振動臂 的英文怎麼說
中文拼音 [zhèndòngbèi]
振動臂
英文
shaker arm-
In order to prove the feasibility of the control method mentioned, both the semiphysical test for the plant simulated by analogue computer and the model test for the cantilever beam are designed and finished with the study of the parameter selection in realization
對離線建模的智能旋翼頻域神經控制方法進行了試驗驗證研究,試驗分兩種情況:以模擬計算機模擬受控對象的半物理模擬試驗與懸臂梁振動響應控制試驗,並研究了實現中的參數選擇問題。Based on a duralumin flexible beam with piezoelectric films attached, distributed parameter modal described by partial difference equations is builded, and then turned into a set of two order systems with the method of modal analyse. state feedback control and independent modal control is investigated. and simulation of the closed - loop system with thest two methods is performed in matlab
並用模態分析的方法,將系統的偏微分方程模型轉化成了模態模型;研究了狀態反饋和獨立模態方法;進一步完善了軟體界面以及軟體功能;在實際系統中,應用狀態反饋演算法,有效抑制了懸臂梁在受到外界瞬時脈沖擾動和激振引起的一階、二階模態振動。Free vibration analysis of a cantilever mortar beam with electrorheological fluid in a central crack
含電流變體砂漿復合懸臂梁結構的振動分析" just about every single person who got off the bicycle at our ride - and - drive said it s amazingly smooth, " klehm says. with a nuvinci bike, riders can shift whenever they want, at any speed, whether they re pedaling or coasting, going uphill or down. " our transmission technology is scalable from bicycles to wind turbines, " he said
車架瞬間轉點的位移向量與搖臂軌跡為同一直線上,影響效果包含了踩踏與煞車功能,而這設計能讓車架在避震行程內,將振動做最佳有效化的移轉,來提供好的騎乘感,並降低甩尾現象與減少踩踏的反作用力。Mode control of vibration in piezoelectric cantilever beam
壓電懸臂梁振動的模態控制5 ) processing the active vibration control examination of piezoelectricity material cantilever beam model part with the pid control and the lqg control
5 )分別採用pid控制和lqg控制進行了壓電貼片懸臂梁模型振動主動控制試驗。As the percentage of flexible space structures and the requirement for control accuracy continuousely increase, the control of flexible space structures is increasingly important. focusing on the problem of vibration control of clamped beam, the thesis studied the application of wave absorbing theory to the vibration control
隨著空間結構中的撓性結構的比重的不斷增加和軌道、姿態控制精度要求的不斷提高,使撓性結構振動控制日益重要,本文針對懸臂梁的彎曲振動控制問題,研究了波吸收器在振動控制中的應用。However, the structural flexibility inevitably causes the elastic deflection and vibration. as a consequence, the positioning and tracking performance of flexible robots will tend to be degraded
但由於它結構的特殊性,機械臂在運動中會發生變形和振動,這給空間柔性機器人的定位和跟蹤控制帶來了很多的問題。Secondly, for the elastic deflection and vibration of a free - floating flexible dual - arm space robot, an approach for lq optimum vibration suppression is developed, and some simulation results conducted to verify the effectiveness of the proposed methods
接著,針對空間柔性機械臂的彈性形變和振動問題,本文設計了lq最優控制器對其進行振動主動控制,並通過大量的模擬結果證明了方法的有效性。The main contents of this paper is according to the structural characteristic of forced vibration, making use of the varying quantity data of free frequency of two different physical cantilever beam on the structural damage experiment basis, then using the bp network, genetic algorithm and the genetic bp algorithm to build up relation model between position, extent of structural damnification, and the varying quantity of free frequency
其主要內容就是根據結構受迫振動特性,利用試驗測得兩根不同物理性質懸臂梁在受損傷產生裂紋前後的固有頻率改變量,使用bp網路、遺傳演算法、遺傳bp演算法,建立了結構損傷的位置、程度與結構固有頻率損傷前後改變量之間的關系模型。( 2 ) the crack compares with one depth with the first steps and the second steps natural frequency vibration, crack position near crank arm and main shaft transition round natural frequency little place under crankshaft ; with the third steps and the fourth steps natural frequency vibration, the smaller close to the second crank arm of crankshaft and round place natural frequency of the main shaft transition the position is
( 2 )裂紋同一深度比以第1階和第2階固有頻率振動,裂紋位置越靠近曲軸中間曲柄臂與主軸過渡圓處固有頻率越小;以第3階和第4階固有頻率振動,位置越靠近曲軸第二個曲柄臂與主軸過渡圓處固有頻率越小。Abstract : in this paper, the design of the sense organ of the silicon miniature inertial meter is presented. the approving structure of the sense organ is fulfilled by the fabrication techniques of laser processing and chemical etching, laser fibre optic vibration is used to test the vibration characteristic of the suspensi on beams
文摘:設計了硅微型慣性加速度計的敏感頭並應用激光加工和化學蝕刻相結合的工藝方法製造得到了滿意的結構,應用激光光纖測振儀檢測了懸臂梁振動特性。In this paper, the design of the sense organ of the silicon miniature inertial meter is presented. the approving structure of the sense organ is fulfilled by the fabrication techniques of laser processing and chemical etching, laser fibre optic vibration is used to test the vibration characteristic of the suspensi on beams
設計了硅微型慣性加速度計的敏感頭並應用激光加工和化學蝕刻相結合的工藝方法製造得到了滿意的結構,應用激光光纖測振儀檢測了懸臂梁振動特性。Notice the new vibrations moving slowly under one ' s feet, up through the legs, hips and pelvis, solar plexus and diaphragm, breasts and chest, hands arms and shoulders, neck and head
注意新振動從你的腳下慢慢移動向上通過大腿,臀部和骨盆,太陽神經叢和橫膈肌,胸部與胸腔,手臂與肩膀,脖子與頭部。Vibration control of cantilever beam using self - sensing actuator
基於壓電自感知執行器懸臂梁振動控制This thesis focuses on investigation of control methods for vibration control of a flexible manipulator
在機械工程和航天技術領域,柔性機械臂的振動控製成為研究熱點。In order to solve need badly three - ring type gear reducer ( problems of high vibration, high temperature and short spin arm bearing life in operation, by means of power separation flow, elastic ring equilibrating load, tardy down and assimilation vibration of synchronous belt transmission, and mechanism balance principle, the author designs a new type three - ring type gear reducer with arc tooth synchronous belt transmission, the gear reducer is fully balancing, equilibrating load and reducing vibration and phase difference 180 ( of mass eccentricity
為解決一般三環減速器振動大、溫升高和轉臂軸承使用壽命短等生產中迫切需要解決的問題,依據功率分流、彈性環均載、同步帶緩沖及吸振和機構平衡原理,設計出了一種具有圓弧齒同步帶傳動的完全平衡、均載減振,偏心相位差為180的新型三環減速器。So that, the reason that causes serious branch vibration during the bump auto working is that the resonance happens
由此可知該泵車工作時臂架振動過大的原因是工作時產生了共振現象。Piezoelectric elements were pasted on / under the cantilever beam where stress was the maximum or sub - maximum as actuators to control the vibration of the cantilever beam
在懸臂梁振動時應力最大或次最大處的上、下表面同位元配置壓電片,作為抑制懸臂梁振動的致動器。Negative mode velocity feedback was adopted and the control voltage applied to each piezoelectric element acting as actuator was calculated to control the vibration of the beam
採用模態速度負反饋進行回饋控制,以此計算出各個作為致動器的壓電片的控制電壓,以抑制懸臂梁的振動。分享友人