例句與造句

1. Tool compensation in five - axis cnc machining
   五軸聯(lián)動數(shù)控加工中的刀具補償方法
2. The realization for rapid auto input of tools compensation to machine center
   加工中心刀具補償量自動輸入的快速實現(xiàn)
3. The arithmetic of linear and arc interpolation is implemented , and the arithmetic of tool compensation is talked about particularly
   實現(xiàn)了直線、圓弧和曲面直接插補算法,詳細討論了刀具補償算法的實現(xiàn)方法。
4. This paper mainly introduces how to realize the functions of cnc , including translation of nc codes to the system , tools compensation and interpolation
   本文針對基于sercos的開放式數(shù)控體系，研究開發(fā)了軟cnc 。
5. The function of system interface is introduced , and linear and arc interpolation and tool compensation arithmetic are validated by examples
   介紹了系統(tǒng)運行界面的功能,并通過編程實例完成了插補算法以及刀具補償算法的仿真驗證。
6. It's difficult to find tool compensation in a sentence. 用tool compensation造句挺難的
7. And this paper can realize the function of tools compensation after carefully analyze the different joining conditions of lines or arcs
   本文針對各種轉接情況進行了詳細的分析，并就臨界狀態(tài)的情況逐一進行了介紹，從而可以實現(xiàn)半徑補償功能。
8. System software is designed and programmed in chapter 4 , including the analyses and researches on software structure , module of vital manage , module of tool compensation and module of interpolation
   第四章研制了計算機高速數(shù)控雕銑系統(tǒng)控制軟件，包括控制軟件結構、主要管理功能、刀具補償功能、插補功能的分析和實現(xiàn)。
9. Base on the analysis of the process principle and the limitation of the original system prototype , this paper has redesigned the organization , and has research to certain essential technologies of the system , carry out the tool - path planning and the tool compensation
   本課題結合高新技術合作項目“牙齒修復cad / cam系統(tǒng)”進行,在分析實驗室的初代系統(tǒng)的原理和存在問題的基礎上,進行了改型設計,并對刀位軌跡生成算法進行了研究。
10. ( 3 ) based on a close research of the cad model representation in mdt , this paper picks up the model information expressed in the boundary representation ( b - rep ) using the development kits of objectarx and mdt api offered by autodesk inc . ( 4 ) the direct slicing data are processed so as to realize the sorting and fitting of short lines , the cutting tool compensation , the layer contour filling and the optimization of the scanning paths , etc . ( 5 ) designs the architecture of rp data processing software according to the functional requirement of rp , and integrates all the functional modules
    ( 3 )在深入研究mdt ( mechanicaldesktop )中三維模型表示方法的基礎上，運用autodesk公司提供的mdt二次開發(fā)工具objectarx和mdtapi ，成功地實現(xiàn)了對mdt模型信息的提取，進而使直接自適應分層算法得以實現(xiàn)。 ( 4 )對直接分層得到的數(shù)據(jù)進行了工藝規(guī)劃。實現(xiàn)了對層片輪廓線段的排序、擬合、刀具補償以及輪廓內部填充和掃描路徑優(yōu)化等。
11. By function , hardware is divided to control message input module and communication module , software is divided to show module and background process , which is also subdivided to interpolation module , tool compensation module , nc program coding module , nc process simulation module and system interface function module
    硬件結構按功能可分為控制信息的輸入模塊、通信模塊;軟件結構按功能可分顯示模塊和后臺處理模塊,它們又可細分為插補模塊、刀具補償模塊、 nc程序譯碼模塊、數(shù)控加工三維仿真模塊、仿真系統(tǒng)界面功能模塊。
12. The paper puts forward a kind of economical numerical control milling machine system which is supported by windows and industry pc that are acted as software and hardware platform on the base of analyzing the present development of economical numerical control system and some existent problem , and expatiates the system software ' s collectivity frame , also introduces detailedly form and operational way of the user ' s interface . besides , the thesis also frames and accomplishes each module such as syntax inspect module , translation module , tool compensation module and track interpolation module adopting visual c + + 6 . 0 and the kind of facing object and modularized program design method by analyzing rationales and function of the software ' s modules , moreover presents the programmer ' s flow chart and parts of source code , whereafter validates arithmetic of translation and tool compensation by simulating process testing program
    本文在分析了我國經(jīng)濟型數(shù)控系統(tǒng)的發(fā)展現(xiàn)狀以及目前存在的一些問題的基礎上，提出了一種以windows和工業(yè)pc機作為軟、硬件平臺的經(jīng)濟型數(shù)控銑床系統(tǒng)，闡述了該系統(tǒng)軟件的總體結構，并對其用戶界面的組成及其操作過程做了較為詳細的介紹，分析了軟件的各個模塊的基本原理和功能，采用visualc + + 6 . 0以及面向對象、模塊化的程序設計方法，完成了語法檢查模塊、譯碼模塊、刀具補償模塊以及軌跡插補模塊的具體設計，并給出了程序設計流程圖和部分源代碼，通過系統(tǒng)的仿真程序模擬加工過程驗證了譯碼和刀補算法的正確性。