U'CHINE UHM-1000TA HORIZONTAL MACHINING CENTER

U'CHINE UHM-1000TA U'CHINE UHM-1000TA HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
U'CHINE
Model
UHM-1000TA
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

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Technical Description

The U'CHINE UHM-1000TA is a high-performance horizontal machining center designed for precision milling and heavy-duty machining. It features a robust working envelope with an X-axis travel of 59.055 inches, Y-axis travel of 39.37 inches, and Z-axis travel of 47.244 inches, suitable for large and complex workpieces. Powered by a 24.8 horsepower spindle, it supports a maximum rotational speed of 4,000 RPM, enabling efficient cutting and surface finishing. The machine incorporates a 24-tool Automatic Tool Changer (ATC) with ISO 50 tool taper, allowing versatile tooling for varied machining operations without manual intervention. The pallet has dimensions of 39.37 by 39.37 inches, facilitating stable and sizable workpiece mounting. Operation is controlled via a CNC system, ensuring precise and repeatable machining with optimized tool paths. The horizontal orientation enhances chip evacuation and improves machining accuracy by keeping the workpiece fixed while the tool performs multi-directional cutting. This combination of travel range, power, spindle speed, and automation makes the UHM-1000TA ideal for applications in aerospace, automotive, heavy equipment, and complex component manufacturing requiring high rigidity, stability, and efficient production cycles. Its design targets the capability to handle large parts with excellent accuracy and process integration through CNC control and tool management.

Technical Attributes

Table Size (LxW)
31.496 x 31.496
Spindle Taper
ISO 50
Max Spindle Speed
6,000.00
Z-Axis Travel
47.24 ''
Y-Axis Travel
47.24 ''
X-Axis Travel
62.99 ''
Control System
HAAS VF-4
Spindle Power
24.80 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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