Ensure efficient transmission of power system: Establishing a scientific and reasonable power truss can ensure that the power output from the engine or electric motor is efficiently transmitted to the wheels, improving the vehicle's power performance and fuel economy.
Optimize overall vehicle performance: Optimized design of the power truss can significantly improve the handling, stability and comfort of the entire vehicle. For example, through rational power distribution and vibration damping design, it can improve vehicle performance under various driving conditions.
Improve production efficiency and quality: Standardized and modularized power truss design can improve production line efficiency and product quality, and reduce errors and uncertainties in the production process. A unified power truss platform helps streamline production processes and management.
Enhance vehicle durability and reliability: A sophisticated power truss design can enhance the durability of key vehicle components, reduce failure rates and maintenance costs, and improve the reliability of the entire vehicle.
Realize the development of diversified vehicle models: A flexible power truss platform can support the integration of different powertrains (e.g. fuel, hybrid and electric), helping manufacturers to quickly respond to market demand and develop diversified vehicle models.
Enhance safety performance: The design of the power grid plays a key role in vehicle collision safety, effectively absorbing and dispersing collision energy, protecting occupants and critical components, and enhancing the overall safety of the vehicle.
Control production costs: By establishing a unified power grid platform, it can realize the universality and standardization of components, reduce production and R&D costs, and increase economic benefits.