噪声与振动控制
譟聲與振動控製
조성여진동공제
Noise and Vibration Control
2015年
5期
167-171
,共5页
振动与波%双自由度%耳罩%隔声
振動與波%雙自由度%耳罩%隔聲
진동여파%쌍자유도%이조%격성
vibration and wave%double degree of freedom%earmuffs%sound insulation
把单耳罩结构考虑为单罩杯双自由度模型,揭示耳罩刚度、阻尼、质量、体积、泡沫类吸声材料对耳罩隔声的影响规律。该模型表明,提高罩杯刚度,降低罩杯内吸声材料的刚度,有利于提高耳罩的隔声性能。罩杯阻尼系数越高,系统共振峰越小,低频隔声性能有改善;吸声材料的阻尼系数较小为宜;较大的耳罩质量或体积,可以有效提高耳罩的隔声性能,但较大的质量或体积会导致耳罩舒适性降低。
把單耳罩結構攷慮為單罩杯雙自由度模型,揭示耳罩剛度、阻尼、質量、體積、泡沫類吸聲材料對耳罩隔聲的影響規律。該模型錶明,提高罩杯剛度,降低罩杯內吸聲材料的剛度,有利于提高耳罩的隔聲性能。罩杯阻尼繫數越高,繫統共振峰越小,低頻隔聲性能有改善;吸聲材料的阻尼繫數較小為宜;較大的耳罩質量或體積,可以有效提高耳罩的隔聲性能,但較大的質量或體積會導緻耳罩舒適性降低。
파단이조결구고필위단조배쌍자유도모형,게시이조강도、조니、질량、체적、포말류흡성재료대이조격성적영향규률。해모형표명,제고조배강도,강저조배내흡성재료적강도,유리우제고이조적격성성능。조배조니계수월고,계통공진봉월소,저빈격성성능유개선;흡성재료적조니계수교소위의;교대적이조질량혹체적,가이유효제고이조적격성성능,단교대적질량혹체적회도치이조서괄성강저。
A single cup earmuff was simplified to a single cup and double degree-of-freedom vibration model. The model reveals the influence of earmuff’s stiffness, damping, mass, volume and foam absorption material on the sound insulation performance of the earmuffs. It shows that increasing the cup stiffness and reducing the stiffness of the absorption material in the cup are helpful for improving the sound insulation performance of the earmuffs. Higher damping coefficient of the cup can lead to smaller system resonance peak and better sound insulation performance in the low-frequency range. Smaller damping coefficient of sound absorbing material is better. Larger earmuff’s mass or volume can effectively improve the sound insulation performance of the earmuffs, but will reduce earmuff’s comfort.
