Tuesday, July 19, 2011

Coming soon...AutoCAD MEP 2012 virtual training on CADLearning

Just wrapped up some consulting work with 4D Technologies and Matt Murphy's group - I helped them with the AutoCAD MEP 2012 tutorial series. A lot of after hours and weekend work, but I think you guys will really like it. The lesson includes about 12 hours of material, from fundamentals to advanced topics, including project navigator for MEP, schematics, modeling MEP systems, creating custom content and more.

Keep an eye on the CADLearning website - the sessions will be posted soon. For more details, go to http://www.cadlearning.com/.

They have packages for individuals and businesses - so check them out!

later - David B.

Thursday, July 7, 2011

AU...2011...He's back....

Batter up - it's time to start working on AU 2011. Got 4 classes this year:

Class ID: MP2503

Title: Supercharge your Revit MEP 2012
Type: Lecture

Class ID: MP2531-L
Title: Revit MEP - Fast Families for Engineers
Type: Hands-On Lab

Class ID: MP3724-L
Title: HVAC in AutoCAD MEP - New and Improved
Type: Hands-On Lab

Class ID: MP3726-L
Title: Revit MEP - Systems? Filters? Layouts? I Need Help!
Type: Hands-On Lab

I had to do the tips and tricks things again - working on some new ways to do the templates...and the labs were based on areas that were constant issues we cam across in our firm. So, hopefully, these will help you in these areas, too.
 
And we're back at the Venetian - so I'll see you in Vegas!

Shared Parameters - I learn something new every day...

Ever have this happen - you create a shared parameter, such as voltage for an electrical connector that you want to include in a schedule...then you add it to a family. Then, somewhere else, you wind up creating another shared parameter for the same value. In the scheduling dialog, you wind up with more than one parameter with the same name...in my case, I had 3 voltage parameters - but who knew which was the right one?

Here's a little secret about the shared parameters (thanks, Norb, for reminding me). It's not the name of the parameter that Revit remembers, but the GUID number:

*PARAM GUID NAME DATATYPE DATACATEGORY GROUP VISIBLE


PARAM 36abb100-7229-462d-afc8-9b0148c51bb6 Panel Source TEXT 11 1

PARAM 43632901-7736-4250-a30e-4af2329dbc2c Boiler EWT NUMBER 19 1
 
So, everytime you make a new parameter - they each have a unique identifier. If you're not working from the same shared parameters file, you could wind up with duplicates. Make sure you clearly define what you're going to use - for example, our new MEP shared parameters file only has values that are actually used in schedules...and common ones such as electrical load values - voltage, phase, apparent load - that are used by more than one schedule, are only created once.
 
So if you ever get one that shows up more than once, this is why...
 
Data's the truth...nyuk, nyuk, nyuk...
 
later - David B.

Make sure you do it this way - Editing pipe libraries

This is short and sweet...but I've been editing a lot of piping libraries lately...make sure you follow these steps:

  1. Select existing fittings that match desired parts - creating from scratch is not only painful, but foolish..for my buttweld pipe, I started from standard and went forward from there...
  2. Make a copy of the fittings you need to a new location - preferably, where you plan on storing these when they're added to a project or template.
  3. Select Corresponding Lookup tables - edit the fittings family to see what the referenced lookup table is - then make a copy.
  4. Rename Tables to match your standard - don't use the same names, especially if you're editing the values.
  5. Edit tables for correct sizes (again -review each fitting family and determine what dimensional parameters correspond with the correct ##values##).
  6. After editing, copy the Tables to default pipe lookup table location.
  7. Next, edit fitting to correctly located the lookup table (this must be in the final location – otherwise, the table may not find the correct file)
  8. Copy edited fittings to shared location, or load into your template.
  9. Create a test project, and define the pipe types, setting the fittings.
  10. Verify the pipe size material used matches the standard used to define the fittings, so OD, flange diameter, etc. match - don't forget about this, it's stored under the Mechanical Settings, under pipe sizes - we use the ones we purchased from CADworks, with some modifications to add pipe sizes.
  11. Flex/Test fittings and pipe types to make sure they work right!

 I've tried this both ways - making from scratch, and working from copies - and it's a heck of a lot easier to work from the copy.
 
Now - go make those pipes right!