This is mainly because, a lot of processing takes place in our Motion Solver and the sub-assembly parts(if non-trivial) add up to the CPU load. Upon user feedback, we may actually extend upon the sub-assembly parts. We are considering the sub-assembly as a block/part. Right now, we are not dealing with the sub-assembly(Piston.iam) parts and constraints. We start with the engine assembly that gets shipped along with Autodesk Inventor. Watch high resolution video at AR-CAD.Ĥ) Tutorial on simulating an Engine. IN-Motion deals with Planar and Insert Constraints in this case and the simulation takes place for an imposed Rotation on one of the insert constraints. Watch high resolution video at AR-CAD.ģ) Tutorial on simulating an Elliptical Trammel. IN-Motion allows us to give rotation to one of the Insert Constraints and then the simulation can be made to see the behavior of the imposed motion. This assembly has 2 grounded parts and 3 movable parts, with 4 Insert Constraints. Watch high resolution video at AR-CAD.Ģ) Tutorial on simulating a four-bar mechanism. Then we start IN-Motion, set rotation to a Insert Constraint (Revolute Joint) and then simulate the mechanism/assembly. We start with a blank Inventor assembly and place components and apply constraint. The following screencasts show the progress we have achieved so far in this regard and very soon we will be launching IN-Motion.ġ) Basic tutorial on getting started with IN-Motion. Upon installing IN-Motion, they will be able to simulate an assembly both kinematically and dynamically. Once we are done with the development, it would be available for Autodesk Inventor users, in the form of an addin. Update: Video tutorials on usage of IN-Motion for Dynamic Simulation of Autodesk Inventor Assemblies.įor the past few months, along with my mentor (Aik-Siong Koh), I have been busy developing Motion Simulation addin for Autodesk Inventor. Check out the below video for an Overview
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To watch detailed tutorials on the same software visit the following link Visit the following link to watch the basic tutorial on Autodesk Inventor by us See below the images of three subassemblies one after another. So in this way viewers will be able to observe the application of many 2D sketching and 3D features of software along with usage of different mates. The parts are to be created individually not in context or with reference of other parts of the assembly, after wards they are placed into the assembly and by using assembly mates they are fitted according to the design. Each assembly is has modeled part as well as content center parts. Lets get back to our main topic, the vise model has three sub-assemblies. But these things are not displayed in the same video, to know this you will have to watch the related video tutorials. In this part /assembly modeling tutorial of Autodesk Inventor we will create an assembly named ‘Vise’.After modeling it we will be able to create dynamic simulation of the model along with its exploded view, that would be used for presentation purpose.