中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2014年
11期
1421-1426
,共6页
马尚君%刘更%佟瑞庭%张文杰
馬尚君%劉更%佟瑞庭%張文傑
마상군%류경%동서정%장문걸
反向式行星滚柱丝杠副%节圆偏移%轴向位移%滑动速度
反嚮式行星滾柱絲槓副%節圓偏移%軸嚮位移%滑動速度
반향식행성곤주사강부%절원편이%축향위이%활동속도
inverted planetary roller screw%pitch circle mismatch%axial displacement%slip velocity
以反向式行星滚柱丝杠副为研究对象,对因滚柱螺纹节圆与滚柱齿节圆产生偏移而导致的滚柱和丝杠发生相对滑动和相对轴向位移的问题进行了研究。首先建立了滑动角、滚柱相对丝杠轴向位移和各部件相对滑动速度运动学分析的模型,着重分析了滚柱位移对整个机构导程和滑动速度的影响;再以某一反向式行星滚柱丝杠副为例,计算了由接触变形引起的节圆偏移量,并采用该模型分别计算了滚柱相对丝杠的轴向位移和滑动速度。研究结果表明:滚柱轴向位移不会影响系统导程;螺母滚柱侧必然存在轴向滑动;减小节圆偏移量能有效降低丝杠滚柱侧滑动速度。
以反嚮式行星滾柱絲槓副為研究對象,對因滾柱螺紋節圓與滾柱齒節圓產生偏移而導緻的滾柱和絲槓髮生相對滑動和相對軸嚮位移的問題進行瞭研究。首先建立瞭滑動角、滾柱相對絲槓軸嚮位移和各部件相對滑動速度運動學分析的模型,著重分析瞭滾柱位移對整箇機構導程和滑動速度的影響;再以某一反嚮式行星滾柱絲槓副為例,計算瞭由接觸變形引起的節圓偏移量,併採用該模型分彆計算瞭滾柱相對絲槓的軸嚮位移和滑動速度。研究結果錶明:滾柱軸嚮位移不會影響繫統導程;螺母滾柱側必然存在軸嚮滑動;減小節圓偏移量能有效降低絲槓滾柱側滑動速度。
이반향식행성곤주사강부위연구대상,대인곤주라문절원여곤주치절원산생편이이도치적곤주화사강발생상대활동화상대축향위이적문제진행료연구。수선건립료활동각、곤주상대사강축향위이화각부건상대활동속도운동학분석적모형,착중분석료곤주위이대정개궤구도정화활동속도적영향;재이모일반향식행성곤주사강부위례,계산료유접촉변형인기적절원편이량,병채용해모형분별계산료곤주상대사강적축향위이화활동속도。연구결과표명:곤주축향위이불회영향계통도정;라모곤주측필연존재축향활동;감소절원편이량능유효강저사강곤주측활동속도。
Taking an inverted planetary roller screw as the research obj ect,the kinematic models were developed to investigate axial displacement and slip velocity of the roller relative to the screw, which was caused by a pitch circle mismatch between the roller thread and the roller gear.First,the calculation formulas of the angle of slip,axial displacement and slip velocity of the roller relative to the screw were presented,and the effects of roller displacement on the overall lead and slip velocity of the mechanism were analyzed.Then,an inverted planetary roller screw was selected as an example, and the pitch circle mismatch values due to contact deformation were derived.Furthermore,the axial displacement and slip velocity of the roller relative to the screw were calculated by using the formulas respectively.The results show that the roller displacement does not affect the lead of the overall sys-tem,the slip must occur at the nut-roller interface,and slip velocity is decreased by decreasing the pitch mismatch values at the screw-roller interface effectively.