A design of bionic soft gripper for automatic fabric grasping in apparel manufacturing

Jian-jun, SU; Wang, Nan; Zhang, Fan

doi:10.1177/00405175221134963

Cited by 9 publications

(3 citation statements)

References 13 publications

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“…On the basis of this, Su J Q's team (Su et al. , 2022) has designed a soft finger that has a structure similar to a “high heel,” as seen in Figure 18.…”

Section: Automatic Grasping Methodsmentioning

confidence: 99%

Research progress of automatic grasping methods for garment fabrics

Wang,

Shen,

Yao

et al. 2023

IJCST

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Purpose The purpose of this paper is to gain an in-depth understanding into the research progress, hot spots and future trends in smart gripping technology in the field of apparel smart manufacturing.Design/methodology/approach This work scrutinised the current research status of the five automatic grasping methods for garment fabrics including the pneumatic suction grasping, the electrostatic grasping, the intrusive grasping and the dexterous grasping. Specifically, the principles, characteristics, main devices and the impact on garment production were discussed.Findings In particular, soft finger of the dexterous grasping method has good flexibility and adaptability in the process of fabric grasping, which provides a new solution for garment production automation. Up to now, the reviewed method in general exhibit good grasping speed, high grasping stability and flat grasping process. However, in the face of complex fabric materials which are thin and flexible and do not return their original shapes when deformed in practical applications, the gripper for automatic fabric grasping need new technological breakthroughs in the positioning accuracy, grab efficiency and flexible grasping.Originality/value The outcomes offered an overview of the research status and future trends of the automatic grasping methods for garment fabrics in the field of apparel intelligent manufacturing. It could not only provide scholars with convenience in identifying research hot spots and building potential cooperation in the follow-up research but also assist beginners in searching core scholars and literature of great significance.

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“…On the basis of this, Su J Q's team (Su et al. , 2022) has designed a soft finger that has a structure similar to a “high heel,” as seen in Figure 18.…”

Section: Automatic Grasping Methodsmentioning

confidence: 99%

Research progress of automatic grasping methods for garment fabrics

Wang,

Shen,

Yao

et al. 2023

IJCST

View full text Add to dashboard Cite

show abstract

“…Tirumala et al proposed to attach a tactile sensor to the fingertip of a gripper with two fingers and trained a classifier and used it to grasp one or two layers of cloth [13]. Su et al proposed a soft gripper for fabric grasping which is activated by the pneumatic pressure [14].…”

Section: A Gripper For Picking Fabricmentioning

confidence: 99%

Passive Actuator-Less Gripper for Pick-and-Place of a Piece of Fabric

Seino,

Tokuda,

Kobayashi

et al. 2024

Preprint

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“…Robotic automation has made significant contributions to industries related to consumer goods, logistics, industrial production, and food processing. [1][2][3] In such industrial environments, the reliable robot handling of goods depends to a large extent on the development of reliable, adaptable, and multifunctional grippers. Different from traditional rigid grippers, the most advanced soft grippers are made of compliant soft actuators and functional soft materials, [4][5][6] for example, shape memory alloys (SMAs), silicone, dielectric elastomers, and ionic polymer-metal composites.…”

Section: Introductionmentioning

confidence: 99%

Design and motion analysis of a bidirectional parallel-chamber soft pneumatic actuator

Wu,

Lu,

Ding

et al. 2023

Proceedings of the Institution of Mechanical Engineers, Part C:

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This article presents a novel bidirectional parallel-chamber soft actuator that improves the end-effector grasping force by adding a row of chambers at both ends of its longitudinal chambers. A mathematical model of the bending behavior of the longitudinal chambers of the actuator is established using the piecewise constant curvature assumption, and the bending properties, gripping force, and contact area of the end wrap were analyzed for the longitudinal and transverse chambers of the actuator. Compared to traditional soft actuators, the proposed bidirectional parallel-chamber actuator provides 1.78 N of grasping force at the end due to longitudinal bending, and 1 N of grasping force at the tail due to transverse bending. To validate the simulation results, a testing platform is built to measure the bending angle and output force of the actuator experimentally. Finally, a two-fingered soft gripper is developed to verify the mathematical model and simulation results, and is tested in grasping objects with diameters ranging from 0 to 250 mm and weights up to 1450 g.

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A design of bionic soft gripper for automatic fabric grasping in apparel manufacturing

Cited by 9 publications

References 13 publications

Research progress of automatic grasping methods for garment fabrics

Research progress of automatic grasping methods for garment fabrics

Passive Actuator-Less Gripper for Pick-and-Place of a Piece of Fabric

Design and motion analysis of a bidirectional parallel-chamber soft pneumatic actuator

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