FIELD: mechanical engineering.
SUBSTANCE: suspension system of the cabin of transport and technological machines is optimised. The input signal on the carrier system of the cabin is determined. The resonance frequencies of the metal structure and the wave resonances of vibration insulating supports are determined. The dynamic properties of the carrier system of the cabin are entered into a mathematical model. A computer program capable of determining the optimal characteristics of the suspension system and the configuration parameters of the suspension of the cabin is implemented.
EFFECT: reduced level of cabin vibration is achieved.
1 cl, 1 dwg
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