轉向節臂 的英文怎麼說

中文拼音 [zhuǎnxiàngjiébèi]
轉向節臂 英文
steering knuckle arm
  • : 轉構詞成分。
  • : 節構詞成分。
  • : 臂名詞1. (胳膊; 從肩到腕的部分) arm 2. (人體解剖學上多指上臂) upper arm
  • 轉向 : 轉向turn; turn round [around]; swing; sway; change direction; change one's political position
  1. In this paper, ackerman steering linkage of double - wishbone suspension is taken as the study object, choosing the splitting joint and steering lever joint to carry out the design of optimization the mathematics models are established based on the multi - body system dynamics, applying its analysis method of kinematics to study the mechanism kinetic principles owing to more spatial factors considered, and calling off many hypotheses affecting the accuracy, compared with the traditional methods, the models are better to reflect the realistic motion principles, the results are more exact and applicable moreover, the force analysis is applied to the conduct mechanism the analysis method of dynamics in the multi - body dynamics is applied to study the forces applied on every component, working out the constraint reaction force of up and down ball joints, and developing the current computation program in the end, produce the upper wishbone geometry model in the ansys software package, meshing and carrying out the fea, testifying if the intensity of the wishbone meet with the requirements

    本文以雙橫獨立懸架的傳動機構作為研究對象,選擇對斷開點和球銷的位置進行優化設計,在此基礎上建立了基於多體系統動力學的導機構和傳動機構的數學模型,運用該學科的運動學分析方法研究機構的運動規律,編制了通用優化設計軟體。由於考慮了更多的空間因素,取消許多影響準確性的假設,因此建立的數學模型與傳統的方法相比更能反映實際運動規律,得到的優化結果也更加精確實用。此外,本文還針對導機構進行受力分析,在建立該機構的空間動力學模型后,運用多體動力學中的動力學分析方法研究各個桿件的受力,計算出上下球鉸的約束反力,並開發出了相應的通用計算程序。
  2. We mainly produce shifting fork and release fork of large - scale and heavy - duty truck ; shifting fork, release fork, shifting block, choosing - gear shaft, reverse - gear shifting fork shaft, right - and - lfet steering joint arm, upper cross arm shaft, wheel hub, link rod of all kinds of cars right - and - left supports, nipbutton of train auto - girder parts ; centeral wedge, fixed lean - board of absorber ; shifting fork, erankshaft, link rod, under - link board, startup pole of motocycle ; mould forging of mine, construction machinery, textile machinery, non - ferrous metal industry, etc

    主要生產產品:大、重型卡車變速箱的撥叉、分離叉等;各種轎車變速箱的撥叉、分離叉、撥塊、選檔軸、倒檔撥叉軸、左右轉向節臂、上橫軸、輪轂、聯桿,火車自動梁部件的左右支柱、夾扣,減震器的中心楔塊、固定斜板等鍛件;摩托車的撥叉、曲軸、連桿、下聯板、啟動蹬桿總成;礦山機械、建築機械、紡織機械、有色金屬等精模鍛件。
  3. The mechanism consists of a steering gear box, pitman arm, drag kink, tie rods, steering arms, and steering knuckles, the latter supporting the front wheels

    該機構由器,,縱拉桿,橫拉桿,梯形構成,支承著前輪。
  4. Steering knuckle arm

    轉向節臂
  5. The design undertaken mainly from the following aspects : 1, mechanism ddesign : included the base and the joints : 2, trasmission mechanism design : adopted a synchronous toothelike transmission bell ; 3, balance system design : adopted springs and a brake and a lay air cylinder ; 4, design parameter and verify alculation ; 5, established motion equation by d - h method ; 6, simulated the motion locus by matlab software ; 7 ^ mapping out the part drawing or asesembly drawing

    本設計主要是從以下幾個方面入手: 1 、機構設計:包括底座和的設計; 2 、傳動機構設計:將驅動電機安裝在底座上,利用同步齒型帶、離合器傳遞手的動力;利用齒輪傳動帶動底座回; 3 、平衡系統設計:採用了彈簧平衡系統、電磁式制動器和單延時氣缸; 4 、設計參數和校核計算; 5 、用d ? h法建立運動學方程; 6 、利用matlab軟體對手的運動空間進行模擬; 7 、利用autocad2000繪圖:包括零件圖和裝配圖。
  6. The main performances of the afm were in the advanced level around the world. the probe unit of the horizontal afm includes a photo - electronic detection unit with a particular optical - beam - deflection path, a regulating block of the setpoint of imaging force, the xy scanner and z feedback controller, the coarse adjusting and fine adjusting mechanism for the sample approaching to the probe tip. the powerful circuits of preamplifier, as well as the circuits of xy scanner and z feedback controller were developed

    成功研製了臥式afm探頭,包括特有的微懸量的臥式光電檢測系統、 afm成像工作點(即原子力的預設置點)的調機構、 jy }藝掃描與反饋控制器、樣品的粗調與微調機構;自行研製了高性能的psd前置放大電路、 xy掃描控制電路和zpid反饋控制電路系統;設計了a / d & d / a控制介面,獨立開發了性能完善的afm掃描與控制軟體系統及功能強大的圖像處理軟體系統。
  7. With your weight supported on your right foot, turn to the right to 10 oclock, and cross your left hand, palm in, over your right wrist, palm out. 2. separate your hands, each making a downward circle with the palms tilted down

    捋:身體微,左手左斜上方輕輕提起,左手掌心下,右手掌心上,身體右,重心后移,兩手後擺起,右手自然折回,左手小內旋,右手指根落於左的腕關處,身體左,重心前移,成左弓步。
  8. The out - of - plane stability of bending beam, which is made up with 2 beams and loaded by non - directional force, is studied. the bending and torsional deflection differential equation of each beam is established in critical condition. according to compatibility conditions of deformation, the characteristic equation is obtained to calculate out - of - plane stability of the cantilever bending beam

    對兩梁組成的彎曲梁在非保力作用下的平面外失穩問題進行了研究,通過建立每梁臨界狀態下彎曲和扭變形微分方程,根據桿件變形的邊界條件以及桿件之間的變形協調關系,得出了一端固定一端懸的彎曲梁在非保力作用下平面外失穩的特徵方程。
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