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Autodesk inventor 2018 and engineering graphics free
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Autodesk inventor 2018 and engineering graphics free
The binary tree is an effective way to keep track of the history of the resulting solid. This provides a convenient way to modify the model. We can make modifications at the appropriate links in the binary tree and re-link the rest of the history tree without building a new model. In Autodesk Inventor, the CSG concept can be used as a planning tool to determine the number of features that are needed to construct the model.
It is also a good practice to create features that are parallel to the manufacturing process required for the design. With parametric modeling, we are no longer limited to using only the predefined basic solid shapes. In fact, any solid features we create in Autodesk Inventor are used as primitive solids; parametric modeling allows us to maintain full control of the design variables that are used to describe the features.
In this lesson, a more in-depth look at the parametric modeling procedure is presented. The equivalent CSG operation for each feature is also illustrated. In your sketch, how many Boolean operations will be required to create the model? What is your choice of the first primitive solid to use, and why?
Take a few minutes to consider these questions and do the preliminary planning by sketching on a piece of paper. Compare the sketch you make to the CSG binary tree steps shown on the next page. Note that there are many different possibilities in combining the basic primitive solids to form the solid model. Even for the simplest design, it is possible to take several different approaches to creating the same solid model. We should determine the value of the units within the CAD system before creating the first geometric entities.
For example, in one model, a unit might equal one millimeter of the real-world object; in another model, a unit might equal an inch. In Autodesk Inventor, the Choose Template option is used to control how Autodesk Inventor interprets the coordinate and angle entries. Select the Metric tab as shown below. We will use the millimeter mm setting for this example. Pick Create in the Startup dialog box to accept the selected settings.
Depending upon the design intent, additional features are added to the base feature. Activate the Start 2D Sketch icon with a single click of the left-mouse-button. Move the cursor over the edge of the XZ Plane in the graphics area.
When the XZ Plane is highlighted, click once with the left-mouse-button to select the Plane as the sketch plane for the new sketch. In the Ribbon toolbar panel, select [Tools] [Document Settings]. In the Document Settings dialog box, click on the Sketch tab as shown in the below figure. Set the X and YSnap Spacing to 5 mm. Change Grid Display to display one major line every 5 minor lines. Pick OK to exit the Sketch Settings dialog box. Note that the above Snap Spacing settings actually set the grid spacing in Autodesk Inventor.
Although the Snap to grid option is also available in Autodesk Inventor, its usage in parametric modeling is not recommended. Refer to Page on how to switch on the grid lines display options if necessary. Switch back to the Sketch tab and select the Two point rectangle command by clicking once with the left-mouse-button.
Create a rectangle of arbitrary size by selecting two locations on the screen as shown below. Select OK to end the Rectangle command. Activate the General Dimension command by clicking once with the left-mouse-button. Inside the graphics window, click once with the right- mouse-button to bring up the option menu and click Edit Dimension to turn OFF the editing option while creating dimensions.
How To,,. Note that the value displayed on your screen might be different than what is shown in the above figure. On your own, create a vertical size dimension of the sketched rectangle as shown. Inside the graphics window, click once with the right- mouse-button to bring up the option menu and click OK to end the Dimension command. In the Ribbon tabs, select [Tools] [Document Settings].
Pick OK to exit the Document Settings dialog box. Modifying the Dimensions of the Sketch Edit Dimension : dl Enter 50 to set the selected length of the sketch to 50 millimeters. On your own, repeat the above steps and adjust the dimensions so that the sketch appears as shown below. Also exit the Dimension command. Move the cursor near the vertical dimension; note that the dimension is highlighted.
Move the cursor slowly until a small marker appears next to the cursor, as shown in the figure. Drag with the left-mouse-button to reposition the selected dimension. Repeat the above steps to reposition the horizontal dimension. In the Inspect Ribbon tab, left-click once on the Measure option as shown. Note that other measurement options are also available in the toolbar.
Click on the top edge of the rectangle as shown. Measure x Selection 1 Curve Length The associated length measurement of the selected geometry is displayed in the Length dialog box as shown.
How To.. Move the cursor on top of any of the edges and click once with the right- mouse-button to bring up the Option menu and choose Select Other Length In the Inspect Ribbon tab, left-click once on the Region Properties option as shown. Select sketch loops. In the Region Properties dialog box, click on the Calculate button to perform the calculations of the associated geometry information.
Click Done to exit the Region Properties command. Select Finish Sketch in the Ribbon to end the Sketch option. In the Extrude pop-up window, enter 15 as the extrusion distance.
Use the Dynamic Viewing options to view the created part. Press F6 to change the display to the isometric view as shown before going to the next section. Use the ViewCube to adjust the display viewing the bottom face of the solid model as shown below. Pick the bottom face of the 3D model as the sketching plane. Autodesk Inventor automatically establishes a User-Coordinate-System UCS and records its location with respect to the part on which it was created.
Inside the graphics window, click once with the right-mouse-button to bring up the option menu and choose the snap to Midpoint option. Select the left edge of the base feature to align the center point of the new circle. Select the green dot to align the midpoint of the line.
Select the top comer of the base feature to create a circle as shown in the figure. Inside the graphics window, click once with the right-mouse-button to display the option menu. Select OK to end the Circle command. In the Ribbon toolbar, select Finish Sketch to exit the Sketch mode. Press the function key F6 once or select Home View in the ViewCube to change the display to the isometric view as shown. In the 3D Model tab, select the Extrude command by left-clicking the icon.
By default, Autodesk Inventor will preselect the circle we just created and create the extruded feature downward as shown. Constructive Solid Geometry Concepts In the Extrude pop-up control, enter 40 as the blind extrusion distance as shown below. Set the solid operation to Join. Click on the Direction 2 button to reverse the direction of extrusion upward as shown below.
Click on the OK button to proceed with the Join operation. We will align the sketch plane to the top of the last cylinder feature. Pick the top face of the cylinder as shown. Pick the top face to align the sketch. Select the Center point of the top face of the 3D model as shown.
Constructive Solid Geometry Concepts Sketch a circle of arbitrary size inside the top face of the cylinder as shown to the left. Use the right-mouse-button to display the option menu and select OK in the pop-up menu to end the Circle command. Select the General Dimension option in the pop-up menu. Create a dimension to describe the size of the circle and set it to 30mm. Select OK in the pop-up menu to end the Dimension command. In the 3D Model tab, select the Extrude command by left-clicking on the icon.
In the Extrude pop-up window, the Profile button is pressed down; Autodesk Inventor expects us to identify the profile to be extruded. Move the cursor inside the circle we just created and left-click once to select the inside region as the profile to be extruded. In the Extrusion pop-up window, set the operation option to Cut. Select Through All as the Extents option, as shown below. Confirm the arrowhead points downward.
Click on the OK button to proceed with the Cut operation. Constructive Solid Geometry Concepts Creating a Placed Feature In Autodesk Inventor, there are two types of geometric features: placed features and sketched features. The last cut feature we created is a sketched feature, where we created a rough sketch and performed an extrusion operation. We can also create a hole feature, which is a placed feature. A placed feature is a feature that does not need a sketch and can be created automatically.
Holes, fillets, chamfers, and shells are all placed features. Pick a location inside the top horizontal surface of the base feature as shown. Enter 20 mm as the diameter of the hole as shown. Do Not click the OK button yet. Pick the right-edge of the top face of the base feature as shown. This will be used as the first reference for placing the hole on the plane. Enter 30 mm as the distance as shown. Pick the adjacent edge of the top face as shown.
This will be used as the second reference for placing the hole on the plane. Enter 25 mm as the distance as shown. In Holes dialog box, set the Termination option to Through All. Click on the OK button to proceed with the Hole feature. Sketch I.. Pick the right face of the base feature as shown.
Select the Two point rectangle command by clicking once with the left-mouse-button on the icon in the Sketch tab of the Ribbon toolbar. Create a rectangle that is aligned to the top and bottom edges of the base feature as shown. Hit [F6] to set the display orientation if necessary. On your own, create and modify the two dimensions as shown. Select Finish Sketch in the Ribbon toolbar to end the Sketch option. Move the cursor inside the rectangle we just created and left-click once to select the region as the profile to be extruded.
Select To Next as the Extents option as shown. Set the arrowhead points toward the center of the solid model. Click on the OK button to create the Cut feature and complete the design. Enter Chapter3 as the new folder name as shown. Double-click on the Chapter3 folder to open it. In the file name editor box, enter Locator as the file name. List and describe three basic Boolean operations commonly used in computer geometric modeling software. What is a primitive solid?
What does CSG stand for? Which Boolean operation keeps only the volume common to the two solid objects? Create the following 2D Sketch and measure the associated area and perimeter.
Using the CSG concepts, create Binary Tree sketches showing the steps you plan to use to create the two models shown on the next page: Constructive Solid Geometry Concepts Exercises: Create and save the exercises in the Chapter3 folder. Latch Clip Dimensions are in inches. Thickness: 0. Guide Plate Dimensions are in inches. Boss height 0. The two diameter 1. Coupling Base Dimensions are in inches. Traditionally, manual graphical construction uses simple hand tools like the T-square, straightedge, scales, triangles, compass, dividers, pencils, and paper.
The manual drafting tools are designed specifically to assist the construction of geometric shapes. For example, a T-square and drafting machine can be used to construct parallel and perpendicular lines very easily and quickly.
Today, modem CAD systems provide designers much better control and accuracy in the construction of geometric shapes. In technical drawings, many of the geometric shapes are constructed with specific geometric properties, such as perpendicularity, parallelism and tangency.
For example, in the drawing below, quite a few implied geometric properties are present. Knowledge of the principles of geometric construction and its applications are essential to Designers, Engineers and CAD users. For 2D drawings, it is crucial to be able to construct geometric entities at specified angles to each other, various plane figures, and other graphic representations.
In this section, we will examine both the traditional graphical methods and the CAD methods of the basic geometric constructions commonly used in engineering graphics. This chapter provides information that will aid you in drawing different types of geometric constructions. Given a line or an arc AB. From A and B draw two equal arcs with a radius that is greater than one half of line AB.
Construct a line by connecting the intersection points, D and E, with a straight line to locate the midpoint of line AB. Note that the constructed bisecting line DE is also perpendicular to the given line AB at the midpoint C. Given an angle ABC. From A draw an arc with an arbitrary radius. Construct two equal radius arcs at D and E. Construct a straight line by connecting point A to the intersection of the two arcs.
Create two arcs, at A and X, with an arbitrary radius R. Measure the distance between point D and E, using a compass. Construct an arc at Y, using the distance measured in the previous step. Given a line AB, the line is to be divided into five equal parts.
Construct another line at an arbitrary angle. Measure and mark five units along the line. Construct a line connecting the fifth mark to point B. Create four lines parallel to the constructed line through the marks.
Given three points A, B and C. Construct a bisecting line through line AB. Construct a second bisecting line through line AC. The two bisecting lines intersect at point D. Geometric Constructions A line tangent to a circle intersects the circle at a single point. For comparison, secant lines intersect a circle at two points, whereas another line may not intersect a circle at all. In machine design, a smooth transition from surface to surface is typically desired, both for esthetic and functionality considerations.
Tangency is therefore a common implied geometric property in Mechanical and Manufacturing Engineering practices. Conversely, the perpendicular to a radius through the same endpoint is a tangent line. Note that tangency can also be established in between curves. Given a circle, center point C and a point A. Create a bisecting line through line AC. Construct the tangent line by connecting point A at the intersection of the arc and the circle. Given two lines and a given radius R. Create a parallel line by creating two arcs of radius R, and draw a line tangent to the two arcs.
Create another line parallel to the bottom edge by first drawing two arcs. Construct the required circle at the intersection of the two lines using the given radius R. Given a radius R, a line and an arc. Create the desired circle at the intersection using the given radius R.
Given a radius R and two arcs. Create a concentric arc at the center of the small arc, using a radius that is R distance more than the original radius. Create another concentric arc at the center of the large arc using a radius that is R distance smaller than the original radius.
Once the program is loaded into memory, the Startup dialog box appears at the center of the screen. Select the New icon with a single click of the left- mouse-button in the Launch toolbar as shown.
Select the English tab, and in the Part template area select Standard in. Click once with the left-mouse-button to select the Create 2D Sketch command. Click once with the left-mouse-button to select the XY Plane as the sketch plane for the new sketch. Most CAD systems provide a variety of object construction and editing tools to relieve the designer of the tedious drudgery of this task, so that the designer can concentrate more on design content. A good understanding of the computer geometric construction techniques will enable the CAD users to fully utilize the capability of the CAD systems.
Note that with CAD systems, besides following the classic geometric construction methods, quite a few options are also feasible. Activate the Line command again by clicking on the icon as shown.
Move the cursor along the arc and notice a Green marker appeared on the arc indicating the midpoint. Click once with the left mouse button to attach the first endpoint of the line at this location. Move the cursor along the line and notice a Green marker appeared on the arc indicating the midpoint. Click once with the left mouse button to attach the second endpoint of the line at this location. Note the small symbol next to the cursor shows the geometric property at the current location.
In this case, the new line will be aligned to the midpoint of the existing line. The Green dot indicates the alignment to the midpoint. Geometric Constructions Dimensions and Relations A primary and essential difference between parametric modeling and previous generation computer modeling is that parametric modeling captures the design intent. Besides using dimensions to define the geometry, we can also apply geometric rules to control geometric entities.
More importantly, Autodesk Inventor can capture design intent through the use of geometric relations, dimensional constraints and parametric relations. Geometric relations are geometric restrictions that can be applied to geometric entities; for example, horizontal, parallel, perpendicular, and tangent are commonly used geometric relations in parametric modeling.
For part modeling in Autodesk Inventor relations are applied to 2D sketches. They can be added automatically as the sketch is created or by using the Constrain Toolbar. They are added using the Autodesk Inventor Smart Dimension command. You should also realize that depending upon the way the geometric relations and dimensional constraints are applied, the same results can be accomplished by applying different constraints to the geometric entities.
Global variables are used when multiple dimensions have the same value. The dimension value is applied through the use of a named variable. Autodesk Inventor Equations are user-defined mathematical relations between model dimensions, using dimension names as variables. In parametric modeling, features are made of geometric entities with dimensional, geometric, and parametric constraints describing individual design intent.
In this lesson, we will discuss the fundamentals of geometric relations and equations. Collinear Collinear constraint: Causes two lines or ellipse axes to lie along the same line. X’ Perpendicular Perpendicular constraint: Causes selected curves or ellipse axes to lie at right angles to one another. Tangent Tangent constraint: Constrains two curves to be tangent to one another.
Smooth G2 Smooth G2 constraint: Creates a curvature continuous G2 condition between a spline and a line, arc, or spline. Activate the Centerpoint Arc command by clicking on the icon as shown. Create the arc by first selecting the vertex point of the angle as the center of the new arc. Move the cursor along the bottom leg of the angle and place the first endpoint on the line as shown.
Confirm the other end of the arc intersects with the other leg as shown. Place the other endpoint of the arc on the other leg as shown. Create a bisecting line of the angle as shown. On your own, create a line at an arbitrary angle; the line is to be divided into five equal parts.
Select the line to apply the Fix constraint and lock the line. Activate the Line command by clicking on the icon as shown. Click on the lower endpoint of the line to attach the new line and create a perpendicular line as shown. On your own, create four additional short line segments at arbitrary angles toward the right side of the previous line as shown. Note the last line segment on the right side is a vertical line as the vertical symbol is displayed next to the line. Note the icons in the status toolbar act as a toggle switch; each click turns on or off the selected option.
On your own, move the cursor on top of the displayed constraint icon. The affected objects will be highlighted. Geometric Constructions Move the cursor on top of the Vertical constraint. Right-click once to bring up the option list and select Delete as shown.
Note that any of the applied geometric relations can be deleted. Parallel Constraint icon to activate the Select the short line segment to the left, the one with the perpendicular constraint, as shown. Select the line next to the previously selected line to make both lines parallel toward each other. On your own, repeat the above steps and make all of the short line segments parallel to each other as shown. Select the Smart Dimension command by clicking once with the left-mouse-button on the icon in the Constrain toolbar.
On your own, use the Aligned option and create the dimension above the line as shown. On your own, create a dimension between the first two parallel lines toward the left side. SDC Publications. Item Width:. Number of Pages:. Back to home page Return to top. More to explore :. Windsor Magazines , H. Windsor Magazines , Automobiles Monthly H. Condition: Brand New.
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Autodesk Inventor and Engineering Graphics Paperback Randy H | eBay
Using step by step tutorials, graphicz text will teach you how to create and read engineering drawings while becoming proficient at using the most common features of Autodesk Inventor.
By the end of the book you will be fully prepared to take and pass the Autodesk Inventor Certified User Exam. This text is autodesk inventor 2018 and engineering graphics free to be used as a training guide for students and professionals.
The chapters in this text proceed in a pedagogical fashion to guide you from constructing basic shapes to making complete sets of engineering drawings.
This text takes a hands-on, exercise-intensive approach to all the important concepts of Engineering Graphics, as well autodedk in-depth продолжить of parametric feature-based CAD techniques. This textbook contains a series of fifteen chapters, with detailed step-by-step tutorial style lessons, designed to introduce beginning CAD users to the graphic language used in autodesk inventor 2018 and engineering graphics free branches of technical industry.
It is intended to help you establish a good basis for exploring and growing in the exciting field of Computer Aided Engineering. Autodesk Inventor Certified User Examination The content of this book covers the grahpics tasks that have been identified by Autodesk as being included on the Autodesk Inventor Certified User examination.
Special reference guides show you where the performance tasks are covered autodesj the book. Table autodeks Contents 1. Introduction 2. Parametric Modeling Fundamentals 3. Constructive Solid Geometry Concepts 4. Geometric Constructions 5. Model History Tree 6. Geometric Construction Tools 7. Orthographic Projection and Multiview Constructions 8.
Dimensioning and Notes 9. Tolerancing and Fits Pictorials and Sketching Auxiliary Views and Reference Geometry Threads and Fasteners Assembly Modeling and Working Drawings Introduction to Stress Analysis Appendix A. Metric Limits and Fits Appendix C.
Продолжение здесь Thread Form Appendix E. Fasteners Inch Series Appendix F. Metric Fasteners Grphics G.
Fasteners Appendix H. Apple Books Preview. Publisher Description. More Books by Randy H.