Plik Podrecznik uzytkownika SOLID EDGE.pdf na koncie u. Samouczki Solid Edge w wersji elektroniczej. The Pro/E part database is different when you create parts using Pro/SHEETMETAL. All sheet metal parts are by.Saving Solid Edge documents to other formats. Solid Edge allows you to save documents to other file formats. You can save Solid Edge files to the following formats: Environment/Command. File Formats. Assembly*. The bookmark file provides a simplified definition of the Solid Edge assembly structure that can be read by Unigraphics. Saving Solid Edge documents to PLMXMLWhen you export a single part file from Solid Edge to PLMXML, two files are created. Sheet Metal and Weldments teaches you how to build sheet metal parts using SOLIDWORKS mechanical design. Download the Table of Contents PDF: Sheet Metal. Working with Sheet Metal Parts in Solid Edge. Solid Edge supports the entire. Edge,thecurrentLiveRulessettingsaremaintainedforthenextdesignsession. YoucanclicktheRestoreDefaultsbutton(1)torestorethedefaultLiveRules options. The . plmxml file is an ASCII file that references the . When you export an assembly from Solid Edge, a file with a . In this case the . In an assembly that contains three unique parts you will have three Parasolid . Saving Solid Edge documents to STEP (. You can save Solid Edge Assembly, Part, and Sheet Metal documents in STEP (. Save As command. On the Save As dialog box, after you select the Solid Edge document you want to save, click the Options button to display the Export Options for STEP (. You can use the dialog box to control how the Solid Edge document is saved in . The Step. 3d. ini file, found in the Solid Edge Program folder, is used to store the settings selected from the user interface. When you change a parameter in the options form, a new value is saved to the file. The Mapped Item Assembly= parameter is not exposed through the user interface. This parameter specified that you want to export the Solid Edge assembly as a mapped item to STEP. By default, the value is On, which saves the assembly as a mapped item. However, some modelers such as CATIA V4 or V5 are unable to read assembly written using the mapped. To save the Solid Edge assembly to Catia, set the Mapped Item Assembly= parameter Off. You can use a text editor, such as Notepad, to set these parameters. However, if you edit this file, use extreme caution in setting these parameters. Errors in this file can adversely affect translation quality. Exporting multiple Solid Edge files to jt format. To use the batch translator to translate a list of files, create a text file that includes the full file path for each file name you want to export. Include only one file name per line as shown in the following example. The wizard maps entities, such as line type, line width, font, and hatch style, in a Solid Edge document to an Auto. CAD document. If you do not save the draft file, the OLE objects will not be translated to Auto. CAD format. Saving Solid Edge documents to Adobe Acrobat PDFYou can save Solid Edge assembly, weldment, part, sheet metal, and draft documents in the Adobe Acrobat Portable Document (. Save As command. You can also save Solid Edge assembly, assembly weldment, part, and sheet metal documents to 3. D Adobe Acrobat Portable Document (. Universal (. u. 3d) format. Note: Weldment (. When saving Solid Edge documents to Adobe PDFThe Solid Edge document title, author, subject, and keyword properties are copied to the new PDF document. Assembly, part, and sheet metal documents are saved as a *. The active model view is the view saved to PDF. Draft documents typically contain multiple drawing sheets and a 2. D Model sheet. The sheet- type that is active when you use the Save As command determines what is saved to the *. You can use the Options button on the Save As dialog box to open the PDF Export Options dialog box, where you can specify which sheets you want to save in the file, as well as to select other options. All other standard views defined in View Manager, including user- defined views, are also saved. Colors defined in the Solid Edge document are saved to the PDF document. PMI dimensions and annotations defined in the Solid Edge document are saved to the PDF document. The Solid Edge document title, author, subject, and keyword properties are copied to the new PDF document. The assembly components can be displayed and hidden in the model tree of the PDF viewer. Note: Sketch elements are not saved to the 3. D PDF file. To learn how, see Save a document to Adobe PDF. The default settings are sufficient for this purpose. To adjust the default PDF output properties, see the Help topic, Change PDF printer properties. By default, the parameter is set to 1, which exports multiline text boxes as multiline text box. You can set the value to 0 if you want to export the text boxes as single line text boxes. Exporting Solid Edge dimensions as Auto. CAD dimensions. Because of differences in CAD systems and the large number of possible dimension styles that can be created, you can easily create a dimension in one system that cannot be displayed in another. The Export Solid Edge Dimensions as Auto. CAD Dimensions and the Export Dimension Picture Data options on the Auto. CAD Translation Wizard help you to avoid these problems and create dimensions that appear the same in Solid Edge and Auto. CAD. An Auto. CAD dimension consists on three parts: Dimension block or picture data. Dimension object. Dimension style object. The dimension block or picture data contains lines, arcs, and points that make up the dimension. The dimension object contains information about the dimension attributes, such as layer, color, definition points, and pointers to the dimension block data and dimension style object. The dimension style object contains various dimensioning variables such as tolerances, formats, and unit type. When you open a drawing in Auto. CAD, the dimension block, or picture data is displayed. If you change the dimension in Auto. CAD, the picture data is deleted. Auto. CAD regenerates the display based on the dimension object and the dimension style object. This may cause the dimension in Auto. CAD to change based on the style and dimension limitations between the two CAD systems. You can use the Export Dimension Picture Data option on the Auto. CAD Translation Wizard to avoid this problem and maintain the appearance of a Solid Edge dimension as long as the dimension is not regenerated in Auto. CAD. If you export a Solid Edge document with the Export Dimension Picture Data option on the Auto. CAD Translation Wizard enabled, Solid Edge writes the block or picture data to the Auto. CAD document. When you open the Auto. CAD document, the dimensions will appear as they would in Solid Edge. If you export a Solid Edge document with the Export Dimension Picture Data option on the Auto. CAD Translation Wizard disabled, Solid Edge does not write the block or picture data to the Auto. CAD document. When you open the Auto. CAD document, Auto. CAD generates its own picture data to create an Auto. CAD- like dimension. Note: If you are exporting to . Auto. CAD, you should enable the Export Dimension Picture Data option. If the target system is dependent on any of the block or picture data, it cannot successfully read and display the dimension correctly if the picture data is not exported. The target CAD system must be able to generate the dimension based only on the dimension object and dimension style information. If you export a Solid Edge document with the Export Dimension Picture Data option disabled and force Auto. CAD to regenerate the picture data, you may see differences in: Radial or diameter dimensions. Limited dimensions. Prefixes and suffixes. Alternate units Radial or diameter dimensions. In Solid Edge you can create radial or diameter dimensions and specify that the diameter symbol be displayed before the diameter value, after the diameter value, or not all. Auto. CAD only allows you to display the diameter or radial symbol before the value. Auto. CAD does not support this and removes the space (B) between the dimension value and the dimension symbol when you export the Solid Edge document. Limit dimensions. Solid Edge allows you to create a horizontal limit dimension (A) and a vertical limit dimension (B). Auto. CAD supports only horizontal limit dimensions. When you export Solid Edge dimensions as Auto. CAD dimensions, the vertical limit dimensions will appear as horizontal limit dimensions in the Auto. CAD document. Prefixes and suffixes. When you export dimensions as dimension objects superfixes, prefixes, suffixes, and subfixes are written as text overrides. In Solid Edge, you can set a left or centered justification when placing a subfix on a dimension. However, Auto. CAD only supports a centered justification for text overrides. Therefore all dimensions created in Solid Edge with a subfix that has a left justification (A) are exported to Auto. CAD as a text override, and will have a centered justification (B). Alternate units. Solid Edge allows alternate units that can be ( ), Null, or . Auto. CAD only supports . Instead, coordinate dimensions are output as simple lines and text to represent the dimensions, just as if the Export Solid Edge Dimensions as Auto. CAD Dimensions option was disabled. You can create inspection dimensions in Solid Edge, but Auto. CAD does not support them. When you export a Solid Edge document, all dimensions that have an inspection block are exported as a dimension and an oval inspection block is created from graphics, and both are placed as an Auto. CAD block element. Any dimension with a jog is exported as simple lines and text to represent the dimension just as if the Export Solid Edge dimensions as Auto. CAD Dimension control was disabled. What are you looking for? How do ILearn more about. Look up more details. Working with Sheet Metal Parts in Solid Edge. Aug, 2. 00. 3By: J. Fred White. The Sheet Metal environment in Solid Edge provides a set of commands tailored for the efficient construction of sheet metal parts. Sheet Metal is not a standalone product; it is an environment within Solid Edge, similar to Solid Edge Part, Assembly, or Draft. You construct a sheet metal part by constructing a base feature and then adding features until the part is complete. Sheet metal properties such as material thickness, bend radius, and bend relief are easy to control and manage. Instead of defining these properties each time you add a new feature, you can use the default property values provided in the template. The Base Feature. You can construct a base feature with the Tab, Contour Flange, or Lofted Flange commands. The Tab command allows you to construct a flat feature of any shape using a closed profile. The Contour Flange command allows you to construct a feature comprising one or more bends using an open profile. The Lofted Flange command allows you to quickly construct a flange using two open profiles on parallel reference planes. Like the Contour Flange command, the Lofted Flange command automatically adds bends using the bend radius property. You do not have to draw an arc at each bend location. Part Properties. The Part Properties tab on the Options dialog box allows you to set up the sheet metal properties for the part you are constructing. These properties are copied to the Variable Table and reused each time you create a new feature. For example, when you construct a flange, the material thickness and bend radius are automatically applied. If you edit these values later, the part will update. For example, if the material thickness for the part needs to be increased, you can edit the value for the material thickness, and the material thickness for the entire part will change. Adding Features. After you have constructed the base feature, you can use the commands on the Sheet Metal Features toolbar to complete the part by adding features such as flanges, cutouts, holes, louvers, beads, and so forth. Feature Properties. You can also change the properties of an individual feature. For example, you may want to use one bend radius value for the entire part, except for one flange, which needs a larger bend radius. Select the flange you wish to edit and click Flange Options on the ribbon bar to change the bend radius property. Bend Relief and Corner Relief. When constructing and modifying flanges and contour flanges, you can use the Flange Options dialog box to control whether bend relief or corner relief is included as part of the feature. If you define a bend or corner relief, you can also control the size and shape. The bend relief specified is applied to the source face from which the flange is constructed. For example, when constructing a partial flange centered on an edge, bend relief is added to the source face on both sides of the flange. You can also use the Extend Relief option to specify whether the bend relief is applied only to the area adjacent to the bend or to the entire source face. As shown in Figure 1, you can define the following options when applying corner relief. None(A) Bend Only(B) Bend and Face(C) Bend and Face Chain(D)Closing Corners. The Close Corner command will modify two flanges in one operation to close the corner where the two flanges meet. Since closed corner is a treatment, you do not have to draw a profile- -just select the edges you want to modify. Mitering Contour Flanges. You can miter the ends of a contour flange by setting options on the Miter tab of the Contour Flange Options dialog box. For example, when constructing two contour flanges that will overlap, you can miter the ends where the flanges meet. Adding Features across Bends. On many sheet metal parts, cutouts or holes lie across a bend. You can use the Unbend command to flatten a flange so you can add a feature, such as a cutout or a simple hole, across the bend. After you add the feature, you can use the Rebend command to deform the flange again. Sheet Metal Cutouts. When constructing Sheet Metal parts, you can construct cutouts using the Cutout command or a specialized Normal Cutout command, as shown in Figure 2. If the cutout you are constructing will result in thickness faces not perpendicular to the sheet faces (as in area A), you should consider using the Cutout command. When you use the Normal Cutout command to construct the cutout, the software creates thickness faces that are perpendicular to the sheet faces (as in area B). Although the Cutout command would successfully construct the cutout, you might not be able to flatten the part later or add features to the non- perpendicular faces. With a normal cutout, the feature would likely be manufactured while flat. Adding Features in the Part environment. You can access a Sheet Metal document (PSM) in the Part environment, in order to add non- sheet metal features, using Switch to Part Environment. After you have finished, you can return to the Sheet Metal environment using the Switch to Sheet Metal Environment option. You can add any type of Part feature to a sheet metal part, but some features can prevent the part from being flattened with the Part Copy command. If you intend to flatten a Sheet Metal part later, you should create a test part and see if the part features you want to add can be flattened. Flattening Sheet Metal Parts. After constructing a sheet metal part, you may need to create a flat pattern of the part for manufacturing. You can use the Part Copy, Flatten, and Save As Flat commands to create a flat pattern of a sheet metal part. The Part Copy command allows you to create a flat pattern of a sheet metal part in a new part or sheet metal document. The Save As Flat command allows you to flatten a sheet metal part and save the part as one of the following document types: Part document (PAR), Sheet Metal document (PSM), Auto. CAD document (DXF). The Flatten command on the Simplify/Flat toolbar allows you to create a flat pattern in the same file as the formed sheet metal part. Conclusion. Solid Edge supports the entire sheet metal product development process, from design of sheet metal components to flat pattern development and the creation of engineering drawings. In addition to the features outlined in this article, Solid Edge also offer integrated Voyager applications for analysis, nesting, NC programming, and related tasks.
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