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Topology Synthesis, Prototype, and Test of an Industrial Robot Gripper with 3D Printed Compliant Fingers for Handling of Fragile Objects

机译：带有3D打印兼容手指的易碎物品工业机器人夹具的拓扑综合，原型设计和测试

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摘要

This study presents the design of an innovative soft robotic gripper which consists of one linear actuator and two identical topology optimized compliant fingers. Both fingers can be actuated by one displacement input, and can deform elastically to execute the gripping motion. A topology optimization method is presented to synthesize the compliant finger. The developed finger is a monolithic compliant mechanism prototyped by 3D printing using flexible thermoplastic filament. The proposed gripper module is mounted on a six-axis industrial robot to demonstrate its capability in handing of fragile objects such as apple, glass cup, egg, water balloon, and balloon. The proposed compliant gripper is a low-cost, sensor-less design which can be used in adaptive grasping of size-varied fragile objects.

机译：这项研究提出了一种创新的软机器人抓爪的设计，该抓爪由一个线性致动器和两个相同的拓扑优化的顺应手指组成。两个手指都可以通过一个位移输入进行操作，并且可以弹性变形以执行抓握运动。提出了一种拓扑优化方法来合成顺应手指。所开发的手指是一种单片顺应机构，通过使用柔性热塑性长丝进行3D打印而原型化。拟议中的夹持器模块安装在六轴工业机器人上，以展示其处理易碎物品（如苹果，玻璃杯，鸡蛋，水气球和气球）的能力。所提出的柔顺夹持器是一种低成本，无传感器的设计，可用于大小可变的易碎物品的自适应抓握。

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来源
《WRC Symposium on Advanced Robotics and Automation》|2018年|189-194|共6页
会议地点 Beijing(CN)
作者
Chih-Hsing Liu; Ta-Lun Chen; Tzu-Yang Pai; Chen-Hua Chiu; Wei-Geng Peng; Mao-Cheng Hsu;
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Department of Mechanical Engineering National Cheng Kung University Tainan Taiwan;

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关键词
Topology; Grippers; Optimization; Thumb; Robots; Force;

机译：拓扑；夹爪;优化;拇指;机器人；力;

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专利

1. Topology Optimization and Prototype of a Three-Dimensional Printed Compliant Finger for Grasping Vulnerable Objects With Size and Shape Variations [J] . Liu Chih-Hsing, Chiu Chen-Hua, Chen Ta-Lun, Journal of Mechanisms and Robotics: Transactions of the ASME . 2018,第4期

机译：拓扑优化和三维印刷兼容手指的原型，用于抓住脆弱物体，尺寸和形状变化
2. Input Displacement Neuro-fuzzy Control and Object Recognition by Compliant Multi-fingered Passively Adaptive Robotic Gripper (Retraction of Vol 82, Pg 177, 2016) [J] . Petkovic Dalibor, Shamshirband Shahaboddin, Anuar Nor Badrul, Journal of Intelligent & Robotic Systems: Theory & Application . 2020,第3a4期

机译：通过兼容多指多指被动自适应机器人夹具（Vol 82，PG 177,2016的缩回）输入位移神经模糊控制和物体识别
3. Input Displacement Neuro-fuzzy Control and Object Recognition by Compliant Multi-fingered Passively Adaptive Robotic Gripper [J] . Petkovic Dalibor, Shamshirband Shahaboddin, Anuar Nor Badrul, Journal of Intelligent & Robotic Systems: Theory & Application . 2016,第2期

机译：输入位移神经模糊控制和兼容多指被动自适应机械手的物体识别
4. Topology Synthesis, Prototype, and Test of an Industrial Robot Gripper with 3D Printed Compliant Fingers for Handling of Fragile Objects [C] . Chih-Hsing Liu, Ta-Lun Chen, Tzu-Yang Pai, WRC Symposium on Advanced Robotics and Automation . 2018

机译：具有3D印刷兼容手指的工业机器人夹具的拓扑合成，原型和测试，用于处理脆弱的物体
5. Grip Synthesis of Three-Fingered Robotic Hand for Unknown Objects. [D] . Yu, Ze. 2010

机译：用于未知物体的三指机器人手的握力合成。
6. Printed Soft Sensor with Passivation Layers for the Detection of Object Slippage by a Robotic Gripper [O] . Reo Miura, Tomohito Sekine, Yi-Fei Wang, 2020

机译：印刷软传感器具有钝化层用于通过机器人夹具检测物体滑动
7. Retraction Note to: Input Displacement Neuro-fuzzy Control and Object Recognition by Compliant Multi-fingered Passively Adaptive Robotic Gripper [O] . Dalibor Petković, Shahaboddin Shamshirband, Nor Badrul Anuar, 2019

机译：缩回注意：输入位移神经模糊控制和对象识别通过兼容多指多指被动自适应机器人夹钳

Topology Synthesis, Prototype, and Test of an Industrial Robot Gripper with 3D Printed Compliant Fingers for Handling of Fragile Objects

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