KITAMURA HX400ISII HORIZONTAL MACHINING CENTER

KITAMURA HX400ISII KITAMURA HX400ISII HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
KITAMURA
Model
HX400ISII
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

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Technical Description

The Kitamura HX400ISII Horizontal Machining Center is a high-performance CNC machine designed for precision and efficiency in demanding production environments. It features an X, Y, and Z-axis travel of 24 inches each, providing a generous work envelope for a wide range of part sizes. The machine is equipped with a high-speed spindle capable of reaching up to 20,000 RPM, ensuring rapid material removal and excellent surface finishes. The spindle utilizes a #40 taper, compatible with a broad selection of tooling for versatile machining applications. A 40-tool automatic tool changer enables fast and efficient tool exchanges, minimizing downtime and maximizing productivity. The HX400ISII includes a pallet system with a pallet size of 15.74 inches by 15.74 inches, supporting workpieces up to 882 lbs, and offers rapid pallet change times for increased throughput. The machine is built on a robust Meehanite cast iron base, delivering superior rigidity, vibration damping, and long-term accuracy. Control is managed by the advanced FANUC 16iMB CNC system, featuring a user-friendly interface and comprehensive programming capabilities. With a total machine weight of 25,300 pounds, the HX400ISII is engineered for stability and durability, making it ideal for heavy-duty machining tasks. Its combination of speed, accuracy, and reliability makes it a top choice for manufacturers seeking high-performance horizontal machining solutions.

Technical Attributes

X-Axis Travel
24.00 ''
Max Spindle Speed
15,000.00
Z-Axis Travel
24.00 ''
Spindle Taper
NST No. 40
Y-Axis Travel
24.00 ''
Table Size (LxW)
15.75 x 15.75
Control System
FANUC 16IMB

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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