The lower limb rehabilitation robot is a wearable bionic device based on the principle of "neuroplasticity". It is designed for individuals with lower limb movement disorders, leading the lower limbs externally to conduct scientific, efficient, and accurate walking rehabilitation training. This stimulates the nervous system to reshape, enhances the autonomous walking ability of the lower limbs, and thereby accelerates the rehabilitation process.
The lower limb rehabilitation robot sets the angles of the hip and knee joints to simulate the joint angles maintained during walking. This fully trains the patient's hip and knee extension and flexion functions, as well as the synchronization of hip and knee joint movements, reconstructing the patient's hip extension, knee flexion ability, and the ability for isolated movements of the hip and knee. Compared to traditional rehabilitation methods, this technology can both provide controlled, high-intensity, personalized rehabilitation training to reduce the burden on clinical staff and objectively and accurately quantify the improvements in the patient's motor function.
Enhanced Assistive Lower Limb Rehabilitation Robot: Mainly aimed at patients with insufficient muscle strength, such as the elderly or post-surgery patients, providing additional power support to help them with daily activities.
Motion Compensation Lower Limb Rehabilitation Robot: Specifically designed for spinal cord injury patients, compensating for the lost mobility through the device's motion functions, with an emphasis on safety and stability.
Gait Correction Lower Limb Rehabilitation Robot: Suitable for patients with abnormal gait such as those with cerebral palsy or hemiplegia, focusing on gait correction to avoid secondary injuries.
Effective Gait Stimulation: Robotic rehabilitation therapy provides correct posture guidance for patients with gait abnormalities caused by neurological damage, helping patients find the correct walking sensation.
Accelerated Rehabilitation Process: It effectively helps speed up the rehabilitation process for patients by resolving gait abnormalities.
Early Intervention: Robotic rehabilitation therapy allows patients to experience normal walking sensations early, promoting the recovery of deep and superficial sensations.
Balance Training Capability: Robotic rehabilitation therapy can improve balance dysfunction caused by hemiplegia, providing strength to the hemiplegic side's limbs and supplementing the sensory input of the hemiplegic side's limbs.
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