Use the Stock Manager to define the material, stock type and size to machine the part from. Select the stock material. Select stock type to define size and shape. Set the stock size options. View the stock preview.
Use Automatic Feature Regognition (AFR) to automatically extract the machinable features to be machined. Set options to define feature types to extract. Review the hole recognition and feature groups options. Review options to automatically generate operations and toolpaths. Extract machineable features and review the features in the CAM Feature Tree.
Use the edit definition command to modify contouring (finish) operations. Review contour operation parameters. Review side parameters settings. Review feeds and speeds tab.
Use the Edit Definition command to modify contouring operation leadin and leadout parameters. Modify leadin type. Modify leadin amount and overlap. Modify arc radius and arc angle.
Use Interactive Feature Regognition (IFR) to manually create a machinable feature. Create a corner slot feature using the 2.5 axis feature command. Review geometry selection options to define the feature. Set the feature end condition. Modify the machining strategy for the feature.
Use the Combine Operations and Link Operation commands to combine like operation types. Combine operations for all like rough and contour mill operations. Drag and drop a hole feature from one center drill operation to a like center drill operation. Link like contour mill operations between two different setups.
Use the New Contain Area command on an operation to restrict toolpaths to a specific area. Copy the face mill operation containing the avoid areas and delete the avoid areas from the copy. Create contain areas on the copied face mill operation using the 2D sketches in the part. Generate a toolpath for the copied face mill operation. Examine the contain areas of the face mill operation.
Get the models closer to the finished geometry by learning to modify, remove, combine, slice or replicate the 3D geometries. Use Boolean operations such as Union and Subtract. Reshape the edges of 3D geometries using Fillet Edges or Chamfer Edges with different options. Remove or split the material of 3D geometries using the Slice tool Replicate geometry in multiple instances throughout the design with Mirror 3D and Pattern 3D
このモジュールでは、3D PDF と eDrawings ファイルを作成して使用する方法を説明します。 ユーザー定義プロパティとテキスト フィールドの追加。 3D PDF に部品を作成。 3D PDF と eDrawings にアセンブリを作成。 3D PDF の作成前に DimXpert アノテート アイテムのサイズを変更。 3D PDF と eDrawings を調べる。
より高度な 3D PDF 機能を学習して、3D 設計の意図を、下流の SOLIDWORKS をインストールしていない製造工程にも明確に伝えましょう。 無料版の Adobe Reader を使用して、SOLIDWORKS または STEP のファイルを 3D PDF に添付する。 複数のシートを挿入する。 複数のビューポートを挿入する。 複数のテーブルを挿入する。 ソリッド アウトラインおよびイラストレーションのモードを表示する。 画面にフラットな注記とテーブルを表示する。 無料版の Adobe Reader を使用して、ファイルを 3D PDF に添付する。
Automate the conversion of imported part geometry into a SOLIDWORKS feature-based, parametric model. Open an imported data file in SOLIDWORKS. Use the Import Diagnostics tool to repair imported geometry. View the FeatureWorks options. Use the Automatic feature Recognition Mode. Map the features to the part model. Guide the Automatic Recognition Mode for the best results.
Control the conversion of imported part geometry into a SOLIDWORKS feature-based parametric model by converting specific features interactively. Interactively convert feature types. Convert features types that cannot be used with automated methods. Recognize multiple similar features at the same time. Re-recognize geometry and change it to a different type. Add patterns from the list of recognized features.
Use Volume features to recognize geometry that does not match any other feature type. The volume feature can be replaced with a standard SOLIDWORKS feature. Recognize volume features. Recognize boss and cut revolve features. Use the Up To Face option with cut extrudes. Replace volume features with standard cut features. Edit the mapped features.
Convert imported sheet metal part geometry into SOLIDWORKS feature-based, sheet metal, parametric models. Recognize common sheet metal features such as Base Flanges and Sketched Bends. Flatten the result to view the flat pattern. Use a hybrid approach combining the automatic and interactive methods.
Convert imported assembly and multibody geometry into SOLIDWORKS feature-based, parametric models. Recognize imported assembly geometry as multiple parts. Use Edit Feature to recognize only selected features from the part. Use child features to recognize multiple features with a single selection.