机器人微操作手设计采用压电伸缩陶瓷微位移器。
Piezoceramics telescopic micro-actuator was used in design of micro-gripper of robot.
界面过程控制的细节应是“半无序微位移”机制。
The interface process controlled transformation should take the mechanism of semi-disordered and differential-displacement.
介绍了一种基于光杠杆原理的光学微位移测量系统。
A nanometer system for displacement measurement is described, which is based on the principle of optical lever.
压电陶瓷驱动电源是压电陶瓷微位移器的关键部件。
Power supply is the key component in micro piezoelectric actuator's application.
微位移技术是精密机械和仪器实现高精度的关键技术之一。
The micro displacement technology is one of essential technology of the precision machinery and high accuracy instrument.
微位移机构在精密机械和精密仪器中应用广泛,种类很多。
With many varieties, micro motion mechanisms have wide applications in precision machines and instruments.
介绍了一种可进行动态微位移测量的激光微位移测量系统。
A laser micro displacement measuring system for measuring dynamic micro displacement is introduced.
介绍一种在高精度下兼有高频响和大行程特性的微位移装置。
A micro displacement mechanism featured with high accuracy, high audio response and long travel is introduced in this article.
介绍了模糊控制和自适应逆控制在微位移系统控制中的应用。
Fuzzy control and adaptive inverse control using in the micro-positioning system are introduced.
提出一种基于离轴法并采用椭圆光斑的光学微位移计量手段。
An optical micro-displacement measurement method based on elliptic spot and off-axis principle is proposed.
讨论了低压微位移驱动电路及控制方法在光电轮廓仪上的运用。
The application of a low-voltage micro-displacement driving circuit and its control method on an optoelectronic profilometer are discussed.
在微位移技术中,柔性铰链是实现微位移和高分辨率的理想机构。
In the case of micro displacement technology, the flexure hinge is an ideal mechanism to realize the micro displacement and high resolution.
在有限微量位移机构中,柔性铰链是实现微位移功能的新型机械结构。
In finite and tiny displacement machine, flexural hinges are a new structure machine to implement tiny displacement.
利用压电材料的正逆压电效应,建立了压电微位移作动器的设计模型。
A design model was developed for a piezoelectric micro-placement actuator based on the actuation effect of piezoelectric materials.
针对这一问题,提出了一种基于微位移的数字全息散斑噪声抑制方法。
To solve this problem, a method to reduce speckle noise is proposed for digital holography.
整个微位移工作台结构简单,位移分辨率高,且能够实现双向可控运动。
The working table has a simple structure, high resolution of displacement, and can achieve two-way motion.
用LED作为宽带光源所得到的反射光谱可用于实际样品的微位移测量。
LED was used as broad_band source to attain reflection spectrum and measure tiny_displacement of practical sample.
第二章讲述了单晶硅的破坏强度问题,并用微力微位移天平方法进行研究。
In chapter 2, the breaking strength of the crystalline silicon was studied through the micro force-displacement balance.
本文报导了微位移驱动器的工作原理和用途以及我们研制这种驱动器的结果。
The paper reports the principles and applications of micro-displacement actuator and the results that we have developed.
微机器人的传动支链采用柔性铰链微位移放大机构,并用细钢丝代替球铰链。
The transmission branch chain of micro-robot adopts flexible hinged minute-displacement enlarging mechanism and USES thin steel wires instead of global hinges.
此微位移检测方法已用于弹性元件刚度测量仪中,并采用激光干涉仪进行标定。
We applied this method to the stiffness measurement of flexible parts, and located the displacement with the help of laser interferometer.
针对一种新型压电舵机的微位移放大机构,提出一种基于刚度分析的设计方法。
A design method of micro-displacement amplifier in a novel piezoelectric servo was proposed based on stiffness analysis of flexure hinges.
研究表明在主体机构中适当减小柔性铰链转角刚度,可以显著改善微位移放大效果。
The resembling points out that the effection of the main mechanism magnifying performance will be improved seriously while the stiffness of flexible hinge of main mechanism is decreased properly.
提出了微位移放大机构设计的原则,通过实例说明了位移放大机构合理设计的必要性。
We also presented the design fundamentals for micro-displacement amplifier, and the necessity of reasonable design for micro-displacement amplifier has been illuminated by practical application.
CCD激光微位移测量头是利用三角法原理设计的一种高精度非接触激光微位移传感器。
CCD micro-displacement measuring system is an ultra high accuracy non-contact laser displacement device on the basis of trigonometry theory.
以压电陶瓷微位移原理为基础,对精密驱动技术在精密定位工件台上的应用作了实验研究。
Based on the principle of micro displacement of piezoelectric ceramic, the research on the precise actuator technique is presented, which is used for precise positioning work piece stage.
用该系统对多种微米量级的介质球和生物对象进行了微位移操纵,操纵精度可达纳米量级。
By this system various medium Beads and biological objects with size of micrometer order have been manipulated in a precision of nanometer order.
液晶微位移传感器的工作原理是以负介电各向异性的向列相液晶材料的动态散射效应为基础的。
The operation principle of a liquid crystal micro-displacement sensor is based on the dynamic scattering effect in the negative dielectric anisotropic nematic liquid crystal.
声发射技术在无损检测、地震预测、混凝土结构检测、应力测量、微位移测量等领域应用很广泛。
Acoustic emission technology has been used in non-destructive testing, earthquake forecast, concrete monitoring, stress measurement, tiny displacement measurement and so on.
实验采用单光路临界角法,用四象限探测器探测输出信号,物面微位移采用压电陶瓷作为驱动元件。
The experiment came into use single light path critical angle method, output signals were detected by four-quadrant receiver, micro-displacement drive element were piezoelectric ceramics.
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