KITAMURA H300 HORIZONTAL MACHINING CENTER

Equipment Overview
Share Link- OEM
- KITAMURA
- Model
- H300
- Year of Manufacture
- -
- Category
- HORIZONTAL MACHINING CENTERS
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A+Technical Description
The Kitamura H300 Horizontal Machining Center is a robust CNC machine designed for precision and high-efficiency machining. It features a 12" x 12" pallet size with X, Y, and Z-axis travels of 15.7", 16.7", and 15.7" respectively, enabling versatile machining capabilities within a compact footprint. The spindle delivers up to 10,000 RPM with a powerful 10 hp motor and accepts #40 taper tooling, supported by a 100-tool automatic tool changer to enhance productivity and reduce downtime. This model operates on a 4-axis configuration, suitable for complex part geometries and efficient multi-axis machining workflows. Weighing 14,500 lbs, it ensures structural rigidity and stability during high-speed operations. The H300’s combination of a moderate spindle speed, substantial tool capacity, and substantial travel ranges makes it suitable for medium-sized production runs and industries requiring reliable, precise horizontal machining processes. It is commonly applied in sectors such as aerospace, automotive, and general manufacturing where accuracy and repeatability are critical. The machine integrates CNC controls (typically Fanuc Series 15-M), offering precise motion control and programmability. Overall, the Kitamura H300 balances compactness, versatility, and performance for demanding horizontal machining center applications.
Technical Attributes
- X-Axis Travel
- 12.00 ''
- # of Axes
- 4.00
- Table Size (LxW)
- 10 x 10
- Spindle Power
- 10.00 HP
- Max Spindle Speed
- 15,000.00
- Spindle Taper
- BT 30
- Z-Axis Travel
- 13.00 ''
- Y-Axis Travel
- 12.00 ''
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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