三维参数化总布置设计系统

参数化三维辅助设计系统AM CP2CAD庄宗元(中国矿业大学机电工程学院　江苏省221008)徐永生(煤科总院唐山分院　河北省063012) 摘要　通过自生介质选煤系统计算机辅助设计AM CP2CAD,介绍基于A utoCAD的参数化三维辅助设计系统的开发方法。

关键词　参数化三维辅助设计　A utoCAD二次开发　自生介质选煤1　概　述在专业应用的计算机辅助设计系统中,图形的生成与输出是其重要的组成部分。

目前基于二维图形的处理技术得到了广泛的应用,但它主要解决手工绘图过程的自动化。

为了促进计算机辅助设计向智能化发展,在自生介质选煤系统计算机辅助设计开发中,借助A utoCAD R14的三维处理功能,进行了开发参数化三维辅助设计系统的尝试。

2　AM CP2CAD的设计要求自生介质选煤系统的选煤工艺流程相对稳定,供选择的设备的型号规格有限,设备在厂房中靠钢架支撑、立体布局。

用三维建模方式进行设计,使设备及钢架的空间布局一目了然,能较好地满足建立和输出设备安装图的要求。

3　三维设计模式的优点采用三维设计模式可以进一步发挥计算机的作用,其主要优点有:①设计直观:通过设置不同的视点或建立多个视窗,可以方便、直观地对设备进行空间定位,避免了由三维到二维的转换。

②易于修改:在一个视窗中对设备位置的调整或者对设备三维模型的修改都会在相关的视图中得到及时反映。

③管理简单:所需建立的模型数量少,可生成的视图数量不受限制,各视图之间的有机联系能得到保证,便于设备安装图的自动生成。

④观察方便:设计人员可以直接观察设备安装的三维模型,做到如临其境。

4　设备三维建模设备三维建模是开发三维辅助设计应用软件的基础,自生介质选煤系统的设备结构较为复杂,为减少工作量,针对选煤系统设计的重点在于正确表达安装关系、定位准确等特点,对设备模型按其外形进行简化。

简化后的模型分三类进行三维建模。

4.1　按照规格尺寸进行参数化建模:对于自生介质螺旋滚筒分选机、自生介质旋流器等外形类似的系列设备,采用L ISP语言编程、对话框输入参数,进行参数化建模。

VPDVANTAGE Plant Design System工场三维摆设设计治理系统PDMS AutoDraft培训手册目录AutoDRAFT (3)准备事情 (3)AutoCAD设置 (4)PDMS设置 (4)Drawing Editor (5)Drawing Editor东西 (6)Symbol Editor (7)Frame Editor (10)Iso图框 (12)AutoDRAFTAutoDRAFT是Pdms与AutoCAD的接口步伐，它可以将DRAFT和ISODRAFT生成的图纸转到AutoCAD步伐中，利用AutoCAD的画图东西对图纸进行修饰和编辑。

也可以将AutoCAD中的二维图形输入到DRAFT模块中作为模板使用。

AutoDRAFT包罗三个子系统：１．Drawing Editor,允许在AutoCAD中对PDMS图纸添加信息。

通过DXF格式互换数据文件。

２．Symbol Editor,将AutoCAD中的图形转成PDMS宏文件后，输入到DRAFT模块中作为Symbol Template。

３．Frame Editor,将AutoCAD中的图框转成PDMS宏文件后，输入到DRAFT模块中作为Backing sheet。

准备事情注意：PDMS的设置同样适用于pdms11.2,pdms11.3AutoCAD的设置同样适用于autocad13，autocad14。

AutoCAD设置以AutoCAD R2000为例：１．运行AutoCAD。

２．选择Tools>Options。

在Options窗口中选择Files属性页，打开Support File Search Path项。

３．使用Add和Browse按钮将cadcentre\pdms11.4目录中的三个子目录\autodraftACAD,\autodraftACADsource,\autodraftfonts填加进来，如上图所示。

Route it your way,The only true speci cation driven Plant Design System for SolidWorks, SolidPlant 3D combinesthe intuitive parametric SolidWorks System with a sophisticated database to generate all components on the y. Unlike SolidWorks Routing, there is no parts library. This concept allows unlimited freedom and exibility in piping design.SolidPlant is a project based system that works perfectly with piping speci cations. We use tag names as a link towards the whole project design. If you have designed your P&ID on SolidPlant P&ID, SolidPlant will synchronize the data automatically. If you use another intelligent P&ID, or your existing 2D diagram program, we can import all tags and data from the pipe list, equipment list, valve list and instrument list from the exported les using the SolidPlant Tag Manager.Now you can nd any equipment, valve, instrument or pipe based on its tag name quickly. You can create the 3D equipment and pipes without having to re-enter data. This will signi cantly decrease the human error of data entry. For even more exibility you can also create new tags in SolidPlant for those ever so common design changes.The most important element of a plant design system is how the graphics work with the database. We understand that the piping engineer does not want to spend a lot of time on creating and managing the database. Preparing a database with an enormous amount of data will traditionally take a lot of e ort and discipline in order to make sure it is done right from the start with the highest level of accuracy. SolidPlant’s SpecCreator provides a great tool for the engineer to prepare piping data as easily as possible without having to compromise on accuracy. SolidPlant is a strong advocate of the concept, “Do It Right the First Time!”Creating a new catalog normally is a time consuming task. Our SpecCreator module can export any of the existing catalogs already available in the system to an Excel format. You can then edit or modify the data and import it back into the system. Our Import Catalog feature will help you import the new catalog after it has been prepared in an Excel format. It doesn’t matter what format the columns and names are. The feature will allow the user to map the columns of the new catalog to the correct format. Then you will have your new catalog in a few clicks.A step by step Wizard style interface helps the user create piping speci cations for his projects very easily without making mistakes. The speci cation can then be used or edited further to suit the needs of the designer.Structure Modeler TemplatesSolidWorks itself has good steel structure design features. However, SolidPlant gives you more tools on top of that.To model a structural element would consume a lot of time and e ort. SolidPlant has prepared templates of Stairs, Spiral Stairs, Ladders, Handrails, Trusses, Walkways, Platforms, Conveyer and Pipe Bridge. The graphic user interface is simple and intuitive. The user only has to enter a value for a dimension in the graphic input eld then SolidPlant will generate the model quickly. That’s not all, since the model is a SolidWorks model, the user will be able to change all the dimensions as a parametric model, or pop up the template window and edit the desired dimension. The model then rebuilds automatically.These templates will save a lot of time, especially for the piping designer that has to model these kinds of structures just forreferencing.Intelligent Pipe SupportsBased on the exibility of SolidWorks mating features in an assembly, SolidPlant gives you the easiest way to place pipe supports. Our pipe support templates will allow you to place supports and edit them with just a few clicks. This will give you pipe supports that are required for your design quickly, in the way that they should be, automatically. Sloped supports and custom sized U-bolts are some of the features in SolidPlant Pipe supports feature.Duct and Cable trayOur Duct feature provides two methods to model your Ducting, Cable Trays or other Non-round piping. Using the manual method you can place components one-by-one. This is a very easy and straight forward method and is appropriate for mining and cement plant designs. Or you may also model your duct systems using a 3D sketch method and the system will generate all of the components automatically. These two methods will allow you to save time when you are creating your 3D models.Bill of MaterialAs SolidPlant is a real speci cation driven system all components are created from the database. The bill of materials that will be generated from SolidPlant will be accurate and reliable. The bill of materials can take o from Structures, Equipments and Piping in exible format. We also can export this data to an Excel format if required.Equipment Creation TemplatesSolidWorks is a great tool to create equipment models. On top of this SolidPlant provides templates to create several types of typical equipment such as Tanks, Horizontal and Vertical Vessels, Heat Exchangers, Pumps and Towers. With an engineering friendly user interface it will help you place or add any type of nozzle to any part or area of the equipment.If you have other departments involved in designing equipment for you but they happen to be unfamiliar with SolidWorks, there is no need to be concerned or worried as SolidPlant also allows you to import 3D equipment models from other CAD software using standard formats such as IGES, ACIS, Parasolid or any other format that SolidWorks is able to read and import.SolidPlant provides a comprehensive tool to assign accurate nozzle coordinates. This is the most important requirement in order to be able to do automated and accurate pipe routing.PipingAuto RoutingThis method will help the designer create the best path or pipe route faster than ever . With just 2 clicks, the‘from nozzle’ and ‘to nozzle’, the system will automatically generate the pipe route for you based on the piping speci cation database in the system.Alias’ ISOGEN ®includedSolidPlant has embedded the de facto standard forgenerating isometric drawings, Alias’ Isogen.Now you can generate Isometric drawings anytime. Engineers, pipe designers, and contractors worldwide recognize this format and this allows you to share your pipe designs with con dence knowing they will be understood.Smart FittingSolidPlant has a cool feature called “Smart Fitting” that allows you to extend or add pipe branches by dragging toward any point you prefer. This feature will automatically put the tting in the pipe. If it's an extending pipe, the tting will change.Smart RoutingA unique feature called “Smart Routing” allows you to create a pipeline with amazing ease. Simply right-click the pipe tag in the SolidPlant project manager and select “SmartRoute”. SolidPlant will then generate the route, connecting the correct nozzles as de ned in the data imported from your P&ID design. It will also pop up the valve list for the route based on that data. You can then easily drag and drop the valves onto the pipeline in the correct location.Advanced Piping FeaturesIn sophisticated pipe routing designs, we need more advanced features to nish a 3D model. SolidPlant has developed more advanced tools that will help the designer solve the complex piping easier and with better accuracy. Some of these features that will help the designer are:• Sloped pipe • Pipe jogging • Stub in • Pipe with Insulation • Pipe adjustment •Tag nderTraditional Pipe RoutingThis method is a combination between the manual method and the fully automatic techniques. The tools we provide will help you design a complex pipingsystem easier and more e ciently. We understand what engineers want: a system that is as easy and as exibleas possible, but fully accurate at the same time.WorkgroupSolidPlant provides the ability and tools to work asa workgroup. SolidPlant has written a plug-in for SolidWorksEPDM to embed the tag and model data. We have added functionality to the interface based on Tag number andde nition. So you can use all the bene ts of Solidworks EPDMsuch as Multiuser, Check-in/Check-out, Search/Preview, andauthorised work ow design. If you don’t have EPDM, We also provide a multiuser working environment feature without EPDM capability.PCF, IFC Imports/ExportsWith SolidWorks ability to import an IFC le you have the bene t of being able to import a structure from a 3D Architect CAD system such as ArchiCAD, Bentley or Revit to be used in your plant design, without having to model it again in SolidWorks. With these structures placed into your plant assembly your pipe designs can then accurately reference these. The bene t of SolidPlant’s PCF Import is the ability to use existing pipe designs that were created in a system that has the ability to export PCF les. This feature will help the contractor so that they can accept 3D les from any system and then use these les to smoothly work within SolidPlant and SolidWorks.UtilitiesUser interfaceThe most important aspect of the user interface is the requirement to help the user work faster while making less errors. The SolidPlant interface was designed with that principle in mind. Our interface and work ow were designed by experienced piping designers with the purpose of giving you a great experience when using SolidPlant 3D.Walkthrough/Collision detectionWith the walkthrough feature of SolidWorks the user will be able to do a video animation or real-time walkthrough within the SolidWorks window. You don’t need to export to any other software just to do a walkthrough.Floor/Elevation arrangementOur elevation management feature will help the plant designer who is not familiar with the mate features in SolidWorks to work with what they are familiar with, like the elevation on the Z axis and de ned oor levels.GA Drawing generation and detailingSolidPlant provides many tools and standard symbols of Plant design that do not exist in SolidWorks regular drawing features. The user can make a GA drawing faster and more accurately.The PCF Export feature of SolidPlant 3D allows you to send out the 3D model to your favourite pipe stress analysis application.Create new project,Open Project,RefreshTAG list Close Project Files ListPreviewWith SolidWorks platform, plant design engineers around the world will enjoy creating 3D models of everything from a small bolt to a large tower in a precise way. SolidPlant 3D allows you to nish your plant design and generate all necessary documents, such as general arrangement detail drawings and Isometrics, and of course Bill of Materials in a single platform.Combining Solidworks and SolidPlant 3D is de nitely a dream Plant design system that the engineers always desired for!Singel 540 l 1017 AZ Amsterdam Tel. +31(0)20 89 41 393Fax. +31(0)20 8941 333 System requirements :OS : Microsoft Windows 7 (64 bit)Processor : Intel Core i3 or AMD with SSE2 supportMemory : 4 GB minimumDisk Space : 10 GB minimum free hard disk spaceVideo Card : 1 GB Microsoft OpenGL or Direct3D capable(*SolidWorks Certi ed cards and drivers recommended) Software : SolidWorks 2013 Sp 2.0 or higher (64 bit)Copyright 2011 SolidPlant. All rights reserved.。

工厂三维布置设计管理系统之PDMS设备设计培训工厂三维布置设计管理系统是一种专门用于工厂设备布置设计和管理的软件系统，可以帮助工程师更加高效地进行设备布置设计和管理工作。

在使用该系统进行设备设计前，工程师需要接受PDMS设备设计培训，以了解系统的使用方法和操作技巧。

本文将详细介绍PDMS设备设计培训的内容。

一、培训目标PDMS设备设计培训的目标是使工程师熟悉和掌握PDMS设备设计的基本原理、操作流程和常用功能，能够使用PDMS系统进行设备布置设计和管理工作。

二、培训内容1. PDMS系统介绍培训开始时，将对PDMS系统进行详细介绍，包括系统的基本功能、主要特点和应用范围，帮助工程师对PDMS系统有一个全面的了解。

2. PDMS系统安装和配置培训将对PDMS系统的安装和配置进行讲解，包括系统的硬件和软件要求、安装步骤和常见问题解决方法，帮助工程师正确安装和配置PDMS系统。

3. 设备建模与管理培训将介绍设备建模的基本原理和方法，包括创建设备模型、设备组件的选择和添加、设备参数的设置等。

此外，还将讲解如何进行设备的管理，包括设备的复制、修改和删除等操作。

4. 设备布置与连接培训将详细介绍设备布置的流程和方法，包括设备的放置、旋转和对齐，以及设备之间的连接和管道的布置。

此外，还将讲解如何进行设备之间的碰撞检测和空间分配，确保设备布置的合理性和安全性。

5. 设备属性和报表培训将介绍设备属性的设置和修改方法，包括设备的材料、尺寸和装饰等属性。

此外，还将讲解如何生成设备布置报表和设备清单，方便工程师进行设备管理和报告编制。

6. PDMS系统的高级功能培训将介绍PDMS系统的一些高级功能，包括自动化建模、设备库的使用和设备模型的导入导出等。

此外，还将对一些常见问题和故障进行解答和讨论，帮助工程师更好地使用PDMS 系统。

三、培训方式PDMS设备设计培训可以采用多种方式进行，如现场培训、在线培训和自学培训等。

具体选择哪种培训方式，可以根据实际情况和需求来确定。

第2卷　第4期2002年12月交通运输工程学报Journal of T raffic and T ranspo rtation EngineeringV o l 12　N o 14D ec .2002收稿日期:2002207206基金项目:教育部高等学校骨干教师资助计划项目作者简介:缪炳荣(19702),男,江苏泰县人,西南交通大学硕士生,从事机车车辆CAD CA E 研究.文章编号:167121637(2002)0420034204列车流线型外形三维参数化CAD 系统缪炳荣,肖守讷(西南交通大学机车车辆研究所,四川成都　610031)摘　要:随着提速的要求,高速列车外形的流线化设计已经成为一种趋势。

介绍了二次开发三维参数化曲面建模CAD 系统的基本方法,基于A u toCAD 2000平台,利用O b jectA RX 2000和V C ++610技术开发了集成CAD 系统——L Su rfCAD ,并介绍了系统的主要功能和界面。

关键词:列车;三维参数化CAD ;曲面建模中图分类号:U 260164;T P 391172 文献标识码:A3-D param etr ic CAD system of locom otive w ith stream l i ne surfaceM IA O B ing 2rong ,X IA O S hou 2ne(In stitu te of R ail V eh icle ,Sou thw est J iao tong U n iversity ,Chengdu 610031,Ch ina )Abstract :A t h igh sp eed ,locom o tive m u st be designed w ith stream line su rface .T he 32Dp aram etric su rface m odelling CAD system is the key techn ique fo r design ing locom o tive .B ased on the p latfo rm of A u to CAD 2000,an in tegrate CAD system nam ed L Su rfCAD w as develop ed w ithO b jectA RX 2000and V C ++610.T he m ain functi on and in terface of the system w ere described .9figs ,5refs .Key words :locom o tive ;32D p aram etric CAD ;su rface m odelling Author resu m e :M I AO B ing 2rong (19702),m ale ,a graduate studen t of Sou thw est J iao tong U n iversity ,engaged in research of rail w ay locom o tive and veh icle CAD CA E . 随着铁路提速的要求,高速列车外形的流线化设计已经成为一种趋势。

图片简介:本技术介绍了一种基于BIM的引水工程三维参数化智能设计方法及系统，该方法包括构建数据库、设计结构、三维建模、BIM管理、干涉检查以及输出工程图等六个步骤，该方法摆脱了传统二维、三维设计的束缚，将参数化设计理念贯穿到设计的整个周期之中，并融合BIM技术，关联设计过程中的所有关键信息，建立引水工程典型建筑物BIM，提高工程各方面的协调和协作的效率，减少工程设计信息的丢失。

该方法信息完备、流程规范、实现方便、可视化程度高、可操作性强、可靠性强，大幅度提高了引水工程三维建模出图的效率，节约了时间成本，而且能确保满足水利水电工程三维设计的各项要求。

技术要求1.一种基于BIM的引水工程三维参数化智能设计方法，其特征在于，包括以下步骤：构建数据库：构建引水工程中BIM模型的多个数据库；设计结构：根据实际工程条件，对引水工程中目标建筑物的结构进行设计；三维建模：根据建立的数据库对目标建筑物进行三维参数化建模，得到目标建筑物的三维模型，并更新数据库；BIM管理：验证目标建筑物的三维模型结构的合理性以及计划施工进度安排的合理性；干涉检查：对装配完成后的三维模型进行干涉检查，检查各个组装零件是否发生碰撞，保证目标建筑物的三维模型整体结构的合理和稳定；输出工程图：输出三维模型中的构件模型和整体模型的三维或二维工程图。

2.根据权利要求1所述的基于BIM的引水工程三维参数化智能设计方法，其特征在于，所述数据库包括几何参数库、构件库、模型信息库、装配关系库、整体模型库和工程图库；所述几何参数库存储设计过程中所使用构件模型的尺寸参数和特征参数，所述构件库存储引水工程中指定沿线建筑物的构件三维模型，所述模型信息库存储每个建筑物模型的属性信息，所述装配关系库存储设计过程中使用的构件模型文件、子模型文件以及中心模型文件的相互引用关系以及构件之间的装配约束参数，所述整体模型库存储装配完成后的完整构件模型，所述工程图库存储系统设计的图纸模板以及操作者自行设计的二维或三维工程图。