Advanced CNC machining centre with double drilling head that reduces drilling cycles by 70% compared to competing models. Designed for routing, drilling, and edgebanding operations on solid wood elements.
The Morbidelli M220 is a high-performance CNC machining centre engineered for multi-operation processing of solid wood components and panel-based materials. This machine consolidates routing, drilling, and edgebanding operations into a single integrated platform, eliminating secondary handling and reducing overall cycle times in production workflows. The M220's architecture centres on a dual-spindle drilling system with up to 34 independent vertical spindles and 22 horizontal spindles operating at 8000 rpm, complemented by a 15 kW routing unit capable of 24000 rpm. This configuration enables simultaneous multi-point drilling across workpieces while maintaining precision tolerances. The machine offers three working area options (3110×1620, 3710×1620, or 5510×1620 mm) to accommodate varying component sizes, with vectorial speeds reaching 78 m/min in Pro-Speed mode and a 60-place tool changer for flexible operation. The Z-axis panel passage of 180 mm accommodates thicker stock and edge-banding applications. The M220 is purpose-built for medium to large-scale production environments processing solid wood elements, including cabinet components, furniture frames, door panels, and architectural millwork. The machine excels in batch production scenarios where drilling pattern complexity and drilling cycle efficiency directly impact throughput. Its auxiliary 4.5 kW routing unit with integrated 0-90° blade functionality adds moulding and edge-profiling capability without requiring tool changes. Within its class, the M220 distinguishes itself through the density and independence of its drilling head configuration, which reduces drilling cycles significantly compared to sequential single-spindle approaches. This makes it particularly suited to producers managing high component SKU variety with consistent drilling requirements, where capital investment in dedicated automation is justified by elimination of manual positioning.