BAOMA DK7732H WIRE EDM MACHINE

BAOMA DK7732H BAOMA DK7732H WIRE EDM MACHINE equipment image

Equipment Overview

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OEM
BAOMA
Model
DK7732H
Year of Manufacture
-
Category
WIRE EDM MACHINES

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Technical Description

The BAOMA DK7732H is a precision CNC wire electrical discharge machining (EDM) system engineered for high-accuracy metal cutting applications. This machine features X-axis travel of 12.6 inches and Y-axis travel of 15.7 inches, accommodating workpieces up to 500mm in cutting thickness with optional taper capabilities up to ±3°. The system utilizes a BMXP control platform with Windows XP operating environment, enabling direct AutoCAD integration for seamless programming workflows. Wire specifications include 0.15-0.2mm diameter capability with speeds ranging from 5-11 m/s, delivering maximum cutting speeds of 150 mm²/min at a maximum working current of 6A. Surface finish quality achieves ≤2.5μm for single-cut operations and ≤1.5μm for multi-cut operations. The machine incorporates advanced features including automatic edge detection, auto-centering functionality, intelligent short-circuit and wire-break handling, and power-loss memory with auto-stop capabilities. Precision specifications meet GB 7926-87 standards with X-axis positioning accuracy of ±0.015mm and Y-axis positioning accuracy of ±0.02mm. The robust construction features a high-precision linear guideway system, central lubrication, and U.S.A. Emerson inverter technology ensuring stable wire winding. The modular design cabinet facilitates easy maintenance and troubleshooting. Operating parameters range from 5-40°C ambient temperature with 40-80% relative humidity tolerance, making this system suitable for precision manufacturing environments requiring consistent dimensional accuracy.

Technical Attributes

X-Axis Travel
12.6 ''
Z-Axis Travel
16.50 ''
Y-Axis Travel
15.7 ''

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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