Abstract
Precision equipment is usually accompanied with vibrations during road or railway transportation. Sometimes the vibration exceeds the given limit, leading to the damage of the equipment. It is necessary to control the vibration during the transportation. However, it is still difficult to adjust the parameters of a designed vibration isolation system for the transportation of different precision equipment under various road conditions. Aiming at satisfying the vibration isolation requirements of different precision equipment, this paper proposes a parallel air spring vibration isolation system based on the principle of limiting lateral deflection. According to the measured parameters, a rigid-body dynamics simulation model of parallel air spring vibration isolation system is established. Then its feasibility is verified, and the optimal parameters of the vibration isolation system are obtained by a simulation. Finally, the vibration isolation system is built and installed in the equipment to carry out the real vehicle transportation test. The test results show that the transportation vibration isolation system based on the parallel air spring structure has not only excellent vibration isolation efficiency but also acceptable lateral stability. The research results in this paper can provide a reference for the design of the vibration isolation system for the large precision equipment transportation.
Highlights
Precision equipment such as satellite and electronic equipment is usually accompanied with vibrations during road or railway transportation
The vibration isolator composed of various spring-damping elements, due to its good adaptability and excellent reliability, has become one popular optional method to isolate the vibration of the large packing box
To satisfy the practical requirement of the vibration isolation for the large precision equipment during transportation, a parallel air spring vibration isolation system (PAVS) is designed based on the trick of limiting lateral deflection in this paper
Summary
Precision equipment such as satellite and electronic equipment is usually accompanied with vibrations during road or railway transportation. Keywords Precision equipment transportation, vibration isolation, air spring, rigid-body dynamics, parallel To obtain a better isolation solution and overcome the shortcomings of the wire rope isolator, a vibration isolation system with the parallel air spring system for the transportation of the precision equipment is proposed in this paper.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
