Industrial Robot Integrated Application Training System KFJKSA28 Vocational Education Equipment

Part 1: Product Overview
Industrial robots are typical mechatronic digital equipment. Their birth and the establishment and development of robotics are the most convincing achievements in the field of automatic control since the 20th century. Currently, industrial robots are widely used in the automotive and auto parts manufacturing industry, metal processing industry, rubber and plastics industry, electronics and electrical appliance industry, food industry, and other fields. As professionals in the field of industrial robots, it is necessary to have a clear understanding of the development and structure of industrial robots and gradually establish a professional identity in the application and maintenance of industrial robots. Centered on a 6-axis robot, this training system cultivates students’ understanding of basic robot knowledge according to different carrier configurations based on task requirements. The development of task models incorporates fun and entertainment, which can increase students’ learning interest. Through continuous repetitive training, students strengthen their understanding and mastery of basic point teaching, straight line, and curved motion footprints, learn precise point positioning and robot motion path selection and optimization; enabling students to have a preliminary understanding and mastery of robot application technology. The entire training device adopts a modular design. From the working units and actuators to the interfaces and components of each module, everything is modular, independent, and compatible. Expansion and upgrade interfaces are also provided.

Part Two: Main Technical Parameters

◼ Power Supply: Single-phase three-wire 220V±5%, 50Hz;

◼ Total Power Consumption: ≤2kW;

◼ Ambient Temperature: 0℃-45℃;

◼ Ambient Humidity: 95% (non-condensing);

◼ Dimensions: 1520*820*780 (L*W*H);

◼ Safety Protection: Leakage protection, overcurrent protection, short circuit protection

Part Three: Training Content

◼ Task 1: Basic Understanding of Industrial Robots.

◼ Task 2: Industrial Robot Teach Pendant Motion Operation.

◼ Task 3: Point-to-Point Teaching of Industrial Robots. ◼ Task 4: Basic Parameter Setting for Industrial Robots.

◼ Task 5: Learning Basic Motion Commands for Industrial Robots.

◼ Task 6: Programming and Teaching Industrial Robots Based on Teach Pendant.

◼ Task 7: Industrial Robot I/O Control Applications.

◼ Task 8: Basic Wiring Methods for Industrial Robots.

◼ Task 9: Programming and Teaching Industrial Robot Parts Assembly Task.

◼ Task 10: Programming and Teaching Industrial Robot Simulated Laser Engraving Task.

◼ Task 11: Programming and Teaching Industrial Robot Conveying and Palletizing Task.

◼ Task 12: Programming and Teaching Industrial Robot Parts Arrangement Task.

◼ Task 13: Practical Training on Connecting Industrial Robots to Vision Systems.

◼ Task 14: Practical Training on Data Interaction and Communication between Industrial Robots and PLCs.

◼ Task 15: Human-Machine Interface Configuration Editing and Training.

◼ Task 16: Practical Training on Setting Parameters for Industrial Vision Systems.

◼ Task Seventeen: Programming and Teaching for Industrial Robot’s Inclined-Surface Handling and Assembly.

◼ Task Eighteen: Programming and Teaching for Industrial Robot’s Planar Matrix 3D Palletizing.

◼ Task Nineteen: Programming and Training for Industrial Robot’s Handling and Warehousing Task.

◼ Task Twenty: Training on the Integration and Debugging of Industrial Robots with Peripheral Equipment.

Part Four: Main Configuration and Detailed Technical Parameters

4.1 Typical Industrial Robot Application Training Device

◼ Functional Characteristics

1. Dimensions: (Length*Width*Height: mm): 1520*820*780 mm, main steel structure, zoned layout, equipped with object storage cabinets;

2. Three-dimensional silo, storing two different shaped objects, realizing time-sharing material feeding;

3. Basic robot training modules include automatic transmission unit, material palletizing unit, trajectory planning unit, parts arrangement unit, automatic assembly unit, three-dimensional warehousing unit, robot end effector, electrical control system, human-machine interaction terminal, computer desk, etc.;

4. PLC-controlled DC motor-driven conveyor belt, programmable and debuggable control;

5. The training platform integrates necessary automation components, with a reasonable layout and clear wiring;

6. Electrical components such as circuit breakers and relays are all from well-known brands.