ALL-IN-ONE DESIGN

The all-in-one design enables it to fully utilise the working space and perfectly integrate into the production environment.The anti-collision detection function based on the precise dynamic model enables it to work well with human.

Powerful and User-Friendly

Featuring high-standard, self-developed harmonic joint modules, the unit offers high-performance quality. Compared to the myCobot Pro 600, its size is reduced by 30% without compromising payload capacity.

Desktop PC-Level Main Control

Controller Equipped with a customised Linux operating system and proprietary Roboflow robot control software, it supports uninterrupted applications 24/7.

PARAMETERS

Six degrees of freedom of joint motion, a 630mm radius of motion, and a 2KG payload help achieve your ideal application scenario.

EXCELLENT CONFIGURATION

Meet your different scenarios of peripheral control and realise your creative thoughts and thoughts.

FULLY OPEN CONTROL INTERFACE

The device offers an array of hardware connectivity options, providing users with comprehensive and targeted interface choices. It supports various peripheral interfaces including USB, EtherNet/IP, RS485, and 24V-I/O, meeting the full-scene support needs for robotic application development.

ROBOFLOW VISUAL PROGRAMMING SOFTWARE

This refers to an all-in-one robot programming and control software that offers features like visual programming interaction, quick movement control, drag-and-teach, and robot status query configuration. It supports various connection types including Modbus, VNC, and Socket to facilitate easy programming and rapid application of robots for users.

MYCOBOT SERIES

SUPPORT FOR SIMULATION SYSTEMS

Support is extended for the ROS1, ROS2, and Gazebo simulation environments, with open-source robot control driver files provided. Basic RVIZ and MoveIT use cases are available, allowing for the customisation of integrated application scenarios. Robot 3D and URDF files are also made accessible, enabling users to adapt to a wider range of simulation systems.

APPLICATION SCENARIOS

The four major personalised robot application scenarios include: 3D unstructured visual sorting, 2.5D palletising sorting, robot writing and painting, and compound robot mobile inspection. It provides product integration support, covering a variety of peripheral devices such as 3D cameras, recognition software, recognition algorithms, actuators, industrial PCs, and mobile AGVs, to meet the customised application needs of different users.

AGV + Robotic Arm

Robot Writing and Painting

2.5D Palletising and Sorting

3D Unstructured Visual Sorting