1. Overview
DLDS-518N Industry robot technology training system includes two parts, software and hardware, and has the advantages of open and modular training equipment. The entire electromechanical training equipment system includes four major units, namely the industrial robot basic training platform, integrated training unit, digital twin system and MES system software.
The hardware part of the robot training system – the industrial robot basic training workbench is mainly composed of the following modules: six-axis industrial robot, collaborative robot, industrial vision 3D camera, mobile conveyor system AGV, PLC control unit, touch screen (HMI), etc. The main function of the basic training unit of the electromechanical training equipment is to complete the identification, transmission, assembly, testing and storage tasks of various integrated training module products;
2. Equipment features and advantages
– The DLDS-518N industrial robot technology application system introduces collaborative robots to complete human-machine collaboration and machine-machine collaboration, which is more in line with the development trend of the industrial robot industry.
– The introduction of 3D machine vision into the DLDS-518N robot training equipment makes the training equipment more artificially intelligent.
– The DLDS-518N introduces the manufacturing execution system MES, and customizes the industrial APP for it, and integrates IT and OT technology to make the vocational education equipment more in line with the technical requirements of Industry 4.0
– The DLDS-518N industrial engineering lab equipment introduces the digital twin system and builds a digital twin model of the product in the virtual space, which can greatly improve the efficiency of teachers and students’ work tasks, and also test students’ ability to learn and apply new technologies.
– In the DLDS-518N industrial robot engineering teaching equipment, we integrate collaborative robots, AGV and 3D machine vision, so that the production line can achieve a certain degree of flexibility and can adapt to the production requirements of multiple varieties and multiple processes.
3. Training Objects
– Understanding, application and installation of six-axis robots training equipment
– Installation and application of seven-axises collaborative machine
– Offline trajectory planning training and calibration of six-axis robots and seven-axis robots
– AGV cognition and application
– Assembling, testing, mechanical structure assembly and debugging of the transmission mechanism, and writing of motion control programs
– 2D, 3D visual inspection module mechanical structure assembly and debugging and electrical debugging
– Application of communication between robot and PLC
– Application of detection switches, various sensors, pneumatic components, and PLC
– Application of Visual Human-Machine Interface
– Related experiments on pneumatic circuits
– Assembly and debugging of the mechanical part and pneumatic part
– System fault diagnosis and maintenance
– Application of digital twin technology, MES system, and composite robot system
