空間凸輪機構 的英文怎麼說
中文拼音 [kōngjiāntūlúnjīgòu]
空間凸輪機構
英文
spatial cam mechanism- 空 : 空Ⅰ形容詞(不包含什麼; 裏面沒有東西或沒有內容; 不切實際的) empty; hollow; void Ⅱ名詞1 (天空) s...
- 間 : 間Ⅰ名詞1 (中間) between; among 2 (一定的空間或時間里) with a definite time or space 3 (一間...
- 凸 : Ⅰ動詞(高出) bulge; protrude Ⅱ形容詞(高於周圍) protruding; raised
- 輪 : Ⅰ名1 (輪子) wheel 2 (像輪子的東西) wheel like object; ring; disc 3 (輪船) steamer; steamboa...
- 機 : machineengine
- 構 : Ⅰ動詞1 (構造; 組合) construct; form; compose 2 (結成) fabricate; make up 3 (建造; 架屋) bui...
- 空間 : space; enclosure; room; blank; interspace
- 機構 : 1 [機械工程] (機械的內部構造或一個單元) mechanism 2 (機關; 團體) organ; organization; institu...
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From the aspect of geometry, structure design, manufacture and examine, this paper generally summarizes the gcm ' s study progress in detail, discusses its kinetic rule and the determination of its primary structure parameter, and educes its surface equation and pressure angle equation based on the homogeneous matrix transformation and the conjugate engagement theory of spatial surface. on the basis of geometry study of gcm, the paper makes a comprehensive analysis to the interference phenomenon that will possible exist in the assemble course of two different structure of gcm with the help of matlab software
本文從運動幾何學、結構設計、動力學、製造和檢測等方面對國內外弧面凸輪機構的研究進展進行了全面綜述,詳細論述了高速凸輪機構的運動規律和弧面凸輪機構基本尺寸的確定,基於空間曲面共軛嚙合原理,通過齊次變換推導了外弧面凸輪的曲面方程和壓力角方程,並提出了對應的廓面修形演算法;提出了內弧面凸輪機構的構想,推導了內弧面凸輪的曲面方程和壓力角方程。Based on the one - side processing technology, the dissertation proposes a new method of structure design and realizes the drive of sc by pure roller pairs of point engagement. this new drive mode apparently improves the driving accuracy, efficiency, life - span, movement and dynamic feature of scm
在凸輪廓面採用單側面加工工藝基礎上,提出了結構設計的改進形式,結合廓面修形方法,實現了空間凸輪機構點接觸的純滾動副傳動,顯然提高了機構的傳動精度、效率、使用壽命、運動性能和動力性能。The instantaneous meshing efficiency of scm is studied
研究了空間凸輪機構傳動瞬時嚙合效率。Analyze the scm ' s structure and its meshing characteristics systematically
系統分析了空間凸輪機構結構及嚙合特性。The cam contour curves are reconstructed by nurbs, and a rapid reverse design method for spatial cam follower motion specification via motion simulation is also studied
利用nurbs實現了凸輪輪廓曲線的重構,並給出基於運動模擬實現迅速反求空間凸輪機構從動件運動規律的方法。The dissertation puts forward the base circle ' s pressure angle method to calculate the instantaneous meshing efficiency of scm, analyzes the factors affecting instantaneous meshing efficiency and further improves the design theory of scm
在對空間凸輪機構進行受力分析的基礎上,提出了計算空間凸輪機構瞬時嚙合效率的基圓壓力角法,分析了影響瞬時嚙合效率的因素,進一步完善了空間凸輪機構的設計理論。Focusing on the spatial cam mechanism ( scm ), the dissertation, starting with the practical processing and the characteristics of the structure and meshing, detailedly analyzes and experiments research the structure theory, processing error and, one - side process and profile inspection of scm with spatial meshing principle and rotating transformation matrix operator methods
本文以空間凸輪機構為研究對象,從工程實際出發,以空間嚙合原理和旋轉變換矩陣為工具,從結構特點、嚙合特性入手,對空間凸輪機構的結構設計、加工誤差、單側面加工工藝及廓面檢測技術進行了深入地理論分析和實驗研究。The dimensional globoidal indexing cam mechanism, as a result of the steady movement, accurate, the transmission ceaseless and is suitable for high speed indexing and precise indexing. now it is the most ideal high speed precision indexing mechanism in the world, and it is being widely applied on each kind of automaton and the production line, this mechanisms prospect of application is broad, arouses the people enormous interest. but the examination of the globoidal indexing cam mechanism is a quite weak link, the manufacturers don ’ t give the examination because of the difficulty of the geometry shape error examination of the cam contour
空間弧面分度凸輪機構,由於運動平穩、準確、傳動無間隙而適用於高速分度和精密分度,是當今世界上最理想的高速精密分度機構,正被廣泛應用於各種自動機和生產線上,該機構應用前景廣闊,引起人們極大的興趣,而弧面分度凸輪機構的檢測是一個比較薄弱的環節,一般生產廠家由於凸輪輪廓幾何形狀誤差檢測困難而不予檢測,因此本試驗臺的研製具有極其重要的意義。Globoidal indexing cam mechanism is widely used in automatic machine and automatic production lines
弧面分度凸輪是一種廣泛應用於各種自動機和自動生產線上的空間分度機構。If you want it have 2d motion, then you have to fit it by two - cams mechanism, so it not only occupy bigger space, but also lower the motion accuracy. so the writer designed the cylindrical cam with carrier in 2d motion
以往的凸輪機構中,從動件只具有一維的運動方式,當需要有二維的運動配合時,就只能利用兩個凸輪進行旋轉配合,不但佔用較大空間而且運動精度不高。分享友人