KITAKO MT4-125 HORIZONTAL MACHINING CENTER

Equipment Overview
Share Link- OEM
- KITAKO
- Model
- MT4-125
- Year of Manufacture
- -
- Category
- HORIZONTAL MACHINING CENTERS
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A+Technical Description
The KITAKO MT4-125 Horizontal Machining Center features dual main spindles, each with a maximum turning diameter of 4.92 inches and a turning length of 4.33 inches, powered by 10 HP motors and running up to 5,000 RPM. Both spindles use A2-5 taper chucks with a max swing of 5.0 inches and 6.0-inch chuck diameters. It supports simultaneous machining with two tool carriers, each a turret type, equipped with up to 8 turning tools and 8 rotary tools, allowing for versatile and efficient multitasking. The machine operates with four axes, including an X-axis travel of 6.69 inches and a Z-axis travel of 9.84 inches, both with a rapid feed rate of 394 inches per minute. The MT4-125 is equipped with Fanuc 18-T CNC controls, ensuring precision and programmability. The design supports high-speed and high-power machining suitable for small to medium-sized complex parts requiring multitasking turning and milling operations. The rigid construction and dual spindle configuration enable simultaneous dual-side machining, improving productivity and cycle times. Overall, this compact machining center combines precision, power, and versatility ideal for demanding production environments where multi-axis turning, milling, and complex part processing are required. Its advanced tool capacity, simultaneous cutting capability, and robust spindle power make it suitable for aerospace, automotive, and precision engineering applications.
Technical Attributes
- Max Spindle Speed
- 5,000.00
- X-Axis Travel
- 6.69 ''
- # of Axes
- 4.00
- Z-Axis Travel
- 9.84 ''
- Spindle Power
- 10.00 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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