00:09Hello friends, welcome to a new Autodesk Inventor tutorial. Today I'm going to show you how
00:15model a bolt with a hole in the center on the screen
00:21We can observe the plan; what I'm going to do first is draw the hexagonal part, followed by
00:27the cylindrical part and finally we'll do the threaded surface. Okay, let's start with the separation between faces.
00:35It is 34 millimeters. We create a new sketch and select a plane. We select the option
00:43polygon and we indicate the separation between faces which is 34 millimeters ok
00:59The thickness or width is 8 millimeters, we select destroy, we indicate the 8
01:05millimeters, accept that once we have that, what we're going to plot is good, we're going to do these
01:15small squeakers at the ends, for that we have to go to origin and select the plane
01:20and zeta that passes through the central part and we create a new plane, a new sketch using that plane
01:32What I'm going to do is draw a triangle
01:38at this end
01:48at this other end, which will serve as a reference for making a cutting revolution
01:56This indicates that we have a detailed view
02:01that one of the legs is 1.23 and the angle is 65 degrees
02:20and this angle must be 65 degrees
02:27And that's it, we've finished that part. We complete the sketch, select the revolution option, and then select...
02:36the triangles drawn
02:39Once we have selected them, it asks us to indicate the axis of rotation.
02:45We selected the zeta axis as the reference and now we're going to tell it what the output is
02:51The output we want is a cutting revolution, OK, and we apply it, ready.
03:01We removed the visibility of the plan.
03:05And now we're going to draw the cylindrical part
03:12What we're going to do now is give it the larger overall diameter, which is 27
03:20We created a new sketch
03:21a new sketch
03:23I'm indicating the diameter of 27
03:30and the total length would be 26.5 minus 8
03:46Accept, ready
03:48We already have that, now we just need to give it these reductions
03:56For what we are going to do, I will also use this plan
04:04And I create a new sketch, a new sketch in this part I'm going to project this line for
04:15that will serve as a reference and I'm going to draw two rectangles
04:31I'm also going to draw a central construction line, ready now, the diameter they have
04:40that has to be 24.7 then my level of this point
04:59From this point 24.7 is the diameter between 2 ok
05:08Similarly, on the other side, 24.7 between 2, ok, 12.35, the width on this side of
05:194.63
05:25Ready, and the other one is 5.50
05:34And in the other one, well, it's already 5.5 out of 4.63, and the central part should
05:52measure 8.38
05:57exact
06:03Well, once I have these rectangles, what I do is, in the same way, give them a revolution.
06:11cutting
06:12cutting
06:13we select the Z axis
06:16we indicate that it should be cut
06:19OK, we've got that part covered.
06:22Now we're going to make this 45-degree chamfer 0.92
06:27we select chamfer
06:33Well, since these are 45 degrees, the length will be 0.92 on both sides.
06:39Here we indicate 0.92
06:46here and here and we apply ok
06:52plus the central perforation is the diameter 18
06:59We created a new sketch and drew a circle
07:0418 in diameter
07:05We're finished.
07:06and with sufficient cutting extrusion
07:18and accept
07:20We removed the visibility of this plan
07:22that we no longer need it
07:25It has a chamfer on this inner part
07:35OK
07:41Okay, let's define this as the front view
07:47And we're going to set this as the isometric view
07:53what else
07:54and well
07:54We have almost everything finished.
07:57that we would need to have
07:58would be missing from the threaded surface
08:05we selected thread
08:08we select the surface
08:19and accept
08:20as we can see here
08:22this thread visually
08:24It looks like a screw thread
08:25No, but it's not a real thread.
08:27in 3D
08:28Then I'm going to use the app
08:35and I use the Transmodelling application
08:37I select the thread
08:39and I apply
08:40and what it automatically does is turn it into a realistic thread
08:43as we are observing
08:50ready
08:50It is determined
08:51All that's missing is a slight change in appearance
08:54so that it looks better
09:13and to see the central part
09:17Well
09:18come on
09:18give visibility to this plan
09:21Let's go ahead
09:22we selected
09:23We want the session three-quarters
09:31OK
09:31and as we can see
09:34Our pierced dog would be finished!
09:36in the perforated central part
09:38and the threaded outer part
09:40and the hexagonal head
09:49Well
09:49That would be all
09:50if you think it will be useful to you
09:51Don't forget to subscribe
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