A compact edgebanding machine that combines essential features with high automation for modern cabinet makers. The AURIGA series features the optimized Glu Jet application system ensuring perfect edge appearance with hybrid technology.
The AURIGA Series Edgebander is a compact, automated edge banding system designed for cabinet and furniture manufacturers seeking reliable, efficient edge application without requiring extensive floor space or complex system integration. The machine consolidates essential edgebanding functions into a single unit while maintaining high operational consistency for modern production environments. The AURIGA's core differentiator is its optimized Glu Jet application system, which employs hybrid adhesive technology to ensure consistent glue distribution and perfect edge-to-substrate bonding. This system guarantees optimal interaction between adhesive flow, edging material properties, and panel surface texture, reducing application defects and material waste. The compact design does not compromise automation—the machine concentrates functionality on high-frequency tasks (edge application, trimming, and edge finishing) while remaining accessible for quick changeovers between edge stock types and panel dimensions. The AURIGA Series serves small to medium cabinet shops and furniture manufacturers producing runs of 50–500+ units per month across solid wood and engineered panels. It accommodates standard edge banding widths and handles both pre-glued and raw edge materials. The machine is ideal for workshops with limited floor space but production demands exceeding manual edge application capacity—typically those operating 2–3 shifts and requiring edge quality parity across batch runs. Within its category, the AURIGA positions itself as a mid-range solution between manual edge banders and fully integrated multi-station systems. It prioritizes reliable glue application and edge alignment over maximum throughput, making it suitable for shops where edge quality and material consistency matter more than peak hourly output.