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Once the sketch is completed, you need to convert it into a feature using the modeling commands. This tab provides all the modeling tools that can be used to convert a sketch into a feature. The tools in the 3D Model tab are shown in Figure As the first feature in most of the designs is a sketched feature, therefore you first need to create the sketch of the feature to be created.
Once you have completed a sketch, you can choose either the Finish Sketch button from the Exit panel of the Sketch tab in the Ribbon or the Return button from the Quick Access Toolbar. This tab provides the tools that are used to create sheet metal parts. This toolbar will be available only when you are in the sheet metal environment. If the Convert panel is not available in the 3D Model tab, you need to customize to add it. You will learn more about customizing later in this book.
The tools in the Sheet Metal tab are shown in Figure This tab will be available only when you open any assembly template with extension.
This tab provides you all the tools that are required for assembling components. The tools in the Assemble tab are shown in Figure This tab provides the tools that are used to create different views of the components.
This tab will be available only when you are in the Drafting environment. The tools in the Place Views tab are shown in Figure This tab provides the tools that are used to create different presentation views of the components. This tab will be available only when you open any presentation template with extension.
The tools in the Presentation tab are shown in Figure This tab contains tools that are mainly used for setting the preferences and customizing the Autodesk Inventor interface. This tab is available in almost all the environments. The tools in the Tools tab are shown in Figure The tools in this tab enable you to control the view, orientation, appearance, and visibility of objects and view windows.
The tools in the View tab are shown in Figure The tools of a particular tab are arranged in different panels in the Ribbon. Some of the panels and tools have an arrow on the right, refer to Figure These arrows are called down arrows.
When you choose these down arrows, some more tools will be displayed in the drop-downs, see Figure Figure More tools displayed on choosing the down arrow on the right of a tool in the Ribbon.
The Navigation Bar is located on the right of the graphics area and contains tools that are used to navigate the model in order to make the designing process easier and quicker.
The navigation tools also help you to control the view and orientation of the components in the drawing window. The Navigation Bar is shown in Figure The Browser Bar is available below the Ribbon , on the left in the drawing window. It displays all the operations performed during the designing process in a sequence. All these operations are displayed in the form of a tree view. You can undock the Browser Bar by dragging it.
The contents of the Browser Bar are different for different environments of Autodesk Inventor. For example, in the Part module, it displays various operations that were used in creating the part. Similarly, in the Assembly module, it displays all the components along with the constraints that were used to assemble them. In Autodesk Inventor, you can set units at any time by using the Document Settings dialog box. You can invoke this dialog box by choosing the Document Settings tool from the Options panel in the Tools tab.
After invoking this dialog box, choose the Units tab in the dialog box; various areas related to the units will be displayed. The options in the Units area are used to set the units. To set the unit for linear dimension, select the required unit from the Length drop-down.
Similarly, to set the unit for angular dimension, select the required unit from the Angle drop-down. Next, choose the OK button to apply the specified settings and close the dialog box. If you want to apply the specified settings without closing the dialog box, choose the Apply button. If you choose the Apply button, the OK button is replaced by Close.
Now, you can choose the Close button to close the dialog box. Before you proceed further in Autodesk Inventor, it is very important for you to understand the following terms widely used in this book. A feature is defined as the smallest building block that can be modified individually. In Autodesk Inventor, the solid models are created by integrating a number of building blocks.
Therefore, the models in Autodesk Inventor are a combination of a number of individual features. These features understand their fit and function properly. As a result, these can be modified whenever required. Generally, these features automatically adjust their values if there is any change in their surroundings.
The parametric nature of a software package is its ability to use the standard properties or parameters to define the shape and size of a geometry. The main function of this property is to derive the selected geometry to a new size or shape without considering its original size or shape. This property makes the designing process very easy as now you can draw a sketch with some relative dimensions and then can use this solid modeling tool to drive to the required actual values.
As mentioned earlier, this solid modeling tool does not restrict its capabilities to the 3D solid output. It is also capable of highly effective assembly modeling, drafting, and presentations. There exists a bidirectional associativity between all these environments of Autodesk Inventor. This link ensures that if any modification is made in the model in any the environments, it is automatically reflected in the other environments as well.
This is a highly effective property that is included in the designing process of this solid modeling tool. In any design, there are a number of components that can be used in various places with a small change in their shape and size. This property makes the part or the feature adapt to its environment. It also ensures that the adaptive part changes its shape and size as soon as it is constrained to other parts. This considerably reduces the time and effort required in creating similar parts in the design.
The Design Doctor is one of the most important parts of the designing process used in the Autodesk Inventor software. It is a highly effective tool to ensure that the entire design process is error free. The main purpose of the Design Doctor is to make you aware of any problem in the design. The Design Doctor works in the following three steps:.
In this step, the Design Doctor selects the sketch, part, assembly, and so on and determines the errors in it. In this step, it examines the errors in the selected design. Each of the errors is individually examined.
This is the last step of the working of the Design Doctor. Once it has individually examined each of the errors, it suggests solutions for them. It provides you with a list of methods that can be utilized to remove the errors from the design. These are the logical operations that are performed on the selected design to make it more accurate or to define its position with respect to some other design. There are four types of constraints in Autodesk Inventor. All these types are explained next.
These logical operations are performed on the basic sketching entities to relate them to the standard properties like collinearity, concentricity, perpendicularity, and so on. Autodesk Inventor automatically applies these geometric constraints to the sketcher entities at the time of their creation. You do not have to use an extra command to apply these constraints on to the sketcher entities.
However, you can also manually apply these geometric constraints on to the sketcher entities. There are twelve types of geometric constraints.
This constraint forces two selected curves to share the same center point. The curves that can be made concentric are arcs, circles, or ellipses. This constraint forces the selected line segments to become equal in length. It can also be used to force two curves to become equal in radius.
This constraint adds a smooth constraint between a spline and another entity so that at the point of connection, the line is tangent to the spline. This constraint fixes the selected point or curve to a particular location with respect to the coordinate system of the current sketch. This constraint forces the selected sketched entities to become symmetrical about a sketched line segment which may or may not be a center line. The assembly constraints are the logical operations performed on the components in order to bind them together to create an assembly.
These constraints are applied to reduce the degrees of freedom of the components. There are five types of assembly constraints which are discussed next. The Mate constraint is used to make the selected faces of different components coplanar. The model can be placed facing the same direction or the opposite direction. You can also specify some offset distance between the selected faces.
The Angle constraint is used to place the selected faces of different components at some angle with respect to each other. The Tangent constraint is used to make the selected face of a component tangent to the cylindrical, circular, or conical faces of the other component.
The Insert constraint forces two different circular components to share the orientation of the central axis. It also makes the selected faces of the circular components coplanar.
The Symmetry constraint is used to make two selected components symmetric to each other about a symmetric plane so that both components remain equidistant from the plane. The assembly joints are the logical operations performed on the components in order to join them together to create an assembly. These joints allow motion between the connected components or in the assembly. There are seven types of assembly joints which are discussed next. The Automatic joint is used to automatically apply best suitable type of joints between the connecting components of the assembly.
The type of joint to be applied automatically will depend upon the selected geometry. The Rigid joint removes all the degrees of freedom from the component. As a result, the components after applying rigid joints can not move in any direction.
The Rigid joint is used to fix two parts rigidly. All the DOFs between the selected parts get eliminated and act as a single component when any motion will be applied to any of the direction. The Rotational joint allows the rotational motion of a component along the axis of a cylindrical component.
The Slider joint allows the movement of a component along a specified path. The component will be joined to translate in one direction only. You can specify only one translation degree of freedom in slider joint. Slider joint are used to simulate the motion in linear direction. The Cylindrical joint allows a component to translate along the axis of a cylindrical component as well as rotate about the axis. You can specify one translation degree of freedom and one rotational degree of freedom in the Cylindrical joint.
The Planar joint is used to connect the planar faces of two components. The components can slide or rotate on the plane with two translation and one rotational degree of freedom.
The Ball joint is used to create a joint between two components such that both the components remain in touch with each other and at the same time the movable component can freely rotate in any direction. To create a ball joint between two components, you need to specify one point from each component.
The joints thus created will generate three undefined rotational DOFs and restrict the other three DOFs at a common point. The motion constraints are the logical operations performed on the components that are assembled using the assembly constraints. There are two types of motion constraints that are discussed next. The Rotation constraint is used to rotate one component of the assembly in relation to the other component.
The Rotation-Translation constraint is used to rotate the first component with respect to the translation of the second component. The transitional constraints are also applied on the assembled components and are used to ensure that the selected face of the cylindrical component maintains contact with the selected faces of the other component when you slide the cylindrical component. A consumed sketch is a sketch that is utilized in creating a feature using tools such as Extrude , Revolve , Sweep , Loft , and so on.
In Autodesk Inventor Professional, you are provided with stress analysis environment which is an analysis tool to execute the static and model stress analysis. You can calculate the displacement and stresses developed in a component with the effect of material and various loading conditions applied on a model. A component fails when the stress applied on it goes beyond a permissible limit.
Figure shows the Displacement plot of leaf spring designed in Autodesk Inventor and analyzed using the analysis tools. While working on the complicated models, sometimes you may need to select the entities that are not visible in the current view or are hidden behind other entities.
To do so, Autodesk Inventor provides you with the Select Other feature automatically displayed when you hover thecursor at a point where more than one entity is available. To select any entity, click on the down arrow; a flyout will be displayed.
Select the desired entity from the flyout; the selected entity will be displayed in blue. Figure shows the Select Other flyout displayed in the modelling environment. You can use this tool in all the modes and environments of Autodesk Inventor.
As mentioned earlier, there is no command prompt in Autodesk Inventor. However, you can use the keys on the keyboard to invoke some tools. The keys that can be used to invoke the tools are called hotkeys.
Remember that the working of the hotkeys will be different for different environments. The use of hotkeys in different environments is given next.
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ISBN NOTICE TO THE READER The publisher makes no representation or warranties of any kind, including but not limited to, the warranties of fitness for particular purpose or merchantability, nor are any such representations implied with respect to the material set forth herein, and the publisher takes no responsibility with respect to such material.
Training for Individuals CADCIM Technologies with its cost effective and time saving initiative strives to deliver the training in the comfort of your home or work place, thereby relieving you from the hassles of traveling to training centers. Formatting Conventions Used in the Textbook Please refer to the following list for the formatting conventions used in this textbook.
Example: Enter 5 in the Radius edit box. Dialog Box The naming conventions used for the components in a dialog box are mentioned in Figure 2. PCX 5. PCX fm PCX 9. Part Module This is a parametric and feature-based solid modeling environment and is used to create solid models.
Assembly Module This module helps you create the assemblies by assembling multiple components using assembly constraints. Presentation Module A major drawback of most solid modeling tools is their limitation in displaying the working of an assembly.
Drawing Module This module is used for the documentation of the parts or assemblies in the form of drawing views. Sheet Metal Module This module is used to create a sheet metal component. Mold Design Module This module is used to create mold design by integrated mold functionality and content libraries using the intelligent tools and catalogs provided in mold design module. Getting Started with Autodesk Inventor Install Autodesk Inventor on your system; the shortcut icon of Autodesk Inventor Professional will automatically be created on the desktop.
Appearance Override You can use this drop-down list to apply different types of colors or styles to the selected features or component to improve its appearance. Material drop-down You can use the options in this drop-down list to apply different types of materials to the selected features or component.
Ribbon and Tabs You might have noticed that there is no command prompt in Autodesk Inventor. Sketch Tab This is one of the most important tabs in the Ribbon. Sheet Metal Tab This tab provides the tools that are used to create sheet metal parts. Important terms and their definitions Before you proceed further in Autodesk Inventor, it is very important for you to understand the following terms widely used in this book.
Feature-based Modeling A feature is defined as the smallest building block that can be modified individually. Parametric Modeling The parametric nature of a software package is its ability to use the standard properties or parameters to define the shape and size of a geometry.
Bidirectional Associativity As mentioned earlier, this solid modeling tool does not restrict its capabilities to the 3D solid output.
Adaptive This is a highly effective property that is included in the designing process of this solid modeling tool. Design Doctor The Design Doctor is one of the most important parts of the designing process used in the Autodesk Inventor software. The Design Doctor works in the following three steps: Selecting the Model and Errors in the Model In this step, the Design Doctor selects the sketch, part, assembly, and so on and determines the errors in it.
Examining Errors In this step, it examines the errors in the selected design. Constraints These are the logical operations that are performed on the selected design to make it more accurate or to define its position with respect to some other design. Geometric Constraints These logical operations are performed on the basic sketching entities to relate them to the standard properties like collinearity, concentricity, perpendicularity, and so on.
Perpendicular Constraint This constraint is used to make the selected line segment normal to another line segment. Parallel Constraint This constraint is used to make the selected line segments parallel.
Coincident Constraint This constraint is used to make two points or a point and a curve coincident. Concentric Constraint This constraint forces two selected curves to share the same center point. Collinear Constraint This constraint forces two selected line segments or ellipse axes to be placed in the same line. Horizontal Constraint This constraint forces the selected line segment to become horizontal. Vertical Constraint This constraint forces the selected line segment to become vertical.
Tangent This constraint is used to make the selected line segment or curve tangent to another curve. Equal This constraint forces the selected line segments to become equal in length.
Smooth This constraint adds a smooth constraint between a spline and another entity so that at the point of connection, the line is tangent to the spline.
Fix This constraint fixes the selected point or curve to a particular location with respect to the coordinate system of the current sketch. Symmetric This constraint forces the selected sketched entities to become symmetrical about a sketched line segment which may or may not be a center line.
Assembly Constraints The assembly constraints are the logical operations performed on the components in order to bind them together to create an assembly. Mate The Mate constraint is used to make the selected faces of different components coplanar. Angle The Angle constraint is used to place the selected faces of different components at some angle with respect to each other. Tangent The Tangent constraint is used to make the selected face of a component tangent to the cylindrical, circular, or conical faces of the other component.
Insert The Insert constraint forces two different circular components to share the orientation of the central axis. Symmetry The Symmetry constraint is used to make two selected components symmetric to each other about a symmetric plane so that both components remain equidistant from the plane.
Assembly Joints The assembly joints are the logical operations performed on the components in order to join them together to create an assembly. Automatic The Automatic joint is used to automatically apply best suitable type of joints between the connecting components of the assembly. Rigid The Rigid joint removes all the degrees of freedom from the component. Rotational The Rotational joint allows the rotational motion of a component along the axis of a cylindrical component.
Slider The Slider joint allows the movement of a component along a specified path. Did you mean:. This page has been translated for your convenience with an automatic translation service.
This is not an official translation and may contain errors and inaccurate translations. Autodesk does not warrant, either expressly or implied, the accuracy, reliability or completeness of the information translated by the machine translation service and will not be liable for damages or losses caused by the trust placed in the translation service.
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