New Energy Vehicle-Fuel Cell Power System Teaching Platform

Product model: NZX-10

Main parameters:

System voltage: AC220V-DC12V
Vehicle type: pure electric passenger car
Technology type: fuel cell
Working temperature: -20℃～50℃
Machine weight: 40kg
Dimensions: 1100*600*1750mm

Performance characteristics:

1. The teaching platform of new energy vehicle fuel cell power system can simulate the operation of the vehicle fuel cell (hydrogen) system and display the composition structure and principle of the vehicle fuel cell (hydrogen) system. Light-emitting diodes are installed for dynamic indication of the system flow direction. By operating the start switch and the adjustment switch, the working process of each working condition of the automobile fuel cell (hydrogen) system can be simulated;

2. The teaching platform fully demonstrates the working process of the fuel cell vehicle power system based on the working principle of the new energy pure electric vehicle fuel cell power system. It can dynamically simulate the energy flow direction and the operating status of the motor under six working conditions of the fuel cell power vehicle, including starting, low-speed driving, general driving, full-speed driving, deceleration driving and parking;

3. The teaching platform adopts the new energy pure electric vehicle fuel cell power system and is carefully developed to meet the teaching needs of new energy vehicles. The panel is equipped with a start switch, a working condition switch, an acceleration and deceleration simulation adjustment device, a gear switch, etc., and is supplemented by a light-emitting diode for dynamic indication of the system flow direction. There is also a simulated motor to demonstrate the working state of the motor, a 12V switching power supply, a large color inkjet circuit schematic, a control panel, a movable stand, etc.;

4. The teaching platform uses a 220V AC power supply, which is converted into a 12V DC power supply through internal circuit transformation and rectification. No battery is required, which reduces the trouble of charging. The 12V DC power supply has an anti-short circuit function;

5. The frame is made of aluminum alloy profiles. The frame is equipped with an operating platform for placing tools, materials and other items for teaching. A control cabinet is installed under the operating platform for placing materials.

6. The teaching platform seat is equipped with self-locking casters for easy movement at any time;

7. The training table is equipped with safety protection devices such as the main power switch and protective net to facilitate cutting off the main power supply and safety protection;

8. Equipped with equipment training instructions, the contents of the manual include daily maintenance of the equipment, maintenance information, fault setting information, operating specifications, operating procedures, operating precautions, etc.;

9. The equipment is equipped with a training QR code. Teachers and students can use the vocational education teaching information mobile platform (APP) to scan the QR code to watch the teaching video of this stand, including: equipment use specifications, operating precautions, equipment maintenance methods, etc.;

10. Training projects:

1. It can simulate the operation of the automotive fuel cell (hydrogen) system to demonstrate the composition structure and principle of the automotive fuel cell (hydrogen) system. 1. Install light-emitting diodes for dynamic indication of system flow direction; 2. Operate the ignition switch and the adjustment switch to simulate and demonstrate the working processes of various working conditions of the automobile fuel cell (hydrogen) system; 3. Simulate the starting working process of the fuel cell (hydrogen) system; 4. Simulate the low-speed driving working process of the fuel cell (hydrogen) system; 5. Simulate the general driving working process of the fuel cell (hydrogen) system; 6. Simulate the full-speed driving working process of the fuel cell (hydrogen) system; 7. Simulate the deceleration driving working process of the fuel cell (hydrogen) system; 8. Simulate the parking driving working process of the fuel cell (hydrogen) system; 9. Simulate the braking recovery working process of the fuel cell (hydrogen) system.