A Compliant Active Roller Gripper with High Positional Offset Tolerance for Delicate Spherical Fruit Handling

Haoran Zhu, Huanhuan Qin (), Zicheng Qiu, Xinwen Chen, Jinlin Xue, Xingjian Gu and Mingzhou Lu
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Haoran Zhu: College of Engineering, Nanjing Agricultural University, No. 666 Binjiang Avenue, Jiangbei New District, Nanjing 211800, China
Huanhuan Qin: College of Artificial Intelligence, Nanjing Agricultural University, No. 666 Binjiang Avenue, Jiangbei New District, Nanjing 211800, China
Zicheng Qiu: College of Artificial Intelligence, Nanjing Agricultural University, No. 666 Binjiang Avenue, Jiangbei New District, Nanjing 211800, China
Xinwen Chen: Institute of Animal Husbandry Quality Standards, Xinjiang Academy of Animal Science, No. 21, Karamay East Road, Sayibak District, Urumqi 830011, China
Jinlin Xue: College of Engineering, Nanjing Agricultural University, No. 666 Binjiang Avenue, Jiangbei New District, Nanjing 211800, China
Xingjian Gu: College of Artificial Intelligence, Nanjing Agricultural University, No. 666 Binjiang Avenue, Jiangbei New District, Nanjing 211800, China
Mingzhou Lu: College of Artificial Intelligence, Nanjing Agricultural University, No. 666 Binjiang Avenue, Jiangbei New District, Nanjing 211800, China

Agriculture, 2025, vol. 15, issue 2, 1-18

Abstract: In the field of agricultural robotics, robotic grippers play an indispensable role, directly influencing the rate of fruit damage and handling efficiency. Currently, traditional agricultural robotic grippers face challenges such as high damage rates and high requirements for position control. A robotic gripper for stable spherical fruit handling with high positional offset tolerance and a low fruit damage rate is proposed in this paper. It adopts a three-finger structure. A flexible active roller is configured at the end of each finger, allowing fruit translation with just a gentle touch. An integrated pressure sensor within the active roller further enhances the gripper’s compliance. To describe the effect of the gripper on the fruit, the interaction model was derived. Taking the tomato as a typical soft and fragile spherical fruit, three experiments were conducted to evaluate the performance of the proposed gripper. The experimental results demonstrated the handling capability of the gripper and the maximum graspable weight reached 2077 g. The average failure rate for the unilateral offset of 9 mm was only 1.33%, and for the bilateral offset of 6-6 mm was 4%, indicating the high positional offset tolerance performance and a low fruit damage rate of the gripper. The preliminary tomato-picking capability of the proposed gripper was also validated in a simplified laboratory scenario.

Keywords: robotic gripper; active roller; positional offset tolerance; force sensing; spherical fruit handling (search for similar items in EconPapers)
JEL-codes: Q1 Q10 Q11 Q12 Q13 Q14 Q15 Q16 Q17 Q18 (search for similar items in EconPapers)
Date: 2025
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