Analysis modeling and experiment of bionic winding soft actuator inspired by plant tendrils

Li, Jian; Luan, Zhibo; Wang, Yangwei; Huang, Meizhen; Yan, Jie; Wang, Yuhan

doi:10.1088/1361-665x/acb748

Cited by 3 publications

(2 citation statements)

References 33 publications

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“…Also inspired by the octopus, Pi et al [20] proposed a three-finger flexible bionic robot gripper for apple picking. Li et al [21] proposed a soft actuator with a symmetrical chamber capable of winding or bending motions, using an imitation of the winding motion of vine plants as a guide. Paek et al [22] proposed a pneumatic actuator based on elastic microtubules and established a semi-analytical model of its shape engineering.…”

Section: Introductionmentioning

confidence: 99%

Design and Experimental Study of Cavity Structure of Pneumatic Soft Actuator

2023

Actuators

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In order to study the influence of the cavity inclination angle bending performance of pneumatic soft actuators, two kinds of soft actuators were designed, one with a five-degree-angle cavity structure, and the other with a hybrid variable-degree-angle cavity structure. The bending performance of zero-degree-angle, five-degree-angle, and hybrid variable-degree-angle soft actuators was investigated by experimental methods and the ABAQUS finite element simulation method. The results show that, under seven different pressure loads, the mean absolute error between the experimental results and the numerical simulation results for the zero-degree-angle soft actuator was 0.926, for the five-degree-angle soft actuator it was 1.472, and for the hybrid variable-degree-angle soft actuator it was 1.22. When the pressure load changed from 4 kPa to 16 kPa, the five-degree-angle soft actuator had the largest range-of-angle variation, with the bending angle increasing 193.31%, from 26.92 degrees to 78.97 degrees. In the same longitudinal displacement, the five-degree-angle soft actuator had the largest lateral displacement variation, and the bending effect was the best compared with the zero-degree-angle soft actuator and the hybrid variable-degree-angle soft actuator. According to the experimental and numerical simulation results, with the same structural parameter design, the cavity tilt angle increases, which can increase the bending angle variation range and improve the bending performance of soft actuators.

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Section: Introductionmentioning

confidence: 99%

Design and Experimental Study of Cavity Structure of Pneumatic Soft Actuator

2023

Actuators

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“…Jian Li et al introduced a soft-limb device inspired by the entanglement behavior observed in vines and plants. The device incorporated symmetric chambers in its kinematics, enabling the entanglement of the vines and plants through coupling motions, either under different or the same pressure conditions [6]. Alkin Yilmaz Akter et al introduced giant anteater and American badger forepaw shapes and curves into a bucket design, and the computer-aided static analysis showed that the design was able to reduce the total deformation during operation and provide more excavation stress to the soil compared with the standard bucket teeth [7].…”

Section: Introductionmentioning

confidence: 99%

Design and Testing of Bionic-Feature-Based 3D-Printed Flexible End-Effectors for Picking Horn Peppers

Deng,

Liu,

Jiang

et al. 2023

Agronomy

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To solve the problems of poor adaptability and large sizes of pepper harvesting machinery in facility agriculture to enhance the efficiency and quality of pepper harvesting and ultimately boost farmers’ income, several flexible end-effectors were designed. These end-effectors were tailored to the unique morphologies of horn peppers, drawing inspiration from biomimicry. Subsequently, we conducted experimental verification to validate their performance. Four biological features, namely, the outer contours of a Vicia faba L. fruit, an Abelmoschus esculentus fruit, the upper jaw of a Lucanidae, and a Procambarus clarkii claw, were selected and designed using 3D software. In order to ascertain the structural viability and establish the initial design framework for the test end-effector, a simulation analysis to evaluate the strength and deformation of the flexible end-effector under various pepper-picking conditions was conducted. PLA material and 3D printing technology were used to create the end-effector, and, together with the mobile robotic arm platform ROSMASTER X3 PLUS, they were used to build a test prototype; a pepper tensile test was performed to pre-determine the reasonableness of the picking program, and then a prototype was created for the actual picking of the peppers to compare the picking effectiveness of several types of flexible end-effectors. In six experiments, each flexible end was harvested for 120 horn peppers. The Vicia faba L. flexible end-effector had the lowest average breakage rate. The average breakage rate was 1.7%. At the same time, it had the lowest average drop rate. The average drop rate was 3.3%. The test results indicated that the flexible end-effector that emulated the outer contour characteristics of the Vicia faba L. fruit demonstrated the most favorable outcomes. This design exhibited high working efficiency and the lowest rates of fruit breakage and fruit drops, surpassing both the artificial and traditional machine picking methods and effectively fulfilling the requirements for pepper-picking operations in facility agriculture.

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Modeling and Analysis of Oblique-Chamber and Symmetric Oblique-Chamber Pneu-Net Soft Actuators

Liu,

Wang

2024

IEEE Robot. Autom. Lett.

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Analysis modeling and experiment of bionic winding soft actuator inspired by plant tendrils

Cited by 3 publications

References 33 publications

Design and Experimental Study of Cavity Structure of Pneumatic Soft Actuator

Design and Experimental Study of Cavity Structure of Pneumatic Soft Actuator

Design and Testing of Bionic-Feature-Based 3D-Printed Flexible End-Effectors for Picking Horn Peppers

Modeling and Analysis of Oblique-Chamber and Symmetric Oblique-Chamber Pneu-Net Soft Actuators

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