Sound-insulating Casing with Resonator Elements

I.V. Deryabin
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引用次数: 0

Abstract

Constant exposure to industrial noise has a negative impact on the human body. That is why increased attention is paid to the fight against noise, the rationing of industrial noise and vibrations was adopted. One of the effective methods to reduce the noise emitted by the operating equipment is the use of noise-insulating casings. The casing, as a rule, contains an outer skin made of steel sheet, a sound-absorbing lining of the inner skin, a perforated lining of a sound-absorbing coating. A typical octave spectrum of radiation sound pressure levels near the machine has a maximum near the frequency of 500 Hz, and the highest casing efficiency (insertion loss) is achieved in the frequency range of 1000–4000 Hz. The purpose of the study presented in the article is to improve the acoustic properties of the noise-insulating casing in the medium and low-frequency sound spectrum. To accomplish this task, the author proposes integrating resonator elements, in particular, Helmholtz resonators, into the structure of the noise-insulating casing. The natural resonant frequencies of Helmholtz acoustic resonators are determined considering their necessary frequency tuning, which ensures effective suppression of sound radiation at discrete values of the operating dominant frequencies of operating equipment. To reduce the excitation of structural vibrations and sound, as well as additional sound insulation, the frame walls and casing covers are damped on the outside and inside with a layer of vibration-damping material. Significant absorption of sound waves generated by operating equipment is ensured by lining the casing walls with effective sound-absorbing panels made of porous material, lined, in turn, with an external protective sound-transparent layer. The design of a noise-insulating casing with resonator elements presented in the study has high acoustic properties in a wide frequency range. Helmholtz resonators built into the casing structure provide sound absorption in 1/3 octave frequency bands centered at 400 and 500 Hz, characterized by a resonant amplification of the sound emitted by the equipment discussed in the article.
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带谐振元件的隔音外壳
持续暴露在工业噪音中对人体有负面影响。这就是为什么越来越重视与噪音的斗争,采取了工业噪音和振动的定量配给。降低运行设备噪声的有效方法之一是使用隔声外壳。通常,所述外壳包含由钢板制成的外皮、内皮的吸声衬里、吸声涂层的穿孔衬里。机器附近辐射声压级的典型倍频谱在500 Hz频率附近具有最大值,在1000-4000 Hz频率范围内实现最高的机匣效率(插入损失)。本文的研究目的是为了提高隔声壳体在中低频频谱上的声学性能。为了完成这一任务,作者提出将谐振腔元件,特别是亥姆霍兹谐振腔集成到隔声壳体的结构中。亥姆霍兹声谐振器的固有谐振频率是考虑其必要的频率调谐来确定的,以确保在工作设备的工作主导频率的离散值处有效抑制声辐射。为了减少结构振动和声音的激发,以及额外的隔声,框架壁和壳体盖在内外都有一层减振材料。通过在机壳壁上衬以多孔材料制成的有效吸声板,再衬以外部保护透明声层,确保对操作设备产生的声波有显著的吸收。本研究提出的带谐振腔元件的隔声壳体设计在宽频率范围内具有较高的声学性能。壳体结构中的亥姆霍兹谐振器提供以400和500 Hz为中心的1/3倍频带的吸声,其特点是对文中讨论的设备发出的声音进行共振放大。
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来源期刊
Bezopasnost'' Truda v Promyshlennosti
Bezopasnost'' Truda v Promyshlennosti Environmental Science-Environmental Science (miscellaneous)
CiteScore
1.00
自引率
0.00%
发文量
110
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