The Hole Series feature adds holes to multiple components in an assembly. Unlike a typical assembly feature, the Hole Series adds part-level features to the individual components. Create a Hole Series feature in an assembly. Create a Hole Series feature from an existing hole feature. Understand the difference between the Hole Series feature and a typical assembly feature.
The Belt/Chain assembly feature links idlers, pulleys, or sprockets together to achieve the intended rotation of several components simultaneously. Optionally, you can create a belt or chain component part. Select edges of pulleys and idlers for a belt/chain assembly feature. Set the properties of a belt/chain assembly feature.
Define mated entities and mate types for components that you use frequently. When you add the component to the assembly, some mates can automatically be added for you. Define the mate entities and mate types for a frequently used component. Add a component with mate references to an assembly. Select the configuration of a component that you drag into an assembly.
Center a component relative to two faces of a groove using a width mate. Add a width mate to center a component relative to two faces of another component. Understand the degrees of freedom that are constrained by a width mate.
Constrain a point or a vertex of a component to a path in an assembly. Then, control the pitch, yaw, and roll of the component as it moves along the path. Specify the entities for a path mate. Edit a path mate to control pitch, yaw, and roll of the component.
The linear coupler mate links the translation of one component to the translation of another component. The translation occurs along an axis you define relative to the assembly origin or a reference component. Select the faces and reference components to define a linear coupler mate. Set the ratio of motion of one component relative to another.
Define sensors to monitor specific properties of a model and alert you if a value is outside a range you specify. Add a sensor to monitor property values. Set up an alert to notify you if the property value is outside acceptable limits.
Large Design Review mode offers faster performance and enhanced visual features while limiting access to details of constituent parts and subassemblies. Large Design Review mode is ideal for visual presentations, rough measurements, and section views. Open an assembly in Large Design Review mode. Review the available tools and features in Large Design Review mode. Explore the limitations of Large Design Review mode.
Select components according to their position relative to assembly envelopes and hide, suppress, or delete the selected components. Utilize assembly envelopes as reference components that are ignored by bills of materials and mass property calculations. Convert components to assembly envelopes. Select components based on their position relative to an assembly envelope. Hide or show components selected using an assembly envelope.
Create the first part for the assembly portion of the Certified SOLIDWORKS Professional sample exam. Create a part for the assembly using the views and dimensions on a drawing. Obtain the center of mass of the part based on a reference coordinate system.
Insert annotations into existing drawing views, including custom notes, geometric tolerances, and blocks. Create annotations and symbols. Create blocks from geometry and notes. Save a block to a file. Insert a block into a drawing.
Use the rules panel to link the captured models to the forms you created for data entry. Utilize logic and math operators to define the rules. Drive the output model and drawing by entering parameters into the form.
Introduction to SOLIDWORKS Inspection: Create an inspection project and bill of characteristics. Export and generate an inspection report. Leverage the SOLIDWORKS Inspection Addin and Standalone application
Generate a Bill of Characteristics: Manually or automatically extract annotations. Leverage the SOLIDWORKS Inspection Addin or Standalone application based on your workflow.
Use the various Mold Tools to prepare a part for injection molding, including scaling, split line, parting surface, and shut-off surfaces. After preparing the part, you create the core and cavity. Identifty the parting plane. Create a parting surface. Create shut-off surfaces. Create mold body, core and cavity.
Search for, manage and view exisiting reports created by SolidWorks Utilities. Export reports to a briefcase or delete reports. Search for, manage, and view SolidWorks Utilities reports. Export and delete reports.
Create a pipe coupling using the Routing Component Wizard. Create a fitting with the Routing Component Wizard. Select and create C-points and R-points. Use design tables to configure fittings. Save created fittings to the Design Library.
Automatically create a piping route between connections. You choose from one of many possible routes. You can specify that the route goes around model geometry or through reference geometry. Drag and drop flanges. Create a new piping route. Create route geometry using auto-route. View multiple route solutions. Evaluate route solutions.
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.
Make changes to route geometry using 3D sketches. Edit routes by deleting, trimming, and adding sketch geometry. Delete existing fittings and add replacements fittings. Edit existing routes. Delete existing fittings. Add replacement fittings.
Create flexible tubing routes between existing components in an assembly. Edit tubing routes to accomodate tubing clips and cylindrical envelopes. Use the Repair Route command and the Re-route Spline option to resolve any errors. Create flexible tube routes. Edit routes using tubing clips and envelopes.
A From-To List is an Excel spreadsheet that defines electrical connection data for each wire routed in a cable assembly and components, such as connectors, terminal blocks, and ring terminals, to which the wires connect. From-To Lists allow the import of connection and component data into a route subassembly. Create a component library using the Component Library Wizard. Create a cable wire library using the Cable Wire Library Wizard. Use a component library and a cable wire library to create a From-To List with the From-To List Wizard. Place connectors to start routing. Use the \"Guidelines\" routing mode to create geometry for a route. Use the \"Re-route spline\" routing mode to modify a route to pass through pre-defined clips.
Learn how shells are used to model thin structures. Create shells on thin structures using the shell manager. Apply symmetry fixtures to reduce computational efforts.
Understand how contacts can be used when analyzing the natural vibration of assembly structures. Analyze the mode shapes, which correspond to resonant frequencies, in an assembly. Test various contact conditions to analyze structure stiffness.