Overview
- Get prepared to solve real-world challenges by developing advanced skillsets in 3D modeling and the parametric CAD workflow. Build skills in assembly modeling, creating designs with mechanical motion, developing detailed technical drawing for production, and creating animations for presentations using Inventor.
Why Learn 3D Modeling for Mechanical Certifications ?
Autodesk® Inventor® 3D CAD Training will easy to-use set of tools for 3D mechanical design, documentation, and product simulation. Digital Prototyping with Inventor helps you design and validate your products before they are built to deliver better products, reduce development costs, and get to market faster. This course is designed for students to learn the basics of mechanical 3D computer-aided design using Autodesk Inventor.
Training :
- Understand the parametric CAD workflow.
- Identify interface aspects of Inventor.
- Create frame assemblies.
- Create designs with mechanical motion.
- Manipulate appearances and physical materials.
- Create a detailed drawing.
- Create and output an animation.
Audience Profile :
- The candidate will have demonstrated advanced modeling skills in Revit and will be knowledgeable in relevant workflows, processes, and project objectives. The candidate will have performed routine tasks involved in their job role with limited assistance from peers, product documentation, and support services.
Prerequisite:
- Demonstrate. general knowledge of electrical systems, their settings, and how they operate.
- Demonstrate advanced modeling skills, including creating and modifying systems, spaces, cable tray, and conduit.
- Perform basic family editing, including editing connectors, light sources, annotations, symbology.
3D Modeling for Mechanical Design Course Outline :
- Getting Started
Course overview
Get the software Create a new project file - Create a new project file
Modify Application Options and Document Settings
Review the changes to options and settings
Review and edit a part Create the base frame for the bottle filling
station
Review the design criteria - Create the base frame skeleton
Create the base frame
Apply end treatments to the frame
Add the supports to the frame
Run a frame analysis Model the reusable bottle and cap - Create the sketch for the bottle
Create user parameters and finish the sketch
Revolve the sketch then shell the model
Model the top section of the bottle
Model the body of the bottle cap
Add grips to the outside of the bottle cap - Model the bottle holder carousel parts
Model the bottom plate of the carousel
Model the plate support for the carousel
Model the top plate for the carousel - Model the cam shaft
Model the cam shaft
Add a keyway and groove to the cam shaft - Assemble the gearbox
Create the gearbox assembly file
Place a gear in the assembly
Align the gears
Create a keyway groove in the gear
Place the cam shaft in the assembly
Complete the gear assembly - Assemble the gearbox, motors, and upper frame to the base frame
Assemble the bearing ring and gearbox
Create a contact set
Assemble the bottle carousel
Modify the base plate and frame
Constrain the gearbox assembly to the frame
Create features to attach the gearbox and motor to the frame
Assemble the motors onto the frame - Document the bottle filling station
Document the bottle filling station
Create a drawing of the lower frame
Training Solutions:
- Offline Classroom Instructor-Led Training in our labs or onsite Locations.
- Virtual Instructor-Led Training Via
- Virtual Video Conferencing Tools.
Why Learners Prefer iLearn as their Training Services provider ?
- Premuim Training Services Accredited from Global Technology Vendors.
- Best Rated Experts & Certified Trainers in Egypt.
- Official Training Hours, Practice Labs, Hands-on Learning.
- iLearn Classrooms are designed with High Edge PCs and Training Facilities.
- Return on Training Investment is Guaranteed to boost performance.