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 is a versatile and open-source STEM educational tool designed for Arduino and Python programming enthusiasts. Powered by an ESP32 controller and equipped with bus servos and a suction nozzle, it supports WiFi and Bluetooth connectivity. This smart robot arm offers a compact design with excellent joint efficiency and multiple control options, making it ideal for beginners and advanced users to explore robotics and automation.
The MaxArm utilizes a sophisticated linkage mechanism that significantly enhances joint efficiency. This innovative design allows smooth and precise movements of the end effector along the x, y, and z axes, enabling complex robotic tasks with high accuracy and reliability.
Crafted from durable aluminum alloy and carbon fiber, the robotic arm boasts a compact and sturdy structural design. High-quality metal bearings ensure smooth joint movement, while the streamlined body provides enhanced flexibility and ease of assembly for efficient operation.
Linkage Mechanism & Compact Design Details
Powered by the ESP32 platform, this model provides an inverse kinematics coordinate system diagram for precise control. Users can gain deep understanding of MaxArm’s functioning and programming by exploring these open-source analysis tools, perfect for education and experimentation.
The MaxArm supports easy control through its linkage inversion solution, allowing users to input end effector coordinates and automatically calculate each servo angle. This facilitates smooth debugging and programming and comes with full function source code for inverse kinematics.
Featured Large Visuals
An impressive high-resolution image showcasing the full structure and design of the MaxArm robotic arm. The crisp detail highlights both the mechanical joints and the compact construction, emphasizing its advanced engineering and build quality.
Captivating view of MaxArm emphasizing its smart functionality and precise servo control. This detailed image enhances product comprehension for customers and engineers looking to explore the fine aspects of robotic arm technology.
Extended Carousel Preview Images
Sensor Expansion & Features Overview
Detailed Product Comparison
|  MaxArm |  LeArm |  xArmAI |  Hiwonder-xArm1S |  miniArm |  uHand UNO |  JetMax |
|---|
| Customer Reviews | 4.0 out of 5 stars (12 reviews) | 4.1 out of 5 stars (292 reviews) | — | 4.0 out of 5 stars (256 reviews) | 4.1 out of 5 stars (15 reviews) | 3.1 out of 5 stars (6 reviews) | — |
| Price | $159.99 | $139.99 | $399.99 | $199.99 | $89.99 | $169.99 | — |
| Controller | ESP32 Open-source Controller | 6 Channels Servo Controller | ESP32, CoreX | xArm 1S Bus Servo Controller | Arduino UNO | Arduino UNO | Jetson Nano |
| DOF | 4DOF + Suction Cup | 6DOF (5DOF + Gripper) | 6DOF (5DOF + Gripper) | 6DOF (5DOF + Gripper) | 5DOF (4DOF + Gripper) | Pan-tilt angle 180 degrees | 4DOF + Suction, Gripper |
| Feature | Linkage Structure, Suction Cup | Enjoy Assembling Robotic Arm | AI Vision & Voice Interaction | Support Arduino Upgrade | Starter Kit, STEM Project | Bionic Robot Hand | Support ROS, 4 Grippers |
| Power Supply | 12V 5A DC Adaptor | 7.5V 3A DC Power Adapter | 7.5V 6A DC Power Adapter | 7.5V 6A DC Power Adapter | Batteries(included) | Batteries(included) | 12V 5A DC Adapter |
| Product Dimension | 6×6×10 in (160×160×260 mm) | 11.2×4.7×18.3 in (285×120×465 mm) | 6×5.5×16.8 in (154×140×426 mm) | 6×5.5×16.8 in (154×140×426 mm) | 8×5×13 in (207×120×339 mm) | 8×5×10 in (207×120×257 mm) | 17.7×6.3×10.2 in (450×160×260 mm) |
| Product Weight | 3 lb (1.3 kg) | 2.73 lb (1.24 kg) | 1.98 lb (0.9 kg) | 1.98 lb (0.9 kg) | 1.5 lb (0.66 kg) | 1.5 lb (0.68 kg) | 3.52 lb (1.6 kg) |
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