There is a very helpful capability in Smart Hangers, an application for Autodesk® Revit®, to calculate Hanger Elevation from Level. That is if you have a Duct/Pipe/etc. inserted in Level 1 with the height of 3000mm, hanger would inherit this parameter and you can easily transfer it to your created parameter automatically. That can be used for very informative tagging.
So this is how I used it in 8 easy steps. I don't know exactly how your organization does the tagging, but this is an example of what you can do:
People often ask about how Smart Hanger solution works and it is important to know things to fully understand the concept and be able to make their own ones to utilize the Smart Hangers in projects.
First, I want to point out, that Smart Hangers puts hangers on faces of elements (Ducts/Pipes/Cable Trays, etc.). So, if you change an element (e.g. duct position), hangers would be attached to it and wouldn't be lost.)
Truss+ RT is a powerful application for Autodesk® Revit® that lets Revit users to make their truss design the way he/she wants it to be. For example, in different areas outriggers are done differently.
In this article you’ll find one of possible outrigger placement methods when outrigger beams go over the gable end truss.
There are sometimes situations when inserting trusses with Truss+ RT trusses are connected incorrectly. That is because Revit® parses structural truss connections independently and creates its own interpretation of how these should be joined together.
For that reason, we've built Update Truss Connection function into Truss+ RT. To use it you need to select the truss you want connections to be updated and use the function which is under Trusses menu category in Truss+ RT.
Another tip is for Truss placement at walls. When trusses are placed on the same level as walls are, bottom chord cuts the wall by half of its height.
That is because structural truss members are placed in the middle of their section by default. The best way to solve that is to make wall top offset of the length equal to half of the section height of bottom chord.
If you have any other questions please contact us at email@example.com.
There are situations when you need to insert flat trusses in your project. That might be necessary in various situations. Looking at it conceptually, flat trusses are common trusses with zero slope angle and higher heel height.
It is easy to add them in your Autodesk® Revit® project using Truss+ RT solution. This explanation also works the same with sloped flat roof, but you should use different truss types for that. For example, mono pitch trusses.
To make flat truss you should take these steps:
Let's assume you're structural engineer or modeller in the firm that designs framed or modular buildings. Most of the work is done in BIM applications these days to coordinate the design and solve all nasty problems in software rather than in field.
Modelling is not an easy job to do, there are a lot of thoughts around the smallest elements in a project depending on what detail level a designer tries to achieve. More detail pays off, as the building is being constructed for the first in the computer (with all related problems), and for the second time, building it in reality these problems have already been solved. On the other side it is a very time consuming work and might take as much as real construction if not thought through.
BIM software such as Autodesk® Revit® allows all designers to be at one page and realize their decisions in a model. It lets a designer to be capable of modelling in such detail that every part or element might be in a model. But if not automated it can become a nightmare. So helpers are crucial to get things done quickly.
Today I would like to introduce how to start using of Smart Hangers software that is a powerful application for Autodesk® Revit® for distribution of Hangers or Supports to Ducts, Pipes, Cable Trays, Conduits or other line based Generic Model elements in various ways.
While developing our solution for truss modelling in Autodesk® Revit® Truss+ RT we have come up with some fixes that let users use the solution more stably. There were some issues with Revit® 2014, especially with metal trusses due to Revit's limitations to minimum lengths.
We've found that with certain conditions faces of Revit® families reach the minimum length of 1/32 in. (0.8 mm) allowable by Autodesk® Revit® and cause families to collapse. We've done a workaround and put the entire package to the Update to avoid this issue.
We've updated Revit® truss families and Truss+ RT itself. For stable use of it, use the new Revit® trusses that come with new Truss+ RT update ONLY.
After the first step when I have explained how to model the architectural part of the building and its roof, today I'll describe the most convenient way to design Rafter roof:
I'll make rafters using Rafter+ tool from Wood Framing Pro suite. It works out of the box. Rafter+ has its own modifiable structural framings, which loads as soon as you use one of its functions for rafter system distribution.