E-BOOK. Autodesk Inventor 2022 Parametric design and iLogic for beginners - ExpertBooks Publishing House

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E-BOOK. Autodesk Inventor 2022 Parametric design and iLogic for beginners

Tutorials for beginners: Parametrics Designs in Autodesk Inventor 2022
Title: Autodesk Inventor 2022 Parametric design and iLogic for beginners

Publication Date: 2022-03
ISBN: 978-83-947914-9-0
Page Count: 321
Format: PDF File, color
Language: English

Price: € 19.00
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The exercises in this PDF manual do not require any Autodesk Inventor files. As a result, this e-book can be successfully used with other versions of Autodesk Inventor software. The difference between the pictures in the e-book and the interface of the version you are using may be visible in some dialog boxes and options, but will not affect your ability to exercise and learn about Inventor software.
The main differences between:
Autodesk Inventor 2022 Parametric design and iLogic for beginners (e-book available here only)
Colored, bigger illustrations in e-book instead of black & white in paper book.
Example 3 has been significantly rebuilt in the e-book. iLogic rules refer to component names instead of file names, which greatly facilitates generating variants and their further editing. The e-book is compatible with the 2022 version of Autodesk Inventor software.
Some minor corrections in other examples.
The e-book is adapted to work with computer screens, tablets, and smartphones. You can take your e-book with you everywhere. It will not take up space in a bag or backpack. It will always be available on your mobile device.
Autodesk Inventor tutorial for beginners
This tutorial is intended for beginners for whom this is the first contact with Autodesk Inventor software. However, individuals who are familiar with the program will find here useful information. The Autodesk Inventor software is ready for operation immediately after installation and is pre-configured to create designs in line with the general guidelines of the ANSI standard, allowing you to immediately start creating 3D models and associated documentation in 2D.
The exercises proposed in this tutorial cover many aspects of working in Autodesk Inventor software and will help you deal with the following three examples:
Example No 1: Designing a complete product
The best way to get to know the parametrization of Autodesk® Inventor® is to make a design of any simple device, which will be shown all the main steps of creating and editing a parametric design. In the first example, you will learn how to work in the Autodesk Inventor software, from the scratch. You will create a project of a simple drill vise, on which you will learn the basic operations of modeling and creating drawing documentation. This example emphasizes the principles of project management, from a single part through designing parts in the context of the assembly, checking the basic kinematics of the product, and further creating complete drawing documentation containing item numbers and a parts list, as well as an exploding view of the product, rendered illustration and video to be both used for marketing this product.
Then, thanks to the parametric modeling and skillful file management, you will quickly create a new version of the drill vise with a complete set of drawing documentation as well as a rendered illustration and video of the new version of the product. The approach proposed in this example will facilitate the application of Inventor parameterization and file management in designing varieties of products of similar design, which use many common components and it will accelerate obtaining flawless drawing documentation of the new version of the product.
This is a great example for beginners Inventor users who will learn here the main principles of leading projects in Inventor and will create a solid foundation for expanding their skills.
Example No 2: Component libraries for beginners. iPart
Most of the products being designed use components purchased from external suppliers. For this reason, parametric 3D models of purchased components, which can be quickly inserted into the project instead of modeling each time from scratch, offer the greatest possible convenience for the constructor. In addition, component library files should be properly described, so that they are correctly presented in the bill of materials and also should be placed in the library resources area, which will protect them from accidental editing.
In this example, you will create two parts purchased from suppliers: a rubber foot with fixed dimensions and a parametric library of metal handles that is available in several sizes. The examples presented here will teach you how to prepare your parametric libraries of purchased components, as static components and as parametric iPart library components.
Example No 3: Parametric generator of product versions using iLogic
In the third example, you will create a parametric generator for making a simple metal casing that allows you to obtain a model of any size, with or without handles, and pre-prepared drawing documentation for each version of the casing. The generated version of the casing can be further modified to obtain the final appearance.
In this example, you will learn the basics of designing sheet metal parts, the use of parameters in parts, and the assembly and you will learn the basics of iLogic programming. The approach presented here will teach you how to create and use iLogic parametric version generators.
The example presented here is a little more advanced but it shows how easy it is to implement design automation in your daily work with Autodesk Inventor. Even a beginner user of Autodesk Inventor will easily perform this example and thank this will achieve a higher level of skill.
No additional files are required to complete the designs described - all files will be created using the exercises in sequence. Exercises presented in this manual have been implemented in Autodesk Inventor 2021; however, most of this manual is also compatible with previous versions of Autodesk Inventor software.
Selected illustrations from the e-book
What you'll learn from this e-book
If you correctly follow all the exercises contained in this manual, you will know how to:
  • Modeling simple singular mechanical parts in a separate part file or the context of an assembly.
  • Compose parts in the assembly and control their mutual position.
  • Insert standard parts from the Content Center and create bolted connections.
  • Drive the assembly constraints to verify the kinematics of the assembly model.
  • Prepare a basic visual presentation of the designed product containing rendered illustrations and the video animation.
  • Prepare an exploded presentation of the product.
  • Create technical drawings of the project, including the basic views, dimensions, descriptions, parts list.
  • Create drawings with exploded views for presentations or assemble instructions.
  • Create a new product design based on an existing design with associated drawings, rendered illustrations, and presentations video.
  • Carry out basic administrative operations on files with maintaining files relationships.
  • Create single version library components and correctly describe them for the BOM.
  • Create parametric iParts components, specify key parameters, descriptions and create a version table.
  • Model simple sheet metal parts using basic tools and create flat patterns.
  • Control dimensions and features of part in part files using simple iLogic functions.
  • Define global parameters in the main assembly file and transfer their values to related part files using the iLogic function.
  • Control the use of iParts in an assembly using the iLogic function.
  • Control such features as holes and assembly constraints across all parts using the iLogic function.
  • Create a dialog box to conveniently control the parameters and options of the variant.
  • Design a generator of versions of the product containing associated drawing documentation.
  • Generate many versions of a simple subassembly using the variant generator, which contain correctly named 3D models and related drawing.
Table of Contents
Example No 1: Designing a complete product
Example No 2: Component libraries
Example No 3: The parametric generator of product versions
Creating a main project file
Adjusting the title block in the template file of drawing
Exercise 1. Modeling of parts. Movable jaw of the vise
Exercise 2. The technical drawing of the part. The jaw drawing
Exercise 3. Part modeling in the assembly file. Corps of the vise
Exercise 4. Inserting and positioning parts in the assembly
Exercise 5. Part modeling in cross-section of the assembly. Clamping screw
Exercise 6. Modeling of the adaptive parts in assembly. Screw support
Exercise 7. Inserting standard parts and creating bolted connection
Exercise 8. Assembly kinematics. Drive constraints  
Exercise 9. Organize the content of a bill of material
Exercise 10. The visual presentation of the project on the screen
Exercise 11. Rendered picture and the video of a vise
Exercise 12. Creating a presentation file
Exercise 13. Technical drawing of the assembly. List of parts and numbering
Exercise 14. Technical assembly drawing with exploded view
Exercise 15. 2D drawings of parts. Break out, breaking and detail views
Exercise 16. Creating a new version of the vise based on the current version
Exercise 17. A task: do it yourself
Summary of Example No 1                          
Exercise 18. Supplementing the configuration of the project file
Exercise 19. Library component as a single part. Footer
Exercise 20. Library component as iPart. Handle
Exercise 21. Test of inserting library parts into the assembly
Summary of Example No 2     
The initial conditions
Exercise 22. Version generator project file and the main assembly. Parameters
Exercise 23. Modeling of the sheet metal bottom of the metal case
Exercise 24. Modeling the top cover of the metal case
Exercise 25. Modeling of the front plate
Exercise 26. Holes, inserting handles and footers. Dimensions correction
Exercise 27. Creating an iLogic rule controlling the versions
Exercise 28. Creating a Form for parameters control
Exercise 29. Creating 2D drawings for the version generator
Exercise 30. Generating of metal cases variants
Summary of Example No 3
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