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Presentation transcript:

We’ll be starting shortly Welcome to the lecture We’ll be starting shortly

Fusion 360 Session Three: Assemblies and Drawing Annotation Presenter: Thayne Wickam Q & A: Harpreet Waraich

IMAGINiT Technologies in New Hampshire Instructor Bio Thayne Wickam IMAGINiT Technologies in New Hampshire Automation industry from 1986-1994 Used Autodesk products since 1986 Autodesk and/ or resellers since 1994 Involved with Implementation and Training Autodesk support world-wide from 2004-2010 For AutoCAD Electrical Instructor Bio: Thayne Wickam IMAGINiT Technologies in New Hampshire Automation industry from 1986-1994 Used Autodesk products since 1986 Autodesk and/ or resellers since 1994 Involved with Implementation and Training Autodesk support world-wide from 2004-2010, for AutoCAD Electrical

PDF for Session One Exercises: Session One Recording From Session One Resources: PDF for Session One Exercises: https://corp.thinkedu.com/portfolio/fusion-360-session-2-powerpoint-exercise-pdf/ Session One Recording https://recordings.join.me/renaho6x0E2LLUOcDgr0gg Dataset for External Files in Session Handouts: https://corp.thinkedu.com/portfolio/fusion-360-course-portfolio/ From Session One: Resources: PDF for Session One Exercises: https://corp.thinkedu.com/portfolio/fusion-360-session-2-powerpoint-exercise-pdf/ Session One Recording https://recordings.join.me/renaho6x0E2LLUOcDgr0gg Dataset for External Files in Session Handouts: https://corp.thinkedu.com/portfolio/fusion-360-course-portfolio/

Drawing and Annotation Agenda Apply Joints Create Patterns Sub-Assemblies Inspect Drawing and Annotation Today we will be covering: Apply Joints Create Patterns Sub-Assemblies Inspect Drawing and Annotation

How to identify components in a design: Apply Joints How to identify components in a design: Identifying components can be done using the Component Color Swatch under the Inspect panel. From our last session, we created multiple bodies from pre-existing features and during the creation of features. We also were able to create components from the bodies or while creating a feature. In this session we will understand the difference of a body and a component and how they behave in the design.

A component contains bodies only: Apply Joints A component contains bodies only: The steering linkage appears as one component with multiple bodies.. Components are designed from several different features. Some of those features can be other bodies in the component.

How to apply joints to components in a design: The stationary linkage displays as an assembly with multiple components. Each component contains bodies. Assemblies consist of components and bodies. The components contain bodies and possibly components, if they are a sub-assembly.

How to apply joints to components in a design: Using the history shows the process already done. Joints place components together by faces, edges or end/ mid points. These constraints place the components accurately together to verify the design will fit together.

Exercise One: Identifying components Apply Joints Exercise One: Identifying components Turn on Component Color Swatch, in the Settings, located in the lower right corner of Fusion 360 Toggle on Component Color Cycling under the Inspect panel (Can use Shift+N) Do the following steps: Turn on Component Color Swatch, in the Settings, located in the lower right corner of Fusion 360 Toggle on Component Color Cycling under the Inspect panel (Can use Shift+N)

Exercise One: Identifying components Apply Joints Exercise One: Identifying components This will make the components display in different colors on the design. Notice the front steering is one component, while the stationary linkage is separate components. This will make the components display in different colors on the design. Notice the front steering is one component, while the stationary linkage is separate components.

Exercise One: Identifying components Apply Joints Exercise One: Identifying components Select and isolate the steering and stationary linkage, to see the difference in the two linked designs. Expand the two linked designs in the browser to look at the components or bodies. Do the following steps: Select and isolate the steering and stationary linkage, to see the difference in the two linked designs. Expand the two linked designs in the browser to look at the components or bodies. Right click in the design window and unisolate all. Toggle off Component Color Swatches, using a Shift+N. Right click in the design window and unisolate all. Toggle off Component Color Swatches, using a Shift+N.

Where are joints used?: Apply Joints Joints can be applied to just about anything but work features (plane. point and axis). Most joints are related to holes, edges or faces. These features may need to be created before joints can be used. Joints can be applied to just about anything but work features (plane. point and axis). Most joints are related to holes, edges or faces. These features may need to be created before joints can be used.

Finding the base component: Apply Joints Finding the base component: The base component is the component everything else will be built on. Before we can apply joints we must decipher the component that all other components will be constraint to.The base component is the component everything else will be built on.

Exercise Two: Ground base component Apply Joints Exercise Two: Ground base component Ground the linked Derby Floorboard Bottom, to prevent it from moving in the design. Select both Derby Floorboard Bottom and Derby Floorboard Top in the Browser Do the following steps: Ground the linked Derby Floorboard Bottom, to prevent it from moving in the design. Select both Derby Floorboard Bottom and Derby Floorboard Top in the Browser Right click and isolate. This should turn off the visibility of Derby Fuselage, Derby Stationary Linkage and Derby Steering Linkage. Right click and isolate. This should turn off the visibility of Derby Fuselage, Derby Stationary Linkage and Derby Steering Linkage.

Creating a mirror pattern for hole features: Create a Pattern Creating a mirror pattern for hole features: Processes can be controlled if a rectangular/ circular spacing or a mirror can be used. One change in the pattern changes the complete pattern. Processes can be controlled if a rectangular/ circular spacing or a mirror can be used. One change in the pattern changes the complete pattern.

Exercise Three: Creating a mirror sketch pattern Create a Pattern Exercise Three: Creating a mirror sketch pattern Create a sketch on the top of Derby Floorboard Top. Create the following points for hole locations Project the Z axis Mirror the points using the Z axis for the mirror line Do the following steps: Create a sketch on the top of Derby Floorboard Top. Create the following points for hole locations Project the Z axis Mirror the points using the Z axis for the mirror line

Exercise Three: Creating a mirror sketch pattern Create a Pattern Exercise Three: Creating a mirror sketch pattern Create a simple .25 inch through hole at the 10 point locations located on the sketch. Do the following steps: Create a simple .25 inch through hole at the 10 point locations located on the sketch.

Exercise Four: Constraining the floorboards Apply Joints Exercise Four: Constraining the floorboards The holes could be used to fasten the two boards together but we will use the front arcs to place a round joint. Go to the home view Select the Floorboard Top and drag it to the upper left. Capture the move in the history Do the following steps: Go to the home view Select the Floorboard Top and drag it to the upper left. Capture the move in the history

Exercise Four: Constraining the floorboards Apply Joints Exercise Four: Constraining the floorboards Select the bottom center of the floorboard top and the top center of the arc on the floorboard bottom Apply a rigid constraint since the two boards are glued together. Do the following steps: Select the bottom center of the floorboard top and the top center of the arc on the floorboard bottom Apply a rigid constraint since the two boards are glued together.

Exercise Four: Constraining the floorboards Apply Joints Exercise Four: Constraining the floorboards Go to the home view Select the Floorboard Top and drag it to the upper left. Do the following steps: Go to the home view Select the Floorboard Top and drag it to the upper left.

Create another Hole Pattern Exercise Five: Creating mounting holes for the fuselage Right click in the design window and select to undo the isolate Select the Derby Fuselage and Derby Floorboard Top and do an isolate Create the following sketch on one of the two flat surfaces of the fuselage Do the following steps: Right click in the design window and select to undo the isolate Select the Derby Fuselage and Derby Floorboard Top and do an isolate Create the following sketch on one of the two flat surfaces of the fuselage

Create another Hole Pattern Exercise Five: Creating mounting holes for the fuselage Create .25 inch holes at both points that go 1 inch into both components Note: Exercise Sheet has more holes to create on the tangent surfaces of the fuselage. Do the following steps: Create .25 inch holes at both points that go 1 inch into both components Note: Exercise Sheet has more holes to create on the tangent surfaces of the fuselage.

Create another Hole Pattern Exercise Six: Mirror hole features to other side Mirror the hole features to the other side using the YZ plane. Do the following steps: Mirror the hole features to the other side using the YZ plane.

Exercise Seven: Constraint mounting holes for fuselage Apply Joints Exercise Seven: Constraint mounting holes for fuselage Pick and drag the fuselage. Capture the movement. Do the following steps: Pick and drag the fuselage. Capture the movement.

Exercise Seven: Constraint mounting holes for fuselage Apply Joints Exercise Seven: Constraint mounting holes for fuselage Constraint the hole for the Derby Fuselage and Derby Floorboard Top with a Rigid Constraint to keep it in place. Do the following steps: Constraint the hole for the Derby Fuselage and Derby Floorboard Top with a Rigid Constraint to keep it in place.

Create and use sub-assemblies in designs: The Derby Stationary Linkage came in as an assembly with components in it. The components contain bodies. The Derby Stationary Linkage came in as an assembly with components in it. The components contain bodies.

Exercise Eight: Using Sub-Assemblies Right Click on Derby Steering Linkage and Copy the design Rename the design Derby Steering Linkage Edit Open the new design and right click on the body for the shaft. Select Create Component from Bodies This will create a new component Rename the new component Shaft. Do the following steps: Right Click on Derby Steering Linkage and Copy the design Rename the design Derby Steering Linkage Edit Open the new design and right click on the body for the shaft. Select Create Component from Bodies This will create a new component Rename the new component Shaft.

Exercise Eight: Using Sub-Assemblies Select the wheel and washer bodies and delete them Do the following steps: Select the wheel and washer bodies and delete them

Exercise Eight: Using Sub-Assemblies Place a Revolute joint on the top of the washer and the bottom of the Shaft. Do the following steps: Place a Revolute joint on the top of the washer and the bottom of the Shaft.

Exercise Eight: Using Sub-Assemblies Enable All Contact. Pick and drag the shaft. The shaft is limited on its movement. Save and close the file. Do the following steps: Enable All Contact. Pick and drag the shaft. The shaft is limited on its movement. Save and close the file.

How to inspect your designs: Distance and Area can be applied to surfaces, edges, bodies and components. Distance and Area can be applied to surfaces, edges, bodies and components.

Exercise Nine: Inspect surfaces, bodies, components Measure the distance between shafts using faces Measure the distance between the bodies of the steering linkage wheels Measure the distance between the components of the stationary linkage wheels Measure the surface of the top of the fuselage Do the following steps: Measure the distance between shafts using faces Measure the distance between the bodies of the steering linkage wheels Measure the distance between the components of the stationary linkage wheels Measure the surface of the top of the fuselage

Other ways to inspect your designs: Interference will let you know if components are sharing the same space. Curvature Comb can analyze the tangencies of a curved edge. I will demonstrate the rest of the analysis options. You can try them at your own pace: Interference will let you know if components are sharing the same space. Curvature Comb can analyze the tangencies of a curved edge.

Other ways to inspect your designs: Zebra analysis will analyze the smoothness going between surfaces, to pinpoint creases or other defects. Draft analysis shows angle draft from a specified direction. Zebra analysis will analyze the smoothness going between surfaces, to pinpoint creases or other defects. Draft analysis shows angle draft from a specified direction.

Other ways to inspect your designs: Curvature map analysis Sharp curves are displayed hot will gradual curves are cooler. Section analysis displays the Design with a section cut you specify Curvature map analysis Sharp curves are displayed hot will gradual curves are cooler. Section analysis displays the Design with a section cut you specify

Other ways to inspect your designs: Center of mass displays on the object selected. Center of mass displays on the object selected.

Exercise Twelve: Inspect surfaces, bodies, components Do an interference between the Fuselage and the Stationary Linkage shaft. Do a Curvature Comb analysis of the back edge of the cockpit opening. Do a Zebra analysis of the fuselage. Do a draft analysis with the top face of the Floorboard Top as the draft direction. Do a Curvature analysis of the fuselage. Do a section analysis using the YZ plane for sectional reference Do the following steps: Do an interference between the Fuselage and the Stationary Linkage shaft. Do a Curvature Comb analysis of the back edge of the cockpit opening. Do a Zebra analysis of the fuselage. Do a draft analysis with the top face of the Floorboard Top as the draft direction. Do a Curvature analysis of the fuselage. Do a section analysis using the YZ plane for sectional reference

Drawing and Annotation How to make drawings and annotation for your designs: Drawings are the way to communicate your design to others. This is done through graphical representation and annotated dimensions and notes. Drawings are the way to communicate your design to others. This is done through graphical representation and annotated dimensions and notes.

Drawing and Annotation Exercise Nine: Create a drawing from a design Right click on Derby Assembly and select Create drawing Take the defaults in the Create Drawing dialog box Use the Right orientation Set to 1:15 Scale Do the following steps: Right click on Derby Assembly and select Create drawing Take the defaults in the Create Drawing dialog box Use the Right orientation Set to 1:15 Scale

Drawing and Annotation Exercise Nine: Create a drawing from a design Select from the Drawing View panel or right click on the base view and select Create Perspective View. Do the following steps: Select from the Drawing View panel or right click on the base view and select Create Perspective View.

Drawing and Annotation Exercise Nine: Create a drawing from a design Right click the top view to edit the view Change to wireframe with hidden edges. Right click the perspective view to edit the view Change to shade with visible edges. Do the following steps: Right click the top view to edit the view Change to wireframe with hidden edges. Right click the perspective view to edit the view Change to shade with visible edges.

Drawing and Annotation Exercise Nine: Create a drawing from a design Hole marks can be added to a drawing to give more reference detail. Create a centerline by selecting the edges of the diameter of the hole shaft. Create a center line mark for the circular hole. Do the following steps: Create a centerline by selecting the edges of the diameter of the hole shaft. Create a center line mark for the circular hole.

Drawing and Annotation Exercise Nine: Create a drawing from a design Dimensions can be added to a drawing to give accurate detail on size and perspective Add some linear and radial dimensions to the drawing as shown. Do the following steps: Add some linear and radial dimensions to the drawing as shown.

Drawing and Annotation Exercise Ten: Create Notes Notes define details that can only be relayed verbally Create a note and a note with a leader. Do the following steps: Create a note and a note with a leader.

Drawing and Annotation Exercise Eleven: Tables and Balloons Tables are used for items such as a parts list with item numbers, while the balloons identify the components by the item number. Add a parts list and balloons. Do the following steps: Add a parts list and balloons.

We are happy to answer any questions you may have. Contact Info: info@rand.com Technical Support: 888-528-4765 Phone: 800-356-9050 imaginit.com This will conclude this session. The next session will explain the difference of bodies and components. We will also continue with adding the fuselage body and the wheel linkage to the floorboard. Looking forward to seeing you next session.

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Receive Your Autodesk Course Completion certificate Type in Course/ Project ID: AM1225531838 Type in the Course/ Project ID, AM1225531838. Fill out the form to register for completion.

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