The design of damper air springs involves considering multiple factors:
Determine the required rated load range of the damper air spring based on the application scenario and operating conditions to ensure that it can withstand the forces under normal working conditions.
Determine the required working stroke range of the damper air spring to meet the vibration control requirements in a specific application.
Select the appropriate spring stiffness according to the required damping effect and vibration control requirements. This will ensure that the damper air spring can provide the required damping force.
Design some damping characteristics of the damper air spring, including the magnitude of the damping force, the compression and release speed of the damper, etc., to meet the vibration control requirements in a specific application.
Select suitable materials to manufacture the damper air spring, which must have sufficient strength, durability, and stability.
An effective sealing structure can ensure that the gas inside the damper air spring does not leak, so as to maintain its stable performance.
Consider the working performance of the damper air spring under different temperature conditions. Select suitable materials and sealing structures to cope with the impact of temperature changes on performance.
Ensure that the design of the damper air spring complies with safety standards and regulations to prevent safety hazards caused by design defects or material problems.
Consider whether the design of the damper air spring is easy to maintain and repair. Long-term stable performance and reliability are also important.
The design of damper air springs needs to consider multiple factors, including load requirements, stroke requirements, material selection, safety considerations, etc. It is most important to ensure stable performance, safety and reliability, and meet the vibration control requirements in specific applications.