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Open ROS simulation development environment, built-in kinematics forward and inverse solution algorithm. The whole series has been sold to 60+ countries around the world with more than 5,000 units shipped. Start your intelligent manufacturing robot learning journey anytime, anywhere!
Raspberry PI version robotic arms are a joint product developed by Elephant Robotics and Raspberry PI. Adopting the Raspberry PI 4B as its core processor, and reserving the original hardware interface of Raspberry PI 4B, the robotic arm meets the application needs of the Linux system with the one-in-all structure for portable robot development. Featuring built-in Ubuntu 20.04. the system and development environments like Python, ROS, and myBlockly can be developed after connecting with the displayer without matching with the PC.
Equipped with up to 12 standard 24V industrial I/O interfaces, it can be expanded to develop PLC control independent programming, support mainstream control interfaces, and a wealth of terminal expansion accessories to help explore the boundaries of personal applications.
myCobot 320 PI is a free-to-match visual development application, intuitive structural analysis of mechanical motion principles, and enterprise-level communication protocol specifications and applications.
Based on different kinds of applications, open-source to its interfaces and enables to achieve objects recognition, facial recognition, image recognition etc.
Easily learn to program myCobot in your style and ready to start your robotics journey.
Developing in ROS - the world's mainstream robot communication framework, you can control myPalletizer and conduct algorithm verificationin under a virtual environment, which reduces the requirements for the experimental environment and improves the experimental efficiency.
myCobot 320 robotic arm boasts a 350mm working radius, with1000g payload, and 1mm repeatability, as an ideal solution for your scene exploration needs.
24V industrialized electrical interface, to complete your industrial scene development needs, key interaction, screen display, PLC interface, allowing you to quickly and safely build robotic arm application exploration scenarios.
Multiple adapters meet the requirements of a variety of application scenarios
Our policy lasts 7 days. If 7 days have gone by since your purchase, unfortunately we can’t offer you a refund or exchange.To be eligible for a return, your item must be unused and in the same condition that you received it. It must also be in the original packaging.
All products use standard cartons and special customized super hard paper shells to firmly fix the products and prevent damage from impact.
Feature | myCobot 320 PI | myCobot 320 M5 |
---|---|---|
Degree of Freedom | 6 | 6 |
Payload | 1000g | 1000g |
Working Radius | 350mm | 350mm |
Positioning Accuracy | ±0.5mm | ±0.5mm |
Weight | 3360g | 3360g |
Working Radius | 350mm | 350mm |
Positioning Accuracy | ±0.5mm | ±0.5mm |
Working Temperature | -5℃~45℃ | -5℃~45℃ |
Working Lifespan | 2000h | 2000h |
Power Input | DC 24V 120W | DC 24V 120W |
Joint Maximum Speed | 160°/s | 160°/s |
MASTER | RASPBERRY PI | ESP32 |
SOC | Broadcom BCM2711 | / |
CPU | 64bit 1.5GHz 4B | / |
GPU | 500 MHz VideoCore VI | / |
RAM | 2G | / |
Bluetooth | Dual mode Bluetooth 2.4G/5G | / |
WiFi | 802.11AC,Dual model WiFi | / |
AUXILIARY CONTROL | ESP32 | / |
Computing Performance | 600DMIPS | 600DMIPS |
SRAM | 520KB | 520KB |
Flash | 4M | 4M |
Bluetooth | / | Dual mode Bluetooth 2.4G/5G |
WiFi | / | 802.11ac |
USB | USB3.0*2, USB2.0*2 | / |
Type-C | *1 | / |
Network Port | Gigabit Ethernet Port*1 | / |
Audio | 3.5mm*1 | / |
HDMI | microHDMI*2 | / |
Development Platforms(OS) | Windows, Linux, MacOS | Windows, Linux, MacOS |
Programming | Python | Python, C++, C#, JavaScript |
ROS | ROS1 | ROS1 |
Communication Protocol | Serial Communication, MODBUS, TCP/IP | Serial Communication, MODBUS, TCP/IP |
Development Software | myBlockly, myStudio | myBlockly, myStudio, UiFlow, Arduino |
I/O Interfaces | INPUT*6, OUTPUT*6 | INPUT*6, OUTPUT*6 |
Returns: You have 7 days from receiving your order to return unopened items. You'll be responsible for any return shipping costs or other risks.
Warranty: If your product malfunctions during normal use within the warranty period, we'll repair it for free. For more details on the warranty, please check the WARRANTY & RETURN.
It typically takes 7-15 business days to process your order after payment before it ships out. This timeframe accounts for order verification, quality control measures, and packaging. For more details on the shipping, please check the & Shipping Method&Time.
Once your order is shipped, you can expect to receive it within 1-2 weeks via international express delivery.
For non-technical players, myCobot supports the drag teaching function. Instead of complex programming, you can use our drag-and-drop teaching function. Simply move the robot arm to the desired positions and it will record the movements. You can save up to 60 minutes of movements and switch between them easily.
Check out our product introduction and user manual link at myCobot 320 PI & myCobot 320 M5. This will give you a good overview of the robot arm's features and functionalities.
Get software tutorial: If you're interested in programming your robot arm, head over to our GitHub repository. Here you'll find tutorials specifically focused on software and coding the robot arm.
Absolutely! myCobot is designed for customization. Here are two ways to make it work for you:
Use our coding tools (API): We provide APIs in Python, C++, C#, and Javascript. These allow you to control your myCobot directly or remotely, giving you more flexibility over how you use it.
Deep dive into the code (ROS): If you're comfortable with coding, you can access and modify the Robot Operating System (ROS) code directly. ROS is open-source, which means you have a lot of control over how the robot arm functions.
The repeated positioning accuracy of myCobot 280 is ±0.5mm, and the repeated positioning accuracy of myCobot 320 is ±0.3mm. The repeat positioning accuracy of the two manipulators is determined based on the length of use.
The positioning of the two products is not the same. The ER 280 robotic arm is a consumer type and is mostly used in the education field. It is recommended to use 1-2 hours to rest for 15-30 minutes. The repeat positioning accuracy can reach ±0.2mm in a short time.The ER 320 is suitable for commercial work within 12 hours, with a repeat positioning accuracy of ±0.3mm. If used in a short time, the repeat positioning accuracy can also reach ±0.2mm.
The robotic arm does not have a camera. But we have machine vision-related kits now available for vision development.