VIGEL QD400HSP HORIZONTAL MACHINING CENTER

VIGEL QD400HSP VIGEL QD400HSP HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
VIGEL
Model
QD400HSP
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

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Technical Description

The VIGEL QD400HSP is a high-performance horizontal machining center engineered for precision and efficiency in demanding production environments. Featuring a robust 5-axis configuration, this machine delivers exceptional versatility for complex machining operations. The X-axis offers a travel distance of 15.748 inches (400 mm), the Y-axis provides 35.433 inches (900 mm), and the Z-axis extends to 17.717 inches (450 mm), enabling the processing of a wide range of workpiece sizes. The machine is equipped with a reliable CNC (FANUC) control system, ensuring accurate and seamless operation with advanced programming capabilities. Designed with Vigel’s signature multi-spindle technology, the QD400HSP supports increased productivity by allowing simultaneous machining on multiple spindles, reducing cycle times and maximizing throughput. The platform’s modular box-in-box structure ensures high rigidity and vibration damping, maintaining accuracy even at high speeds. Integrated automation options and ergonomic maintenance access further enhance operational efficiency and ease of use. The machine’s compact footprint optimizes floor space utilization without compromising on performance. Suitable for both light and heavy-duty applications, the VIGEL QD400HSP is ideal for industries requiring high precision, reliability, and flexibility in their machining processes.

Technical Attributes

Control System
FANUC
Spindle Taper
HSK-A-63
Y-Axis Travel
35.43 ''
X-Axis Travel
19.69 ''
Z-Axis Travel
19.69 ''

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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