机床与液压
機床與液壓
궤상여액압
MACHINE TOOL & HYDRAULICS
2013年
19期
144-147
,共4页
AMESim仿真%大型中空成型机%锁模系统%液压冲击
AMESim倣真%大型中空成型機%鎖模繫統%液壓遲擊
AMESim방진%대형중공성형궤%쇄모계통%액압충격
AMESim%Large-scale blow molding machine%Mold clamping system%Hydraulic impact
以大型储料式中空成型机的锁模系统为研究对象,利用AMESim仿真技术对其进行时域仿真分析。通过仿真分析得到了锁模缸活塞杆的位移、速度等变化曲线,根据仿真结果分析活塞受力与运动不稳定的原因,并对液压系统进行优化设计,有效避免了锁模系统开模过程中产生的液压冲击和机械冲击,减少了机械动作过程中的震动和噪声,提高了整个系统性能的稳定性和工作的可靠性。
以大型儲料式中空成型機的鎖模繫統為研究對象,利用AMESim倣真技術對其進行時域倣真分析。通過倣真分析得到瞭鎖模缸活塞桿的位移、速度等變化麯線,根據倣真結果分析活塞受力與運動不穩定的原因,併對液壓繫統進行優化設計,有效避免瞭鎖模繫統開模過程中產生的液壓遲擊和機械遲擊,減少瞭機械動作過程中的震動和譟聲,提高瞭整箇繫統性能的穩定性和工作的可靠性。
이대형저료식중공성형궤적쇄모계통위연구대상,이용AMESim방진기술대기진행시역방진분석。통과방진분석득도료쇄모항활새간적위이、속도등변화곡선,근거방진결과분석활새수력여운동불은정적원인,병대액압계통진행우화설계,유효피면료쇄모계통개모과정중산생적액압충격화궤계충격,감소료궤계동작과정중적진동화조성,제고료정개계통성능적은정성화공작적가고성。
Taking the mold clamping system of large-scale blow molding machine as research object,the time simulation domain analysis was made using AMESim technology. Through simulation analysis,the displacement and velocity curves of mold clamping hy-draulic cylinders piston rod were obtained and the hydraulic system was optimized according to analysis results. So hydraulic impact and mechanical impact of the mold clamping system are avoided effectively when opening the mold,the shock and noise in motion process are reduced,and the stability and reliability of the entire system are improved.
