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Wednesday, December 24, 2014

How Much Can You Tolerate? - Using Tolerances Inside Autodesk Inventor Models.

“Tolerate, change, or be grateful.”
~Anonymous

The ability to create and evaluate tolerances has been around for several releases in Autodesk Inventor.  I actually can't remember when it was a "new" feature.

But it doesn't seem to get much notice.  I'm not sure how many out there know it even exists.

So I took a moment to put something together to show the steps to setup, and use, tolerances.

Before getting started, let me introduce you to the parts that are going to serve as our samples.

I've created a sample lever and shaft.  Similar to what might be seen on a carburetor butterfly valve, although it's really just a sample.

The sample for this post

With the stage set, it's time to face the next question, where to start?

The first way of adding tolerances to an Inventor model is similar to what you might do on a good, old fashioned, title block.  That step is to add tolerances per the number of decimal places as a title block.

Tolerancing in this fashion is found from Tools>Document Settings, on the Default Tolerance tab.  Here different tolerances can be set for a different number of decimal places.

Locating the Tolerance Values for a part.
For this sample component,I'm going to set tolerances as follows.
.
.00     = . +/-.015 inches
.000   =   +/- .005 inches
.0000 =   +/- .0005 inches

Adding standard tolerances.  It's almost like a title block!

Once these are set they will display on the modeling screen.  Different tolerances can be applied to different modeling dimensions by editing, and right clicking on a dimension and choosing Dimension Properties. .  Here the tolerances can be set by changing the dimension to match whatever the desired model tolerances are.


Right click and choose Dimension Properties

Setting a tolerance via a standard tolerance.

However, there are plenty of other cases where special tolerances must be used, such as deviation, limits of various types, or any other tolerance that may not fit the default tolerances for the model.

To "fine tune" tolerances by adding a special tolerance in a sketch first edit the sketch.  Once the sketch is being edited, use the same as we used before.  This time, use choose the type of dimension to be placed with the flyout.

Choosing a dimension type


If you're trying to add tolerances to dimensions for a hole feature, edit the feature, and left click on the arrow next to the dimension you wish to add a tolerance to.

Setting the tolerance on a hole feature.

Now a tolerance can be added just like the sketch dimensions.

The tolerance is set with a deviation tolerance
But what if you want to change the tolerance on something like an Extrusion or Revolution?  If you take the time to check, neither of the previous tools will work.  So how do you add a tolerance for those features?

Don't worry, there's still a way.  On the Manage tab, edit your Parameters.  All the dimensions for the part are shown here, and by choosing the arrow next to the dimension (similar to what we did in the hole feature), the tolerances for any of the dimensions driving the part can be changed.

User Parameters to set tolerance

So now tolerances have been added to the desired dimensions.... So what?  How can the limits of the tolerance be evaluated?

In each of the tolerance dialog boxes, and in the Parameters screen, there are four icons that change the size of the feature, based on the tolerance you choose.  The available options are upper, lower, median, and nominal.



For example, let's evaluate the pin and it's mating hole at it's maximum material conditions (smallest hole diameter and largest pin diameter).

To do this, edit each part in turn, and add the desired tolerances.  I'm going to use deviation tolerances, since I always found these to be the hardest ones to evaluate by hand.

After changing the tolerances in each feature, I'll set each feature to evaluate at the maximum material condition.  For the shaft, this is the upper side of the tolerance, for the hole, the minimum.

Choosing the smallest possible tolerance dimension

Choosing the maximum tolernace size for the shaft.
With these values set, I can return to the assembly level, switch to the inspect tab, and run an interference check.

Even though the parts are in tolerance, there's an interference


In this example, there is an interference that lays well within the acceptable tolerance I've created.

So what does that mean?  There's work to do?  The nominal sizes and tolernances will have to be adjusted so they don't interfere under any size that still lies within the range of the tolerances.

And what does this mean for everyone else?  

Take a look at tolerances in Inventor, and see how it can help you.  It's always cheaper to find the mistakes in the computer, than in the shop!

And finally, a couple of  "Pro Tips".

There's a couple of small tricks I learned as I worked with tolerances, so I'm going to add them here.

1. Rename parameters.  When setting tolerances, especially when using the Parameters screen. It makes it easier to know which dimensions and parameters you want to change!  There's a tip on how to do that in "Tips for Short Attention Spans".

Using named parameters

 2. Use the Document Settings "Modeling Dimension Display" to set the default dimensions for your model.  Any dimension placed will take this number of decimal places, and by default, the tolerance associated to it.


Choosing the tolerances
4, Change the precision of an individual dimension.  One option when editing a dimension's property, there's an option to change its display value.  This can make sure that you can see an accurate value for the dimension.


Changing the precision of an individual dimension


5. Use the dimension display options to your advantage.  Changing the dimension display will change how your dimensions show on the screen, and can make sure you get an accurate result.

Add caption

For example.  Using "Show Precise Value" will show exactly what the dimension's current value is.

An underline under the dimension indicates that the dimension is currently being evaluated at a value other than its nominal value.  In other words, it's set to be evaluated under one of it's tolerance values (maximum, minimum, median).



6. Explore the tools!  Many of the different tools and dialog boxes share common tools and dialog boxes.  Use that to your advantage.  You can access Document Settings from Dimension Properties for example.  You can change the Evaluated Size of a dimension from the individual dimension properties, or from  the Parameters screen, or from the Dimension Properties dialog box.

And if you've got a sketch active, you can change the dimension display from the dialog box!  Take a look!


Changing Dimension Display.

Whew!  This post did end up being a lot longer than I had planned.  But I hope you find the info valuable!




Friday, December 05, 2014

Five Quick Tips for Autodesk Inventor Assemblies

Avengers Assemble!
Marvel Comics

Over the course of the last few months, I've created tips of things that I thought others might find useful.  So far, I've created one for sketching, and part features  Now for the next step in the series, five Autodesk Inventor Assembly tips.

I've stated it in my previous tips, but I'll say it again.  These aren't in an order, of preference, just the order I jotted them down in.  Take the ones you like, and use them in any way you like!

1) Granted, this a bit of a repeat from part modeling, but this tip works well assemblies as well.  And that's the "Select Other" tool.

When assembling components, Inventor allows us to rotate components while adding constraints, I use this all the time, especially with my 3DConnexion device.

However, there are plenty of times that I don't want to rotate the parts when adding constraints, and this is where select other can come in real handy.



2) Other times when adding constraints, I need to place a lot of constraints quickly.  This is particularly true of insert constraints.

Inventor has another way of placing constraints that has been around as long as I can remember, but seems to have been lost over time.

That method is the Alt+Drag method.

In short, select the geometry to be constrained while pressing the "Alt" key, and the appropriate constraint can be selected.  Drag the constraint to the mating part, release the Alt key, and the constraint is placed.  All done without touching the constraint icon.

The act of using Alt+Drag

It's not a big time saver for a few constraints, but when placing several, it starts to add up.

There's more information from my earlier blog post here! 

3) Another tip I picked up over the last few years came from users who worked with a lot of sheet metal.  It's a creative use of the Flush constraint.

When selecting a small edge to be mated to another, it can be difficult to get the desired face.  Mate, being as flexible as it is, can start picking edges and points near the edge of the face.  It makes it tricky to get what you want.

One option is to use the Select Other tool, just like I mentioned in Step 1, but there's another approach that I think might help everyone out.

That approach is the Flush constraint only see faces.  Starting with that as a constraint, will easily pick the face.  All that is left to do is switch it to Mate once the face is selected.

This can be a huge time, and patience!


Here's a tip on using a flush constraint to pick a narrow face

4) This one has happened to me more times than I want to admit. I've started out with two parts that I swear are totally identical.  I have those components constrained into place, and everything is just about set....

Then I realize that there's one feature that makes one instance of the part different from the other...

Classic.  Two parts I thought were the same, and I realize they're not when they're already placed.

Fortunately, there's a tool called Save and Replace Component.  It's located on the Productivity flyout, and it's perfect for exactly this situation.

Locating the Save and Replace Component tool.
Save and Replace Component creates a brand new copy of the existing part, and swaps the new part for the old.

The bonus?  No constraints are lost, and you can quickly make the changes that make the part unique!

The result with very little inconvenience! 


5) Finishing up the assembly tips, one last one is a tip for a set of features introduced in Inventor 2014, but might have gotten lost in the forest that's created by so many new features.

It's not available in 2013 or earlier, so sorry for those on the older versions.

All of these sets are from the same group, so I'm combining them in together as a "super tip".

First, is to drag a part using the Free Move command.

In previous releases, this just moved the part away from the assembly, regardless of constraints.  But now it shows "bands" between the moved part, and the components it's constrained to.  It's a visual map to how the constraints are behaving. This also includes glyphs showing you what type of constraints are in use.  Right clicking on the glyphs lets you edit, modify, modify, and delete constraints.

Using the Free Move command to show constraint relationships

The other tools are on the Relationships tab.  They're Show constraints, Show Sick constraints, and Hide All constraints.  The name says it all.

Show constraints displays the constraint glyphs for a component that you select.

Showing Constraint Glyphs

Show Sick constraints will show constraints that have conflicts with other constraints.\

Showing Sick Constraints


Hide All constraints turns off all the glyphs.

Hiding All Constraints


I know I've grown to like these tools as I've used them, but it can be easy to overlook them.

So if you've been upgrading and forgot about these tools, take a look!

And I know.  There isn't a video for this one.  Things have kept me rolling where I haven't quite been able to create videos.  I'm hoping that things might just wind down enough where I hope to create one soon!

****Edit 31-December-2014****

At long last, I had the time to create a video to accompany this post!  Take a look!  I hope you find it helpful!

And Happy 2015!







Sunday, November 30, 2014

CAD Programs as Tools. CAD Drafting as a Trade.

This post was inspired by random internet searching, and stumbling onto an interview with Mike Rowe of Dirty jobs, that really made me spend quite a bit of time contemplating things.  It even caused me to search around more for more articles.

Here is the video.  It's about 40 minutes long, but I found it fascinating.



So what is the point of this?  Does this even apply to those using CAD?  Is Jon just rambling on?

Mike Rowe said one thing that struck me.  "I do believe, whatever your job is, if you approach it like a trade, you'll be better for it."

Now, like Mike Rowe, this isn't me attempting to bash higher education.  I have a Bachelor of Science in Mechanical Engineering, and I wouldn't trade that for the world.  I'm proud of that.

But on the other hand, my father made a living with a wrench in his hand.  He crewed and worked on aircraft in the U.S. Navy.  After that he was a certified Airframe and Powerplant mechanic for Western Airlines, and finally McDonnell Douglas.

He was a tradesman, and a very good one at that.

The Avenger.  My father worked on these in the 1950s. 

My father in the early 1990s.
He wrapped up his career working on MD-80s

And I've been fortunate enough to have him as a mentor, and many like him.  I've been lucky enough to be mentored by woodworkers, machinists, and aircraft mechanics.  I've learned to respect the skilled workers who create with their hands.

Of course every one of these skilled workers has their tools.  The implements that are more than just what their mass and volume represent.  They're an extension of a workers hands, a way of making a living.

Thinking about that a moment, isn't CAD a tool?  As designers using CAD, isn't that the extension of our hands?

When it comes right down to it, is a CAD program, be it, AutoCAD, Autodesk Inventor, Dassault Solidworks, Revit, CATIA, ProEngineer, and so on.  Aren't they our tools?

Autodesk Inventor, laptop, and 3DConnexion 3D mouse.
Are they different than the wrench and rivet gun?
Or different tools for a different trade? 

And since these are the tools of our trade, shouldn't we be trying to use them to the best we can, to hone our craft and get the most we can out of them?

Does that mean you need to go and call your reseller and buy thousands of dollars of custom training?  Maybe. That would make your account manager very happy, but sometimes we're not able to do that.

Does that mean you seal yourself in your basement, and spend hours upon hours honing your skills on the product of your choosing?  Perhaps.  But that's not something everyone is able to do.  There are commitments and family, and time is valuable.

What it means to me, at least, is to find what makes me better.  From a CAD perspective, that means I spend time looking at articles from some great sources.

I would also love to attend Autodesk University every year.  But alas, that one isn't in the cards for me, at least not this time.

Why?  I learn things I don't know, it teaches me to look at problems from different angles.  It encourages me to try new things I may not have thought of.

I've also started taking Aircraft Maintenance Classes at Mount San Antonio College.  Someday, I could learn enough to earn my own Airframe and Powerplant license, although it's going to take me a long time.

A sheet metal practice plate I used to practice riveting in class.
It takes practice to learn this skill! 
I also volunteer at Planes of Fame in Chino, Ca.   I'm lucky enough to help recover fabric control surfaces there, and see aircraft mechanics who have become so skilled with their trade, they've crossed into a realm that has become pure artistry.

A iron in the foreground.  It was used on the rudder (laying on its side in the background) to
heat shrink the fabric used in the process.  These are the tools of the fabric trade. 
Why?  It keeps my hands dirty.  I get to understand why something is done and how things go together.  I learn the things that can't always be learned by reading manuals and watching videos, or even sitting in a classroom.

Does that mean that this is your formula?   Should you go read blogs galore, take classes.  Is this how you "think like a freelancer" as Mike Rowe put it?

No, it doesn't.  It represents the choices I've made on how to improve how I use my tools.  It's how I sharpen my own freelance.

If anything, you should find your own resources, your own way of learning how to increase your knowledge, and improve your skills.

Ultimately, it's a choice we're all faced with making.  And every choice, including choosing not to decide, is making a choice.

Oh, and is using CAD, any CAD, a trade?

In my opinion?  There's no doubt the answer is yes.








Tuesday, November 25, 2014

A Use for Inventor's Sketch Constraint "Relax" Mode

“Try to relax and enjoy the crisis.”
 Ashleigh Brilliant 

Sometimes, it takes the right circumstances to find a good way to use a new feature in Autodesk Inventor.

The new Relax mode in Inventor 2015 fell squarely into this bucket.

When it first came out, I was frankly a little unsure of the new tool.  It's my nature.  I just find myself wary of any tool that is "too automatic".  I'm just type "A" enough to not like it when too much is done for me.  I circle them like a cat sizing up a potential meal.

But I've also learned that there is a time and a place for these tools too.  Experience has taught me to never dismiss a new function too quickly.

In my case, I was rebuilding an aircraft instrument panel in Inventor.

Originally, I had created it as a test to benchmark how text affected the speed and file size in Inventor.  To do this, this, I created the cutouts for the instruments as extruded borders with text inside.

A sample of the original panel.  There were no cutouts for instruments,
but this was part of a test and not meant to be "real" at this point.
Not accurate as a part.  But perfect for the benchmark I was creating!

But once I had done that, I wanted to create a more accurate representation of the panel.  This meant deleting the extruded  borders, and recreating them as cutouts.

But as I did that, I ran into one issue.  Part of the sketch that I had removed had anchored the text that I had placed.  Now the geometry was disassociated.



I could delete and recreate the sketch, but I didn't want to try to retype all that info again.

But what I did find was able to delete constraints to free the geometry and reattach it to other geometry,  In some cases, this meant deleting four co-linear constraints, and recreating them all over again.  This is what I would have to do with these circuit breaker cutouts, for example.



While it wasn't a huge pain for a few of them, there were a ton, there was a lot to do, so how could I make this task go a little quicker?

Well, if you guessed that I used the "Relax" constraints mode that's new to Inventor 2015, you would be guessing correctly!

First, while editing the sketch in question, I  turned on Relax Mode,  It can be found at the status bar on the bottom of the Inventor drawing screen.  You can also use the hotkey "F11"




Once that was on, all I had to do was grab the text and drag it.  The constraints would automatically be removed, and I apply the new sketch constraints right away.



Is it a small thing?  Perhaps.  But over time, it did make fixing the panel a lot easier!

A simple thing?  Perhaps.  But it can be the simple things that matter.


Thursday, November 13, 2014

Did You Know You Can Use the End of Part Marker to "Compress" an Inventor File

“The question is, what's the best way to do this? There may not be a one-size solution to the question.”
 Peter Gore

Today I wrapped up some basic benchmarks for extruded text versus sketched text in an Autodesk Inventor part model, and I was getting ready to e-mail them out for some testing on external systems.

First, what did I use for the test?

The files I created were from an instrument panel for light sport aircraft from the RV series.

I recreated the panel from an image, and created the instrument identification first as extruded text.

The panel with extruded text

In the next panel, I created a panel with the same text, but this time, the panel the text was created as sketches, and not extruded into 3D extrusions.

The panel with sketched text.  You can tell by the projected sketch lines, which are magenta.

The challenge?  The panel with the extruded text was nearly 13 MB!

12.7 MB.  That's big! 
By comparison, the panel using just sketches was less than 2 MB!

1.64 MB.  Nearly a tenth the size!

First, let's take a moment to ponder that.  If you're creating a lot of text, consider leaving it as sketches. These two models show a big difference in the size, and that can affect performance, especially if there's a lot of them.

But there was also another challenge I was facing.  How can I e-mail the files?  Together, these files are flirting with 15 MB.  That's big enough to cause problems with some e-mail systems.

Sure, I could zip the files, but there's another way to "compress" an Inventor file.

Locate the End of Part marker.  It's also known as End of Folded if you're using a sheet metal part.

Right click on the marker and choose Move EOP to Top (or  Move EOF to Top for sheet metal parts).

Locate the End of Part marker.
This pushes the marker to the top, and all the a feature in the part are suppressed.

The EOP at the top, and the features suppressed
After compression, the part with extruded text was a mere 2.41 MB.

A big change from 12.7 MB

By comparison the panel using Sketches was 1.01 MB.  Not as drastic as the larger file, but substantial nonetheless.


A smaller change, but still about a third. 
Having that trick can make it much easier when moving large part files back and forth.

When the recipient gets the file on the other end, just right click on the EOP/EOF marker and choose Move EOP/EOF to End.

How to get it back. 
This can be a nice way to "compress" an Inventor file without having to use zip files.  So when you're sending part files around, take a look!  It's worth a glance.

Oh!, And if you have an unsuspecting coworker, rolling the EOP to the top of their part when they leave their computer unattended has been known to be an "April Fools Trick" in the past.

Not that I condone that..... Or I've ever done that....

*************************Edit 17-November-2014*************************

Thanks to Clint Brown of Cadline Community for sharing a nice bit of iLogic code that will rollup the EOP marker and put it in an email for you.

It's definitely work taking a look at!

Have a look by clicking here! 





Thursday, November 06, 2014

Autodesk Vault 2015 Service Pack 1 is Out!

It's that time again, a new Service Pack for Autodesk Vault.

It can be downloaded by clicking here!

So what are the steps to install it?

Without going any further, it's all spelled out in the readme files that are included with the service pack.  And no matter what you do with this blog post, you should be reading those!

This is particularly true if you're working in a replicated environment.  The steps in this post are the steps for a single site update!

These are the files you should reference!
With that being said, let's begin.

There are some steps that you should always do, when updating Vault, particularly with the server. It's just good standard operating procedures, and good practice

1) First make sure you have a backup.  

In reality, you should be checking this already, but this is a good time to make recheck and make sure.  There's always the chance of something unforeseen going wrong!

I've never had a service pack fail to install, but I've talked to people who've had power outages occur right in the middle of an install.  How is that for bad luck?

Be a hero, have a backup

Stranger things have happened
photo credit: Rogan via photopin cc

2) The system will be down for a while.

Don't plan on running this upgrade on the server in the afternoon just before a project is due.  The service pack migrates the database, during which time the Vault will be closed for business.

Don't be the guy calling tech support and end up being told "Yeah, dude.  You're just gonna have to wait for that to finish.".

These are common steps in planning, but they're often overlooked, and I think they're important to mention.

Now, we get to start the service pack process!

First, open up a command prompt by typing CMD at the windows start window



Once the command prompt opens.  Type IISRESET.  This bounces the IIS service.



Now, you can finally click on the *.msp file to start the Vault Server service pack.

You may launch when ready


Now it's just a matter of clicking through and waiting.  It's a good idea to follow the recommendations

Ready, set...

Now the service pack will install.  Give it time to finish.


Go! 

After a bit, the service pack will tell you it's done!

All done!  Or is it? 


Once the service pack is installed, open the ADMS Console, and make sure the databases are migrated.

Vault will ask you several questions during this series of steps. First, it begins a before you log in.


Migrating before logging in
Next, Vault will ask you to log in, and which Vaults to migrate.  I've never done anything but pick all.

What libraries to migrate

Now, there's more migration!


You might think you're done, but if you have custom content libraries stored in Vault, you're going to see a few more questions.  Vault is asking you if you want to keep copies of libraries for multiple versions of Inventor.  If you're not using old versions of Inventor, this is your chance to get rid of old libraries.

What libraries do you want to keep

Clicking OK on this dialog box brings up yet one MORE dialog box.  What I call, the "are you sure?" dialog.  It's a final confirmation to make sure that the clicks you've made are correct.

Are you sure that you're settings are right? 
Now, at long last, the screen we're hoping for.   Success!



So those are the basic steps.  Vault updates aren't that difficult with a little planning.

The next step is to move onto the clients installs.  Those are pretty easy, and while you should update the clients as soon as possible.  Those can be done at a much more leisurely pace.


Monday, November 03, 2014

How Precise is Precise? Changing Measure Precision in Autodesk Inventor

“Most of the most important experiences that truly educate cannot be arranged ahead of time with any precision.”
Harold Taylor

KETIV's AMA 2014 in Southern California is a wrap!  It was good to see everyone, and as much stress as it was preparing for the session I helped in, it was fun presenting again.

But out of that course came one question that I didn't know the answer to.

"How can you change the default measuring precision in Autodesk Inventor?"


The default measure location behavior
At the time, standing in front of the room, I didn't know the answer.  After all, I don't know everything!

But over the weekend, the thought would occasionally return to me.  I felt like there might be a way.

Finally, I had a little bit of inspiration, and decided to give it a try.

Opening up Inventor, I played a little bit of a hunch.  On the Tools tab, I located Document Settings and opened up the Document Settings dialog.

Using Document Settings


Once on the Document Settings dialog,choose the number of decimal places you want by changing the Linear Dim Display Precision (or angular if that's your preference).

Changing precision

Once that's done, the measure precision will change for this document.

Precision reset. 

But wait, I said default setting, right?   If you want to make this a default behavior, the final step would be save these settings into a template file.

One way would be to open the templates from their location, make the very same change, and save that file.  This would change the existing templates.

The other would be to start a new file, make any changes you want, and choose the Save Copy As Template option.


Save as a Template

Whichever you choose is up to you!

On a final note.  I know that there are those who might want a different functionality.  And that's okay!   Share your ideas on the Autodesk Inventor Ideastation!