Salary / price 1499 $
About the robot
Robot name Entry-level 7-Axis Robot myArm 300 - Pi
Employment type Full-time employees
Dimensions
Load capacity 0,2 kg
The speed of movement
Power
Energy consumption
Working hours 500 hours
The warranty period

Relocatable robot

*Payment terms, contracts, shipping/logistics, insurance details, etc. are provided upon request.

Share with friends:

Robot for industry

Articulated Artificial Intelligence (AI) Cobots Consumer Educational Robotics Research Smart Machines

Robots from the manufacturer

Salary / price 799 $ Open to relocation

Salary / price 189 $ Open to relocation

Salary / price 189 $ Open to relocation

Salary / price 349 $ Open to relocation

Salary / price 1399 $ Open to relocation

Salary / price 4999 $ Open to relocation

Salary / price 11999 $ Open to relocation

Salary / price 15999 $ Open to relocation

Salary / price 6999 $ Open to relocation

Salary / price 699 $ Open to relocation

Salary / price 799 $ Open to relocation

Salary / price 649 $ Open to relocation

Salary / price 949 $ Open to relocation

Salary / price 1299 $ Open to relocation

Salary / price 1699 $ Open to relocation

Salary / price 649 $ Open to relocation

Salary / price 549 $ Open to relocation

Salary / price 2499 $ Open to relocation

Salary / price 2399 $ Open to relocation

Specifications

  • Model: myArm-300
  • DOF: 7
  • Working Radius (mm): 300
  • Payload (g): 200g
  • Positioning Accuracy (mm): ± 0.5
  • Working Lifespan (h): 500
  • Appearance: Integrated all-wrapped structure
  • Power interface INPUT: DC 12V5A
  • Master control: raspberry pi 4B 4G
  • Core CPU Broadcom: BCM2711,64bit 1.5GHz 4Core
  • Core GPU: 500 MHz VideoCore VI
  • Core Memory: 4 GB 64-bit LPDDR4 25.6 GB/s
  • Core network port: *1
  • Core Bluetooth: 2.4G/5G
  • Core wireless: 802.11ac
  • Core video interface: microHDMI*2
  • Audio interface: 3.5mm Port
  • Input port(INPUT): 2,3,4,5,6,7,9,11,12,13,16,17,18,19,20,21,22,23,24,25,26,27
  • Output port (OUTPUT): Share with input
  • Auxiliary control type: ESP32 *2
  • Auxiliary control core: 240MHz dual core. 600 DMIPS, 520KB SRAM.Wi-Fi, dual mode Bluetooth
  • Auxiliary control core Flash: 4MB
  • Auxiliary control extension IO: G19,G21,G22,G23,G25,G33
  • USB: USB 3.0*2USB 2.0*2
  • Fixed hole position: Lego + Screws
  • Raspberry PI: Official mirror
  • PICO: V1.0
  • ATOM: V1.0
  • Free movement: Support
  • Joint movement: Support
  • Cartesian motion: Support
  • Track recording: Support
  • Wireless control: Support
  • Windows: Support
  • Linux: Support
  • ROS 1: Support
  • Python: Support
  • JS: Support
  • myBlockly: Support
  • myStudio: Support
  • Serial port control protocol: Support
  • TCP/IP: Support
  • MODBUS: Support


Description

Entry-level 7-Axis Robot myArm 300 - Pi

The myArm 300 Pi is an entry-level 7-axis robotic arm powered by Raspberry Pi 4B, paired with Elephant Robotics' customized Ubuntu Mate 20.04 OS. This setup offers a seamless, PC-like experience without the need for an external PC control. Perfect for robotics education, control logic teaching, robot applications, and ROS simulation classes, the robotic arm myArm 300 Pi is designed to enhance your learning and development projects. Rent or buy a robot like myArm 300 Pi to explore a world of possibilities in robotics.

Educational Research

The robotic manipulator myArm offers 7 degrees of freedom, surpassing 6-DOF robots, allowing movements as flexible as a human arm. With built-in interfaces, it supports advanced elbow joint posture changes. Ideal for practical teaching in robot posture research, motion path planning, redundancy management, kinematics, ROS development, robot application development, programming, and data processing.

Creative Development

myArm robot is designed to be 100% compatible with myCobot accessories, ensuring perfect adaptability in structure installation and software control. With almost 100% open hardware interfaces for Raspberry Pi 4B and M5Atom, users can pair it with personal Raspberry Pi 4B and M5Atom accessories for customized development.

Business Exploration

myArm robotic arm supports integration with other upper-level machines, including PCs, industrial control terminals, and mobile AGV chassis, suitable for various application scenarios. The programmable robot supports multiple connection control methods, both wired and wireless, meeting the needs of complex projects. Paired with different terminals, myArm can be used in various scenarios like robot application model displays, educational teaching kit displays, industrial 4.0 application displays, and composite robot application displays. It is an ideal robotic worker for business exploration.

Easy Robot Programming and ROS Simulation Support

myBlockly, a drag-and-drop programming software, is perfect for beginners. With block-based programming and graphical debugging tools, even novices can easily control the robotic arm. The Python 2/3 development environment supports various development driver libraries like OpenCV, QT, and pymycobot, meeting advanced development needs in robot control, image recognition, and frontend development. The system offers multi-version support for ROS1 and ROS2, with consistent extension support across versions. It provides RVIZ and MOVEIT demo cases under different versions, meeting users' in-depth development needs. This smart robot ensures comprehensive support for robot programming.

myAGV + myArm Combo

The mobile chassis and robotic arm development combo allows starting collaborative robot projects at a low cost. It includes SLAM mapping, autonomous navigation, ROS development environment, 7-axis collaborative robot control, visual recognition, and inter-device communication. This combo is ideal for collaborative robots and work for the robot in various research and educational projects.

Enhance your projects with myArm 300 - Pi, whether you hire, rent, or buy this advanced robotic manipulator. Experience the next generation of AI robotics with a compact and multifunctional robotic platform that ensures top performance and efficiency in diverse environments.