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Topological and Shape Optimization of Flexure Hinges for Designing Compliant Mechanisms Using the Level Set Method 被引量:8
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作者 Benliang Zhu Xianmin Zhang +2 位作者 Min Liu Qi Chen Hai Li 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2019年第1期42-53,共12页
A flexure hinge is a major component in designing compliant mechanisms that o ers unique possibilities in a wide range of application fields in which high positioning accuracy is required. Although various flexure hin... A flexure hinge is a major component in designing compliant mechanisms that o ers unique possibilities in a wide range of application fields in which high positioning accuracy is required. Although various flexure hinges with di erent configurations have been successively proposed, they are often designed based on designers' experiences and inspirations. This study presents a systematic method for topological optimization of flexure hinges by using the level set method. Optimization formulations are developed by considering the functional requirements and geometrical constraints of flexure hinges. The functional requirements are first constructed by maximizing the compliance in the desired direction while minimizing the compliances in the other directions. The weighting sum method is used to construct an objective function in which a self-adjust method is used to set the weighting factors. A constraint on the symmetry of the obtained configuration is developed. Several numerical examples are presented to demonstrate the validity of the proposed method. The obtained results reveal that the design of a flexure hinge starting from the topology level can yield more choices for compliant mechanism design and obtain better designs that achieve higher performance. 展开更多
关键词 TOPOLOGY optimization Compliant mechanisms flexure hingeS Level SET METHOD
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Optimizing the Qusai-static Folding and Deploying of Thin-Walled Tube Flexure Hinges with Double Slots 被引量:6
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作者 YANG Hui DENG Zongquan +2 位作者 LIU Rongqiang WANG Yan GUO Hongwei 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2014年第2期279-286,共8页
The thin-walled tube flexure(TWTF) hinges have important potential application value in the deployment mechanisms of satellite and solar array, but the optimal design of the TWTF hinges haven't been completely solv... The thin-walled tube flexure(TWTF) hinges have important potential application value in the deployment mechanisms of satellite and solar array, but the optimal design of the TWTF hinges haven't been completely solved, which restricts their applications. An optimal design method for the qusai-static folding and deploying of TWTF hinges with double slots is presented based on the response surface theory. Firstly, the full factorial method is employed to design of the experiments. Then, the finite element models of the TWTF hinges with double slots are constructed to simulate the qusai-static folding and deploying non-linear analysis. What's more, the mathematical model of the TWTF flexure hinge quasi-static folding and deploying properties are derived by the response surface method. Considering of small mass and high stability, the peak moment of quasi-static folding and deploying as well as the lightless are set as the objectives to get the optimal performances. The relative errors of the objectives between the optimal design results and the FE analysis results are less than 7%, which demonstrates the precision of the surrogate models. Lastly, the parameter study shows that both the slots length and the slots width both have significant effects to the peak moment of quasi-static folding and deploying of TWTF hinges with double slots. However, the maximum Mises stress of quasi-static folding is more sensitive to the slots length than the slots width. The proposed research can be applied to optimize other thin-walled flexure hinges under quasi-static folding and deploying, which is of great importance to design of flexure hinges with high stability and low stress. 展开更多
关键词 design optimization quasi-static folding and deploying flexure hinges thin-walled tube response surface method numerical simulation
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Kinematics modeling of a 6-PSS parallel mechanism with wide-range flexure hinges 被引量:1
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作者 杜志江 史若冲 董为 《Journal of Central South University》 SCIE EI CAS 2012年第9期2482-2487,共6页
A novel 6-PSS flexible parallel mechanism was presented,which employed wide-range flexure hinges as passive joints.The proposed mechanism features micron level positioning accuracy over cubic centimeter scale workspac... A novel 6-PSS flexible parallel mechanism was presented,which employed wide-range flexure hinges as passive joints.The proposed mechanism features micron level positioning accuracy over cubic centimeter scale workspace.A three-layer back-propagation(BP) neural network was utilized to the kinematics analysis,in which learning samples containing 1 280 groups of data based on stiffness-matrix method were used to train the BP model.The kinematics performance was accurately calculated by using the constructed BP model with 19 hidden nodes.Compared with the stiffness model,the simulation and numerical results validate that BP model can achieve millisecond level computation time and micron level calculation accuracy.The concept and approach outlined can be extended to a variety of applications. 展开更多
关键词 flexible parallel manipulator wide-range flexure hinge kinematics model neural network
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Analysis of the Micro-Rotation Compliant Mechanism Based on the Corner-Filleted Flexure Hinges
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作者 Yongyao Yan Wei Liu +1 位作者 Changxiang Yan Jinjiang Fu 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2017年第5期71-81,共11页
The purpose of this thesis is to derive the flexibility formula of the corner-filleted flexure hinge easily and conveniently and use it to design a micro-rotation compliant mechanism. Firstly,we get the corner-fillete... The purpose of this thesis is to derive the flexibility formula of the corner-filleted flexure hinge easily and conveniently and use it to design a micro-rotation compliant mechanism. Firstly,we get the corner-filleted flexure hinge flexibility formula by methods of symmetry transformation and coordinates translation. The correctness of this formula is validated on the basis of the finite element method and under the premise that the effects of shear stress are taken into consideration. Then a micro-rotation compliant mechanism is designed in accordance with the corner-filleted flexure hinge,and the deduction and analysis of its working moment/rigidity are conducted. Moreover,this theoretical formula is proved to be accurate and reliable through the finite element analysis and the experimental verification,based on which the structural design and optimization can be made on the rotating part of a micro adjustment device. The results illustrate that designing and optimizing the structures by the analysis model is convenient and reliable so that complicated 3D modeling and finite element analysis are not needed. 展开更多
关键词 flexure hinge corner-filleted compliant mechanism RIGIDITY optimization ANALYSIS model
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Reliability Analysis of Flexure Hinge Based on Kriging Method
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作者 李贵杰 徐佳 +1 位作者 谢朝阳 胡盛勇 《Journal of Donghua University(English Edition)》 EI CAS 2016年第2期288-291,共4页
The uncertainty widely exists in the engineering practice.Therefore,it is necessary to research the effect of uncertainty on the structural system. In this paper,the reliability and sensitivity of the flexure hinge, w... The uncertainty widely exists in the engineering practice.Therefore,it is necessary to research the effect of uncertainty on the structural system. In this paper,the reliability and sensitivity of the flexure hinge, which is the key component of the compliant mechanisms,are investigated. The results of the reliability analysis can effectively guide the engineer to design and optimize the flexure hinge. In order to improve the calculating efficiency,the kriging method is introduced to estimate the failure probability and reliability sensitivity. 展开更多
关键词 compliant mechanism flexure hinge RELIABILITY failure probability reliability sensitivity kriging method
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Simulation optimal design of a compliant mechanism with circular notch flexure hinges based on the equivalent beam methodology
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作者 张兆成 万晶 胡泓 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2011年第4期67-70,共4页
This paper presents an in-depth study of Equivalent beam model (EBM).Firstly three-dimensional (3D) finite element analysis (FEA) model for circular flexure hinge developed by Zettl et al.was verified by the compariso... This paper presents an in-depth study of Equivalent beam model (EBM).Firstly three-dimensional (3D) finite element analysis (FEA) model for circular flexure hinge developed by Zettl et al.was verified by the comparison with Smith's experimental results and the 3D FEA model was feasible within 5.5% error.Then the accuracy of Timoshenko short-beam due to shear force was verified based on finite element method.The results showed that the EBM has good accuracy within 5% error for 1≤r/t≤3.Finally the EBM methodology was applied for the simulation optimal design of a bridge-type compliant mechanism.The results showed that the EBM methodology has very high numerical efficiency and satisfactory accuracy for simulation optimal design of planar compliant mechanism with flexure hinges. 展开更多
关键词 euivalent beam methodology compliant mechanisms flexure hinges finite element simulation
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A large workspace flexure hinge-based parallel manipulator system
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作者 董为 Du Zhijiang Sun Lining 《High Technology Letters》 EI CAS 2005年第4期377-381,共5页
Parallel manipulator systems as promising precision devices are used widely in current researches. A novel large workspace flexure parallel manipulator system utilizing wide-range flexure hinges as passive joints is p... Parallel manipulator systems as promising precision devices are used widely in current researches. A novel large workspace flexure parallel manipulator system utilizing wide-range flexure hinges as passive joints is proposed in this paper, which can attain sub-micron-seale precision over the cubic centimeter motion range. This paper introduces the mechanical system architecture based on the wide-range flexure hinges, analyzes the kinematics via stiffness matrices, presents the control system configuration and control strategy, and finally gives the system performance test results. 展开更多
关键词 precision manipulation parallel manipulator flexure hinge kinematics analysis stiffness matrix
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Higher mode effects in hinged wall with BRBsin base-frame structures using distributed parameter models 被引量:1
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作者 Yang Xiaoyan Wu Jing +2 位作者 Pang Xixi Wang Qiang Zhang Meng 《Journal of Southeast University(English Edition)》 EI CAS 2020年第1期56-66,共11页
To investigate the effect of higher modes on the displacement and inner forces in HWBB(hinged wall with buckling-restrained braces in base)-frame structure,distributed parameter models for both the HWBB-hinged frame s... To investigate the effect of higher modes on the displacement and inner forces in HWBB(hinged wall with buckling-restrained braces in base)-frame structure,distributed parameter models for both the HWBB-hinged frame structure and the HWBB-MRF(moment resisting frame)structure are built.The hinged wall is simplified as a flexural beam.BRBs(bucking-restrained braces)are simplified to a rotational spring.MRF is simplified to a shear beam.Vibration equations of distributed parameter models are derived.Natural periods,natural modes of vibration,inner forces and displacements of the distributed parameter models are derived based on the vibration equations using numerical methods.The effect of the relative stiffness ratio and the rotational stiffness ratio on the higher mode effects is investigated.For elastic structures,the global displacement and shear in MRF are predominantly controlled by the first mode,while the shear and bending moment in the wall are significantly affected by higher mode effects.The effect of the yielding of BRB on the inner forces distribution in the HWBB-hinged frame is investigated.The results indicate that the first mode will no longer contribute to the inner forces and the contribution from higher modes to inner forces increases after the BRBs yield.Displacement is not sensitive to higher mode effects and it is controlled by the first mode after the BRBs yield.Parameter analysis demonstrates that the displacement amplitudes are reduced with the increase in the flexural stiffness of the wall before the flexural stiffness reaches a certain value.The first three periods decrease with the increase in the rotational stiffness.With the increase in the rotational stiffness ratio,the contribution from the first mode decreases while contributions from both the second mode and third mode increase. 展开更多
关键词 hinged wall higher mode effects flexural beam rotational spring rotational stiffness ratio
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基于柔性铰链结构的大口径压电快摆镜
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作者 王强 时运来 +2 位作者 孙海超 李兴 刘伟 《压电与声光》 CAS 北大核心 2024年第1期73-78,共6页
为了解决压电作动器驱动的快速反射镜因压电作动器伸长量较小,导致快速反射镜偏转角过小的问题,该文提出了一款新型快速反射镜设计方案。采用三级杠杆式柔性铰链放大机构实现压电作动器位移的放大,采用柔性轴承作为快摆镜的运动关节实... 为了解决压电作动器驱动的快速反射镜因压电作动器伸长量较小,导致快速反射镜偏转角过小的问题,该文提出了一款新型快速反射镜设计方案。采用三级杠杆式柔性铰链放大机构实现压电作动器位移的放大,采用柔性轴承作为快摆镜的运动关节实现快摆镜的大角度定轴偏转。通过理论推导和有限元仿真对快摆镜的最大偏转角度、等效应力、谐振频率以及振型进行分析。实验结果表明,所设计的快摆镜可以实现大于2 mrad的镜面偏转,满足大范围、高精度的光束定位要求。 展开更多
关键词 柔性铰链 逆压电效应 压电作动器 大口径压电快摆镜 位移放大机构
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考虑变墩高效应的小半径曲线梁桥地震易损性研究
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作者 焦驰宇 马辉 +1 位作者 刘洋 林监 《桥梁建设》 EI CSCD 北大核心 2024年第5期69-76,共8页
为分析墩高变化形式对小半径曲线梁桥地震易损性的影响,以某互通式立交匝道桥第2联为背景,设计渐变型、凹岛型、凸岛型3种墩高变化形式曲线梁桥进行地震易损性研究。在提出的压弯剪扭耦合作用破坏的基础上,采用集中铰-纤维模型的桥墩建... 为分析墩高变化形式对小半径曲线梁桥地震易损性的影响,以某互通式立交匝道桥第2联为背景,设计渐变型、凹岛型、凸岛型3种墩高变化形式曲线梁桥进行地震易损性研究。在提出的压弯剪扭耦合作用破坏的基础上,采用集中铰-纤维模型的桥墩建模方法,通过SeismoStruct有限元软件建立3种墩高变化形式曲线梁桥模型;选取符合Ⅲ类场地特性的50条地震波,利用能力需求比法,以位移延性比为损伤指标,研究不同变墩高形式下桥墩与支座的地震易损性。结果表明:当小半径曲线梁桥采用3种墩高变化形式时,以弯曲受力为主的中、高墩在地震作用下发生完全破坏概率较低,以弯剪或剪切受力为主的矮墩在强震作用下发生完全破坏概率较大,变墩高曲线梁桥可以适当提高矮墩的抗震能力;凹岛型墩高变化形式会增加矮墩的损伤概率,在抗震设计中应避免选择该墩高变化形式或尽可能优化墩梁连接方式;墩高变化形式对于支座的易损性影响小于对桥墩的影响。 展开更多
关键词 小半径曲线梁桥 墩高变化形式 压弯剪扭耦合作用 集中铰-纤维模型 地震易损性 有限元法
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差动驱动并联机器人设计与运动学分析
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作者 任彪 韩哈斯敖其尔 +2 位作者 黄胡泽 李耀彬 吴清文 《组合机床与自动化加工技术》 北大核心 2024年第2期1-7,12,共8页
基于Stewart并联机器人构型和偏置柔性虎克铰链,利用双螺旋副差动传动的方案设计了一款低成本高精度6-RR-RP-RR构型的6-DOF并联机器人。首先,基于双螺旋副差动传动原理,分别提出了串联和并联两种差动驱动方案,并对柔性虎克铰链进行了设... 基于Stewart并联机器人构型和偏置柔性虎克铰链,利用双螺旋副差动传动的方案设计了一款低成本高精度6-RR-RP-RR构型的6-DOF并联机器人。首先,基于双螺旋副差动传动原理,分别提出了串联和并联两种差动驱动方案,并对柔性虎克铰链进行了设计,确定了最终的整机结构设计方案;其次,对柔性铰链的柔度进行了理论建模,并仿真验证了其柔度和强度设计的合理性;此外,对该并联机器人开展了逆运动学分析,建立了其运动学模型,并采用牛顿-拉普拉森数值迭代方法进行了求解;最后,分别利用多体动力学和Ansys仿真软件验证了整机运动学模型和求解的准确性。 展开更多
关键词 差动传动 STEWART平台 柔性铰链 运动学
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基于椭圆形柔性铰链微克级单体式称量机构性能分析与优化
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作者 朱锦辉 王健 +1 位作者 江文松 罗哉 《计量学报》 CSCD 北大核心 2024年第8期1170-1176,共7页
为了提高单体式称量机构的灵敏度,对微克级的单体式称量机构进行性能分析与优化,建立了基于椭圆形柔性铰链称量机构的数学模型;以称量机构的横梁末端位移来评价称量机构的灵敏度,通过在不同部分改变铰链厚度,分别验证椭圆形和圆弧形铰... 为了提高单体式称量机构的灵敏度,对微克级的单体式称量机构进行性能分析与优化,建立了基于椭圆形柔性铰链称量机构的数学模型;以称量机构的横梁末端位移来评价称量机构的灵敏度,通过在不同部分改变铰链厚度,分别验证椭圆形和圆弧形铰链对称量机构灵敏度的影响。结合Ansys Workbench有限元仿真软件对模型的准确确度进行了验证,给出了针对柔性铰链划分网格时的评价依据,结果表明:模型的最小误差为1.8%;且在1μg载荷下,椭圆形铰链相比于圆弧形增加了0.39 nm的末端位移。 展开更多
关键词 质量计量 微克级称量 单体式称量机构 椭圆形柔性铰链 有限元仿真
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基于柔性铰链微动平台的自抗扰控制方法
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作者 彭皓 杨志军 +1 位作者 蔡炳彧 白有盾 《机床与液压》 北大核心 2024年第8期24-28,共5页
微动平台一般以柔性铰链为导向机构,由于系统固有频率低,会严重限制传统PID算法的控制带宽,影响定位精度。因此,设计自抗扰控制算法(ADRC)将系统未建模动态与外部未知扰动共同视作“总扰动”,通过扩张状态观测器(ESO)进行估计和补偿,提... 微动平台一般以柔性铰链为导向机构,由于系统固有频率低,会严重限制传统PID算法的控制带宽,影响定位精度。因此,设计自抗扰控制算法(ADRC)将系统未建模动态与外部未知扰动共同视作“总扰动”,通过扩张状态观测器(ESO)进行估计和补偿,提高系统的控制带宽。为了充分利用已知的模型信息,设计基于模型的ADRC算法,将柔性铰链标称模型输入到ESO中,进一步提升系统的控制性能。最后,通过10μm行程的点位运动实验进行验证。结果表明:因为控制带宽无法过大而导致PID难以响应,ADRC提高了控制系统带宽,实现了精密定位;模型ADRC进一步提升了响应速度与定位精度。相比ADRC,模型ADRC整定时间缩短了68.1%,最大跟踪误差降低了53.8%,定位精度提升了60.7%。 展开更多
关键词 柔性铰链 微动平台 自抗扰控制 扩张状态观测器
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空间四自由度柔顺并联机构设计与仿真
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作者 高新宇 张士军 +1 位作者 孟繁勋 杨璐 《机械设计与制造工程》 2024年第1期30-34,共5页
设计了一种由压电陶瓷驱动的整体式空间四自由度柔顺并联定位平台,使用柔性铰链代替传统的运动副,消除了传统机构铰链配合的摩擦与间隙。建立了空间四自由度定位平台的运动学模型,使用三维建模软件建立几何模型。通过计算得到解析结果,... 设计了一种由压电陶瓷驱动的整体式空间四自由度柔顺并联定位平台,使用柔性铰链代替传统的运动副,消除了传统机构铰链配合的摩擦与间隙。建立了空间四自由度定位平台的运动学模型,使用三维建模软件建立几何模型。通过计算得到解析结果,并对空间四自由度柔顺并联定位平台进行有限元分析,得到其位移特性。比较理论计算和有限元仿真结果,得出误差在允许范围内,验证了设计的定位平台的可行性。 展开更多
关键词 定位平台 压电陶瓷 柔性铰链 柔顺并联机构
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椭圆横断截面新型双轴柔性铰链设计及分析
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作者 魏华贤 赵永杰 +2 位作者 杨楠 王奉涛 牛小东 《中国机械工程》 EI CAS CSCD 北大核心 2024年第8期1348-1357,共10页
现有同位正交复合缺口双轴柔铰存在矩形横断截面锐边结构,增大了应力集中效应,且无法通过优化纵向缺口轮廓来消除。为此,提出一类椭圆横断截面新型双轴柔铰。首先以圆弧缺口为对象,构建该类柔铰的参数化结构模型;然后基于卡氏第二定理... 现有同位正交复合缺口双轴柔铰存在矩形横断截面锐边结构,增大了应力集中效应,且无法通过优化纵向缺口轮廓来消除。为此,提出一类椭圆横断截面新型双轴柔铰。首先以圆弧缺口为对象,构建该类柔铰的参数化结构模型;然后基于卡氏第二定理建立其柔度及最大应力理论模型,通过有限元分析验证模型的有效性,基于此,实现了柔度及应力集中特性分析;最后通过实验测试验证了柔铰的柔度性能。结果表明,椭圆横断截面型双轴柔铰具备两向各异柔度,可从本质上避免锋利锐边结构,降低应力集中效应,与具有相同缺口结构的矩形横断截面型双轴柔铰相比,工作能力可提高47.9%,该类柔铰结构拓展了现有缺口型柔铰的基本类型。 展开更多
关键词 柔性铰链 柔性机构 椭圆横断截面 双轴柔性铰链
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正交柔顺矢量测力系统的设计和性能分析
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作者 张磊乐 李东 +1 位作者 郑国良 马千里 《机械传动》 北大核心 2024年第6期133-141,共9页
针对多分支正交柔顺矢量测力系统的设计难题,提出了梁连接单元模拟测力元件的方法;采用该方法建立了测力分支及矢量测力系统的有限元模型,并对6种分支形式和平面布局形式进行了结构特点分析。在此基础上,结合矢量测力系统案例,通过有限... 针对多分支正交柔顺矢量测力系统的设计难题,提出了梁连接单元模拟测力元件的方法;采用该方法建立了测力分支及矢量测力系统的有限元模型,并对6种分支形式和平面布局形式进行了结构特点分析。在此基础上,结合矢量测力系统案例,通过有限元模型进行参数详细设计,最终获得了结构紧凑且耦合较小的方案。对台架的3个载荷分量(轴向力、法向力、俯仰力矩)进行了校准试验,其中,校准的不确定度均在0.5%满量程(Full Scale,FS)左右。针对大载荷矢量测力系统加载精度对校准测量的影响较大的问题,提出了基于载荷与测量比值的性能评估方法,采用该方法,得到设计的矢量测力系统的3个分量的测量重复性在0.4%FS左右,大量程测量滞后性在0.7%FS以内。研究成果对于正交矢量测力系统的结构设计和性能分析具有一定的参考意义。 展开更多
关键词 矢量测力系统 柔顺机构 柔性铰链 挠性件 矢量推力
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一种可驱动两种类型转子的环型压电驱动器
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作者 李争 王海波 +2 位作者 王楷文 高帅 孙鹤旭 《压电与声光》 CAS 北大核心 2024年第5期729-740,共12页
为了满足微电机的多向运动需求,研究了一种可双向运动的压电驱动器,并对其性能进行了设计和分析。该驱动器可以驱动直线型和圆筒型两种动子,适用于多种工作环境。首先阐述了压电驱动器的基本结构和原理,建立了驱动器模型,然后用有限元... 为了满足微电机的多向运动需求,研究了一种可双向运动的压电驱动器,并对其性能进行了设计和分析。该驱动器可以驱动直线型和圆筒型两种动子,适用于多种工作环境。首先阐述了压电驱动器的基本结构和原理,建立了驱动器模型,然后用有限元方法分析了压电驱动器的变形模式。经实验验证,压电驱动器的最佳工作频率为2.27 kHz,最佳驱动电压幅值为150 V。在该激励信号下,直线型压电驱动器的最大速度达到249 mm/s,最大负载能力为20 N。该压电驱动器能够实现双向运动和稳定输出。 展开更多
关键词 压电驱动 柔性铰链 压电叠堆 有限元分析 机械结构设计
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Design and Dynamic Modeling of a 2-DOF Decoupled Flexure-Based Mechanism 被引量:3
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作者 QIN Yanding TIAN Yanling ZHANG Dawei 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2012年第4期688-696,共9页
Flexure mechanisms with decoupled characteristics have been widely utilized in precision positioning applications.However,these mechanisms suffer from either slow response or low load capability.Furthermore,asymmetric... Flexure mechanisms with decoupled characteristics have been widely utilized in precision positioning applications.However,these mechanisms suffer from either slow response or low load capability.Furthermore,asymmetric design always leads to thermal error.In order to solve these issues,a novel 2-DOF decoupled mechanism is developed by monolithically manufacturing sets of statically indeterminate symmetric(SIS) flexure structures in parallel.Symmetric design helps to eliminate the thermal error and Finite Element Analysis(FEA) results show that the maximum coupling ratio between X and Y axes is below 0.25% when a maximum pretension force of 200 N is applied.By ignoring the mass effect,all the SIS flexure structures are simplified to "spring-damper" components,from which the static and dynamics model are derived.The relation between the first resonant frequency of the mechanism and the load is investigated by incorporating the load mass into the proposed dynamics model.Analytical results show that even with a load of 0.5 kg,the first resonant frequency is still higher than 300 Hz,indicating a high load capability.The mechanism's static and dynamic performances are experimentally examined.The linear stiffnesses of the mechanism at the working platform and at the driving point are measured to be 3.563 0 N·μm-1 and 3.362 1 N·μm-1,respectively.The corresponding estimation values from analytical models are 3.405 7 N·μm-1 and 3.381 7 N·μm-1,which correspond to estimation errors of-4.41% and 0.6%,respectively.With an additional load of 0.16 kg,the measured and estimated first resonant frequencies are 362 Hz and 365 Hz,respectively.The estimation error is only 0.55%.The analytical and experimental results show that the developed mechanism has good performances in both decoupling ability and load capability;its static and dynamic performance can be precisely estimated from corresponding analytical models.The proposed mechanism has wide potentials in precision positioning applications. 展开更多
关键词 precision positioning flexure hinge DYNAMICS decoupled structure
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LOADS INFLUENCE ANALYSIS ON NOVEL HIGH PRECISION FLEXURE PARALLEL POSITIONER 被引量:1
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作者 SUN Lining DONG Wei DU Zhijiang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2006年第1期37-40,共4页
A large workspace flexure parallel positioner system is developed, which can attain sub-micron scale accuracy over cubic centimeter motion range for utilizing novel wide-range flexure hinges instead of the conventiona... A large workspace flexure parallel positioner system is developed, which can attain sub-micron scale accuracy over cubic centimeter motion range for utilizing novel wide-range flexure hinges instead of the conventional mechanism joints. Flexure hinges eliminate backlash and friction, but on the other hand their deformation caused by initial loads influences the positioning accuracy greatly, so discussions about loads' influence analysis on this flexure parallel positioner is very necessary. The stiffness model of the whole mechanism is presented via stiffness assembly method based on the stiffness model of individual flexure hinge, And the analysis results are validated by the finite element analysis (FEA) simulation and experiment tests, which provide essential data to the practical application of this positioner system. 展开更多
关键词 flexure hinge Parallel positioner Stiffness analysis Finite element analysis (FEA)
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基于轴承和柔性铰链的布拉格光纤光栅加速度计 被引量:2
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作者 宋颖 张浩然 +2 位作者 李剑芝 申博豪 刘占剑 《中国光学(中英文)》 EI CAS CSCD 北大核心 2023年第5期1109-1120,共12页
为实现中高频振动信号的测量,本文设计了一种基于轴承和柔性铰链结构的光纤布拉格光栅加速度传感器。首先,基于理论力学模型推导出其固有频率、灵敏度与结构参数的数学模型,然后进行结构优化设计,并制作了传感器实物。在此基础上,对所... 为实现中高频振动信号的测量,本文设计了一种基于轴承和柔性铰链结构的光纤布拉格光栅加速度传感器。首先,基于理论力学模型推导出其固有频率、灵敏度与结构参数的数学模型,然后进行结构优化设计,并制作了传感器实物。在此基础上,对所设计传感器动态特性进行有限元仿真和实验测试。研究结果表明:传感器工作频率为10~1200 Hz,加速度灵敏度达17.25 pm/g,测量误差小于0.3 g,线性度大于0.99,重复性误差为2.33%,且能实现温度补偿。 展开更多
关键词 传感器 加速度传感器 光纤布拉格光栅 中高频 轴承 柔性铰链
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