Difference between revisions of "Directory:Rimrock Automation/Robotic Multiple Part Handling Automation"
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==Robotic Multiple Part Handling Automation Systems== | ==Robotic Multiple Part Handling Automation Systems== | ||
− | Rimrock mechanical & electrical design team has experience designing multiple part handling end of arm tooling to meet your robotic handling needs. The majority of Rimrock’s automated handling systems utilize multiple part grippers, due to their ability to reduce operation cycle times, increase robot utilization, & increase throughput. By design, robotic part handling applications are part to tool based. Typical end of arm tooling mechanisms include vacuum cups or pneumatic grippers, and is largely dependent on part size, weight, & surface conditions. | + | Rimrock's mechanical & electrical design team has experience designing multiple part handling end of arm tooling to meet your robotic handling needs. The majority of Rimrock’s automated handling systems utilize multiple part grippers, due to their ability to reduce operation cycle times, increase robot utilization, & increase throughput. By design, robotic part handling applications are part to tool based. Typical end of arm tooling mechanisms include vacuum cups or pneumatic grippers, and is largely dependent on part size, weight, & surface conditions. |
Latest revision as of 20:42, 27 February 2007
Robotic Multiple Part Handling Automation Systems
Rimrock's mechanical & electrical design team has experience designing multiple part handling end of arm tooling to meet your robotic handling needs. The majority of Rimrock’s automated handling systems utilize multiple part grippers, due to their ability to reduce operation cycle times, increase robot utilization, & increase throughput. By design, robotic part handling applications are part to tool based. Typical end of arm tooling mechanisms include vacuum cups or pneumatic grippers, and is largely dependent on part size, weight, & surface conditions.