振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2014年
7期
206-209,226
,共5页
并联机构%变胞机构%多维隔振%动力学仿真
併聯機構%變胞機構%多維隔振%動力學倣真
병련궤구%변포궤구%다유격진%동역학방진
parallel mechanism%metamorphic mechanism%multi-dimensional vibration isolation%dynamic simulation
在某些变激励和变环境的多维隔振中,目前应用的隔振理论和隔振技术存在诸多的缺陷,从而不能满足实际工程的隔振要求。给出了一种新颖的变胞并联机构,并以此为主体在选定的主动副处安装相应的弹簧阻尼系统建立了多维隔振平台。该变胞隔振平台存在两种形位,可以通过调整rT铰链的配置,使变胞机构变为3-CRR或者CRU -2CRR两种不同的并联机构。推导了隔振系统的运动学和动力学方程,对其模态、动力学特性和隔振效果进行了研究。仿真计算表明,在主动副处辅以适当的弹性和阻尼,可以实现隔振系统多维隔振,并可以通过设定系统的初始位置等获得不同的固有频率,从而适应不同的隔振工况要求。
在某些變激勵和變環境的多維隔振中,目前應用的隔振理論和隔振技術存在諸多的缺陷,從而不能滿足實際工程的隔振要求。給齣瞭一種新穎的變胞併聯機構,併以此為主體在選定的主動副處安裝相應的彈簧阻尼繫統建立瞭多維隔振平檯。該變胞隔振平檯存在兩種形位,可以通過調整rT鉸鏈的配置,使變胞機構變為3-CRR或者CRU -2CRR兩種不同的併聯機構。推導瞭隔振繫統的運動學和動力學方程,對其模態、動力學特性和隔振效果進行瞭研究。倣真計算錶明,在主動副處輔以適噹的彈性和阻尼,可以實現隔振繫統多維隔振,併可以通過設定繫統的初始位置等穫得不同的固有頻率,從而適應不同的隔振工況要求。
재모사변격려화변배경적다유격진중,목전응용적격진이론화격진기술존재제다적결함,종이불능만족실제공정적격진요구。급출료일충신영적변포병련궤구,병이차위주체재선정적주동부처안장상응적탄황조니계통건립료다유격진평태。해변포격진평태존재량충형위,가이통과조정rT교련적배치,사변포궤구변위3-CRR혹자CRU -2CRR량충불동적병련궤구。추도료격진계통적운동학화동역학방정,대기모태、동역학특성화격진효과진행료연구。방진계산표명,재주동부처보이괄당적탄성화조니,가이실현격진계통다유격진,병가이통과설정계통적초시위치등획득불동적고유빈솔,종이괄응불동적격진공황요구。
Due to the fact that the existing isolation theories and technologies have many defects for multi-dimensional vibration isolations,they are unable to meet the needs of vibration isolation in practice engineering with excitation and environment varying frequently.A novel metamorphic parallel mechanism was proposed and taken as the main body of a multi-dimensional vibration isolation system where some springs and dampers were installed at the selected active joints to build a multi-dimensional vibration isolation platform. This platform had two configurations. The metamorphic mechanism could be changed into a 3-CRR mechanism or a CRU-2CRR parallel one just by adjusting the configurations of the rT joint.The kinematic and dynamic equations of the presented vibration isolation system were deduced,and then its modes,dynamic characteristics and the vibration isolation isolation effect of the vibration isolation platform were studied.The simulations showed that the platform has a good vibration effect with both two configurations, and it can isolate two sets of multi-dimensional vibrations.