![]() ![]() Now if Minimum Limit is set to 30°, that restricts the movement to +30° and -30° only, therefore, the green part now moves more like a switch - it "jumps" from one side to the other. This allows our green part rotate 0° to 30° each way in a smooth motion. Let us apply an angular constraint with Maximum Limit of 30 ° The red part is grounded and the green part will rotate around the cylindrical axis. Here is a simple setup of two parts that have been constrained together to create a simple hinge. Here are some examples on how to use constraint limits: ![]() Once a limit is applied to a constraint, the constraint name with a "+/-" sign will appear in the browser. Expand the window by clicking the two arrows and you will be presented with a couple of options to limit the constraint This is where most of the Autodesk Inventor users would use the "Contact Solver" which is a resource-heavy function, whereas a constraint limit is just a parameter and is much easier on CPU and RAM usage.Ĭonstraint limits can be found in the "Place Constraint" dialog box. ![]() In short, constraint limits allow a part to be constrained to another part but also allow it to move, at the same time restricting the assembly's movement to a certain point. Constraint limits are something that not every Inventor user is aware of, but something that is very useful when working with assemblies. ![]()
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