進刀刀具軸 的英文怎麼說
中文拼音 [jìndāodāojùzhóu]
進刀刀具軸
英文
engage tool axis-
Recently its correlative technologies, such as high - speed cutting tool material, high - speed spindle and high - speed feed system developed rapidly. its application range extends widely and widely. it has been applied in many fields, such as aviation industry, automobile industry, die manufacturing and so on
近幾年來超高速加工的各項相關技術,如高速刀具材料、高速土軸、高速進給系統等都得到迅速發展,高速加工的應用范圍也在不斷的擴大,目前已廣泛應用於航空工業、汽車製造工業、模具加工工業等領域。Our quality products are applicable in the processing of alloy steel, stainless steel, chilled steel and nonferrous metal, and are widely used in the industries of engine, diesel engine, carburetor, and mould for supporting of processing center and nc machine tool
我廠為生產汽車、摩托車發動機、柴油機、化油器、模具行業等廠家提供各種成形刀具。產品主要配套加工中心,高精度的進口cnc五軸磨床,數控機床專機等高精度機床使用,還可為客戶來料加工。Equipped with manual axial and radial feeding device. it is easy to quick feeding and backing. it is able to bevel the pipe with good cutting results and high efficiency
具有手動徑向軸向進刀機構,可實現輕便靈活的手動進退刀,加工坡口質量好、效率高。When the spot - machining tool reaches the hole bottom, the z - axis will firstly srop moving until the spindle makes d3 revolutions, and then return to the original position at the rapid feedrate
在點加工刀具碰到孔底后, z軸會先停止運動,直到主軸旋轉了d3圈后,才會以快速進給速率返回到原始位置。The polar coordinates of tool swinging pivot are figured out, and the expressions of tool swinging and the variable - speed of spindle are derived
通過對凸輪車削的運動關系進行分析計算,推導出在恆角度與恆速度切削的情況下,刀具擺角、機床主軸轉速與凸輪轉角位置的關系,為在實際中應用提供了理論依據。Machining experiments are finished on a mini precision machining cutter, in the process the nc codes can be used and the cutter radius compensation algorithm of five - axis linked nc machining cutter is turned to be correct
在小型精密數控機床上進行了加工實驗,驗證數控代碼的可行性及五軸聯動數控機床刀具補償演算法的正確性Secondly, based on cutting edge geometric model and machining mode of mk6335a grinder, the rake face with constant normal rake angle and flank face with constant orthogonal clearance angle models of ball - end cutters are discussed. the cutting geometry angle parameters are solved and analyzed. moreover, the tool paths models of wheel which grinding are builded and the post - processing technique for coordination transfer is studied
然後,基於刃口曲線模型、五軸數控磨床刃磨運動方式和微分幾何的直紋面概念,本文推導與建立了具有等法前角的前刀面和具有等主后角的后刀面的球頭立銑刀數學模型,並對球頭立銑刀的刀具角度如刃傾角、主前角、法后角、主偏角等參數進行了求解與分析。The enactment of the cutter is one of the important factor, in the aspect of cutter compensation, it only has radius compensation and length compensation in planar. in three - dimensions, especially on five - axis tandem drive numerical control machine, it still need further study. so in order to improve the working accuracy of numerical control machine, the study of five - axis cutter radius compensation in this paper is very useful
刀具的設定是影響機床加工精度的重要因素之一,就刀具補償而言,目前的數控機床只是在二維空間內具有刀具半徑補償、及刀具長度補償,三維空間內的刀具補償,特別是在五軸聯動數控機床上,由於刀具擺動軸的出現,使得刀具補償難以實現,還需進一步深入研究。Finally, the machining simulation with nc machining codes generated is taken in the virtual machining environment and cutter model of five - axis nc machining cutter in the vericut machining simulation soft. the results are compared and analyzed deeply
最後,本文應用vericut加工模擬軟體,建立了五軸數控機床的虛擬加工環境及刀具模型,對已生成的數控代碼進行加工模擬,並對模擬結果進行了詳細的比較和分析。Equipped with an manual axial feeding and backing system. it is able to bevel the pipe with good cutting results and high efficiency
具有輕便靈活的手動軸向進退刀機構,坡口質量好,加工效率高。The axial line of the rotation axes forms an angle with the moving direction of the shaped sections ranging from 70 degree to 110 degree
該轉動軸的軸線與型材運動方向成70和110度之間,刀具在隨轉動軸轉動過程中完成切斷任務,實現按照需要的設定長度進行管材或其它型材的不停機定長切斷。Then, this discourse detailedly discusses system ' s developing method and process with object arx - developing tool of autocad and microsoft visual c + +, and discusses how to extract the geometrical information and how to calculate the coordinate value of screw thread holes " axes, and discusses the calculation of rotated angles and output of cut location file, also discusses how to make use of present research result about optimization of the machining process to program
接著詳細論述了運用autocad的二次開發工具objectarx和微軟公司的visualc + +進行系統開發的方法和過程,討論了如何提取圖形信息和螺紋孔軸線坐標軸的計算,再到旋轉角度的計算和刀位文件的輸出,以及如何利用已有的加工工藝優化的研究結果進行編程等問題。分享友人