Tough machine structure The super rigid C-type machine structure, designed with the help from finite element analysis, minimizes any distortion which may occur from changes in machining environment and condition The box way design for all axes is perfect for vibration absorption during heavy duty machining,
Tough machine structure
The super rigid C-type machine structure, designed with the help from finite element analysis, minimizes any distortion which may occur from changes in machining environment and condition The box way design for all axes is perfect for vibration absorption during heavy duty machining,High-performance spindle The spindle's automatic two-speed transmission switches gears to generate extra torque at low rpm machining, excellent for working on those hard-to-cut workpieces. The spindle is grease-lubricated and jacket cooled to minimize the thermal displacement and to increase the life of the spindle assembly.
High-performance spindle
The spindle's automatic two-speed transmission switches gears to generate extra torque at low rpm machining, excellent for working on those hard-to-cut workpieces. The spindle is grease-lubricated and jacket cooled to minimize the thermal displacement and to increase the life of the spindle assembly.High-precision feed drive The feed surface is coated with fluorinated resin, and is hand-scraped to precision by Hwacheon master technicians to minimize the friction. To limit the distortion during the feed, 4-guide box way has been incorporated in the Y-axis, making the total width of the slide way wide to increase the bearing capacity and to decrease the surface area of friction. This optimizes the compressive force of the slide way, which translates to increased feed precision.
High-precision feed drive
The feed surface is coated with fluorinated resin, and is hand-scraped to precision by Hwacheon master technicians to minimize the friction. To limit the distortion during the feed, 4-guide box way has been incorporated in the Y-axis, making the total width of the slide way wide to increase the bearing capacity and to decrease the surface area of friction. This optimizes the compressive force of the slide way, which translates to increased feed precision.