制冷压缩机配管系统模态分析及振动特性

    Vibration Characteristics and Modal Analysis for the Pipe System Connected to a Refrigeration Compressor

    • 摘要: 为了减小制冷压缩机运行过程中配管系统的振动,采用Pro/Engineer软件建立制冷压缩机配管系统和管道内部气柱的三维实体模型,然后利用有限元分析软件ANSYS分别对配管系统和管道内部气柱进行结构模态分析和声学模态分析,得到配管系统和管道内部气柱的前6阶固有频率. 计算结果表明:配管系统的4阶固有频率与压缩机激发频率非常接近,会发生共振;而管道内部气柱的固有频率不在共振区内,不会发生共振. 基于此,研究了回气管长度、排气管长度和固定支撑数目对制冷压缩机配管系统振动的影响特性. 模态分析结果表明:随着回气管和排气管长度的减小,制冷压缩机配管系统和管道内部气柱的各阶固有频率逐渐增大;当回气管长度设计取值合理时,配管系统和管道内部气柱的固有频率能够有效避开共振区,共振不会发生;随着排气管长度的减小或固定支撑数目的增加,配管系统的固有频率逐渐远离共振区,有利于避免共振发生,且设置2个固定支撑较为合理. 模拟结果与文献试验比较吻合一致.

       

      Abstract: To reduce the vibration during the operation of air conditioner, geometric models of the pipe system connected to refrigeration compressor and the gas column in pipe system were created by Pro/Engineering software, and the modal analysis based on ANSYS software was carried out to obtain the first six-order natural frequencies of the pipe system and the gas column. Results show that the fourth natural frequency of the pipe system is very close to the compressor excitation frequency, and resonance occurs. Because the natural frequencies of the gas columns in suction pipe and discharge pipe are not in the resonance region, the gas columns in the suction pipe and discharge pipe cannot resonate. For the problem of pipe system resonance, the vibration characteristics of the pipe system with different lengths of the suction pipe, different lengths of discharge pipe and fixed supporting number are analyzed. The modal analysis results show that the natural frequencies of the pipe system and the gas column in the pipe system increase with the decrease of suction pipe length and discharge pipe length. When the rational value of the suction pipe length is taken, the natural frequencies of the pipe system and the gas column are not in resonance region, and resonance cannot occur. With the decrease of discharge pipe length and the increase of the fixed supporting number, the natural frequency of the pipe system gradually gets far away from the resonance region, which is beneficial to avoid resonance. Additionally, it is reasonable to set two fixed supportings for the pipe system if considering the convenience for operation and economic condition. Simulation results accord with the reported experiment results.

       

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