Difference between revisions of "Directory:Rimrock Automation/Robotic Buffing Automation"
MyWikiBiz, Author Your Legacy — Friday November 08, 2024
Jump to navigationJump to searchLine 1: | Line 1: | ||
− | Robotic buffing can be performed on metal, plastic, & wood parts. Robotic buffing applications are usually performed with a part to tool based system design, meaning the robot holds the part & presents it to buffing machinery. Typical end of arm tooling mechanisms include vacuum cups or pneumatic grippers, and is largely dependent on part size, weight, & surface conditions. | + | Robotic buffing can be performed on metal, plastic, & wood parts. Robotic buffing applications are usually performed with a part to tool based robot system design, meaning the robot holds the part & presents it to buffing machinery. Typical end of arm tooling mechanisms include vacuum cups or pneumatic grippers, and is largely dependent on part size, weight, & surface conditions. |
− | In some instances, such as for large & heavy parts, a tool to part based system design is necessary. | + | In some instances, such as for large & heavy parts, a tool to part based robot system design is necessary. |
Latest revision as of 19:59, 21 February 2007
Robotic buffing can be performed on metal, plastic, & wood parts. Robotic buffing applications are usually performed with a part to tool based robot system design, meaning the robot holds the part & presents it to buffing machinery. Typical end of arm tooling mechanisms include vacuum cups or pneumatic grippers, and is largely dependent on part size, weight, & surface conditions.
In some instances, such as for large & heavy parts, a tool to part based robot system design is necessary.