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| Specification | Details |
|---|---|
| Mode Type | Intelligent Mode (Active Training), Weight Loss Mode (Active/Passive), Training Mode (Continuous/Single-Step/Passive in Place) |
| Driven Joints | 6 Joints per Side: Hip, Knee, Ankle |
| Applicable Height | 155 – 190 cm |
| Walking Speed | 2s/gait cycle – 10s/gait cycle |
| Drive System | Flexible Drive Power Output |
| Sensors | 25 High-Precision Sensors |
| Control System | Human-Robot Interactive Control |
| Biomechanical Model | Patented Gait Analysis System |
| Safety Features | Real-time Muscle Tension Detection, Automatic Protection Mechanism |
| Clinical Validation | Multi-Center Trial (100+ Samples Verified) |
Assists elderly users in maintaining balance, preventing falls, and improving muscle control. The system adapts to their walking patterns to support safer mobility and encourage physical confidence during rehabilitation.
Perfect for professional rehabilitation clinics. Therapists can monitor gait data in real time, adjust training intensity, and customize patient programs using biomechanical analytics for optimized recovery outcomes.
Designed for patients with lower limb paralysis or weakness post-stroke. The robot provides intelligent motion assistance and gait correction, helping users rebuild muscle strength and coordination through repetitive, guided walking sessions.
Perfect for professional rehabilitation clinics. Therapists can monitor gait data in real time, adjust training intensity, and customize patient programs using biomechanical analytics for optimized recovery outcomes.
It is designed for individuals recovering from stroke or lower limb motor dysfunction, as well as elderly users needing gait correction or mobility training under supervised rehabilitation programs.
The system uses real-time muscle tension sensors and a flexible drive protection mechanism to detect abnormal resistance and prevent strain, ensuring comfort and safety during each session.
Yes. It supports users between 155 and 190 cm in height and automatically adjusts joint torque and walking speed according to each user’s unique biomechanics.
Its patented power ankle joint assists dorsiflexion and plantar flexion, helping correct conditions like foot drop or inversion while improving walking balance and natural movement.
Using 25 biomechanical sensors, it detects plantar pressure, gait rhythm, and motion intention to intelligently adapt its assistance in real-time for more accurate rehabilitation.
Yes. Therapists can access gait analysis, joint movement data, and progress metrics to adjust personalized training programs for optimal rehabilitation outcomes.
It’s primarily designed for clinical and rehabilitation center environments but can be customized for supervised home rehabilitation under medical guidance.
Yes. Its safety and rehabilitation effectiveness have been proven in a prospective, multi-center, randomized clinical trial involving over 100 participants.
All the essential technical documentation to help you understand, assemble, and operate your robot step by step.
Development resources, APIs, and SDKs to extend functionalities or integrate the robot with other platforms.
Answers to the most common questions about installation, operation, repairs, replacement, compatibility, and more.
Tutorials and visual guides for setup, daily use, maintenance, and troubleshooting.
Updated pricing, purchasing options, and financing availability for your region.
Practical applications, client success stories, and recommended configurations.
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