Development of a Three-Layer Fabric Mechanism for a Passive-Type Assistive Suit

Wan, Chi Lok; Ishioka, Toshifumi; Kanda, Chiaki; Osawa, Keisuke; Kodama, Kenji; Tanaka, Eiichiro

doi:10.20965/jrm.2022.p1348

JRM

2022

DOI: 10.20965/jrm.2022.p1348

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Development of a Three-Layer Fabric Mechanism for a Passive-Type Assistive Suit

Chi Lok Wan¹,

Toshifumi Ishioka²,

Chiaki Kanda³

et al.

Abstract: This paper proposes a three-layer elastic cloth fabric mechanism for an assistive suit with adjustable structure (based on a two-layer non-adjustable structure) to achieve different assistive force profiles. This increases the assistive force on the lower-back muscle group and alleviates the undesired pre-tension that acts on a user when the rubber belt located on the back is pulled to provide a higher assistive force. With the lower pre-tension, users would not encounter body fatigue as rapidly as in the past… Show more

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2024

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Cited by 4 publications

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Development of a Soft Semi-Active Suit Using Electro-Static Clutches for Assisting Static Holding Tasks

Lee,

Yu,

Bae

2024

IEEE Robot. Autom. Lett.

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Development of a Soft Semi-Active Suit Using Electro-Static Clutches for Assisting Static Holding Tasks

Lee,

Yu,

Bae

2024

IEEE Robot. Autom. Lett.

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Development and Evaluation of a Wearable Upper Limb Assistive Device with a Remote Center of Motion Mechanism

Nakamura,

Sun,

Osawa

et al. 2024

JRM

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Workers in factories, construction sites, and farms are often exposed to the risk of physical disability and injury. Particularly, the lower back and shoulders require assistance, as injuries can make it difficult to continue working. While social concern about back injuries is high and preventive measures are taken, lesser attention is paid to shoulders, resulting in inadequate assistance and prevention mechanisms. Therefore, wearable, low-cost, and lightweight upper limb assistive devices that can be used in multiple scenarios are desired by workers. In this study, we proposed a device that uses a remote center of motion (RCM) mechanism, enabling the device to support user’s upper arm from below, and the rotational center of device to correspond with shoulder joint. The theoretical assist torque is designed to be sufficient for arm gravity compensation of Japanese males of standard body size. The calculated theoretical assist torque for each shoulder joint is about 8 Nm and maximum assist force for each arm was about 36.3 N (3.7 kgf). Experimental evaluation using a prototype of this device on three healthy adult males demonstrated a decrease in muscle activity of approximately 38% in the anterior deltoid, 31% in the middle deltoid, and 11% in the posterior deltoid as an average of all results in a dynamic experiment in which the participants performed the indicated movements.

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A Review of Potential Exoskeletons for the Prevention of Work-Related Musculoskeletal Disorders in Agriculture

Arachchige,

Piyathilaka,

Sul

et al. 2024

Sensors

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Exoskeletons possess a high potential for assisting the human workforce while eliminating or reducing the risk of Work-Related Musculoskeletal Disorders (WMSDs). However, their usage in agricultural work, where there is a plethora of reported WMSD cases, seems limited. Since agricultural tasks are complex and performed in harsh environments, developing novel exoskeleton-based solutions could be challenging. However, commercial exoskeletons are already being used in various other industries, such as logistics, military, medicine, and manufacturing. Thus, it is expected that those existing exoskeleton solutions could be applied to agricultural tasks. Nevertheless, prior to implementation, assessing the feasibility, efficacy, and necessary modifications for these exoskeletons is imperative to supporting agricultural activities prone to WMSDs. In this review, prevalent exoskeletons documented in scientific literature are identified, and their potential relevance to agricultural tasks with elevated WMSD risks is evaluated. The review further highlights and deliberates on exoskeletons that could be applicable in an agricultural context. This comprehensive examination serves as a foundational step towards the conceptualization and development of exoskeleton-based approaches tailored explicitly for agricultural tasks.

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Development of a Three-Layer Fabric Mechanism for a Passive-Type Assistive Suit

Cited by 4 publications

References 14 publications

Development of a Soft Semi-Active Suit Using Electro-Static Clutches for Assisting Static Holding Tasks

Development of a Soft Semi-Active Suit Using Electro-Static Clutches for Assisting Static Holding Tasks

Development and Evaluation of a Wearable Upper Limb Assistive Device with a Remote Center of Motion Mechanism

A Review of Potential Exoskeletons for the Prevention of Work-Related Musculoskeletal Disorders in Agriculture

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