Core Robot Intelligent Bionic Hand – Adaptive Prosthesis with Neuro-Muscular Control

• ✔ Advanced bionic design for natural and fluid movement
• ✔ Self-developed somatosensory control for intuitive operation
• ✔ Independent movement of each finger and dual-axis thumb for maximum dexterity
• ✔ Adaptive grip with sensitive tactile sensors
• ✔ Accurate recognition of the user's neuromuscular signals
• ✔ Highly flexible design with 10 movable joints and 6 degrees of freedom
• ✔ Ability to perform and seamlessly switch between 23 common gestures

Introducing the revolutionary Core Robot intelligent bionic hand, redefining the possibilities of prosthetics. This groundbreaking system integrates cutting-edge technologies from the fields of bionics, mechanics, materials science, and artificial intelligence to provide users with an unprecedented level of functionality and naturalness.

With advanced somatosensory technology and the ability to extract neuromuscular signals from the arm, the bionic hand moves with the fluidity and adaptability of a real human hand, a major step forward towards full integration and restoration of self-sufficiency for daily life.

⚙️ What can this bionic hand do?

• Independent finger movement: Six powerful units allow individual control of each finger and two-axis thumb movement for maximum dexterity and precision.
• Intuitive control: Self-developed somatosensory technology converts neuromuscular signals from the user's arm into smooth and intended movements of the bionic hand.
• Adaptive Grip: Hybrid design combines rigidity and flexibility, allowing the hand to adapt to the shape and material of the object to ensure a stable grip without damage.
• Haptic feedback: The fingers are equipped with three layers of tactile sensors that recognize the touch, shape and material of objects, increasing sensitivity and safety.
• Wide range of gestures: With 10 movable joints and 6 degrees of freedom, the hand can perform and seamlessly switch between 23 common gestures, from a gentle squeeze to a strong grip.

🔍 Explore every detail

The Core Robot intelligent bionic hand represents the pinnacle of engineering that connects bionics, robotics and medicine. Its main goal is not only to replace a lost limb, but to provide a function that is as close as possible to the natural capabilities of the human hand. Every component has been designed with maximum efficiency and user comfort in mind, from the ultra-miniature motors in each finger to the sophisticated control algorithms.

The system is able to identify the user's movement intention simply by collecting nerve and muscle electrical signals. This interaction is further enhanced by the integration of artificial intelligence and possibly brain-computer interface technology, ensuring unparalleled precision and fluidity of operations. Whether it is for everyday tasks or more complex manipulations, this bionic hand opens up new possibilities for anyone who uses it.

💡 The problem we solve

Traditional prosthetics often offer limited functionality and lack the smoothness, naturalness, and tactile feedback of a human hand. For upper limb amputees, this means constant compromises in everyday life – from difficulty buttoning to the inability to perform complex manipulations that require precise control and feel.

🚀 Regain control and freedom of movement!

The Core Robot intelligent bionic hand is a comprehensive solution to these challenges. It offers an unprecedented level of control, adaptability and feedback that significantly increases self-reliance and quality of life. With this hand, users regain the ability to perform a wide range of tasks with confidence and ease, from the smallest details to complex and demanding activities such as playing a musical instrument.

🌟 More than just features, real benefits

• Feature: Self-developed somatosensory control -> Benefit: Provides intuitive and natural control, minimizes learning and maximizes interaction efficiency.
• Function: Independent finger movement and two-axis thumb -> Benefit: Enables fine motor skills and precise manipulation of small objects, significantly expands the range of tasks that can be performed.
• Features: Three layers of tactile sensors -> Benefit: Provides detailed tactile feedback, increases grip security, and enables better object recognition.
• Feature: Adaptive hybrid design -> Benefit: Ensures secure grip without damaging objects of different shapes and materials, increasing versatility of use.
• Function: Ability to perform 23 common gestures -> Benefit: Restores a wide range of communication and manipulative skills, contributing to better social integration.

🎯 Who is it the ideal choice for?

• For individuals with upper limb amputations who are looking for an advanced and functional prosthetic replacement that is as natural as possible.
• For users requiring a high level of dexterity and fine motor skills for everyday activities, work or hobbies.
• For researchers and innovators in the field of bionics, robotics and prosthetics who are looking for cutting-edge components for their projects.

❓ Do you have concerns? We will answer them

• Concern: Will the controls be complex and unnatural? -> Answer: Thanks to somatosensory technology and the collection of neuromuscular signals, the controls are intuitive and try to imitate the natural movement of your own hand as much as possible.
• Concern: How is it durable in everyday use? -> Answer: The hybrid design combines robust components with flexible elements for high durability and adaptability in different situations and environments.
• Concern: How accurate is the grasping of small objects? -> Answer: Independent finger movement, a two-axis thumb, and tactile sensors ensure exceptional precision and the ability to manipulate even very small and fragile objects.

📋 Technical specifications

Parameter	Value
Continuous current	3 A
Maximum speed	25~60 rpm
Maximum hand width	132 mm
Strength at the tips of four fingers	10 N
Maximum thumb force	12 N
Thumb transverse rotation range	90°

❓ Frequently Asked Questions

What is the main difference compared to conventional prostheses?

This bionic hand features integrated somatosensory control, independent finger movement, and tactile sensors that enable much more natural and adaptive interaction with the environment than traditional prostheses.

Is controlling a bionic hand really intuitive?

Yes, the system extracts neuromuscular signals from your arm and translates them into movement. This minimizes the need for learning and allows your hand to respond to your intentions almost instantly and naturally.

What types of tasks can a bionic hand perform?

She is able to handle a wide range of tasks – from delicately buttoning buttons and lifting small objects to more complex activities like playing the piano, thanks to her fine motor skills and adaptive grip.

What sensors does the hand use to perceive its surroundings?

The fingers are equipped with three layers of tactile sensors that detect the touch, shape and material of objects, providing valuable feedback for precise and secure gripping.

How many degrees of freedom and movable joints does this hand have?

The bionic hand has 10 movable joints and 6 degrees of freedom, allowing it to perform complex and coordinated movements for up to 23 different gestures and positions.

Can the hand be adapted to grasp different objects?

Yes, thanks to the hybrid design and adaptive grip, the hand can adapt to the shape and material of the objects being grasped to ensure a stable and secure hold without the risk of damage.

Who is the ideal user of this bionic hand?

It is ideal for individuals with upper limb amputees who are looking for an advanced prosthetic replacement with high functionality and maximum naturalness of movement and control.