Product Description
VMC850L High Speed 4 Axis VMC Machine Cost CNC Vertical MachiningSpindle Unit of VMC machine center: The spindle has a speed of 8000rpm, driven by a servo motor, and provides a power of 7.5Kw and a torque of 35.8Nm.
GSK 218 Control System: It adopts the GSK 218 control system, offering stable and reliable control and operation interface.
Taiwan 24-Tool Automatic Tool Changer (ATC): Equipped with a 24-tool automatic tool changer system manufactured in Taiwan. It enables fast and accurate tool changes.
Taiwan HIWIN Ball Screws: Utilizing HIWIN brand ball screws from Taiwan, it ensures high precision, low friction, and long lifespan, guaranteeing the motion accuracy and stability of the machine.
Taiwan HIWIN Linear Guides: Employing Taiwan HIWIN linear guides, it features high rigidity, high precision, and low friction, providing smooth and precise movement of the worktable.
Manual Handwheel: Equipped with a manual handwheel, it facilitates manual operations and positioning by the operator.
Precision and Performance CombinedDesigned for demanding industrial applications, the VMC850L delivers high precision (0.005 mm) and remarkable repeatability (0.004 mm), thanks to its rigid cast iron construction and advanced CNC control. Its 4-axis capability enables complex machining and efficient workflow, making it an excellent investment for those who value speed and accuracy in high-volume production.
Versatile ApplicationsThis vertical machining center is tailored for industries such as automotive, aerospace, and general engineering. Its generous table size (1000 x 500 mm) and versatile spindle speeds accommodate an array of materials and tasks-from heavy-duty milling to precise tapping-making it the go-to solution for diverse manufacturing environments.
Enhanced Automation & EfficiencyEquipped with a 24-tool automatic changer, integrated chip conveyor, and high flow coolant system, the VMC850L maximizes productivity and minimizes downtime. Its fully automatic operation and support for leading CNC controls (FANUC, Siemens, Mitsubishi) ensure fast setup, reliable performance, and user-friendly process management.
FAQ's of VMC850L High Speed 4 Axis VMC Machine Cost CNC Vertical Machining:
Q: How is the VMC850L suited for high-precision machining tasks?
A: The VMC850L is engineered with a rigid cast iron body, high-speed BT40 spindle, and advanced CNC control systems, allowing it to deliver positioning accuracy of 0.005 mm and repeatability of 0.004 mm. This makes it adept at tasks demanding exceptional precision, such as mould making and complex component manufacturing.
Q: What types of industries can benefit most from the VMC850L?
A: Industries like automotive, aerospace, mould, and general engineering gain significant value from the VMC850L. Its robust build, large table, and high-speed capabilities make it suitable for precision parts production and heavy-duty fabrication projects.
Q: When should the optional 12,000 rpm spindle be considered?
A: The optional 12,000 rpm spindle is ideal for applications requiring finer surface finishes, high-speed cutting of softer materials, or increased productivity through faster cycle times. It is especially beneficial in aerospace and high-volume parts manufacturing.
Q: Where can the VMC850L be installed and what are the requirements?
A: The VMC850L is suitable for installation in manufacturing plants, automotive workshops, and engineering facilities. It requires a 380V or 415V 3-phase power supply, adequate space for its 2600 x 2200 x 2700 mm footprint, and air supply at 0.5 - 0.8 MPa for its tool changer and coolant system.
Q: What is the process for tool changing on this VMC?
A: This machine comes with an automatic tool changer (ATC) accommodating 24 tools. The ATC operates via a rotary mechanism with air pressure, enabling swift and efficient tool changes during machining operations, reducing manual intervention and downtime.
Q: How does the integrated chip conveyor and coolant system enhance machining efficiency?
A: The high-flow coolant system and chip conveyor work together to remove chips and manage heat during operations, keeping the work area clean and preventing tool wear. This results in smoother operations, better surface finishes, and extended machine longevity.