Gait rehabilitation system

robotic

Lower limb exoskeleton rehabilitation robot is based on bionics and ergonomics design, also known as "wearable robot". It is an external bracket system that can support the weight of the human body and can provide power support to help patients improve limb function and exercise ability. The lower limb exoskeleton rehabilitation robot is composed of a series of motor-driven joints, which can simulate the movement of the human body and have meaningful communication and interaction with the human body. It can also help patients train and restore their limb functions to improve their daily quality of life. Lower extremity exoskeleton rehabilitation robot is mainly used in patients with hemiplegia caused by various brain diseases, spinal cord injury caused by trauma, myelitis, spinal cord tumors and other paraplegic patients. Through training, these patients can recover normal walking function to the greatest extent. Product Principle Lower limb exoskeleton rehabilitation robot through repeated mechanical training, instead of the therapist to help patients with limb motor dysfunction in lower limb passive and active training. By stimulating the motor center of the cerebral cortex of the patient, the patient's proprioceptive reflex and conditioned reflex are promoted, and then the patient's breathing regulation, nerve regulation and humoral regulation are achieved. The patients with early and middle lower limb dysfunction are recovered by standing and stepping exercise, which simulates the normal walking gait of the human body, inhibits the generation of abnormal gait, and effectively helps the patients recover their walking function.