Exoskeleton
PES Series
Specifically designed for physical labor applications in corporate and industrial settings
PES-U (Passive Elastic System–Upper Limb) is an energy-storing upper limb exoskeleton, independently developed and designed with a mechanical energy storage mechanism. It is specifically engineered to provide mechanical assistance to the user’s shoulders and arms.
This product is an assistive exoskeleton device intended solely to reduce physical strain and improve work efficiency. It does not have medical effects and is not classified as medical equipment.
If you have any health conditions or mobility concerns, it is recommended to consult a qualified physician or healthcare professional before use to ensure it suits your individual needs.
This product is an assistive exoskeleton device intended solely to reduce physical strain and improve work efficiency. It does not have medical effects and is not classified as medical equipment.
If you have any health conditions or mobility concerns, it is recommended to consult a qualified physician or healthcare professional before use to ensure it suits your individual needs.
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Easy
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Make light of heavy things
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Product diversification
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Convenience and efficiency
產品介紹
PES-B Energy Storage Upper Limb Exoskeleton
With its unique S-shaped mechanical structure, the PES-B can generate strong reactive force in real time through the back panel, assisting the wearer in performing forward and backward bending movements with reduced lower back strain.
PES-U Passive Elastic System-Up-Limb
PES-U (Passive Elastic System–Upper Limb) is a self-developed mechanical energy storage exoskeleton designed to provide mechanical assistance to the user’s shoulders and arms.
PES-U Passive Elastic System-Up-Limb
PES-U (Passive Elastic System–Upper Limb) is a self-developed mechanical energy storage exoskeleton designed to provide mechanical assistance to the user’s shoulders and arms.
PES-B Energy Storage Upper Limb Exoskeleton
With its unique S-shaped mechanical structure, the PES-B can generate strong reactive force in real time through the back panel, assisting the wearer in performing forward and backward bending movements with reduced lower back strain.
