Understand the characteristics of a large assembly, how SOLIDWORKS opens an assembly, and what can cause it to slow down. Also, a quick look at some possible solutions. Explore what makes a large assembly. Learn the sequence of steps SOLIDWORKS uses to open an assembly. Discover some common large assembly slowdowns.
Add a jog to an existing flange. A jog adds material to a sheet metal part by creating two bends and a flat from a sketch line. The mirror feature adds symmetry in sheet metal designs. Add a jog to an existing flange. Incorporate symmetry in sheet metal designs. Position a jog.
Animate an assembly from a first-person perspective. Create walkthrough animations. Position the camera throughout the animation sequence. Align the camera to a sketch path throughout the animation sequence. Save animations as AVI files.
Use Modify Configurations options to create and manage configurations in user-defined tables. Configure sketch and feature dimensions with Configure Dimension. Use Configure Feature to configure suppression of features. Configure the part material with Configure Materials. And, use Configure Component to configure the component suppression, fixed state, and configuration.
Use the Split Route tool to add junction points to existing routes. Create geometry at the J-point to orient an in-line fitting. Use the Split Route tool to add a junction point to an existing route. Create 3D geometry at a junction point. Use 3D geometry to orient an in-line fitting.
Create a cut list to organize the bodies in a weldment part. Add custom properties to the components of a weldment structure so the propertie appear in the cut list. Similar to a BOM in an assembly, the cut list provides details of the weldment members. Create and edit a cut list. Edit custom properties. Edit the material of the bodies in a weldment part.
Determine if proper draft exists in a part to be molded. Without proper draft, the part may fail to successfully eject from the mold. Evaluate draft on a molded part. Examine the different classes of drafted faces.
Sketch and loft between two sketch profiles to create a sheet metal part. Understand the requirements for the sketch profiles and the loft feature. Sketch the profiles for a lofted sheet metal part. Understand the requirements for a lofted sheet metal part. Set the thickness and bend line options.
Create circles and arcs as entities in a sketch. Learn about the variety of tools you can use to create circles and arc. Understand when you might choose the different circle and arc tools based on points in the center or along the perimeter of the circle or arc.
When edges of a part are too close to allow for fillets to be created properly, often making use of separate solid bodies can help. Separate features into separate solid bodies. Apply fillets to the individual bodies. Use the Combine command to add the bodies back together. Apply an additional fillet to the part to complete the model.
Walk through the process of starting an electrical route by dragging and dropping electrical routing components into an assembly. Take advantage of auto-routing to connect components. Construct a wire route using the "Start By Drag/Drop" command. Create a route between the endpoints of stub lines with the "Auto-Route" routing mode. Use the "Edit Wires" command to add electrical attributes to a route.
Create and modify splines using spline points, relations, control polygons, and spline handles. Splines can have multiple spline points or as few as two spline points. Sketch with splines. Edit the number of spline points. Modify the shape of splines with relations, control polygons, and spline handles.
Create and edit rigid conduit and wiring routes to connect two electrical receptacle boxes. Understand that the center line of conduit defines the electrical conduit route. Understand that electrical routing components require hybrid components containing CPoints. Use the Auto Route feature to generate route lines. Edit existing route to add desired components.
Create folded hems on sheet metal parts to strengthen parts and eliminate sharp edges. Use the hem tool to edit the size, type, direction, and length of hems. Add folded hems on sheet metal parts. Practice creating hems and editing the type and dimensions.
Use sketch relations to fully define a sketch and capture design intent. Learn about automatic sketch relations and sketch relations that you add manually. Add relations between two lines to understand common sketch relations. Add relations between circles and arcs to observe additional sketch relations.
Use the Tooling Split command to create interlock surfaces around the perimeter of the parting surfaces to create mold tooling. Save mold bodies and create assemblies of molds. Create assembly files for mold from part files. Create exploded assembly view of mold. Create interlocking surfaces on molds using the tooling split command.
The Design Library contains a number of sample forming tools, including embosses, extruded flanges, lances, louvers, and ribs. Learn to use these standard tools, as well as to create your own simple custom tools, to meet design needs. Drag and drop standard forming tools from the Design Library to form a sheet metal part. Edit a standard forming tool, customizing it to meet individual design needs. Set the stopping face and faces to remove within a part to be used as a custom forming tool.
Demonstrate the creation of a reference between a newly created MS Word file and an assembly. Remove the reference using the custom references functionality.
Create exploded views in multibody parts using some of the same tools that you use to create an exploded view in an assembly. Toggle between exploded and collapsed states. Edit the explode steps. Create more than one exploded view per configuration.
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.
A SpeedPak configuration improves performance of large assemblies by simplifying the assembly without losing its file references. Create SpeedPak configurations. Use SpeedPak configurations in higher level assemblies. Understand the benefits and limitations of using a SpeedPak configuration.
Utilize sheet metal and weldment features in one part using a multibody part. Use fillet and weld beads on sheet metal parts. Create a sheet metal fixture on a weldments part. Use filllet beads and weld beads on a sheet metal part.