CNC Precision Cylindrical Grinding Machine OGM-NCⅢ/UNCⅢ series

SERIES line-up

OGM330NCAGⅢ・OGM350NCAGⅢ・OGM360NCAGⅢ

Concept

Faster Grinding time with O.D. & Face grinding or step grinding work as simultaneously    

Feature

    • Enhanced Spindle Rigidity: Angular contact ball bearings are used on the spindle to improve axial rigidity during face grinding. The radial axis maintains high rigidity, allowing for effective grinding of hard materials without deformation.

    • Optimized Spindle Angle: The spindle is fixed at a 30-degree angle to the right, enabling the use of a longer grinding wheel. This configuration allows simultaneous grinding of the face and outer diameter (O.D.), increasing efficiency.

    • Versatile Grinding Features: The machine includes an interrupt dress function and a manual grinding mode, making it suitable for single-lot production while still being optimized for mass production applications.

Uses of the CNC Precision Cylindrical Grinding Machine OGM-NCAGⅢ Series

 
  • The OGM-NCAGⅢ Series CNC Precision Cylindrical Grinding Machine is designed for high-accuracy and efficient grinding, catering to industries that demand precision and flexibility. Its advanced features make it ideal for a wide range of applications, enhancing productivity and achieving superior surface finishes. Below are its primary uses:

    1. Precision Grinding of Cylindrical Parts

    • Delivers exceptional accuracy in grinding shafts, rods, and spindles for applications in automotive, aerospace, and engineering industries.
    • Ensures consistency and dimensional precision for both small-batch and mass production needs.

    2. Tool and Die Manufacturing

    • Used to produce and regrind cutting tools, dies, and punches.
    • Offers precise control for complex geometries, ensuring high durability and performance of tools.

    3. Medical Component Fabrication

    • Suitable for grinding biocompatible materials used in medical devices, such as surgical tools, prosthetics, and implants.
    • Provides the necessary precision for critical medical applications.

    4. Mold and Die Applications

    • Perfect for producing and maintaining molds and dies used in injection molding, stamping, and forging processes.
    • Delivers the accuracy required for intricate designs and fine details.

    5. Grinding of Hard Materials

    • Capable of handling tough-to-machine materials, such as carbide, ceramics, and hardened steels.
    • Maintains precision and surface integrity even when working with high-hardness materials.

    6. High-Quality Surface Finishes

    • Provides superior surface finishes, reducing friction and improving part performance.
    • Commonly applied to components like bearings, rollers, and seals.

    7. Multi-Step Grinding Processes

    • Ideal for complex grinding tasks, including stepped, tapered, or contoured parts.
    • Offers synchronized multi-axis capabilities for intricate profiles and geometries.

    8. Aerospace Component Manufacturing

    • Used in the production of turbine shafts, jet engine components, and precision hydraulic parts.
    • Meets the high standards of accuracy and reliability required in aerospace applications.

    9. Automotive Industry Applications

    • Produces camshafts, crankshafts, and transmission components with high precision.
    • Ensures consistent quality for parts critical to vehicle performance and safety.

    10. Flexible Production Capabilities

    • Offers easy switching between single-lot and mass production grinding, catering to both custom orders and high-volume manufacturing.
    • Simplifies complex operations with user-friendly controls and automated features.