电工技术学报
電工技術學報
전공기술학보
TRANSACTIONS OF CHINA ELECTROTECHNICAL SOCIETY
2010年
6期
7-11
,共5页
圆筒型永磁同步直线电机%偏心驱动%阻尼%纳米定位
圓筒型永磁同步直線電機%偏心驅動%阻尼%納米定位
원통형영자동보직선전궤%편심구동%조니%납미정위
Tubular permanent magnet synchronous linear motor%eccentric actuation%damping%nanopositioning
分析圆筒型永磁同步直线电机(TPMSLM)定位波动产生原因,提出由TPMSLM定子和动子偏心安装产生电磁阻尼,与导轨密封垫阻尼结合来吸收和抑制电磁扰动引起的推力波动,以达到精确定位的目的。采用偏心结构在电机内构建一个作用类似于旋转电机滚珠丝杆传动机构的“中间环节”,分析表明TPMSLM定子和动子偏心量与电磁扰动抑制能力成正比关系,当TPMSLM定子和动子偏心后的低端缝隙δ≤0.2mm时,其电磁扰动抑制能力提高了近10倍。此外实验也显示了导轨密封垫阻尼能吸收50%左右的电磁扰动量,实验证实了本文分析的正确性。
分析圓筒型永磁同步直線電機(TPMSLM)定位波動產生原因,提齣由TPMSLM定子和動子偏心安裝產生電磁阻尼,與導軌密封墊阻尼結閤來吸收和抑製電磁擾動引起的推力波動,以達到精確定位的目的。採用偏心結構在電機內構建一箇作用類似于鏇轉電機滾珠絲桿傳動機構的“中間環節”,分析錶明TPMSLM定子和動子偏心量與電磁擾動抑製能力成正比關繫,噹TPMSLM定子和動子偏心後的低耑縫隙δ≤0.2mm時,其電磁擾動抑製能力提高瞭近10倍。此外實驗也顯示瞭導軌密封墊阻尼能吸收50%左右的電磁擾動量,實驗證實瞭本文分析的正確性。
분석원통형영자동보직선전궤(TPMSLM)정위파동산생원인,제출유TPMSLM정자화동자편심안장산생전자조니,여도궤밀봉점조니결합래흡수화억제전자우동인기적추력파동,이체도정학정위적목적。채용편심결구재전궤내구건일개작용유사우선전전궤곤주사간전동궤구적“중간배절”,분석표명TPMSLM정자화동자편심량여전자우동억제능력성정비관계,당TPMSLM정자화동자편심후적저단봉극δ≤0.2mm시,기전자우동억제능력제고료근10배。차외실험야현시료도궤밀봉점조니능흡수50%좌우적전자우동량,실험증실료본문분석적정학성。
This paper analyzes the reasons causing positioning fluctuations of tubular permanent magnet synchronous linear motor (TPMSLM) and puts forward the electromagnetic damping generated by eccentric installation of stator and rotor of TPMSLM combined with the damping caused by dust protected seal of guide to absorb the thrust fluctuations aroused by electromagnetic disturbances in order to achieve the accurate positioning. In this paper, the eccentric structure in motor is adopted to establish an "intermediate link" that is similar to the ball screw drive mechanism of rotating motor. The analysis shows that the eccentric displacement of stator and rotor of TPMSLM is directly proportional to the suppression of electromagnetic disturbance. When down side gap of stator and rotor is eccentrically set to less than 0.2mm, the ability of electromagnetic disturbance suppression is increased to nearly 10 times. The experiment also shows that the seal damping of guide can absorb about 50% of the amount of electromagnetic disturbances.