로봇용 복합 유성기어 감속기 개발과 동력계를 이용한 성능평가

Translated title of the contribution: Development of a Compound Planetary Gearbox for Robot and Performance Evaluation Using Dynamometer

Jae Hong Lee, Jun Ki Hong, Soo Ho Woo, Soon Geul Lee

Research output: Contribution to journalArticlepeer-review

Abstract

Gearboxes used in the drivetrain of intelligent robots are key mechanical components that play a significant role in determining the performance of modern robotic systems. Gearboxes employing the planetary gear mechanism, known to achieve a wide range of reduction ratios while remaining relatively cost-effective, have recently been adopted in robot drivetrains. In this paper, we utilize domestic technology to fabricate a gearbox using a compound planetary gear mechanism and conduct an evaluation of eight performance aspects of the developed gearbox through the fabrication of a dynamometer and a jig. The dynamometer comprised of the gearbox, input motor, input-output torque sensors, and a powder brake. By driving the input motor and applying braking force with the powder brake, we compare input torque sensor values with output torque sensor values to derive results. A test jig is created, consisting of an input motor, gearbox, and encoder sensor, for the measurement of inverse operation characteristics and backlash. By conducting a performance evaluation of the developed high-strength, high-reduction-ratio compact planetary gearbox, we validate the potential of the testing system and extend the scope of domestic gearbox technology development.

Translated title of the contributionDevelopment of a Compound Planetary Gearbox for Robot and Performance Evaluation Using Dynamometer
Original languageKorean
Pages (from-to)163-168
Number of pages6
JournalJournal of the Korean Society for Precision Engineering
Volume41
Issue number3
DOIs
Publication statusPublished - Mar 2024

Bibliographical note

Publisher Copyright:
Copyright © The Korean Society for Precision Engineering.

Keywords

  • Compound planetary gearbox
  • Dynamometer
  • Gearbox
  • Jig
  • Performance

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