数控技术 中英文翻译

数控专业术语中英文对照数控专业术语中英文对照3-Jaws indexing spacers 三爪、分割工具头A.T.C.system 加工中心机刀库Aluminum continuous melting & holding furnaces 连续溶解保温炉Balancing equipment 平衡设备Bayonet 卡口Bearing fittings 轴承配件Bearing processing equipment 轴承加工机Bearings 轴承Belt drive 带传动Bending machines 弯曲机Blades 刀片Blades,saw 锯片Bolts,screws & nuts 螺栓,螺帽及螺丝Boring heads 搪孔头Boring machines 镗床Cable ****** tools 造线机Casting,aluminium 铸铝Casting,copper 铸铜Casting,gray iron 铸灰口铁Casting,malleable iron 可锻铸铁Casting,other 其他铸造Casting,steel 铸钢Chain drive 链传动Chain ****** tools 造链机Chamfer machines 倒角机Chucks 夹盘Clamping/holding systems 夹具/支持系统CNC bending presses 电脑数控弯折机CNC boring machines 电脑数控镗床CNC drilling machines 电脑数控钻床CNC EDM wire-cutting machines 电脑数控电火花线切削机CNC electric discharge machines 电脑数控电火花机CNC engraving machines 电脑数控雕刻机CNC grinding machines 电脑数控磨床CNC lathes 电脑数控车床CNC machine tool fittings 电脑数控机床配件CNC milling machines 电脑数控铣床CNC shearing machines 电脑数控剪切机CNC toolings CNC刀杆CNC wire-cutting machines 电脑数控线切削机Conveying chains 输送链Coolers 冷却机Coupling 联轴器Crimping tools 卷边工具Cutters 刀具Cutting-off machines 切断机Diamond cutters 钻石刀具Dicing saws 晶圆切割机Die casting dies 压铸冲模Die casting machines 压铸机Dies-progressive 连续冲模Disposable toolholder bits 舍弃式刀头Drawing machines 拔丝机Drilling machines 钻床Drilling machines bench 钻床工作台Drilling machines,high-speed 高速钻床Drilling machines,multi-spindle 多轴钻床Drilling machines,radial 摇臂钻床Drilling machines,vertical 立式钻床drills 钻头Electric discharge machines(EDM) 电火花机Electric power tools 电动刀具Engraving machines 雕刻机Engraving machines,laser 激光雕刻机Etching machines 蚀刻机Finishing machines 修整机Fixture 夹具Forging dies 锻模Forging,aluminium 锻铝Forging,cold 冷锻Forging,copper 铜锻Forging,other 其他锻造Forging,steel 钢锻Foundry equipment 铸造设备Gear cutting machines 齿轮切削机Gears 齿轮Gravity casting machines 重力铸造机Grinder bench 磨床工作台Grinders,thread 螺纹磨床Grinders,tools & cutters 工具磨床Grinders,ultrasonic 超声波打磨机Grinding machines 磨床Grinding machines,centerless 无心磨床Grinding machines,cylindrical 外圆磨床Grinding machines,universal 万能磨床Grinding tools 磨削工具Grinding wheels 磨轮Hand tools 手工具Hard/soft and free expansion sheet ****** plant 硬(软)板(片) 材及自由发泡板机组Heat preserving furnaces 保温炉Heating treatment funaces 熔热处理炉Honing machines 搪磨机Hydraulic components 液压元件Hydraulic power tools 液压工具Hydraulic power units 液压动力元件Hydraulic rotary cylinders 液压回转缸Jigs 钻模Lapping machines 精研机Lapping machines,centerless 无心精研机Laser cutting 激光切割Laser cutting for SMT stensil 激光钢板切割机Lathe bench 车床工作台Lathes,automatic 自动车床Lathes,heavy-duty 重型车床Lathes,high-speed 高速车床Lathes,turret 六角车床Lathes,vertical 立式车床Lubricants 润滑液Lubrication Systems 润滑系统Lubricators 注油机Machining centers,general 通用加工中心Machining centers,horizontal 卧式加工中心Machining centers,horizontal & vertical 卧式及立式加工中心Machining centers,vertical 立式加工中心Machining centers,vertical double-column type 立式双柱加工中心Magnetic tools 磁性工具Manifolds 集合管Milling heads 铣头Milling machines 铣床Milling machines,bed type 床身式铣床Milling machines,duplicating 仿形铣床Milling machines,horizontal 卧式铣床Milling machines,turret vertical 六角立式铣床Milling machines,universal 万能铣床Milling machines,vertical 立式铣床Milling machines,vertical & horizontal 立式及卧式铣床Mold & die components 模具单元Mold changing systems 换模系统Mold core 模芯Mold heaters/chillers 模具加热器/冷却器Mold polishing/texturing 模具打磨/磨纹Mold repair 模具维修Molds 模具Nail ****** machines 造钉机Oil coolers 油冷却器Overflow cutting machines for aluminium wheels 铝轮冒口切断机P type PVC waterproof rolled sheet ****** plant P型PVC高分子防水PCB fine piecing systems 印刷电器板油压冲孔脱料系统Pipe & tube ****** machines 管筒制造机Planing machines 刨床Planing machines vertical 立式刨床Pneumatic hydraulic clamps 气油压虎钳Pneumatic power tools 气动工具Powder metallurgic forming machines 粉末冶金成型机Presses,cold forging 冷锻冲压机presses,crank 曲柄压力机Presses,eccentric 离心压力机Presses,forging 锻压机Presses,hydraulic 液压冲床Presses,knuckle joint 肘杆式压力机Presses,pneumatic 气动冲床Presses,servo 伺服冲床Presses,transfer 自动压力机Pressing dies 压模Punch formers 冲子研磨器Quick die change systems 速换模系统Quick mold change systems 快速换模系统Reverberatory furnaces 反射炉Rollers 滚筒Rolling machines 辗压机Rotary tables 转台Sawing machines 锯床Sawing machines,band 带锯床Saws,band 带锯Saws,hack 弓锯Saws,horizontal band 卧式带锯Saws,vertical band 立式带锯shafts 轴Shapers 牛头刨床Shearing machines 剪切机Sheet metal forming machines 金属板成型机Sheet metal working machines 金属板加工机Slotting machines 插床spindles 主轴Stamping parts 冲压机Straightening machines 矫直机Switches & buttons 开关及按钮Tapping machines 攻螺丝机Transmitted chains 传动链Tube bending machines 弯管机Vertical hydraulic broaching machine 立式油压拉床Vises 虎钳Vises,tool-maker 精密平口钳Wheel dressers 砂轮修整器Woven-Cutting machines 织麦激光切割机Wrenches 扳手。

数控专业英语数控专业英语大全数控的学习肯定少不了专业英语的了解，以下是小编整理的数控专业英语大全，欢迎参考阅读!increment n.增量incremental adj.增量的index 分度，索引initial adj.原始的initialization n.C523初始化initialize v.初始化input n.v.输入INS（） v.插入v.插入instruction n.说明interface n.接口internal adj.内部的interpolate v.插补interpolation n.插补interrupt v.中断interruption n.中断intervent n.间隔，间歇involute n.渐开线ISO n.国际标准化组织jog n.点动jump v.跳转key n.键keyboard n.键盘label n.标记，标号ladder diagram 梯形图language n.语言lathe n.车床LCD n.液晶显示least adj.最小的length n.长度LIB（library） n.库library n.库life n.寿命light n.灯limit n.极限limit switch n.限位开关line n.直线linear adj.线性的linear scale n.直线式传感器link n,v.连接list n,v.列表load n.负荷，v.装载local adj.本地的locate v.定位，插销location n.定位，插销lock v.锁定logic n.逻辑look ahead v.预，超前loop n.回路，环路LS n.限位开关LSI n.大规模集成电路machine n.机床，v.加工macro n.宏macro program n.宏程序magazine n.刀库magnet n.磁体，磁magnetic a.磁的main program n.主程序maintain v.维护maintenance n.维护MAN（manual） n.手动management n.管理manual n.手动master adj.主要的max adj.最大的，n.最大值maximum adj.最大的，n.最大值MDI n.手动数据输入meaning n.意义measurement n.测量memory n.存储器menu n.菜单message n.信息meter n.米metric adj.米制的mill n.铣床，v.铣削min adj.最小的，n.最小值minimum adj.最小的'，n.最小值minus v.减，adj.负的minute n.分钟mirror image n.镜像miscellaneous function n.辅助功能MMC n.人机通讯单元modal adj.模态的modal G code n.模态G代码mode n.方式model n.型号modify v.修改module n.模块MON（monitor） v.监控monitor v.监控month n.月份motion n.运动motor n.电机mouse n.鼠标MOV（移动） v.移动move v.移动movement n.移动multiply v.乘N number n.程序段号N.M n.牛顿。

NC Technology1、Research current situation of NC lathe in our timesResearch and development process to such various kinds of new technologies as numerical control lathe,machining center,FMS,CIMS,etc.of countries all over the world,linked to with the international economic situation closely.The machine tool industry has international economy to mutually promote and develop,enter21alert eras of World Affairs,the function that people's knowledge plays is more outstanding, and the machine tool industry is regarded as the foundation of the manufacturing industry of the machine,its key position and strategic meaning are more obvious. Within1991-1994years,the economic recession of the world,expensive FMS,CIMS lowers the temperature,among1995-2000years,the international economy increases at a low speed,according to requisition for NC lathe and the world four major international lathes exhibition in order to boost productivity of users of various fields of present world market(EMO,IMTS,JIMTOF,China CIMT of Japan of U.S.A.of Europe),have the analysis of the exhibit,there are the following several points mainly in the technical research of NC lathe in our times:（1）、Pay more attention to new technology and innovationWorldwide,are launching the new craft,new material,new structure,new unit,research and development of the new component in a more cost-effective manner,developmental research of for instance new cutter material,the new electric main shaft of main shaft structure,high speed,high-speed straight line electrical machinery,etc..Regard innovating in improvement of the processing technology as the foundation,for process ultra and hard difficult to cut material and special composite and complicated part,irregular curved surface,etc.research and develop new lathe variety constantly.（2）、Improve the precision and research of machine toolingIn order to improve the machining accuracy of the machining center,areimproving rigidity of the lathe,reduction vibration constantly,dispel hotly and out of shape,reduce the noise,improve the precision of localization of NC lathe,repeat precision,working dependability,stability,precision keeping,world a lot of country carry on lathe hot error,lathe sport and load out of shape software of error compensate technical research,take precision compensate,software compensate measure improve,some may make this kind of error dispel60%already.And is developing retrofit constantly,nanometer is being processed.（3）、Improve the research of the machine tooling productivityWorld NC lathe,machining center and corresponding some development of main shaft,electrical machinery of straight line,measuring system,NC system of high speed,under the prerequisite of boosting productivity.（4）、What a lot of countries have already begun to the numerical control system melt intelligently,openly,study networkedlyA、elligent research of the numerical control systemMainly showing in the following aspects:It is intelligent in order to pursue the efficiency of processing and process quality,the self-adaptation to the processing course is controlled,the craft parameter produces research automatically;Join the convenient one in order to improve the performance of urging and use intelligently,to the feedback control,adaptive operation,discerning automatically load selects models automatically,since carries on research whole definitely,etc.of the electrical machinery parameter;There are such research of the respect as intelligent automatic programming,intelligent man-machine interface,intelligence diagnosing,intelligent monitoring,etc..B、The numerical control system melts and studies openMainly showing in the following aspects:The development of the numerical control system is on unified operation platform,face the lathe producer and support finally,through changing,increasing or cutting out the structure target(numerical control target),form the seriation,and can use users specially conveniently and the technical know-how is integrated in the control system,realize the open numerical control system of different variety,different grade fast,form leading brand productswith distinct distinction.System structure norm of the open numerical control system at present,norm,disposing the norm,operation platform,numerical control systematic function storehouse and numerical control systematic function software developing instrument,etc.are the core of present research to pass through.C、Meeting the manufacture system of the production line,demand for the information integration of the manufacturing company networkedly greatly of numerical control equipment,it is a basic unit of realizing the new manufacture mode too.2、Classification of the machining center（1）Process according to main shaft space position when it classifies to be as follows,horizontal and vertical machining center.Horizontal machining center,refer to the machining center that the axis level of the main shaft is set up.Horizontal machining center for3-5sport coordinate axis,a common one three rectilinear motion coordinate axis and one turn the coordinate axis of sports round(turn the workingbench round),it can one is it is it finish other4Taxi processing besides installing surfaces and top surfaces to insert to install in work piece, most suitable for processing the case body work pared with strength type machining center it,the structure is complicated,the floor space is large,quality is large,the price is high.Vertical machining center,the axis of the main shaft of the vertical machining center,in order to set up vertically,its structure is mostly the regular post type,the workingbench is suitable for processing parts for the slippery one of cross,have3 rectilinear motion coordinate axis generally,can find a room for one horizontal numerical control revolving stage(the4th axle)of axle process the spiral part at workingbench.The vertical machining center is of simple structure,the floor space is small,the price is low,after allocating various kinds of enclosures,can carry on the processing of most work pieces.Large-scale gantry machining center,the main shafts are mostly set up vertically, is especially used in the large-scale or with complicated form work piece,is it spend the many coordinate gantry machining center to need like aviation,aerospaceindustry,some processing of part of large-scale steam turbine.Five machining centers,this kind of machining center has function of the vertical and horizontal machining center,one is it after inserting,can finish all five Taxi processing besides installing the surface to install in work piece,the processing way can make form of work piece error lowest,save2times install and insert working,thus improve production efficiency,reduce the process cost.(2)Classify by craft useIs it mill machining center to bore,is it mill for vertical door frame machining center,horizontal door frame mill the machining center and Longmen door frame mill the machining center to divide into.Processing technology its rely mainly on the fact that the door frame is milled,used in case body,shell and various kinds of complicated part special curve and large processes,curved surface of outline process, suitable for many varieties to produce in batches small.Complex machining center,point five times and compound and process mainly, the main shaft head can be turned round automatically,stand,lie and process,after the main shaft is turned round automatically,realize knowing that varies in the horizontal and vertical direction.(3)Classify by special functionSingle workingbench,a pair of workingbench machining center;Single axle,dual axle,three axle can change machining center,main shaft of case;Transfer vertically to the tower machining center and transfer;One hundred sheets of storehouses adds the main shaft and changes one one hundred sheets of machining centers;One hundred sheets of storehouses connects and writes hands to add the main shaft and change one hundred sheets of machining centers;One hundred sheets of storehouses adds the manipulator and adds one pair of main shafts to transfer to the tower machining center.3、Development trend of the current numerical control latheAt present,the advanced manufacturing technology in the world is risingconstantly,such application of technology as ultrafast cutting,ultraprecision processing,etc.,the rapid development of the flexible manufacturing system and integrated system of the computer one is constant and ripe,have put forward higher demand to the process technology of numerical control.Nowadays the numerical control lathe is being developed in several following directions.（1）.The speed and precision at a high speed,high accuracy are two important indexes of the numerical control lathe,it concerns directly that processes efficiency and product quality.At present,numerical control system adopt-figure number, frequency high processor,in order to raise basic operation speed of system. Meanwhile,adopt the super large-scale integrated circuit and many microprocessors structure,in order to improve systematic data processing ability,namely improve and insert the speed and precision of mending operation.Adopt the straight line motor and urge the straight line of the lathe workingbench to be servo to enter to the way directly, it is quite superior that its responds the characteristic at a high speed and dynamically. Adopt feedforward control technology,make it lag behind error reduce greatly,thus improve the machining accuracy cut in corner not to track.For meet ultrafast demand that process,numerical control lathe adopt main shaft motor and lathe structure form that main shaft unite two into one,realize frequency conversion motor and lathe main shaft integrate,bearing,main shaft of electrical machinery adopt magnetism float the bearing,liquid sound pigeonhole such forms as the bearing or the ceramic rolling bearing,etc..At present,ceramic cutter and diamond coating cutter have already begun to get application.（2）.Multi-functional to is it change all kinds of machining centers of organization(a of capacity of storehouse can up to100of the above)automatically to furnished with,can realize milling paring,boring and pares,bores such many kinds of processes as paring,turning,reaming,reaming,attacking whorl,etc.to process at the same time on the same lathe,modern numerical control lathe adopt many main shaft,polyhedron cut also,carry on different cutting of way process to one different position of part at the same time.The numerical control system has because adopted many CPU structure and cuts off the control method in grades,can work out partprocessing and procedure at the same time on a lathe,realize so-called"the front desk processes,the backstage supporter is an editor".In order to meet the needs of integrating the systematic one in flexible manufacturing system and computer, numerical control system have remote serial interface,can network,realize data communication,numerical control of lathe,can control many numerical control lathes directly too.（3）.Intelligent modern numerical control lathe introduce the adaptive control technology,according to cutting the change of the condition,automatic working parameter,make the processing course can keep the best working state,thus get the higher machining accuracy and roughness of smaller surface,can improve the service life of the cutter and production efficiency of the equipment at the same time. Diagnose by oneself,repair the function by oneself,among the whole working state, the system is diagnosed,checked by oneself to CNC system and various kinds of equipment linking to each other with it at any time.While breaking down,adopt the measure of shutting down etc.immediately,carry on the fault alarm,brief on position,reason to break down,etc..Can also make trouble module person who take off automatically,put through reserve module,so as to ensure nobody demand of working environment.For realize high trouble diagnose that requires,its development trend adopts the artificial intelligence expert to diagnose the system.（4）.Numerical control programming automation with the development of application technology of the computer,CAD/CAM figure interactive automatic programming has already get more application at present,it is a new trend of the technical development of numerical control.It utilize part that CAD draw process pattern,is it calculate the trailing punishing to go on by cutter orbit data of computer and then,thus produce NC part and process the procedure automatically,in order to realize the integration of CAD and CAM.With the development of CIMS technology, the full-automatic programming way in which CAD/CAPP/CAM integrates has appeared again at present,it,and CAD/CAM systematic programming great difference their programming necessary processing technology parameter needn't by artificial to participate in most,get from CAPP database in system directly.（5）.The dependability of the dependability maximization numerical control lathe has been the major indicator that users cared about most all the time.The numerical control system will adopt the circuit chip of higher integrated level,will utilize the extensive or super large-scale special-purpose and composite integrated circuit,in order to reduce the quantity of the components and parts,to improve dependability.Through the function software of the hardware,in order to meet various kinds of demands for controlling the function,adopt the module, standardization,universalization and seriation of the structure lathe noumenonn of the hardware at the same time,make not only improve the production lot of the hardware but also easy to is it produce to organize and quality check on..Still through operating and starting many kinds of diagnostic programs of diagnosing,diagnosing, diagnosing off-line online etc.automatically,realize that diagnoses and reports to the police the trouble to hardware,software and various kinds of outside equipment in the system.Utilize the warning suggestion,fix a breakdown in time;Utilize fault-tolerant technology,adopt and design the important part"redundantly",in order to realize the trouble resumes by oneself;Utilize various kinds of test,control technology,exceed Cheng,one one hundred sheets of damages,interfering,cutting out,etc.at the time of various kinds of accidents as production,carry on corresponding protection automatically.（6）.Control system miniaturization systematic miniaturization of numerical control benefit and combine the machine,electric device for an organic whole.Adopt the super large-scale integrated component,multi-layer printed circuit board mainly at present,adopt the three-dimensional installation method,make the electronic devices and components must use the high density to install,narrow systematic occupying the space on a larger scale.And utilize the new-type slim display of colored liquid crystal to substitute the traditional cathode ray tube,will make the operating system of numerical control miniaturize further.So can install it on the machine tool conveniently,benefit the operation of the numerical control lathe correctly even more.。

数控技术专业英语词汇board n.板卡fine adj.精密的word n.字ABS（absolute） adj.绝对的absolute adj.绝对的AC n.交流accelerate v.加速acceleration n.加速度active adj.有效的adapter n.适配器，插头address n.地址adjust v.调整adjustment n.调整advance v.前进advanced adj.高级的，增强的alarm n.报警ALM（alarm） n.报警alter v.修改amplifier n.放大器angle n.角度APC n.绝对式脉冲编码器appendix n.附录，附属品arc n.圆弧argument n.字段，自变量arithmetic n.算术arrow n.箭头AUTO n.自动automatic adj.自动的automation n.自动auxiliary function 辅助功能axes n.轴（复数）axis n.轴background n.背景，后台backlash n.间隙backspace v.退格backup v.备份bar n.栏，条battery n.电池baudrate n.波特率bearing n.轴承binary adj二进制的bit n.位blank n.空格block n.块，段block n.撞块，程序段blown v.熔断bore v.镗boring n.镗box n.箱体，框bracket n.括号buffer n.v.缓冲bus n.总线button n.按钮cabient n.箱体calbe n.电缆calculate v.计算calculation n.计算call v.调用CAN（cancel） v.清除cancel v.清除canned cycle 固定循环capacity n.容量card n.板卡carriage n.床鞍，工作台cassette n.磁带cell n.电池CH（chanel） n.通道change v.变更，更换channel n.通道check v.检查chop v.錾削chopping n.錾削circle n.圆circuit n.电路，回路circular adj.圆弧的clamp v.夹紧clear v.清除clip v.剪切clip board n.剪贴板clock n.时钟clutch n.卡盘，离合器CMR n.命令增益CNC 计算机数字控制code n.代码coder n.编码器command n,v.命令communication n.通讯compensation n.补偿computer n.计算机condition n.条件configuration n.配置configure v.配置connect v.连接connection n.连接connector n.连接器console n.操作台constant n.常数，adj.恒定的contour n.轮廓control v.控制conversion n.转换cool v.冷却coolant n.冷却coordinate n.坐标copy v.拷贝corner n.转角correct v.改正，adj.正确的correction n.修改count v.计数counter n.计数器专业数控英语2（2008-09-13 23:50:06）标签：文化CPU n.中央处理单元CR n.回车cradle n.摇架create v.生成CRT n.真空射线管CSB n.中央服务板current n.电流，当前的，缺省的current loop n.电流环cursor n.光标custom n.用户cut v.切削cutter n.（元盘形）刀具cycle n.循环cylinder n.圆柱体cylindrical adj.圆柱的data n.数据（复数）date n.日期datum n.数据（单数）DC n.直流deceleration n.减速decimal point n.小数点decrease v.减少deep adj.深的define v.定义deg. n.度degree n.度DEL（） v.删除delay v,n.延时v.删除deletion n.删除description n.描述detect v.检查detection n.检查device n.装置DGN（diagnose） v.诊断DI n.数字输入DIAG（diagnosis） n.诊断diagnosis n.诊断diameter n.直径diamond n.金刚石digit n.数字dimension n.尺寸，（坐标系的）维DIR n.目录direction n.方向directory n.目录disconnect v.断开disconnection n.断开disk n.磁盘diskette n.磁盘display v,n.显示distance n.距离divide n,v除，v.划分DMR n.检测增益DNC 直接数据控制DO n.数字输出dog switch n.回参考点减速开关DOS n.磁盘操作系统DRAM n.动态随机存储器drawing n.画图dress v.修整dresser n.修整器drill v.钻孔drive v.驱动driver n.驱动器dry run 空运行duplicate v.复制duplication n.复制dwell n,v.延时edit v.编辑EDT（edit） v.编辑EIA n.美国电子工业协会标准electrical adj.电气的electronic adj.电子的emergency n.紧急情况enable v.使能encoder n.编码器end v,n.结束enter n.回车，v.输入，进入entry n.输入equal v.等于equipment n.设备erase v.擦除error n.误差，错误，故障esc=escape v.退出exact adj.精确的example n.例子exchange v.更换execute v.执行execution n.执行exit v.退出external adj.外部的failure n.故障FANUC n.（日本）法那克fault n.故障feed v.进给feedback v.反馈feedrate n.进给率figure n.数字file n.文件filt（filtrate） v.过滤filter n.过滤器fin（finish） n.完成（应答信号）fine adj.精密的fixture n.夹具FL （回参考点的）低速flash memory n.闪存flexible adj.柔性的floppy adj.软的foreground n.前景，前台format n.格式，v.格式化function n.功能gain n.增益GE FANUC GE法那克gear n.齿轮general adj.总的，通用的generator n.发生器geometry n.几何gradient n.倾斜度，梯度graph n.图形graphic adj.图形的grind v.磨削group n.组guidance n.指南，指导guide v.指导halt n,v.暂停，间断handle n.手动，手摇轮handy adj.便携的handy file 便携式编程器hardware n.硬件helical adj.螺旋上升的help n,v.帮助history n.历史HNDL（handle） n.手摇，手动hold v.保持hole n.孔horizontal a.水平的host n.主机hour n.小时hydraulic adj.液压的I/O n.输入/输出illegal adj.非法的inactive adj.无效的inch n.英寸increment n.增量incremental adj.增量的index 分度，索引initial adj.原始的initialization n.C523初始化initialize v.初始化input n.v.输入INS（） v.插入v.插入instruction n.说明interface n.接口internal adj.内部的interpolate v.插补interpolation n.插补interrupt v.中断interruption n.中断intervent n.间隔，间歇involute n.渐开线ISO n.国际标准化组织jog n.点动jump v.跳转key n.键keyboard n.键盘label n.标记，标号ladder diagram 梯形图language n.语言lathe n.车床LCD n.液晶显示least adj.最小的length n.长度LIB（library） n.库library n.库life n.寿命light n.灯limit n.极限limit switch n.限位开关line n.直线linear adj.线性的linear scale n.直线式传感器link n,v.连接list n,v.列表load n.负荷，v.装载local adj.本地的locate v.定位，插销location n.定位，插销lock v.锁定logic n.逻辑look ahead v.预，超前loop n.回路，环路LS n.限位开关LSI n.大规模集成电路machine n.机床，v.加工macro n.宏macro program n.宏程序magazine n.刀库magnet n.磁体，磁magnetic a.磁的main program n.主程序maintain v.维护maintenance n.维护MAN（manual） n.手动management n.管理manual n.手动master adj.主要的'max adj.最大的，n.最大值maximum adj.最大的，n.最大值MDI n.手动数据输入meaning n.意义measurement n.测量memory n.存储器menu n.菜单message n.信息meter n.米metric adj.米制的mill n.铣床，v.铣削min adj.最小的，n.最小值minimum adj.最小的，n.最小值minus v.减，adj.负的minute n.分钟mirror image n.镜像miscellaneous function n.辅助功能MMC n.人机通讯单元modal adj.模态的modal G code n.模态G代码mode n.方式model n.型号modify v.修改module n.模块MON（monitor） v.监控monitor v.监控month n.月份motion n.运动motor n.电机mouse n.鼠标MOV（移动） v.移动move v.移动movement n.移动multiply v.乘N number n.程序段号N.M n.牛顿。

数控技术常用术语中英文对照更新时间：2007-3-28 为了方便读者阅读相关数控资料和国外数控产品的相关手册，在此选择了常用的数控词汇及其英语对应单词，所选用的数控术语主要参考国际标准ISO2806和中华人民共和国国家标准GB8129—1987以及近年新出现的一些数控词汇。

1）计算机数值控制（ComputerizedNumericalControl,CNC）用计算机控制加工功能，实现数值控制。

2）轴（Axis）机床的部件可以沿着其作直线移动或回转运动的基准方向。

3）机床坐标系（MachineCoordinateSister）固定于机床上，以机床零点为基准的笛卡尔坐标系。

4）机床坐标原点（MachineCoordinateOrigin）机床坐标系的原点。

5）工件坐标系（WorkpieceCoordinateSystem）固定于工件上的笛卡尔坐标系。

6）工件坐标原点（Wrok-piexeCoordinateOrigin）工件坐标系原点。

7）机床零点（Machinezero）由机床制造商规定的机床原点。

8）参考位置（ReferencePosition）机床启动用的沿着坐标轴上的一个固定点，它可以用机床坐标原点为参考基准。

9）绝对尺寸（AbsoluteDimension)／绝对坐标值（AbsoluteCoordinates）距一坐标系原点的直线距离或角度。

10）增量尺寸（IncrementalDimension)／增量坐标值（IncrementalCoordinates）在一序列点的增量中，各点距前一点的距离或角度值。

11）最小输人增量（LeastInputIncrement）在加工程序中可以输人的最小增量单位。

12）命令增量（LeastcommandIncrement）从数值控制装置发出的命令坐标轴移动的最小增量单位。

13）插补（Interpolation）在所需的路径或轮廓线上的两个已知点间根据某一数学函数（例如：直线，圆弧或高阶函数）确定其多个中间点的位置坐标值的运算过程。

Numerical control is a specialized form of automation, specifically, automatic machine tools are programmed to perform an ordered sequence of events at a predetermined rate to produce a piece part with entirely predictable results and physical parameters数控是一种专业的自动化形式,具体的说,自动机床编程,按预定的速率进行一系列有序的事件,从而产生部分完全可预测的结果和物理参数.Control modes: point-to-point, straight line control，two-axis contouring control, three-axis contouring with continuous path control.控制方式：点对点，直线控制，两轴轮廓控制，三轴连续路径轮廓控制。

Piont to point: To reach a desired position all axes independently rapid-travers untill each axis has reached its programmed target value. Clearly no cutting occur during traverse and it commences only when the target position has been reached.点对点：为了达到一个理想的位置，所有的轴独立快速导线测量,除非每个轴已达到设定的目标值。

显然,在导线测量过程和开始之初没有切割发生,只有当目标位置已达到才有切割。

Three contouring with continuous path control三轴连续路径轮廓控制Continuous path control or contouring systems provide accurate spindle positioning at any point in space, all axes are precisely controlled at all times, both individually and in exact relation to each other.连续路径控制、轮廓控制系统提供准确的在任何空间中的点的主轴定位，所有轴在任何时候都精确控制的，无论是单独或相互之间精确关系。

数控专业英语词汇-英汉数控加工英语词汇AA.C. voltage 交流电压Abrasive 研磨剂Abrasive wheel 磨轮Abrasive grain 磨粒Abrasive paper 砂磨纸AC circuit 交流电路Accelerator 加速器Actuating motor 伺服电机Adjusting nut 调校螺母；调校螺帽Adjusting screw 调校螺丝Adjustment 调校Aerodynamics 空气动力学Age hardening 时效硬化Air pressure pneumatic气压Air compression 空气压缩Allen key 内六角板手Allocation 定位Allowance 容差；宽裕度Alloying 炼制合金Alternating current (a.c.)交流电流Aluminum 铝Ammeter 安培计；电流表Ampere 安培Amplification factor 放大倍数Amplifier 放大器Analogue system 仿真系统Analogue-to-digital conversion 模数转换；仿真数字转换Analysis 分析Analyzer 分析器Angle of contact接触角Angle plate 角板；直角板Angle iron 角铁Angle of inclination;倾角Angle 角度Angular displacement 角位移Anode 阳极；正极Appendix 附录Armature 电枢；衔铁线圈Arrester brake 制动器Assembling 装配Assembly drawing 组合图；装配图Assembly language 汇编语言；汇编语言Asymmetry 不对称Asynchronous motor 异步电动机Attachment 附件Auxiliary projection 辅助投影Awl 锥子；尖钻Axes 轴线Axis of rotation转轴BBack 背Backing 垫料Balance; equilibrium 平衡Ball bearing 滚珠轴承Band-pass filter 带通滤波器Barrow 手推车Bastard cut 粗纹Battery 电池组Beam 横梁Bearing 轴承Bed 机架；床道Belt drive 带式传动Belt sander 带式砂磨机Bench hook 垫板；台垫Bench stop 台阻Bench holdfast 台夹；固定夹Bench hook 台垫；垫板Bench; working table工作台Benchmark 基准Bevel 斜角；斜面Bevel; sliding bevel斜角规Bias 偏压Bias; deviation 偏向Bimetallic 双金属的Binary 二进制Bipolar junction transistor双极面结型晶体管Bit 钻嘴；位Blade 刀片Blank 冲胚；毛坯Blanking 冲孔；切料Blind hole 不贯穿孔；闭孔；盲孔Blind hole 闭孔；盲孔；不贯穿孔Blind rivet; pop拉钉Block diagram 方块图Blocking hammer 双圆头锤Blunt 钝的Bolt 螺栓Bonding agent 结合剂Bore 钻削；镗削Boring 镗孔Boring machine 镗床Brake 制动器Brass 黄铜Brazing 铜焊Bronze 青铜Buffer 缓冲器Buffing machine 拋光机Bulb 灯泡Burr 毛口Buzzer 蜂鸣器CCAD/CAM system 计算机辅助设计与制造系统Calipers 卡尺；测径器Cam 凸轮Cam drive 凸轮传动Cantilever 悬臂梁Capacitance 电容量Capacitor 电容器Carbide 碳化合金Carbon steel 碳钢Carborundum stone磨石Cartridge paper 图画纸Cast iron 铸铁；生铁Cast steel 铸钢Casting 铸件；铸造Cathode 阴极；负极Cell 电池Central processing unit中央处理器Centre drill 中心钻Centre line 中心线Centre 中心、顶尖Centrifugal clutch 离心式离合器Ceramics 陶瓷Chain 链Chain drive 链传动Chain wheel 链轮Chain 链条Chamfer 倒角；去角Charge; electric charge电荷Chip 碎屑；切屑Chromium 铬Chuck key 夹头扳手Chuck 夹头、卡盘Circuit 电路Circular motion 圆弧运动Circular cam 圆形凸轮Clamp 夹；夹钳Clamping device; holding夹持工具Clearance angle 后角Closed circuit 闭合电路Clutch 离合器CNC 计算机数控；数控系统CNC lathe 计算机数控车床Coated metal sheet涂层金属片Cold machining 冷加工Collar 轴环；卡圈Collector current 集电极电流Collet 弹性夹头Combination pliers 组合钳Combination square 组合角尺Comparator 比较器Compasses 圆规Compiler 编译器；编译程序Component force 分力Component 零件；组件Component; module 组件Compound slide 复合刀架；复式滑座Compressor 压缩机；压气机Computer 计算器；计算机Computer numerical control（CNC）计算机数控Computer-aided control 计算器辅助控制Computer-aided manufacturing (CAM)计算器辅助制造Computer-aided engineering (CAE)计算机辅助工程Computer-aided control 计算机辅助控制Computer-aided design (CAD)计算机辅助设计Concave edge 内弯边Conduction 传导Conductivity of electricity;导电性Conductivity of heat传热性Conductivity 传导性Cone centre 锥形顶尖Conservation of energy能量守恒Conservation of energy节约能源Contents 目录Control system 控制系统Conventions 常规Copper washer 红铜垫圈Copper 铜；红铜Core pin 心销Corrosion 腐蚀Corrosive liquid 腐蚀液Cotter pin 开口销Counterbore 埋头直孔Countersink 埋头锥孔Countersink head screw埋头螺丝Countersink head bolt埋头螺栓Coupling 联轴器，联轴节，联接器，耦合；偶合(电工) ，联接；轴接Cover 封面Cramp 夹Cross hatching line断面线Cross slide 横向滑座；横刀架Crosshead 十字结联轴节Cross-pain 扁头Cross-section 横切面Cross-sectional area 横切面积Current amplifier 电流放大器Current 电流Cutter 刀具Cutting fluid 切削液Cutting plane line剖切面线Cutting gauge 割线规Cutting tool 切削工具Cutting depth 切削深度Cutting plane 剖切面Cutting blade; plane刨刀Cylinder 汽缸DD.C. motor 直流电动机；直流马达D.C. generator 直流发电机DC electrical source直流电源Decode 译码；译码Decomposition 分解Deformation 变形Deforming force 变形力Density 密度Depth of cut切削深度Design element 设计元素Design 设计Design project 设计作业；专题设计研习Design solution 设计解决方法Designer 设计师Details drawing 零件详图；详细图Development 展开图Deviation 偏差Die holder (stock)丝模扳手；板牙扳手Die 冲压模；螺丝模板牙Die; former 模Dimension 尺寸Dimension line 尺寸线Dimensioning 标示尺寸Diode 整流子；二极管Direct current (d.c.)直流电流Direction of main主运动方向Direction 方向Direction of feed进给方向Direction of resultant合成切削运动方向Disc brake 碟式制动器Distortion 变形；扭曲Distribution board 电力分线箱Divider 分规Dog clutch 爪扣；爪形离合器；犬齿式离合器Dot 点Double-pole-double-th switch 双刀双掷开关Dowelled joint 销钉接合；木钉榫Draft 草稿Drawing format 绘图格式Drawing technique 绘图技巧Drawing materials 绘图材料Drawing board 绘图板；画板Drawing frame 图框Drawing 制图；绘图Drift 偏离Drill chuck 钻头夹盘Drill machine 钻床Drill chuck key钻头扳手Drill 钻Drill; drilling 钻孔；钻削Drilling machine 钻床Drive screw 传动螺杆Drive system 传动系统Driving 驱动Driving force 驱动力Dynamic 动力学EEarthing 接地Eccentric cam 偏心凸轮Edge tool 锋利工具Effort 施力Ejector pin 顶脱销Elastic strain energy弹性应变能Elastic deformation 弹性形变Elastic limit 弹性极限Elastic constant 弹性常数Elasticity 弹性Electric drill 电钻Electric potential 电势；电位Electric wire 电线Electric soldering iron电烙铁Electric spark machining电火花加工Electrical discharge machining放电极加工；火花电蚀法Electrical discharge wire电火花线切割加工Electricity 电Electrode 电极Electromotor 电动机Electronic component 电子零件Elevation; front elevation正视图Emery cloth 砂布Encode 编码Encoder 编码器End elevation 侧视图；端视图End view 端视；侧视Engineer 工程技术人员Engineering drawing 工程绘图Engraver 雕刻机Engraving tool 雕刻工具Enlargement 放大；扩大Equilibrant 平衡力Error 误差Etching 蚀刻术Exploded drawing (view)零件分散图；爆炸图External grinding 外圆磨削External thread 外螺纹FFace shield 护面罩Farad 法拉〈电容量单位〉Fastener 系固件；扣件Feasibility 可行性Feed movement 进给运动Feed 进给Feed screw 进给螺杆Feed rate 进给速率Feedback 反馈；回输Fence 导板；靠板File 锉Final solution 最后方案Finish machining 精加工Fitting 配件Fixture; jig 夹具Flange 凸缘Flange coupling 凸缘联轴节Flat nose pliers平嘴钳Flat head screw扁头螺丝Flat rasp 平锉Flatter 平面锤Flexible rule; tape卷尺Flip-flop 触发器；复振器；正反器Flow chart 流程图Fluid drive mechanism液压传动机构Force 力Forged steel 锻钢Form 造形Forward bias 正向偏置Found 铸造Four-jaw independent chuck四爪夹头Fracture 断裂Fragile 易碎Frame 框架Framework 架构French curve 云尺；云板；曲线规Frequency 频率Frequency 电源频率mainsFriction 摩擦力Front projection 正面投影Fulcrum; pivot 支点Function 功能；用途Fuse 保险丝GGalvanized sheet 镀锌片Gas valve 气阀Gasket; washer 垫片；垫圈；介子Gauge 计；量规Gear 齿轮Gear rack 齿条Gear shaft 齿轮轴Gear drive 齿轮传动Gear train 齿轮组；齿轮系Gear ratio 齿轮比Gear box 齿轮箱Gearbox 变速箱Gearbox casing 变速箱体Generator 发电机Geometrical 几何形状Gloves 手套Governor 调速器Gradient 斜率Graphic presentation technique图形表达技巧Gravitational force 引力；重力Grease 润滑脂Grids 网格Grinding machine 磨床Grinding wheel 砂轮Grinding 磨削；研磨Grinding 研磨；磨削Groove 凹槽Guard; safety guard防护装置；保护罩；保护网Gudgeon pin 活塞销Guide pin 导销HHalf-round file 半圆锉Hand feed 手进给Hand grip 把手Handle 手柄Handwheel 手轮Hardening 硬化Hard metal硬质合金(通常指碳化钨) Hardness 硬度Hardware 硬件〈计算机〉Hatching line 剖线Headstock 主轴箱Heat treatment 热处理Heating tube 发热管Helix 螺旋Hexagonal head screw六角头螺丝Hidden line 隐线；虚线High carbon steel高碳钢High speed高速High speed steel高速钢High voltage 高电压Hinged support 铰接式支座Hollowing block 凹模Horizontal plane 水平投影面Hot working 热加工；Hotwork 热加工Hydraulic pump 液压泵Hydraulic pressure 液压II/O port 输入/输出口Idle stroke 空行程Imbalance 不平衡Impact strength 冲击强度Impact 冲击Impedance 电阻抗Inclined plane 倾斜面Indicator 指示器Inductor 电感器Input characteristics 输入特性Input 输入Input device 输入装置Inside calipers 内卡尺Insulation 绝缘Insulation board 绝缘板Insulator 绝缘体Integrated circuit (IC)集成电路Interface 界面；分界面；接口Interference fit 过盈配合Interlock circuit 联锁电路Internal grinding 内圆磨削Internal thread 内螺丝Interpolation 插补Iron 铁Iron plate 铁板Isolating switch 隔离开关Isometric circle 等角圆JJack plane 粗刨Jig and fixture夹具及固定装置Jig 机床夹具Jog 点动Joining tool 接合工具Joining 接合KKerosene 煤油Key 键Keyway 键槽Kinematic sketch 运动简图Knob 旋钮；球形把手Knock-down construction 装拆式结构Knurled shank 滚花身；压花身Knurling 滚纹；切辊纹LLaminated plastic sheet层叠塑料片；塑料层积片Laminating 层积；层叠Lapped seam; seam接缝Law of conservation能量守恒定律Layout paper 草图画纸Layout; marking out;划线Lead screw 导螺杆；导向螺丝Lead rail 导轨Lead 铅Light emitting diode发光二极管Lighting 照明Linear contraction 线性收缩Linear expansion 线性膨胀Linear equations 线性方程组Linear materials 线材Linear interpolation 直线切削Linear motion 线性运动Linkage 连接杆；连杆Lipping 镶边Lock nut 防松螺帽Lock washer 锁固垫圈Locking device 关锁装置Logic gate 逻辑门Logic state 逻辑状态Lubricant 润滑剂Lubrication 润滑MMachinability 可切削性；机械加工性Machine tool 机械工具Machine area 机床工作间Machine tool 机床Machine vice 机械虎钳Machining 加工Machining allowance 机械加工余量Machining center 加工中心Magnet 磁铁Magnetic circles 磁路Main movement 主运动Mains frequency 市电频率；电源频率Maintenance 维修；保养Mallet 木槌Mandrel 心轴Manual 手册；手动的Manufactured board 制成板Marking knife 划线刀Marking tool 划线工具Marking gauge; surface划线规Mass 质量Mass production 大量制造Material 材料Material list 材料单；材料表Mathematical model 数学模型MDI手动数据输入Measurement 量度Measuring tool 量度工具Mechanical drawing 机械制图Mechanical parts 机械零件Mechanical property 机械特性Mechanical motion 机械运动Mechanical system 机械系统Mechanism 机构Medium 介质Medium carbon steel中碳钢Meshing 啮合Metal cutting 金属切削Metric 公制的；十进制的Micrometer calipers 千分尺Micrometer 分厘卡Mild steel 低碳钢Mill 铣削Milling 铣Milling cutter 铣刀Milling machine 铣床Milling cutter 铣刀Model making 模型制作Model; patterns 模型Modem 调制解调器Module 模件；模块；组件Module 单元Modulus of elasticity弹性模量；弹性模数Motif 主题Motion 运动Motor 马达；电动机Motor 电动机；马达Mould 模子；铸模Moulding 倒模成形；模塑；铸模成形Mounting board 夹卡Multimeter 万用电表Multi-point cutter 多刃切削刀具Multi-purpose rule 万用尺NNail 钉Network；web 网络；网络Neutral 中性Neutral wire 中线Nickel 镍No load 空载Nonferrous metal 有色金属Normalizing 正火Nose of tool刀尖Nozzle 喷嘴Number punch 数字冲Number and letter数字及字母冲Nut 螺帽；螺母OOblique drawing 斜视图Oblique projection 斜投影Oil stone 油石；磨刀石Oiling 加油Open mouth tongs开口扁钳Open-loop control system开环控制系统Orthographic projection 正投影Orthographic drawing 正投影图Oscilloscope 示波器Outline 外形线；轮廓线Output characteristics 输出特性Output device 输出装置Output 输出Outside calipers 外卡尺Overload 超载Oxidation; oxidize 氧化PPaint 涂料；油漆Parallel projection 平行投影Part drawing 零件图Particle board 碎料板；刨花板Parting off 分切；分割；切断Parts list 零件表Parts drawing 零件图Pattern 模式；样式；图案；花样Patterns 木模；模型Pencil 铅笔Period 周期Permittivity 电容率；介电常数Perspective drawing 透视图Perspective 透视法Perspective projection 透视投影Phase difference 相差Physical attribute 物理属性Physical quantity 物理量Pictorial drawing 立体图Pilot hole 导孔Pin 销Pincers 钉钳；铁钳Pinion 小齿轮Pipe 管Pitch 螺距Plan 平面图；俯视图Plane grinding 平面磨削Planning 计划Plasticity 塑性Plastics 塑料Plate clutch 碟式离合器；盘式离合器Pliers 钳子Plug 塞子；插头Pneumatic lock 气动夹紧Pneumatic control 气动控制Pneumatic system 气动的系统；气压的系统Point 针尖Pointing needle 方向针Pocket 凹槽；袖珍的，兜Polisher 打磨机Portable power tool手提电动工具Positive feedback 正反馈；正回输Post- 后置Post processing 后置处理Potential divider; voltage分压器Potential difference 电位差Potentiometer 电位计Power 功率Power factor 功率因子Power transistor 功率晶体管Power amplifier 功率放大器Power amplifier board功率板Precision 精度Probability 概率Problem solving 解决问题Production drawing 生产图Production method 制造方法Profile chart 剖视图Program 程序；Programmable Logic Controller可编程序逻辑控制器Projection plane 投影面Projection line 投影线Projection 投影Propeller 推进器Proportion 比例Protractor 量角器Pulse 脉冲Punch 冲子；打孔；程序输出RRaised head screw凸头螺丝Rake angle 前角Rake face 前刀面Random variable 随机变量Ratchet brace 棘齿弓钻Ratchet 棘齿Rating 额定值Reactance 电抗Read only memory只读存贮器；只读存储器Reamer 绞刀Reaming 铰孔Rebate plane 槽口刨；边刨；子口刨Rebate 槽口Recess 凹座Rectilinear motion 直线运动Regulating 调节Reinforced plastics 强化塑料Reinforcement 强化Relative density 相对密度Relay 继电器Reliability 可靠性Research 研究探讨Residual stress 残余应力Resistance thermometer 电阻温度计Resistance 电阻值Resistor 电阻器Response 响应Resultant movement of合成切削运动Resultant movement of 合成进给运动Reversible process 可逆过程Revolution per minute 每分钟转数Rhythm 韵律；节奏Rigid body 刚体Rigidity 刚性；刚度Robot 机器人Rod 枝；杆Roller bearing 滚子轴承；滚动轴承Rolling friction 滚动摩擦Rolling 滚压Rotary motion 旋转运动Rotating platform 旋转台Rotating shaft 旋转轴Rotation 旋转；转动Rough machining 粗加工Rough 毛坯Roughing 粗削Round tube 圆通；圆管Rounding chamfer 倒角Ruling 刻度；划线Rust prevention 防锈SSafety precaution 安全措施Safety 安全Safety equipment 安全设备Safety rule 安全守则Safety factor 安全系数Safety factor 安全系数Sand blasting 喷砂Sand casting 砂铸；砂铸模Sander 砂磨机Sanding 砂磨Saw 锯Scalar 标量Scale 比例尺Scale 标度Scientific knowledge 科学知识Screw thread 螺纹；螺丝牙Screw thread cutting螺纹切削法Screw 螺钉；螺丝Screw rod 丝杠Screw 螺钉Screwdriver 螺丝起子Screwing 螺丝接合Scriber 划针Section 剖面；纵切面Sectional view 剖视图Semiconductor 半导体Semiconductor element 半导体元件Sensitivity 灵敏度Sensor 感应器Sensor circuit 感应电路Set square 三角尺Shade 图画的阴暗部Shaft work 轴功Shaft 轴Sharp edge grinding磨刀机Sharpening 刃磨Short circuit 短路Shunt 分流器Side projection 侧面投影Signal 信号Signal processing 信号处理Signal generator 信号产生机Silicon 硅Silver solder 银焊料Simulation 仿真Sinusoidal waveform 正弦波形Size 标准尺寸stockSize marking 尺寸标注Sketch 草图Slab construction 平板结构Sleeve 套筒；套管Sleeve 套筒Slide caliper 游标卡尺Slider crank mechanism滑块曲柄机构Slider 滑动件Sliding bearing 滑动轴承Slot 键槽Smoothing circuit 平流电路；滤汳电路Socket 插座Solder 锡线；焊料；焊接Solenoid 螺线管；筒形线圈；电磁线圈Solution 解决方法Space 空间；空格Spacer 垫片Spanner 扳手Spanner; wrench 扳手Speaker 喇叭；扬声器Specification 规格Speed control system变速系统Speed changer 变速器Spelter solder 铜焊料；锌焊料Spindle 主轴；心轴Spindle speed 转速Spirit level 水平尺；水平仪Spline 花键；样条Spot facing machining孔加工Spring 弹簧；簧片Spring washer 弹簧垫圈Spring divider 弹簧分规Spur 钢针Square file 方锉Square waveform 方波形Square nose gouge平头弧刀Stability 稳定性Stable equilibrium 稳定平衡Stainless steel 不锈钢Stamping 冲压Standard component 标准件Standard cross-section 标准横切面Starter 起动器Starting torque 起动扭矩Static equilibrium 静态平衡Static friction 静摩擦Steady 稳定Steel furnace 炼钢炉Steel clip 钢夹Steel 钢Steel rule 钢尺Stepper motor 步进电机Stiffness 刚强度；硬挺度Stitch marker 划线轮Strap 皮带Stress 应力Stress-strain curve 应力-应变曲线Structural mechanics 结构力学Structural timber 结构木材。

史上最全数控技术专业英语词汇大全，赶紧收藏吧！2014-11-24金属加工1）计算机数值控制（Computerized Numerical Control, CNC）用计算机控制加工功能，实现数值控制。

2）轴（Axis）机床的部件可以沿着其作直线移动或回转运动的基准方向。

3）机床坐标系（ Machine Coordinate Systern ）固定于机床上，以机床零点为基准的笛卡尔坐标系。

4）机床坐标原点（ Machine Coordinate Origin ）机床坐标系的原点。

5）工件坐标系（ Workpiece Coordinate System ）固定于工件上的笛卡尔坐标系6）工件坐标原点（ Wrok-piexe Coordinate Origin）工件坐标系原点。

7）机床零点（ Machine zero ）由机床制造商规定的机床原点。

8）参考位置（ Reference Position ）机床启动用的沿着坐标轴上的一个固定点，它可以用机床坐标原点为参考基准9）绝对尺寸（Absolute Dimension）/绝对坐标值（Absolute Coordinates）距一坐标系原点的直线距离或角度。

10）增量尺寸（ Incremental Dimension ） /增量坐标值（Incremental Coordinates）在一序列点的增量中，各点距前一点的距离或角度值。

11）最小输人增量（Least Input Increment）在加工程序中可以输人的最小增量单位。

12）命令增量（Least command Increment）从数值控制装置发出的命令坐标轴移动的最小增量单位。

13）插补（InterPolation）在所需的路径或轮廓线上的两个已知点间根据某一数学函数（例如：直线，圆弧或高阶函数）确定其多个中间点的位置坐标值的运算过程。

14）直线插补（Llne Interpolation）这是一种插补方式，在此方式中，两点间的插补沿着直线的点群来逼近，沿此直线控制刀具的运动。

数控技术专业英语词汇大全数控技术专业英语词汇大全（赶紧收藏吧！）2021-09-29金属加工1）计算机数值控制（Computerized Numerical Control, CNC）用计算机控制加工功能，实现数值控制。

2）轴（Axis）机床的部件可以沿着其作直线移动或回转运动的基准方向。

3）机床坐标系（ Machine Coordinate Systern ）固定于机床上，以机床零点为基准的笛卡尔坐标系。

4）机床坐标原点（ Machine Coordinate Origin ）机床坐标系的原点。

5）工件坐标系（ Workpiece Coordinate System ）固定于工件上的笛卡尔坐标系6）工件坐标原点（ Wrok-piexe Coordinate Origin）工件坐标系原点。

7）机床零点（ Machine zero ）由机床制造商规定的机床原点。

8）参考位置（ Reference Position ）机床启动用的沿着坐标轴上的一个固定点，它可以用机床坐标原点为参考基准9）绝对尺寸（Absolute Dimension）/绝对坐标值（Absolute Coordinates）距一坐标系原点的直线距离或角度。

10）增量尺寸（ Incremental Dimension ） /增量坐标值（Incremental Coordinates）在一序列点的增量中，各点距前一点的距离或角度值。

11）最小输人增量（Least Input Increment）在加工程序中可以输人的最小增量单位。

12）命令增量（Least command Increment）从数值控制装置发出的命令坐标轴移动的最小增量单位。

13）插补（InterPolation）在所需的路径或轮廓线上的两个已知点间根据某一数学函数（例如：直线，圆弧或高阶函数）确定其多个中间点的位置坐标值的运算过程。

14）直线插补（Llne Interpolation）这是一种插补方式，在此方式中，两点间的插补沿着直线的点群来逼近，沿此直线控制刀具的运动。

数控专业英语数控专业英语大全increment n.增量incremental adj.增量的index 分度，索引initial adj.原始的initialization n.C523初始化initialize v.初始化input n.v.输入INS（） v.插入v.插入instruction n.说明interface n.接口internal adj.内部的interpolate v.插补interpolation n.插补interrupt v.中断interruption n.中断intervent n.间隔，间歇involute n.渐开线ISO n.国际标准化组织jog n.点动jump v.跳转key n.键keyboard n.键盘label n.标记，标号ladder diagram 梯形图language n.语言lathe n.车床LCD n.液晶显示least adj.最小的length n.长度LIB（library） n.库library n.库life n.寿命light n.灯limit n.极限limit switch n.限位开关line n.直线linear adj.线性的linear scale n.直线式传感器link n,v.连接list n,v.列表load n.负荷，v.装载local adj.本地的locate v.定位，插销location n.定位，插销lock v.锁定logic n.逻辑look ahead v.预，超前loop n.回路，环路LS n.限位开关LSI n.大规模集成电路machine n.机床，v.加工macro n.宏macro program n.宏程序magazine n.刀库magnet n.磁体，磁magnetic a.磁的main program n.主程序maintain v.维护maintenance n.维护MAN（manual） n.手动management n.管理manual n.手动master adj.主要的max adj.最大的，n.最大值maximum adj.最大的，n.最大值MDI n.手动数据输入meaning n.意义measurement n.测量memory n.存储器menu n.菜单message n.信息meter n.米metric adj.米制的mill n.铣床，v.铣削min adj.最小的，n.最小值minimum adj.最小的，n.最小值minus v.减，adj.负的minute n.分钟mirror image n.镜像miscellaneous function n.辅助功能MMC n.人机通讯单元modal adj.模态的modal G code n.模态G代码mode n.方式model n.型号modify v.修改module n.模块MON（monitor） v.监控monitor v.监控month n.月份motion n.运动motor n.电机mouse n.鼠标MOV（移动） v.移动move v.移动movement n.移动multiply v.乘N number n.程序段号N.M n.牛顿。

数控技术常用术语中英文对照更新时间：2007-3-28 为了方便读者阅读相关数控资料和国外数控产品的相关手册，在此选择了常用的数控词汇及其英语对应单词，所选用的数控术语主要参考国际标准ISO 2806和中华人民共和国国家标准GB 8129—1987 以及近年新出现的一些数控词汇。

1）计算机数值控制（Computerized Numerical Control, CNC）用计算机控制加工功能，实现数值控制。

2）轴（Axis）机床的部件可以沿着其作直线移动或回转运动的基准方向。

3）机床坐标系（ Machine Coordinate Sister ）固定于机床上，以机床零点为基准的笛卡尔坐标系。

4）机床坐标原点（ Machine Coordinate Origin ）机床坐标系的原点。

5）工件坐标系（ Work piece Coordinate System ）固定于工件上的笛卡尔坐标系。

6）工件坐标原点（ Wrok-piexe Coordinate Origin）工件坐标系原点。

7）机床零点（ Machine zero ）由机床制造商规定的机床原点。

8）参考位置（ Reference Position ）机床启动用的沿着坐标轴上的一个固定点，它可以用机床坐标原点为参考基准。

9）绝对尺寸（Absolute Dimension)／绝对坐标值（Absolute Coordinates）距一坐标系原点的直线距离或角度。

10）增量尺寸（ Incremental Dimension ) ／增量坐标值（Incremental Coordinates）在一序列点的增量中，各点距前一点的距离或角度值。

11）最小输人增量（Least Input Increment）在加工程序中可以输人的最小增量单位。

12）命令增量（Least command Increment）从数值控制装置发出的命令坐标轴移动的最小增量单位。

13）插补（Interpolation）在所需的路径或轮廓线上的两个已知点间根据某一数学函数（例如：直线，圆弧或高阶函数）确定其多个中间点的位置坐标值的运算过程。

原文：NC and CNCThe History of NC and CNC DevelopmentNumerical Control (NC) is any machining process in which the operations are executed automatically in sequences as specified by the program that contains the information for the tool movements. The NC concept was proposed in the late 1940s by John Parsons of Traverse City, Michigan. Parsons recommended a method of automatic machine control that would guide a milling cutter to produce a "thru-axis curve" in order to generate smooth profiles on work pieces.In 1949, The U.S. Air Force awarded Parsons a contract to develop a new type of machine tool that would be able to speed up production methods. Parsons commissioned the Massachusetts Institute of Technology (M.I.T.) to develop a practical implementation of his concept. Scientists and engineers at M.I.T. built a control system for a two-axis milling machine that used a perforated paper tape as the input media. In a short period of time, all major machine tool manufacturers were producing some machines with NC, but it was not until the late 1970s that computer-based NC became widely used. NC matured as an automation technology when inexpensive and powerful microprocessors replaced hard-wire logic-making computer-based NC systems.When Numerical Control is performed under computer supervision, it is called Computer Numerical Control (CNC). Computers are the control units of CNC machines, they are built in or linked to the machines via communications channels. When a programmer input some information in the program by tape and so on, the computer calculates all necessary data to get the job done.On the first Numerically Controlled (NC) machines were controlled by tape, and because of that, the NC systems were known as tape-controlled machines. They were able to control a single operation entered into the machine by punched or magnetic tape. There was no possibility of editing the program on the machine. To change the program, a new tape had to be made.Today's systems have computers to control data; they are called Computer Numerically Controlled (CNC) machines. For both NC and CNC systems, workprinciples are the same. Only the way in which the execution is controlled is different. Normally, new systems are faster, more powerful, and more versatileThe Applications of NC/CNCSince its introduction, NC technology has found many applications, including lathes and turning Centers, milling machines and machining centers , punches , electrical discharg machines(EDM) Flame cutters,grinders,and inspection equipment. the most complex CNC machine tools are the turning center,shown in Fig.4-1(Amodern turning center with a ten-station turret that accepts quick-chang tools.Each tool can be positioned in Seconds with the press of a button).And the machine center shown in Fig.4-2(Vertical machining center,the tool magazine is on the machine.the control panel on the right can be swiveled by the operator)and Fig.4-3(horizontal machining center,equipped with an automatic tool changer .tool magazines can store 200 ctting tools.When preparing a progam for a particular operation ,the prommer must select all cutting data using recommendations for conventional machining .this includes proper Selection of cutting speeds,feedrate,tools and tool geometry,and so on.when the programmer has chosen all of the necessary information properly,the operator loads the programme into the machine and presses a button to start the cutting crycle .the CNC machine moves automatically from one maching operation to another , changing the cutting tols and applying the coolent.in a surprisingly short time ,the workpiece is Machined according to the highest quality stangards. But that is not all.no matter how big the work series is,all of the parts will be almost identical in size and surface finishing. At this time of advanced technology,with its high demands for surface finishing and tolerances of components in,for example ,aerospace,nuclear,and medical equipment manufacturing,only CNC machines provide successful results.Numerical control (NC) is a form of programmable automation in which the processing equipment is controlled by means of numbers, letters, and other symbols. The numbers, letters, and symbols are coded in an appropriate format to define a program of instructions for a particular workpart or job. The instructions are provided by either of the two binary coded decimal systems: the Electronic Industries Association (EIA) code, or the American Standard Code for Information Interchange(ASCII). ASCII-coded machine control units will not accept . EIA coded instructions and vice versa. Increasingly, however, control units are being made to accept instructions in either code. 121Automation operation by NC is readily adaptable to the operation of all metalworking machines. Lathes, milling machines, drill presses, boring machines, grinding machines, turret punches, flame or wire-cutting and welding machines, and even pipe benders are available with numerical controls.Basic Components of NCA numerical control system consists of the following three basic components:(1) Program instructions(2) Machine control unit(3) Processing equipmentThe program instructions are the detailed step by step commands that direct the processing equipment. [31In its most common form, the commands refer to positions of a machine tool spindle with respect to the worktable on which the part is fixtured. More advanced instructions include selection of spindle speeds, cutting tools, and other functions.The machine control unit (MCU) consists of the electronics and control hardware that reads and interprets the program of instructions and convert it into mechanical actions of the machine tool or other processing equipment.The processing equipment is the component that performs metal process. In the most common example of numerical control, it is used to perform machining operations. The process-ing equipment consists of the worktable and spindle as well as the motors and controls needed to drive them.Types of NCThere are two basic types of numerical control systems: point to point and contouring.Point to point control system, also called positioning, is simpler than contouring control system. Its primary purpose is to move a tool or workpiece from one programmed point to another. Usually the machine function, such as a drilling operation, is also activated at each point by command from the NC program. Point to point systems are suitable for hole machining operations such as drilling,countersinking, couterbofing, reaming, boring and tapping. Hole punching machines, spotwelding machines, and assembly machines also use point to point NC systems.Contouring system, also known as the continuous path system, positioning and cutting operations are both along controlled paths but at different velocities. Because the tool cuts as it travels along a prescribed path, accurate control and synchronization of velocities and movements are important. The contouring system is used on lathes, milling machines, grinders,incrementally, by one of several basic methods. There are a number of interpolation schemes that have been developed to deal with the various problems that are encountered in generating a smooth continuous path with a contouring type NC system. They include linear interpolation,circular interpolation, helical interpolation, parabolic interpolation and cubic interpolation. In all interpolations, the path controlled is that of the center of rotation of the tool. Compensation for different tools, different diameter tools, or tools wear during machining, can be made in the NC .Programming for NCA program for numerical control consists of a sequence of directions that causes an NC machine to carry out a certain operation, machining being the most commonly used process. Programming for NC may be done by an internal programming department, on the shop floor, or purchased from an outside source. Also, programming may be done manually or with computer assistance.The program contains instructions and commands. Geometric instructions pertain to relative movements between the tool and the workpiece. Processing instructions pertain to spindle speeds, feeds, tools, and so on. Travel instructions pertain to the type of interpolation and slow or rapid movements of the tool or worktable. Switching commands pertain to on/off position for coolant supplies, spindle rotation, direction of spindle rotation, tool changes, workpiece feeding, clamping, and so on. The first NC programming language was developed by MIT developmental work on NC programming systems in the late 1950s and called APT(Automatically Programmed Tools).DNC and CNCThe development of numerical control was a significant achievement in batchand job shop manufacturing, from both a technological and a commercial viewpoint. There have been two enhancements and extensions of NC technology, including:(1)Direct numerical control(2) Computer numerical controlDirect numerical control can be defined as a manufacturing system in which a number of machines are controlled by a computer through direct connection and in real time. The tape reader is omitted in DNC, thus relieving the system of its least reliable component. Instead of using the tape reader, the part program is transmitted to the machine tool directly from the computer memory. In principle, one computer can be used to control more than 100 separate machines. (One commercial DNC system during the 1970s boasted a control capability of up to 256 machine tools.) The DNC computer is designed to provide instructions to each machine tool on demand. When the machine needs control commands, they are communicated to it immediately.Since the introduction of DNC, there have been dramatic advances in computer technology. The physical size and cost of a digital computer has been significantly reduced at the same time that its computational capabilities have been substantially increased. In numerical control, the result of these advances has been that the large hard-wired MCUs of conventionalNC have been replaced by control units based on the digital computer. Initially, minicomputers were utilized in the early 1970s. As further miniaturization occurred in computers, minicomputers were replaced by today's microcomputers.Computer numerical control is an NC system using dedicated microcomputer as the machine control unit. Because a digital computer is used in both CNC and DNC, it is appropriate to distinguish between the two types of system. There are three principal differences:1) DNC computers distribute instructional data to, and collect data from, a large number of machines. CNC computers control only one machine, or a small number of machines.2) DNC computers occupy a location that is typically remote from the machines under their control. CNC computer are located very near their machine tools.3) DNC software is developed not only to control individual pieces of production equipment, but also to serve as part of a management information system in the manufacturing sector of the firm. CNC software is developed to augment the capabilities of a particular machine Tool.译文：数控技术数字控制与计算机数字控制的发展历史数字控制是按照含有机床(刀具)运动信息程序所指定的顺序自动执行操作的加工过程。

数控技术专业英语词汇大全( 赶紧收藏吧! )-09-29金属加工你是否经常在学习和工作中被某个专业英语词汇卡了壳, 抑或是在展会上跟国外客户交流时, 突然想不起来某个专业术语怎么说? 没关系, 金属加工小编为您搜集整理了下列数控技术专业英语词汇, 让您的学习交流不再愁了!1) 计算机数值控制 ( Computerized Numerical Control, CNC) 用计算机控制加工功能, 实现数值控制。

2) 轴( Axis) 机床的部件能够沿着其作直线移动或回转运动的基准方向。

3) 机床坐标系( Machine Coordinate Systern ) 固定于机床上, 以机床零点为基准的笛卡尔坐标系。

4) 机床坐标原点( Machine Coordinate Origin ) 机床坐标系的原点。

5) 工件坐标系( Workpiece Coordinate System ) 固定于工件上的笛卡尔坐标系6) 工件坐标原点( Wrok-piexe Coordinate Origin) 工件坐标系原点。

7) 机床零点( Machine zero ) 由机床制造商规定的机床原点。

8) 参考位置( Reference Position ) 机床启动用的沿着坐标轴上的一个固定点, 它能够用机床坐标原点为参考基准9) 绝对尺寸( Absolute Dimension) /绝对坐标值( Absolute Coordinates) 距一坐标系原点的直线距离或角度。

10) 增量尺寸( Incremental Dimension ) /增量坐标值( Incremental Coordinates) 在一序列点的增量中, 各点距前一点的距离或角度值。

11) 最小输人增量( Least Input Increment) 在加工程序中能够输人的最小增量单位。

12) 命令增量( Least command Increment) 从数值控制装置发出的命令坐标轴移动的最小增量单位。

数控技术专业英语词汇大全数控技术专业英语词汇大全（赶紧收藏吧！）2021-09-29金属加工2）轴（axis）机床的部件可以沿着其并作直线移动或调头运动的基准方向。

3）机床坐标系（machinecoordinatesystern）紧固于机床上，以机床零点为基准的笛卡尔坐标系。

4）机床坐标原点（machinecoordinateorigin）机床坐标系的原点。

5）工件坐标系（workpiececoordinatesystem）固定于工件上的笛卡尔坐标系6）工件座标原点（wrok-piexecoordinateorigin）工件坐标系原点。

7）机床零点（machinezero）由机床制造商规定的机床原点。

8）参照边线（referenceposition）机床启动用的沿着坐标轴上的一个固定点，它可以用机床座标原点为参照基准9）绝对尺寸（absolutedimension）/绝对坐标值（absolutecoordinates）距一坐标系原点的直线距离或角度。

10）增量尺寸（incrementaldimension）/增量坐标值（incrementalcoordinates）在一序列点的增量中，各点距前一点的距离或角度值。

11）最轻赢人增量（leastinputincrement）在加工程序中可以输人的最轻增量单位。

13）插补（interpolation）在所需的路径或轮廓线上的两个已知点间根据某一数学函数（例如：直线，圆弧或高阶函数）确定其多个中间点的位置坐标值的运算过程。

14）直线控制算法（llneinterpolation）这就是一种控制算法方式，在此方式中，两点间的控制算法沿着直线的点群去迫近，沿此直线掌控刀具的运动。

15）圆弧插补（circula:interpolation）这是一种插补方式，在此方式中，根据两端点间的插补数字信息，计算出逼近实际圆弧的点群，控制刀具沿这些点运动，加工出圆弧曲线。