FUJI GN-30 HORIZONTAL MACHINING CENTER

FUJI GN-30 FUJI GN-30 HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

Share Link
OEM
FUJI
Model
GN-30
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

Market Value Calculator

A+

Technical Description

The FUJI GN-30 Horizontal Machining Center is a high-performance CNC lathe designed for precision turning and milling operations. It features a single main spindle with a maximum turning diameter of 3.940 inches and a turning length of 23.600 inches, accommodating a chuck diameter of 8.000 inches. The main spindle delivers up to 3,500 RPM and 20 HP, ensuring efficient material removal and consistent accuracy. The machine is equipped with two independent turrets, each capable of holding up to 8 turning tools and 8 rotary tools, allowing for versatile tooling configurations and simultaneous multi-tool cutting. With a total of 4 axes, the GN-30 supports complex machining tasks, including contouring and facing. The X-axis travel is 12.010 inches, while the Z-axis travel is 18.900 inches (extendable to 21.260 inches as an option), providing ample workspace for a variety of part sizes. The dual turret design enables uninterrupted tool changes and increased productivity, making the FUJI GN-30 ideal for high-volume production environments. Its robust construction and advanced CNC control ensure minimal vibration, extended tool life, and repeatable precision. This machining center is well-suited for industries requiring high accuracy and reliability in the production of shafts, chucker work, and other turned components.

Technical Attributes

Max Spindle Speed
3,500.00
Spindle Power
20.00 HP
X-Axis Travel
12.01 ''
# of Axes
4.00
Z-Axis Travel
18.90 ''

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.

If you identify any inaccuracies, please help us improve our data by reporting them here.