An automatic throughfeed moulder designed for high-volume production and multiple shift operations. Ideal for companies requiring versatile solid wood processing capabilities for both large runs and small batches.
The Superset NT is an automatic throughfeed moulder engineered for continuous, high-volume solid wood processing. It functions as a multi-spindle profiling and shaping system capable of executing complex tooling operations in a single pass, making it suitable for manufacturers who require consistent dimensional accuracy and surface quality across extended production runs. The machine delivers exceptional operational flexibility through its configurable spindle architecture. With 4–8 available routing units, dual spindle diameters (40 mm and 50 mm), and rotating speeds up to 8500 rpm, the Superset NT accommodates profiling tools ranging from 100–200 mm in diameter. Feed speeds of 5–40 m/min allow operators to optimize throughput based on wood species, grain structure, and tool complexity. Working dimensions span 15–260 mm width and 6–200 mm thickness, enabling production of everything from small trim components to substantial structural elements without machine changeover. The Superset NT targets medium to industrial woodworking operations processing solid wood at scale. It is designed for workshops operating multiple shifts, where labor costs and machine utilization efficiency are critical factors. This class of moulder serves manufacturers of architectural millwork, cabinet components, furniture rails and stiles, door and window frames, and custom profiled lumber who require automated consistency without the capital outlay of fully integrated production lines. Within the throughfeed moulder category, the Superset NT balances versatility with production speed. Its multi-spindle configuration and adjustable feed rates position it between entry-level single-pass moulders and specialized production systems, offering manufacturers the ability to handle variable job specifications while maintaining competitive cycle times in competitive markets.