Dual-leg rehabilitation exoskeleton A13-M

standing positiongaitlower limbs mobility

Product overview
The A13-M Lower Limb Exoskeleton Rehabilitation Robot is an electromechanical system designed for clinical rehabilitation of patients with lower limb motor dysfunction. It reproduces physiological gait patterns, provides adaptive assistance across rehabilitation stages and records training data for clinical follow-up.

Key features

• Multi-mode training: passive, active-passive and active modes to support progressive motor relearning.
• Physiological gait simulation: center-of-gravity control, mechanical leg drive and enhanced ground feedback to promote neural pathway reorganization.
• Personalized fitting: electric leg-length adjustment, manual hip-width adjustment and a spring-assisted weight-reduction system for individual load settings.
• Manual steering: hand-held joystick for real-time direction control during overground training (turning, pausing).
• Safety mechanisms: spasm detection and rapid-response protection to manage abnormal muscle contractions during sessions.

Functional details

• User management: account and QR-scan login with secure background storage of training history and evaluation reports for personalized programs.
• Mode selection: configurable for all rehabilitation phases with touch/no-touch ground contact options and parameters for speed, lift height and session duration.
• Touch / no-touch training: selectable ground contact to match patient tolerance and stage of recovery.
• Passive training: movement guidance to rebuild motor memory in early rehabilitation.
• Active-passive transition: mode allowing gradual transfer from guided to volitional gait control.
• Active training: final-stage practice focused on independent walking capability.
• One-touch start: program start via screen or hand controller; direction and pause adjustable in real time during training.

Indications

• Neurological rehabilitation: stroke, spinal cord injury, cerebral palsy, Parkinson's disease and similar conditions causing gait impairment.
• Muscle weakness and wasting: muscular dystrophy, motor neuron disease (ALS), myasthenia gravis and related disorders.
• Postoperative and post-traumatic recovery: limited lower-limb mobility following surgery or trauma.

Core advantages

• Supports restoration of physiological gait patterns and joint mobility, reducing risk of contractures.
• Enhances sensory feedback to facilitate neural plasticity and functional recovery.
• Improves patient engagement and confidence by enabling upright, assisted walking during therapy.

Technical specifications

• Training modes: passive, active-passive, active; ground contact: touch / no-touch.
• Adjustments: electric leg-length adjustment; manual hip-width adjustment; spring-assisted weight-reduction system.
• Control & input: hand-held joystick for steering; on-device touchscreen for program control and parameter setting.
• Safety: spasm detection and fast-response protection mechanisms.
• User data: account/QR login with secure storage of session history and evaluation reports.
• Adjustable parameters: walking speed, lift height, session duration; one-touch start function.