Core Robot Bionic robotic arm with intelligent somatosensory control

• ✔ Advanced somatosensory control for intuitive interaction.
• ✔ Independent movement of each finger and dual-axis thumb for maximum flexibility.
• ✔ Adaptive grip with the ability to detect the shape and material of the object.
• ✔ Equipped with three layers of tactile sensors for sensitive feedback.
• ✔ Supports a wide range of gestures – up to 23 common grips.
• ✔ Robust and flexible hybrid design for reliability and adaptability.

Introducing the Core Robot bionic robotic hand, a groundbreaking device that blurs the lines between man and machine. This innovation integrates bionics, mechanics, materials science, and information technology to offer unprecedented levels of control and adaptability. It is designed to mimic the naturalness of the human hand with remarkable precision and fluidity.

✨ What can this robotic miracle do?

• It contains 6 independent drive units for each finger and two-axis thumb movement.
• It uses advanced somatosensory technology that translates the wearer's neuromuscular signals.
• Some variants may integrate brain-computer interface technology and artificial intelligence algorithms.
• Up to 10 movable joints and 6 degrees of freedom for dynamic range of motion.
• It enables coordinated five-finger movement and seamless switching between 23 common gestures.
• Equipped with five ultra-miniature motors that simulate the human hand for precise gripping operations.
• Hybrid design combining strength and flexibility, with tactile sensors in three layers for touch, shape and material detection.

🔬 Explore every detail of the innovative bionic hand

The intelligent bionic hand represents a breakthrough in robotics, combining the latest findings from many scientific disciplines. At its heart is somatosensory control technology, which allows the bionic hand to move as smoothly and adaptively as human hands. The system can extract neuromuscular signals from the wearer's arm, recognize the movement intention and translate it into precise actions of the robotic hand. The flexibility of this hand is astounding. For example, the BrainRobotics model has 10 movable joints and 6 degrees of freedom, allowing independent movement and coordinated function of all five fingers. The hand is able to perform 23 common gestures and seamlessly switch between them. The OHand™, on the other hand, features five ultra-miniature motors to independently control each finger, ensuring extremely precise gripping operations. The design, inspired by research at Johns Hopkins University, combines strength with flexibility, allowing the hand to adapt its gripping force to the shape and material of the object, ensuring a stable and gentle grip. Three layers of tactile sensors provide valuable feedback about the touch and properties of objects.

😟 Are you bothered by the limitations of traditional systems?

Traditional robotic manipulators and prosthetic hands often lack finesse, adaptability, and intuitive control. Many users struggle with limited ability to perform complex tasks, which reduces their independence and efficiency. Scientific and research projects are looking for solutions that simulate human anatomy and motor skills with the greatest possible accuracy, but current technologies have not been able to fully meet these demands for realism and functionality.

🚀 Regain full control with bionic precision!

The Core Robot bionic robotic hand is the answer to these challenges. With its cutting-edge technology and design, it offers a solution that overcomes the limitations of the past. It allows users to achieve natural and fluid control, opening up new possibilities for everyday activities, scientific research and innovative applications. Get a tool that allows you to perform delicate manipulations with confidence and ease, whether it's complicated tasks in the laboratory or improving the quality of life.

🌟 More than just features, real benefits:

• Somatosensory control: Natural and intuitive control of the hand through mere mental intention.
• Independent finger movement: Allows for fine motor skills and precise manipulation of small objects.
• Adaptive grip: Protects fragile objects and ensures a stable grip regardless of shape and material.
• Tactile sensors: Provide feedback for better interaction and safer handling.
• Wide range of gestures: Covers most everyday needs and opens the door to complex tasks.

🎯 Who is it the ideal choice for?

• Research and development teams: For advanced projects in robotics, bionics, and artificial intelligence.
• Educational institutions: As a top-notch demonstration tool for engineering students.
• Innovators and DIYers: For creating your own advanced robotic systems and experiments.

🤔 Do you have any concerns? We'll answer them:

• Concern: Complexity of control? -> Answer: Thanks to somatosensory technology, the control is designed to be as natural and intuitive as possible, minimizing the learning curve.
• Concern: Limited durability and lifespan? -> Answer: The hybrid design combines robust structural elements with flexible materials, ensuring high durability and reliability in a variety of applications.
• Concern: Not enough precision for delicate tasks? -> Answer: Independent finger control, a dual-axis thumb, and an adaptive grip with tactile sensors allow for even the finest and most precise manipulations.

⚙️ Technical specifications

Parameter	Value
Mark	Core Robot
Continuous current	3 A
Maximum speed	25~60RPM
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 are the main applications of this robotic hand?

This bionic hand is ideal for research and development projects in robotics, for educational purposes, for testing advanced grasping algorithms, and for implementation in prototype prosthetic solutions.

How is the hand controlled?

The hand uses advanced somatosensory technology that interprets neuromuscular signals from the user's arm and translates them into smooth and intuitive movements.

Is it possible to program custom gestures or grips?

Yes, the open architecture and advanced controllers allow developers to implement their own algorithms and program specific gestures for a wide range of applications.

What is the difference between this model and standard robotic grippers?

The main difference lies in the bionic design and somatosensory control, which mimics the naturalness of the human hand with a high degree of flexibility, adaptability and feedback, which conventional tentacles do not offer.

What is the level of accuracy when handling small objects?

Thanks to the independent movement of each finger, a two-axis thumb and three layers of tactile sensors, the hand achieves exceptional precision, enabling manipulation of even very small and fragile objects.

Is the product suitable for beginners in robotics?

The product is designed for more advanced users and developers with some knowledge of robotics and programming, however, it is a great platform for learning and experimenting with bionic systems.