李相军¹，金培德¹，钟庆伯¹，谢建辉¹，朱忠春²，钱中华³
    (1 大冶有色金属公司，黄石435005; 2 大冶有色设计院，黄石435005; 3 大冶有色建安公司，黄石435005)

[摘要] 对铜绿山矿高架风机房振动、震害进行结构分析和研究，引用日益成熟的耗能减振（震）新技术，有选择性地采取抗振、隔振和减振的综合设计方案。方案充分利用现有结构进行改造，利用废旧材料制作耗能构件，充分考虑生产与改造衔接，简单易行、经济可靠地保证安全、消除隐患，体现灵活运用耗能减振新技术的显著成效。
[关键词] 高构架；改造；抗振；隔振；耗能

    High frame vibration damping technology in air compressor room
    LiXiangjun¹,  Jin Peide¹,  Zhong Qingbo¹,  Xie Jianhui¹,  Zhu 2hongchun²,  Qian 2honghua³
    (1 Daye Nonferrous Metals Company, Huangshi 435005, China; 2 Daye Nonferrous Design Institute, Huangshi 435005, China; 3 Daye Nonferrous Construction and Installation Company,  Huangshi 435005, China)

Abstract: By analysis and research on wind room vibration and earthquake damage in Tonglushan Mine, the new and increasingly sophisticated damper (shock) technology was put forward, which was combined with the comprehensive design scheme of anti-vibration, vibration isolation and damping selectively. The new technology renovates existing structure, makes full use of waste material for energy dissipation component, and gives full consideration to production and transformation linkage. It is simple, economical and reliable to guarantee security and eliminate hidden dangers to gain remarkable effects.
Keywords: high frame; transformation; anti-vibration; vibration isolation; energy dissipation