TAKISAWA TX-20 HORIZONTAL MACHINING CENTER

TAKISAWA TX-20 TAKISAWA TX-20 HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
TAKISAWA
Model
TX-20
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

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Technical Description

The Takisawa TX-20 Horizontal Machining Center is a precision-engineered CNC lathe designed for high-efficiency turning operations in demanding production environments. It features a single main spindle with a maximum turning diameter of 9.500 inches and a maximum turning length of 9.800 inches, accommodating a wide range of workpiece sizes. The machine is equipped with an 8-inch chuck, providing secure workholding for various applications. The main spindle delivers up to 3,200 RPM standard, with an optional high-speed configuration reaching 6,300 RPM, and is powered by a 10 HP motor for robust performance. The TX-20 utilizes a turret-style primary tool carrier, supporting up to 8 tools, with the capability for one simultaneous cutting tool operation. The machine operates on a 2-axis system, with X-axis travel of 5.500 inches and Z-axis travel of 12.600 inches, ensuring precise positioning and repeatability. Both X and Z axes offer a maximum feed rate of 195 inches per minute and rapid traverse speeds of 590 inches per minute, enhancing productivity and reducing cycle times. The TX-20’s compact design and reliable construction make it suitable for small to medium-sized workshops, while its advanced control system and tooling options ensure consistent accuracy and versatility for a variety of materials and part geometries.

Technical Attributes

# of Axes
2.00
Max Spindle Speed
3,200.00
Z-Axis Travel
12.60 ''
Spindle Power
10.00 HP
X-Axis Travel
5.50 ''

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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