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The Flexbot-S gait training and evaluation system delivers gait pattern training in line with human physiological characteristics, ensuring that each step mimics natural walking biomechanics. As an advanced robotic gait trainer, it provides gait training robotics that adapt to the patient's limb movement, making it an ideal gait trainer for hospitals and rehab centers. This adult electric gait trainer functions as a complete robotic gait and limb training system, supporting early bedridden intervention to full weight-bearing walking.
Model: Flexbot-S – Professional Robotic Gait Trainer for Hospitals & Rehabilitation Centers
The Flexbot-S Robotic gait trainer is an advanced gait training and evaluation system designed for patients with neurological impairments (stroke, spinal cord injury, traumatic brain injury) and orthopedic conditions. As a specialized gait trainer for hospitals, it combines robotic-driven leg movement with intelligent biofeedback to restore natural walking patterns.
This robotic gait and limb training system integrates gait training robotics with full-cycle rehabilitation support – from early bedridden training to high-intensity walking practice. As a professional robotic gait trainer, it provides personalized, data-driven therapy for adult patients, functioning as a reliable adult electric gait trainer for clinics and institutions.
The gait training and evaluation system Flexbot-S uses robotic exoskeleton technology to drive the patient's lower limbs in physiologically correct walking trajectories. An electric weight-support system unloads partial body weight, allowing safe, repetitive task-specific training. Real-time sensors capture kinematic data, while the intelligent control system adjusts parameters (step length, speed, cadence) automatically or via therapist input.
As a comprehensive robotic gait and limb training system, it also provides virtual walking scenarios and biofeedback to enhance patient engagement and motor learning.
| Feature | Description |
|---|---|
| Physiological Gait Pattern Training | Robotic-driven limb movement follows natural human gait curves, rebuilding correct motor engrams. |
| Early Bedridden Training Mode | Enables gait training robotics intervention even while patient is bedridden – no need to wait for standing ability. |
| Full-Cycle Rehabilitation Support | From acute phase to community walking, the gait training and evaluation system adapts to each recovery stage. |
| Virtual Walking & Intelligent Biofeedback | Immersive virtual scenarios and real-time performance feedback increase patient motivation and self-correction. |
| Personalized Training Program | Customizable parameters: weight support level, step speed, step length, training duration. |
| Automatic Evaluation Report | Post-training report with quantitative data (symmetry, step cycle, muscle activity) – ideal for gait trainer for hospitals documentation. |
| High-Intensity Long-Duration Training | Supports extended sessions (up to 60+ minutes) for demanding neuro-rehabilitation protocols. |
| Intelligent Transfer System | Integrated lift assists patient transfer from bed to trainer, reducing caregiver strain. |
| Clinical Need | How Flexbot-S Solves It |
|---|---|
| Hospitals need objective gait data | The gait training and evaluation system automatically generates reports with symmetry, stance/swing phase, and step length analysis. |
| Early mobilization after stroke | Bedridden training mode allows gait training robotics to start within days of admission. |
| One device for full recovery cycle | From lying to walking – this robotic gait and limb training system adapts as the patient improves. |
| Adult patient population | Designed as an adult electric gait trainer with appropriate hip width, leg length range, and weight capacity (135kg). |
| Therapist shortage | Automated training protocols and biofeedback reduce one-on-one supervision time. |
| Feature | Flexbot-S (Robotic Gait Trainer) | Standard Adult Electric Gait Trainer |
|---|---|---|
| Limb Drive | Robotic exoskeleton (hip/knee/ankle) | Passive or partial assist |
| Gait Pattern | Physiological trajectory | Basic stepping |
| Evaluation | Automatic quantitative report | Manual observation |
| Early Bedridden Use | Yes (lying position) | No (requires sitting/standing) |
| Biofeedback | Yes (visual + auditory) | Limited or none |
| Best For | Neurological rehab (stroke, SCI) | General deconditioning |
| Category | Conditions |
|---|---|
| Neurological | Stroke (hemiplegia), spinal cord injury (incomplete), traumatic brain injury, cerebral palsy, Parkinson's disease |
| Orthopedic | Post-joint replacement, lower limb fracture (late stage) |
| Geriatric | Age-related gait disorders, deconditioning |
Hospital Rehabilitation Departments
Neurological Rehabilitation Centers
Geriatric Care Facilities
University-affiliated Rehab Labs
| Advantage | Description |
|---|---|
| 20+ Years Experience | Leading Chinese manufacturer of gait training and evaluation system and robotic gait trainer. |
| Complete Product Line | From adult electric gait trainer to advanced robotic gait and limb training system – one-stop solution. |
| Clinical Validation | Flexbot series used in 500+ hospitals globally. |
| Certified Quality | CE, ISO 13485, FDA registered. |
| Global Support | 2-year warranty, remote training, spare parts for 10+ years. |
Whatsapp: +86-13812226033
E-mail: info@qjmed.com
ADD: No.6 Fengming Road, Wujin Hi-tech Industrial Development zone, Wujin District, Changzhou, Jiangsu, China
