NHR10-D
The NHR10-D Horizontal Machining Center is designed to deliver high rigidity, precision, and machining stability for demanding industrial applications. Built with a T-shaped bed structure, gantry-type column design, and front-mounted box layout, the machine provides excellent structural strength and vibration resistance, enabling accurate machining of complex box-type components. It is suitable for both heavy rough machining and high-precision finishing operations, ensuring consistent performance in continuous production environments.
This machining center is widely used in industries such as automotive, rail transportation, aerospace, valve manufacturing, mining equipment, textile machinery, plastic processing, shipbuilding, and power generation. An optional W-axis with a 535 mm stroke and 130 mm diameter is available to enhance machining flexibility and accommodate more complex components.
Technical Specifications
Work Range (X / Y / Z):
1800 / 1500 / 1350 mm
Rapid Traverse Speed (X / Y / Z):
24 / 20 / 24 m/min
Spindle Speed:
8000 rpm
Spindle Power:
22 / 26 kW
Spindle Torque:
837 / 989 Nm
Key Highlights
High-Performance Main Drive
The spindle system uses a two-stage gear transmission designed to provide high torque at lower speeds, supported by durable bearings to handle demanding heavy-cutting operations.
Optional W-Axis Capability The optional W-axis offers 535 mm travel with a 130 mm diameter, guided by precision linear rails and powered by a servo-driven ball screw system for accurate positioning.
Rigid Y-Axis Guideway Design
The hardened and precision-ground guideways feature a large cross-section and multiple contact surfaces, ensuring excellent rigidity and balanced thermal deformation for stable machining accuracy.
Robotic Tool Magazine System
The machine incorporates an advanced robotic tool magazine based on proven Japanese technology, enabling smooth and reliable automatic tool changes during machining operations.
Efficient Chip Removal System
Various chip evacuation options are available to support different materials and machining conditions, helping maintain clean operation and improved production efficiency.
