The DMC-050 Series Profile Machining Center is specifically designed around North American PVC window systems to perform all cutting, milling, drilling and marking operations required for the processing of vinyl lineal profiles. The DMC-050-00 has a dual lineal feed system for processing frame profiles and the DMC-050-10 can process up to four sash profiles concurrently. As lineal processing is fully automated and CNC controlled, each machine requires only one operator to load PVC lineals and unload fully processed sash/frame profiles.
These multi-axis machines optimize the processing of window frame and sash components by incorporating CNC automation tied directly to a fabricators ERP integrated manufacturing system. Fully automated processing reduces component staging, material handling and labor input. Other features include vertical pneumatic clamping, scrap evacuation conveyor system, digital data error message monitoring and bar code labeling.
MAC 440 Machining Center is designed to perform standard operations on profiles such as milling, drilling, notching and marking, flowdrill and tapping, with computer control. The operations performed on more than one cutting machine are collected in a single machine, ensuring production speed and quality standardization, at the same time, labor cost is reduced.
The MAC 440 Profile Machining Center performs all operations on the profile with 0.1 mm precision with its ability to interpolate in 4 axes. The operation can be performed at all angles between + 120 ° and -120 ° continuously in the A axis.
The wide profile processing capacity is capable of processing profiles with different designs and sizes. System includes 10 tools and cutting blade, the tool change is automatic according to the process to be performed. Because the Tool Magazine is placed inside the machining head, MAC 440 can perform the tool change while it takes position for the next operation. With profile supports on the left and middle, MAC 440 can be used as two stations, thus allowing profile processing in one station while profile loading / unloading at the other station, thus increasing the production capacity up to 30%.