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Tuesday, August 15, 2017

Using Sheet Metal Styles - Fusion 360 Style

So I've had a little more time to work with Fusion 360's sheet metal, and things are beginning to run a lot smoother. as I'm getting more familiar with the tool.

One of the things I've put a little of time into is sheet metal styles.  While making parts is the goal, and my favorite part of using any CAD system.  A solid foundation of sheet metal styles can go a long way to making sure your sheet metal parts are accurate and consistent.

Most of all, a good set of styles can eliminate a lot of repetitive work and make sure you spend most of your time modeling, instead of creating the same sheet metal for the umpteenth time!

To set up a sheet metal style, the first trick is to locate the style.  In Fusion, you'll find that in the Sheet Metal Workspace, on the Modify menu.

Finding your Sheet Metal Styles
Opening up the Sheet Metal Styles dialog box, you'll see two sections, In this design, and Library.   The styles located in the design are stored inside the current document.  But the library, those styles are available to any documents you want.


The Sheet Metal Styles dialog box

Fusion provided some defaults, but they didn't match what I needed, which in the case of this part was .032 ALCLAD Aluminum.

While Fusion doesn't provide us with this as an option, I do have a Aluminum (in), a generic aluminum, which I can copy to create my material.

You may have noticed that I've also got .051 and .040 ALCLAD already created.  I could have easily copied those as well.  But let's, for a moment, pretend they don't exist, and we'll start like I did from scratch, without any ALCLAD.

All you have to do is right click on the material you want to start from, in this case, Aluminum (in).  Choose "New Rule".

Creating a new rule

A new dialog box will appear where the parameters for the new rule can be entered.

The sheet metal styles dialog box.
Save the style, and congratulations!  A new Sheet Metal Style in Fusion 360.

The new rule is added to the library! 
Notice that since the rule I started from was located in the library, the new rule was also created in the library.  It's already a part of my library, and available to other parts.

But What if I Copied a Material That's Only Local in the Design? 

If you copied a material that's local to the design, just right click on it, and there's an option to Copy to Library, and the material can quickly be placed in the library so it can be available to other designs.

Copying from the local cache to the library

That's Wonderful!  But Now I Need to Change Styles! 

I poked around Fusion a little bit before I found this, mostly because I refused to resort to reading the instructions!  But to switch to a different sheet metal style, locate the Sheet Metal Style in Fusion's browser, and locate the Switch Rule option.

Switching Sheet Metal Styles


By choosing this you can select a rule located in your document, or in your library!

So have at it, and keep learning!

Friday, August 11, 2017

Fusion 360 Sheet Metal - My First Impressions


So I've had a little time to work with Fusion 360's sheet metal tools.  And when I say "a little", I mean "A LITTLE".

My first Fusion 360 sheet metal part
All I've had is a couple of evenings to create a few simple sheet metal parts.  They're no more than a couple of brackets, but they're also enough for me to start getting acquainted with the tools, even if it's sill a quick introduction.

But what I was able to do was to get a bit of an impression of how Fusion 360 works, and figure out where I need to learn a little more.

And when I say a "little more", I mean "a lot" more.

I've used sheet metal in Inventor on and off for around 17 years now, so it goes without saying that I approached Fusion from the perspective of using it like it was Inventor.

So I'll just cop to the fact that I can't help but compare it to Inventor.

What is the the kids say these days?  "Sorry.  Not sorry."

And while Inventor was similar to Fusion 360 in many ways, it was very different in others.

Here are just a few I've noticed so far.

Sheet Metal Rules

They're actually a lot like Inventor's sheet metal rules.  It's similar enough, that I could make the jump pretty easily.

Fusion's Sheet Metal Rules.  I've created my own rule here.
I miss the thumbnail images that Inventor has in its sheet metal rules dialog, but I could navigate it pretty well based on the information provided by Fusion.

Bend tables and equations aren't in Fusion at this point, but even when they were available in Inventor, I never knew anyone who used them to generate flat patterns.

I'm sure there are that do use them, I just didn't encounter them in my travels.  This may be one of those "future update" items.

I was able to create a new sheet metal rule in a few minutes, all it takes is copying another, similar rule and changing it to meet my new requirements.

The Flange Tool

In Inventor, the Flange tool created flanges from existing faces, that's it.  if you wanted to create a C-channel in one step, you had to use "Contour Flange".  If you wanted a flat sheet metal face, you had to use the 'Face" tool.

Fusion 360 combines those three tools into one "Flange" tool.

Using the Flange tool to create a channel

Using the Flange tool to create a sheet metal face.
The Flange tool creating a straight up flange.

Once I figured this out, I came to like it.  To me, it's a simple, easy to use approach, at least in my opinion.

After all, it's much harder to hit the wrong button when there's only one button!

I also like how Fusion implemented the grips to change the flange height and angle.  It felt like a natural way to form the part.

After a few minutes of figuring out how it ticked, I liked the way they went with it!

Unfolding

Creating a flat patter from a folded part was easy for me.  Fusion 360 asks for a stationary face.  In other words, which face the part will use as its "anchor" to unfold around.

Selecting the stationary face for a flat pattern
Inventor did this as well, but to me, it didn't always seem obvious that you could provide Inventor with this information, especially to Inventor newcomers.  Although later releases of Inventor did address this with the "A" face tool.

In any, case, the functionality is essentially the same, just presented differently.

The flat patterned generated in Fusion 360


What Can be Unfolded?

See this part?  You're not unfolding this one! 
The rule of thumb I was taught for Inventor was if you could bend the part in a sheet metal brake, Inventor could unfold it.  Formed parts with a lot of deformation, or flanges around bends, aren't going to unfold in Fusion 360.

The same seems to hold true in Fusion 360, based on my few minutes of testing.  But I expected that, so there really aren't any surprises here.  

I just had to see if maybe, just maybe, there was  the computer aided equivalent of the Holy Grail in the unfolding tools!

In conclusion.

After what was, at most, two hours of seat time, I was able to generate some pretty simple sheet metal parts pretty easily.

There's some room for growth to be sure, but I'm sure improvements will be made in future updates.

The functionality that I've seen so far, I like!

And I do have to reiterate that I have very little time with Fusion 360 sheet metal, so it's even possible there may be functions I haven't even discovered yet!

So at this point, I'll enjoy, and continue to learn the functionality I have, and look forward to those updates in the future.

Tuesday, August 08, 2017

Sheet Metal in Fusion 360 has Officially Arrived!

After much angst and waiting, sheet metal has finally been officially released in Fusion 360.  Previously it has been warming up in the bullpen known as "preview".
Upgrade in progress!

This evening, upon getting hope from work, I started Fusion 360 and was greeted by the "Updating Fusion 360" announcement in the Job Status.  

Once the update completed, Fusion 360 asked me for a restart, and once restarted, a shiny new Sheet Metal toolbar made itself available.

Now I have to confess, this is the first time that I've seen Sheet Metal in Fusion 360.  16 weeks worth of evening classes and a full time job prevented me from having the time to really do much with the sheet metal package except for the occasional wishful thought.

The sheet metal tools!
So the reality of the matter is, I can only serve to announce "HEY LOOK! SHEET METAL IN FUSION!"

Yeah, I know, not much good for much am I?

But I did take a few quick "who needs the instructions!" swipes at the tool, just to see how it compared to the Autodesk Inventor I'm used to.

All told, I probably had, about 15 minutes of  seat time with it, so it's easy to argue that I'm not at a place to talk about the tool confidently.

So I'm not going to go into the things I love or hate about the sheet metal tools at this time.

It just wouldn't be fair or proper, one way or the other.

What I will say is that it is similar to Inventor, with it's flanges, rules and flat patterns, but there are some differences as well, such as no face tool, or "cut across bend"  that I've found so far.

But what I do have is a list of parts that I'm going to make, and once I get a few parts done, I'll have a better idea of how Fusion 360's sheet metal tool sizes up!

Stay tuned!



Sunday, August 06, 2017

Using Extrusion Templates in Fusion 360 Using Insert into Current Design

An F4U Corsair at Planes of Fame in Chino Ca.
Photo is mine.
As part of my Fusion 360 experience, I've been building different parts for a WW2 era Vought F4U Corsair.

Why am I doing it?  It provides me an opportunity to learn how a machine like this was put together, it challenges me to find ways to use Fusion to find creative ways to solve design challenges, and I flat out enjoy it!

And what's the point of doing it if it's not a least a little bit fun!

The planes I've used came via my subscription to Aircorps Library, who has done a marvelous job scanning and sharing plans for WW2 era aircraft.

And before you ask, sorry, I'm not sharing the plans.  I pay for my subscription with them, and I'm happy to support their efforts.  To me, sharing their plans without proper compensation would be tantamount to stealing their hard work.

But with that being said, here's what I've learned about how the engineers of the 1930s and 1940s who designed the Corsair, and here's how I was able to get Fusion to help me with my "recreation" efforts.

Many parts were created from extrusions,  These extrusions were in turn, machined to create various parts for different parts of the aircraft.

The "Make From" reference in the
drawing's title block
Due to this fact, the finished parts had a note to "make from", the "from" part referencing the standard extrusion.

Well the last thing I want to do is redraw the exact same shape for multiple parts!

So here's how I was able to use Fusion to make the extrusion profile available, and reusable, to multiple drawings.

It's actually quite simple.  The first step is to create the cross section of the extrusion in a Fusion 360 part file.  I opted not to extrude the part at this point in time.

A sample of the extrusion template
This part becomes my template for future use.

The next step is to insert the template into a new model file so I can create new parts from the template.

The goal of this is to insert the previously created sketch into a new model, and extrude this sketch to create a new part.



First start a new Fusion 360 file.  Once the file is open, browse to the location of your template, and choose "Insert into Current Design".

Choosing  "Insert into Current Design" to use the
template for the extrusion

This function links the extrusion profile into the new file.  Once the sketch has been inserted, the sketch can be extruded just like it had been created right in the part, instead of being linked in.

The part being extruded using Fusions std. Extrusion tool
Once the extrusion is created, you can work on the part just like any other Fusion 360 part.  You can add and remove material as needed to meet your design requirements.


That's the basics  of creating an extrusion template in Fusion 360.   At least that's how I've approached it.

So what are the advantages I found that drew me to this conclusion?

Well, for starters, I don't have to drawing the same shape over and over again.  That alone is reason to chose that route, at least for me.

Second, any new parts created from the template are linked back to that original template.  So in the event any changes have to be made to the template, the parts generated from the template will also update.

In the event that happens, it can be a lot easier to update several parts than have to transfer the same dimension to several parts, and run the risk of missing that one odd part.

So in conclusion, this is why I approached this file in this way.  You may come at it completely differently, or maybe just vary this process just a little bit.

It's up to you!  If you find a different approach, feel free to share  in the comments.



Disclaimer: The views and opinions expressed in this article are those of the author and do not
necessarily reflect the official policy or position of Planes of Fame Air Museum or AirCorps Library.

Sunday, July 30, 2017

Hydraulic Fluid Fitting Models in Fusion 360

A project I've been working on, "here and there" has been a series of AS5174 hydraulic fittings.

Original created in  Inventor they were imported into Fusion 360 and added the gallery here.

They're samples I've opted to share in the event anyone can use them out there.

If they help you, let me know!

Have fun!

Sunday, July 23, 2017

Using Attach Canvas in Fusion 360 to Find an Unknown Measurement

For the last few weeks, on my spare time, I've been creating models from scanned prints in Fusion 360.

Most of these prints are produced in the 1940s, and they border on artwork.  When an drafter nearly
80 years ago could accomplish with pen and paper was impressive.  They were certainly masters of their
craft!  You can see a sample of a similar drawing here

How can you find the missing dimension? 
But a challenge I encountered was one that even modern users of 2D drawings encounter.  Missing
dimensions.

In some cases, the missing dimension was a result of a drafting error, in most cases, the dimension
was referenced on a different drawing that was unavailable to me.

But it doesn't matter how the dimensions ended up missing, if they can't be found or derived.  Without the missing dimension, creating a model from the drawing becomes much more challenging.

Fortunately Fusion 360 has a nice tool that makes finding this dimensions pretty simple, as long as
you have a single dimension, and the drawing is consistently scaled. 

How do you do it?  Here's how I was able to figure out what that phantom dimension.

Convert your drawing into an image file, a *.png, *.jpg, *.jpeg, and *.tif are all formats you can
use.

Now this image can be imported using the "Attached Canvas". icon.



Fusion 360 will want to know which plane you want to place the image on, and will also want you to browse for the image you want to insert.

Once an image and a plane are selected, you'll have an opportunity to scale the image, using either the handles or in the dialog box.  You can scale it here, but there's a step coming up where it'll be easier to scale the image accurately.  In my case, I used this yet to be seen step.

The Attached Canvas Preview
The drawing will import onto the Fusion 360 canvas, but it's not calibrated.  It's up to us to make sure the scale of the drawing  is 1:1. . 

I recommend re-positioning the attached image easier to measure.  Once that's done, locate the "Canvases" folder in the browser.  Right click on it, and choose "Calibrate".

This step gives you the opportunity to measure a known value on the Attached Canvas.

Choosing the calibrate option will allow you
size the imported image. 
Returning back to the situation I found myself in, The drawing I was reproducing had edges I with dimensions I could use, so I just picked an edge with a dimension, and chose the extents of the dimension for scale.

In the case of my drawing, the dimension I chose was 5 inches.  Naturally, the calibration the dimension on my canvas, but trust me!  It's 5 inches!

Calibrating the image using a known edge.
The image will resize according to that known dimension, and if the drawing with a consistent scale, measurements can be taken from any part of the drawing and a reasonably accurate measurement can be made. 

A measurement taken to obtain the part thickness
By using this method, the dimensions of the part can be obtained from the drawing, and the drawing turned into a 3D model.  

But of course, it's not all a walk in the park. There are some things to be aware of going in.

You've already seen me use the phrase "consistently scaled".  In other words, the drawing has to be created to some sort of accurate scale.  If it's sketched to different scales in the X and Y axis, it will be difficult, possibly impossible, to get good dimensions.

I've also used the phrase "reasonably accurate".  That means you can't quite get to the last decimal point of your measurement.  But you can get close enough to determine many measurements.

For example, if you measure .193 on a part that can be expected to be a standard thickness, then you might be looking at a thickness of .1875 inches.

But even if not perfect, this method can get you exactly what you need when no other methods work.

So give it a try!





Sunday, July 09, 2017

Making a "Port Tool" in Fusion 360

The finished housing
Earlier this week I finished my sequence valve housing in Fusion 360.  And I learned a quite a bit doing it.

Many of my challenges were learning to use Fusion 360, partially because it's a tool I'm still new to, and there are different ways to do things in Fusion.

But the challenge I'm going to focus on is more one of process, than one of creating shapes in Fusion

The ports where fittings attach
One of the challenges I faced was how to easily model the 6 ports that were located in the housing.

They're all based on the AND-10050 standard.  That means that the ports are similar.  And when I say similar, I mean they're all similar geometry, varying only by size.

Take away the dimensions, and they're the exact same shape

I also recalled that there are special tools for drilling these ports.


In other words, where things can be standardized, they are as standardized as possible

So why do the same thing in Fusion?

We'll, here's how I did it, at least in brief.

First, create a new part in Fusion, locate the parameters, and entered the dimensions from the table found in the standard into the User Parameters section.

The user parameters
Why enter them first as User Parameters?  I can enter them in an orderly fashion, as they're seen in the table, and then enter them as I built, instead of trying to do both at the same time.  I think it's easier, personally.

The cross section for the "port tool".
Next, I built the port, using standard Fusion tools, and calling the user parameters I entered above.  In my case, I created the cross section for the port as a revolved feature.

It's interesting, at least I think, to point out that the finished "port tool" is a solid.  But I'll use this to remove material from the base casting that will be receiving the port I need.



The port tool, as a solid.
So what were the benefits I found to doing it this way?

First of all, I had a tool that was easily reusable and repeatable across as many places, and designs as I needed.

Second, since the AND-10050 port comes in multiple sizes, I could copy the port, change those user
parameters that I created earlier, and create a new port in a matter of minutes.

Inserting into the current design
And since there were several different port sizes in the casting I was reproducing, this proved to be a big time saver.

I effectively created a "template" for the port that I would use as a standard design feature.

Those benefits alone were enough to get me to bite on this method.

Now, all that was left to do was to open the design that needed the port, and insert the solid.

With a little magic from the move and combine command, I was able to subtract the port tool from the casting I needed, and end up with the right port.

But I'll save that one for a post a little later.

I hope this port helped, and if you have any tips on how you've tackled a similar challenge, feel free to leave a comment!

Inserting and moving the solid

Good luck!

Acknowledgements.

The print I used to create this valve body was provided via my subscription to AirCorps Library.  Thanks for the awesome work preserving vintage aircraft drawings!

Friday, June 30, 2017

A Friday Fusion 360 Tip - Going Off on a Tangent

My first try at the sequence valve housing.
After a few mistakes, I decided to try again. 
Just today I was working on a model in Fusion 360 of a small valve housing for the hydraulic system in an F4U Corsair.  Call it a self imposed design challenge.

This is actually my second try.  I had a first iteration, but I wasn't happy with it so I just decided to start again with a clean slate.

What can I say?  Life happens!  But I learned, and the new model will be better than its predecessor.

But in the process, I was cleaning some excess material with  the sweep command, and ran into something that left me with a combination of surprise, puzzlement, with a touch of frustration.  

The model path that I chose for my sweep wasn't complete.  The cut I was intending to make came up short.

The sweep coming up short, it should continue around the back
of the part.
I hope this isn't a bug.  I told myself.

I mean, I couldn't have made a mistake, right?  Right....  Of course not.....

Thankfully, I have years of 3D modeling experience behind me.  And when I say "years of 3D modeling experience", I mean "years of recovering from making mistakes building 3D models"!

So once my initial feeling of frustration passed, my troubleshooting brain kicked in and my experience told me to check the tangency of the sketch.

The arrow shows where I missed a tangent
Nothing will stop a path dead in it's tracks like a non tangent edge.

So I went ahead and checked the tangency of the path. Sure enough.  I had missed a tangent constraint.

You can see it in the image to the right.  On the left side of the highlighted area, there's a tangent constraint.  On the right, not so much....

So I added that in, and tried it again..  

Guess what!  It worked like a charm!  A small thing, but an important one.

So remember, whether your using Fusion 360, Autodesk Inventor, Solidworks, or another CAD tool, remember that one of the best set of tools you can have is a good set of troubleshooting steps!

Victory! 

And remember.... Watch those tangents!

Sunday, June 25, 2017

Aircraft Maintenance Class - A Milestone Reached... But Why?

The instructional airframes that taught me many lessons.
June 16th 2017 marked a big date for me.  I completed the airframe portion of my aircraft maintenance curriculum.  It's been a long time in coming for sure!

In the 750 hours the FAA required of me, I've covered everything from safety wire, to hydraulic to safety wire, and everything in between.

Now I'm not racing through 18 hour days between work and school, I have time to answer a few questions I seem to be asked.

"Why are you taking aircraft maintenance classes?"

I know I'm supposed to have some sort of awe inspiring, motivational answer.

But the truth of the matter is, I did it because I like airplanes, and when the time came to expand my skill set, I decided to accomplish that by jumping feet first into something I've always liked.

And what resulted was an ongoing journey that has been difficult, exhausting, frustrating, and most of all, rewarding.

I learned many lessons that I've been able to apply to my work as a mechanical designer.

So that's my story.  I'm hoping to find a little time to blog about my ongoing lessons, as well as dive back into Fusion 360 and share a few of those lessons there as well!

Sunday, March 05, 2017

The Amazon Web Service Outage of 2017

Earlier this week, Amazon Web Services suffered a service disruption.  For me personally, that meant disruption in Autodesk Fusion 360 (which I thankfully wasn't using at the time), and Fusion Lifecycle, which I was.  Fortunately, while Fusion Lifecycle was disrupted, it wasn't offline.

So, what happened?!?!

Several sites were affected.  My girlfriend sent me an instant message to let me know their CRM (Contact Resource Management) was down.  According to NPR, Gizmodo and Apple iCloud were affected.

The amazing, and perhaps disconcerting part of this is how easily the service was disrupted.  It seems that a technician was troubleshooting, and took off more servers than intended with a typographical error.

That's right, a typo, fat fingers as us techies call them, were the cause of the disruption.

Added to that, there didn't seem to enough redundancy, or possibly any, to absorb the lost servers while they were brought back online.

Now I'm no expert on Internet architecture. I imagine I know more than some, less than others.  I'm not going to prognosticate on what Amazon could have, and should have done, or should be doing.

There are plenty of people smarter than I who can do that better than I can.

But what I will say, is what I learned, relearned, and what I can do in the future.

What I learned and (relearned)

  • The cloud is a great tool, it's saved my class grades when I didn't print it out by mistake.  But the technology is new, and new technology is often developing systems, and developing systems can be prone to failure.  
  • As a whole, the cloud is pretty robust, but when it fails, it can fail spectacularly.  Many can be affected, and word can get out quick!
What can I do in the future


  • I can't make Autodesk, Amazon, or anyone else change their system, at least not directly.  But I've heard rumors that improved offline capabilities are on their way.  I hope they're true, and that after this outage, the efforts have been increased.  I'll be keeping my eyes out for that development! 
  • To this end, I'll be doing a better job of backing things up locally.  That's right, in a 180 degree turn, I'll be working in the cloud and backing up locally.  Just in case. 
I won't be abandoning the cloud, what I will be doing is approaching it more cautiously, and more diligently.  

In many ways, the cloud is a new frontier filled with pioneers, and pioneers must face the hazards of a new frontier to pave the way for others.  

For my part, I'll choose to stay on that frontier, but I will make sure I'm planning ahead! 

On into the brave new world!

photo credit: NPS Park Cultural Landscapes Program Chilkoot Trail via photopin (license)

Wednesday, February 22, 2017

A Fusion 360 Event with Autodesk and Haas Automation

Today I had a great opportunity to see Fusion 360 at the Autodesk Fusion 360 FastTrack Event in Anaheim, Ca.

The best part?  It was held at the Haas Automation Outlet!  What better way to see the Future of Making Things then to go somewhere the future is being made! 

The Haas Factory Outlet - There's magic inside!

The first thing I saw inside was a little bit of manufacturing heaven!  Cue the theme music from 2001: A Space Odyssey!



That was amazing enough, but next came the opportunity to see a little Fusion 360 in action!  The attendees had an opportunity to see, and try, taking a part in Fusion 360 and build tool paths and G-Code.

Let's do this! 

We also had the opportunity to talk among each other, get ideas, and ask questions.

Even better, we had the chance to talk to CNC machinists, and learn from there experience, which is invaluable.
I'm a far cry from being a machinist, but I have cut a few parts on a mill, and generally can create the shape I'm after if it's not too complicated.  But I learned a lot from listening to them, and will be bending the ear of our own machinists when I'm back in the office.

I remember the days of "Thou shalt not take heavy cuts with your tools!" and "Thou shalt cut radii that are divisible by 1/16th of an inch!"

So shall it be written!  So shall it be done! 




But now, tools like adaptive clearing to remove more material more efficiently.  We were also taught that there's technology exists to keep the tool moving efficiently.  In effect, even though the machine is cutting a curve, the computer can compensate in such a way that the load on the machine is no different than cutting a straight line.

New technology, and a new way of doing things for the future of making things!

I answered a few questions, and came away with a few more.  But most of all, I came away exited with what I'd learned, and excited with what more I could learn going forward!



Here's a few videos I grabbed!  Enjoy!  And get excited about what's out there!


A tool change, and back at the part! 


Finish him!

Sunday, February 19, 2017

When is "O" a "0"? - A Lesson Learned!

So here I am.  I've finished my course in aircraft electrical theory, now I have a week off before I start off into hydraulic and pneumatic systems.

My mentor and my nemesis.  The electrical trainer.
The instructor didn't let us use lights so we couldn't cheat! 
That gives me a little time to work  in Fusion 360 again, and I took the opportunity to build 3D model of a spar for a PT-17 Steerman biplane.

A PT-17 Steerman
By USN - scan from Robert L. Lawson (ed.): The History of US Naval Air Power. The Military Press, New York (USA), 1985. ISBN 0-517-414813, p. 72. US Navy cited as source., Public Domain, https://commons.wikimedia.org/w/index.php?curid=8046360

The modeling itself isn't very difficult, but my goal was to focus on the process of designing in Fusion 360, instead of focusing on the design itself.

I've purchased a subscription to a set of plans via my membership to AirCorps Library (A great resource BTW),.  They have a digitized copies of the spar, so I have a template to work from

The spar, being made of wood, has metal bushings pressed into it, and there lays the seeds of my error.

The spar modeled in Fusion 360, with the bushings assembled in.

The bushings are listed in tables, your typical "A" "B" columns with numbers.

But written in one of the columns was a suspicious looking "O".   It had to mean the number "0".  You know.  Zed. Naught.

An example of the "O" that got me. 
Confident in my conclusion of the figure's value, I modeled the bushing without a hole in it.

But as I my design progressed, I came to realize something.  That's not the number "0"!  That's the le letter "O".  As in a "letter O drill"!.

A letter "O" drill has a diameter of .316.  You can find it on any Imperial system drill chart.  Like this one here.

Fortunately, Fusion 360 did let me remedy that issue pretty fast.  But it did provide me a few moments of humor of what I saw, versus what the drawing meant.

Some of you may be thrown a mocking laugh, chuckle, or perhaps a guffaw in my general direction.  And I can't say I blame you.  Looking at the plans, the quotes around the letter should have implied it wasn't the number "0".

It also seemed odd to me that there would be a metal pin pressed into the wooden structure, but I shrugged it off as being a reinforcing pin.  It was only when I studied the assembly plans a little closer did I see that the bushing did have a hole in it.

I choose to blame it on the early hour of the morning (it was 5AM), and the coffee having yet to fully clear the fog in my brain.

So what have I learned?  And perhaps, what can you learn from my mistake?

  1. It pays to know how something is built.  Even though I missed the mark initially, it did finally dawn on me that the drawing called out a letter "O" drill.  Had I not drilled my own holes, and known that drills can be called out by letters, I may have shaken my fist and accused the drawing of being wrong. 
  2. Try to use your common sense.  I should have double checked the bushing against the assembly when I had my initial doubt.  It did clearly show the bushing as having a hole.  That might have tipped me off. 
  3. Try to understand how the drawing is meant to be interpreted.  This drawing was originally made in the 1930s.  It's format is much different than the drawings I use at work today.  Things considered obsolete in 2017, like fractions and certain styles of notes, were the standard when this drawing was created. 
  4. If you think that bullet 3 is a bit of a stretch, there are places that maintain drawings for decades.  Even at work we have drawings from the 1970s that look more like the drawing from the 1930s than the 2000s. 
  5. You're going to learn something new everyday.  Embrace it! 
So there are my lessons!  Thankfully, it's a small error, easily corrected, and with a lot to teach!   

Learn from my mistakes, and keep an open mind to the lessons our profession has to teach! 

Friday, January 27, 2017

Making up Miles by Measuring Inches - My 3DConnexion CADMouse Anecdote

***Disclaimer!***
The pictures I'm using for this blog post are of my home laptop running Autodesk Fusion 360 with a CADMouse and SpaceMouse, both made by 3DConnexion.  Security at work limits what I images I can share from my work station.

Better safe that jobless!

*** End Disclaimer!***


It's likely we've all heard the quote "A journey of a thousand miles begins with a single step".  And I'm just as sure that millions of "bar-stool philosophers" like myself have used it in some sort of discussion or debate.

Earlier this week, the microcosm of my CAD station gave me a moment to reflect on that quote again.

Since I started at my new position as a mechanical designer about a year ago, I've had a 3DConnexion SpaceMouse Pro and 3DConnexion CADMouse.  What can I say, work takes good care of me!

My laptop running Fusion 360.  I need to program buttons for this too. 
At one point, I had all the buttons mapped, and I was happily using radial menus and hotkeys.

But then, our CAD stations were upgraded, and all my settings were lost.

For most of that time, I keep telling myself.  "I need to rethink what commands I use most frequently, and start programming them into my devices."

And for most of that time, I've told myself.  "I really need to finalize what commands are really important to me.", or "I'll do it tomorrow.", or the infamous, "Once things slow down a bit."

That's how nearly a year passed with all my buttons set to their default settings.

My CADMouse menu in Fusion 360


Finally, I told myself, "Jon, just pick a command and program it!"

So I did.  I picked a few commands, and put them into my SpaceMouse Pro and CADMouse.

Programming the menus for my 3DConnexion CADMouse
And nearly instantly, I started wondering why I hadn't done it sooner!

What were the lessons I learned? 

  • Don't fall victim to "Analysis Paralysis".  I postponed making a decision until I had all the information.  The problem is, I had no hard stop to when I was done evaluating.  I could always "test a little longer". 
  • Just start already!  It's not like the path can't be changed while keeping the destination the same.  
  • We get so focused on the big goals, we forget the little steps.  Nobody knows that I customized my SpaceMouse Pro and CADMouse.  And there's really no need for them to.  But navigating my CAD system is much easier because I took a few minutes to do so.   


Conclusion?

Now, it's not like my 40 hour week suddenly turned into a 30 hour week, or that project that's going to take 18 months suddenly took twelve months because of my pre-programmed 3DConnexion devices.

But what did happen?

Things were just smoother, and dare I say a little more pleasant.  I wasn't reaching for my keyboard for commonly used hot keys, moving across a large monitor to get to an icon.

Now it didn't take my 40 hour week and make it into a 30 hour week, but it did make navigating my tools a little easier.

It's like having your favorite stations preprogrammed into your car radio.  It doesn't make a dramatic change in the lenght of your commute, but it does make the time you spend more pleasant.

Sometimes, it really is about the journey! 






Monday, January 23, 2017

Fusion 360 - 5 Updates on January 19th, 2017

Just a quick post on Fusion 360.  

Late last week, Fusion 360 received an update!

I won't spell it out here. Autodesk has already done that in their post explaining the update here.

Take a look at the new features and give them a try. 

Myself, I'm interested in the new branching preview they've added! 

Branching has been added! You can see it in the upper left corner of the screen.
I know I'm looking forward to some more features in the future!