Heavy duty universal cylindrical grinding machine
max. ø 320 mm | GUH CNC series
PARAGON MACHINERY CO., LTD.
CNC Series (Heavy Duty)
GUH-3580CNC\GUH-3540CNC
Features
* The new generation CNC universal cylindrical grinding machine (Heavy-Duty) GUH CNC Series by PARAGON is especially designed for high-speed grinding, offering greater capabilities than the GU CNC Series. This innovative designed machine with optimal and sturdy components can provide long service life and less down time, will bring you a new grinding experience.
* X-axis and Z-axis greater span of guideways afford larger load capacity than GU CNC Series.
* Time-saving and high efficiency in cycle and setup. The machine can accommodate an extra large grinding wheel with 610 mm diameter and 160 mm width which can complete multi-steps machining at one time, greatly shortening operation time and assuring high rigidity and precision.
* Larger grinding wheel spindle. (∮115x741mm)
* Z-Axis class C1 ballscrew is temperature controlled by circulating coolant achieving minimum thermal displacement effect and greater accuracy.
* Rigid and precise hydrostatic-hydrodynamic hybrid bearings on angular wheelhead.
GUH-3580CNC\GUH-3540CNC
Features
* The new generation CNC universal cylindrical grinding machine (Heavy-Duty) GUH CNC Series by PARAGON is especially designed for high-speed grinding, offering greater capabilities than the GU CNC Series. This innovative designed machine with optimal and sturdy components can provide long service life and less down time, will bring you a new grinding experience.
* X-axis and Z-axis greater span of guideways afford larger load capacity than GU CNC Series.
* Time-saving and high efficiency in cycle and setup. The machine can accommodate an extra large grinding wheel with 610 mm diameter and 160 mm width which can complete multi-steps machining at one time, greatly shortening operation time and assuring high rigidity and precision.
* Larger grinding wheel spindle. (∮115x741mm)
* Z-Axis class C1 ballscrew is temperature controlled by circulating coolant achieving minimum thermal displacement effect and greater accuracy.
* Rigid and precise hydrostatic-hydrodynamic hybrid bearings on angular wheelhead.
