Robotic Lance Blasting System Enables Precision Grit Blasting

To enable processing of components with different surface roughness specifications, the custom blast machine is designed with an enhanced media reclamation and delivery system for two different grit sizes.

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Guyson Corp.’s Robotic Lance Blasting System is designed with an extended lance nozzle for precision grit blasting and surface preparation of the inside diameters of industrial gas turbine components in manufacturing and repair operations. A Fanuc M-710iC robot is integrated into the blast system as the lance manipulator in an expanded process chamber with a servomotor-driven rotary table that is controlled as an auxiliary axis of robotic motion. To enable processing of components with different surface roughness specifications, the custom blast machine is designed with an enhanced media reclamation and delivery system for two different grit sizes, including a separate cyclone separator, classifier and pressure pot for each.

The change-over from one grit size to the other is accomplished in less than five minutes, and the selected media, as well as the status of all valves and elements of the media delivery system is automatically detected and displayed at the touch screen human-machine interface. A 500-pound-capacity jib hoist is mounted over the crane slot in the roof of the blast cabinet to facilitate safe and convenient loading of heavy work pieces. Custom-designed interchangeable fixtures with locator pins and quick-change hardware accurately secure the work in the correct position for repeatable robotic blasting.

In addition to the full width loading door at the front of the cabinet, there are smaller doors on both sides of the blast chamber to enable easy access for inspection and maintenance. The interior of the cabinet is lined with bonded rubber sheathing for abrasion resistance. A sheet rubber curtain can be hung over the view windows on all doors to prevent frosting by harsh abrasive grit media.

The robot motion program was created using customer-supplied solid models of the components and fixtures. The entire blast system was also solid modeled and all the data brought together using advanced offline robot programming software to generate the robot tool path. Nozzle stand-off, lead and lag can thus be adjusted with a quick parameter change. This method of program development offers a time advantage over teach pendant programming, and for robotic blast systems in production use, the benefit of not idling the machine.

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