AE34501WM Hybrid System Petrol /Electric System Cutaway

► The trainer enables electric rotation of the engine and generator, facilitating hands-on learning of hybrid technology, energy recovery, braking systems, suspension integration, and efficient power transfer through its advanced drivetrain components and differential assembly. The model also includes detailed brake, driveshaft, and suspension components, providing a comprehensive understanding of how hybrid systems interact with drivetrain components.

► Value for Students

● Gain detailed knowledge of the Toyota Hybrid System (THS), which integrates a gasoline engine and electric motors. Learn about the energy recovery process during braking and the various operating modes that optimize efficiency.
● Study the 1500 cc, 4-cylinder engine with DOHC overhead camshaft, Variable Valve Timing (VVT-i), and multi-point electronic fuel injection. Students can observe the rotation of the engine and generator.
● Develop skills in diagnosing and troubleshooting hybrid systems by exploring the integration of the internal combustion engine with the electric motor, generator, transmission components, brake system, and suspension. Understand the operating principles of the epicyclic engine, transmission belt (CVT), and differential, and how these components interact with other systems such as the brakes, suspension, and power transfer to the wheels.
● Learn how engine performance interacts with the driveshaft and suspension system to facilitate vehicle movement.

► Value for Instructors

● A fully functional cutaway model demonstrates the complex workings of hybrid technology, from energy recovery and storage to the interaction between gasoline and electric power sources.
● Easy, safe, and convenient training with OEM components to deliver a realistic automotive repair experience.
● The ability to operate the engine and generator provides a tangible and interactive learning experience, fostering greater student engagement and understanding.
● The inclusion of brake and suspension components, as well as a driveshaft, provides a comprehensive view of how hybrid systems integrate with other vehicle components.
● The trainer is equipped with a nameplate that allows easy identification of each component, streamlining the teaching process.
● Mounted on a sturdy wheeled stand, this trainer can be easily moved within the classroom, making it accessible for demonstrations and group learning sessions. Its plug-and-play design requires no additional setup, assembly, or special preparation for operation.

● Toyota Hybrid System (THS): Integrated gasoline engine and electric motors with energy recovery and multiple operating modes.
4-cylinder engine: 1500 cc displacement, DOHC overhead camshaft, 4 valves per cylinder, with VVT-i and multi-point electronic fuel injection.
● Electrical components: The motor and generator can be electrically rotated, allowing for detailed study and analysis.
● Epicyclic engine and transmission: Includes a transmission belt (CTV), gears, and a differential for complete transmission training.
● Exhaust system: Includes an exhaust manifold with a lambda sensor for emissions studies and exhaust gas control.
● Brake system components: The product includes coupled disc brakes and calipers for observing the components and operation of the brake system.
● Driveshaft: Connected to the engine and gearbox, it allows students to understand how engine performance interacts with the suspension system and contributes to vehicle movement. Suspension System Integration: The attached suspension system display demonstrates how key elements such as the engine, gearbox, generator, brakes, suspension, and wheels work together, giving students a comprehensive view of vehicle operation.

● Dimensions: 1300 x 900 x 1550 mm (51.18 x 35.43 x 61.02 in)
● Weight: Approx. 190 kg (418 lb)
● Product Number: AE34501WM