LK MACHINERY HT-630SP HORIZONTAL MACHINING CENTER

LK MACHINERY HT-630SP LK MACHINERY HT-630SP HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

Share Link
OEM
LK MACHINERY
Model
HT-630SP
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

Market Value Calculator

A+

Technical Description

The LK MACHINERY HT-630SP Horizontal Machining Center is a high-performance CNC machine designed for precision milling of complex workpieces. Featuring an X-axis travel of 41.339 inches and a Y-axis travel of 35.433 inches, it provides ample workspace for medium to large parts. The machine is equipped with a robust BT-50 tool taper, ensuring compatibility with a wide range of cutting tools and delivering reliable tool holding for heavy-duty applications. The spindle achieves a maximum speed of 8,000 RPM, enabling efficient material removal and fine surface finishes across various materials. The pallet measures 24.803 inches in both width and length, offering a stable and versatile workholding platform suitable for diverse production needs. Controlled by a CNC system, the HT-630SP ensures accurate, repeatable operations with seamless integration into automated manufacturing environments. Its horizontal spindle orientation facilitates effective chip evacuation, reducing the risk of re-cutting and enhancing both tool life and part quality. The machine’s rigid construction supports high-speed machining while maintaining dimensional accuracy and minimizing vibration. Designed for productivity and reliability, the HT-630SP is ideal for industries requiring consistent, high-precision machining of complex components.

Technical Attributes

Z-Axis Travel
39.37 ''
Max Spindle Speed
8,000.00
Y-Axis Travel
35.43 ''
Control System
FANUC 0I-MF
X-Axis Travel
41.34 ''
Table Size (LxW)
24.803 x 24.803

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.

If you identify any inaccuracies, please help us improve our data by reporting them here.