Type: BF-B-017
Volume: 1200MMX1100MMX1750MM
Weight: 900KG
Power supply: 12V 65AH
Cummins common rail 6-cylinder 8.9L diesel engine integrated oil and water pipelines replace traditional hoses, eliminating the risk of leakage; enhanced cooling and lubrication functions effectively extend the service life of the engine
• Adopt high-pressure common rail fuel system (HPCR) to ensure rapid throttle response at different speeds, better power and fuel economy, and lower noise
• Adopting wastegate turbocharger, supercharge is smoother at low speed, and the power output is flatter at high speed
• The engine back-end power output device (REPTO) can be used to enhance the control ability of remote equipment
• Good cold start, easy to start even in high-cold areas; strong fuel adaptability, suitable for various applications around the world
• The three-stage fuel filter ensures a balanced level of particle dispersion, protects the main components of the fuel system, and maximizes the life of the engine
• The electronic control system can intelligently switch the working mode according to the environment and operating conditions, and has a self-diagnosis, alarm and remote monitoring function assembly, an electronic control system assembly, a movable experimental test panel, an Android fault setting system, and the original car instrumentation. Removable metal benches, batteries, fuel tanks, teaching courseware, etc.
1. Dynamic display, real-time display of the dynamic and static signal changes of the engine through the LCD instrument, digital voltmeter, digital pressure gauge, and LED lights.
2. Detection function, through the experimental test panel and OBD diagnostic socket, combined with the fault detector PS90 diesel king can detect and analyze the automobile high pressure common rail fuel system (HPCR) ECU, sensors, and actuators.
1. The structure of Cummins common rail diesel engine;
2. Analysis of the working principle of the electronically controlled high-pressure common rail fuel system (HPCR) system;
3. Comprehensive diagnosis of electronically controlled high pressure common rail fuel system (HPCR) system;
4. Reading and analysis of data stream of high pressure common rail fuel system (HPCR);
5. Detection and analysis of high pressure common rail fuel system (HPCR) sensors and actuators