Calculate values in a bill of materials table using equations. Use various functions such as IF, AVERAGE, COUNT, and so on to calculate the data. Calculate the total cost by multiplying the unit cost times the quantity. Determine the sum of the costs of all of the components in an assembly.
Create a drawing from an existing part file, insert basic views, and insert and manipulate dimensions and callouts. Make a basic drawing of a part. Insert standard views. Import dimensions from a model into a drawing. Make a change to a dimension. Demonstrate the associativity between the model and its drawings.
Create several types of derived drawing views and understand the unique characteristics of each view type. A derived drawing view is created by referencing an existing drawing view. Create a projected view by folding off an existing drawing view. Project a view normal to a selected edge to create an auxiliary view. Show a portion of a view at an enlarged scale using detail views. Create a drawing view relative to planes or planar faces in the model. Focus on a portion of a drawing view by cropping and hiding the unwanted entities. Shorten an existing drawing view using broken views.
Use drawing view commands that are specific to working with assembly models including broken out section views, alternate position views, and exploded views. Use drawing view properties to represent assembly configurations. Create a broken-out section view to show internal components of the assembly. Create an alternate position view using an existing or a new configuration. Create an exploded assembly drawing view.
Create and use hole tables and general tables to display different types of data, such as alternate part configurations, on a drawing. Create a hole table to display hole sizes and locations on a drawing. Use a general table to display any custom data. Resize and edit existing tables.
Insert and manipulate dimensions in existing drawing views. You import dimensions from the model, create custom driven dimension, and move dimensions between views. Insert and manipulate driving dimensions. Create driven dimensions. Edit the properties of a dimension.
Use the Property Tab Builder stand-alone utility to build a customized user interface, or ‘tab’, and add file properties. Create Custom or Configuration Properties. Choose from seven different types of controls. Take data from external sources such as text or Excel files.
Learn the basics of SOLIDWORKS drawings, and add drawing views, annotations, BOM tables, and balloons. Add drawing views using the View Palette. Create section and detail views. Insert model dimensions from the part. Add a Bill of Materials table. Automatically generate balloons.
Use bill of materials (BOM) tables to call out the components of an assembly. Bill of materials can be modified in many ways and new table templates can be generated to save customizations. Tabulated bill of materials can list information about multiple configurations within the same table. Create a bill of materials for an assembly. Modify a bill of materials table to add and reorder column. Save a bill of materials as a template. Create a tabulated bill of materials.
Learn about the Certified SOLIDWORKS Professional Advanced Drawing Tools exam. Understand some of the SOLIDWORKS skills you need to achieve certification. Review some of the questions from the sample exam.
Create sheet formats and templates. Sheet formats specify the appearance of the drawing sheet, including sheet size, title block, and more. A drawing template is the starting point for all drawings, including drawing properties, pre-defined views, and more. Understand the difference between a sheet format and a drawing template. Create a custom drawing template. Customize and save a standard sheet format. Insert an OLE object, such as a logo, into the sheet format. Link annotations to custom properties of the drawing or the model referenced by the drawing.
Route flattening and detailing functionality creates 2D route drawings from 3D electrical route assemblies. There are 2 methods to do this, annotation and manufacturing. The manufacturing style is discussed in this module lesson. Adjust curvature and orientation of flattened wiring routes. Flatten wiring routes.
Detail a weldments model using a cut list table and import weld information from the model into a drawing view. Add and modify a cut list table. Import weld information from a model into a drawing view.
Create some very complex 3D surfaces or geometries by defining a mesh with custom contours and numerous editable points for better control and design. Create basic primitive mesh shapes as a starting point to the design. Generate individual mesh faces using 3D Face tool. Control a network of mesh points by defining an outer perimeter with the Edge Mesh tool to fill it in. Use the 3D Mesh command allowing to define the location of every point in a mesh.
Learn about various drawing types that you can create in SOLIDWORKS Electrical. Understand how Wiring Line Diagrams can be used to create high-level synoptic drawings. Use Scheme drawings to create detailed designs using electrical symbols, components and wires. Create Mixed Scheme drawings to combine high-level and detailed schematic information on one page.
Learn how to add components and symbols to your schematics and associate them with manufacturer parts. Add individual components manually and import them all at once from a spreadsheet. Insert component symbols and associate manufacturer parts. Use the options available in the Symbol Insertion panel and the Symbol Selector for classification and filtering.
Create a note with text that is linked to existing dimensions and custom properties. Link a note to a dimension. Edit the title block of a drawing to add notes linked to a model's properties. Add drawing property information to populate a title block.
Manipulate the 3D Model view properly to work on the geometry as intended. Use a variety of tools to enable rotating the model freely, updating the model view type and to add custom coordinates systems to get the right location and angle. View the 3D model at different angles such as Top, Bottom, Left and various isometric angles. Use the computer mouse or orbit command to freely pan, zoom and rotate the 3D model. Learn to view with different view types such as Wireframe, Hidden, Gouraud, Flat with Edges, etc. Setup custom coordinates systems with CCS defining based on a view or entity.
Learn how to create different types of drawings and use their configuration settings to control various aspects. Create a new drawing and use Project Configuration to define its title block and mark. Create 2D cabinet layouts and place components. Generate drawings automatically based on inputs defined in their configuration managers.
Improve system and graphical performance of drawings. Use lightweight models, large assembly mode, detached drawings, and more to reduce the required system resources. Use lightweight models and large assembly mode to improve performance. Open drawings without the model files in memory using detached drawings. Fix assembly interference issues to correct display issues.
Create balloons to relate items in a bill of materials table to the corresponding items in a drawing view. Use the Balloon, Auto Balloon, and Stacked Balloon tools to create balloons on the drawing. Align balloons using magnetic lines.
Learn DimXpert in Assembly to define dimensions and tolerances for overall sizes and installation interfaces in assembly environment. All the existing DimXpert capabilities in part are supported in assembly. Use Auto Dimension Scheme define the installation hole spacing. Use Location and Size dimension tools to define hole sizes and assembly feature dimensions and tolerances. Apply manual basic dimensions. Select edges instead of faces for easier definition. Place dimensions per mouse move just like in 2D drawings or sketches. Update flag notes automatically. Display coordinate systems per feature control frames.
Lock the focus on a drawing view so it remains active while you work within that view. Add sketch entities and annotations to a view that has the focus locked on it.
Learn about the Certified SOLIDWORKS Professional Advanced Drawing Tools exam. Understand some of the SOLIDWORKS skills you need to achieve certification. Review some of the questions from the sample exam.