MAXIMUM STRENGTH CONSTRUCTION
Finite Element Method ( FEM )
The Finite Element Method ( FEM ) provides optimal machine design and light-weight structure advantage while ensuring super rigid of machine.
Super Rigid Casting Structure
The super rigid bed and column are of MEEHANITE casting. It is capable of withstanding much greater stress without deforming and provides maximum vibration dampening.
Reinforced Rib Column
Reinforced rib column integrated with cross rail stay firmed on the machine base that provide spindle head abundant support rigidity, also shorten the distance between tooling to the column and reduce tooling spindle overhang, strengthen processing rigidity.
High Precision Hand Scraping
Contact surfaces of all slides, bed and column are precision hand scraped to provide maximum assembly precision, structural rigidity, and load distribution.
Heavy Duty Ground Box Ways
Extra wide hardened and ground box ways on X, Z and W axes. They are precision machine and widely spaced for maximum strength. The box way design also provides the rigidity needed for heavy duty and interrupted turning applications.
W-axis Moving Cross Rail Mechanism
By W-axis moving ram to reduce the distance between tooling and beam, this can decrease square ram overhang, suitable for heavy cutting or disc type parts request.
W-axis travel |
---|
600 mm ( GV-1100 ) |
800 mm ( GV-1200 ~ GV-2000 ) |
Positioning & Clamping Mechanism
Positioning fixed device is composed of two sets of live locking bolts and four sets of hydraulic clamping devices which can provide abundant clamping force, decrease vibration when cutting, ensure processing accuracy.
High-Low Guide Way Design
Not only W-axis rail integrated with column, also use high-low guide way design to provide good anti-vibration capability, construction not deformed during heavy cutting.