厦门理工学院学报
廈門理工學院學報
하문리공학원학보
JOURNAL OF XIAMEN UNIVERSITY OF TECHNOLOGY
2014年
5期
12-15
,共4页
黄海滨%曹林攀%柯晓龙%刘建春
黃海濱%曹林攀%柯曉龍%劉建春
황해빈%조림반%가효룡%류건춘
微进给机构%柔性铰链%有限元分析%平行四连杆机构%静力学分析
微進給機構%柔性鉸鏈%有限元分析%平行四連桿機構%靜力學分析
미진급궤구%유성교련%유한원분석%평행사련간궤구%정역학분석
micro feed mechanism%flexible hinge%finite element analysis%parallel four-bar mechanism%static analysis
设计一套以音圈电机为驱动电机,柔性铰链为支承元件,碟形弹簧为减震机构的微进给机构.柔性铰链采用双平行四杆机构的结构形式,计算了柔性铰链在音圈电机峰值推力作用下的最大输出位移和最大应力值.通过有限元分析柔性铰链在不同推力作用下的应力、应变图,发现在音圈电机最大推力800 N作用下,柔性铰链的最大应变为224.67μm.分析结果证明,所设计的直圆形双平行四连杆柔性铰链能够满足微进给机构的往复进给行程要求.
設計一套以音圈電機為驅動電機,柔性鉸鏈為支承元件,碟形彈簧為減震機構的微進給機構.柔性鉸鏈採用雙平行四桿機構的結構形式,計算瞭柔性鉸鏈在音圈電機峰值推力作用下的最大輸齣位移和最大應力值.通過有限元分析柔性鉸鏈在不同推力作用下的應力、應變圖,髮現在音圈電機最大推力800 N作用下,柔性鉸鏈的最大應變為224.67μm.分析結果證明,所設計的直圓形雙平行四連桿柔性鉸鏈能夠滿足微進給機構的往複進給行程要求.
설계일투이음권전궤위구동전궤,유성교련위지승원건,설형탄황위감진궤구적미진급궤구.유성교련채용쌍평행사간궤구적결구형식,계산료유성교련재음권전궤봉치추력작용하적최대수출위이화최대응력치.통과유한원분석유성교련재불동추력작용하적응력、응변도,발현재음권전궤최대추력800 N작용하,유성교련적최대응변위224.67μm.분석결과증명,소설계적직원형쌍평행사련간유성교련능구만족미진급궤구적왕복진급행정요구.
A micro feed mechanism was designed, which was driven by voice coil motor, supported by flexible hinge, and had a disk-spring installed behind the voice coil motor to improve its damping property. The flexure hinge was designed as a double parallel four-bar mechanism, and its maximum displacement and stress under peak motor thrust calculated. The results verify that the maximum strain of flexible hinge is 224. 67 μm under the maximum motor thrust of 800 N, and the double parallel four-bar flexible hinge can meet the requirements of reciprocating feed strokes of the micro feed mechanism.
