YL-18 Industrial Robotics Application Programming Trainer

► Users can conduct basic training assessments with a single desktop application or combine dual desktops to achieve collaborative dual-robot training assessments.

► The system integrates industrial robot technology, mechanical transmission technology, electronic and electrical technology, various operating technologies, intelligent sensing technology, programmable control technology, machine vision technology, computer technology, serial port communication technology, Ethernet communication technology, and other advanced manufacturing technologies, covering professional knowledge of industrial robots, mechanical design, electrical automation, intelligent sensing, intelligent manufacturing, and other disciplines.

► At the same time, the identification center is equipped with information-based assessment and teaching equipment, such as surveillance cameras, electronic kanban, identity information verification equipment, multimedia teaching equipment, a Yalong assessment system, and more, creating a modern, information-based examination room and skills assessment demonstration site.

► Advanced Industrial Robot Modular Design:

► The platform takes industrial robots as its core and is equipped with a variety of functional modules. Explore the teaching of different application scenarios for industrial robots. All modules are designed according to standard electrical and mechanical interfaces, and modules that meet the interface specifications can be used on the platform, which can be quickly replaced, interchanged, and freely combined.

► Teaching and industrial applications are closely integrated:

► The platform integrates an industrial robot control system, a servo drive system, a gas-hydraulic transmission system, and a machine vision system, combined with digital and analog process control technology, RFID technology, visual inspection technology, offline simulation, serial port communication technology, Ethernet communication technology, bus communication, and more to fully demonstrate the application of industrial robots in intelligent manufacturing. This allows users to quickly master the application skills of industrial robots in real-world industrial settings.

► High Safety and High Reliability:

► For different industrial robot application programming students, it is necessary to consider the skill level of the students, and the modular design allows for rapid disassembly and assembly. During the learning process, the user's incorrect operation has a high tolerance rate for collision errors, a low probability of damage, and rapid replacement and maintenance.

► Openness and Flexibility:

► Industrial robot application scenarios are composed of different functional modules. Students can combine modules according to their own needs to create their own application scenarios and industrial robot workflows. Dual desktop splicing is also possible to learn more complex industrial robot application skills. Users can also design new teaching modules, enrich training projects, and update teaching content according to industrial robot application scenarios at the company site.

► Support for Virtual Simulation:

► Given the large investment in training equipment in vocational schools and the lack of equipment, it is equipped with virtual simulation software. The movement of industrial robots can be controlled directly in the simulation software. At the same time, the industrial robot can provide feedback on its own pose in real time and reproduce the pose of the industrial robot in real time as a 3D model in the simulation software. At the same time, the virtual simulation software integrates offline simulation functionality, and users can use the offline simulation program to control the movement of industrial robots.

► Integration into the assessment system:

► The platform uses the user to swipe their fingerprint to identify the person, then turns the device on and off. Once verification is passed, the server generates the personnel information and displays it on the touch screen, generating a two-dimensional code for assessment and evaluation.

► The assessment system can manage and display information such as online registration, project content, scoring standards, teacher management, and student management. After the user registers, session assignment can be performed, and score scores can be automatically uploaded to the server for statistics and storage after the grade assessment is complete.