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MaxArm: precise, expandable robotic arm – WiFi/Bluetooth, Python/Arduino, AI, multiplatform. Create, code and innovate!
€253.99
Discover the MaxArm robotic arm, a marvel of engineering featuring a sophisticated link mechanism and advanced inverse kinematics for smooth, precise movement across x, y, and z axes. Designed with versatility in mind, MaxArm offers diverse control options including Python and Arduino programming, app, PC, wireless controller, and mouse compatibility—making it perfect for learners and developers of all levels. Its extensive sensor ports encourage limitless AI applications, fueling creativity and innovation. Powered by an open-source ESP32 controller, MaxArm includes buzzer, LED, USB interfaces, plus WiFi and Bluetooth for effortless wireless data transmission and expansion. Equipped with three high-performance smart servo motors and trajectory planning algorithms, it delivers exceptional accuracy and heavy payload capability. Whether for education, prototyping, or advanced robotics projects, MaxArm combines cutting-edge technology and user-friendly design to bring your robotic visions to life.
✨Free delivery✨
Robotic Arm Kit, MaxArm for Arduino Python Programming ESP32 Open Source Smart Robot Arm with Bus Servo, Suction Nozzle, WiFi Bluetooth Connection, STEM Science Education, Starter Kit
The MaxArm Robotic Arm Kit offers an innovative open-source solution for STEM education and smart robot arm enthusiasts. Featuring Arduino and Python programming support, an ESP32 controller, bus servos, suction nozzle, and WiFi Bluetooth connectivity, it enables flexible control and learning. Designed for hands-on science and technology exploration, this starter kit opens the door to advanced robotics with ease.
Linkage Mechanism Improves Efficiency
The linkage mechanism-based body design dramatically enhances joint efficiency. This allows the robotic arm's end effector to smoothly and precisely move along the X, Y, and Z axes, delivering versatile motion for diverse applications.
The linkage mechanism-based body design dramatically enhances joint efficiency. This allows the robotic arm's end effector to smoothly and precisely move along the X, Y, and Z axes, delivering versatile motion for diverse applications.
Compact Structural Design
Constructed from hard aluminum alloy and carbon fiber, the MaxArm ensures durability and quality. Metal bearings provide smooth, accurate joint movements while the compact form factor keeps the arm flexible and space-efficient.
Constructed from hard aluminum alloy and carbon fiber, the MaxArm ensures durability and quality. Metal bearings provide smooth, accurate joint movements while the compact form factor keeps the arm flexible and space-efficient.
Inverse Kinematics Algorithm, Free Adjustment
Provide Linkage Coordinate System Diagram
Developed on the ESP32 platform, the kit offers inverse kinematics analysis and Denavit-Hartenberg (DH) modeling. This feature allows users to deeply understand the MaxArm's working principles via intuitive coordinate diagrams.
Developed on the ESP32 platform, the kit offers inverse kinematics analysis and Denavit-Hartenberg (DH) modeling. This feature allows users to deeply understand the MaxArm's working principles via intuitive coordinate diagrams.
Linkage Inversion Solution, Easy Control
Simply input the desired end effector coordinates, and the inverse kinematics algorithm calculates each servo's angles for seamless action debugging. The kit includes source code support for this powerful function, making control intuitive.
Simply input the desired end effector coordinates, and the inverse kinematics algorithm calculates each servo's angles for seamless action debugging. The kit includes source code support for this powerful function, making control intuitive.
Support Python & Arduino Programming
MaxArm embraces multi-platform programmability with Arduino and Python support. This open-source compatibility encourages experimentation, expansion, and rapid development for learners and professionals alike.
MaxArm embraces multi-platform programmability with Arduino and Python support. This open-source compatibility encourages experimentation, expansion, and rapid development for learners and professionals alike.
Multiple Control Methods Integrated
The kit offers diverse control options including WiFi and Bluetooth connections for remote management. This versatility accelerates the learning curve and expands potential project scopes.
The kit offers diverse control options including WiFi and Bluetooth connections for remote management. This versatility accelerates the learning curve and expands potential project scopes.
ESP32 Controller for Open Source Freedom
Powered by the ESP32 open-source controller, the MaxArm delivers high performance and reliability. This microcontroller enables seamless integration with IoT and AI applications.
Powered by the ESP32 open-source controller, the MaxArm delivers high performance and reliability. This microcontroller enables seamless integration with IoT and AI applications.
Rigorous Structural Design
Every component is meticulously engineered, combining robustness with flexibility for precise motion and long-lasting durability, suitable for education and hobby projects.
Every component is meticulously engineered, combining robustness with flexibility for precise motion and long-lasting durability, suitable for education and hobby projects.
Bus Servo and Air Pump Nozzle
Integrated bus servos provide precise control on all joints, while the suction air pump nozzle enables the robotic arm to manipulate objects effectively, enhancing practical functionality.
Integrated bus servos provide precise control on all joints, while the suction air pump nozzle enables the robotic arm to manipulate objects effectively, enhancing practical functionality.
Efficient Package and Component Layout
The MaxArm comes with a neat and clear package including all parts streamlined for easy assembly and immediate use, ideal for beginners and educators.
The MaxArm comes with a neat and clear package including all parts streamlined for easy assembly and immediate use, ideal for beginners and educators.
Sensor Expansion Friendly
Designed for easy addition of sensors, the MaxArm supports a wide array of extensions including ultrasonic, touch, color, and sound sensors, expanding its learning and project potential.
Designed for easy addition of sensors, the MaxArm supports a wide array of extensions including ultrasonic, touch, color, and sound sensors, expanding its learning and project potential.
Expandable with AI Vision
Experiment with cutting-edge AI vision technology by adding compatible modules, allowing the Smart Robot Arm to recognize and interact intelligently with its environment.
Experiment with cutting-edge AI vision technology by adding compatible modules, allowing the Smart Robot Arm to recognize and interact intelligently with its environment.
Ultrasonic and Touch Sensors Supported
Enhance interaction by integrating ultrasonic distance measurement and touch sensors. These features increase engagement possibilities in robotics and automation projects.
Enhance interaction by integrating ultrasonic distance measurement and touch sensors. These features increase engagement possibilities in robotics and automation projects.
Color and Sound Control Features
Creative control options include color detection and sound recognition capabilities, making it a perfect hands-on educational tool for coding and electronic interaction.
Creative control options include color detection and sound recognition capabilities, making it a perfect hands-on educational tool for coding and electronic interaction.
Complete Package List
MaxArm provides a full kit with high-quality parts such as servos, suction cups, controllers, and necessary cables. This ensures users have everything needed to build and start experimenting immediately.
MaxArm provides a full kit with high-quality parts such as servos, suction cups, controllers, and necessary cables. This ensures users have everything needed to build and start experimenting immediately.
MaxArm Product Visual
Showcasing the MaxArm, a compact and efficient robotic arm kit with linkage structure and suction cup. Its design supports multiple motion controls and smart integration for educational robotics.
Showcasing the MaxArm, a compact and efficient robotic arm kit with linkage structure and suction cup. Its design supports multiple motion controls and smart integration for educational robotics.
LeArm Product Visual
The LeArm, featuring 6-channel servo control, provides enjoyable assembly and robust operation for robotics learning with a classic 6-degree-of-freedom design plus a gripper.
The LeArm, featuring 6-channel servo control, provides enjoyable assembly and robust operation for robotics learning with a classic 6-degree-of-freedom design plus a gripper.
xArmAI Product Visual
xArmAI offers advanced AI vision and voice interaction technologies, delivering a 6-DOF robotic arm with intelligent features suitable for diverse automation applications.
xArmAI offers advanced AI vision and voice interaction technologies, delivering a 6-DOF robotic arm with intelligent features suitable for diverse automation applications.
Hiwonder-xArm1S Product Visual
The Hiwonder-xArm1S, supporting Arduino upgrades, is a versatile 6-DOF robotic arm with bus servo control, suitable for robotics education and development.
The Hiwonder-xArm1S, supporting Arduino upgrades, is a versatile 6-DOF robotic arm with bus servo control, suitable for robotics education and development.
miniArm Product Visual
miniArm is a starter kit with 5-DOF including a gripper, designed for STEM projects with Arduino UNO compatibility and lightweight compact build.
miniArm is a starter kit with 5-DOF including a gripper, designed for STEM projects with Arduino UNO compatibility and lightweight compact build.
uHand UNO Product Visual
A bionic robot hand with Arduino UNO controller support, designed for exploring robotic hand movements and advanced automation techniques.
A bionic robot hand with Arduino UNO controller support, designed for exploring robotic hand movements and advanced automation techniques.
JetMax Product Visual
JetMax is a ROS-supporting robot arm with 4 grippers, powered by Jetson Nano, optimized for complex robotic projects requiring expanded functionality.
JetMax is a ROS-supporting robot arm with 4 grippers, powered by Jetson Nano, optimized for complex robotic projects requiring expanded functionality.
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500 Items
Specific References
Une Polyvalence Supérieure à Mon Ancien Modèle
Par rapport à l’ancienne version du bras Grove Arm que j’avais, le MaxArm se distingue notamment par ses différents modes de contrôle (notamment la compatibilité Python et Arduino) et ses ports réservés pour les capteurs, ce qui ouvre beaucoup plus de possibilités d’apprentissage et de personnalisation. Sa prise en charge du WiFi/Bluetooth en fait aussi un choix nettement plus moderne et pratique pour mes projets éducatifs.
Skeptical at First, Now Impressed!
I was honestly wary about the MaxArm robotic arm, thinking it was probably just another hobbyist gadget with overblown features. But once I started playing around with its different control methods—from Python scripts to using a simple wireless controller—I was amazed at how smoothly and precisely it moved. The open ESP32 and multiple sensor ports totally opened up my AI project ideas, and its payload strength surprised me. Now I can’t imagine my robotics workspace without it; the hype is real!
Un bras robotique polyvalent qui m’a bluffé (et surpris !)
En cherchant un projet sympa à faire avec mon fils ado, on a craqué pour le MaxArm. Clairement, au début j’étais un peu intimidé par toutes ses fonctions, mais une fois déballé, quel plaisir ! On est vite passés de petits tests rigolos à des manipulations plus avancées, et franchement, il fait bien plus que ce que j’imaginais.
MaxArm Sets a New Standard for Accessible Robotics
Impressively versatile and intuitive, the MaxArm robotic arm delivers a professional-grade experience whether you’re a beginner or an advanced developer. The seamless integration with Python and Arduino made setup a breeze, and its precision blew me away during my first project build. I especially appreciated the open-source design and extensive connectivity options—it’s a rare find that truly inspires creativity and exploration.
Discover the MaxArm robotic arm, a marvel of engineering featuring a sophisticated link mechanism and advanced inverse kinematics for smooth, precise movement across x, y, and z axes. Designed with versatility in mind, MaxArm offers diverse control options including Python and Arduino programming, app, PC, wireless controller, and mouse compatibility—making it perfect for learners and developers of all levels. Its extensive sensor ports encourage limitless AI applications, fueling creativity and innovation. Powered by an open-source ESP32 controller, MaxArm includes buzzer, LED, USB interfaces, plus WiFi and Bluetooth for effortless wireless data transmission and expansion. Equipped with three high-performance smart servo motors and trajectory planning algorithms, it delivers exceptional accuracy and heavy payload capability. Whether for education, prototyping, or advanced robotics projects, MaxArm combines cutting-edge technology and user-friendly design to bring your robotic visions to life.
✨Free delivery✨
From Curious Tinkerer to Confident Creator
I bought the MaxArm robotic arm hoping to level up my robotics hobby, but it quickly became the heart of my projects. Before, I struggled with clunky controls and limited possibilities—now, programming smooth, precise movements with Python or Arduino feels effortless, and seeing it execute complex tasks, wirelessly, makes me feel like a true engineer. Its flexibility and power have sparked new ideas, making robotics more accessible and exciting than I ever imagined.