Supplementary materials and video files

Citation Author(s):
Yong-Sin
Seo
Jae-Young
Lee
Chanhun
Park
Jongwoo
Park
Byung-Kil
Han
Je-Sung
Koh
Uikyum
Kim
Hugo
Rodrigue
Jeongae
Bak
Sung-Hyuk
Song
Korea Institute of Machinery and Materials
Submitted by:
Sung-Hyuk Song
Last updated:
Wed, 05/03/2023 - 05:15
DOI:
10.1109/TIE.2023.3265032
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Abstract 

Astrictive-type grippers, which generate gripping forces from adhesive forces at the contact surface such as suction cup, are popular end-effectors as picking solutions because of their simplicity and small working space. However, the adhesive force of the astrictive gripper decreases with increasing complexity of the object surface; thus, its application has been restricted to simple picking of objects with a flat surface. Here, we present an all-round honeycomb astrictive gripper that has an orthotropic surface tension for grasping highly irregular shaped objects with an uneven surface. The design is inspired by mimicking the two-level (macro- and meso-scale) shape adaptation of the octopus’s leg. The stiffness-variable structure is also consisted to change its stiffness similar to the function of octopus’s leg, and owing to the combination of these structures makes possible to perform various tasks including hammering, breakfast serving, and vaccination which were not possible for previous astrictive gripper.

Instructions: 

These are the supplementary video files of submission for IEEE Transactions on Industrial Electronics.

Funding Agency: 
The Basic Research Program funded by the Korea Institute of Machinery and Materials, Ministry of Trade, Industry and Energy, Korea Government
Grant Number: 
NK239C, NK244F, 20012602

Comments

IEEE Transactions on Industrial Electronics
https://ieeexplore.ieee.org/document/10100664

Digital Object Identifier: 10.1109/TIE.2023.3265032
Print ISSN: 0278-0046 Online ISSN: 1557-9948

Submitted by Sung-Hyuk Song on Wed, 04/12/2023 - 10:57