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公开(公告)号:US20220354728A1
公开(公告)日:2022-11-10
申请号:US17259237
申请日:2020-12-11
Inventor: Hongliu Yu , Yue Dai , Ping Shi , Wei Jiang , Hongyu Zheng , Chen He , Qiaoling Meng
Abstract: The invention discloses a wearable multifunctional powered exoskeleton for cervical vertebra rehabilitation, and relates to the field of man-machine interaction rehabilitation aids. The wearable multifunctional powered exoskeleton for cervical vertebra rehabilitation comprises an active drive motor module, a fixed supporting module and a movable joint component; the active drive motor module is connected to the fixed supporting module, and comprises a left shoulder push rod motor, a right shoulder push rod motor, a cervico-thoracic vertebra left front side push rod motor, a cervico-thoracic vertebra left rear side push rod motor, a cervico-thoracic vertebra right front side push rod motor, and a cervico-thoracic vertebra right rear side push rod motor; and the active drive motor module and the movable joint component are combined to jointly form a six-connecting rod power-driven structure. Through the implementation of the wearable multifunctional powered exoskeleton for cervical vertebra rehabilitation, the passive traction, antiflexion and retroextension, lateral flexion and horizontal rotation four-degree-of-freedom rehabilitation exercises of a cervical vertebra are realized, the traction training of a neck is performed, and the directional resistance training of neck muscles is realized. The wearable multifunctional powered exoskeleton for cervical vertebra rehabilitation improves the muscle force of the neck, enhances the stability of the cervical vertebra, improves and corrects the biomechanical balance of the cervical vertebra.
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2.发明授权公开(公告)号:US11382819B2
公开(公告)日:2022-07-12
申请号:US16968141
申请日:2020-04-02
Inventor: Hongliu Yu , Shengli Luo , Suowen Ma , Weisheng Zhang , Qiaoling Meng , Wentao Shi , Bingshan Hu , Sujiao Li , Duojin Wang
IPC: A61H1/02
Abstract: A wire-driven wrist three-degree-freedom training mechanism comprises a wrist executing mechanism, a wrist linking mechanism, a forearm mechanism and an elbow linking mechanism, and adopts a wire-driven design, through comprehensive utilization of two rotation pairs in the training mechanism, wherein wrist three-degree-freedom passive training is realized through two driving motors. By way of the implementation of the wire-driven wrist three-degree-freedom training mechanism, a patient can adopt a passive training manner to perform rehabilitating training of the upper limbs. The wire-driven wrist three-degree-freedom training mechanism includes a position compensation mechanism and can be adapted to individual differences of patients.
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公开(公告)号:US12011406B2
公开(公告)日:2024-06-18
申请号:US17259237
申请日:2020-12-11
Inventor: Hongliu Yu , Yue Dai , Ping Shi , Wei Jiang , Hongyu Zheng , Chen He , Qiaoling Meng
CPC classification number: A61H1/0296 , B25J9/0006 , A61H2201/1207 , A61H2201/1607 , A61H2201/1616 , A61H2201/1652 , A61H2201/1661
Abstract: A wearable multifunctional powered exoskeleton for cervical vertebra rehabilitation, and relates to the field of man-machine interaction rehabilitation aids, comprises an active drive motor module, a fixed supporting module and a movable joint component; wherein the active drive motor module is connected to the fixed supporting module, and comprises a left shoulder push rod motor, a right shoulder push rod motor, a cervico-thoracic vertebra left front side push rod motor, a cervico-thoracic vertebra left rear side push rod motor, a cervico-thoracic vertebra right front side push rod motor, and a cervico-thoracic vertebra right rear side push rod motor; wherein the active drive motor module and the movable joint component are combined to Jointly form a six-connecting rod power-driven structure.
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