刀位 的英文怎麼說

中文拼音 [dāowèi]
刀位 英文
cutter spacing
  • : Ⅰ名詞1 (切、割、削、砍、鍘的工具) knife; sword 2 (形狀像刀的東西) sth shaped like a knife 3 ...
  • : Ⅰ名詞1 (所在或所佔的地方) place; location 2 (職位; 地位) position; post; status 3 (特指皇帝...
  1. The approach includes ( 1 ) obtaining the cutter - location data based on parameter curves. ( 2 ) tessellation of the trim nurbs surfaces into triangles. ( 3 ) interference detection and tool - position correction

    在曲面的參數線上規劃刀位軌跡,將曲面用三角片離散逼近,利用具曲面與三角片的幾何相關性進行干涉檢查及刀位修正。
  2. The cad / cam process of the handle part was implemented, including constructing 3d entity modeler, creating tool path, computer simulating, postprocessing cutter location files into tape files for a specific machine tool, transferring machining information of the handle part by the network - based cad / cam prototype system, nc machining of the handle part at last

    利用網路化cad / cam原型系統實現手柄零件cad / cam過程,包括手柄三維實體造型、刀位軌跡生成、計算機模擬檢驗,後置處理生成特定機床的g代碼,通過網路傳輸手柄零件加工信息,最後完成手柄零件的數控加工。
  3. The generation of the tool path means that by the geometrical models of parts, according to the adopted machines, the tools, the cutting patterns, the cutting allowance and etc., under some principles, the calculation of the cutter location was done and the tool path was generated

    具軌跡的生成是指通過零件幾何模型,根據所選用的加工機床、具、走方式以及加工余量等,按照一定的導動規則進行刀位計算並生成加工運動軌跡。
  4. To make use of the seven - axis pmt for nc machining, the tool path data must be postprocessed into the length of the six driving links and the rotation of the nc rotary table to drive the pmt

    為了利用七軸並聯機床進行數控加工,必須對刀位文件進行後置處理,生成六根驅動桿的桿長和數控轉臺的轉角等數據來驅動並聯機床。
  5. Interference - free tool path algorithm based on genetic algorithm

    基於遺傳演算法的無干涉刀位軌跡計算
  6. As a result, the spiral cutting contact points " tracks are successfully created on the surface of the blade for 4 or 5 axis high speed milling, it is shown that the spiral cutting contact points " tracks generated by both methods can satisfy the calculation of the cutter location with perfect simulation results

    最終在葉片表面構造了適合四、五坐標聯動機床高速加工的螺旋切觸點軌跡。經實例驗證,本文所規劃的螺旋加工切觸點軌跡能夠滿足刀位點的計算,並取得了良好的模擬效果。
  7. The track in leading line is redesigned for its acute curvature change, which is the bottleneck during spiral machine. the new track has avoided blade ' s gnaw and tool swaying. and a new track with high quality is calculated

    針對高速螺旋銑的加工效率瓶頸部分? ?緣頭處曲率劇烈變化的幾何特徵,重新設計了緣頭處的走軌跡,避免了緣頭處的啃切與軸晃動,計算出高質量的多坐標加工刀位軌跡。
  8. Which include cutting - edge curves, rake & flank face, edge angle, tool paths of enveloping rake & flank face, post processing technique of coordinate transfer, design - analyse and simulation sofeware. the research would offer sufficient academic basics and direction about manufacturing of ball - end cutters on the existing nc grinder

    其中包括了球頭立銑的刃口曲線模型,前、后面模型,具角度分析,砂輪磨削前、后面的刀位軌跡模型,刀位軌跡與機床坐標轉換的後置處理,球頭立銑的設計與模擬軟體的開發。
  9. Pose adjustment of turning tool based on intelligent cutter grinding machine

    基於智能化刃磨的車刀位姿調整
  10. In order to generate tool - path quickly, another method is presented. it can generate interference free tool - path directly from the section line of the triangulated surface model. search each vertex of the model to get the triangles which may be interfered using the radius of the cutter

    為了解決這一問題,本文又提出了基於加工曲面的截平面法,通過具投影和曲面模型節點坐標的置關系確定可能發生干涉的小三角片的集合,以加快乾涉檢測的速度,然後在這個集合上生成無干涉刀位點。
  11. In this thesis the problem of low efficiency in blade ' s manufacture is solved based on one new nc scheme : spiral machine. the technics control parameters and track - making algorithm during blade ' s spiral machine are designed in detail. multi - coordinates tool point calculating formulas are deduced, which can be used in multi - kind control parameters

    本文基於螺旋銑新工藝方案有效的解決了葉片數控加工中的效率低下問題,詳細設計了葉片螺旋銑多坐標加工中的工藝控制參數和軌跡生成演算法,推導出適用於多種控制參數的螺旋加工編程的多坐標刀位點計算公式。
  12. A new method to calculate tool posture without collision for 5 - axis nc machning free - form surfaces using non - ball mill

    非球頭數控加工無干涉刀位的計算方法
  13. Optimization of five - axis tool path based on principal - curvature matching

    基於主曲率匹配的五坐標刀位軌跡優化
  14. Finally, by means of comparing the theoretical tooth surface equation with the tooth surface equation included errors of cutter position and cutter position angle, the quantitative analysis of the theoretical tooth shape and the tooth shape considering the errors of cutter position and cutter position angle was curried out based on the software above. from which, the effect of errors of cutter position as well as cutter position angle on the processed tooth shape and transmitting behavior of this kind of gearing was studied

    最後,通過比較雙圓弧弧齒錐齒輪齒面理論方程與加入刀位刀位角誤差后的齒面方程,應用上述軟體和通過進一步的數值計算,進行了無誤差的理論齒形與加入刀位刀位角誤差后所得到的實際齒形之間的定量分析,比較直觀、方便、準確地對刀位刀位角誤差對雙圓弧弧齒錐齒輪的齒形以及傳動的影響進行了初步研究。
  15. Based on the principle of inclined offset surface, the calculation and generation of nc cutter location for small divided area of blade were introduced. in addition the computer simulation and the path chart of cutter center were given to prove the tool path

    在每一段曲面上,基於斜等距曲面的原理,推導出葉片分段側銑加工時刀位軌跡的生成和計算;並用計算機模擬和心軌跡圖對刀位進行了驗證。
  16. This paper emphatically researched the problem how to calculate the intersection point between workpiece that rotated with variational angle velocity and milling cutter that moved with complicated track and rotated with high speed. furthermore it adopted the discrete curve surface method for every milling cutter, and treated image frame as the control parameter of position of milling cutter during the intersection calculation process, so the algorithm of intersection between workpiece and milling cutter was obtained. the paper also discussed further three - dimension graphic problem of manufacture process

    文中對做變角速度運動的工件和運動軌跡復雜的高速自轉中的銑求交問題進行了重點研究,採用將銑上的每個尖劃出的曲面離散化的方法,以圖像顯示的幀數作為求交計算過程的銑刀位置的控制參量,得出了銑與工件的求交演算法。
  17. Calculation of cutter - location and error analysis in numerical control flank milling of twisted ruled surface impeller

    任意扭曲直紋面葉輪數控側銑刀位計算與誤差分析
  18. Based on the cutting force surface model, a polynomial equation of side cutting depth and feedrate is created to calculate the feedrate of each cl data and the calculated feedrate value is written out with the g - code position data block to an updated version of the die - cavity

    基於切削力曲面模型,採用多項式擬合的方法構建具在許可切削力下的側向切深和進給率的方程,根據建立的方程計算每個刀位點處的進給率並反寫到初始的g代碼文件中。
  19. The target is that it begins with the information of the graph ( based on pdm ) used to directly depict parts, being supported by the currency cad / cam system, receiving the producing information by interact with manual, matching the cutter with expert system, building the data of the cutter location ( cl ) by account, finishing the optimising arrangement, creating the nc program for the numerical control system of the fms - ii of sheet metal by the post system, automatically processing the produce by the nc machine tool according to the cl, and then realizing the opening integration of the system of cad / cam system of the fms - ii for sheet metal, basing on pdm

    為了解決這些問題,需要重新開發fms -的cad cam系統,目標就是從基於pdm下的通用cad系統提供的圖形信息直接描述零件開始,人工交互方式輸入加工信息,由專家系統的推理機實現自動配模,經計算產生刀位文件,優化排料后,再針對鈑金fms -的數控系統,後置處理生成相應的數控加工程序,數控機床根據加工程序代碼自動完成加工,從而實現鈑金fms -的cad cam系統基於pdm下的開放集成。
  20. On basis of the previous researches, a new tool - path generation algorithm for three - axis nc rough machining based on solid models is presented

    在此基礎上,提出了一種適合實體模型的新的三軸數控粗加工刀位軌跡生成演算法。
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