Robotic Laser Workstations
Robotic Laser Workstations are configured for processing smaller-sized 3D parts where the articulated capabilities of a six-axis robot are the most cost-effective choice of motion system. Robotic Workstations are integrated with IPG high power fiber lasers offering the highest wall plug efficiencies, best warranties and zero maintenance enabling the lowest operating costs and highest tool availability.
Robotic Laser Workstations are highly configurable and typically use a six-axis robot to manipulate the laser processing head. Additional coordinated part motion or part loading options such as indexing tables are available.
The Automated Laser Processing System (ALPS) is a Class-1 laser processing chamber fed by a six-axis robot that also provides part motion during processing. With options that include collaborative robots, this workstation can be integrated into any manufacturing line, providing easy automation of laser processing steps.
The processing chamber can be fitted with up to four different processing heads, making this a truly multi-function laser processing system.
This Remote Scanning Workstation integrates a high power fiber laser, 2D scanning head and robot motion system into a fully-automated, highly flexible laser workstation for high-speed processing of thin metal sheets and foils. Perfect for remote welding, foil cutting and laser cleaning applications.
Both customized and pre-engineered robotic laser systems are available through Genesis Systems, an IPG Photonics Company.
Genesis specializes in factory automation with robots for integrated robotic arc and spot welding in addition to laser welding and cutting. For over 35 years, Genesis has designed, engineered, manufactured as well as supported integrated robotic solutions for general industry, transportation and aviation applications.
The mission of Genesis is to help customers win the productivity race utilizing virtual reality immersive simulation, heat distortion analysis, variation simulation analysis and robotic system simulation to ensure these techniques improve part quality, increase throughput and maximize human productivity.