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El perno autoperforante consiste en una barra hueca con hilo grueso similar al diseño de una barra de perforación. La barra al ser hueca en su interior, permite el paso de agua/aire de barrido durante la perforación
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00:09Hello friends, welcome to a new Autodesk Inventor tutorial. Today I'm going to show you how
00:14model 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
00:26the 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 and indicate 8 millimeters.
01:07accept
01:10Once we have that, what we're going to plot is, well, we're going to do these little ones
01:15Whiplashes at the ends, for that we have to go to the origin, select the y-plane that passes through the
01:21central 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
01:47at 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
02:19and this angle must be 65 degrees
02:27And that's it, we've finished that part, we've completed the sketch
02:32We select the revolution option and select the drawn triangles
02:39Once we have selected them, it asks us to indicate the axis of rotation.
02:45We select the z-axis as the reference.
02:48And now we're going to show you the exit.
02:50The solution we want to be a cutting revolution
02:54OK, and we'll apply it. Done.
03:01We removed the visibility of the plan.
03:04And now we're going to draw the cylindrical part
03:11What we're going to do now is give it the larger overall diameter, which is 27
03:19We created a new sketch
03:20a new sketch
03:23I'm indicating the diameter of 27
03:30and the total length would be 26.5 minus 8
03:44Accept, ready
03:47We already have that, now we just need to give it these reductions
03:55For what we are going to do, I will also use this plan
04:04and I create a new sketch
04:07a new sketch
04:10in this part
04:12I'm going to project this line
04:14to serve as a reference, and I'm going to draw two rectangles
04:31I'm also going to draw a constructive line
04:35central
04:37ready
04:38Now the diameter they have to have is 24.7
04:46then my level at this point
04:58from this point
05:0024.7
05:01is the diameter between 2
05:03OK
05:07Similarly
05:09on the other side
05:15the width on this side of 4.63
05:25ready
05:25and in the other one, 5.50
05:33OK
05:35This one is attached to one end
05:43and the other one in the same way
05:45Okay, that's it, 5.5
05:47of 4.63
05:49and the central part should measure 8.38
05:57exact
06:02Well
06:03Once I have these rectangles
06:05What I do is, in the same way, give it a revolution
06:10cutting
06:13we select the Z axis
06:16we indicate that it should be cut
06:19accept
06:20OK
06:20We already have that part.
06:22Now we're going to make this 45-degree chamfer
06:250.92
06:27we select chamfer
06:32Well, like these 45 degrees
06:35The length will be 0.92
06:37on both legs
06:39Here we indicate 0.92
06:45here
06:45here
06:46and here
06:47and we apply
06:48OK
06:51what else
06:52the central perforation is 18 in diameter
06:58We created a new sketch
07:00that we draw a circle
07:0318 in diameter
07:05We're finished.
07:06and with sufficient cutting extrusion
07:18and accept
07:19We removed the visibility of this plan
07:21that we no longer need it
07:24It has a chamfer on this inner part
07:34OK
07:40Okay, let's define this as the front view
07:46And we're going to set this as the isometric view
07:52what else
07:53and well
07:54We have almost everything finished.
07:56that we would need to have
07:58would be missing from the threaded surface
08:05we selected thread
08:07we select the surface
08:19and accept
08:20as we can see here
08:21this thread visually
08:23It looks like a screw thread
08:24No, but it's not a real thread.
08:26in 3D
08:28Then I'm going to use the app
08:34and I use the Transmodelling application
08:37I select the thread
08:38and I apply
08:39and automatically what it does
08:41It's about turning it into a realistic thread.
08:43as we are observing
08:49ready
08:50It is determined
08:51the only thing missing
08:52It's about changing the appearance a little.
08:53so that it looks better
09:13and to see the central part
09:16Well
09:17come on
09:18give it visibility
09:19to this plane
09:21Let's go ahead
09:22we selected
09:23we want the session
09:24three-quarters
09:30OK
09:31and as we can see
09:33It would already be finished.
09:34our dog pierced
09:35in the perforated central part
09:38and the threaded outer part
09:40and the hexagonal head
09:48Well
09:49That would be all
09:49if you think it will be useful to you
09:51Don't forget to subscribe
09:52whatever
09:53and
09:53Thanks for watching the video.
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