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- Powered by ESP32 microcontroller
- Linkage mechanism for improved inverse kinematics learning
- Compatible with Hiwonder sensors for task implementation
- Simulates industrial scenarios with sliding rail
- Note: MaxArm starter kit includes robot arm only; Standard Kit includes sensor kit; Advanced kit includes sensor kit and AI vision; Developer kit includes sensor kit, AI vision, and sliding rail
The tutorial link for MaxArm: https://drive.google.com/drive/folders/1wi-O2ia-izYWM979iByIws6S4LRe7LKI?usp=sharing
! Note: This page is for MaxArm developer kit, please check the below information to get other kits:
If you want to get the Starter Kit including robot arm only, please check this link: https://www.robotshop.com/en/hiwonder-maxarm-open-source-robot-arm-powered-by-esp32-support-python-arduino-programming-inverse-kinematics-learning-starter-kit.html
If you want to get the Standard Kit including sensor kit, please check this link: https://www.robotshop.com/products/hiwonder-maxarm-open-source-robot-arm-powered-by-esp32-support-python-arduino-programming-inverse-kinematics-learning-standard-kit
If you want to get the Advanced Kit including sensor kit and AI vision, please check this link: https://www.robotshop.com/en/hiwonder-maxarm-open-source-robot-arm-powered-by-esp32-support-python-arduino-programming-inverse-kinematics-learning-advanced-kit.html
MaxArm is an open-source robotic arm powered by ESP32 microcontroller. The linkage mechanism designed body are equipped with high-quality bus servos and suction nozzle. Using inverse kinematics technology, MaxArm can execute variety of tasks such as object sorting, picking, transporting and stacking.
Supporting Python and Arduino programming and Wi-Fi and Bluetooth communications, MaxArm can also be controlled by APP, PC software, wireless remote controller and mouse control. It also supports variety of sensors to turn your creative AI ideas into reality!
1) Linkage Mechanism Improves Efficiency —— Using the linkage mechanism designed body, MaxArm greatly improves its joints efficiency so as to allow the end effector move along x-y-z axes.
2) Compact Structural Design —— Made from hard aluminium alloy and carbon fiber for high quality. The metal bearings for smoother and more accurate joint movement. Compact design gets the body small and flexible.
Inverse Kinematics Algorithm, Free Adjustment:
1) Provide Linkage Coordinate System Diagram —— Based on ESP32 development platform, the inverse kinematics analysis and DH model of MaxArm are available, which allows you to deeply comprehend the working principle of MaxArm.
2) Linkage Inversion Solution, Easy Control —— By inputting the coordinate of the end effector, Inverse kinematics can calculate the angle of each servo to facilitate the action debugging. (Provide the function source code of inverse kinematics)
Sensors Expansion, to Create More Possibilities：
Compatible with glowing ultrasonic sensor, infrared sensor, color sensor, touch sensor and other electronic modules, MaxArm converts more creative ideas into reality!
① Ultrasonic Detection and Stacking —— With ultrasonic sensor, MaxArm can perform intelligent stacking after detecting the blocks.
② Touch Detection and Placement—— With touch sensor, MaxArm can detect the touch action and place the blocks.
③ Color Sorting —— With color sensor, MaxArm can recognize and sort the target color.
④ Intelligent Sound Control—— With sound sensor, MaxArm can place the blocks in the corresponding position by recognizing the number of knocks.
Sliding Rail Extension:
Through the reserved holes in the base, MaxArm can be easily assembled on the sliding rail. It can perform block picking and transporting to simulate industrial application scenarios.
ESP32 Open-source Controller:
ESP32 open-source controller consists of an ESP32 core board and multi-functional extension board. In addition to servo interfaces, it is also equipped with buzzer, LED, USB interfaces and other electronic components. Multiple expansion interfaces are lead out, so that users can directly connect other sensors and execution modules for secondary development. Supporting WiFi and Bluetooth, ESP32 core board is convenient for users to develop the application of wireless data transmission.
1x Robotic arm (assembled)
1x 12V 5A power adapter
1x Blocks (3x 3cm)
1x USB cable
4x Suction cup
1x Wireless handle controller
1x Glowing ultrasonic sensor
1x Color sensor
1x Touch sensor
1x Sound sensor
1x Light sensor
1x Digital tube
2x Infrared sensor
3x 4 PIN wire ( 30cm)
1x Screw bag
1x WonderCam AI vision module
1x Metal brackets
1x Fan module
1x Dot matrix module
3x 4 PIN wire ( 50cm)
1x Sliding rail bracket
1x Sliding rail
MaxArm robot arm: 158 mm x 160 mm x 260 mm
Sliding Rail: 608 mm x 188 mm x 66 mm
Product Dimensions: 158 x 160 x 260 mm (Length x Width x Height)
Weight: 1.3 kg
Material: Metal and Fiberglass Board
Degrees of Freedom (DOF) of Robotic Arm: 4 DOF
Power: 12V 5A DC Adapter
Controller System: ESP32 Open Source Controller
Software: PC Software, iOS/Android App
Communication Method: Wi Fi and Bluetooth
Servo: HTS 35H Bus Servo and LFD 01M Micro Servo
Control Method: Computer/Phone/Wireless Handle/Mouse Control
Package Size: 298 x 210 x 175 mm (Length x Width x Height)
Package Weight: Approximately 2 kg
Size: 608 x 188 x 66 mm (Length x Width x Height)
Working Voltage: 12V
Working Current: 1.4A