中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2014年
18期
2421-2426
,共6页
徐川辉%王旭永%张文俊%苗中华
徐川輝%王旭永%張文俊%苗中華
서천휘%왕욱영%장문준%묘중화
凸轮转子%叶片马达%过渡曲线%流量脉动%伺服马达
凸輪轉子%葉片馬達%過渡麯線%流量脈動%伺服馬達
철륜전자%협편마체%과도곡선%류량맥동%사복마체
cam-rotor%vane motor%transition curve%flow fluctuation%servo motor
针对目前用于连续回转伺服驱动的液压马达品种类型不多的特点,对一种新型的凸轮转子叶片马达进行了研究,提出了基于参数对比的伺服马达优化设计方法。通过对过渡曲线压力角、马达排量公式、马达瞬时流量脉动率以及凸轮正压力的解析式推导及分析,得出了压力角与凸轮大小半径、马达排量与凸轮轴向长度、流量脉动率与叶片厚度以及凸轮正压力与叶片径向长度之间的关系。通过仿真时的参数对比,得到了马达最关键的两个零件即凸轮转子和叶片的优化参数。基于该优化参数设计的液压凸轮转子叶片马达被成功地应用到连续回转电液伺服系统中,并得到了良好的伺服精度,从而证明了马达参数优化设计的可行性和有效性。
針對目前用于連續迴轉伺服驅動的液壓馬達品種類型不多的特點,對一種新型的凸輪轉子葉片馬達進行瞭研究,提齣瞭基于參數對比的伺服馬達優化設計方法。通過對過渡麯線壓力角、馬達排量公式、馬達瞬時流量脈動率以及凸輪正壓力的解析式推導及分析,得齣瞭壓力角與凸輪大小半徑、馬達排量與凸輪軸嚮長度、流量脈動率與葉片厚度以及凸輪正壓力與葉片徑嚮長度之間的關繫。通過倣真時的參數對比,得到瞭馬達最關鍵的兩箇零件即凸輪轉子和葉片的優化參數。基于該優化參數設計的液壓凸輪轉子葉片馬達被成功地應用到連續迴轉電液伺服繫統中,併得到瞭良好的伺服精度,從而證明瞭馬達參數優化設計的可行性和有效性。
침대목전용우련속회전사복구동적액압마체품충류형불다적특점,대일충신형적철륜전자협편마체진행료연구,제출료기우삼수대비적사복마체우화설계방법。통과대과도곡선압력각、마체배량공식、마체순시류량맥동솔이급철륜정압력적해석식추도급분석,득출료압력각여철륜대소반경、마체배량여철륜축향장도、류량맥동솔여협편후도이급철륜정압력여협편경향장도지간적관계。통과방진시적삼수대비,득도료마체최관건적량개령건즉철륜전자화협편적우화삼수。기우해우화삼수설계적액압철륜전자협편마체피성공지응용도련속회전전액사복계통중,병득도료량호적사복정도,종이증명료마체삼수우화설계적가행성화유효성。
Because the type of hydraulic motor using for continuous revolving servo drive is not so much, research on a novel cam-rotor vane motor was carried out and an optimal design theory based on parameter comparisons was proposed herein. The relationships among the press angle and the cam ra-dius, the motor displacement and the axial length of cam, the flow fluctuation rate and vane thick-ness, the positive pressure of the motor’s cam and the radial length of vane were obtained based on the analytical derivation and analyses of pressure angle of transition curve, motor’s displacement for-mula, motor’s instantaneous flow fluctuation rate and positive pressure of the motor’s cam. Opti-mized parameters of cam-rotor and vane which were the most important parts of the motor were ob-tained from the simulation comparisons of different parameters. The hydraulic servo cam rotor vane motor designed with the optimized parameters is successfully applied to the continuous revolving elec-tro-hydraulic servo system and shows a very good servo precision, proves the feasibility and effective-ness of the optimal design theory herein.
