The Hybrid engine stand trainer driving school educational equipment automotive hybrid training equipment is designed based on the Toyota Corolla 1.8L gasoline and electricity hybrid power engine to simulate engine startup, speedup, slowdown and other actions with the aim of illustrating the structure and working principle of gasoline and electricity hybrid power engines. The device applies to the gasoline and electricity hybrid power engine and maintenance training courses of secondary and senior vocational schools, ordinary education and training institutions.
II.Main features
1.Auto model: inline four cylinder, displacement, 1.8L, DOHC, VVTI, gasoline and electricity hybrid power.
2.A real and operable gasoline and electricity hybrid power engine is used to demonstrate the structure and working process of the engine.
3.The trainees can learn and analyze the working principle of the control system by referencing the diagram and control with real object.
4.Test terminals are installed on the test panel. The operators can test the electrical signals, such as resistance, voltage, current, frequency signals of the sensors and actuators of the engine control unit, automatic transmission, hybrid power unit and power control unit etc.
5.The trainer is equipped with diagnosis seat; it can be connected to scanner to read or clear fault codes, and read data stream and can be used for other engine self-diagnosis function.
6.Equipped with Tablet PC for intelligent fault setting and appraisal system, include fault setting and troubleshooting functions etc.
| Approximate Dimensions | 1800mm x 1200mm x 1800mm |
| Work voltage | 12V DC |
| Engine model | Toyota Corolla |
| Fuel tank size | 10L |
| Warranty | 1 Year |
| Usage | Students Understanding |
| Category | Automotive Trainer |
| Tablet PC | Wireless remote fault setting through tablet |
III.Training courses
1.Function introduction of main components of hybrid engine;
2.Demonstration of hybrid engine running, starting, accelerating etc;
3.Measurement of the signals of the sensors and actuators by multimeter or oscilloscope;
4. Read fault code, data stream and remove faults through the scanner;
5. Fault set and troubleshooting.