![]() ![]() Therefore, researchers have attempted to imitate various methods of insect locomotion, including walking 1, 2, 3, crawling 4, 5, 6, and jumping 7, 8, 9. Discovering the essence of their excellent environmental adaptability and locomotive ability can help broaden the human movement capabilities through the development of innovative mobility technology. ![]() Insects are the most prosperous group of terrestrial animals and have spread into nearly all environments on this planet. In coupling-type wings, the forewing and hindwing are connected to form a single large wing during flight these wings can be stored compactly by disconnecting and stacking them like cicada wings. The proposed crease pattern design software developed based on a beetle hindwing enables the 3D printing of foldable wings of any shape. Furthermore, we implemented two representative functions found in actual insect wings: folding and coupling. The artificial venation generation algorithm based on the centroidal Voronoi diagram, which can be observed in the wings of dragonflies, was used to design the complex mechanical properties of artificial wings. This study presents a simple integral forming method for an insect-wing-type composite structure by 3D printing wing frames directly onto thin films. Consequently, the essence of their excellent environmental adaptability and locomotive ability should be clarified a simple and versatile method to artificially reproduce the complex structure and various functions of these innumerable types of wings is necessary. Insects have acquired various types of wings over their course of evolution and have become the most successful terrestrial animals. ![]()
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