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Robotic Exoskeleton Systems for Assisted Physiotherapy Training

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Robotic Exoskeleton Systems for Assisted Physiotherapy Training

Price 20000 INR/ Piece

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MOQ : 1 Piece

Robotic Exoskeleton Systems for Assisted Physiotherapy Training Specification

Use
Clinical excellence in motor skill rehabilitation

Material
Assisted movement therapy for motor relearning

Set Contains
Wearable robotic therapy for motor control

Noise Level
Physiotherapy robotics for motor development db

Technology
Functional movement training exoskeleton

Lighting Type
Advanced motor skill rehabilitation technology

Warranty
Hospital based motor rehabilitation robotics

Operation Mode
Clinical movement rehabilitation equipment

Application
Functional motor training exoskeleton systems

Feature
Motor relearning rehabilitation systems

Size
Assisted movement therapy for coordination

Condition
Hospital grade motor rehabilitation robotics

Voltage
Wearable exoskeleton for movement training Statampere (sA)

Storage Instructions
Modern motor rehabilitation robotics solutions

Magnification Power
Advanced motor recovery rehabilitation technology mm

Operating Type
Patient motor control training equipment

Attributes
Modern robotic motor rehabilitation solutions

Suitable For Use
Intelligent robotic motor recovery systems

Wall Mounted
Clinical robotic therapy for coordination

Power
Exoskeleton assisted motor rehabilitation Volt (v)

Capacity
Spinal injury motor relearning systems Kg

Equipment Type
Spinal cord injury motor rehabilitation systems

Color
Neurological motor rehabilitation technology

Function
Patient motor performance improvement systems

Portable
Wearable robotic motor training systems

Adhesive Type
Stroke recovery motor training robotics

Power Consumption
Robotic systems for motor skill recovery Watt (W)

Dimension (L*W*H)
Clinical robotic motor therapy Inch (in)

Real-Time Operation
Intelligent rehabilitation systems for motor skills Week

Accuracy
Clinical robotic therapy platforms for motor skills mg

Shape
Physiotherapy robotics for coordination training

Recyclable
No

Recommended For
Shoulder, Joints, Cervical, Back, Muscles, Nerves

Treatment
Neurological motor skill rehabilitation

Measuring Range
Exoskeleton based rehabilitation therapy Rankine

Pressure Range
Stroke motor recovery exoskeleton therapy

Frequency Range
Motor skill development rehabilitation systems Hertz (HZ)

Usage
Wearable robotics for movement training

Age Group
Children, Adults, Women, Elders, Infants

Display
Touch Screen

Power Source
Electric

Weight
Robotic physiotherapy for motor control Kilograms (kg)

Robotic Exoskeleton Systems for Assisted Physiotherapy Training Trade Information

Minimum Order Quantity
1 Piece

FOB Port
New Delhi

Payment Terms
Paypal, Cash Against Delivery (CAD), Cash on Delivery (COD), Cash Advance (CA), Cash in Advance (CID), Cheque, Days after Acceptance (DA), Delivery Point (DP), Letter of Credit at Sight (Sight L/C), Telegraphic Transfer (T/T), Western Union, Letter of Credit (L/C)

Supply Ability
1 Piece Per Day

Delivery Time
1 Week

Sample Available
Yes

Sample Policy
Free samples available with shipping and taxes paid by the buyer

Packaging Details
as per communication

Main Export Market(s)
Asia, Australia, Central America, North America, South America, Eastern Europe, Western Europe, Middle East, Africa

Main Domestic Market
All India

Certifications
as per communication customer

About Robotic Exoskeleton Systems for Assisted Physiotherapy Training

Biotronix Robotic Exoskeleton Systems for Assisted Physiotherapy Training

Robotic exoskeleton systems for assisted physiotherapy training are designed to support patients who require guided movement and controlled assistance during rehabilitation. These advanced wearable robotic systems help patients actively participate in physiotherapy even when voluntary movement is limited, ensuring accurate joint alignment, stable posture, and safe execution of therapeutic exercises. In modern rehabilitation and physiotherapy clinics, robotic exoskeleton systems play a vital role in delivering assisted training that is consistent, repeatable, and clinically reliable.

By integrating intelligent sensors, adaptive control algorithms, and therapist-defined physiotherapy training protocols, robotic exoskeleton systems enable structured assisted rehabilitation. Clinicians can precisely regulate assistance levels, movement speed, resistance, and range of motion to match patient capability and therapy goals. This approach supports effective motor relearning, strength development, coordination improvement, and gradual progression toward independent movement while maintaining high standards of patient safety.

Key Features

Medical-grade robotic exoskeleton system designed for assisted physiotherapy training
Adaptive robotic assistance based on patient capability and training objectives
Multi-joint support for hips, knees, and ankles,, ensuring biomechanically correct movement
Real-time sensor-based control for smooth, precise, and repeatable training execution
Adjustable training parameters for structured and progressive physiotherapy programs
Therapist-controlled interface for standardized yet patient-specific training protocols
Advanced safety systems, including emergency stop and torque limitation
Continuous performance monitoring for objective physiotherapy training assessment

Applications

Stroke rehabilitation for assisted gait training and motor relearning
Spinal cord injury rehabilitation for supported standing and walking physiotherapy
Neurological rehabilitation for traumatic brain injury, Parkinsonâ€™s disease, and multiple sclerosis
Orthopedic rehabilitation following joint replacement, fractures, and ligament reconstruction
Post-surgical rehabilitation for early-stage assisted mobilization
Assisted physiotherapy training programs focusing on gait, balance, and functional mobility

Benefits

Enables safe and effective assisted physiotherapy training
Supports early rehabilitation when independent movement is limited
Enhances neuroplasticity through repetitive, task-specific movement training
Improves muscle activation, coordination, balance, and motor control
Ensures high patient safety during assisted and upright rehabilitation
Provides objective, data-driven insights into training progress
Reduces physical strain and fatigue for physiotherapists
Builds patient confidence during guided movement practice
Supports efficient, scalable, and outcome-focused rehabilitation services

Technical Specifications

System Type: Wearable medical-grade rehabilitation exoskeleton
User Weight Range: Approx. 40â€“120 kg
User Height Range: Approx. 150â€“195 cm
Assisted Joints:
- Hip: 2 degrees of freedom
- Knee: 1 degree of freedom
- Ankle: 1 degree of freedom per side
Actuation System: High-torque brushless DC motors with integrated torque sensors
Control System: Intelligent adaptive control with real-time feedback algorithms
Power Supply: Rechargeable lithium-ion battery pack
Battery Backup: Approx. 3â€“5 hours of continuous clinical operation
Charging Time: Approx. 2â€“3 hours
Training Modes: Passive, Assisted, Active-Assist, Resistive, Adaptive
Sensor System: IMU sensors, joint encoders, force and torque sensors
Safety Features: Emergency stop button, torque limiters, mechanical braking system
Connectivity: Bluetooth, Wi-Fi, USB data export
Compliance: Medical device certifications (model dependent)
Operating Temperature: 10Â°C to 40Â°C
Storage Temperature: â€“20Â°C to 60Â°C

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