17DOF degrees of freedom dancing robot full set of humanoid robot ROHS
This all-in-one 17DOF humanoid robot kit features high-torque servos for smooth dancing, walking, and complex movements. Fully RoHS compliant, it ensures safety for classroom use. Pre-assembled with easy programming and universal compatibility (Arduino/Scratch/Python), it’s ideal for STEM education, maker activities, and robotics training.
$350.00
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+8615019528638
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Specifications
Code
:
DG028
Brand
:
DAGU
Detail
17DOF Humanoid Dancing Robot Full Set
(RoHS Compliant) -
Classroom STEM Teaching Kit
Designed specifically for campus classrooms, maker spaces, and STEM education courses, this 17 Degrees of Freedom (17DOF) humanoid dancing robot full set is a professional, safe, and all-in-one teaching tool, perfectly tailored to the needs of primary and secondary school students’ experimental learning, robotics training, and teachers’ instructional demonstrations. As a comprehensive STEM education solution, it integrates mechanical structure, programming control, and dynamic movement, helping students bridge the gap between theoretical knowledge and hands-on practice, and fostering their innovative thinking, logical reasoning, and hands-on operation abilities.
The full set features a 17-degree-of-freedom humanoid design, with a scientific and reasonable distribution of joints: 1 DOF for the head, 6 DOFs for the arms, and 10 DOFs for the legs, which perfectly simulates human body movements with high flexibility and fluency. Equipped with high-torque digital servos (metal gear, high precision, and zero dead zone), the robot can perform a variety of delicate movements, including dancing, walking, squatting, turning, arm waving, and even complex actions like push-ups and somersaults, making it vivid and interesting for classroom teaching and student experiments. The stable movement performance ensures that students can clearly observe the connection between programming instructions and mechanical movements, facilitating their understanding of robotic kinematics and motion control principles.
Most importantly, the entire robot set is fully RoHS compliant, strictly adhering to international environmental protection and safety standards, and has passed relevant safety certifications. It does not contain harmful substances such as lead, mercury, cadmium, or hexavalent chromium, making it non-toxic, odorless, and environmentally friendly, which is fully suitable for long-term use in campus classroom environments and safe for student operations. From the aluminum alloy frame to the internal servos and control board, all components meet RoHS requirements, ensuring teachers can use it with confidence and students can operate it at ease, fully complying with campus teaching safety specifications.
The full set provides all necessary components for immediate use, eliminating the need for additional purchases. The standard package includes a 17DOF humanoid robot body (aluminum alloy frame, lightweight and high-strength), 17 high-torque digital servos (with 1 spare servo optional), a main control board (compatible with Arduino), a 2.4G/PS2 wireless remote control system, a rechargeable lithium battery, an AC charger, a USB cable, programming software, and a detailed quick-start manual (available online). The modular design makes assembly simple and convenient, requiring no complex tools; students can complete the assembly independently under the guidance of teachers, which helps improve their hands-on ability and understanding of robotic structure.
In terms of teaching adaptability, the robot is highly compatible with mainstream teaching programming platforms such as Arduino, Scratch, and Python, supporting both graphical programming (suitable for beginners) and code programming (suitable for advanced learning). It comes with preset dance motion groups and open-source code, and supports secondary development; teachers can design personalized teaching courses according to students’ age and learning level, guiding students to program and customize dance movements, walking postures, and interactive actions. Additionally, the robot supports sensor expansion (such as ultrasonic sensors, temperature and humidity sensors), enabling functions like obstacle avoidance and fall recovery, which enriches teaching content and meets the needs of different teaching scenarios, from basic robotic knowledge learning to advanced programming and robotics competitions.
With a compact and humanoid appearance (height about 365-400mm, weight about 1.68kg with battery), the robot is easy to store and carry, suitable for classroom demonstrations, group experiments, after-school maker activities, and robotics competitions. Its stable performance, easy operation, and RoHS safety compliance make it an ideal teaching tool for STEM courses, robotics interest groups, and campus maker spaces, helping to cultivate students’ interest in science and technology and lay a solid foundation for their future exploration in the field of robotics and artificial intelligence.
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