micro motion meaning in Chinese
微动动作
Examples
- Application of model 3500 or 3700 transmitter for micro motion mass flowmeter
质量流量计3500或3700型流量变送器的应用 - In order to set up the dynamic model of swimming micro robot , this dissertation builds up the statics model and analyses the micro motion amplifying performance of micro robot mechanism , builds up the vibration model of micro robot and analyses the vibrating performance without and with damp , researches the propelling force of driven wing and the resistance of micro robot in liquid based on the theory of flat board resisting stream , builds up the dynamic model of swimming micro robot for the first time in nation and analyses its swimming performance which is influenced by driving signal frequency , amplifying performance of main machanism , area of driven wing , character of fluid and so on . this dissertation manufactures the micro robot and sets up the experimental environment and tests the amplifying effect and the vibrating performance
本文建立了主体机构静力学模型,研究了主体机构的结构参数对微位移放大性能的影响;建立了主体机构振动模型,研究了主体机构在无液体阻尼和有液体阻尼情况下的振动特性;根据流体力学平板绕流理论,研究了驱动翼产生的推进力和微机器人在流体中受到的阻力;在此基础上国内首次建立了泳动微机器人的动力学模型,并对模型进行了深入的研究,详细阐明了驱动信号频率、主体机构放大性能、主体机构振动特性、驱动翼面积、液体性质等因素对微机器人泳动特性的影响。 - With the development of science and technology , the need of micro system is more and more urgent in many technical fields , such as various operation of cell and polymerized substances , micro surgery , scanning probe microscope ( spm ) , butting optical fiber , fine manufacturing etc . with the development of micro - technology , micro mechanism , which has the character of micro size or micro motion is new high technology from microcosmic point of view understanding and reconstructing the world , micro mechanism technology is important means for researching nanotechnology , so the micro stereo vision ( msv ) techniques are demanded urgently in microcosmic domain
随着科学技术的发展,许多领域越来越迫切地需要微型系统或微动系统,如生物细胞、聚合物的各种操作、微外科手术、扫描探针显微镜spm 、光纤对接和微细加工等;而且随着微技术的不断发展,以形状尺寸微小、操作尺度极小为特征的微机械已成为人们从微观角度认识和改造客观世界的一种高新技术;微机械技术还有望成为研究纳米技术的重要手段,因此在微观领域迫切要求显微立体视觉技术的发展。