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    Robot Training Equipment

    DLIR-155 Industrial Digital Twin Training System

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    Model: DLIR-155 Industrial Digital Twin Training System

    1.Temperature: -5 to +45°; Ambient humidity: ≤85% (25°C).

    2.System footprint: Length × Width × Height ≈ 2.5 m × 1.5 m (Width can be adjusted according to site conditions)

    Platform dimensions: Length × Width × Height = 1.5 m × 0.95 m × 1.75 m

    3.Total power: Approximately 2.0 KVA.

    4.Altitude: ≤4000m.

    5. Input power: AC220V±10%.

    Output power: DC24V.

    6.Environment: Vibration ≤0.5G, free from dust, corrosive gases, flammable gases, oil mist, water vapor, dripping water or salt, etc.

    7.The system is reliably grounded: the grounding impedance is less than 4 ohms.

    8.Compressed air pressure: 0.3-0.7MPa.


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    DLIR-155 Industrial Digital Twin Training System

    Details introduction

    Equipment Overview

    DLIR-155 Industrial Digital Twin Training System closely follows the latest technological development trend of "industrial digital twins" and integrates advanced technologies such as "Internet+", "intelligent sensors", "PLC control technology", "intelligent electromechanical equipment", and "logistics technology", enabling trainees to learn and master the latest knowledge and skills in industrial digital twins.

     DLIR-155 Industrial Digital Twin Training System is specifically designed for mechatronics majors, serving as a highly integrated and innovative training platform. This equipment integrates technologies from multiple fields, including mechanical transmission, electrical control, sensing and detection, and information management, closely aligning with the core knowledge system of mechatronics and providing comprehensive support for professional teaching and practice.


    Training Project

    Section 1: Electrical Wiring Training

    1)Practical training in reading electrical drawings

    2)Pneumatic circuit connectors and electrical wiring

    Section 2, Electrical Application Training

    3)Application of detection switches

    4)Applications of multiple sensors

    5)Pneumatic technology application

    6)PLC Installation and Application

    7)RFID Installation and Application

    8)HMI configuration monitoring and interface design technology

    Section 3. Equipment Communication Applications

    9)Touch screen and PLC communication

    10)Applications of major types of motor drive technologies;

    11)Applications of motion control systems;

    12)RFID application technology;

    13)MOUDLEBUS communication between PLC and RFID;

    14)Profinet communication between PLCs;

    15)Servo system and PLC communication

    16)Stepper motor and PLC communication

    17)Applications of bus communication technology;

    18)Applications of industrial automation networks;

    Section 4. Industrial Digital Twin Applications

    19)Product modeling application

    20)Digital 3D Model Building and Layout

    21)Basic electromechanical objects and common kinematic pair settings and applications

    22)Common Sensor Signals and Signal Adapter Setup and Applications

    23)Tecno and Virtual PLC Virtual Debugging Applications

    24)Tecno and its application in virtual and real debugging with actual PLCs (physical devices)

    25)Mechatronics co-simulation: mechanical interference, mechanism kinematics verification, mechanism dynamics verification;


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