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Sunday, February 28, 2016

Embedding a PDF into a DWF file - I Did Not Know That!

I've been quiet on this blog the last couple of months, but life has been busy, and blogging had to take a low priority.

The last few months have felt a bit like this!  Without the fun!
But here I am, back to blogging!  This week's tip is short, but I think that it's something that might prove valuable!

During my current adventure, I saw a trick.  It's that trick that strikes so many of us.  The one that makes you say "Why didn't I try that!"

Well, at least I can share it!

Did you know that you can drag PDF documents into Autodesk Design Review and have them be accessed from the DWF file?

Here's a simple description.

Here I have a NAS (National Aerospace Standard) screw with an "offset cruciform" head.  I've exported the model from Inventor to a DWF file.

A DWF of an offset cruciform screw.

That part is well and good.  But where you hear the word "standard", there's bound to be some sort of data sheet.

The NAS standard for offset cruciform screws.
And sure enough, there is a standard available on all the sizes, part numbers, etc.  So what if you want to include this with the DWF?

Sure, you can attach both documents to an email, that will work just fine, and it's probably how most of us do it.

But what happens when the file will be downloaded, uploaded, file shared, and transported via USB?

There's always the chance that the files will become separated. 

Did you also know that you can drag and drop the PDF into the desired DWF?  All you have to do is drag it and drop the file into the browser.  The steps are simple, but there are a couple of important things to remember

1) Make sure you're on the "List View" or "Thumbnails" view in the browser.  If you don't, a new DWF file will be created from the PDF, instead of embedding the file in the current DWF.

Make sure you make the correct selections on the browser!

2) Now drag the PDF from Windows Explorer into the browser! That's it! 

Drag and drop into the browser!

3) Now you're ready!  the PDF will be converted and embedded into the DWF!

The DWF and PDF in one place!
So give it a try the next time a DWF is getting shared.  You might find it helpful!

One Last Note!

If you'd like the information on the offset cruciform screw in this blog, Coast Fabrication has a link for it here.   On the main page, you can find additional NAS standards here.

I have used this data to build a series of Inventor iParts for the fastener as well, you can find those at the GrabCAD link here


Photo Credits

photo credit: Rebecca meets the puppies via photopin (license)

Friday, January 22, 2016

5 Lessons Aircraft Maintenance Class Taught Me About Life

Last week, I finished up yet another class in aircraft maintenance at Mount San Antonio College.  This course was "Materials and Science", and involved learning all manner of aircraft hardware, as well as material properties, and non destructive testing.

A photo posted by Jonathan Landeros (@jlanderos1973) on

Between my time of learning to identify different types of corrosion, tapping threads, and test material hardness, I had a chance to observe my fellow students, as well as reflect on how I approached and learned.  I also came to realize that my learning went beyond the syllabus of the class.

So here, in 5 bullet points, are what Aircraft Maintenance Taught Me About Life

1) Don't Forget the Details!

One of my lab exercises was making a semi rigid tube.  That meant sizing, bending, flaring, and assembling the fittings together.  The instructor made a point to say that the tubes are critical for the flares to ensuring a pressure tight seal.

I followed each of the steps carefully.  My flares were the right size, the bends were spot on.  I was feeling confident!  So with my chest puffed out in pride, I plugged it into the test rig and waited for the instructor to be impressed and proclaim me a prodigy.

The instructor pressurized it to 1000 psi, our test pressure.  He sprayed a soapy water solution to look for the dreaded bubbles that indicated a leak....  And.... bubbles....

Not a lot, but a slow and steady stream was parading out of the fitting.

The instructor pulled my tubing out of the test rig and looked into the flares.  "You need to clean those up.  I can see tool marks."  He instructed.  His experienced eye saw where the flaring tool had marked the inside of the flare.  Barely noticeable, they were causing the minor, but unacceptable leaks in my line.

So I sat the tool bench with fine grit sandpaper for 20 minutes.  I sanded until my fingers were sore, and the tips of my fingers numb.  With much less bravado, I approached the instructor and tested the tube again.

This time it passed, successfully holding 1000 psi with out a single leak!

Lesson?  Pay attention to the small, sometimes unseen details.  They can save the day when the pressure is on.

2) Don't Confuse Speed with Purpose.

There were definitely two camps in class.  There were the "fast movers", and the "slow movers".  The fast movers jumped into the projects, got their hands dirty, and got to work.

The slow movers, were a bit more cautions.  They read manuals, had discussions among themselves, and then picked up their tools.

Naturally, the "fast movers" had their projects submitted first.  But then, something interesting happened.

The "fast movers" ran into issues.  Hose fittings were over-torqued, dimensions were out of tolerance. Their progress was halted by the snapping sound of a tap breaking.

The fast movers began the process of reworking.

The "slow movers" on the other hand, while not perfect, ran into fewer mistakes, and were reworking their projects less.   Eventually, just like in the fable of the tortoise and the hare, the slower group had passed the faster group.  Their diligence meant they made steady, consistent progress.

A photo posted by Jonathan Landeros (@jlanderos1973) on

Lesson?  Don't confuse activity with progress.

3) Good Students Memorize. Great Students Comprehend.

Our written tests were multiple choice, and the questions, which are defined by the FAA, are pretty standardized.  That translated into a lot of going over questions, making sure you knew all the answers.

This was another place that the class divided into two camps.

One camp would drill on the questions, they could ask a question, and another student could answer with "B", and repeat the answer word for word from the test guide.

The other camp, would study at home individually, then just before the test, review the questions, talk about the answer, and then talk about why a given answer was the correct one.

Come test time, the second group consistently scored higher.


The instructor, knowing the answers are standardized, change the wording of the question.  In turn, that could change the answer.  That drilled in and memorized answer, "B", suddenly became "A".

A photo posted by Jonathan Landeros (@jlanderos1973) on

Many of the students that didn't understand the concepts and memorized the answer missed these questions.

The students who comprehended the concepts, could read the question, understand what was being asked, and could reason the correct answer based on the question that had been asked.

Lesson?  Make sure you understand the fundamental concepts behind what you're doing.

4) Not Only Have a Plan, Have a Flexible Plan.

Our class had access to two mills for machining parts, and three drill presses.  The mills, being more precise, were coveted machines.

Naturally, students who needed them would jump on them right away, stake their claim and work on their projects for as long as they could.

That left other students out in the cold.

Clever students quickly learned that the mills would often open up near the end of class, when "there wasn't any time to complete a project".

But the clever students would start their projects during that time, and use the mill to size their project, or center drill holes that would later be drilled and tapped.

This meant when they walked into class the next day, if the mill wasn't available, they would use the drill presses to complete their work, using the previous nights precision work as guide.

A photo posted by Jonathan Landeros (@jlanderos1973) on

As a result, they were still able to make steady progress through their project, while other students were still waiting impatiently for the mill.

Lesson? Have a plan, but be willing to adjust the plan to keep your goals on track.

5)  Lessons Come from Many Places.

My instructor was fantastic.  He had over twenty years of experience, he could relate his real, practical experiences to our class, making the lessons more meaningful.  But he wasn't the only one who was teaching.

My fellow students came from all walks of life.  I was one of two with engineering degrees.  There were recent high school graduates, a machinist making a career change, and a retiree learning skills to maintain his own plane.

We were wonderfully eclectic!

Those with passion showed through.  We learned from each other.

Students who had previous experience with machining helped those who had never tapped a hole.  I learned how to hand form chromoly steel from a fellow student who'd done it before working on previous projects.

When the instructor wasn't available, the clever students found another way.  Usually by learning from each other.

Lesson?  Great Mentors are all Around You.  Find Them

To end this post, I had a great time in class.  I learned a lot about aircraft grade fasteners, fittings, materials, corrosion, and testing.

But it was also an amazing lesson in life.  Making friends, working with them, and learning them, and having an opportunity to share a few lessons myself.

Most of all, I saw what my fellow students did to be successful, and I was reminded that success is not one great act, but a series of small acts repeated every day.  It's trying, it's failing, and it's dusting yourself off and having the courage to try again.

Now if you excuse me, I have a few lessons to commit to heart, and maybe think of what my next class will be.

A photo posted by Jonathan Landeros (@jlanderos1973) on

Sunday, January 10, 2016

Class Time Again - Materials and Processes. And Lessons for 2016

Here's the first post of 2016, and it's already been a busy year!  

I've started with another class in aircraft maintenance.  This time, materials and processes.  

That means three straight weeks spending evenings learning about aircraft fluid lines, hardware, and heat treating.  

It's a lot of work, but it's also fascinating.  At least for me! 

So my first week there I spent learning about all manner of fluid lines, I learned about semi-flexible lines, flexible lines, as well as the fittings that accompany them.  

The hydraulics in a speed brake in an F-86 Saber
(Taken at Planes of Fame Air Museum)

Just as important, was a lengthy lecture on how to install hoses properly to ensure they're effective and safe use!  

Examples of the right and wrong way to install a hose.
In short, don't twist the hose! (From AC43.13)

Like I said, it's fascinating for me. 

But there are plenty of others out there, who may not give one rip about the differences in flares in an automotive versus an aircraft semi-rigid line.  So what is the broader lesson to consider? 

The tools to design is becoming more pervasive as technology allows design tools to the masses.  Tools like Fusion 360 and Onshape have made 3D CAD available to people who only a few short years ago would have only dreamed of having access to that kind of design capability.

It opens up an entirely new world of potential of how people create things and build. 

But I think that raises a new challenge.  How do we design?  We now have amazing tools for creating and making things.  But that doesn't mean that we have the experience to use them to their full potential.

Those lessons can always be learned, but I don't think they should be learned in a vacuum.  "Someone always knows more than you do."  I'm told.

Mentor's come in many forms.  I encourage you to find yours!
Sure, you can create a 3D model, we can even run an Finite Element Analysis (FEA) simulation and see how the stresses interact on our part. 

But that doesn't help us know how to load a part.  We can't always know that a hose should have 5-8% added to it's length to account for expansion and flex.  Even today, software may not tell us that.  Experience does.

There's no account for experience.  Take this from a guy who has learned volumes from mechanics who have been doing their job for longer than I've been walking this planet.

You just can't beat that real world experience in my mind!

I can (and have) learned many a lesson from mechanics like the
those repairing this F-86 Saber!
So what do I think the challenge as we take our first steps into 2016?   

The "Internet of Things" rides on the backbone of the 'Information Superhighway".  

We're fortunate enough to not only have the tools to design, but access to volumes of information on how to design.  

Just look at resources like GrabCAD, and EngineersEdge.  There are so many out there!  

So as we begin 2016, let's design!  Find a mentor, find a class.  Let's embrace learning, and embrace our passions, whatever they are!

There is so much we can learn! 

Additional Photo Credits

photo credit: FDR 1978 Graphic Arts Shop Class - Mr Gruber - 04 via photopin (license)

Sunday, December 13, 2015

Text Masking - Making Leaders Disappear Since 2000.

This week's post is short and sweet, due to a little craziness during the week, but I still hope you all find it enjoyable and helpful!

The simplest things can drive you crazy,  One I encountered in Autodesk Inventor was a leader that seemed to randomly disappear.  It would just stop in one place, and start in another.

There seemed to be absolutely no good reason for it.

Why is this leader cut off?
It can be really puzzling.  The first time I encountered it, it completely threw me off.  It took a little bit of clicking and dragging before it finally dawned on me.

If you study the image above, you can actually see it, if you know what to look for.

The text box covered up the leader for the balloon.  Because of that, the masking "erases" the leader.  Dragging the leader out of the box, or dragging the box away from the leader, cause the leader to reappear.

And the truth of the fact was I had been a little careless and "whipped" the text box and made it far larger than it needed to be.

Here, I've shrunk the box to give the leader room.

It's so simple, yet at the same time, it can be so frustrating.  But in the end, it's really simple to fix.

So what's my suggestion?

Keep your eyes open, of course!  But also be aware that dragging a huge text box, because "it doesn't make that big a difference" can be asking for trouble.

Why?  It can cause a huge difference!  But just be aware, and know what to look for, and a big frustration can be reduced to just an "oops".

Sunday, December 06, 2015

Why is Inventor Constantly Freezing?!? - Wait, it's not Inventor's Fault!

Earlier, this month, I relived. something many CAD users have experienced.

Frequent freezing and crashing!  The bane of any CAD jockey!

When a CAD system crashes, this is what designing feels like.
Let's paint a picture!

A natural first reaction is to blame the CAD system, then perhaps the hardware.  Next may come the universe and any crimes you may have committed in a past life that have resulted in such Karmic retribution.

But there was one thing that blew everyone of those theories out of the water.  Well, except for the Karmic retribution theory.

Inventor hadn't been having this problems before.  It had been rock solid in the days, even hours.

So I traced back to what I was doing when the freezing and crashing started.  What had I done?

It turned out, I had imported a step file that represented a gearbox. A coworker confirmed that he'd experienced the same thing on his system with that same model.

Smoking gun located!

This was my culprit.  You evil, evil model. 

Confirming the Symptoms

Opening and inspecting the gearbox by itself, There were a few symptoms the model exhibited that indicated it as our sick file.  One of them may not be a problem, but together, things start to click.

1) The size was larger than I expected.  It was about 5MB.
2) The file took forever to perform even simple operations.  Things like placing constraints in an assembly, or creating a sketch in a part took several minutes to calculate.
3) Then aforementioned locking up and crashing.

At this point, I was sure I had found my culprit.

The Solution

I recalled a discussion with a colleague many years ago, I remembered a corrupt step file that had caused crashing in her system.

In that case, there was a weird, intersecting face that crashed the system.  The solution there had been to locate it and cut it away.

I actually tried that, but after about an hour, I hadn't located the problem.  I even tried loading the file into Fusion 360, and still ran into performance issues.

It was time for a different approach, which I should have tried in the first place, in retrospect.

I downloaded a new model!  But instead of a STEP file, I tried an SAT file.

And that worked!  The system was stable again.  It didn't crash again after that.  The file was less than 1.5 MB,

It feels good to be under way again!

The Conclusions

Bad or corrupt neutral files exist.  They're unavoidable.  Like a game of telephone, they can be caused by bad translation, bad imports, or sometimes, just bad luck. I couldn't tell you the cause of this models issue, and ultimately,, my superiors didn't care.

They wanted the project moving, they didn't care about which corner of the model had an issue.

I encourage you to be aware that "bad models exist!"

Some CAD models just fall in with the wrong crowd....

Moreover, when your program of choice begins crashing, remember that crashes aren't always the fault of the program.  Whether your using Inventor, Solidworks, Solidedge, or "My-CAD-Program-is the-best-and-if-you-disagree-your-wrong" CAD (We all know who those guys are!), look at what you did just before the crashing started.

It's always possible that whatever that was, a model, a bad constraint, sketch, whatever, is your "bad seed"

Keep your eyes open!

Photo Credits

photo credit: image29991 via photopin (license)

photo credit: L'hydrofoil via photopin (license)

photo credit: 45/52 Cat Burglar via photopin (license)

Sunday, November 29, 2015

Fusion 360 - My Concept Modeler, Test Station, and Presentation Tool

I'm at the end of the four day Thanksgiving Holiday in the United States, but even on vacation I was busy trying new things.

It's what I do...(Shrug)

For a couple of years, now, I've been hearing the benefits of Fusion 360.  It's portable!  It doesn't require a high power workstation!  It's easy to use, and so on.

My old colleague, Jorge Fernandez, even built a 30 minute presentation on the benefits of Fusion 360!

And don't think I'm a detractor!  I see the benefits, I fully acknowledge them.  But what I haven't truly had yet, was an opportunity to realize those benefits for myself.

Our black cat, Scar, however, remains completely unmoved.

Scar the Kitteh is unimpressed by cloud applications like Fusion 360.
However, he does see immediate ROI in a fresh can of wet food.
This weekend, during the long weekend here in the United States, I had my opportunity to realize my benefits on a level that had a more personal impact.

First, a brief  description of my situation.

I was working on a small cover that had to be light enough to be removed, but strong enough to be walked on.  A constant concern was excessive "oil canning" of the material, where it would "pop" in and out like an old oil can.

If your old enough to remember theses, you know the "Oil Can Effect".

But time at work is precious.  Development time, like anywhere must be kept to a minimum. And while there is value in development, there isn't always the time for development.

Many of us have encountered that before.

I don't mind playing with an idea at home.  I do some of my best thinking at home, in solitude, with a cup of coffee in my hand.

My challenge is, I don't have Inventor at home.  My installation is on a desktop machine, and I don't have a laptop husky enough to run the software currently.

But what I do have, is Fusion 360.

So over the course of my weekend, I built up a quick concept model,and ran a quick FEA to see what the design would do.

The floor model.  There's even a grate texture to simulate perforated metal

The FEA analysis.  I'm looking to see how much the floor deflects. 

Is it a perfect design, no, it's a concept!

But what Fusion 360 allowed me to do was "strike while the iron was hot" when my ideas and inspiration collided in my brain, instead of when I walked into the office after a long weekend.  Now I also have a more fully realized concept that I can share with colleagues.

When I walk in the office after vacation, I can talk about ideas. with a little more confidence, and with a little more visual aid.

This was my use for Fusion, a 3D notepad, repository for ideas, test station, and presenting tool, all in one.

Does this affect you?  Perhaps, perhaps not.  I leave that for you, as an individual to decide.

But do I think it's worth consideration, for my part, I have no doubts.

Oh!  And one last post script.  Here's the file I created, embedded from A360.  I know the design isn't perfect, there's more tweaks I can make.  But remember, it's a concept!

Additional Photo Credits:

photo credit: Oil be darned! via photopin (license)

Sunday, November 22, 2015

An iProperty in Time - Linking Autodesk Inventor Properties to Your Drawing

Creating and modifying prints often comes down to details.

Many errors I've seen (cough, made myself), are smaller, easier to miss details.  One example, is forgetting to update a text field.

This is not the print you want to miss a detail on.
Just ask this engineer.  He's got a tough boss!

These are often notes that are hiding in a corner in the drawing.  A part number in a note is a prime example. 

But what if I told you there was a way to set up your template with a field that automatically read in the part number?  So that every time you placed a part in the drawing, the drawing automatically read in that part number. 

There is, and this is how. 

Start out by typing text, just like you have countless times in an Inventor drawing.  But choose the settings indicated in the image below: 

Here are the steps the image describes.

1) Start the text tool.  You won't get far without this step.

2) Start typing! You'll need to get to the point where you're ready to insert the text.  

3) Set the Type to Properties - Model.  This makes sure that your reading the property from the model placed on the drawing. 

4) Property - This is the property being placed in the text field.  In my case, I'm using part number, but there plenty of others to choose from.

5) Insert - This is "pulling the trigger".  This places the text in to the text field. 

Next, you'll see carets with the property insert into your text editor.  Part number appears in my case. 
After this is done, complete typing the note you need.  Once you hit OK.  The text will appear on the drawing and the property's value will be read in. In my case, it's the part number 2015-48-12.

Should the property change, the field will update, wherever it's called out on the drawing, including multiple locations, if you have them. 

In my example, I'll change the part number from 2015-48-12 to 15-1595-ABLE.   Which, let's face it, part numbers, among other fields, can change.

Once the field is updated, the drawing will read that property from the model and automatically update. 

There are the steps to get a property linked into a text field.  To get real bang for your buck, add required fields to your template, and get rid of some of those repetitive, and easy to forget tasks!

And look at what other fields you can add.  There are plenty to choose from!

I did create a video for this one using Autodesk Screencast.  No sound, I'm afraid.  But life has been keeping me *just* busy enough to keep me out of my little editing room!

Tuesday, November 17, 2015

A Mid-Week PSA - A Wealth of Information from the Stainless Steel Information Center!

In my post earlier this week, I blogged about learning how the orientation of the sheet metal flat pattern in Autodesk Inventor can affect the finish of the part that comes out of a machine, and how to flip the base face to make sure that the desired side was unblemished by the laser mill bed.

In my case, the finish being applied was a #4 finish to a stainless steel sheet.  That was the nice finish that had to be protected.

Another view of a laser mill, and that finish destroying bed.
Now, this is the point where I confess something to all of you out there.

When I first heard #4 finish used in conversation, I was the guy nodding my head as if I knew of the #4 finish they spoke.

In reality, I had no idea what a #4 finish was, aside that it was special.  While I was nodding knowingly, I was tilting my head like a curious dog on the inside. I endeavored to make a few Google searches when I got back to my desk.

Admit it! We've all looked like this at one point or another! 

And Google paid off in spades.  I found the website for the Stainless Steel Information Center.

Not only did I find exactly what I needed to know about #4 finish, I found a wealth of information on stainless steel, I found definitions, information on composition, applications, corrosion properties. The list goes on and on.

I haven't even gone through the entire site yet!  But I know that I will eventually.  I'll refer to this site often!

I've already started downloading some of the handbooks for myself.

But if you're using stainless steel, thinking about using stainless steel, or you're a student wanting to learn about stainless steel, then this is a resource well worth considering.

And if you know any other great engineering materials, or anything at all, feel free to share with a comment!

And by the way!  A #4 stainless finish is what you'd find on appliances, architectural wall panels, and tank trailers, among other things.

But now you have the resources to read that yourself!

Photo Credits

Laser Mill by: By Metaveld BV [CC BY-SA 3.0 or GFDL], via Wikimedia Commons

photo credit: DSC08200.jpg via photopin (license)

Sunday, November 15, 2015

For a Good Finish - Flipping a Flat Pattern Base Face in Inventor

Laser mills can be fascinating machines to watch.  Even thought they've been around for years, watching them still feels like a little bit of science fiction.

Just watch this video from Wikipedia and try not to imagine something sci fi!

But no matter how sophisticated the tool, there are always "tricks of the trade" to get a little more out of the tool. 

One thing I've learned is the care of keeping the "good side up".  

The material in a laser mill rests on a grid of pointed steel plates I've taken to calling the "bed of nails".  

Looking at the image below, you an see pretty easily how that could mark up a surface you'd be hoping to keep free from marks.  

The laser mill bed. Certainly not the place to get a good night's sleep.
Because of that, you may have guessed it, it becomes important to keep the "good side up".  This keeps the visible side of the sheet metal off the "bed of nails", making sure it's got a clean finish. 

In Inventor, this means making sure that when clicking the flat pattern icon, the face that Inventor shows you is the "up" side.  

But how to you make sure the good side is out?

The obvious way, is to choose the "A" side right away, either by using the "A Side" tool, or by selecting that as your face when you create the flat pattern. 

But what if you need to change it after the fact?  In spite of the best efforts of the best designer, it's always possible one flat pattern is going to be reversed. 

An easy way to fix an incorrectly oriented flat pattern is just to delete it and replace it.  This might work great if a drawing using the flat pattern hasn't been created yet, but what if it has?

If a flat pattern view is created, deleting the flat pattern means recreating the view in the drawing. 

This is a fairly simple flat pattern.
But do you want to recreate it if you don't have to?

In other words?  It means more work. 

So here's an alternative that I think you might like. I'll flip the "A" side of the sample below.  I've colored one face red to make the change a little easier to follow.

Getting started with a sample part.

First, while in your sheet metal part's flat pattern, right click on the flat pattern icon and choose Edit Flat Pattern Definition.  

Accessing the flat pattern definition.

Now, a dialog box appears that allows the option to change, create, and save orientations if you'd like. In this case, it's the Flip option under the Base Face section we're interested in. 

Clicking this face flips the sheet metal face over like a pancake on the griddle.  In the flat pattern sample used here, the silver face is now visible. 

The face is flipped over

Now, switching to the drawing, the flat pattern also shows the silver side, Careful inspection will also show that the bend directions have all changed too! (Careful, the view is rotated 180 degrees).

The flipped, can completed, view.
You may noticed that the dimensions need some rearranging, but at least speaking for myself, I'd rather rearrange annotations than recreate a set of annotations.  In other words, this is a small trade off for the time saved when facing recreating entire views. 

So if you're facing flipping a sheet metal pattern over for any reason at all, I suggest considering flipping the base face.  It can be a real time saver. 

Sunday, November 08, 2015

Batch Converting Files in AutoCAD - A Very Handy Tool

Earlier this week, I was faced with saving a handful of AutoCAD files from the 2015 to a 2000 version for use in a laser mill.

Naturally, the most direct way is to open the file in AutoCAD, and save back as a 2000 version.  But there's a handful of files, so it's going to take a little bit of time to save the files one a time.

Converting files one at a time.  This is a common look for
the person stuck with that task. 
But there's a utility here to help us out with that.

It's called DWG Convert, and lets you batch convert AutoCAD files to an older version of your choosing.

To get to the tool, go to the Application Icon (the big "A" as I like to call it) and choose Save As.

On the flyout, look for the DWG Convert icon.

The DWG Convvert Icon.
Choosing this icon, you'll be greeted by the DWG Convert dialog box. And there are options to choose from.

The different areas of the DWG Convert dialog

The sections listed by the blue icons are:

1) The list of files to convert (these haven't been added yet).
2) Icons to add files to be converted.  From left to right, they are:
Add files to convert

  • Add files to convert
  • Create list of files to convert
  • Open a list of files you've previously created
  • Append files to an existing list
  • Save to list

3) This section provides a list of selection setups to choose from

4) Finally, the Conversion Setup icon allows you to modify an existing setup, or create one of your
     own.  This is the one we're going with right now.

Clicking on the Configuration Setup button shows a new dialog box.

The Conversion Setups dialog box.
Here, you can create a new setup, as well as rename, modify, or delete existing setups.

In my case, I chose to create a new setup.  Since I'm converting to 2010, I used Convert to 2000 (in place) and selected new.  This creates a new setup based on the existing one I chose.

Changing different options for the conversion.

Now modifications can be made to the setup.  These include, how the files are handled (such as a zip file, or folder of files) which format to convert to, as well as several actions to perform on the files, such as purging and error correcting.

It's listed quite nicely in the Autodesk Help System here, so I won't try to recreate that particular wheel in this post.

Accepting the settings, I'll return to the previous dialog box, and add the files I want to convert.

Adding files to convert.

Once the files are added to the list, all that's left to do is click Convert, and let DWG Convert do its thing.

The conversion in progress.  The list can be seen in the background.
After a short span of time, depending on size, and how many files you're converting, it will all be done.

All done!
You can now get the files from the location you saved them to, and they're ready to do what you need!

So when you need to batch convert a bunch of files, here's a tool to keep in mind!

Photo Credits:

photo credit: 2 a.m. Tedium via photopin (license)

Sunday, November 01, 2015

Show Sick Constraints in Autodesk Inventor - A Newer Trick That's Worth It!

To borrow a phrase from Fiddler on the Roof, "Our old ways were once new, weren't they?"

And I'm reacquainting myself with building, changing, and modifying assemblies in my new capacity.  That means changing geometry after parts have been assembled.

And that means dealing with sick constraints!

They say an ounce of prevention is worth a pound of cure.
But sometimes you need a heaping pile of cure.
I had to change a hole into a slot in order to give a part a easier to adjust.

Note! For this post, the top nut and washer have their visibility turned off to make the slot easier to see.  But it is there!

One of these holes has to become a slot
Creating the slot is easy enough.
However there were threaded rods and nuts that were constrained to the now removed holes, and naturally, those constraints lost association.

Locating these in the browser is usually easy enough.

The sick constraints in the browser.

But then I remembered that there's a tool that will make glyphs visible on screen to show me where my problem constraints were.

It's called Show Sick Constraints, and it was actually introduced in Inventor 2014.

Clicking this tool shows glyphs for the sick constraints right in the modeling window.  By right clicking on these, the options to change the constraints become available

The glyphs shown.  Note one washer/nut combination is invisible
Choosing the Edit option, the lost constraint becomes visible.  It's represented by the red arrow.

Right click on Edit

By clicking it, I can re-associate the missing constraint to the new geometry represented by the slot. It's just like when the constraint was added in the first place.

Replacing the constraint.  The nut and washer are invisible.
This makes it easier to select the desired geometry.

When compared to fixing constraints by the "right click in the browser" method, I found this to go by quickly.  I wasn't checking the browser, and using tools like "Isolate Components and "Find in Browser" nearly as often.  And while those are great tools, "Showing Sick" made the process smoother with a minimal amount of "mouse mileage".

The constraints restored!  The glyphs can now be hidden if desired with
the "Hide All" tool net to "Show Sick"
It's a nice tool that helped me quite a bit in this particular situation, I'd suggest you take a look and add it to your repertoire of tools!

Photo Credits

photo credit: photo credit: Conefluence! via photopin (license)