Training Systems

We provide a one-stop, modular solution for advanced industrial training to top engineering schools and vocational institutes worldwide. Our equipment is more than teaching tools; they are miniature modern factories and cutting-edge labs. We are committed to bringing real-world industrial challenges into the classroom, equipping students to solve complex engineering problems, and seamlessly bridging academic theory with industrial practice. We prepare job-ready engineers and innovators for the fields of automation, smart manufacturing, and precision machining.

Our Core Training Solutions

Theme: Immersion in Core Industry 4.0 Scenarios

Smart Manufacturing Flexible Production System

A miniature “factory of the future.” Integrates material warehousing, AGV handling, intelligent assembly, vision inspection, robotic packaging, and an MES production management system. Students practice the entire workflow from order release to product delivery, gaining deep insight into IoT, data flow, and system integration.

Industrial Robotics Typical Application Workstations

Cover core processes like welding, handling, palletizing, assembly, and grinding/polishing. Employ leading industrial robot brands with real tools and workpieces, training students in complete skills from robot programming and path optimization to process parameter tuning.

Intelligent Vision System Application Training Platform

Focuses on the intersection of machine vision and AI. Students learn camera calibration, image processing, feature recognition, dimensional measurement, and vision-guided robot positioning, mastering the key technologies that give machines “eyes” and “decision-making” capabilities.

Theme: Mastering the “Nerves” and “Muscles” of Automated Systems

PLC Automatic Control Training Stations

Based on international mainstream PLCs , integrated with frequency converters, servo drives, stepper motors, and various sensors. Through modular tasks, students train core electrical automation skills: logic programming, motion control, network communication (e.g., PROFINET, Ethernet/IP), and HMI configuration.

Hydraulic & Pneumatic Training Stations

Clearly demonstrate the fundamentals of power transmission. Students can build circuits hands-on, analyze pressure/flow characteristics, understand proportional/servo valve control, and master widely-used fluid power technology.

Servo Control Principle Experiment Devices

Delve into the underlying principles of precision motion control. Experiments in open/closed-loop control, PID tuning, and multi-axis synchronization turn the “black box” of motors, drives, and controllers into a comprehensible, optimizable white box.

Self-Balancing Simulation Platforms

Using classic control objects like inverted pendulums, ball-and-beam systems, or UAV models, these platforms allow validation of advanced control algorithms (e.g., PID, LQR, fuzzy logic), sparking student interest in advanced control theory research.

Theme: Mastering the Cornerstone of Modern Precision Manufacturing

CNC Machine Tool Installation, Debugging & Maintenance Training Equipment

Provides comprehensive training on the mechanical assembly, electrical wiring, parameter debugging, fault diagnosis, and maintenance of CNC lathes and vertical/horizontal machining centers. Students become maintenance engineers capable of “diagnosing and curing” equipment, not just operators.

Five-Axis Machining Center Training Platform

Targets teaching complex surface and high-performance part machining. Students learn multi-axis simultaneous programming, toolpath planning, tool center point management, and post-processing techniques, engaging with advanced machining methods used in aerospace and mold-making.

CNC Machine Tool

The platform is particularly suited for teaching advanced concepts in subtractive manufacturing, supporting curriculum in mechanical engineering, and serving as a testbed for applied research in machining processes and materials science.

Theme: Zero-Risk Exploration, Design, and Optimization in the Virtual World

Hybrid Physical-Virtual Smart Manufacturing Training System

Featuring a "Hybrid Physical-Virtual" architecture, this system integrates a real handheld teach pendant and virtual robot stations (compatible with major brands) with comprehensive line simulation software. This unique combination delivers exceptionally realistic training that mirrors actual production line operations.

Why Engineering Departments Worldwide Choose Us

Industrial Authenticity: All equipment and systems are developed based on current industrial standards and applications, ensuring what is learned is what is used.
Modularity & Scalability: Supports smooth progression from teaching single skill points to complex system integration, adaptable to different curriculum stages and budgets.
Safety & Durability: Designed specifically for high-intensity teaching environments, featuring integrated multi-layer safety protection and robust construction.
Complete Teaching Resource Package: We provide not just hardware, but a total solution including course syllabi, lab manuals, project cases, video tutorials, simulation software, and instructor training.
Research & Development Ready: Platforms offer open interfaces and data access, supporting students and researchers in conducting innovative projects like algorithm verification and process optimization, seamlessly connecting teaching and research.

Begin Your Engineering Education Upgrade

Whether you aim to solidify your students’ core automation fundamentals or establish an industry-leading smart manufacturing demonstration lab, we can provide a tailored solution aligned with your strategic goals.