Thanks Buddy, I will play with it some more. if you want to use the hole feature, move your sketch plane to the surface you want to start drilling from. And if you detail the part in a drawing the Hole and Thread callout command will list and identify all the other counterbore and thread features on that hole. Any point in the sketch can be used as a hole center (not just hole centers) and you can quickly change. Then the weld pocket on the tubeholes is the final hole feature. Then two other hole features create the expansion grooves. The first feature creates the through hole with a countersink (to fake a chamfer). Reasons to use the hole command over extrude is you can add threads, counterbores, etc. Use Sketches and Sketch Points to build hole patterns. We share the sketch with the points in it and create four hole features in total using the points. The callout syntax format is a combination of Diameter. (Well maybe you could EDM a counterbore:)!) To cut all the way through this part, use the extrude command with the symmetric option. Answer: Hole callouts for simple holes (geometry based holes) are always defined by their geometry. Your sketch is in the middle of the part, so the hole command starts there and goes in only one direction (You couldn't actually drill a counterbore in the middle of a part, could you? So the command doesn't allow that either). You can specify a simple hole, a tapped hole, or a clearance hole and include thread types from the thread data sheet. In the part environment, you can create counterbore, countersink, and drilled holes with custom thread and drill point types to fit nearly any design requirement. It does not include the symmetric or asymmetric directions. Define holes, and create them automatically. The hole feature begins at a location (your sketch plane) and drills/bores to a specified depth or through the material in one direction. In other words you can only drill in one direction. It creates the feature the same way you would actually have to drill, counterbore, countersink, and tap a hole. Select start plane, points, and blind start plane. Workaround: Follow the steps: Add Bolted Connection. Status: This incident is being investigated for a possible cause and resolution. I cannot reach back into your computer to resolve the links to the files.Īttach the 5 *.ipt files shown in your screen capture) actually 4 I guess, one is a duplicate of the fastener.Think of the hole command as just that, a command to drill a hole. Issue: Users report that when they try to add a bolted connection for few various parts, the holes are created properly only in one of them. The assembly file *.iam is merely a set of instructions to tell the software how to put the parts together.Īttempting to put the assembly together without the parts (in Inventor - parts are *.ipt files) results in a bunch of Unresolved errors. Tapped Set thread type, size, designation, and class, and select the right-hand or left-hand direction. Select the standard, fastener type, fastener size, and fastener fit. Clearance Specify the fastener to fit to the hole. An assembly must include parts *.ipt files. Choose the hole type: Simple Requires no additional settings. Have a look at the assembly file I've attached to the post. Problem is the holes on cylinder create a spline edge rather than a circular edge yes, an assembly is made up of multiple *.ipt parts. You JD, but it doesn't work (unless I'm doing something wrong).Īttach your assembly here (including the parts, at least the 5 parts shown in your Connection doesn't recognize the holes either, so there must be something in the way I've created those holes (in the two separate parts).
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