开发用于辅助日常生活的三指自适应机器人抓手

Designs Pub Date : 2024-04-14 DOI:10.3390/designs8020035
Md Mahbubur Rahman, Md. Tanzil Shahria, M. S. H. Sunny, Md. Mahafuzur Rahaman Khan, Emroze Islam, Asif Al Zubayer Swapnil, David Bedolla-Martínez, M. H. Rahman
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引用次数: 0

摘要

在美国,有相当多的人使用辅助设备来提高行动能力,其中有相当一部分人在进行日常生活活动时需要他人的帮助。机器人抓手的引入已成为一种变革性的干预措施,极大地促进了独立性的培养。然而,目前市场上能够模仿人类手部动作(主要是抓和捏,采用力控制)来抓取和搬运物体的机械手还很少。此外,甚至连它们能处理多少日常生活活动(ADL)物体的数据都没有。这项研究的目标是提供一种用于日常生活辅助的新型三指抓手,它既能抓又能用自适应力捏,能够以最小的占地面积处理各种 ADL 物品。它可处理 90 种不同形状(圆柱形、不规则形、矩形和圆形)、大小、重量和质地(光滑、粗糙、凹凸不平和橡胶质地)的选择性必要日常生活物品。该机械手设计简洁,经过精心设计,可通过 3D 打印技术实现无缝制造,同时不影响其操作功效。该机械手的功能超越了传统的抓取功能,能够捏住(如握住信用卡)和牢牢抓住轻质物体。此外,该机械手还能以可控的力量抓取各种不同形状和重量的物体。在评估过程中,开发的机械手经过了严格的负载测试和可用性测试。结果表明,在 90 个日常物品中,用户可以抓取并放置 75 个物品。该机械手可抓取和操作的物体尺寸从 25 毫米到 80 毫米不等,最大重量为 2.9 千克。对于重量较大的物体(如书本),其中心点与抓取区域相距较远,由于扭矩较大,因此难以抓取。不过,物体的质地对抓取性能没有明显影响。用户认为抓手非常简单。要评估抓手的实用性和使用寿命,还需要进一步的调查。这项研究有助于开发旨在增强物体操作能力的辅助机器人,从而提高个人的独立性和整体生活质量。
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Development of a Three-Finger Adaptive Robotic Gripper to Assist Activities of Daily Living
A significant number of individuals in the United States use assistive devices to enhance their mobility, and a considerable portion of those who depend on such aids require assistance from another individual in performing daily living activities. The introduction of robotic grippers has emerged as a transformative intervention, significantly contributing to the cultivation of independence. However, there are few grippers in the fields, which help with mimicking human hand-like movements (mostly grasping and pinching, with adoptive force control) to grasp and carry objects. Additionally, the data are not available even on how many Activities of Daily Living (ADL) objects they can handle. The goal of the research is to offer a new three-fingered gripper for daily living assistance, which can both grasp and pinch with adaptive force, enabling the capabilities of handling wide-ranging ADL objects with a minimal footprint. It is designed to handle 90 selective essential ADL objects of different shapes (cylindrical, irregular, rectangular, and round), sizes, weights, and textures (smooth, rough, bumpy, and rubbery). The gripper boasts a meticulously engineered yet simple design, facilitating seamless manufacturing through 3D printing technology without compromising its operational efficacy. The gripper extends its functionality beyond conventional grasping, featuring the capability to pinch (such as holding a credit card) and securely hold lightweight objects. Moreover, the gripper is adaptable to grasping various objects with different shapes and weights with controlled forces. In evaluation, the developed gripper went through rigorous load tests and usability tests. The results demonstrated that the users picked and placed 75 objects out of 90 daily objects. The gripper held and manipulated objects with dimensions from 25 mm to 80 mm and up to 2.9 kg. For heavy-weight objects (like books) where the centroid is far apart from the grasping areas, it is difficult to hold them due to high torque. However, objects’ textures have no significant effect on grasping performance. Users perceived the simplicity of the gripper. Further investigation is required to assess the utility and longevity of grippers. This study contributes to developing assistive robots designed to enhance object manipulation, thereby improving individuals’ independence and overall quality of life.
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