Beifang Automotive Education

Function introduction of main components of the rear wheel drive transmission system; Demonstration of the work principle and process of the rear wheel drive transmission system; Demonstration of the work principle and process of brake system; Demonstration of the work process of the clutch, gear shifting.

1. This didactic equipment can simulate normal engine operation, ie. starting, idling, acceleration, deceleration, fault detection and diagnosis, fault simulation, etc. 2. Equipped with fault simulation systems can simulate multiple failures in the real engine. 3. Equipped with voltmeter to show the real-time change of the sensors and actuators 4. Equipped with LED light to simulate the status of the injecting system and ignition system. 4. Equipped with pressure gauges to display the pressure value and vacuum pressure value. 5. Equipped with diagnosis seat which can use a scanner to read the fault codes and data flow of the engine control system through the diagnosis seat. 6. The training panel is printed with the color circuit schematics which makes the students can understand and analyzing the engine control system directly. 7. There are test terminals mounted on the training panel. electrical signal, such as the resistance, voltage, current, frequency, waveform of the sensors, actuators can be measured by multimeter or oscilloscope through the test terminals. 8. Equipped with power switch, tank guard, flywheel and other rotating parts shields to protect the students and teachers. 9. Equipped with fault setting module: manual fault set module.

The Power Steering Trainer is based on the Toyota Corolla front axle, and fully demonstrates the composition and working process of the electric power steering system and the front axle suspension system.

The training device can display the internal circuit and power supply system of the original electric vehicle on the basis of slicing the original electric vehicle in normal operation. Equipped with a training bench, including a fault setting module and a measurement panel, the original vehicle circuit can be easily restored to ensure the same function as the original electric vehicle; the educational equipment can also be connected to the training bench for fault setting experiments. Product composition

1. Demonstration control experiment of reach stacker machinery 1) For snatch operations, the snatch beam is positioned according to the length of the container; 1) For lifting operations, the main boom and the telescopic boom are combined for work experiments; 2) Swivel operation, lifting the beam while lifting the platform while the platform is rotating; (with motor rotating platform) 3) Obstacle operation, when the main boom and the telescopic boom are combined work, the servo cylinder on the top of the telescopic boom or the four obstacle detection cylinders distributed at the four corners of the grab beam will give the main system a stop or descend command (optional) when it encounters an obstacle; 4) Return, the platform rotates, the main boom and the telescopic boom cooperate to return to the initial position. 2. Programmable controller (PLC) electrical control experiment: machine-electric-hydraulic integrated control experiment. 1) PLC instruction programming, ladder diagram programming learning; 2) Learning and using PLC programming software; 3) Communication and online debugging between PLC and computer; 4) The application of PLC in hydraulic drive control and the optimization of control schemes.

1. Demonstration control experiment of hydraulic loading machinery 1) For loading operation, after the bucket is loaded, the rocker cylinder extends to make the bucket reverse and the boom lifts; 2) Unloading operation, bucket unloading (the rocker arm retracts to make the bucket turn), and the boom descends. 2. Programmable controller (PLC) electrical control experiment: machine-electric-hydraulic integrated control experiment. 1) PLC instruction programming, ladder diagram programming learning; 2) Learning and using PLC programming software; 3) Communication and online debugging between PLC and computer; 4) The application of PLC in hydraulic drive control and the optimization of the control scheme.

Functional requirements: Automatic transmission assembly physical production, the key parts of the transmission to open anatomy, anatomical section for fine color separation. Make the input and output shafts, gears, and other internal structures clearly visible, easy for students to observe intuitively.