A brief analysis of proe comprehensive skills tuto

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Brief analysis of pro/e comprehensive skills tutorial: Engineer Wildfire version 2.0 mutual

ptc's pro/e comprehensive skills tutorial: ngineer has always been famous in the whole CAD world for its concepts of parameterization, feature-based and full correlation. With the emergence and wide application of the latest version of pro/e comprehensive skills tutorial: ngineer wildfire version 2.0, many other advantages of the software have gradually been recognized by people, such as its powerful interconnection and cooperation function

Internet collaboration, as the name suggests, has two meanings. Interconnection refers to the data interaction, or connectivity, with earlier versions of pro/e integrated skills tutorials: ngineer software or other company systems. The strength of the interconnection function directly affects the scope of application and ease of use of the software, and it is also an important measure for users to choose CAD software. The meaning of collaboration is to achieve efficient collaboration between product design and manufacturing teams through synchronous or asynchronous information exchange. Good collaboration function allows designers to focus on innovative design of products, shorten the development cycle of products, and bring economic benefits to enterprises

next, we will briefly analyze the pro/e comprehensive skills tutorial from six aspects: the benefits of ngineer wildfire version 2.0 interconnection and collaboration function for designers and enterprises

first, I like the new and don't tire of the old and early pro/e comprehensive skills tutorial: the interoperability of ngineer version

the promotion process of any new version of software among users is long, and users can't upgrade to the new version all at once. Therefore, the new and old versions of software are likely to coexist for a long time. Then, how to make users who use the new version read the data of users who use the old version of software smoothly and quickly is a priority for software providers. Vice versa

pro/e integrated skills tutorial: ngineer wildfire 2.0 uses the cross version interoperability function, so that users using new and old versions can exchange pro/e integrated skills tutorial: ngineer data. Compared with simple IGES or step exchange, cross version interoperability will produce stronger and more relevant model exchange functions

if users want to share the pro/e integrated skills tutorial shown in Figure 1: ngineer wildfire 2.0 model with their design partners, and their partners use the pro/e integrated skills tutorial: an early version of ngineer. At this time, users only need to save the copy of the model in the pro/e comprehensive skills tutorial: ngineer wildfire 2.0 in the pro/e comprehensive skills tutorial: ngineer neutral file format, enter a new name, and then select the coordinate system stored in the model, or accept the default value. As long as the design partner opens this neutral file, he can use the model in the pro/e comprehensive skills tutorial: earlier versions of ngineer. The geometry and color of the model will remain the same. In fact, part and element parameters, even layers, remain unchanged

when making changes, the advantages of Cross Version interoperability are more obvious. If you want to change the pro/e comprehensive skills tutorial: ngineer wildfire 2.0 part, you just need to save this neutral file again with the same name. Using pro/e integrated skills tutorial: partners in earlier versions of ngineer can easily check user changes to the model. The feature icon changes from blue to red and displays a message indicating that his model has expired. After executing a command, the partner's design can be synchronized with its new model

Figure 1 pro/e comprehensive skills tutorial: ngineer wildfire 2.0 uses a tensile testing machine to slowly apply a load on both ends of the sample. The component model in the

II. The old horse futochi 2D drawing is reused

we already know that the transformation of product design and manufacturing from 2D to 3D is an irresistible trend. However, since the previous product design of the enterprise is all embodied in 2D drawings, when the 3D system is installed, the enterprise is bound to hope to convert all the previous 2D drawing information into 3D solid models. Now, pro/e comprehensive skills tutorial: the 2D input wizard and autobuildz function of ngineer wildfire 2.0 can help users solve this problem

pro/e comprehensive skills tutorial: the 2D input Wizard of ngineer wildfire 2.0 can help users select the required configuration settings and ensure configuration compatibility, so that the input operation can be carried out smoothly and without failure. Users only need to input 2D files such as IGES or DXF into the pro/e comprehensive skills tutorial: ngineer, and relevant instructions will appear automatically, as shown in Figure 2. The system will tell you how to set up the input process to meet your needs

Figure 2 2D file input guide

2d input wizard allows users to select only those compatible options through a series of radio buttons and check boxes. For example, you can choose how to import dimensions through DXF, or whether to associate these dimensions with each other. Decide whether to import AutoCAD blocks as symbols or create a variable size page. Users can also choose to map the fonts in the input file to one of the available fonts for use in the pro/e comprehensive skills tutorial: ngineer drawing

after inputting 2D drawings into the system, users also need to consider how to reuse these designs to revitalize them. Now it has become a trend to reuse the original 2D drawing for design. But it is not enough to keep these files. What users need is an automatic processing process, which can quickly create the corresponding parameterized 3D model by using the complete associated detailed drawing. With the pro/e comprehensive skills tutorial: the autobuildz function of ngineer wildfire 2.0, it is easy to realize this operation

users can import 2D DXF files through autobuildz, and automatically set all non geometric items on a separate layer. By associating areas with front, top, and side views, you can select any element from these areas and treat them as part of the corresponding directional view. By selecting line primitives from 2D drawings to quickly create 3D models, pro/e comprehensive skills tutorial: ngineer will automatically recognize 2D sketches. As shown in Figure 3

the user can enter a depth value, or define the depth by selecting the corresponding edge on the DXF drawing, and then create the notch feature from the side view. Select the second notch by referring to the DXF file, and then select the hole feature, and the user has a new 3D model

Figure 3 3D model created by 2D drawing

it is worth mentioning that the parameterized 3D model generated by autobuildz can be changed. In addition, the pro/e comprehensive skills tutorial: ngineer wildfire also has high flexibility in retaining the dimensions in previous drawings or creating new 3D design deformations

third, the interoperability between rongnaida and other CAD systems

due to the rapid expansion of CAD data, data files generated by different CAD systems adopt different data formats, and even the types of data elements in each CAD system are different, which potentially hinders the further application and development of CAD technology. Therefore, how to maximize the sharing and effective management of enterprise CAD technology information has become an important topic of CAD software development

pro/e comprehensive skills tutorial: ngineer wildfire 2.0 can be said to have the best interoperability in the world at present, and is the only CAD solution that supports all kinds of mainstream CAD. It can be associated and exchanged with UGNX and CATIA V5, has I-DEAS import function, and supports more AutoCAD functions, so that users can shuttle through different CAD systems more easily

users can import SolidWorks components through Parasolid of ngineer wildfire 2.0, or import SDRC I-DEAS parts directly from I-DEAS team data manager, as shown in Figure 4. In this process, the system will retain the color, layer and product structure. The patent registered associated topology bus design enables the update operation to be completed instantly

suppose that users want to convert 2D AutoCAD design from DWG files to intelligent and parameterized 3D solid models. Using pro/e comprehensive skills tutorial: ngineer's autobuildz function can easily achieve the goal, as shown in Figure 5. Whether users want to send design changes directly to partners using UG or create casting molds for CATIA V5 parts, they just need to browse to the required files, open them and enter them

Figure 4 input SDRC I-DEAS parts

Figure 5 convert DWG files into 3D solid models

based on extensive support for all major CAD formats and data exchange standards, pro/e comprehensive skills tutorial: ngineer wildfire has established a new standard for the interoperability of a variety of CAD. Pro/e comprehensive skills tutorial: ngineer wildfire 2.0 good interoperability is not only conducive to improving the proficiency of CAD users, but also can help enterprises better improve their business. According to statistics, if the enterprise reduces the burden of data transmission by 50% every year, each employee will save 45000 dollars

IV. open the door and build a car to seamlessly access the Internet

in modern manufacturing, CAD plays an important role in the whole product life cycle. It frequently exchanges data with CIMS system inside and outside at all stages of the product life cycle, so the description of data must have the characteristics of reliability, adaptability, maintainability, verifiability and so on. Although modern manufacturing enterprises have completely changed the previous way of using paper as the information carrier, large-scale computer technology has been applied to all stages of the product life cycle. However, the problem of smooth data exchange between product design and processing in different geographical locations or different computer platforms is still not very satisfactory

most systems that support CAD collaborative design now only realize the complete data exchange within the local area; The problem of data exchange in the case of wide area structure and cross platform is not well solved, which has a great impact on the speed and quality of modern product design, production and overall cost control. Therefore, the design of cross platform CAD collaborative design system software under the Internet environment has a wide range of user needs

because the pro/e comprehensive skills tutorial: ngineer wildfire 2.0 supports the web service architecture, it adopts the web language, and can seamlessly access information and resources on the Internet. Its connectivity is provided through the embedded web browser on the top of the graphical window

users can use this browser interactively with pro/e comprehensive skills tutorial: ngineer can perform the following tasks:

(1) browse the file system and preview the model information, and even open it by dragging the pro/e comprehensive skills tutorial: ngineer model into the graphics window

(2) viewing stations or favorite web sites

(3) visit the pro/e comprehensive skills tutorial: ngineer user site

(4) browse and interact with Windchill pdmlink to access digital product data

(5) access the project workspace and use Windchill projectlink or pro/collate to communicate with suppliers or suppliers

(6) use Windchill partslink to access the standard component catalog and drag it into the pro/e comprehensive skills tutorial: ngineer. As shown in Figure 6

this is a natural way to connect information and resources through the web. The operation can be all in the pro/e comprehensive skills tutorial: ngineer1734 ia4
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