliability while offering cost-effective performance for small-to-medium production turning applications.

Technical Attributes

Max Swing
13.78 ''
Control System
EGURO FANUC 0I-TD
Z-Axis Travel
15.35 ''
X-Axis Travel
16.54 ''

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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