Build competence. Teach robotics with confidence.
The Dobot MG400 supports structured, low-stress teaching and enables the systematic development of robotics competencies in training.
Robotics training with the 4-axis compact robot Dobot MG400
A structured training system for education in automation and robotics engineering.
Teach safe handling of an industry-oriented compact robot – from commissioning and motion programming to the implementation of typical handling and path processes.
Predefined project plates, an electromagnetic gripper, and integrated software enable a clearly structured teaching process without extensive setup times.
The Dobot MG400 is suitable for vocational schools, training centers, and technical degree programs and supports the systematic development of robotics skills without production pressure or complex safety infrastructure.
Your advantage: less preparation effort, predictable lessons, and learners who understand and apply robotics safely – without stress in everyday teaching.
EASY TO TEACH
More freedom – less effort
Safety without stress
Learners work safely and in a controlled manner with the compact robot.
You teach robotics without stress or additional safety effort.
Teaching without setup times
Project plates and grippers are ready for immediate use.
Lessons start without setup or changeover times.
Measurable learning outcomes
Movements and programs are immediately visible.
Progress can be clearly identified and controlled.
Confident knowledge transfer
Graphical programming makes explaining and structuring processes easier. You maintain an overview and convey content with confidence.
Teaching relevant content
Typical robot tasks form the basis of training.
Skills are developed directly, without detours or overload.
HIGHLIGHTS
Your advantage in drive technology training
Robot: 4-axis compact robot Dobot MG400
Programming: Teach-in and graphical block programming
Types of motion: Joint, linear, circular path, continuous path
Project setup: Magnetic project plates
Gripper: Electromagnetic gripper
Safety: Emergency stop and safety functions
Project-based learning with a clear structure
Teach robotics fundamentals not in the abstract, but through five clearly defined industrial scenarios. Learners work step by step on realistic tasks and build skills systematically – without improvised exercises or additional preparation effort.
Easy entry without programming barriers
Graphical block programming enables quick access to robot programming. Instead of explaining syntax, you can focus on motion logic, process flows, and understanding – ideal for calm and predictable lessons.
Understand industry-typical motion sequences
From axis-specific movements and linear motions to complex path movements, participants learn to implement robot tasks correctly. This allows you to teach fundamental types of motion that are essential for industrial applications.
IMPRESSIONS
Dobot in Action
OUR PODCAST ON SPOTIFY
Listen & learn
LEARNING GOALS
Core competencies in detail
Commissioning & Operation
Learners safely commission a compact robot, connect it to the software, and move it manually. They work with axis-specific (joint) and Cartesian (linear) movements to understand basic robot control.
Graphical Programming
Motion sequences are created using a block-based programming environment. Commands such as MoveJ, MoveL, and Arc are logically combined to build structured and reproducible programs.
Pick & Place
A typical handling task is programmed and implemented. This includes gripper control via inputs and outputs as well as precise picking and placing of objects in defined positions.
Palletizing
Using the integrated palletizing function, complete position grids are processed with minimal programming effort.
Path movements
Complex movements along defined lines and curves are programmed. The “Continuous Path” function enables smooth, uninterrupted motion.
I/O control
Digital inputs and outputs are used to control grippers and process signals. Learners link motion sequences with external control and understand basic automation logic.
From knowledge to competence.
YOU GUIDE THE LEARNING
When theory and practice go hand in hand.
RXLea introduces a new way of learning: project-based, practice-oriented, and clearly structured. Learners solve real tasks, instructors save time in preparation. Interactive modules, smart analyses, and real hardware create a modern, efficient learning environment.
Practice-oriented and interactive
Animations, interactive tasks, and realistic scenarios promote deep understanding. All content is structured into clear learning paths – for focused, hands-on learning.
Digital support
3D assembly animations and digital instructions simplify complex processes, reduce errors, and strengthen learners’ independence.
Visual support
Overview images, screenshots, and animation examples make the learning environment transparent. In addition, photos from the learning packages are available – country-specific if required.
