00:06Hello friends, welcome to this new tutorial in which I'm going to show you how to model a
00:11Blind nut: This nut has a truncated side and works like a cap, as we can see in
00:17The first thing we're going to do with the plane is the hexagonal surface, and then this
00:22The dome indicates that the hexagon has a separation between faces of 22 millimeters.
00:28In a new sketch, we select a plane, we select the polygon option, and we specify that it should have six.
00:36sides OK, we indicate the dimension that is 22 millimeters between face and face
00:49Okay, we've finished the sketch. The extrusion we're going to give it has a height of 13 millimeters.
01:00Then we go to the search bar, select the origin plane, and right-click on visibility and create.
01:07A new sketch with respect to this plan; in the status bar we select slide graphics for
01:14Having a cross-sectional cut and projecting this geometry, what I want to do is give it these recesses in the
01:23sides indicating that it has an angle of 60 degrees and on one side a dimension of 0.98 millimeters
01:30I'm going to
01:32draw a small triangle
01:38in this corner the dimensions
01:47Okay, well, he indicated that it's a 60-degree angle.
01:54and on the other side lengths of 0.98
02:02And that's it, I'm going to draw a constructive line in the central part
02:08To quickly copy this triangle to the other side, he selected the mirror tool.
02:16I selected all the lines and I have to select the line that will be the mirror image and apply OK.
02:23I have my two triangles, the sketch is finished, select the "revol" option and select the
02:28The triangles drawn are this one and this other one. He selected the cut option and now I have to tell him the
02:38The axis around which it will rotate was selected as the z-axis. It performed a cutting revolution. Okay, we accept, and that's it.
02:49We have those recesses on both sides and we've already removed the visibility, and what I'm going to do now is this
02:55The circular part indicates that it has a radius of 10, so the whole has a diameter of 20.
03:10The extrusion will be 15 millimeters high
03:17OK
03:20And this rounding tells us that it is 10, we select files, we indicate 10 millimeters, we select
03:27We've already applied the border, that's it.
03:42It's almost finished, what's missing is the threaded surface part, so we select
03:50For this face, we create a new sketch, and what I'm going to do is just draw a point to project this geometry.
03:56to have the center as a base and after a point at that center, finish the sketch and with the tool
04:03I'm going to make the hole that you indicated is 16 in diameter. I'll indicate the diameter of
04:1316 and the
04:14Depth: 13 is the width of the nut; the hexagonal part: 15 is the depth of the drilling
04:26I apply a one-millimeter chamfer to the entrance
04:38Now we will have the threaded surface within the specification; we indicate a 1/2" thread with a pitch of 16.
04:461.5
04:49of one millimeter
04:52Ready, we apply
04:56in this way
05:02We now have our blind nut finished
05:06to better visualize what it's like inside
05:11And we're going to take a cross-sectional view; as you can see, it already has the perforation up to this point.
05:17It reaches the drilling point; what I want to see is a more realistic thread. Orange is used.
05:23I selected after modeling and selected the thread and applied it, and I got a realistic thread pretty quickly, no
05:38What's left is to change its appearance; we're going to give it a polished look.
05:46something shiny polished chrome
05:52and we apply
05:58Okay, now that it's finished, let's change the view
06:13We have the cross-section cut, we remove the visibility, friends, we now have our blind nut finished
06:24That's all there is to it. If you found the video helpful, don't forget to subscribe.
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