The structural design parameters of the
New Car subframe include the location of the suspension system connection point, the strength and stiffness requirements of the
Fuel Car subframe, the design of the connection components, etc.
These parameters need to be reasonably determined based on factors such as the vehicle's use environment, load requirements, and performance requirements. For example, when selecting the location of the suspension system connection point, it is necessary to consider the geometry and kinematic characteristics of the suspension system to ensure that the suspension system can effectively support the vehicle.
The design of the New Car subframe needs to comprehensively consider the overall performance and ride comfort of the New Car. For example, when designing the geometry of the Fuel Car subframe, it is necessary to consider the vehicle's handling performance and stability.
In addition, in the reduction design of the New Car subframe, it is necessary to consider the impact on the comfort and stability of the passengers when the vehicle is driving to ensure that the vehicle is driving smoothly.
The design of the New Car subframe should not only take into account its function and performance, but also its manufacturing process and cost. When designing the Fuel Car subframe, it is necessary to consider factors such as whether its manufacturing process is simple, whether it is suitable for large-scale production, and whether the cost is reasonable. Through reasonable design and material selection, the manufacturing cost of the New Car subframe can be reduced and production efficiency can be improved.
In summary, the design of Fuel Car subframe is an important technical link in New Car engineering, which requires comprehensive consideration of multiple factors such as structure type, material selection, structural design parameters, overall performance and comfort, manufacturing process and cost. Through reasonable design and calculation, it can ensure that the New Car subframe has good stability and safety during vehicle driving, and improve the overall performance and ride comfort of the vehicle.
