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.
Add each of the six mechanical mate types to control the degrees of freedom of components when designing mechanisms. Mate a cylinder, plane, or point to a series of tangent faces with a cam follower mate. Limit the rotational movement between two components with a hinge mate. Move one component linearly to move another component rotationally with a rack and pinion mate. Add a pitch relation between the rotation of one component and the translation of another with a screw mate. Rotate two components relative to one another with a gear mate or a universal joint mate.
Use the Assembly Visualization tool to display, sort, and select components by property. Navigate the assembly visualization pane to sort or group components. Change the color of components to improve visualization in the graphics area. Add custom columns to the assembly visualization pane. Export the information in the assembly visualization pane.
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.
Create smart components by selecting components and features in a defining assembly. Then, insert smart components into an assembly to add the components and create the features. Create smart components in a defining assembly. Insert smart components into an assembly to create components and features. Select reference faces for the features of a smart component.
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.
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.
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.
Create basic, aligned, offset, and partial or half-section views, including scope and advanced properties. Add several types of section views to a drawing. Define section view properties. Modify section views.
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.
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.
Compare the features of two parts and classify the differences into two categories: unique features that exist in only one part and modified features that exist in both parts. Find differences between the features of similar parts. Classify the features as unique or modified.
Utilize functions of the Costing Task Pane and CostingManager tab to analyze the cost of manufacturing a machined part. Use the Costing Task Pane to evaluate materials costs. Learn how to customize material options for material and stock size. Use the Costing Manager to evaluate manufacturing costs. Learn how to customize cost values for manufacturing. Understand the values displayed in the Estimated Cost Per Part. Learn how to apply a markup or discount. Generate a cost analysis report.
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.
Manually create a 3D-sketched route using angled guides, lines, elbows, and the merge command for a case where Auto Route is ineffective. Use angled guides, lines, elbows, and the merge command to create a 3D sketch. Use a 3D sketch to manually create a route.
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 piping drawings with orthographic views, bills of materials, detailed views, and annotations by using the piping drawing and standard drawing tools. Add annotations and dimensions to drawings. Create piping drawings. Add bill of materials to drawing.
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.
Learn to create tube drawings with appropriate dimensioning, a bill of materials, and multiple orthographic views and projections. Create a tube drawing from an existing part. Add additional views and a bill of materials to the drawing. Create centerlines and driven dimensions on the additional views of the part.
Use extruded, revolved, and swept surfaces to create geometry. Trim, extend, knit, and thicken the surfaces to finish the thin-walled model. Extrude a sketch to create a surface. Revolve a sketch about an axis to create a surface. Trim a surface using a sketch or another surface as the trim tool. Sweep an open profile along a path to create a surface. Combine multiple surfaces into a single body using knit surfaces. Thicken a surface body to create a solid body.
Use several direct editing techniques for working with imported geometry using surfacing tools. Explore the Delete Face tool, the Delete Hole command, and the Untrim Surface tool. Use the Delete Face tool to remove an unwanted imported geometry feature. Use Delete Hole and Untrim Surface to remove an unwanted imported geometry feature. Convert a surface body into a solid body using the Thicken command.
