第 42 卷 第 5 期                                                                       Vol. 42, No. 5
             2023 年 9 月                          Journal of Applied Acoustics                 September, 2023

             ⋄ 研究报告 ⋄



                              高速列车商务舱内降噪方案研究





                                     陈红伟      1†  吴瑞孟      1   贺 义     2    陈梓君     1



                                             (1 北京声望声电技术有限公司        北京  100029)
                                           (2 中车长春轨道客车股份有限公司         长春   130000)

                摘要：轨道交通工具的噪声问题越来越受到人们的关注。本文针对某高铁商务舱内噪声过大的问题应用统计
                能量分析模型结合试验进行问题诊断，发现内装地板的振动是车内噪声的主要来源，进而分析结构传递路径
                是导致内装地板振动过大的原因。结合主要的能量贡献提出了应用分布式吸振器、地板吸声板以及改变地板
                连接结构的方式来降低车内噪声。通过试验验证发现优化后主要的噪声峰值频率 100 ∼ 300 Hz 之间有明显
                改善，商务舱内的噪声由 75.1 dBA 下降至 71.3 dBA，达到了降噪目标。应用模型指导设计可以迅速找到问题
                关键点，提出设计方案并在模型中进行验证，提高了解决高速列车 NVH 问题的效率并降低了成本。
                关键词：商务舱噪声；统计能量分析；隔声量
                中图法分类号: U270.1+.6          文献标识码: A          文章编号: 1000-310X(2023)05-1081-09
                DOI: 10.11684/j.issn.1000-310X.2023.05.022




                   Study on the noise reduction schedme in VIP room of high-speed train



                                CHEN Hongwei   1   WU Ruimeng  1   HE Yi 2   CHEN Zijun 1

                                        (1 BSWA Technology Co., Ltd., Beijing 100029, China)
                                (2 CRRC Changchun Railway Vehicles Co., Ltd., Changchun 130000, China)

                 Abstract: The noise of the rail transportation problems get more and more people’s attention. In this paper, in
                 order to solve the noise problem in the VIP room of a high-speed train, statistical energy analysis methods are
                 used to diagnose the problem combined with experiments. The vibration of the inner-floor is the main source
                 of interior noise, then transfer path analysis shown structure-borne noise through connections between inner-
                 floor and outer-floor need to be concerned. Combined with the main energy contribution path, the distributed
                 vibration absorber, the floor sound-absorbing board and the way of changing the structure connection are
                 proposed to reduce the interior noise. Through experimental verification, it is found that the main peak noise
                 frequency between 100–300 Hz is significantly improved after optimization, and the noise in VIP room is reduced
                 from 75.1 dBA to 71.3 dBA, reaching the target of noise reduction. Model-guided design can quickly find the
                 key points of the problem, put forward the design scheme and verify it in the model, which provides an efficient
                 way to solve the NVH problems of high-speed train also reduce the costs.
                 Keywords: Noise in VIP Room; Statistic energy analysis; Sound transmission loss



             2022-06-14 收稿; 2022-08-08 定稿
             作者简介: 陈红伟 (1987– ), 男, 山东泰安人, 硕士, 研究方向: 振动噪声技术。
             † 通信作者 E-mail: chenhongwei87@sina.com