WEINO WN-H63Z-3 HORIZONTAL MACHINING CENTER

WEINO WN-H63Z-3 WEINO WN-H63Z-3 HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
WEINO
Model
WN-H63Z-3
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

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Technical Description

The WEINO WN-H63Z-3 is a compact horizontal machining center engineered for precision metal milling and component fabrication. This CNC machine features a three-axis configuration with X, Y, and Z-axis travels of 39.37, 25.591, and 23.622 inches respectively, providing adequate workspace for mid-sized workpieces. The machine employs a BT-50 spindle taper with a maximum rotational speed of 6,000 RPM, delivering balanced performance across both high-speed finishing and heavy-duty cutting operations. The 24.803-inch square pallet accommodates standard clamping configurations while facilitating efficient workpiece positioning and tool access. As a horizontal spindle design, the WN-H63Z-3 benefits from gravity-assisted chip evacuation, minimizing chip re-cutting and reducing tool wear while improving surface finish quality. The integrated CNC control system enables automated tool changes and multi-axis coordination for complex part geometries. This configuration makes the WN-H63Z-3 particularly suitable for aerospace, automotive, and heavy equipment manufacturing where thermal stability, repeatability, and reliable chip management are critical. The machine's moderate spindle speed and compact footprint position it as an economical solution for job shops and mid-volume production environments requiring precision horizontal machining capabilities without excessive space requirements or capital investment.

Technical Attributes

Y-Axis Travel
25.59 ''
Table Size (LxW)
24.803 x 24.803
Z-Axis Travel
23.62 ''
X-Axis Travel
39.37 ''
Max Spindle Speed
6,000.00
Control System
FANUC 0I-MF
Spindle Taper
BT 50

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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