High-performance CNC machining center for precision drilling and grooving operations. Features advanced drilling technology with multiple spindle configurations and flexible tool changing systems.
The CENTATEQ P-110 is a modular CNC machining center purpose-built for high-volume drilling and grooving operations in woodworking production. It serves as a processing station for component preparation, handling tasks ranging from multi-point drilling arrays to precision groove machining across solid wood and engineered panels. The machine's technical foundation rests on configurable spindle arrangements—available in 18 or 33 drilling spindles depending on production requirements—paired with dual grooving saw options (100 mm or 125 mm widths) to accommodate varying material thicknesses and groove profiles. The high-speed spindle operates at 7500 rpm, enabling efficient material removal while the modular tool changer system offers 8-fold or 14-fold capacity with an additional 10-slot magazine extension, reducing changeover time in multi-operation workflows. An optional 5-axis head (DRIVE5CS) upgrades capability for complex angled drilling and three-dimensional machining without repositioning stock. The P-110 targets medium to industrial woodworking operations processing 50+ components daily, particularly manufacturers handling cabinet components, solid wood furniture parts, and panel-based construction elements requiring consistent hole placement and profile grooving. Its modular design allows capacity scaling—shops can begin with 18 spindles and expand to 33-spindle configuration as production volume increases, making it suitable for growth-phase manufacturers and established batch production facilities. Within its class, the P-110 competes through flexibility rather than specialization: unlike single-function drilling heads, it integrates sawing capability; unlike universal machining centers, it optimizes for the high-repetition drilling cycles characteristic of German furniture production. The maintenance-free design typical of HOMAG engineering reduces downtime, a critical factor in facilities running extended shifts across multiple shifts.