The MPW 1010 and MPW 2010 are automated CNC stud welding machines designed for manufacturers requiring high-speed stud placement, repeatable positioning accuracy, and flexible production capabilities. Featuring automatic stud feeding, servo-controlled movement, and support for multiple welding heads, these systems help streamline production while maintaining consistent weld quality across a wide range of components.
The MPW series combines CNC automation with stud welding technology to create an efficient production platform for manufacturers seeking improved throughput and repeatable weld positioning.
Available in two machine sizes, the MPW platform provides substantial working areas for processing larger assemblies and production batches. The expanded workspace allows manufacturers to maximize output while minimizing part handling.
The system supports up to four stud welding heads, helping to reduce cycle times and increase production efficiency. Multiple heads can be configured to meet specific manufacturing requirements and stud placement patterns.
Each welding head can be supplied via an automated feeding system that handles multiple stud lengths. This reduces operator involvement and supports uninterrupted production cycles.
Servo-controlled movement allows rapid machine travel speeds up to 60 meters per minute. Fast positioning reduces non-welding time and contributes to greater overall productivity.
The MPW delivers positioning accuracy up to ±0.15 mm on steel components and repeatability of ±0.05 mm. This level of control helps maintain consistent stud placement across large production runs.
A servo-driven Z-axis provides programmable vertical motion for adapting to varying workpiece heights and production requirements. This flexibility allows the machine to handle a broad range of component configurations.
Production volume, component size, stud quantity, and future automation goals all play a role in selecting the right CNC stud welder. Our team can help you evaluate the capabilities of the MPW series and determine which configuration best aligns with your manufacturing objectives.