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Technological robot-Machine tool collaboration for agile production.

Markus Wabner1, Hendrik Rentzsch1, Steffen Ihlenfeldt1

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Summary
This summary is machine-generated.

Industrial robots and machine tools working together boost production flexibility and efficiency. This collaboration enables robots to perform advanced manufacturing tasks, enhancing workpiece machining and improving overall profitability.

Keywords:
agile manufacturingcollaborationmachiningmatrix productionrobot machining

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Area of Science:

  • Manufacturing Engineering
  • Robotics
  • Automation

Background:

  • Traditional manufacturing relies on separate robot handling and machine tool operations.
  • Integrating robots with machine tools offers potential for enhanced production capabilities.
  • Current systems lack the flexibility for diverse manufacturing needs.

Purpose of the Study:

  • To present an approach for integrating industrial robots and machine tools for enhanced parts production.
  • To explore various configurations of robot-machine tool cooperation.
  • To develop a novel collaborative manufacturing equipment for improved production outcomes.

Main Methods:

  • Utilizing industrial robots for both classic handling and advanced manufacturing tasks alongside machine tools.
  • Implementing cooperative machining in configurations such as pre-machining, final machining, sequential machining, and parallel synchronized machining.
  • Developing a novel collaborative manufacturing equipment.

Main Results:

  • Demonstrated significant increases in flexibility and efficiency in parts production.
  • Showcased robots enhancing machine tools with additional manufacturing technologies to support workpiece machining.
  • Enabled various cooperative machining configurations, including parallel and synchronized operations.
  • Introduced a novel type of collaborative manufacturing equipment.

Conclusions:

  • Technological cooperation between industrial robots and machine tools significantly enhances production flexibility and efficiency.
  • The presented approach enables robots to augment machine tools with advanced manufacturing capabilities, supporting workpiece machining.
  • The developed collaborative manufacturing equipment improves versatility, efficiency, and profitability in matrix production.