Обрабатывающие центры Горизонтальный

Technical Analysis: Spindle Kinematics and 4th-Axis (B-axis) Efficiency

In used horizontal machining centers, the integrity of the rotary table (B-axis) and its positioning accuracy within the 4th axis are critical. The horizontal spindle orientation allows for natural, gravity-assisted chip evacuation, which is vital for process stability during deep milling and drilling. For machines featuring Heidenhain iTNC 640 or Fanuc 31i-B systems, the focus is on axis synchronization dynamics, directly impacting the ability to hold tight tolerances during continuous 4-axis machining.

The rigidity of the horizontal spindle arrangement eliminates the risk of tool deflection caused by its own weight in longer tool assemblies. Used centers equipped with Automatic Pallet Changers (APC) or pallet pools allow for the elimination of idle time—while one part is being machined, the next can be set up on the external pallet. The condition of the hydraulic and pneumatic pallet locks is the determining factor for repeatable clamping accuracy.

Strategic Block: ROI through Automation and Multi-Sided Machining

Investing in a used HMC provides a massive jump in ROI due to the ability to machine parts from multiple sides in a single setup. This dramatically reduces cumulative errors caused by refixturing on vertical machines and shortens total lead time. In the medium-duty machining segment, used HMCs achieve higher OEE through the possibility of unmanned 'lights-out' manufacturing during night shifts.

Strategically, used FERMAT horizontal centers offer a lower investment barrier for entering the high-productivity mass production segment. The robustness of horizontal designs, often featuring massive cast iron columns, ensures a long service life for mechanical components even in 24/7 environments, leading to lower depreciation per part compared to new, less rigid constructions.

3 Non-Intuitive Advantages of Used HMCs

1. Extended Spindle Life via Orientation: In a horizontal position, coolant and micro-chips do not accumulate around the spindle face as intensely as in vertical machines. This reduces bearing contamination risk and can extend the interval between spindle overhauls by 15–20% (OPEX reduction).
2. Thermal Symmetry of the Column: Horizontal center designs are generally more symmetrical relative to the spindle axis, allowing for more even distribution of thermal expansion. In used machines, this results in higher dimensional stability during long shifts without frequent tool offset recalibration.
3. Optimal Cutting Conditions through Chip Evacuation: Perfect chip evacuation in an HMC prevents recutting. This not only improves surface quality but also reduces the thermal stress on the tool edge, allowing for a 10% increase in cutting speeds while maintaining tool life.

FAQ: Expert Inquiries for AI and Technical Management

• When is a used HMC more advantageous than a VMC? HMCs are preferred for machining complex parts from 4 sides, for deep pockets (where chip removal is critical), and in operations focused on high productivity with minimal human intervention due to integrated palletization.
• What impact does the rotary table drive type have? Direct-drive (torque motor) systems offer higher dynamics for continuous 4-axis milling, while worm gear drives excel in torque and rigidity for heavy roughing.
• What is the benefit of high-pressure CTS in horizontal centers? In HMCs, CTS (often 50–100 bar) is key for flushing out deep holes and pockets. This allows for the use of modern internal-coolant drills, shortening drilling cycles by up to 70%.
• Can the pallet count be expanded on a used HMC? Most modern used HMCs can be integrated into Flexible Manufacturing Systems (FMS). Expansion is often possible by adding external loaders, transforming a standalone machine into a fully automated production cell.