NX for China 使用手册

NX Faster CAE model preparationBenefits•B uild models faster withembedded tools for 3Dgeometry creation, editingand abstraction•R educe modeling errorsand model build-time byproviding analysts with afamiliar user environment•F acilitate fastercollaboration betweenanalysts and designengineers by leveraginggeometry associativity•E liminate the need torecreate analysis modelseach time the designchanges•P erform faster design-analysis iterations, whichin turn enables you todeliver better productsfasterSummaryNX™ software can drastically reduce the timeyou spend preparing your analysis models.NX’s unique integrated design and analysisenvironment enables you to progress fromCAD design to completed CAE model morequickly than with traditional simulation pre-processors. By using NX to reduce the timeyou spend preparing your analysis models,you can achieve much faster design-analysisiterations and deliver better products faster.Value of an integrated design-analysisenvironmentAUTOSIM, the European organization thatstudies how to integrate analysis modelingand simulation technology and apply thesebest practices to the automotive industry,indicates that 80 percent of an analyst’s timeis spent preparing the CAE model. Traditional standalone pre-processors,disconnected from the design group, require analysts to spend more timein non-value added processes like rebuilding geometry and meshing.The depth and breadth of NX’s integrated design and analysis environmentreduces the time your analysts spend preparing analysis models. NX deliversthe advanced meshing, boundary conditions and solver interfaces thatexperienced analysts expect with more traditional pre-processors. In addition,NX offers superior geometry editing and analysis model associativitythat traditional pre-processors cannot provide. Just as importantly, NXcombines the best capabilities from CAD and CAE tools to reduce overallmodeling time.Powerful geometry toolsNX’s CAE solutions deliver all of the major geometry modeling and editingcapabilities of NX Design, including synchronous technology. In addition tothese standard geometry tools, NX CAE solutions include multiple geometryabstraction tools specific to the needs of analysis modeling, such as:• G eometry idealization capabilities (including the ability to suppress smallfeatures that are irrelevant to analysis)Powerful analysis modeling in an integrated environment for fasterdesign-analysis iterations/nxNXavoiding the need for users to recreate the analysis model. NX is unique in this regard. This approach greatly reducesdownstream modeling time, which results in huge time savings across a project’s many design-analysis iterations.• G eometry healing and repair for gaps and other data inaccuracies • M id-surfacing for thin-walled solid bodies • S plit body and partitioning methods for dividing geometry into more manageable sections • M erging/splitting/stitching of edges and faces for controlling mesh boundaries Powerful analysis modeling toolsNX includes extensive modeling functions for automatic and manual meshgeneration, the application of loads and boundary conditions, and model checking. NX also offers immersive userenvironments to support a variety of disciplines, such as CFD and thermal analysis, as well as well known solvers, including NX Nastran ®, MSC Nastran, Abaqus, Ansys and LS-Dyna.The NX environment is customized to immerse the user in the language of the selected solver and support its uniquecapabilities. The NX user interface uses the selected solver’s terminology. This enables NX users to easily prepare the analysis model for the selected solver without the need to learn new terminology.Analysis model to geometry associativityNX’s integrated design-analysisenvironment is especially valuable because it associates the analysis model to its geometry. User-defined geometry edits, mesh and boundary conditions are all associated to the base design. When the design topology changes, NX maintains the existing analysis geometry, mesh,loads and boundary conditions and rapidly updates them as required, therebyFaster CAE model preparation© 2010 Siemens Product Lifecycle Management Software Inc. All rights reserved. Siemens and the Siemens logo are registered trademarks of Siemens AG. D-Cubed, Femap, Geolus, GO PLM, I-deas, Insight, Jack, JT, NX, Parasolid, Solid Edge, Teamcenter, Tecnomatix and Velocity Series are trademarks or registered trademarks of Siemens Product Lifecycle Management Software Inc. or its subsidiaries in the United States and in other countries. All other logos, trademarks, registered trademarks or service marks used herein are the property of their respective holders. X5 19061 10/10 B/nxContactSiemens PLM Software Americas 800 498 5351Europe 44 (0) 1276 702000Asia-Pacific 852 2230 3333Features•U nique and powerful geometry manipulation and abstraction tools•F ully associative CAD modeling tool set for feature removal and idealization •A utomatic CAE abstraction tools that further refine the geometry to ensure high quality mesh generation with limited user interaction •C omplete set of meshing, material, load and constraint definitions for supporting a wide variety of solutions •G eometry cleanup and analysis model associated to the base design, thereby enabling prior geometry edits and the analysis model to automatically update as the base design changes •M ulti-CAD support that maintains analysis model associativity with imported third-party geometry•S ynchronous technology for fast, intuitive designchanges without the need toknow a part’s design history。

NX模块功能说明1. NX/Gateway（NX入口模块）NX入口模块是连接NX软件所有其他模块的基本框架，是启动NX软件时运行的第一个模块，该模块为NX软件的其他各模块运行提供了底层的统一数据库支持和一个窗口化的图形交互环境，执行包括打开、创建、存储NX模型、屏幕布局、视图定义、模型显示、消隐、着色、放大、旋转、模型漫游、图层管理、绘图输出、绘图机队列管理、模块使用权浮动管理等关键功能，同时该模块还包括以下功能：l 包括表达式查询、特征查询、模型信息查询、坐标查询、距离测量、曲线曲率分析、曲面光顺分析、实体物理特性自动计算功能在内的对象信息查询和分析功能；l 用于定义标准化系列零件族的电子表格功能；l 快速常用功能弹出菜单、可用户化定义热键和主题相关自动查找联机帮助等，方便用户学习和使用的辅助功能；l 按可用于互联网主页的图片文件格式生成NX零件或装配模型的图片文件，这些格式包括：CGM、VRML、TIFF、MPEG、GIF和JPEG；l 输入、输出CGM、NX/Parasolid等格式几何数据；l Macro宏命令自动记录、回放功能；l User Tools用户自定义图形菜单功能，使用户可以快速访问其常用功能或二次开发的功能。

2. TcEng - NX Manager NX（TcEng - NX Manager NX管理器）NX Manager NX管理器是为了NX提供的工作组管理解决方案。

NX Manager提供了入门级的安全库，以控制和保护NX CAD数据。

Teamcenter Engineering（工程协同）将环境扩展到管理CAD数据之外，无论数据来自Ideas NX Series、NX、Solid Edge、CAM和CAE系统或对手的CAD产品，系统都通过工作流管理、变更管理、管理产品配置等特性为客户提供重要的价值。

3. TcEng - CAD Manager Server（TcEng - CAD Manager Server管理器）CAD Manager Server管理器的license不仅可以使CAD客户端可以管理CAD数据，还提供了一系列入门级的Teamcenter Engineering的功能，例如工作空间管理，通用外壳、系统管理员，与数据库的连接等。

第二章打印机控制面板控制面板是打印机的控制部分，由五个按键和十个指示灯组成。

通过这些按键的控制，组合键控制，以及加上三种状态（联机，脱机，按键开机）的组合，可以完成许多复杂的功能控制。

打印机的控制面板上有五个按键，从左到右为：【打印方式】、【复写】、【装纸/出纸/退纸】、【跳行】、【联机】。

2-1脱机状态下的面板功能操作脱机状态下面板单键功能可参照下图：1、联机按键与脱机状态联机按键为一开关型按键，即：按一次为脱机，再按一次为联机。

联机状态时(联机指示灯亮)，打印机将接收从主机发过来的数据,并正常打印。

脱机状态时(联机指示灯灭)，停止打印并向主机发送一个信号表示不接收数据。

如果打印纸已装好，则开机即处于联机状态。

如果纸未装好，则处于脱机状态，缺纸指示灯亮。

当装上打印纸后，打印机即恢复联机状态。

一般面板操作必须在脱机状态下执行。

2、跳行置打印机脱机状态按一次【跳行】键，即正向走纸一行。

若按着不放，将连续正向走纸,直到松开键为止。

3、装纸/出纸/退纸置打印机脱机状态在打印机缺纸的情况下，按【装纸/出纸/退纸】键，打印机将装入打印纸。

在打印机装有链式纸的情况下，按【装纸/出纸/退纸】键，打印机将向后退出链式打印纸。

在打印机装有单页纸的情况下，按【装纸/出纸/退纸】键，打印机将从正面退出打印纸。

1、自检按下【联机】键同时开机，打印机则进行短自检，打印其ROM 的版本号及当前EDS设置。

按下【跳行】键同时开机，打印机则进行长自检，打印英文及汉字库的所有字符。

2、十六进制打印在此模式下，打印机接收的数据均以十六进制格式打印，而不按实际处理效果打印，这对于分析打印中出现的问题是非常有用的。

按下【装纸/出纸/退纸】键同时开机，听到一声鸣响后，打印机则进入十六进制打印状态。

当结束打印时，必须置打印机为脱机，才会打印出最后一行。

3、打印方式锁定按下【打印方式】键同时开机，打印机的打印方式将被锁定在面板所表示的状态，而且不会被打印机所接受的命令所改变。

N-NCS网络图形显示控制工作站用户手册第1章综合信息1.1关于本手册1.1.1信息、注意、警告手册中包含信息、注意和警告以提醒读者相关内容，各项含义如下：信息：指提供的与内容相关的信息，一般做补充说明。

注意：指容易忽视的地方，但不会导致严重的后果。

警告：指错误操作或忽视的后果比较严重，一般会导致损坏。

1.2系统概述1.2.1功能概述N-NCS是功能强大的基于Windows的网络图形显示控制工作站，用于消防报警控制器网络的管理和控制。

该图形工作站和控制器的连接方式可以是直接连接或通过网络连接。

和以往的产品相比较，N-NCS在易操作性方面作了很大的改进，同时增加了一些更实用的功能。

其主要功能如下：•树形的平面图和设备图，图层和设备之间的关系简单清晰；•集成的图形编辑功能；•支持多种语言，并且可动态切换；•提供项目管理功能，多人可同时对同一个项目进行图形/图层设置操作，大大提高了工作效率；•提供了对N-VFT和N-NCS项目导入的功能，可以直接由N-VFT项目导入有关设备的相关信息，尤其是描述信息，避免了无谓的重复工作；•支持拖放式图标布点操作，并且每个图标大小可以单独调整，支持用户自定义图标；•自动网络节点检测；•同时支持图形和文字报警功能；•支持用户分级操作管理功能；•支持对设备的在线控制，包括状态查询、屏蔽或恢复、启动或停止以及报警测试等。

1.3PC配置要求N-NCS软件需要运行在Windows 2000 Professional SP2或者Windows XP Professional SP1以上的操作系统，显示器的分辨率应至少为1024 x 768，并具备一个9针的RS-232C串行接口用于和控制器或网卡的连接。

•对Windows 2000操作系统，需要安装.NET FRAMEWORK和MDAC；对Windows XP操作系统，只需要安装.NET FRAMEWORK。

具体的安装方法参见如下。

XX集团XX事业部研发NX专用工具操作指导书V1版XX集团XX事业部研发中心 Lyntangkl@2014-2-19目录目录 (2)1.系统安装 (4)1.1适用版本 (4)1.2先决条件 (4)1.3安装前注意事项 (4)1.4安装步骤 (4)2.模板应用 (5)2.1启动NX界面变化 (5)2.2不出现“XX工具”原因及解决方案 (6)2.3选择新建按钮界面变化 (6)2.4进入建模环境界面变化 (7)2.5零件二维图模板应用 (7)2.5.1多图纸页二维模板的应用 (9)2.6装配图模板应用 (9)3.常用工具 (10)3.1对称块 (10)3.2铝材设计 (10)3.3底脚设计 (11)3.4线棒连接件设计 (11)3.5更新日期 (12)3.6打开计算器 (12)3.7标准化图层类别 (12)3.8部分重用库零件 (13)4.制图工具 (13)4.1文件属性的添加与修改 (13)4.2属性同步工具的使用 (14)4.3替换模板工具的使用 (15)4.4组件出图自动符号标注 (16)4.5明细表重排序 (16)4.7关键质量控制尺寸符号的输入 (18)4.8汉字数字英文字母混输入字体难看的解决方法 (18)4.9带圈字母符号的输入 (19)4.10标题栏比例自动更新的实现方法 (19)5.此次模板其它更新内容 (20)5.1建模模块 (20)5.2草图模块 (20)5.3制图模块 (21)6.自定义模板方法 (21)6.1 建模模板 (21)6.2制图模板 (21)6.3默认密度 (21)7.如何将制图模板加入资源板 (22)8.更改模板默认人员名单 (22)8.1简单更改方法 (22)8.2完全更改方法 (23)9.实例 (23)9.1部件实例 (23)9.2装配实例 (26)9.3单部件多零件拆分成装配的思路 (26)9.3.1非参零件 (26)9.3.2有参零件 (26)1.系统安装1.1适用版本NX8.5.0.23及以上版本1.2先决条件电脑上已经正确安装了NX8.5版1.3安装前注意事项1）请先确认电脑上环境变量已经指向NX8.5，尤其安装多个版本NX时，此项尤为重要；在计算机上点右键→属性→高级→环境变量查看；（WIN7系统为：计算机上点右键→属性→高级系统设置→高级→环境变量）2）已经安装NX8.5版并且有自己习惯界面风格的用户，安装前，请自行备份自己的用户角色文件；可以不备份快捷键，NX8.5版新增的功能已经让用户角色与快捷键绑定在一起了。

三星NX系列常用编程手册一．编程步骤1．开启编程2．输入程序代码3．修改相应的程序二．程序内容1、开启编程（MMC 20）按完TRANSFER键输入20后再输入程序密码（初始为4321），然后选择1（ENABLE）再按TRANSFER键就开启了系统编程。

例：操作步骤显示按TRANSFER PROGRAM CODE：代码20 PASSCODR：密码4321 DISABLE1 ENABLETRANSFER Tue,14 Oct 03:102、弹性编号（MMC 70）进入该项后，按MSG键选择修改项目：分机号码(STN:201-2XX)、分机组号(SGR:500-519)、中继线代码(TRK:701-7XX)、中继线组号(TGR:9,80-89)、功能代码。

再按音量键找到要修改的号码，输入新的数字。

例：把210分机修改成299操作步骤显示按TRANSFER PROGRAM CODE：代码70 STN09：201：+ STN22：210：分机号299 STN22：210：299存储MESSAGE SGR01：500：3、服务等级（MMC 30）进入该项后，按音量键选择分机，再输入两位数，第一位数代表白天服务等级，第二位数代表晚上服务等级。

等级A------没有限制等级B------根据B等级禁止/允许码表等级C------根据C等级禁止/允许码表等级D------根据D等级禁止/允许码表等级E------根据E等级禁止/允许码表等级F------只能打分机等级A.B.C.D.E对应按键1.2.3.4、例如；把202该成AC等级操作步骤显示按TRSF PROGRAM CODE代码30 201；AA4.等级限制码（MMC 60）进入该项后，按音量键，再输入新的限制码，然后按重拨键输入0或者1来选择限制的等级。

0:无限制,1:限制.例：限制B等级，只需将B下面的0改成1就行了。

5、设置外线振铃（MMC 43)进入该项后，用音量键选择外线，用MSG键选择振铃模式和白天晚上的振铃分机或分机组。

Email:civing@三星SKP—NX系列进入系统编程：TRSF/ALM键+20+4321代码说明备注00 分机锁0：开锁、1：锁1、2：锁201 更改分机密码初始：123410 设置应答模式1：振铃、2：自动应答、3：声音提示11 呼叫转移全部转移（FORWARD ALL）遇忙转移（FORWARD BUSY）无应答转移（FORWARDNO ANSWER）无应答时间（NO ANSWER TIME）12 分机开/关自动保留（AUTO HOLD）自动计时器（AUTO TIMER）使用耳机（HEADSET MODE）热键盘（HOT KEYPAD）按键音（KEY TONE）振铃优先（RING PREFERENCE）13 振铃频率1—4：频率1—414 分机名称15 日期/时间显示1：24小时西方时间星期、日、月……2：12小时西方时间星期……3：24小时东方时间……4：12小时东方时间……16 附加模块功能17 设置个别速拨每个分机有20个，在30位以内20 设置编程模式管理级的编程范围。

（不允许）21 更改密码管理级：1234、技术级：432122 设置用户开/关背景音乐（BGM）开免打扰（DND）开门口机（DOOR）开寻线（HUNT）关麦克风（MIKE）开使用寻呼（PAGE USE）开接收寻呼（PAGE RECEIVE）开计费打印（SMDR）开23 设置内部寻呼区域0：无分区1—4：分区1—424 设置插入0：不能插入（NO BARGE—IN）通话时与分机等级无关均不允许。

1：有提示（WITH TONE）插入时给用户提示音，显示电话处于被插入。

2：无提示（WITHOUT TONE）允许插入，无提示音也不显示提示。

00：NN（不能插入/允许插入）代码说明备注01：NY（不能插入/不允许插入）10：YN（可以插入/允许插入）11：YY（可以插入/不允许插入）25 设置热线号码表示提机指定的电话振铃，外线还在16+速拨码26 分机叫醒提示DAY ALM（一次叫醒）DAILY ALM（每天定时叫醒）27 缺席信息28 通话中断功能0：NO DISC（不执行通话中断功能）1：OUT ONLY（仅执行外部通话功能）2：IN ONLY（仅执行呼叫分机功能）3：BOTH（执行所有通话功能）30 分机通话等级1：A（没有限制）2—5：B—E（编制的禁止/允许码表）6：F只能打内线31 分机对中继线的用途00：NN（既不能拨出又不能应答）01：NY（不能拨出但能应答）10：YN（能拨出但不能应答）11：YY（即能拨出又能应答）32 设置分机用途0：N（不能内部通话）1：Y（可以内部通话）33 设置门铃振铃一个分机：白天—500、夜间—500分机组：白天—500、夜间—50034 设置代接组 GPCO（所有分机）GPC1—GOC9（无）35 设置分机组编程22中的寻线是相关程序1：SEQUENTIAL（顺序接通）：分机组所列第一个空闲分机振铃，如果此分机忙则下个空闲分机振铃。

Legend•Standard product capability#Part of CAD prerequisite for this packageP Available from a Siemens PLM Software partnerA Available add-on capability from Siemens PLM Software A*Available add-on to NX ®Advanced FEM.Included in NX Advanced SimulationNX Digital Simulation:Product capabilitiesNX/ugsSiemens PLM Software MotionAssociation to part and assembly geometry##Basic motion in assembly task ##•Convert assembly constraints to joints•Mechanical and primitive joints •Joint couplers(gears,rack and pinion etc.)•Kinematic constraints •Motion drivers •Applied forces •Joint Friction •Initial conditions•Spring/damper and bushings •2D and 3D body contact •General function operators •Driver control througharticulation and spreadsheet •Static equilibrium •XY graph plotting •Design packaging tools•Kinematic and dynamic solutions •Multiple load case support •Integrated postprocessor •Load transfer to FEA ••Mutiple output formats (JT,VRML,animation movies,etc.)•N X 5D e s i g n S i m u l a t i o nN X 5A d v a n c e d F E M (M a c h 2)N X 5M o t i o n S i m u l a t i o nN X 5M o t i o n S i m u l a t i o nN X 5D e s i g n S i m u l a t i o nN X 5A d v a n c e d F E M (M a c h 2)Geometry modelingGeometry modeling##•Parasolid ®geometry kernal ##•Parametric solid and surface modeling##•Feature modeling##•CAD assembly modeling##•Assembly structure creation ##•Interpart relationship ##•Configurations##•CAD interfaces##•Neutral geometry transfer IGES,STEP,JT,Parasolid ##•Direct geometry transfer Catia V4,Catia V5,Pro/EPPPCAE process and data management Teamcenter ®integration •••OpennessCAD parameter access •••Recordable session file •••Programming/debugging session files•••Full functionality access via API •••Integrated BASIC prog.env.w/debugging •••HTML•••Knowledge Fusion •••WAVE •#•User interfaceUser defined templates•••Customizable menus,toolbars and user commands •••Smart selection•Support external plug-in apps in UI•••Interactive (no-click)query of model/results•••Model tree with context sensitive access to functionality•••N X 5D e s i g n S i m u l a t i o nN X 5A d v a n c e d F E M (M a c h 2)N X 5D e s i g n S i m u l a t i o nN X 5A d v a n c e d F E M (M a c h 2)FE model building Geometry defeature tools –topologydiagnosis,geometry repair,CAD featuresuppression,stitch surface,remove hole/fillet,partition••Non-manifold topology generation for volumes•CAE topology•CAE geometry –creation and deletion,mid-surfacing (constant and variable thicknesses)•Automatic topology abstraction –abstraction control,auto stitch geometry,auto merge small regions,auto pinch••Manual topology modification tools•Meshing••0D,1D,and 2D elements •2D mapped meshing •3D elements••Automatic meshing asst.–geometric abstraction and mesh generation in one tool/step ••Batch meshing •Transition meshing•Manual meshing tools –sweeping,revolve,surface coating,interactive controls,etc.•Automatic meshing controls –local element sizing,curvature control•General modeling tools••Axi-symmetric meshing•Mesh display and control –display filters••Material property creation and management –isotropic,anisotropic,orthotropic,linear,nonlinear,thermal,etc.••Mass property calculations •Load summation•Physical property creation and management ••Mesh quality checks –coincident nodes,free edge checks,element shape checks,etc.••FE grouping –by association to geometry,bc’s,material,etc.)•FE collectors and sets •FE append•FEM on assembly••FE model on CAD assembly••Beam modeling•Model update from CAD••FEM model update based on geometry change ••FEM model update based on assembly change••FE model buildingBoundary conditions••Application methods ••On geometry••Local coordinate system ••On FE entities •Friction definition •Time variation•Constraints –statics,dynamics,thermal,symmetric,contact,etc.••Structural loads••Structural thermal –flux,radiation,generation••Advanced thermal –convection,temperature –linear and nonlinear,simple radiation,thermal coupling,adv.radiation•Flow –bc’s,flow surface/blockage/screen definition,fluid domain definition •Axi-symmetric boundary conditions •Automatic contact detection and setup ••Automated load transfer •Laminate composites ASolution setupStructural linearStatic and buckling analysis••Structural linear dynamicsNormal modes••Direct frequency response •Direct transient response •Modal frequency response •Modal transient response•Structural nonlinearStatic,transient,geometric,elastic/plastic material ••Implicit solver •Explicit solver•Structural contact and connection modelingSurface-to-surface contact ••Node-to-node contact •Rigid elements•Constraint elements •Glue connection••ThermalSteady-state•Diurnal solar heatingA Rigid-body transient motion A Transient A Conduction A Convection A RadiationAN X 5D e s i g n S i m u l a t i o nN X 5A d v a n c e d F E M (M a c h 2)N X 5D e s i g n S i m u l a t i o nN X 5A d v a n c e d F E M (M a c h 2)Solution setup Fluid dynamicsSteady-state/transient flow A Incompressible flow A Compressible flow A Laminar/turbulent flow A Internal/external flow A Motion-induced flowA Multiple rotational frames of reference A Forced and natural convectionA Conjugate and radiation heat transferACoupled physicsThermal-structural •A Fluid-thermalA FE data export••Abaqus (inp)A Ansys A Nastran•A*FE data import••Abaqus (fil,inp)A Ansys (rst)A Nastran (op2,dat)•A*NX I-deas ®(unv,afu,bun)•FE results visualizationContour displays (continuous or iso-lines)••Vector displays ••Isosurface displays ••Cutting planes••Advanced lighting control ••Animations••Complex dynamic response results •Multiple viewports••Probing of results on nodes••Postprocessing data table w/sort/criteria ••Results listings••Transparency display ••Local coordinate system ••XY graphing•Synchronized contour and XY plotting displays •Annotated graphs•Output (JT,VMRL,postscript,tif,etc.)••Meta solutionDurability••FE parameter optimization••Dynamic forced response simulation A Laminate composites analysisAN X N a s t r a nN X M u l t i -p h y s i c sN X N a s t r a nN X M u l t i -p h y s i c sSolutions Structural linearStatic •Modal •Buckling•Structural nonlinearStatic •Transient •Geometric•Elastic/plastic material •Hyperelastic material •Gasket material •Nonlinear buckling •Implicit solver •Explicit solver•Structural contact and connection modelingSurface-to-surface contact •Node-to-node contact •Spot welds •Rigid elements•Constraint elements •Glue connection•Structural linear dynamicsModal transient •Modal frequency •Direct transient •Direct frequency •Shock spectrum •Random vibration •Rotor dynamics•ThermalSteady-state,transient••Temperature-dependent properties ••Nonlinear thermal contact•Thermal couplings (welded,bolted,bonded)•Disjoint meshes support in assembly modeling•Surface-to-surface radiative heat transfer ••Hemicube-based view factor calculation •Radiation in participating media •Radiation enclosures•Environmental radiative heating •Orbital modeling and analysis •Specular,transmissive surfaces ••Convection••Forced and natural convection correlations •Hydraulic fluid networks •Joule heating •Phase change•Heater and thermostat modeling ••Material charring and ablation •Transient rigid body motion •Peltier cooler modeling•Heat sink models and modeler•PCB modeler/xchange (ECAD/MCAD)ASolutionsFluid dynamicsSteady-state/transient flow •Incompressible flow •Compressible flow •Laminar/turbulent flow•Forced and natural convection•Conjugate and radiation heat transfer •Porous media modeling •Nonlinear fluid properties •Humidity and condensation•Automatic fluid domain and boundary layer meshing•Flow induced by rigid body motion •Automated connection of disjoint fluid meshes •Fan models•Embedded 2D/3D flow blockages •General scalars and particle tracking •Non-Newtonian fluids•Multiple rotating frames-of-reference•Coupled physicsAcoustics•Acoustics-structural •Subsonic aeroelastic •Supersonic aeroelastic •Fluid-thermal•Thermal-structural ••Fluid-structural•Interface to multi-body dynamics (ADAMS and RecurDyn)•SolversIterative ••Sparse direct•Shared memory processing •Distributed memory processing •(1)•Optimization ••Cyclic symmetry ••Axi-symmetric••FE-based finite volume solver•Advanced capabilitySuperelement/substructuring ••Solution customization (DMAP)•Solution customization (user subroutine)•(1)Available in Enterprise versions only.Note:The NX Nastran and NX Multi-Physics solver suites are comprised of multiple products.Please check the individual product fact sheets to determine the simulation capabilities contained in each core bundle or add-on module.ContactSiemens PLM SoftwareAmericas8004985351Europe+44(0)1276702000Asia-Pacific852********/plm©2007.Siemens Product Lifecycle Management Software Inc.All rights reserved.Siemens and the Siemens logo are registered trademarks of Siemens AG. Teamcenter,NX,Solid Edge,Tecnomatix,Parasolid,Femap,I-deas,JT,UGS Velocity Series,Geolus and the Signs of Innovation trade dress are trademarks or registered trademarks of Siemens Product Lifecycle Management Software Inc.or its subsidiaries in the United States and in other countries.All other logos,trademarks,registered trademarks or service marks used herein are the property of their respective holders.9/07。

L-A1.0软件使用说明为了能够使您尽享本系统操作的方便快捷，请您详细阅读本说明：一、系统安装说明：打开您的电脑，启动操作系统之后，将本系统光盘放入光驱，打开我的电脑，打开光盘，会显示带有软件名称的文件夹，双击打开该文件夹，点击运行SETUP文件，您就可以根据中文提示安装本系统了。

注：如软件安装过程中出现如下提示，请直接点击取消按钮。

此操作不影响软件的正常安装使用。

若您使用的是通过USB口传输的巡检器，请您在安装完本软件系统后再安装USB驱动，详细的安装程序请参考USB驱动安装说明。

二、软件操作说明：（一）软件登录、注销1、登录双击巡更管理系统图标，软件起动后，会出现以下登录界面，选择权限，然后输入相对应的密码，系统管理员初始密码为333；操作员密码为222；浏览者密码为111。

只要输入正确，便可登录成功；登录界面如下图：登录成功后进入软件主窗口，提示选择您所使用的产品型号，如图：请在此选择用户名请在此输入密码2、注销操作员的注销，即更换操作员，使新的操作员用新的权限登录。

注销方法（如下图），选择菜单“操作员 用户注销”来实现。

点击此处即可（二）资源设置资源设置分五部分组成：人员钮设置、地点钮设置、事件设置、棒号设置、系统设置，每一部分的设置如下：1、系统设置：在第一次进入软件后，应首先对系统进行设置。

系统设置分为基本信息写入和权限用户密码管理。

如下图，在此可输入公司名称、选择的串口号，并可在此对权限密码进行修改。

修改完毕点击保存即可。

在此修改密码注：巡检器与电脑是用串口进行数据传输的，默认使用的串口号为COM1，巡检器与电脑是用USB 口传输的，默认使用的串口号为COM3（具体情况可到设备管理器中查询），在系统设置完毕后请重新登录巡更系统。

2、棒号设置：在使用巡检器之前需要将巡检器的棒号输入到软件中，以便识别。

点击“资源设置—>棒号设置”。

将巡检器与计算机连接好，并且将巡检器打开。

点击采集数据，会出现如下图所示：1140为该棒号码。

NX软件系统客户化定制说明和使用指南文档基本信息项目代号：PLM2@ＸＸＸ撰稿人：文档发布信息发自日期电话/传真接收者行动* 截止日期电话/传真* 行动种类：批准，审核，告知，存档，执行，参加会议，其他（请具体说明）文档修改记录版本号日期作者/修订者描述文件名目录1概述 (4)2Ugii_env.dat的客户化定制 (5)3用户默认设置 (6)3.1用户默认设置客户化的过程 (6)3.2用户默认设置客户化的内容 (7)3.2.1基本环境 (7)3.2.2建模 (9)3.2.3草图生成器 (10)3.2.4曲线 (10)3.2.5装配 (10)3.2.6制图 (10)4模板文件的创建 (27)4.1建模装配模板的创建。

(27)4.2零件图模板文件的创建 (30)4.3装配图模板文件的创建 (38)4.4模板文件的注册 (38)5用户角色的定制 (40)6NX软件系统客户化环境的配置 (42)7设计与制图模板的使用说明 (45)7.1在新建文件中使用模板 (45)7.2在资源管理器中使用模板 (49)8DraftWizard制图工具使用说明 (51)9其它应用说明 (60)9.1国标库的使用 (60)9.2技术条件库的应用 (61)1 概述本文档说明如何基于ＸＸＸ集团的特点而对NX 软件进行客户化定制以及对定制的NX 软件环境如何使用。

NX 软件客户化定制的依据是针对ＸＸＸ设备集团的NX 软件应用基础规范，在此主要包括：● NX 三维建模规范。

● NX 装配建模规范。

●NX 二维工程制图规范。

NX 软件系统客户化定制的内容包括： ● NX 环境变量文件ugii_env.dat 的客户化定制。

● NX 用户默认设置的客户化定制。

● 模板文件的创建。

●用户角色的定制。

NX 软件系统客户化定制的流程如下：● NX 客户化环境的配置。

● NX 设计与制图模板的使用说明。

● DraftWizard 制图工具使用说明。

NXT QD063-01购入后如要转卖给第三方，请务必事先与本公司联系。

NXT使用说明书-OF工作头补充版-QD063-01著作权本手册的著作权属于富士机械制造株式会社所有。

未经本公司同意，严禁擅自复制或转载本手册的部分或全部内容。

商标保证和责任本公司对由于下述原因而产生的结果不承担任何责任：·使用第三方零部件。

·使用非纯正Fuji零部件。

·用户的不正确设置。

·Fuji设备使用不当。

注意事项·本手册的内容在没有事先预告的情况下，有进行变更的可能性。

·本手册在编写过程中力求精益求精，如若发现错误之处敬请与本公司联系。

·本公司对因使用本手册所产生的结果及其所造成的影响，不承担任何责任。

INS-NXTOF-1.0S目录目录Vol.1机械篇1. NXT构成部件 (1)1.1 贴装工作头的构成部件 (1)1.2 元件相机／元件相机光源的构成部件 (2)1.3 吸嘴更换器的构成部件 (3)2. 各部分的功能说明 (5)2.1 贴装工作头 (5)2.2 吸嘴更换器 (6)3. 传感器配置图 (7)3.1 关于I/O监视器软件 (7)3.2 贴装工作头传感器 (8)4. 基本操作 (9)4.1 在吸嘴置放台中放置吸嘴/吸爪 (9)4.1.1 吸嘴 (9)4.1.2 吸爪 (10)4.2 拆下工作头上的吸嘴/吸爪 (11)4.2.1 吸嘴的拆下 (11)4.2.2 吸爪的取出 (11)5. 预防保养 (13)5.1 作业一览表 (13)5.2 每周(160小时)的操作 (14)5.2.1 吸嘴置放台的吸嘴.吸爪收存孔的清扫 (14)5.2.2 元件相机的标记部的清扫 (15)5.3 1个月(700小时)的操作 (16)5.3.1 吸嘴真空过滤器的清扫 (16)5.4 每12000小时的操作 (17)5.4.1 贴装工作头的加油 (17)6. 损耗品的更换 (19)6.1 贴装工作头电池 (19)6.1.1 更换周期 (19)目录INS-NXTOF-1.0S6.1.2 更换方法 (19)6.2 吸嘴置放台的荧光贴纸 (20)6.2.1 更换周期 (20)6.2.2 更换方法 (20)Vol.2程序篇7. Job 编辑器 (21)7.1 引言 (21)7.2 NXT 机器的设置步骤 (22)7.2.1 NXT机器OF工作头项目的配置 (22)7.2.2 料盘单元-L，供料托架的自动退避 (24)8. 元件数据设置 (25)8.1 引言 (25)8.2 外形数据 (26)8.2.1 外形信息标签页 (26)8.2.2 外形工序标签页 (26)8.2.3 外形信息的明细 (27)8.2.4 外形工序的明细 (27)Vol.1机械篇INS-NXTOF-1.0S 1.NXT构成部件1.NXT构成部件这里叙述OF工作头的相关单元的插图和名称。

NX ®software delivers advanced automation,process simulation and integrated technology to improve productivity and ensure first-time quality in tooling development./plmThe demand for speedT ool design and manufactureis on the critical path for the development of many products. The demand for muchshorter product delivery times,faster turnaround on design enhancements,lower supplier costs and increasing global competition have dramatic impacts on the toolmaking business.The need for skillsThe complexity of tool design and manufacture traditionally requires highly skilled people applying knowledge learned over years of practice.These resources are difficult to obtain or replace. Companies can gain competitive advantage by effectively leveraging specialized,best-practice knowledge in tooling development.Improving qualityQuality of the end product depends directly on high-quality tooling.T o achieve quality,tool designers and manufacturers must integrate their work with the product development effort.By dynamically linking tooling designs with product designs,companies can automatically propagate design changes to production tooling, achieving first-time quality. Reducing wasteT o achieve speed and cost objectives,tool designers and manufacturers must eliminate wasted time,effort and resources–not only between product development and tooling development,but also throughout the tooling design,optimization and manufacturing process.T ransforming the processNX from Siemens PLM Softwareis a next-generation solutionthat transforms the tooling development processwith advanced automation. Knowledge-driven applications for tooling design and manufacturing are fully integrated with the overall product development process in a managed environment that improves productivity, accelerates the process, reduces waste and cost and improves quality.A complete solutionWith NX,tool designers can share the same software environment as product and part designers and NC programmers.This enables the overall process to be faster and more efficient.Changes can be implemented more easily and with fewer errors.Wasteful re-entry of data is eliminated and multiple users can share the same 3D data.The tool designer,NC programmer and manufacturing engineer can begin work even before the product design is complete.Highly automated tool designNX offers a powerful set of automated applications for mold and die design.These applications enable the user to complete the task of moving from part design to finished tool design in far less time than with the use of traditional CAD applications.Maximizing productivity Mold and die tool design in NX is driven by the knowledge of experienced designers built into the functions.The applications guide the user through each step of the process,multiplying the capability and maximizing the productivity of every tool designer.Based on thepremier foundation The NX applications for injection mold,progressive dies and transfer dies are built on the comprehensive NX design software.This means that the very best in modeling,assembly modeling and drafting technology is providing the foundation for these high-performance applications.Delivering business efficiencyNX T ooling delivers a much higher level of business efficiency,leading to reduced cost,increased activity and higher margins.It helps achieve these results by developing effective tool designs faster and with fewer errors and corrections.Working with other systems At the core of NX is the Siemens Parasolid ®software modeling foundation,an industry standard in 3D modeling technology developed by Siemensw PLM Software and widely used inCAD/CAM and CAE applications.This foundation provides unmatched compatibility for working with 3D data.In addition to reading Parasolid geometry,NX can use awide range of data from other CAD systems in their native formats and translate a variety of other formats with data conversion tools.In fact,NX tool design applications can work with almost any type of 3D input data.NX makes it easy to build 3D models from 2D drawing data.12At each stage the power of NX adds value,making the task easier,the mold better and the job faster.Based on the defined parting surface,NX creates mold cores and cavities automatically using the part geometry.NX automates parting surface definition and maintains associativity of the parting surface even when the part model changes.Stepping through the process with NX Mold WizardNX Mold Wizard applies Process Wizard technology to optimize the mold design process,delivering levels of productivity that dramatically outperform traditional CAD software.Providing a structured workflow based on expert best practices,automation of mold-specific design tasks and libraries of standard mold components,NX Mold Wizard provides a step-by-step process that promotes the most efficient workflow,while integrating complex elements of design technology into automated sequences.Mold Wizard is built on NX,the industry’s most powerful product development system.As a result,the tools for working with part geometry,creating parting surfaces and enabling automatic updates are among the most robust available.Less capable systems may handle basic parts and molds,but Mold Wizard can tackle the most demanding tasks.Mold design begins with the product model.With NX,the mold designer can import 3D part data from other systems,open many native format CAD files or select parts designed in NX.NX includes tools for evaluating part designs for moldability.With these analysis aids,mold designers can assess and validate part models and compare differences when the part design changes.3cooling and Some key capabilities in NX Mold Wizard•Full NX part design capability for “one-stop”customers •Comprehensive data import,with translators or native format read to bring in third-party design files •Manufacturability checking for molded parts•Advanced parting tools driven by the power of NX •Automatic core and cavity insert creation•Model swap for automatic updates,compare new versions •Shrinkage calculation and adjustment •Mold base and standard part catalogs •Ejector pin post,sliders and lifters •Cooling layout,tubes and fittings•Automatic bill of material (BOM)creation •Automatic drawing creation where requiredP R O V E N R E S U LT S“Siemens’NX is one of the most established and reliable 3D CAD/CAM solutions available today.It helps us make changes faster and reduce errors.”Shen Zhi GangAssistant Engineering Manager Omni MoldNX Mold Wizard includes a structured series of commands for all tasks in the mold design process.Can the part be molded?The sooner a design is checked for manufacturability the sooner problems can be fixed.NX design validation tools enable the user to analyze the part and automatically obtain information about draft angles,undercut areas and sharp corners–elements that would make the part impossible or difficult to mold.NX can also provide the designer with an easy visual check of core and cavity sides that doesn’t require any special analysis or knowledge of mold design.By catching problems early,designers can avoid the wasted time and effort that occurs when the tooling department or supplier discovers that a part can’t be moldedas designed.Molded part validation•Wall thickness check•Draft angle display•Plastic feature check(corner radius,feature distance,etc.)•Find manufacturing features•Colored region-based parting line definitionNX validates molded parts by checking wall thickness.Results are displayed in easily interpreted color-coded areas on the part model.NX ensures part and tooling design quality by evaluating draft angles, undercuts and crossover faces that affect moldability.Toward Six SigmaUsing NX Mold Wizard,The T ech Group not only achieved a20to25percent gain in productivity but also achieved a50to75percent gain in quality.The company believes that NX Mold Wizard’s contribution to automation,accuracy and consistency will help them achieve Six Sigma goals.P R O V E N R E S U LT S45Design and machine the mold in NXNot only does NX offer Mold Wizard to design the completemold assembly,NX also offers an excellent NC programming solution to set up the machining of mold faces and mold structure components.Feature data added to the model by Mold Wizard can be read directly by NX Machining.This makes the process of transferring information to the NC programmer much faster and more accurate.When part and tool revisions occur,it’s easy to see the areaschanged and to update toolpaths.Because NX includes both design and manufacturing capabilities,the NX programmer can begin before the mold design is completed.High-speed machining in NXNX Machining offers excellent NC toolpath generation for mold and die manufacture.Key capabilities are provided for high-speed machining or hard milling,applying special toolpaths and optimum cutting parameters.These allow users to maximize the productivity of their high-performance machine tools.Automated feature-based programming is ideal for mold base machining.Feature-based hole-making automatically recognizes holes in mold plates,sorts them by size and type and creates optimized toolpaths that minimize tool changes and cycle time.>All in NX>V alue added in mold design,multiplied in manufactureNX offers advanced toolpath technologies for mold and die machining,including automatically invoked trochoidaltoolpaths that effectively reduce tool loading.6NX Progressive Die Wizard maximizes productivity throughintelligent automation of industry-specific processes.Beginning with the receipt of the customer’s sheet metal design,NX Progressive Die Wizard guides the user through all of the stages required to construct a progressive die,streamlining complex processes and automating tedious tasks for remarkable time savings.Progressive Die Wizard functions for blank creation,blank layout,scrap design and strip layout support a range of progressive die designs including multiple sheet metal parts,multiple rows,multiple strip layouts and custom strip layouts.NX automatically unfolds 3D part models based on straight break features to create a formable blank.NX Progressive Die Wizard includes tools for nesting part blanks on sheet stock to minimize scrap.Die designers can quickly develop a skeleton strip with automated tools that re-bend the blank models to simulate the forming operation at each die station.NX Progressive Die Wizard also calculates force center and process force.Phase 1:Process designProgressive design in NX begins with a 3D part model.You can import CAD models from other systems,create a part model in NX,or select an NX model.NX automatically recognizes sheet metal features in imported models.NX Progressive Die Wizard captures expert best practices and is highlycustomizable to your own preferred and proven methods.7P R O V E N R E S U LT S8P R O V E N R E S U LT SKey capabilities in NX Progressive Die Wizard •Die design project initialization•Automated sheet metal feature recognition •Blank shape generator,includes formed shapes •Blank layout •Scrap design•Strip layout and 3D operation simulation •Force center calculation •Die base design •Die preference setting •Punch/die insert design •Standard part library •Relief design •Pocket creation •BOM output•Assembly drawing creation •View managerNX Machining for die insert and structure machining NX offers robust milling programming with high-speed machining functions –ideal for fine finish on detailed dies in hard materials.Easy-to-use planar and cavity milling as well as automated hole making are productive tools for NX programming on die structures.“T o truly automate the design of progressive dies,you need two things:an intelligent wizard and highly advanced modeling technology.NX is the only software that has both elements.The competition doesn’t even come close.”Michael Molina II PresidentProgressive Design Technologies9NX offers the most powerful capabilities in geometric and large assembly modeling,making it ideal for all types of fixture design.Easy,fast updatesFull associativity between the product model and the fixture can ensure fast,accurate updates.When the fixture design is dynamically associated with the part or product model,the fixture model can be updated automatically if the design changes.SimulationEasy-to-use kinematic software can be employed to display and check mechanism motion.NX also offers a wide range of tools for stress analysis to help optimize structural plex configurationsUsing T eamcenter ®software extensions to the NX Managed Development Environment,tool designers can define,store and re-use an unlimited number of alternative fixture configurations.Automatic part positioningThe NX assembly mating conditions allow new or updated part of the same type to be positioned in the fixture automatically.Multiple arrangementsNX can display multiple arrangements of fixtures that have different conditions,for example,opened or closed positions.NX models of sand casting molds and associated equipment for automotive engine components.Welding fixture complete with clamps and welding guns for an automotive assembly.Image courtesy of J.S.McNamara Inc.Fixturing designed in NX for a complex part ready for tool paths to be generated in NX Machining.Large aerospace fixtures combine complex product shapes with large assemblies and human access considerations.10Siemens delivers a comprehensive solution for automotive dies –from sheet metal design,through stamping process design andoptimization,die face design,die structure design to a complete set of NC programming tools for die manufacturing.NX,in combination with T ecnomatix ®software and T eamcenter applications,addresses the complete die design,engineering and manufacturing workflow to improve process efficiency and part quality for automotive stamping.NX Die Engineering provides tools to determine the die operation across a complete press line.NX can produce a representation of the sheet metal for the draw,trim and flange elements of the die process.NX can interface to a number of analysis applications to check formability.Tecnomatix Stamping application allows thedesigner to simulate the intended operation of the press-line,individual press elements and inter-press handling equipment.Die face developmentFormability analysisInitial press line simulationImage from Dynaform,courtesy ETA SoftwareDie operation lineup–processDie machiningCasting pattern machiningcapability in die facehigh-speed machining.Process planning shop floor documents Die structure design1112The NX Managed Development Environment provides tooldesigners with the ability to access the right data at the right time for the right job.Single parts to complete assemblies can be loaded into NX,shared in real time with other users and kept under full revision control.This saves time looking for data,reduces errors caused by using the wrong data and makes it easier and faster to share data.The tool designer can access part designs,store tool and fixture designs in the NX Managed Development Environment.With comprehensive part and tooling data management,tool designers can quickly access part designs and store and re-use tool andfixture designs.A complete library of design and process knowledge promotes standardization through design re-use and reduces waste,errors and unnecessary re-work.Extensions to the managed development environment can offer comprehensive libraries for standard parts and subassemblies with powerful classification and search functions.The NX Managed Development Environment is built on T eamcenter technology and is fully compatible with T eamcenter Engineering andManufacturing.Product designerTool designerNC programmerManufacturingengineerThroughout its broad product application suite,NX leverages key attributes that help companies achieve business objectives of waste reduction,quality improvement,shorter cycle times and greater product innovation.These unique attributes directly support business process initiatives aimed at transforming product development:Managed development environmentNX solutions include fully integrated,synchronized management of all product data and process knowledge to transform product development with a structured collaborative environment.Unified product development solution Seamless integration of NX applications rapidly propagates changes of product and process information,replacing point solutions with a unified development system,from concept to manufacturing.Knowledge-driven automationWith NX,companies can apply product and process knowledge across all elements of product development to automate processes and maximize re-use.Simulation,validation and optimizationComprehensive simulation and validation tools in NX automatically check performance and manufacturability at every step of the development process for closed-loop,continuous,repeatable validation.System-based modelingNX structured conceptual models standardizedesign practices and allow rapid creation of variants,transforming development from component-based design to a systems engineering approach.The NXadvantage©2007.Siemens Product Lifecycle Management Software Inc.All rights reserved.Siemens and the Siemens logo are registered trademarks of Siemens AG.T eamcenter,NX,Solid Edge,T ecnomatix,Parasolid,Femap,I-deas,JT ,UGS Velocity Series,Geolus and the Signs of Innovation trade dress are trademarks or registered trademarks of Siemens Product Lifecycle Management Software Inc.or its subsidiaries in the United States and in other countries.All other logos,trademarks,registered trademarks or service marks used herein are the property of their respective holders.1110-W 19/07About Siemens PLM Software Siemens PLM Software,a division of Siemens Automation and Drives (A&D),is a leading global provider of product lifecycle management (PLM)software and services with 4.3million licensed seats and 47,000customers worldwide.Headquartered in Plano,T exas,Siemens PLM Software’s open enterprise solutions enable a world where organizations and their partners collaborate through Global Innovation Networks to deliver world-class products and services.For more information on Siemens PLM Software products and services,visit /plm.Division headquarters United StatesGranite Park One 5800Granite Parkway Suite 600Plano,TX 750249729873000Fax 9729873398Asia-PacificSuites 6804-8,68/F .,Central Plaza 18Harbour Road,WanChai Hong Kong 852********Fax 852********EuropeNorwich House Knoll Road Camberley,Surrey GU153SYUnited Kingdom 441276702000Fax 441276705150AmericasGranite Park One 5800Granite Parkway Suite 600Plano,TX 750248004985351Fax 9729873398Regions Siemens PLM Software leads to greater innovationThere is no single road to innovation,but there are signs you’re headed in the right direction.Leading innovators get to market faster ,manage compliance,optimize resources and achieve globalization.They’re also four times more likely to use PLM software to plan,define,build and support their products.Siemens PLM Software’s family of PLM solutions helps businesses establish Global Innovation Networks that transform their process of innovation.Drive your business to greater innovation and accelerate your growth.BE COMPLIANT GET OPTIMIZED GO GLOBALMOVE FASTER。

Attribute Tool 使用手册
目录
功能简介 (2)
用户界面 (2)
配置文件格式 (2)
错误处理 (3)
附录 (4)
功能简介
NX for China插件提供的属性填写工具使用户可以在一个对话框中方便的填写零件属性。

用户界面
菜单
对话框
用户在对话框中完成输入，如果零件中没有相应的属性，将自动生成，对于已有的属性进行属性值更新。

对话框中的中文属性名对应零件中的英文属性名，对应关系通过配置文件(PartAttribute.cfg)完成。

配置文件格式
缺省得配置是根据NX for China的零件模板中的零件属性设置。

文件一共9行，每行格式为“部件名称, PART_NAME”，中文和英文中间用逗号隔开，如图所示。

如果用户的零件有不同于此配置文件的属性，用户可以修改此配置文件。

此文件位于%UGII_BASE_DIR\LOCALIZATION\PRC\AttributeTool
错误处理
1．没有打开工作零件，提示信息如下
解决办法：请先打开工作零件
2．配置文件不存在，提示信息如下
解决办法：请将正确的PartAttribute.cfg 文件放在指定文件夹下
3．配置文件格式不对，提示信息如下
解决办法：请检查文件格式，文件定义见注意事项 配置文件格式4．文件路径名含中文，提示信息如下
解决办法：请确保所有文件夹名为英文
附录
此工具只用于中文NX环境，如果是英文环境，将报告以下信息。